Update compiler, remove deprecated modules

Deprecate Integer and isPseudoprime()
Work around 2.086 bugs
2020-05-04 06:03:45 +02:00 · 2019-09-03 09:13:29 +02:00 · 2019-08-28 20:50:15 +02:00 · 2019-04-24 06:53:08 +02:00 · 2019-04-22 10:50:58 +02:00 · 2019-04-19 09:34:30 -04:00
123 changed files with 9170 additions and 9506 deletions
--- a/.gitignore
+++ b/.gitignore
@ -9,8 +9,8 @@ dub.selections.json
 __test__*__
 __test__*__.core
-/tanya-test-*
+tanya-*test-*
-/dub_platform_probe-*
+/dub_platform_probe[_-]*
 /docs/
 /docs.json
--- a/.travis.yml
+++ b/.travis.yml
@ -7,19 +7,25 @@ os:
 language: d
 d:
- dmd-2.082.0
+- dmd-2.091.1
 - dmd-2.081.2
 env:
  global:
  - LATEST=2.091.1
  matrix:
  - ARCH=x86_64
  - ARCH=x86
 matrix:
  include:
-  - name: "D-Scanner"
+  - name: D-Scanner
-    d: dmd-2.082.0
+    d: dmd-$LATEST
-    env: DSCANNER=0.5.10
+    env: DSCANNER=0.7.0
    os: linux
  - name: DDoc
    d: dmd-$LATEST
    env: DDOC=true
    os: linux
 addons:
@ -28,20 +34,35 @@ addons:
    - gcc-multilib
 before_script:
- if [ "`$DC --version | head -n 1 | grep 'v2.082.0'`" ] &&
+- if [ "`$DC --version | head -n 1 | grep v$LATEST`" ] &&
-     [ -z "$DSCANNER" ]; then
+     [ -z "$DSCANNER$DDOC" ]; then
    export UNITTEST="unittest-cov";
  fi
 script:
- if [ -z "$DSCANNER" ]; then
+- set -e;
  if [ -n "$DDOC" ]; then
    dub build :meta -b ddox --compiler=$DC;
    dub build :sys -b ddox --compiler=$DC;
    dub build :os -b ddox --compiler=$DC;
    dub build :encoding -b ddox --compiler=$DC;
    dub build :middle -b ddox --compiler=$DC;
    dub build :test -b ddox --compiler=$DC;
    dub build -b ddox --compiler=$DC;
  elif [ -z "$DSCANNER" ]; then
    dub test :meta -b ${UNITTEST:-unittest} --arch=$ARCH --compiler=$DC;
    dub test :sys -b ${UNITTEST:-unittest} --arch=$ARCH --compiler=$DC;
    dub test :os -b ${UNITTEST:-unittest} --arch=$ARCH --compiler=$DC;
    dub test :encoding -b ${UNITTEST:-unittest} --arch=$ARCH --compiler=$DC;
    dub test :middle -b ${UNITTEST:-unittest} --arch=$ARCH --compiler=$DC;
    dub test :test -b ${UNITTEST:-unittest} --arch=$ARCH --compiler=$DC;
    dub test -b ${UNITTEST:-unittest} --arch=$ARCH --compiler=$DC;
  else
    dub fetch dscanner --version=$DSCANNER;
-    FILES=$(find source -type f);
+    FILES=$(find */tanya -type f);
    dub run dscanner -- --styleCheck $FILES;
  fi
 after_success:
- test "$UNITTEST" && bash <(curl -s https://codecov.io/bash)
+- test "$UNITTEST" && bash <(curl -s https://codecov.io/bash) || true
--- a/README.md
+++ b/README.md
@ -31,7 +31,6 @@ string, Set, Hash table.
 * `conv`: This module provides functions for converting between different
 types.
 * `encoding`: This package provides tools to work with text encodings.
 * `exception`: Common exceptions and errors.
 * `format`: Formatting and conversion functions.
 * `functional`: Functions that manipulate other functions and their argument
 lists.
@ -173,27 +172,9 @@ parameter is used)
 ### Supported compilers
-| DMD     | GCC    |
+| DMD     | GCC       |
-|:-------:|:------:|
+|:-------:|:---------:|
-| 2.082.0 | gdc-8  |
+| 2.091.1 | gdc trunk |
 | 2.081.2 | gdc-7  |
 ### Release management
 Tanya is still under active development and it isn't possible to provide great
 backwards-compatibility at this stage. This won't change until 1.0.0. Almost
 every release contains new features or API changes alongside bug fixes. Thus:
 - Patch releases add new functionality and bug fixes in a backwards-compatible
 manner
 - Minor releases contain API breakages
 - Major release number is always the same: `0.x.x`
 Deprecated functionality is where possible marked as such before getting
 removed. It is left in the library for one release: If 0.8.1 deprecates some
 feature, it is removed in the next release: 0.9.0.
 ## Further characteristics
--- a/appveyor.yml
+++ b/appveyor.yml
@ -4,16 +4,10 @@ os: Visual Studio 2015
 environment:
  matrix:
    - DC: dmd
-      DVersion: 2.082.0
+      DVersion: 2.091.1
      arch: x64
    - DC: dmd
-      DVersion: 2.082.0
+      DVersion: 2.091.1
      arch: x86
    - DC: dmd
      DVersion: 2.081.2
      arch: x64
    - DC: dmd
      DVersion: 2.081.2
      arch: x86
 skip_tags: true
@ -51,4 +45,10 @@ test_script:
  - echo %PATH%
  - 'dub --version'
  - '%DC% --version'
  - dub test :meta -b unittest --arch=%Darch% --compiler=%DC%
  - dub test :sys -b unittest --arch=%Darch% --compiler=%DC%
  - dub test :os -b unittest --arch=%Darch% --compiler=%DC%
  - dub test :encoding -b unittest --arch=%Darch% --compiler=%DC%
  - dub test :middle -b unittest --arch=%Darch% --compiler=%DC%
  - dub test :test -b unittest --arch=%Darch% --compiler=%DC%
  - dub test -b unittest --arch=%Darch% --compiler=%DC%
--- a/arch/build.ninja
+++ b/arch/build.ninja
@ -6,9 +6,9 @@ rule archive
 build abs.o: gas x64/linux/math/abs.S
 build log.o: gas x64/linux/math/log.S
-build cmp.o: gas x64/linux/memory/cmp.S
+build equal.o: gas x64/linux/memory/equal.S
 build fill.o: gas x64/linux/memory/fill.S
 build copy.o: gas x64/linux/memory/copy.S
 build syscall.o: gas x64/linux/syscall.S
-build tanya.a: archive syscall.o copy.o fill.o cmp.o log.o abs.o
+build tanya.a: archive syscall.o copy.o fill.o equal.o log.o abs.o
--- a/arch/x64/linux/memory/equal.S
+++ b/arch/x64/linux/memory/equal.S
@ -1,20 +1,19 @@
 	.text
 /*
- * cmpMemory.
+ * equalMemory.
 *
 * rdi - r1 length
 * rsi - r1 data.
 * rdx - r2 length.
 * rcx - r2 data.
 */
-	.globl _D5tanya6memory2op9cmpMemoryFNaNbNixAvxQdZi
+	.globl _D5tanya6memory2op11equalMemoryFNaNbNixAvxQdZb
-	.type _D5tanya6memory2op9cmpMemoryFNaNbNixAvxQdZi, @function
+	.type _D5tanya6memory2op11equalMemoryFNaNbNixAvxQdZb, @function
-_D5tanya6memory2op9cmpMemoryFNaNbNixAvxQdZi:
+_D5tanya6memory2op11equalMemoryFNaNbNixAvxQdZb:
 		// Compare the lengths
 		cmp %rdx, %rdi
-		jl  less
+		jne not_equal
 		jg  greater
 		mov %rcx, %rdi
@ -26,8 +25,7 @@ _D5tanya6memory2op9cmpMemoryFNaNbNixAvxQdZi:
 	naligned:
 		cmpsb
-		jl less
+		jne not_equal
 		jg greater
 		dec %rdx
 		test $0x07, %edi
@ -38,8 +36,7 @@ _D5tanya6memory2op9cmpMemoryFNaNbNixAvxQdZi:
 		shr $0x03, %rcx
 		repe cmpsq
-		jl less
+		jne not_equal
 		jg greater
 		and $0x07, %edx
 		jz equal
@ -49,19 +46,14 @@ _D5tanya6memory2op9cmpMemoryFNaNbNixAvxQdZi:
 		cmp $0x0, %rcx
 		repe cmpsb
-		jl less
+		jne not_equal
 		jg greater
 	equal:
 		mov $0x01, %rax // Return 1
 		jmp end
 	not_equal:
 		xor %rax, %rax // Return 0
 		jmp end
 	greater:
 		mov $0x01, %rax
 		jmp end
 	less:
 		mov $-0x01, %rax
 	end:
 		ret
--- a/dub.json
+++ b/dub.json
@ -9,10 +9,28 @@
 	"targetType": "library",
 	"dependencies": {
 		"tanya:meta": "*",
 		"tanya:sys": "*",
 		"tanya:os": "*",
 		"tanya:encoding": "*",
 		"tanya:middle": "*",
 		"tanya:test": "*"
 	},
 	"dependencies-linux": {
 		"mir-linux-kernel": "~>1.0.0"
 	},
 	"subPackages": [
 		"./meta",
 		"./sys",
 		"./os",
 		"./encoding",
 		"./middle",
 		"./test"
 	],
 	"configurations": [
 		{
 			"name": "library",
@ -31,9 +49,38 @@
 			"preBuildCommands": ["ninja -C arch"],
 			"lflags": ["arch/tanya.a"],
 			"versions": ["TanyaNative"]
 		},
 		{
 			"name": "unittest",
 			"versions": ["TanyaPhobos"],
 			"importPaths": [
 				"./source",
 				"./tests"
 			],
 			"sourcePaths": [
 				"./source",
 				"./tests"
 			]
 		},
 		{
 			"name": "unittest-native",
 			"platforms": ["linux-x86_64-gdc"],
 			"preBuildCommands": ["ninja -C arch"],
 			"lflags": ["arch/tanya.a"],
 			"versions": ["TanyaNative"],
 			"importPaths": [
 				"./source",
 				"./tests"
 			],
 			"sourcePaths": [
 				"./source",
 				"./tests"
 			]
 		}
 	],
 	"dflags-dmd": ["-dip1000"],
 	"libs-windows": ["advapi32"],
 	"libs-windows-x86_mscoff": ["iphlpapi"],
 	"libs-windows-x86_64": ["iphlpapi"]
--- a/encoding/dub.json
+++ b/encoding/dub.json
@ -0,0 +1,17 @@
 {
 	"name": "encoding",
 	"description": "This package provides tools to work with text encodings",
 	"targetType": "library",
 	"dependencies": {
 		"tanya:meta": "*"
 	},
 	"sourcePaths": [
 		"."
 	],
 	"importPaths": [
 		"."
 	],
 	"dflags-dmd": ["-dip1000"]
 }
--- a/encoding/tanya/encoding/ascii.d
+++ b/encoding/tanya/encoding/ascii.d
@ -8,11 +8,11 @@
 * ASCII is $(B A)merican $(B S)tandard $(B C)ode for $(B I)nformation
 * $(B I)nterchange.
 *
- * Copyright: Eugene Wissner 2017-2018.
+ * Copyright: Eugene Wissner 2017-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
- * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/encoding/ascii.d,
+ * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/encoding/tanya/encoding/ascii.d,
 *                 tanya/encoding/ascii.d)
 */
 module tanya.encoding.ascii;
--- a/encoding/tanya/encoding/package.d
+++ b/encoding/tanya/encoding/package.d
@ -5,11 +5,11 @@
 /**
 * This package provides tools to work with text encodings.
 *
- * Copyright: Eugene Wissner 2017-2018.
+ * Copyright: Eugene Wissner 2017-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
- * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/encoding/package.d,
+ * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/encoding/tanya/encoding/package.d,
 *                 tanya/encoding/package.d)
 */
 module tanya.encoding;
--- a/meta/dub.json
+++ b/meta/dub.json
@ -0,0 +1,13 @@
 {
 	"name": "meta",
 	"description": "Template metaprogramming",
 	"targetType": "library",
 	"sourcePaths": [
 		"."
 	],
 	"importPaths": [
 		"."
 	],
 	"dflags-dmd": ["-dip1000"]
 }
--- a/source/tanya/meta/metafunction.d
+++ b/source/tanya/meta/metafunction.d
@ -9,11 +9,11 @@
 * It contains different algorithms for iterating, searching and modifying
 * template arguments.
 *
- * Copyright: Eugene Wissner 2017-2018.
+ * Copyright: Eugene Wissner 2017-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
- * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/meta/metafunction.d,
+ * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/meta/tanya/meta/metafunction.d,
 *                 tanya/meta/metafunction.d)
 */
 module tanya.meta.metafunction;
@ -238,18 +238,6 @@ struct Pack(Args...)
    alias Seq this;
 }
 deprecated("Use Pack instead")
 struct Tuple(Args...)
 {
    /// Elements in this tuple as $(D_PSYMBOL AliasSeq).
    alias Seq = Args;
    /// The length of the tuple.
    enum size_t length = Args.length;
    alias Seq this;
 }
 ///
@nogc nothrow pure @safe unittest
 {
@ -810,22 +798,7 @@ alias AliasSeq(Args...) = Args;
 * Returns: $(D_KEYWORD true) if all the items of $(D_PARAM L) satisfy
 *          $(D_PARAM F), $(D_KEYWORD false) otherwise.
 */
-template allSatisfy(alias F, L...)
+enum bool allSatisfy(alias F, L...) = Filter!(templateNot!F, L).length == 0;
 if (__traits(isTemplate, F))
 {
    static if (L.length == 0)
    {
        enum bool allSatisfy = true;
    }
    else static if (F!(L[0]))
    {
        enum bool allSatisfy = allSatisfy!(F, L[1 .. $]);
    }
    else
    {
        enum bool allSatisfy = false;
    }
 }
 ///
@nogc nothrow pure @safe unittest
@ -848,22 +821,7 @@ if (__traits(isTemplate, F))
 * Returns: $(D_KEYWORD true) if any of the items of $(D_PARAM L) satisfy
 *          $(D_PARAM F), $(D_KEYWORD false) otherwise.
 */
-template anySatisfy(alias F, L...)
+enum bool anySatisfy(alias F, L...) = Filter!(F, L).length != 0;
 if (__traits(isTemplate, F))
 {
    static if (L.length == 0)
    {
        enum bool anySatisfy = false;
    }
    else static if (F!(L[0]))
    {
        enum bool anySatisfy = true;
    }
    else
    {
        enum bool anySatisfy = anySatisfy!(F, L[1 .. $]);
    }
 }
 ///
@nogc nothrow pure @safe unittest
@ -873,22 +831,19 @@ if (__traits(isTemplate, F))
    static assert(!anySatisfy!(isSigned, uint, ushort, ulong));
 }
-private template indexOf(ptrdiff_t i, Args...)
+private template indexOf(Args...)
 if (Args.length > 0)
 {
-    static if (Args.length == 1)
+    static foreach (i, Arg; Args[1 .. $])
    {
        static if (!is(typeof(indexOf) == ptrdiff_t) && isEqual!(Args[0], Arg))
        {
            enum ptrdiff_t indexOf = i;
        }
    }
    static if (!is(typeof(indexOf) == ptrdiff_t))
    {
        enum ptrdiff_t indexOf = -1;
    }
    else static if (isEqual!(Args[0 .. 2]))
    {
        enum ptrdiff_t indexOf = i;
    }
    else
    {
        enum ptrdiff_t indexOf = indexOf!(i + 1,
                                          AliasSeq!(Args[0], Args[2 .. $]));
    }
 }
 /**
@ -903,13 +858,13 @@ if (Args.length > 0)
 */
 template staticIndexOf(T, L...)
 {
-    enum ptrdiff_t staticIndexOf = indexOf!(0, AliasSeq!(T, L));
+    enum ptrdiff_t staticIndexOf = indexOf!(T, L);
 }
 /// ditto
 template staticIndexOf(alias T, L...)
 {
-    enum ptrdiff_t staticIndexOf = indexOf!(0, AliasSeq!(T, L));
+    enum ptrdiff_t staticIndexOf = indexOf!(T, L);
 }
 ///
@ -932,16 +887,10 @@ template staticIndexOf(alias T, L...)
 * Returns: $(D_KEYWORD true) if $(D_PARAM T) can be found in $(D_PARAM L),
 *          $(D_KEYWORD false) otherwise.
 */
-template canFind(T, L...)
+enum bool canFind(T, L...) = staticIndexOf!(T, L) != -1;
 {
    enum bool canFind = indexOf!(0, AliasSeq!(T, L)) != -1;
 }
 /// ditto
-template canFind(alias T, L...)
+enum bool canFind(alias T, L...) = staticIndexOf!(T, L) != -1;
 {
    enum bool canFind = indexOf!(0, AliasSeq!(T, L)) != -1;
 }
 ///
@nogc nothrow pure @safe unittest
@ -1141,30 +1090,6 @@ if (__traits(isTemplate, cmp))
    static assert(!isSorted!(cmp, long, byte, ubyte, short, uint));
 }
@nogc nothrow pure @safe unittest
 {
    enum cmp(int x, int y) = x - y;
    static assert(isSorted!(cmp));
    static assert(isSorted!(cmp, 1));
    static assert(isSorted!(cmp, 1, 2, 2));
    static assert(isSorted!(cmp, 1, 2, 2, 4));
    static assert(isSorted!(cmp, 1, 2, 2, 4, 8));
    static assert(!isSorted!(cmp, 32, 2, 2, 4, 8));
    static assert(isSorted!(cmp, 32, 32));
 }
@nogc nothrow pure @safe unittest
 {
    enum cmp(int x, int y) = x < y;
    static assert(isSorted!(cmp));
    static assert(isSorted!(cmp, 1));
    static assert(isSorted!(cmp, 1, 2, 2));
    static assert(isSorted!(cmp, 1, 2, 2, 4));
    static assert(isSorted!(cmp, 1, 2, 2, 4, 8));
    static assert(!isSorted!(cmp, 32, 2, 2, 4, 8));
    static assert(isSorted!(cmp, 32, 32));
 }
 /**
 * Params:
 *  T    = A template.
@ -1653,6 +1578,7 @@ template EraseAll(alias T, L...)
 *          $(D_PARAM pred).
 */
 template Filter(alias pred, L...)
 if (__traits(isTemplate, pred))
 {
    static if (L.length == 0)
    {
@ -1813,3 +1739,62 @@ if (T.length == 2)
    static assert(is(Select!(true, int, float) == int));
    static assert(is(Select!(false, int, float) == float));
 }
 /**
 * Attaches a numeric index to each element from $(D_PARAM Args).
 *
 * $(D_PSYMBOL EnumerateFrom) returns a sequence of tuples ($(D_PSYMBOL Pack)s)
 * consisting of the index of each element and the element itself.
 *
 * Params:
 *  start = Enumeration initial value.
 *  Args  = Enumerated sequence.
 *
 * See_Also: $(D_PSYMBOL Enumerate).
 */
 template EnumerateFrom(size_t start, Args...)
 {
    static if (Args.length == 0)
    {
        alias EnumerateFrom = AliasSeq!();
    }
    else
    {
        alias EnumerateFrom = AliasSeq!(Pack!(start, Args[0]), EnumerateFrom!(start + 1, Args[1 .. $]));
    }
 }
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(EnumerateFrom!(0, int, uint, bool).length == 3);
 }
 ///
@nogc nothrow pure @safe unittest
 {
    alias Expected = AliasSeq!(Pack!(cast(size_t) 0, int),
                               Pack!(cast(size_t) 1, uint));
    static assert(is(EnumerateFrom!(0, int, uint) == Expected));
 }
 /**
 * Attaches a numeric index to each element from $(D_PARAM Args).
 *
 * $(D_PSYMBOL EnumerateFrom) returns a sequence of tuples ($(D_PSYMBOL Pack)s)
 * consisting of the index of each element and the element itself.
 *
 * Params:
 *  Args  = Enumerated sequence.
 *
 * See_Also: $(D_PSYMBOL EnumerateFrom).
 */
 alias Enumerate(Args...) = EnumerateFrom!(0, Args);
 ///
@nogc nothrow pure @safe unittest
 {
    alias Expected = AliasSeq!(Pack!(cast(size_t) 0, int),
                               Pack!(cast(size_t) 1, uint));
    static assert(is(Enumerate!(int, uint) == Expected));
 }
--- a/source/tanya/meta/package.d
+++ b/source/tanya/meta/package.d
@ -9,11 +9,11 @@
 * to transform from one type to another. It has also different algorithms for
 * iterating, searching and modifying template arguments.
 *
- * Copyright: Eugene Wissner 2017-2018.
+ * Copyright: Eugene Wissner 2017-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
- * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/meta/package.d,
+ * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/meta/tanya/meta/package.d,
 *                 tanya/meta/package.d)
 */
 module tanya.meta;
--- a/source/tanya/meta/trait.d
+++ b/source/tanya/meta/trait.d
@ -8,11 +8,11 @@
 * Templates in this module are used to obtain type information at compile
 * time.
 *
- * Copyright: Eugene Wissner 2017-2018.
+ * Copyright: Eugene Wissner 2017-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
- * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/meta/trait.d,
+ * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/meta/tanya/meta/trait.d,
 *                 tanya/meta/trait.d)
 */
 module tanya.meta.trait;
@ -549,19 +549,6 @@ template isPointer(T)
    static assert(!isPointer!bool);
 }
 // typeof(null) is not a pointer.
@nogc nothrow pure @safe unittest
 {
    static assert(!isPointer!(typeof(null)));
    static assert(!isPointer!(const shared typeof(null)));
    enum typeOfNull : typeof(null)
    {
        null_ = null,
    }
    static assert(!isPointer!typeOfNull);
 }
 /**
 * Determines whether $(D_PARAM T) is an array type (dynamic or static, but
 * not an associative one).
@ -1478,21 +1465,9 @@ if (F.length == 1)
    static assert(!isCallable!I);
 }
@nogc nothrow pure @safe unittest
 {
    static struct S
    {
        @property int opCall()
        {
            return 0;
        }
    }
    S s;
    static assert(isCallable!S);
    static assert(isCallable!s);
 }
 /**
 * Determines whether $(D_PARAM T) defines a symbol $(D_PARAM member).
 *
 * Params:
 *  T      = Aggregate type.
 *  member = Symbol name.
@ -1674,63 +1649,6 @@ if (isCallable!F)
    static assert(is(FunctionTypeOf!(() {}) == function));
 }
@nogc nothrow pure @safe unittest
 {
    static assert(is(FunctionTypeOf!(void delegate()) == function));
    static void staticFunc()
    {
    }
    auto functionPointer = &staticFunc;
    static assert(is(FunctionTypeOf!staticFunc == function));
    static assert(is(FunctionTypeOf!functionPointer == function));
    void func()
    {
    }
    auto dg = &func;
    static assert(is(FunctionTypeOf!func == function));
    static assert(is(FunctionTypeOf!dg == function));
    interface I
    {
        @property int prop();
    }
    static assert(is(FunctionTypeOf!(I.prop) == function));
    static struct S
    {
        void opCall()
        {
        }
    }
    class C
    {
        static void opCall()
        {
        }
    }
    S s;
    static assert(is(FunctionTypeOf!s == function));
    static assert(is(FunctionTypeOf!C == function));
    static assert(is(FunctionTypeOf!S == function));
 }
@nogc nothrow pure @safe unittest
 {
    static struct S2
    {
        @property int opCall()
        {
            return 0;
        }
    }
    S2 s2;
    static assert(is(FunctionTypeOf!S2 == function));
    static assert(is(FunctionTypeOf!s2 == function));
 }
 /**
 * Determines the return type of the callable $(D_PARAM F).
 *
@ -2339,6 +2257,61 @@ if (isCallable!F)
    static assert((functionAttributes!func1 & FunctionAttribute.return_) == 0);
 }
 /**
 * Determines whether a function has attribute.
 *
 * This template should get at least two arguments: the function itself and the
 * attributes it should be tested for. If more than one attribute is given,
 * $(D_PSYMBOL hasFunctionAttributes) evaluates to $(D_KEYWORD true) if all of
 * them are present. The attributes should be $(D_PSYMBOL FunctionAttribute)
 * members.
 *
 * Params:
 *  Args = The function and attributes.
 *
 * Returns:
 *
 * See_Also: $(D_PSYMBOL FunctionAttribute).
 */
 template hasFunctionAttributes(Args...)
 if (Args.length > 1
 && is(typeof(Args[1]) == FunctionAttribute)
 && isCallable!(Args[0])
 && allSameType!(Map!(TypeOf, Args[1 .. $])))
 {
    enum uint pred(Args_...) = Args_[0] | Args_[1];
    template Reduce(Args_...)
    {
        static if (Args_.length == 1)
        {
            enum uint Reduce = Args_[0];
        }
        else
        {
            enum uint Reduce = Reduce!(pred!(Args_[0], Args_[1]), Args_[2 .. $]);
        }
    }
    enum uint field = Reduce!(0, Args[1 .. $]);
    enum hasFunctionAttributes = (functionAttributes!(Args[0]) & field) == field;
 }
 ///
@nogc nothrow pure @safe unittest
 {
    static struct Range
    {
        @property auto front() inout
        {
            return 8;
        }
    }
    static assert(hasFunctionAttributes!(Range.init.front, FunctionAttribute.inout_));
    static assert(!hasFunctionAttributes!(Range.init.front, FunctionAttribute.const_));
    static assert(!hasFunctionAttributes!(Range.init.front,
                  FunctionAttribute.inout_, FunctionAttribute.const_));
 }
 /**
 * Returns a tuple with default values of the parameters to $(D_PARAM F).
 *
@ -2550,44 +2523,6 @@ template hasElaborateAssign(T)
    }
 }
@nogc nothrow pure @safe unittest
 {
    static assert(!hasElaborateAssign!int);
    static struct S1
    {
        void opAssign(S1)
        {
        }
    }
    static struct S2
    {
        void opAssign(int)
        {
        }
    }
    static struct S3
    {
        S1 s;
        alias s this;
    }
    static assert(hasElaborateAssign!S1);
    static assert(!hasElaborateAssign!(const S1));
    static assert(hasElaborateAssign!(S1[1]));
    static assert(!hasElaborateAssign!(S1[0]));
    static assert(!hasElaborateAssign!S2);
    static assert(hasElaborateAssign!S3);
    static struct S4
    {
        void opAssign(S4)
        {
        }
        @disable this(this);
    }
    static assert(hasElaborateAssign!S4);
 }
 /**
 * Returns all members of $(D_KEYWORD enum) $(D_PARAM T).
 *
@ -2640,16 +2575,6 @@ if (is(T == enum))
    static assert([EnumMembers!E] == [E.one, E.two, E.three]);
 }
 // Produces a tuple for an enum with only one member
@nogc nothrow pure @safe unittest
 {
    enum E : int
    {
        one = 0,
    }
    static assert(EnumMembers!E == AliasSeq!0);
 }
 /**
 * Different than $(D_INLINECODE T.alignof), which is the same for all class
 * types,  $(D_PSYMBOL classInstanceOf) determines the alignment of the class
@ -2690,6 +2615,58 @@ if (is(T == class))
    static assert(classInstanceAlignment!C2 == S.alignof);
 }
 /**
 * Returns the size in bytes of the state that needs to be allocated to hold an
 * object of type $(D_PARAM T).
 *
 * There is a difference between the `.sizeof`-property and
 * $(D_PSYMBOL stateSize) if $(D_PARAM T) is a class or an interface.
 * `T.sizeof` is constant on the given architecture then and is the same as
 * `size_t.sizeof` and `ptrdiff_t.sizeof`. This is because classes and
 * interfaces are reference types and `.sizeof` returns the size of the
 * reference which is the same as the size of a pointer. $(D_PSYMBOL stateSize)
 * returns the size of the instance itself.
 *
 * The size of a dynamic array is `size_t.sizeof * 2` since a dynamic array
 * stores its length and a data pointer. The size of the static arrays is
 * calculated differently since they are value types. It is the array length
 * multiplied by the element size.
 *
 * `stateSize!void` is `1` since $(D_KEYWORD void) is mostly used as a synonym
 * for $(D_KEYWORD byte)/$(D_KEYWORD ubyte) in `void*`.
 *
 * Params:
 *  T = Object type.
 *
 * Returns: Size of an instance of type $(D_PARAM T).
 */
 template stateSize(T)
 {
    static if (isPolymorphicType!T)
    {
        enum size_t stateSize = __traits(classInstanceSize, T);
    }
    else
    {
        enum size_t stateSize = T.sizeof;
    }
 }
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(stateSize!int == 4);
    static assert(stateSize!bool == 1);
    static assert(stateSize!(int[]) == (size_t.sizeof * 2));
    static assert(stateSize!(short[3]) == 6);
    static struct Empty
    {
    }
    static assert(stateSize!Empty == 1);
    static assert(stateSize!void == 1);
 }
 /**
 * Tests whether $(D_INLINECODE pred(T)) can be used as condition in an
 * $(D_KEYWORD if)-statement or a ternary operator.
@ -2854,6 +2831,46 @@ template hasUDA(alias symbol, alias attr)
    static assert(!hasUDA!(a, Attr2));
 }
 /**
 * If $(D_PARAM T) is a type, constructs its default value, otherwise
 * $(D_PSYMBOL evalUDA) aliases itself to $(D_PARAM T).
 *
 * This template is useful when working with UDAs with default parameters,
 * i.e. if an attribute can be given as `@Attr` or `@Attr("param")`,
 * $(D_PSYMBOL evalUDA) makes `@Attr()` from `@Attr`, but returns
 * `@Attr("param")` as is.
 *
 * $(D_PARAM T) (or its type if it isn't a type already) should have a default
 * constructor.
 *
 * Params:
 *  T = User Defined Attribute.
 */
 alias evalUDA(alias T) = T;
 /// ditto
 alias evalUDA(T) = Alias!(T());
 ///
@nogc nothrow pure @safe unittest
 {
    static struct Length
    {
        size_t length = 8;
    }
    @Length @Length(0) int i;
    alias uda = AliasSeq!(__traits(getAttributes, i));
    alias attr1 = evalUDA!(uda[0]);
    alias attr2 = evalUDA!(uda[1]);
    static assert(is(typeof(attr1) == Length));
    static assert(is(typeof(attr2) == Length));
    static assert(attr1.length == 8);
    static assert(attr2.length == 0);
 }
 /**
 * Tests whether $(D_PARAM T) is an inner class, i.e. a class nested inside
 * another class.
@ -2902,14 +2919,6 @@ template isInnerClass(T)
    static assert(!isInnerClass!(O.Fake));
 }
@nogc nothrow pure @safe unittest
 {
    class RefCountedStore(T)
    {
    }
    static assert(!isInnerClass!(RefCountedStore!int));
 }
 /**
 * Returns the types of all members of $(D_PARAM T).
 *
@ -3037,28 +3046,3 @@ enum bool isOrderingComparable(T) = ifTestable!(T, a => a > a);
 {
    static assert(isOrderingComparable!int);
 }
@nogc nothrow pure @safe unittest
 {
    static struct DisabledOpEquals
    {
        @disable bool opEquals(typeof(this)) @nogc nothrow pure @safe;
        int opCmp(typeof(this)) @nogc nothrow pure @safe
        {
            return 0;
        }
    }
    static assert(!isEqualityComparable!DisabledOpEquals);
    static assert(isOrderingComparable!DisabledOpEquals);
    static struct OpEquals
    {
        bool opEquals(typeof(this)) @nogc nothrow pure @safe
        {
            return true;
        }
    }
    static assert(isEqualityComparable!OpEquals);
    static assert(!isOrderingComparable!OpEquals);
 }
--- a/meta/tanya/meta/transform.d
+++ b/meta/tanya/meta/transform.d
@ -0,0 +1,504 @@
 /* This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
 /**
 * Type transformations.
 *
 * Templates in this module can be used to modify type qualifiers or transform
 * types. They take some type as argument and return a different type after
 * perfoming the specified transformation.
 *
 * Copyright: Eugene Wissner 2017-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
 * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/meta/tanya/meta/transform.d,
 *                 tanya/meta/transform.d)
 */
 module tanya.meta.transform;
 import tanya.meta.metafunction;
 import tanya.meta.trait;
 /**
 * Removes any type qualifiers from $(D_PARAM T).
 *
 * Removed qualifiers are:
 * $(UL
 *  $(LI const)
 *  $(LI immutable)
 *  $(LI inout)
 *  $(LI shared)
 * )
 * and combinations of these.
 *
 * If the type $(D_PARAM T) doesn't have any qualifieres,
 * $(D_INLINECODE Unqual!T) becomes an alias for $(D_PARAM T).
 *
 * Params:
 *  T = A type.
 *
 * Returns: $(D_PARAM T) without any type qualifiers.
 */
 template Unqual(T)
 {
    static if (is(T U == shared const U)
            || is(T U == shared inout U)
            || is(T U == shared inout const U)
            || is(T U == inout const U)
            || is(T U == const U)
            || is(T U == immutable U)
            || is(T U == inout U)
            || is(T U == shared U))
    {
        alias Unqual = U;
    }
    else
    {
        alias Unqual = T;
    }
 }
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(Unqual!bool == bool));
    static assert(is(Unqual!(immutable bool) == bool));
    static assert(is(Unqual!(inout bool) == bool));
    static assert(is(Unqual!(inout const bool) == bool));
    static assert(is(Unqual!(shared bool) == bool));
    static assert(is(Unqual!(shared const bool) == bool));
    static assert(is(Unqual!(shared inout const bool) == bool));
 }
 /**
 * If $(D_PARAM T) is an $(D_KEYWORD enum), $(D_INLINECODE OriginalType!T)
 * evaluates to the most base type of that $(D_KEYWORD enum) and to
 * $(D_PARAM T) otherwise.
 *
 * Params:
 *  T = A type.
 *
 * Returns: Base type of the $(D_KEYWORD enum) $(D_PARAM T) or $(D_PARAM T)
 *          itself.
 */
 template OriginalType(T)
 {
    static if (is(T U == enum))
    {
        alias OriginalType = OriginalType!U;
    }
    else
    {
        alias OriginalType = T;
    }
 }
 ///
@nogc nothrow pure @safe unittest
 {
    enum E1 : const(int)
    {
        n = 0,
    }
    enum E2 : bool
    {
        t = true,
    }
    enum E3 : E2
    {
        t = E2.t,
    }
    enum E4 : const(E2)
    {
        t = E2.t,
    }
    static assert(is(OriginalType!E1 == const int));
    static assert(is(OriginalType!E2 == bool));
    static assert(is(OriginalType!E3 == bool));
    static assert(is(OriginalType!E4 == bool));
    static assert(is(OriginalType!(const E4) == bool));
 }
 /**
 * Copies constness of $(D_PARAM From) to $(D_PARAM To).
 *
 * The following type qualifiers affect the constness and hence are copied:
 * $(UL
 *  $(LI const)
 *  $(LI immutable)
 *  $(LI inout)
 *  $(LI inout const)
 * )
 *
 * Params:
 *  From = Source type.
 *  To   = Target type.
 *
 * Returns: $(D_PARAM To) with the constness of $(D_PARAM From).
 */
 template CopyConstness(From, To)
 {
    static if (is(From T == immutable T))
    {
        alias CopyConstness = immutable To;
    }
    else static if (is(From T == const T) || is(From T == shared const T))
    {
        alias CopyConstness = const To;
    }
    else static if (is(From T == inout T) || is(From T == shared inout T))
    {
        alias CopyConstness = inout To;
    }
    else static if (is(From T == inout const T)
                 || is(From T == shared inout const T))
    {
        alias CopyConstness = inout const To;
    }
    else
    {
        alias CopyConstness = To;
    }
 }
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(CopyConstness!(int, char) == char));
    static assert(is(CopyConstness!(const int, char) == const char));
    static assert(is(CopyConstness!(immutable int, char) == immutable char));
    static assert(is(CopyConstness!(inout int, char) == inout char));
    static assert(is(CopyConstness!(inout const int, char) == inout const char));
    static assert(is(CopyConstness!(shared int, char) == char));
    static assert(is(CopyConstness!(shared const int, char) == const char));
    static assert(is(CopyConstness!(shared inout int, char) == inout char));
    static assert(is(CopyConstness!(shared inout const int, char) == inout const char));
    static assert(is(CopyConstness!(const int, shared char) == shared const char));
    static assert(is(CopyConstness!(const int, immutable char) == immutable char));
    static assert(is(CopyConstness!(immutable int, const char) == immutable char));
 }
 /**
 * Retrieves the target type `U` of a pointer `U*`.
 *
 * Params:
 *  T = Pointer type.
 *
 * Returns: Pointer target type.
 */
 template PointerTarget(T)
 {
    static if (is(T U : U*))
    {
        alias PointerTarget = U;
    }
    else
    {
        static assert(T.stringof ~ " isn't a pointer type");
    }
 }
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(PointerTarget!(bool*) == bool));
    static assert(is(PointerTarget!(const bool*) == const bool));
    static assert(is(PointerTarget!(const shared bool*) == const shared bool));
    static assert(!is(PointerTarget!bool));
 }
 /**
 * Params:
 *  T = The type of the associative array.
 *
 * Returns: The key type of the associative array $(D_PARAM T).
 */
 template KeyType(T)
 {
    static if (is(T V : V[K], K))
    {
        alias KeyType = K;
    }
    else
    {
        static assert(false, T.stringof ~ " isn't an associative array");
    }
 }
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(KeyType!(int[string]) == string));
    static assert(!is(KeyType!(int[15])));
 }
 /**
 * Params:
 *  T = The type of the associative array.
 *
 * Returns: The value type of the associative array $(D_PARAM T).
 */
 template ValueType(T)
 {
    static if (is(T V : V[K], K))
    {
        alias ValueType = V;
    }
    else
    {
        static assert(false, T.stringof ~ " isn't an associative array");
    }
 }
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(ValueType!(int[string]) == int));
    static assert(!is(ValueType!(int[15])));
 }
 /**
 * Adds $(D_KEYWORD inout) qualifier to the type $(D_PARAM T).
 *
 * Params:
 *  T = A type.
 *
 * Returns: $(D_INLINECODE inout(T)).
 */
 alias InoutOf(T) = inout(T);
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(InoutOf!int == inout int));
 }
 /**
 * Adds $(D_KEYWORD inout) qualifier to the type $(D_PARAM T).
 *
 * Params:
 *  T = A type.
 *
 * Returns: $(D_INLINECODE inout(T)).
 */
 alias ConstOf(T) = const(T);
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(ConstOf!int == const int));
 }
 /**
 * Adds $(D_KEYWORD inout) qualifier to the type $(D_PARAM T).
 *
 * Params:
 *  T = A type.
 *
 * Returns: $(D_INLINECODE inout(T)).
 */
 alias SharedOf(T) = shared(T);
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(SharedOf!int == shared int));
 }
 /**
 * Adds $(D_KEYWORD inout) qualifier to the type $(D_PARAM T).
 *
 * Params:
 *  T = A type.
 *
 * Returns: $(D_INLINECODE inout(T)).
 */
 alias SharedInoutOf(T) = shared(inout T);
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(SharedInoutOf!int == shared inout int));
 }
 /**
 * Adds $(D_KEYWORD shared const) qualifier to the type $(D_PARAM T).
 *
 * Params:
 *  T = A type.
 *
 * Returns: $(D_INLINECODE shared(const T)).
 */
 alias SharedConstOf(T) = shared(const T);
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(SharedConstOf!int == shared const int));
 }
 /**
 * Adds $(D_KEYWORD immutable) qualifier to the type $(D_PARAM T).
 *
 * Params:
 *  T = A type.
 *
 * Returns: $(D_INLINECODE immutable(T)).
 */
 alias ImmutableOf(T) = immutable(T);
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(ImmutableOf!int == immutable int));
 }
 /**
 * Adds $(D_KEYWORD inout const) qualifier to the type $(D_PARAM T).
 *
 * Params:
 *  T = A type.
 *
 * Returns: $(D_INLINECODE inout(const T)).
 */
 alias InoutConstOf(T) = inout(const T);
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(InoutConstOf!int == inout const int));
 }
 /**
 * Adds $(D_KEYWORD shared inout const) qualifier to the type $(D_PARAM T).
 *
 * Params:
 *  T = A type.
 *
 * Returns: $(D_INLINECODE shared(inout const T)).
 */
 alias SharedInoutConstOf(T) = shared(inout const T);
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(SharedInoutConstOf!int == shared inout const int));
 }
 /**
 * Determines the type of $(D_PARAM T). If $(D_PARAM T) is already a type,
 * $(D_PSYMBOL TypeOf) aliases itself to $(D_PARAM T).
 *
 * $(D_PSYMBOL TypeOf) evaluates to $(D_KEYWORD void) for template arguments.
 *
 * The symbols that don't have a type and aren't types cannot be used as
 * arguments to $(D_PSYMBOL TypeOf).
 *
 * Params:
 *  T = Expression, type or template.
 *
 * Returns: The type of $(D_PARAM T).
 */
 alias TypeOf(T) = T;
 /// ditto
 template TypeOf(alias T)
 if (isExpressions!T || __traits(isTemplate, T))
 {
    alias TypeOf = typeof(T);
 }
 ///
@nogc nothrow pure @safe unittest
 {
    struct S(T)
    {
    }
    static assert(is(TypeOf!S == void));
    static assert(is(TypeOf!int == int));
    static assert(is(TypeOf!true == bool));
    static assert(!is(TypeOf!(tanya.meta)));
 }
 /**
 * Finds the type with the smallest size in the $(D_PARAM Args) list. If
 * several types have the same type, the leftmost is returned.
 *
 * Params:
 *  Args = Type list.
 *
 * Returns: The smallest type.
 *
 * See_Also: $(D_PSYMBOL Largest).
 */
 template Smallest(Args...)
 if (Args.length >= 1)
 {
    static assert(is(Args[0]), T.stringof ~ " doesn't have .sizeof property");
    static if (Args.length == 1)
    {
        alias Smallest = Args[0];
    }
    else static if (Smallest!(Args[1 .. $]).sizeof < Args[0].sizeof)
    {
        alias Smallest = Smallest!(Args[1 .. $]);
    }
    else
    {
        alias Smallest = Args[0];
    }
 }
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(Smallest!(int, ushort, uint, short) == ushort));
    static assert(is(Smallest!(short) == short));
    static assert(is(Smallest!(ubyte[8], ubyte[5]) == ubyte[5]));
    static assert(!is(Smallest!(short, 5)));
 }
 /**
 * Finds the type with the largest size in the $(D_PARAM Args) list. If several
 * types have the same type, the leftmost is returned.
 *
 * Params:
 *  Args = Type list.
 *
 * Returns: The largest type.
 *
 * See_Also: $(D_PSYMBOL Smallest).
 */
 template Largest(Args...)
 if (Args.length >= 1)
 {
    static assert(is(Args[0]), T.stringof ~ " doesn't have .sizeof property");
    static if (Args.length == 1)
    {
        alias Largest = Args[0];
    }
    else static if (Largest!(Args[1 .. $]).sizeof > Args[0].sizeof)
    {
        alias Largest = Largest!(Args[1 .. $]);
    }
    else
    {
        alias Largest = Args[0];
    }
 }
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(Largest!(int, short, uint) == int));
    static assert(is(Largest!(short) == short));
    static assert(is(Largest!(ubyte[8], ubyte[5]) == ubyte[8]));
    static assert(!is(Largest!(short, 5)));
 }
--- a/middle/dub.json
+++ b/middle/dub.json
@ -0,0 +1,23 @@
 {
 	"name": "middle",
 	"description": "Runtime, middle-level utilities",
 	"targetType": "library",
 	"dependencies": {
 		"tanya:meta": "*",
 		"tanya:os": "*",
 		"tanya:sys": "*"
 	},
 	"dependencies-linux": {
 		"mir-linux-kernel": "~>1.0.0"
 	},
 	"sourcePaths": [
 		"."
 	],
 	"importPaths": [
 		"."
 	],
 	"dflags-dmd": ["-dip1000"]
 }
--- a/middle/tanya/memory/allocator.d
+++ b/middle/tanya/memory/allocator.d
@ -3,23 +3,85 @@
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
 /**
- * Dynamic memory management.
+ * This module contains the interface for implementing custom allocators.
 *
- * Copyright: Eugene Wissner 2016-2018.
+ * Allocators are classes encapsulating memory allocation strategy. This allows
 * to decouple memory management from the algorithms and the data. 
 *
 * Copyright: Eugene Wissner 2016-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
- * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/memory/package.d,
+ * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/middle/tanya/memory/allocator.d,
- *                 tanya/memory/package.d)
+ *                 tanya/memory/allocator.d)
 */
-module tanya.memory;
+module tanya.memory.allocator;
-import std.algorithm.mutation : uninitializedFill;
+import tanya.memory.lifetime;
 import tanya.conv;
 import tanya.exception;
 public import tanya.memory.allocator;
 import tanya.meta.trait;
-import tanya.range.primitive;
+
 /**
 * Abstract class implementing a basic allocator.
 */
 interface Allocator
 {
    /**
     * Returns: Alignment offered.
     */
    @property uint alignment() const shared pure nothrow @safe @nogc;
    /**
     * Allocates $(D_PARAM size) bytes of memory.
     *
     * Params:
     *  size = Amount of memory to allocate.
     *
     * Returns: Pointer to the new allocated memory.
     */
    void[] allocate(size_t size) shared pure nothrow @nogc;
    /**
     * Deallocates a memory block.
     *
     * Params:
     *  p = A pointer to the memory block to be freed.
     *
     * Returns: Whether the deallocation was successful.
     */
    bool deallocate(void[] p) shared pure nothrow @nogc;
    /**
     * Increases or decreases the size of a memory block.
     *
     * Params:
     *  p    = A pointer to the memory block.
     *  size = Size of the reallocated block.
     *
     * Returns: Pointer to the allocated memory.
     */
    bool reallocate(ref void[] p, size_t size) shared pure nothrow @nogc;
    /**
     * Reallocates a memory block in place if possible or returns
     * $(D_KEYWORD false). This function cannot be used to allocate or
     * deallocate memory, so if $(D_PARAM p) is $(D_KEYWORD null) or
     * $(D_PARAM size) is `0`, it should return $(D_KEYWORD false).
     *
     * Params:
     *  p    = A pointer to the memory block.
     *  size = Size of the reallocated block.
     *
     * Returns: $(D_KEYWORD true) if successful, $(D_KEYWORD false) otherwise.
     */
    bool reallocateInPlace(ref void[] p, size_t size)
    shared pure nothrow @nogc;
 }
 package template GetPureInstance(T : Allocator)
 {
    alias GetPureInstance = shared(T) function()
                            pure nothrow @nogc;
 }
 /**
 * The mixin generates common methods for classes and structs using
@ -39,11 +101,7 @@ mixin template DefaultAllocator()
     * Precondition: $(D_INLINECODE allocator_ !is null)
     */
    this(shared Allocator allocator) @nogc nothrow pure @safe
-    in
+    in (allocator !is null)
    {
        assert(allocator !is null);
    }
    do
    {
        this.allocator_ = allocator;
    }
@ -57,11 +115,7 @@ mixin template DefaultAllocator()
     * Postcondition: $(D_INLINECODE allocator !is null)
     */
    @property shared(Allocator) allocator() @nogc nothrow pure @safe
-    out (allocator)
+    out (allocator; allocator !is null)
    {
        assert(allocator !is null);
    }
    do
    {
        if (allocator_ is null)
        {
@ -72,11 +126,7 @@ mixin template DefaultAllocator()
    /// ditto
    @property shared(Allocator) allocator() const @nogc nothrow pure @trusted
-    out (allocator)
+    out (allocator; allocator !is null)
    {
        assert(allocator !is null);
    }
    do
    {
        if (allocator_ is null)
        {
@ -86,10 +136,6 @@ mixin template DefaultAllocator()
    }
 }
 // From druntime
 extern (C)
 private void _d_monitordelete(Object h, bool det) @nogc nothrow pure;
 shared Allocator allocator;
 private shared(Allocator) getAllocatorInstance() @nogc nothrow
@ -98,12 +144,12 @@ private shared(Allocator) getAllocatorInstance() @nogc nothrow
    {
        version (TanyaNative)
        {
-            import tanya.memory.mmappool;
+            import tanya.memory.mmappool : MmapPool;
            defaultAllocator = MmapPool.instance;
        }
        else
        {
-            import tanya.memory.mallocator;
+            import tanya.memory.mallocator : Mallocator;
            defaultAllocator = Mallocator.instance;
        }
    }
@ -116,11 +162,7 @@ private shared(Allocator) getAllocatorInstance() @nogc nothrow
 * Postcondition: $(D_INLINECODE allocator !is null).
 */
@property shared(Allocator) defaultAllocator() @nogc nothrow pure @trusted
-out (allocator)
+out (allocator; allocator !is null)
 {
    assert(allocator !is null);
 }
 do
 {
    return (cast(GetPureInstance!Allocator) &getAllocatorInstance)();
 }
@ -134,67 +176,11 @@ do
 * Precondition: $(D_INLINECODE allocator !is null).
 */
@property void defaultAllocator(shared(Allocator) allocator) @nogc nothrow @safe
-in
+in (allocator !is null)
 {
    assert(allocator !is null);
 }
 do
 {
    .allocator = allocator;
 }
 /**
 * Returns the size in bytes of the state that needs to be allocated to hold an
 * object of type $(D_PARAM T).
 *
 * There is a difference between the `.sizeof`-property and
 * $(D_PSYMBOL stateSize) if $(D_PARAM T) is a class or an interface.
 * `T.sizeof` is constant on the given architecture then and is the same as
 * `size_t.sizeof` and `ptrdiff_t.sizeof`. This is because classes and
 * interfaces are reference types and `.sizeof` returns the size of the
 * reference which is the same as the size of a pointer. $(D_PSYMBOL stateSize)
 * returns the size of the instance itself.
 *
 * The size of a dynamic array is `size_t.sizeof * 2` since a dynamic array
 * stores its length and a data pointer. The size of the static arrays is
 * calculated differently since they are value types. It is the array length
 * multiplied by the element size.
 *
 * `stateSize!void` is `1` since $(D_KEYWORD void) is mostly used as a synonym
 * for $(D_KEYWORD byte)/$(D_KEYWORD ubyte) in `void*`.
 *
 * Params:
 *  T = Object type.
 *
 * Returns: Size of an instance of type $(D_PARAM T).
 */
 template stateSize(T)
 {
    static if (isPolymorphicType!T)
    {
        enum size_t stateSize = __traits(classInstanceSize, T);
    }
    else
    {
        enum size_t stateSize = T.sizeof;
    }
 }
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(stateSize!int == 4);
    static assert(stateSize!bool == 1);
    static assert(stateSize!(int[]) == (size_t.sizeof * 2));
    static assert(stateSize!(short[3]) == 6);
    static struct Empty
    {
    }
    static assert(stateSize!Empty == 1);
    static assert(stateSize!void == 1);
 }
 /**
 * Params:
 *  size      = Raw size.
@ -208,70 +194,173 @@ pure nothrow @safe @nogc
    return (size - 1) / alignment * alignment + alignment;
 }
-/*
+/**
- * Internal function used to create, resize or destroy a dynamic array. It
+ * Error thrown if memory allocation fails.
 * may throw $(D_PSYMBOL OutOfMemoryError). The new
 * allocated part of the array isn't initialized. This function can be trusted
 * only in the data structures that can ensure that the array is
 * allocated/rellocated/deallocated with the same allocator.
 *
 * Params:
 *  T         = Element type of the array being created.
 *  allocator = The allocator used for getting memory.
 *  array     = A reference to the array being changed.
 *  length    = New array length.
 *
 * Returns: $(D_PARAM array).
 */
-package(tanya) T[] resize(T)(shared Allocator allocator,
+final class OutOfMemoryError : Error
                             auto ref T[] array,
                             const size_t length) @trusted
 {
-    if (length == 0)
+    /**
     * Constructs new error.
     *
     * Params:
     *  msg  = The message for the exception.
     *  file = The file where the exception occurred.
     *  line = The line number where the exception occurred.
     *  next = The previous exception in the chain of exceptions, if any.
     */
    this(string msg = "Out of memory",
         string file = __FILE__,
         size_t line = __LINE__,
         Throwable next = null) @nogc nothrow pure @safe
    {
-        if (allocator.deallocate(array))
+        super(msg, file, line, next);
        {
            return null;
        }
        else
        {
            onOutOfMemoryError();
        }
    }
-    void[] buf = array;
+    /// ditto
-    if (!allocator.reallocate(buf, length * T.sizeof))
+    this(string msg,
         Throwable next,
         string file = __FILE__,
         size_t line = __LINE__) @nogc nothrow pure @safe
    {
        super(msg, file, line, next);
    }
 }
 /**
 * Destroys and deallocates $(D_PARAM p) of type $(D_PARAM T).
 * It is assumed the respective entities had been allocated with the same
 * allocator.
 *
 * Params:
 *  T         = Type of $(D_PARAM p).
 *  allocator = Allocator the $(D_PARAM p) was allocated with.
 *  p         = Object or array to be destroyed.
 */
 void dispose(T)(shared Allocator allocator, auto ref T p)
 {
    () @trusted { allocator.deallocate(finalize(p)); }();
    p = null;
 }
 /**
 * Constructs a new class instance of type $(D_PARAM T) using $(D_PARAM args)
 * as the parameter list for the constructor of $(D_PARAM T).
 *
 * Params:
 *  T         = Class type.
 *  A         = Types of the arguments to the constructor of $(D_PARAM T).
 *  allocator = Allocator.
 *  args      = Constructor arguments of $(D_PARAM T).
 *
 * Returns: Newly created $(D_PSYMBOL T).
 *
 * Precondition: $(D_INLINECODE allocator !is null)
 */
 T make(T, A...)(shared Allocator allocator, auto ref A args)
 if (is(T == class))
 in (allocator !is null)
 {
    auto mem = (() @trusted => allocator.allocate(stateSize!T))();
    if (mem is null)
    {
        onOutOfMemoryError();
    }
-    // Casting from void[] is unsafe, but we know we cast to the original type.
+    scope (failure)
-    array = cast(T[]) buf;
+    {
        () @trusted { allocator.deallocate(mem); }();
    }
-    return array;
+    return emplace!T(mem[0 .. stateSize!T], args);
 }
 /**
 * Constructs a value object of type $(D_PARAM T) using $(D_PARAM args)
 * as the parameter list for the constructor of $(D_PARAM T) and returns a
 * pointer to the new object.
 *
 * Params:
 *  T         = Object type.
 *  A         = Types of the arguments to the constructor of $(D_PARAM T).
 *  allocator = Allocator.
 *  args      = Constructor arguments of $(D_PARAM T).
 *
 * Returns: Pointer to the created object.
 *
 * Precondition: $(D_INLINECODE allocator !is null)
 */
 T* make(T, A...)(shared Allocator allocator, auto ref A args)
 if (!isPolymorphicType!T && !isAssociativeArray!T && !isArray!T)
 in (allocator !is null)
 {
    auto mem = (() @trusted => allocator.allocate(stateSize!T))();
    if (mem is null)
    {
        onOutOfMemoryError();
    }
    scope (failure)
    {
        () @trusted { allocator.deallocate(mem); }();
    }
    return emplace!T(mem[0 .. stateSize!T], args);
 }
 ///
@nogc nothrow pure @safe unittest
 {
-    int[] p;
+    int* i = defaultAllocator.make!int(5);
    assert(*i == 5);
    defaultAllocator.dispose(i);
 }
-    p = defaultAllocator.resize(p, 20);
+/**
-    assert(p.length == 20);
+ * Constructs a new array with $(D_PARAM n) elements.
 *
 * Params:
 *  T         = Array type.
 *  E         = Array element type.
 *  allocator = Allocator.
 *  n         = Array size.
 *
 * Returns: Newly created array.
 *
 * Precondition: $(D_INLINECODE allocator !is null
 *                           && n <= size_t.max / E.sizeof)
 */
 T make(T : E[], E)(shared Allocator allocator, size_t n)
 in (allocator !is null)
 in (n <= size_t.max / E.sizeof)
 {
    auto ret = allocator.resize!E(null, n);
-    p = defaultAllocator.resize(p, 30);
+    static if (hasElaborateDestructor!E)
-    assert(p.length == 30);
+    {
        for (auto range = ret; range.length != 0; range = range[1 .. $])
        {
            emplace!E(cast(void[]) range[0 .. 1], E.init);
        }
    }
    else
    {
        ret[] = E.init;
    }
-    p = defaultAllocator.resize(p, 10);
+    return ret;
-    assert(p.length == 10);
+}
-    p = defaultAllocator.resize(p, 0);
+///
-    assert(p is null);
+@nogc nothrow pure @safe unittest
 {
    int[] i = defaultAllocator.make!(int[])(2);
    assert(i.length == 2);
    assert(i[0] == int.init && i[1] == int.init);
    defaultAllocator.dispose(i);
 }
 /*
 * Destroys the object.
 * Returns the memory should be freed.
 */
-package(tanya) void[] finalize(T)(ref T* p)
+package void[] finalize(T)(ref T* p)
 {
    if (p is null)
    {
@ -284,7 +373,7 @@ package(tanya) void[] finalize(T)(ref T* p)
    return (cast(void*) p)[0 .. T.sizeof];
 }
-package(tanya) void[] finalize(T)(ref T p)
+package void[] finalize(T)(ref T p)
 if (isPolymorphicType!T)
 {
    if (p is null)
@ -339,176 +428,70 @@ if (isPolymorphicType!T)
    return support;
 }
-package(tanya) void[] finalize(T)(ref T[] p)
+package void[] finalize(T)(ref T[] p)
 {
-    static if (hasElaborateDestructor!(typeof(p[0])))
+    destroyAllImpl!(T[], T)(p);
    {
        foreach (ref e; p)
        {
            destroy(e);
        }
    }
    return p;
 }
 /**
- * Destroys and deallocates $(D_PARAM p) of type $(D_PARAM T).
+ * Allocates $(D_PSYMBOL OutOfMemoryError) in a static storage and throws it.
 * It is assumed the respective entities had been allocated with the same
 * allocator.
 *
 * Params:
- *  T         = Type of $(D_PARAM p).
+ *  msg = Custom error message.
- *  allocator = Allocator the $(D_PARAM p) was allocated with.
+ *
- *  p         = Object or array to be destroyed.
+ * Throws: $(D_PSYMBOL OutOfMemoryError).
 */
-void dispose(T)(shared Allocator allocator, auto ref T p)
+void onOutOfMemoryError(string msg = "Out of memory")
@nogc nothrow pure @trusted
 {
-    () @trusted { allocator.deallocate(finalize(p)); }();
+    static ubyte[stateSize!OutOfMemoryError] memory;
-    p = null;
+    alias PureType = OutOfMemoryError function(string) @nogc nothrow pure;
    throw (cast(PureType) () => emplace!OutOfMemoryError(memory))(msg);
 }
-@nogc nothrow pure @system unittest
+// From druntime
 extern (C)
 private void _d_monitordelete(Object h, bool det) @nogc nothrow pure;
 /*
 * Internal function used to create, resize or destroy a dynamic array. It
 * may throw $(D_PSYMBOL OutOfMemoryError). The new
 * allocated part of the array isn't initialized. This function can be trusted
 * only in the data structures that can ensure that the array is
 * allocated/rellocated/deallocated with the same allocator.
 *
 * Params:
 *  T         = Element type of the array being created.
 *  allocator = The allocator used for getting memory.
 *  array     = A reference to the array being changed.
 *  length    = New array length.
 *
 * Returns: $(D_PARAM array).
 */
 package(tanya) T[] resize(T)(shared Allocator allocator,
                             auto ref T[] array,
                             const size_t length) @trusted
 {
-    static struct S
+    if (length == 0)
    {
-        ~this() @nogc nothrow pure @safe
+        if (allocator.deallocate(array))
        {
            return null;
        }
        else
        {
            onOutOfMemoryError();
        }
    }
    auto p = cast(S[]) defaultAllocator.allocate(S.sizeof);
-    defaultAllocator.dispose(p);
+    void[] buf = array;
-}
+    if (!allocator.reallocate(buf, length * T.sizeof))
 // Works with interfaces.
@nogc nothrow pure @safe unittest
 {
    interface I
    {
    }
    class C : I
    {
    }
    auto c = defaultAllocator.make!C();
    I i = c;
    defaultAllocator.dispose(i);
    defaultAllocator.dispose(i);
 }
 /**
 * Constructs a new class instance of type $(D_PARAM T) using $(D_PARAM args)
 * as the parameter list for the constructor of $(D_PARAM T).
 *
 * Params:
 *  T         = Class type.
 *  A         = Types of the arguments to the constructor of $(D_PARAM T).
 *  allocator = Allocator.
 *  args      = Constructor arguments of $(D_PARAM T).
 *
 * Returns: Newly created $(D_PSYMBOL T).
 *
 * Precondition: $(D_INLINECODE allocator !is null)
 */
 T make(T, A...)(shared Allocator allocator, auto ref A args)
 if (is(T == class))
 in
 {
    assert(allocator !is null);
 }
 do
 {
    auto mem = (() @trusted => allocator.allocate(stateSize!T))();
    if (mem is null)
    {
        onOutOfMemoryError();
    }
-    scope (failure)
+    // Casting from void[] is unsafe, but we know we cast to the original type.
-    {
+    array = cast(T[]) buf;
        () @trusted { allocator.deallocate(mem); }();
    }
-    return emplace!T(mem[0 .. stateSize!T], args);
+    return array;
 }
 /**
 * Constructs a value object of type $(D_PARAM T) using $(D_PARAM args)
 * as the parameter list for the constructor of $(D_PARAM T) and returns a
 * pointer to the new object.
 *
 * Params:
 *  T         = Object type.
 *  A         = Types of the arguments to the constructor of $(D_PARAM T).
 *  allocator = Allocator.
 *  args      = Constructor arguments of $(D_PARAM T).
 *
 * Returns: Pointer to the created object.
 *
 * Precondition: $(D_INLINECODE allocator !is null)
 */
 T* make(T, A...)(shared Allocator allocator, auto ref A args)
 if (!is(T == interface)
 && !is(T == class)
 && !isAssociativeArray!T
 && !isArray!T)
 in
 {
    assert(allocator !is null);
 }
 do
 {
    auto mem = (() @trusted => allocator.allocate(stateSize!T))();
    if (mem is null)
    {
        onOutOfMemoryError();
    }
    scope (failure)
    {
        () @trusted { allocator.deallocate(mem); }();
    }
    return emplace!T(mem[0 .. stateSize!T], args);
 }
 ///
@nogc nothrow pure @safe unittest
 {
    int* i = defaultAllocator.make!int(5);
    assert(*i == 5);
    defaultAllocator.dispose(i);
 }
 /**
 * Constructs a new array with $(D_PARAM n) elements.
 *
 * Params:
 *  T         = Array type.
 *  allocator = Allocator.
 *  n         = Array size.
 *
 * Returns: Newly created array.
 *
 * Precondition: $(D_INLINECODE allocator !is null
 *                           && n <= size_t.max / ElementType!T.sizeof)
 */
 T make(T)(shared Allocator allocator, const size_t n)
 if (isArray!T)
 in
 {
    assert(allocator !is null);
    assert(n <= size_t.max / ElementType!T.sizeof);
 }
 do
 {
    auto ret = allocator.resize!(ElementType!T)(null, n);
    ret.uninitializedFill(ElementType!T.init);
    return ret;
 }
 ///
@nogc nothrow pure @safe unittest
 {
    int[] i = defaultAllocator.make!(int[])(2);
    assert(i.length == 2);
    assert(i[0] == int.init && i[1] == int.init);
    defaultAllocator.dispose(i);
 }
--- a/middle/tanya/memory/lifetime.d
+++ b/middle/tanya/memory/lifetime.d
@ -0,0 +1,508 @@
 /* This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
 /**
 * Lifetime management functions, types and related exceptions.
 *
 * Copyright: Eugene Wissner 2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
 * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/middle/tanya/memory/lifetime.d,
 *                 tanya/memory/lifetime.d)
 */
 module tanya.memory.lifetime;
 import tanya.memory.allocator;
 import tanya.meta.metafunction;
 import tanya.meta.trait;
 package(tanya) void destroyAllImpl(R, E)(R p)
 {
    static if (hasElaborateDestructor!E)
    {
        foreach (ref e; p)
        {
            destroy(e);
        }
    }
 }
 /**
 * Constructs a new object of type $(D_PARAM T) in $(D_PARAM memory) with the
 * given arguments.
 *
 * If $(D_PARAM T) is a $(D_KEYWORD class), emplace returns a class reference
 * of type $(D_PARAM T), otherwise a pointer to the constructed object is
 * returned.
 *
 * If $(D_PARAM T) is a nested class inside another class, $(D_PARAM outer)
 * should be an instance of the outer class.
 *
 * $(D_PARAM args) are arguments for the constructor of $(D_PARAM T). If
 * $(D_PARAM T) isn't an aggregate type and doesn't have a constructor,
 * $(D_PARAM memory) can be initialized to `args[0]` if `Args.length == 1`,
 * `Args[0]` should be implicitly convertible to $(D_PARAM T) then.
 *
 * Params:
 *  T     = Constructed type.
 *  U     = Type of the outer class if $(D_PARAM T) is a nested class.
 *  Args  = Types of the constructor arguments if $(D_PARAM T) has a constructor
 *          or the type of the initial value.
 *  outer = Outer class instance if $(D_PARAM T) is a nested class.
 *  args  = Constructor arguments if $(D_PARAM T) has a constructor or the
 *          initial value.
 *
 * Returns: New instance of type $(D_PARAM T) constructed in $(D_PARAM memory).
 *
 * Precondition: `memory.length == stateSize!T`.
 * Postcondition: $(D_PARAM memory) and the result point to the same memory.
 */
 T emplace(T, U, Args...)(void[] memory, U outer, auto ref Args args)
 if (!isAbstractClass!T && isInnerClass!T && is(typeof(T.outer) == U))
 in (memory.length >= stateSize!T)
 out (result; memory.ptr is (() @trusted => cast(void*) result)())
 {
    import tanya.memory.op : copy;
    copy(typeid(T).initializer, memory);
    auto result = (() @trusted => cast(T) memory.ptr)();
    result.outer = outer;
    static if (is(typeof(result.__ctor(args))))
    {
        result.__ctor(args);
    }
    return result;
 }
 /// ditto
 T emplace(T, Args...)(void[] memory, auto ref Args args)
 if (is(T == class) && !isAbstractClass!T && !isInnerClass!T)
 in (memory.length == stateSize!T)
 out (result; memory.ptr is (() @trusted => cast(void*) result)())
 {
    import tanya.memory.op : copy;
    copy(typeid(T).initializer, memory);
    auto result = (() @trusted => cast(T) memory.ptr)();
    static if (is(typeof(result.__ctor(args))))
    {
        result.__ctor(args);
    }
    return result;
 }
 ///
@nogc nothrow pure @safe unittest
 {
    class C
    {
        int i = 5;
        class Inner
        {
            int i;
            this(int param) pure nothrow @safe @nogc
            {
                this.i = param;
            }
        }
    }
    ubyte[stateSize!C] memory1;
    ubyte[stateSize!(C.Inner)] memory2;
    auto c = emplace!C(memory1);
    assert(c.i == 5);
    auto inner = emplace!(C.Inner)(memory2, c, 8);
    assert(c.i == 5);
    assert(inner.i == 8);
    assert(inner.outer is c);
 }
 /// ditto
 T* emplace(T, Args...)(void[] memory, auto ref Args args)
 if (!isAggregateType!T && (Args.length <= 1))
 in (memory.length >= T.sizeof)
 out (result; memory.ptr is result)
 {
    auto result = (() @trusted => cast(T*) memory.ptr)();
    static if (Args.length == 1)
    {
        *result = T(args[0]);
    }
    else
    {
        *result = T.init;
    }
    return result;
 }
 private void initializeOne(T)(ref void[] memory, ref T* result) @trusted
 {
    import tanya.memory.op : copy, fill;
    static if (!hasElaborateAssign!T && isAssignable!T)
    {
        *result = T.init;
    }
    else static if (__VERSION__ >= 2083 // __traits(isZeroInit) available.
        && __traits(isZeroInit, T))
    {
        memory.ptr[0 .. T.sizeof].fill!0;
    }
    else
    {
        static immutable T init = T.init;
        copy((&init)[0 .. 1], memory);
    }
 }
 /// ditto
 T* emplace(T, Args...)(void[] memory, auto ref Args args)
 if (!isPolymorphicType!T && isAggregateType!T)
 in (memory.length >= T.sizeof)
 out (result; memory.ptr is result)
 {
    auto result = (() @trusted => cast(T*) memory.ptr)();
    static if (Args.length == 0)
    {
        static assert(is(typeof({ static T t; })),
                      "Default constructor is disabled");
        initializeOne(memory, result);
    }
    else static if (is(typeof(result.__ctor(args))))
    {
        initializeOne(memory, result);
        result.__ctor(args);
    }
    else static if (Args.length == 1 && is(typeof({ T t = args[0]; })))
    {
        import tanya.memory.op : copy;
        ((ref arg) @trusted =>
            copy((cast(void*) &arg)[0 .. T.sizeof], memory))(args[0]);
        static if (hasElaborateCopyConstructor!T)
        {
            result.__postblit();
        }
    }
    else static if (is(typeof({ T t = T(args); })))
    {
        auto init = T(args);
        (() @trusted => moveEmplace(init, *result))();
    }
    else
    {
        static assert(false,
                      "Unable to construct value with the given arguments");
    }
    return result;
 }
 ///
@nogc nothrow pure @safe unittest
 {
    ubyte[4] memory;
    auto i = emplace!int(memory);
    static assert(is(typeof(i) == int*));
    assert(*i == 0);
    i = emplace!int(memory, 5);
    assert(*i == 5);
    static struct S
    {
        int i;
        @disable this();
        @disable this(this);
        this(int i) @nogc nothrow pure @safe
        {
            this.i = i;
        }
    }
    auto s = emplace!S(memory, 8);
    static assert(is(typeof(s) == S*));
    assert(s.i == 8);
 }
 private void deinitialize(bool zero, T)(ref T value)
 {
    static if (is(T == U[S], U, size_t S))
    {
        foreach (ref e; value)
        {
            deinitialize!zero(e);
        }
    }
    else
    {
        import tanya.memory.op : copy, fill;
        static if (isNested!T)
        {
            // Don't override the context pointer.
            enum size_t size = T.sizeof - (void*).sizeof;
        }
        else
        {
            enum size_t size = T.sizeof;
        }
        static if (zero)
        {
            fill!0((cast(void*) &value)[0 .. size]);
        }
        else
        {
            copy(typeid(T).initializer()[0 .. size], (&value)[0 .. 1]);
        }
    }
 }
 /**
 * Moves $(D_PARAM source) into $(D_PARAM target) assuming that
 * $(D_PARAM target) isn't initialized.
 *
 * Moving the $(D_PARAM source) copies it into the $(D_PARAM target) and places
 * the $(D_PARAM source) into a valid but unspecified state, which means that
 * after moving $(D_PARAM source) can be destroyed or assigned a new value, but
 * accessing it yields an unspecified value. No postblits or destructors are
 * called. If the $(D_PARAM target) should be destroyed before, use
 * $(D_PSYMBOL move).
 *
 * $(D_PARAM source) and $(D_PARAM target) must be different objects.
 *
 * Params:
 *  T      = Object type.
 *  source = Source object.
 *  target = Target object.
 *
 * See_Also: $(D_PSYMBOL move),
 *           $(D_PSYMBOL hasElaborateCopyConstructor),
 *           $(D_PSYMBOL hasElaborateDestructor).
 *
 * Precondition: `&source !is &target`.
 */
 void moveEmplace(T)(ref T source, ref T target) @system
 in (&source !is &target, "Source and target must be different")
 {
    static if (is(T == struct) || isStaticArray!T)
    {
        import tanya.memory.op : copy;
        copy((&source)[0 .. 1], (&target)[0 .. 1]);
        static if (hasElaborateCopyConstructor!T || hasElaborateDestructor!T)
        {
            static if (__VERSION__ >= 2083) // __traits(isZeroInit) available.
            {
                deinitialize!(__traits(isZeroInit, T))(source);
            }
            else
            {
                if (typeid(T).initializer().ptr is null)
                {
                    deinitialize!true(source);
                }
                else
                {
                    deinitialize!false(source);
                }
            }
        }
    }
    else
    {
        target = source;
    }
 }
 ///
@nogc nothrow pure @system unittest
 {
    static struct S
    {
        int member = 5;
        this(this) @nogc nothrow pure @safe
        {
            assert(false);
        }
    }
    S source, target = void;
    moveEmplace(source, target);
    assert(target.member == 5);
    int x1 = 5, x2;
    moveEmplace(x1, x2);
    assert(x2 == 5);
 }
 /**
 * Moves $(D_PARAM source) into $(D_PARAM target) assuming that
 * $(D_PARAM target) isn't initialized.
 *
 * Moving the $(D_PARAM source) copies it into the $(D_PARAM target) and places
 * the $(D_PARAM source) into a valid but unspecified state, which means that
 * after moving $(D_PARAM source) can be destroyed or assigned a new value, but
 * accessing it yields an unspecified value. $(D_PARAM target) is destroyed before
 * the new value is assigned. If $(D_PARAM target) isn't initialized and
 * therefore shouldn't be destroyed, $(D_PSYMBOL moveEmplace) can be used.
 *
 * If $(D_PARAM target) isn't specified, $(D_PSYMBOL move) returns the source
 * as rvalue without calling its copy constructor or destructor.
 *
 * $(D_PARAM source) and $(D_PARAM target) are the same object,
 * $(D_PSYMBOL move) does nothing.
 *
 * Params:
 *  T      = Object type.
 *  source = Source object.
 *  target = Target object.
 *
 * See_Also: $(D_PSYMBOL moveEmplace).
 */
 void move(T)(ref T source, ref T target)
 {
    if ((() @trusted => &source is &target)())
    {
        return;
    }
    static if (hasElaborateDestructor!T)
    {
        target.__xdtor();
    }
    (() @trusted => moveEmplace(source, target))();
 }
 /// ditto
 T move(T)(ref T source) @trusted
 {
    static if (hasElaborateCopyConstructor!T || hasElaborateDestructor!T)
    {
        T target = void;
        moveEmplace(source, target);
        return target;
    }
    else
    {
        return source;
    }
 }
 ///
@nogc nothrow pure @safe unittest
 {
    static struct S
    {
        int member = 5;
        this(this) @nogc nothrow pure @safe
        {
            assert(false);
        }
    }
    S source, target = void;
    move(source, target);
    assert(target.member == 5);
    assert(move(target).member == 5);
    int x1 = 5, x2;
    move(x1, x2);
    assert(x2 == 5);
    assert(move(x2) == 5);
 }
 /**
 * Exchanges the values of $(D_PARAM a) and $(D_PARAM b).
 *
 * $(D_PSYMBOL swap) moves the contents of $(D_PARAM a) and $(D_PARAM b)
 * without calling its postblits or destructors.
 *
 * Params:
 *  a = The first object.
 *  b = The second object.
 */
 void swap(T)(ref T a, ref T b) @trusted
 {
    T tmp = void;
    moveEmplace(a, tmp);
    moveEmplace(b, a);
    moveEmplace(tmp, b);
 }
 ///
@nogc nothrow pure @safe unittest
 {
    int a = 3, b = 5;
    swap(a, b);
    assert(a == 5);
    assert(b == 3);
 }
 /**
 * Forwards its argument list preserving $(D_KEYWORD ref) and $(D_KEYWORD out)
 * storage classes.
 *
 * $(D_PSYMBOL forward) accepts a list of variables or literals. It returns an
 * argument list of the same length that can be for example passed to a
 * function accepting the arguments of this type.
 *
 * Params:
 *  args = Argument list.
 *
 * Returns: $(D_PARAM args) with their original storage classes.
 */
 template forward(args...)
 {
    static if (args.length == 0)
    {
        alias forward = AliasSeq!();
    }
    else static if (__traits(isRef, args[0]) || __traits(isOut, args[0]))
    {
        static if (args.length == 1)
        {
            alias forward = args[0];
        }
        else
        {
            alias forward = AliasSeq!(args[0], forward!(args[1 .. $]));
        }
    }
    else
    {
        @property auto forwardOne()
        {
            return move(args[0]);
        }
        static if (args.length == 1)
        {
            alias forward = forwardOne;
        }
        else
        {
            alias forward = AliasSeq!(forwardOne, forward!(args[1 .. $]));
        }
    }
 }
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(typeof((int i) { int v = forward!i; })));
    static assert(is(typeof((ref int i) { int v = forward!i; })));
    static assert(is(typeof({
        void f(int i, ref int j, out int k)
        {
            f(forward!(i, j, k));
        }
    })));
 }
--- a/middle/tanya/memory/mallocator.d
+++ b/middle/tanya/memory/mallocator.d
@ -3,13 +3,14 @@
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
 /**
- * Allocator based on $(D_PSYMBOL malloc), $(D_PSYMBOL realloc) and $(D_PSYMBOL free).
+ * Allocator based on $(D_PSYMBOL malloc), $(D_PSYMBOL realloc) and
 * $(D_PSYMBOL free).
 *
- * Copyright: Eugene Wissner 2017-2018.
+ * Copyright: Eugene Wissner 2017-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
- * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/memory/mallocator.d,
+ * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/middle/tanya/memory/mallocator.d,
 *                 tanya/memory/mallocator.d)
 */
 module tanya.memory.mallocator;
@ -171,16 +172,6 @@ final class Mallocator : Allocator
        assert(p is null);
    }
    // Fails with false
    @nogc nothrow pure @system unittest
    {
        void[] p = Mallocator.instance.allocate(20);
        void[] oldP = p;
        assert(!Mallocator.instance.reallocate(p, size_t.max - Mallocator.psize * 2));
        assert(oldP is p);
        Mallocator.instance.deallocate(p);
    }
    /**
     * Returns: The alignment offered.
     */
@ -189,11 +180,6 @@ final class Mallocator : Allocator
        return (void*).alignof;
    }
    private nothrow @nogc unittest
    {
        assert(Mallocator.instance.alignment == (void*).alignof);
    }
    static private shared(Mallocator) instantiate() @nogc nothrow @system
    {
        if (instance_ is null)
--- a/middle/tanya/memory/mmappool.d
+++ b/middle/tanya/memory/mmappool.d
@ -5,11 +5,11 @@
 /*
 * Native allocator.
 *
- * Copyright: Eugene Wissner 2016-2018.
+ * Copyright: Eugene Wissner 2016-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
- * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/memory/mmappool.d,
+ * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/middle/tanya/memory/mmappool.d,
 *                 tanya/memory/mmappool.d)
 */
 module tanya.memory.mmappool;
@ -17,7 +17,6 @@ module tanya.memory.mmappool;
 version (TanyaNative):
 import mir.linux._asm.unistd;
 import tanya.algorithm.comparison;
 import tanya.memory.allocator;
 import tanya.memory.op;
 import tanya.os.error;
@ -115,33 +114,6 @@ final class MmapPool : Allocator
        return data is null ? null : data[0 .. size];
    }
    @nogc nothrow pure @system unittest
    {
        auto p = MmapPool.instance.allocate(20);
        assert(p);
        MmapPool.instance.deallocate(p);
        p = MmapPool.instance.allocate(0);
        assert(p.length == 0);
    }
    @nogc nothrow pure @system unittest
    {
        // allocate() check.
        size_t tooMuchMemory = size_t.max
                             - MmapPool.alignment_
                             - BlockEntry.sizeof * 2
                             - RegionEntry.sizeof
                             - pageSize;
        assert(MmapPool.instance.allocate(tooMuchMemory) is null);
        assert(MmapPool.instance.allocate(size_t.max) is null);
        // initializeRegion() check.
        tooMuchMemory = size_t.max - MmapPool.alignment_;
        assert(MmapPool.instance.allocate(tooMuchMemory) is null);
    }
    /*
     * Search for a block large enough to keep $(D_PARAM size) and split it
     * into two blocks if the block is too large.
@ -258,13 +230,6 @@ final class MmapPool : Allocator
        return true;
    }
    @nogc nothrow pure @system unittest
    {
        auto p = MmapPool.instance.allocate(20);
        assert(MmapPool.instance.deallocate(p));
    }
    /*
     * Reallocates a memory block in place if possible or returns
     * $(D_KEYWORD false). This function cannot be used to allocate or
@ -341,30 +306,6 @@ final class MmapPool : Allocator
        return true;
    }
    @nogc nothrow pure @system unittest
    {
        void[] p;
        assert(!MmapPool.instance.reallocateInPlace(p, 5));
        assert(p is null);
        p = MmapPool.instance.allocate(1);
        auto orig = p.ptr;
        assert(MmapPool.instance.reallocateInPlace(p, 2));
        assert(p.length == 2);
        assert(p.ptr == orig);
        assert(MmapPool.instance.reallocateInPlace(p, 4));
        assert(p.length == 4);
        assert(p.ptr == orig);
        assert(MmapPool.instance.reallocateInPlace(p, 2));
        assert(p.length == 2);
        assert(p.ptr == orig);
        MmapPool.instance.deallocate(p);
    }
    /*
     * Increases or decreases the size of a memory block.
     *
@ -399,7 +340,7 @@ final class MmapPool : Allocator
        }
        if (p !is null)
        {
-            copy(p[0 .. min(p.length, size)], reallocP);
+            copy(p[0 .. p.length < size ? p.length : size], reallocP);
            deallocate(p);
        }
        p = reallocP;
@ -407,34 +348,6 @@ final class MmapPool : Allocator
        return true;
    }
    @nogc nothrow pure @system unittest
    {
        void[] p;
        MmapPool.instance.reallocate(p, 10 * int.sizeof);
        (cast(int[]) p)[7] = 123;
        assert(p.length == 40);
        MmapPool.instance.reallocate(p, 8 * int.sizeof);
        assert(p.length == 32);
        assert((cast(int[]) p)[7] == 123);
        MmapPool.instance.reallocate(p, 20 * int.sizeof);
        (cast(int[]) p)[15] = 8;
        assert(p.length == 80);
        assert((cast(int[]) p)[15] == 8);
        assert((cast(int[]) p)[7] == 123);
        MmapPool.instance.reallocate(p, 8 * int.sizeof);
        assert(p.length == 32);
        assert((cast(int[]) p)[7] == 123);
        MmapPool.instance.deallocate(p);
    }
    static private shared(MmapPool) instantiate() @nogc nothrow @system
    {
        if (instance_ is null)
@ -464,11 +377,6 @@ final class MmapPool : Allocator
        return (cast(GetPureInstance!MmapPool) &instantiate)();
    }
    @nogc nothrow pure @system unittest
    {
        assert(instance is instance);
    }
    /*
     * Initializes a region for one element.
     *
@ -566,11 +474,6 @@ final class MmapPool : Allocator
        return alignment_;
    }
    @nogc nothrow pure @system unittest
    {
        assert(MmapPool.instance.alignment == MmapPool.alignment_);
    }
    private enum uint alignment_ = 8;
    private shared static MmapPool instance_;
@ -599,60 +502,19 @@ final class MmapPool : Allocator
    private alias Block = shared BlockEntry*;
 }
 // A lot of allocations/deallocations, but it is the minimum caused a
 // segmentation fault because MmapPool reallocateInPlace moves a block wrong.
@nogc nothrow pure @system unittest
 {
-    auto a = MmapPool.instance.allocate(16);
+    // allocate() check.
-    auto d = MmapPool.instance.allocate(16);
+    size_t tooMuchMemory = size_t.max
-    auto b = MmapPool.instance.allocate(16);
+                         - MmapPool.alignment_
-    auto e = MmapPool.instance.allocate(16);
+                         - BlockEntry.sizeof * 2
-    auto c = MmapPool.instance.allocate(16);
+                         - RegionEntry.sizeof
-    auto f = MmapPool.instance.allocate(16);
+                         - pageSize;
    assert(MmapPool.instance.allocate(tooMuchMemory) is null);
-    MmapPool.instance.deallocate(a);
+    assert(MmapPool.instance.allocate(size_t.max) is null);
    MmapPool.instance.deallocate(b);
    MmapPool.instance.deallocate(c);
-    a = MmapPool.instance.allocate(50);
+    // initializeRegion() check.
-    MmapPool.instance.reallocateInPlace(a, 64);
+    tooMuchMemory = size_t.max - MmapPool.alignment_;
-    MmapPool.instance.deallocate(a);
+    assert(MmapPool.instance.allocate(tooMuchMemory) is null);
    a = MmapPool.instance.allocate(1);
    auto tmp1 = MmapPool.instance.allocate(1);
    auto h1 = MmapPool.instance.allocate(1);
    auto tmp2 = cast(ubyte[]) MmapPool.instance.allocate(1);
    auto h2 = MmapPool.instance.allocate(2);
    tmp1 = MmapPool.instance.allocate(1);
    MmapPool.instance.deallocate(h2);
    MmapPool.instance.deallocate(h1);
    h2 = MmapPool.instance.allocate(2);
    h1 = MmapPool.instance.allocate(1);
    MmapPool.instance.deallocate(h2);
    auto rep = cast(void[]) tmp2;
    MmapPool.instance.reallocate(rep, tmp1.length);
    tmp2 = cast(ubyte[]) rep;
    MmapPool.instance.reallocate(tmp1, 9);
    rep = cast(void[]) tmp2;
    MmapPool.instance.reallocate(rep, tmp1.length);
    tmp2 = cast(ubyte[]) rep;
    MmapPool.instance.reallocate(tmp1, 17);
    tmp2[$ - 1] = 0;
    MmapPool.instance.deallocate(tmp1);
    b = MmapPool.instance.allocate(16);
    MmapPool.instance.deallocate(h1);
    MmapPool.instance.deallocate(a);
    MmapPool.instance.deallocate(b);
    MmapPool.instance.deallocate(d);
    MmapPool.instance.deallocate(e);
    MmapPool.instance.deallocate(f);
 }
--- a/middle/tanya/memory/op.d
+++ b/middle/tanya/memory/op.d
@ -5,11 +5,11 @@
 /**
 * Set of operations on memory blocks.
 *
- * Copyright: Eugene Wissner 2017-2018.
+ * Copyright: Eugene Wissner 2017-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
- * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/memory/op.d,
+ * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/middle/tanya/memory/op.d,
 *                 tanya/memory/op.d)
 */
 module tanya.memory.op;
@ -24,7 +24,7 @@ version (TanyaNative)
    extern private void moveMemory(const void[], void[])
    pure nothrow @system @nogc;
-    extern private int cmpMemory(const void[], const void[])
+    extern private bool equalMemory(const void[], const void[])
    pure nothrow @system @nogc;
 }
 else
@ -32,21 +32,6 @@ else
    import core.stdc.string;
 }
 version (TanyaNative)
 {
    @nogc nothrow pure @system unittest
    {
        ubyte[2] buffer = 1;
        fillMemory(buffer[1 .. $], 0);
        assert(buffer[0] == 1 && buffer[1] == 0);
    }
    @nogc nothrow pure @safe unittest
    {
        assert(cmp(null, null) == 0);
    }
 }
 private enum alignMask = size_t.sizeof - 1;
 /**
@ -67,13 +52,9 @@ private enum alignMask = size_t.sizeof - 1;
 * Precondition: $(D_INLINECODE source.length <= target.length).
 */
 void copy(const void[] source, void[] target) @nogc nothrow pure @trusted
-in
+in (source.length <= target.length)
-{
+in (source.length == 0 || source.ptr !is null)
-    assert(source.length <= target.length);
+in (target.length == 0 || target.ptr !is null)
    assert(source.length == 0 || source.ptr !is null);
    assert(target.length == 0 || target.ptr !is null);
 }
 do
 {
    version (TanyaNative)
    {
@ -91,27 +72,7 @@ do
    ubyte[9] source = [1, 2, 3, 4, 5, 6, 7, 8, 9];
    ubyte[9] target;
    source.copy(target);
-    assert(cmp(source, target) == 0);
+    assert(equal(source, target));
 }
@nogc nothrow pure @safe unittest
 {
    {
        ubyte[0] source, target;
        source.copy(target);
    }
    {
        ubyte[1] source = [1];
        ubyte[1] target;
        source.copy(target);
        assert(target[0] == 1);
    }
    {
        ubyte[8] source = [1, 2, 3, 4, 5, 6, 7, 8];
        ubyte[8] target;
        source.copy(target);
        assert(cmp(source, target) == 0);
    }
 }
 /*
@ -137,11 +98,7 @@ private template filledBytes(ubyte Byte, ubyte I = 0)
 *  memory = Memory block.
 */
 void fill(ubyte c = 0)(void[] memory) @trusted
-in
+in (memory.length == 0 || memory.ptr !is null)
 {
    assert(memory.length == 0 || memory.ptr !is null);
 }
 do
 {
    version (TanyaNative)
    {
@ -187,13 +144,9 @@ do
 * Precondition: $(D_INLINECODE source.length <= target.length).
 */
 void copyBackward(const void[] source, void[] target) @nogc nothrow pure @trusted
-in
+in (source.length <= target.length)
-{
+in (source.length == 0 || source.ptr !is null)
-    assert(source.length <= target.length);
+in (target.length == 0 || target.ptr !is null)
    assert(source.length == 0 || source.ptr !is null);
    assert(target.length == 0 || target.ptr !is null);
 }
 do
 {
    version (TanyaNative)
    {
@ -212,85 +165,7 @@ do
    ubyte[6] expected = [ 'a', 'a', 'a', 'a', 'b', 'b' ];
    copyBackward(mem[0 .. 4], mem[2 .. $]);
-    assert(cmp(expected, mem) == 0);
+    assert(equal(expected, mem));
 }
@nogc nothrow pure @safe unittest
 {
    ubyte[9] r1 = [ 'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i' ];
    ubyte[9] r2;
    copyBackward(r1, r2);
    assert(cmp(r1, r2) == 0);
 }
 /**
 * Compares two memory areas $(D_PARAM r1) and $(D_PARAM r2).
 *
 * $(D_PSYMBOL cmp) returns a positive integer if
 * $(D_INLINECODE r1.length > r2.length) or the first `n` compared bytes of
 * $(D_PARAM r1) found to be greater than the first `n` bytes of $(D_PARAM r2),
 *
 * $(D_PSYMBOL cmp) returns a negative integer if
 * $(D_INLINECODE r2.length > r1.length) or the first `n` compared bytes of
 * $(D_PARAM r1) found to be less than the first `n` bytes of $(D_PARAM r2),
 *
 * `0` is returned otherwise.
 *
 * Returns: Positive integer if $(D_INLINECODE r1 > r2),
 *          negative integer if $(D_INLINECODE r2 > r1),
 *          `0` if $(D_INLINECODE r1 == r2).
 */
 int cmp(const void[] r1, const void[] r2) @nogc nothrow pure @trusted
 in
 {
    assert(r1.length == 0 || r1.ptr !is null);
    assert(r2.length == 0 || r2.ptr !is null);
 }
 do
 {
    version (TanyaNative)
    {
        return cmpMemory(r1, r2);
    }
    else
    {
        if (r1.length > r2.length)
        {
            return 1;
        }
        return r1.length < r2.length ? -1 : memcmp(r1.ptr, r2.ptr, r1.length);
    }
 }
 ///
@nogc nothrow pure @safe unittest
 {
    ubyte[4] r1 = [ 'a', 'b', 'c', 'd' ];
    ubyte[3] r2 = [ 'c', 'a', 'b' ];
    assert(cmp(r1[0 .. 3], r2[]) < 0);
    assert(cmp(r2[], r1[0 .. 3]) > 0);
    assert(cmp(r1, r2) > 0);
    assert(cmp(r2, r1) < 0);
 }
@nogc nothrow pure @safe unittest
 {
    ubyte[16] r1 = [
        'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h',
        'i', 'j', 'k', 'l', 'm', 'n', 'o', 'p',
    ];
    ubyte[16] r2 = [
        'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h',
        'i', 'j', 'k', 'l', 'm', 'n', 'o', 'p',
    ];
    assert(cmp(r1, r2) == 0);
    assert(cmp(r1[1 .. $], r2[1 .. $]) == 0);
    assert(cmp(r1[0 .. $ - 1], r2[0 .. $ - 1]) == 0);
    assert(cmp(r1[0 .. 8], r2[0 .. 8]) == 0);
 }
 /**
@ -307,11 +182,7 @@ do
 */
 inout(void[]) find(return inout void[] haystack, ubyte needle)
@nogc nothrow pure @trusted
-in
+in (haystack.length == 0 || haystack.ptr !is null)
 {
    assert(haystack.length == 0 || haystack.ptr !is null);
 }
 do
 {
    auto length = haystack.length;
    const size_t needleWord = size_t.max * needle;
@ -362,13 +233,13 @@ do
 {
    const ubyte[9] haystack = ['a', 'b', 'c', 'd', 'e', 'f', 'b', 'g', 'h'];
-    assert(cmp(find(haystack, 'a'), haystack[]) == 0);
+    assert(equal(find(haystack, 'a'), haystack[]));
-    assert(cmp(find(haystack, 'b'), haystack[1 .. $]) == 0);
+    assert(equal(find(haystack, 'b'), haystack[1 .. $]));
-    assert(cmp(find(haystack, 'c'), haystack[2 .. $]) == 0);
+    assert(equal(find(haystack, 'c'), haystack[2 .. $]));
-    assert(cmp(find(haystack, 'd'), haystack[3 .. $]) == 0);
+    assert(equal(find(haystack, 'd'), haystack[3 .. $]));
-    assert(cmp(find(haystack, 'e'), haystack[4 .. $]) == 0);
+    assert(equal(find(haystack, 'e'), haystack[4 .. $]));
-    assert(cmp(find(haystack, 'f'), haystack[5 .. $]) == 0);
+    assert(equal(find(haystack, 'f'), haystack[5 .. $]));
-    assert(cmp(find(haystack, 'h'), haystack[8 .. $]) == 0);
+    assert(equal(find(haystack, 'h'), haystack[8 .. $]));
    assert(find(haystack, 'i').length == 0);
    assert(find(null, 'a').length == 0);
@ -389,11 +260,7 @@ do
 */
 inout(char[]) findNullTerminated(return inout char[] haystack)
@nogc nothrow pure @trusted
-in
+in (haystack.length == 0 || haystack.ptr !is null)
 {
    assert(haystack.length == 0 || haystack.ptr !is null);
 }
 do
 {
    auto length = haystack.length;
    enum size_t highBits = filledBytes!(0x01, 0);
@ -441,10 +308,44 @@ do
 ///
@nogc nothrow pure @safe unittest
 {
-    assert(cmp(findNullTerminated("abcdef\0gh"), "abcdef") == 0);
+    assert(equal(findNullTerminated("abcdef\0gh"), "abcdef"));
-    assert(cmp(findNullTerminated("\0garbage"), "") == 0);
+    assert(equal(findNullTerminated("\0garbage"), ""));
-    assert(cmp(findNullTerminated("\0"), "") == 0);
+    assert(equal(findNullTerminated("\0"), ""));
-    assert(cmp(findNullTerminated("cstring\0"), "cstring") == 0);
+    assert(equal(findNullTerminated("cstring\0"), "cstring"));
    assert(findNullTerminated(null) is null);
    assert(findNullTerminated("abcdef") is null);
 }
 /**
 * Compares two memory areas $(D_PARAM r1) and $(D_PARAM r2) for equality.
 *
 * Params:
 *  r1 = First memory block.
 *  r2 = Second memory block.
 *
 * Returns: $(D_KEYWORD true) if $(D_PARAM r1) and $(D_PARAM r2) are equal,
 *          $(D_KEYWORD false) otherwise.
 */
 bool equal(const void[] r1, const void[] r2) @nogc nothrow pure @trusted
 in (r1.length == 0 || r1.ptr !is null)
 in (r2.length == 0 || r2.ptr !is null)
 {
    version (TanyaNative)
    {
        return equalMemory(r1, r2);
    }
    else
    {
        return r1.length == r2.length
            && memcmp(r1.ptr, r2.ptr, r1.length) == 0;
    }
 }
 ///
@nogc nothrow pure @safe unittest
 {
    assert(equal("asdf", "asdf"));
    assert(!equal("asd", "asdf"));
    assert(!equal("asdf", "asd"));
    assert(!equal("asdf", "qwer"));
 }
--- a/middle/tanya/memory/package.d
+++ b/middle/tanya/memory/package.d
@ -0,0 +1,20 @@
 /* This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
 /**
 * Dynamic memory management.
 *
 * Copyright: Eugene Wissner 2016-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
 * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/middle/tanya/memory/package.d,
 *                 tanya/memory/package.d)
 */
 module tanya.memory;
 public import tanya.memory.allocator;
 public import tanya.memory.lifetime;
 deprecated("Use tanya.meta.trait.stateSize instead")
 public import tanya.meta.trait : stateSize;
--- a/middle/tanya/memory/smartref.d
+++ b/middle/tanya/memory/smartref.d
@ -14,26 +14,22 @@
 *  $(LI Unique ownership)
 * )
 *
- * Copyright: Eugene Wissner 2016-2018.
+ * Copyright: Eugene Wissner 2016-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
- * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/memory/smartref.d,
+ * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/middle/tanya/memory/smartref.d,
 *                 tanya/memory/smartref.d)
 */
 module tanya.memory.smartref;
-import tanya.algorithm.comparison;
+import tanya.memory.allocator;
-import tanya.algorithm.mutation;
+import tanya.memory.lifetime;
 import tanya.conv;
 import tanya.exception;
 import tanya.memory;
 import tanya.meta.trait;
 import tanya.range.primitive;
 private template Payload(T)
 {
-    static if (isPolymorphicType!T || isArray!T)
+    static if (isPolymorphicType!T || isDynamicArray!T)
    {
        alias Payload = T;
    }
@ -50,11 +46,7 @@ private final class RefCountedStore(T)
    size_t opUnary(string op)()
    if (op == "--" || op == "++")
-    in
+    in (this.counter > 0)
    {
        assert(this.counter > 0);
    }
    do
    {
        mixin("return " ~ op ~ "counter;");
    }
@ -135,11 +127,7 @@ struct RefCounted(T)
    /// ditto
    this(shared Allocator allocator)
-    in
+    in (allocator !is null)
    {
        assert(allocator !is null);
    }
    do
    {
        this.allocator_ = allocator;
    }
@ -243,11 +231,7 @@ struct RefCounted(T)
     * Precondition: $(D_INLINECODE cound > 0).
     */
    inout(Payload!T) get() inout
-    in
+    in (count > 0, "Attempted to access an uninitialized reference")
    {
        assert(count > 0, "Attempted to access an uninitialized reference");
    }
    do
    {
        return this.storage.payload;
    }
@ -305,174 +289,14 @@ struct RefCounted(T)
    auto val = rc.get();
    *val = 8;
-    assert(*rc.storage.payload == 8);
+    assert(*rc.get == 8);
    val = null;
-    assert(rc.storage.payload !is null);
+    assert(rc.get !is null);
-    assert(*rc.storage.payload == 8);
+    assert(*rc.get == 8);
    *rc = 9;
-    assert(*rc.storage.payload == 9);
+    assert(*rc.get == 9);
 }
@nogc @system unittest
 {
    auto rc = defaultAllocator.refCounted!int(5);
    rc = defaultAllocator.make!int(7);
    assert(*rc == 7);
 }
@nogc @system unittest
 {
    RefCounted!int rc;
    assert(!rc.isInitialized);
    rc = null;
    assert(!rc.isInitialized);
 }
@nogc @system unittest
 {
    auto rc = defaultAllocator.refCounted!int(5);
    void func(RefCounted!int param) @nogc
    {
        assert(param.count == 2);
        param = defaultAllocator.make!int(7);
        assert(param.count == 1);
        assert(*param == 7);
    }
    func(rc);
    assert(rc.count == 1);
    assert(*rc == 5);
 }
@nogc @system unittest
 {
    RefCounted!int rc;
    void func(RefCounted!int param) @nogc
    {
        assert(param.count == 0);
        param = defaultAllocator.make!int(7);
        assert(param.count == 1);
        assert(*param == 7);
    }
    func(rc);
    assert(rc.count == 0);
 }
@nogc @system unittest
 {
    RefCounted!int rc1, rc2;
    static assert(is(typeof(rc1 = rc2)));
 }
 version (unittest)
 {
    private class A
    {
        uint *destroyed;
        this(ref uint destroyed) @nogc
        {
            this.destroyed = &destroyed;
        }
        ~this() @nogc
        {
            ++(*destroyed);
        }
    }
    private struct B
    {
        int prop;
        @disable this();
        this(int param1) @nogc
        {
            prop = param1;
        }
    }
 }
@nogc @system unittest
 {
    uint destroyed;
    auto a = defaultAllocator.make!A(destroyed);
    assert(destroyed == 0);
    {
        auto rc = RefCounted!A(a, defaultAllocator);
        assert(rc.count == 1);
        void func(RefCounted!A rc) @nogc @system
        {
            assert(rc.count == 2);
        }
        func(rc);
        assert(rc.count == 1);
    }
    assert(destroyed == 1);
    RefCounted!int rc;
    assert(rc.count == 0);
    rc = defaultAllocator.make!int(8);
    assert(rc.count == 1);
 }
@nogc @system unittest
 {
    auto rc = RefCounted!int(defaultAllocator);
    assert(!rc.isInitialized);
    assert(rc.allocator is defaultAllocator);
 }
@nogc @system unittest
 {
    auto rc = defaultAllocator.refCounted!int(5);
    assert(rc.count == 1);
    void func(RefCounted!int rc) @nogc
    {
        assert(rc.count == 2);
        rc = null;
        assert(!rc.isInitialized);
        assert(rc.count == 0);
    }
    assert(rc.count == 1);
    func(rc);
    assert(rc.count == 1);
    rc = null;
    assert(!rc.isInitialized);
    assert(rc.count == 0);
 }
@nogc @system unittest
 {
    auto rc = defaultAllocator.refCounted!int(5);
    assert(*rc == 5);
    void func(RefCounted!int rc) @nogc
    {
        assert(rc.count == 2);
        rc = defaultAllocator.refCounted!int(4);
        assert(*rc == 4);
        assert(rc.count == 1);
    }
    func(rc);
    assert(*rc == 5);
 }
@nogc nothrow pure @safe unittest
 {
    static assert(is(typeof(RefCounted!int.storage.payload) == int*));
    static assert(is(typeof(RefCounted!A.storage.payload) == A));
    static assert(is(RefCounted!B));
    static assert(is(RefCounted!A));
 }
 /**
@ -497,11 +321,7 @@ version (unittest)
 RefCounted!T refCounted(T, A...)(shared Allocator allocator, auto ref A args)
 if (!is(T == interface) && !isAbstractClass!T
 && !isAssociativeArray!T && !isArray!T)
-in
+in (allocator !is null)
 {
    assert(allocator !is null);
 }
 do
 {
    auto rc = typeof(return)(allocator);
@ -530,23 +350,19 @@ do
 *
 * Params:
 *  T         = Array type.
 *  E         = Array element type.
 *  size      = Array size.
 *  allocator = Allocator.
 *
 * Returns: Newly created $(D_PSYMBOL RefCounted!T).
 *
 * Precondition: $(D_INLINECODE allocator !is null
- *                           && size <= size_t.max / ElementType!T.sizeof)
+ *                           && size <= size_t.max / E.sizeof)
 */
-RefCounted!T refCounted(T)(shared Allocator allocator, const size_t size)
+RefCounted!T refCounted(T : E[], E)(shared Allocator allocator, size_t size)
@trusted
-if (isArray!T)
+in (allocator !is null)
-in
+in (size <= size_t.max / E.sizeof)
 {
    assert(allocator !is null);
    assert(size <= size_t.max / ElementType!T.sizeof);
 }
 do
 {
    return RefCounted!T(allocator.make!T(size), allocator);
 }
@ -573,59 +389,6 @@ do
    assert(rc.count == 1);
 }
@nogc @system unittest
 {
    struct E
    {
    }
    auto b = defaultAllocator.refCounted!B(15);
    static assert(is(typeof(b.storage.payload) == B*));
    static assert(is(typeof(b.prop) == int));
    static assert(!is(typeof(defaultAllocator.refCounted!B())));
    static assert(is(typeof(defaultAllocator.refCounted!E())));
    static assert(!is(typeof(defaultAllocator.refCounted!E(5))));
    {
        auto rc = defaultAllocator.refCounted!B(3);
        assert(rc.get().prop == 3);
    }
    {
        auto rc = defaultAllocator.refCounted!E();
        assert(rc.count);
    }
 }
@nogc @system unittest
 {
    auto rc = defaultAllocator.refCounted!(int[])(5);
    assert(rc.length == 5);
 }
@nogc @system unittest
 {
    auto p1 = defaultAllocator.make!int(5);
    auto p2 = p1;
    auto rc = RefCounted!int(p1, defaultAllocator);
    assert(rc.get() is p2);
 }
@nogc @system unittest
 {
    static bool destroyed;
    static struct F
    {
        ~this() @nogc nothrow @safe
        {
            destroyed = true;
        }
    }
    {
        auto rc = defaultAllocator.refCounted!F();
    }
    assert(destroyed);
 }
 /**
 * $(D_PSYMBOL Unique) stores an object that gets destroyed at the end of its scope.
 *
@ -660,11 +423,7 @@ struct Unique(T)
    /// ditto
    this(shared Allocator allocator)
-    in
+    in (allocator !is null)
    {
        assert(allocator !is null);
    }
    do
    {
        this.allocator_ = allocator;
    }
@ -845,11 +604,7 @@ struct Unique(T)
 Unique!T unique(T, A...)(shared Allocator allocator, auto ref A args)
 if (!is(T == interface) && !isAbstractClass!T
 && !isAssociativeArray!T && !isArray!T)
-in
+in (allocator !is null)
 {
    assert(allocator !is null);
 }
 do
 {
    auto payload = allocator.make!(T, A)(args);
    return Unique!T(payload, allocator);
@ -861,63 +616,20 @@ do
 *
 * Params:
 *  T         = Array type.
 *  E         = Array element type.
 *  size      = Array size.
 *  allocator = Allocator.
 *
 * Returns: Newly created $(D_PSYMBOL Unique!T).
 *
 * Precondition: $(D_INLINECODE allocator !is null
- *                           && size <= size_t.max / ElementType!T.sizeof)
+ *                           && size <= size_t.max / E.sizeof)
 */
-Unique!T unique(T)(shared Allocator allocator, const size_t size)
+Unique!T unique(T : E[], E)(shared Allocator allocator, size_t size)
@trusted
-if (isArray!T)
+in (allocator !is null)
-in
+in (size <= size_t.max / E.sizeof)
 {
-    assert(allocator !is null);
+    auto payload = allocator.resize!E(null, size);
    assert(size <= size_t.max / ElementType!T.sizeof);
 }
 do
 {
    auto payload = allocator.resize!(ElementType!T)(null, size);
    return Unique!T(payload, allocator);
 }
@nogc nothrow pure @safe unittest
 {
    static assert(is(typeof(defaultAllocator.unique!B(5))));
    static assert(is(typeof(defaultAllocator.unique!(int[])(5))));
 }
@nogc nothrow pure @system unittest
 {
    auto s = defaultAllocator.unique!int(5);
    assert(*s == 5);
    s = null;
    assert(s is null);
 }
@nogc nothrow pure @system unittest
 {
    auto s = defaultAllocator.unique!int(5);
    assert(*s == 5);
    s = defaultAllocator.unique!int(4);
    assert(*s == 4);
 }
@nogc nothrow pure @system unittest
 {
    auto p1 = defaultAllocator.make!int(5);
    auto p2 = p1;
    auto rc = Unique!int(p1, defaultAllocator);
    assert(rc.get() is p2);
 }
@nogc nothrow pure @system unittest
 {
    auto rc = Unique!int(defaultAllocator);
    assert(rc.allocator is defaultAllocator);
 }
--- a/os/dub.json
+++ b/os/dub.json
@ -0,0 +1,17 @@
 {
 	"name": "os",
 	"description": "Platform-independent interfaces to operating system functionality",
 	"targetType": "library",
 	"dependencies": {
 		"tanya:meta": "*"
 	},
 	"sourcePaths": [
 		"."
 	],
 	"importPaths": [
 		"."
 	],
 	"dflags-dmd": ["-dip1000"]
 }
--- a/source/tanya/os/error.d
+++ b/source/tanya/os/error.d
@ -5,11 +5,11 @@
 /**
 * This module provides a portable way of using operating system error codes.
 *
- * Copyright: Eugene Wissner 2017-2018.
+ * Copyright: Eugene Wissner 2017-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
- * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/os/error.d,
+ * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/os/tanya/os/error.d,
 *                 tanya/os/error.d)
 */
 module tanya.os.error;
@ -307,14 +307,14 @@ struct ErrorCode
     *
     * Returns: $(D_KEYWORD this).
     */
-    ref ErrorCode opAssign(const ErrorNo that) @nogc nothrow pure @safe
+    ref ErrorCode opAssign(const ErrorNo that) return @nogc nothrow pure @safe
    {
        this.value_ = that;
        return this;
    }
    /// ditto
-    ref ErrorCode opAssign(const ErrorCode that) @nogc nothrow pure @safe
+    ref ErrorCode opAssign(const ErrorCode that) return @nogc nothrow pure @safe
    {
        this.value_ = that.value_;
        return this;
@ -407,12 +407,6 @@ struct ErrorCode
        assert(ec.toString() == "An invalid pointer address detected");
    }
    @nogc nothrow pure @safe unittest
    {
        ErrorCode ec = cast(ErrorCode.ErrorNo) -1;
        assert(ec.toString() is null);
    }
    private ErrorNo value_ = ErrorNo.success;
    alias ErrorNo this;
--- a/source/tanya/os/package.d
+++ b/source/tanya/os/package.d
@ -6,11 +6,11 @@
 * This package provides platform-independent interfaces to operating system
 * functionality.
 *
- * Copyright: Eugene Wissner 2017-2018.
+ * Copyright: Eugene Wissner 2017-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
- * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/os/package.d,
+ * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/os/tanya/os/package.d,
 *                 tanya/os/package.d)
 */
 module tanya.os;
--- a/source/tanya/algorithm/comparison.d
+++ b/source/tanya/algorithm/comparison.d
@ -5,7 +5,7 @@
 /**
 * Algorithms for comparing values.
 *
- * Copyright: Eugene Wissner 2018.
+ * Copyright: Eugene Wissner 2018-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
@ -14,9 +14,10 @@
 */
 module tanya.algorithm.comparison;
 import std.traits : CommonType;
 import tanya.algorithm.mutation;
-import tanya.math : isNaN;
+import tanya.math;
-import tanya.memory.op;
+static import tanya.memory.op;
 import tanya.meta.metafunction;
 import tanya.meta.trait;
 import tanya.meta.transform;
@ -99,22 +100,6 @@ if (Args.length >= 2
    return minMax!((ref a, ref b) => a < b)(args);
 }
@nogc nothrow pure @safe unittest
 {
    static assert(!is(typeof(min(1, 1UL))));
 }
@nogc nothrow pure @safe unittest
 {
    assert(min(5, 3) == 3);
    assert(min(4, 4) == 4);
    assert(min(5.2, 3.0) == 3.0);
    assert(min(5.2, double.nan) == 5.2);
    assert(min(double.nan, 3.0) == 3.0);
    assert(isNaN(min(double.nan, double.nan)));
 }
 /// ditto
 Range min(Range)(Range range)
 if (isForwardRange!Range && isOrderingComparable!(ElementType!Range))
@ -150,11 +135,6 @@ if (isForwardRange!Range && isOrderingComparable!(ElementType!Range))
    assert(minElement.length == 3);
 }
@nogc nothrow pure @safe unittest
 {
    assert(min(cast(ubyte[]) []).empty);
 }
 /**
 * Finds the largest element in the argument list or a range.
 *
@ -192,22 +172,6 @@ if (Args.length >= 2
    return minMax!((ref a, ref b) => a > b)(args);
 }
@nogc nothrow pure @safe unittest
 {
    static assert(!is(typeof(max(1, 1UL))));
 }
@nogc nothrow pure @safe unittest
 {
    assert(max(5, 3) == 5);
    assert(max(4, 4) == 4);
    assert(max(5.2, 3.0) == 5.2);
    assert(max(5.2, double.nan) == 5.2);
    assert(max(double.nan, 3.0) == 3.0);
    assert(isNaN(max(double.nan, double.nan)));
 }
 /// ditto
 Range max(Range)(Range range)
 if (isForwardRange!Range && isOrderingComparable!(ElementType!Range))
@ -243,35 +207,6 @@ if (isForwardRange!Range && isOrderingComparable!(ElementType!Range))
    assert(maxElement.length == 3);
 }
@nogc nothrow pure @safe unittest
 {
    assert(max(cast(ubyte[]) []).empty);
 }
 // min/max compare const and mutable structs.
@nogc nothrow pure @safe unittest
 {
    static struct S
    {
        int s;
        int opCmp(typeof(this) that) const @nogc nothrow pure @safe
        {
            return this.s - that.s;
        }
    }
    {
        const s1 = S(1);
        assert(min(s1, S(2)).s == 1);
        assert(max(s1, S(2)).s == 2);
    }
    {
        auto s2 = S(2), s3 = S(3);
        assert(min(s2, s3).s == 2);
        assert(max(s2, s3).s == 3);
    }
 }
 /**
 * Compares element-wise two ranges for equality.
 *
@ -296,7 +231,7 @@ if (allSatisfy!(isInputRange, R1, R2)
            && is(R1 == R2)
            && __traits(isPOD, ElementType!R1))
    {
-        return cmp(r1, r2) == 0;
+        return tanya.memory.op.equal(r1, r2);
    }
    else
    {
@ -438,26 +373,3 @@ private int compareImpl(alias pred, R1, R2)(ref R1 r1, ref R2 r2)
    }
    return 0;
 }
@nogc nothrow pure @safe unittest
 {
    static struct OpCmp(int value)
    {
        int opCmp(OpCmp) @nogc nothrow pure @safe
        {
            return value;
        }
    }
    {
        OpCmp!(-1)[1] range;
        assert(compare(range[], range[]) < 0);
    }
    {
        OpCmp!1[1] range;
        assert(compare(range[], range[]) > 0);
    }
    {
        OpCmp!0[1] range;
        assert(compare(range[], range[]) == 0);
    }
 }
--- a/source/tanya/algorithm/iteration.d
+++ b/source/tanya/algorithm/iteration.d
@ -3,15 +3,15 @@
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
 /**
- * Range adapters.
+ * Iteration algorithms.
 *
- * A range adapter wraps another range and modifies the way, how the original
+ * These algorithms wrap other ranges and modify the way, how the original
 * range is iterated, or the order in which its elements are accessed.
 *
- * All adapters are lazy algorithms, they request the next element of the
+ * All algorithms in this module are lazy, they request the next element of the
- * adapted range on demand.
+ * original range on demand.
 *
- * Copyright: Eugene Wissner 2018.
+ * Copyright: Eugene Wissner 2018-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
@ -21,10 +21,57 @@
 module tanya.algorithm.iteration;
 import tanya.algorithm.comparison;
-import tanya.algorithm.mutation;
+import tanya.memory.lifetime;
 import tanya.meta.trait;
 import tanya.meta.transform;
 import tanya.range;
 import tanya.typecons;
-private mixin template Take(R, bool exactly)
+// These predicates are used to help preserve `const` and `inout` for
 // ranges built on other ranges.
 private enum hasInoutFront(T) = is(typeof((inout ref T a) => a.front));
 private enum hasInoutBack(T) = is(typeof((inout ref T a) => a.back));
 private enum hasInoutIndex(T) = is(typeof((inout ref T a, size_t i) => a[i]));
 private enum hasConstEmpty(T) = is(typeof(((const T* a) => (*a).empty)(null)) : bool);
 private enum hasConstLength(T) = is(typeof(((const T* a) => (*a).length)(null)) : size_t);
 private enum hasConstSave(T) = is(typeof(((const T* a) => (*a).save())(null)) : T);
 private enum hasConstSlice(T) = is(typeof(((const T* a) => (*a)[0 .. $])(null)) : T);
@nogc nothrow pure @safe unittest
 {
    // Test the definitions.
    static assert(hasInoutFront!string);
    static assert(hasInoutBack!string);
    static assert(hasInoutIndex!string);
    static assert(hasConstEmpty!string);
    static assert(hasConstLength!string);
    static assert(hasConstSave!string);
    static assert(hasConstSlice!string);
    // Test that Take propagates const/inout correctly.
    alias TakeString = Take!(string, false);
    static assert(hasInoutFront!TakeString);
    static assert(hasInoutBack!TakeString);
    static assert(hasInoutIndex!TakeString);
    static assert(hasConstEmpty!TakeString);
    static assert(hasConstLength!TakeString);
    static assert(hasConstSave!TakeString);
    static assert(hasConstSlice!TakeString);
    // Test that Retro propagates const/inout correctly.
    alias RetroString = Retro!string;
    static assert(hasInoutFront!RetroString);
    static assert(hasInoutBack!RetroString);
    static assert(hasInoutIndex!RetroString);
    static assert(hasConstEmpty!RetroString);
    static assert(hasConstLength!RetroString);
    static assert(hasConstSave!RetroString);
    static assert(hasConstSlice!RetroString);
 }
 private struct Take(R, bool exactly)
 {
    private R source;
    size_t length_;
@ -44,62 +91,49 @@ private mixin template Take(R, bool exactly)
        }
    }
-    @property auto ref front()
+    mixin(`@property auto ref front() ` ~ (hasInoutFront!R ? `inout ` : ``) ~
-    in
+    `in (!empty)
    {
        assert(!empty);
    }
    do
    {
        return this.source.front;
-    }
+    }`);
    void popFront()
-    in
+    in (!empty)
    {
        assert(!empty);
    }
    do
    {
        this.source.popFront();
        --this.length_;
    }
-    @property bool empty()
+    mixin(`@property bool empty() ` ~ (exactly || isInfinite!R || hasConstEmpty!R ? `const ` : ``) ~
-    {
+    `{
        static if (exactly || isInfinite!R)
        {
            return length == 0;
        }
        else
        {
-            return length == 0 || this.source.empty;
+            return this.length_ == 0 || this.source.empty;
        }
-    }
+    }`);
-    @property size_t length()
+    static if (exactly || hasLength!R)
    {
-        return this.length_;
+        @property size_t length() const
        {
            return this.length_;
        }
    }
    static if (hasAssignableElements!R)
    {
        @property void front(ref ElementType!R value)
-        in
+        in (!empty)
        {
            assert(!empty);
        }
        do
        {
            this.source.front = value;
        }
        @property void front(ElementType!R value)
-        in
+        in (!empty)
        {
            assert(!empty);
        }
        do
        {
            this.source.front = move(value);
        }
@ -107,86 +141,72 @@ private mixin template Take(R, bool exactly)
    static if (isForwardRange!R)
    {
-        typeof(this) save()
+        mixin(`typeof(this) save() ` ~ (hasConstSave!R ? `const ` : ``) ~
-        {
+        `{
            return typeof(this)(this.source.save(), length);
-        }
+        }`);
    }
    static if (isRandomAccessRange!R)
    {
-        @property auto ref back()
+        mixin(`@property auto ref back() ` ~ (hasInoutBack!R ? `inout ` : ``) ~
-        in
+        `in (!empty)
        {
            assert(!empty);
        }
        do
        {
            return this.source[this.length - 1];
-        }
+        }`);
        void popBack()
-        in
+        in (!empty)
        {
            assert(!empty);
        }
        do
        {
            --this.length_;
        }
-        auto ref opIndex(size_t i)
+        mixin(`auto ref opIndex(size_t i) ` ~ (hasInoutIndex!R ? `inout ` : ``) ~
-        in
+        `in (i < length)
        {
            assert(i < length);
        }
        do
        {
            return this.source[i];
-        }
+        }`);
        static if (hasAssignableElements!R)
        {
            @property void back(ref ElementType!R value)
-            in
+            in (!empty)
            {
                assert(!empty);
            }
            do
            {
                this.source[length - 1] = value;
            }
            @property void back(ElementType!R value)
-            in
+            in (!empty)
            {
                assert(!empty);
            }
            do
            {
                this.source[length - 1] = move(value);
            }
            void opIndexAssign(ref ElementType!R value, size_t i)
-            in
+            in (i < length)
            {
                assert(i < length);
            }
            do
            {
                this.source[i] = value;
            }
            void opIndexAssign(ElementType!R value, size_t i)
-            in
+            in (i < length)
            {
                assert(i < length);
            }
            do
            {
                this.source[i] = move(value);
            }
        }
    }
    static if (!exactly && hasSlicing!R)
    {
        static if (is(typeof(length))) alias opDollar = length;
        mixin(`auto opSlice(size_t i, size_t j) ` ~ (hasConstSlice!R ? `const ` : ``) ~
        `in (i <= j)
        in (j <= length)
        {
            return typeof(this)(this.source[i .. j], length);
        }`);
    }
    version (unittest) static assert(isInputRange!Take);
 }
 /**
@ -212,25 +232,34 @@ private mixin template Take(R, bool exactly)
 auto take(R)(R range, size_t n)
 if (isInputRange!R)
 {
-    static struct Take
+    static if (hasSlicing!R && hasLength!R)
    {
-        mixin .Take!(R, false);
+        if (range.length <= n)
-
+            return range;
-        static if (hasSlicing!R)
+        else
-        {
+            return range[0 .. n];
-            auto opSlice(size_t i, size_t j)
+    }
-            in
+    // Special case: take(take(...), n)
-            {
+    else static if (is(Range == Take!(RRange, exact), RRange, bool exact))
-                assert(i <= j);
+    {
-                assert(j <= length);
+        if (n > range.length_)
-            }
+            n = range.length_;
-            do
+        static if (exact)
-            {
+            // `take(takeExactly(r, n0), n)` is rewritten `takeExactly(r, min(n0, n))`.
-                return typeof(this)(this.source[i .. j], length);
+            return Take!(RRange, true)(range.source, n);
-            }
+        else
-        }
+            // `take(take(r, n0), n)` is rewritten `take(r, min(n0, n))`.
            return Take!(RRange, false)(range.source, n);
    }
    else static if (isInfinite!R)
    {
        // If the range is infinite then `take` is the same as `takeExactly`.
        return Take!(R, true)(range, n);
    }
    else
    {
        return Take!(R, false)(range, n);
    }
    return Take(range, n);
 }
 ///
@ -315,13 +344,15 @@ if (isInputRange!R)
    {
        return range[0 .. n];
    }
    // Special case: takeExactly(take(range, ...), n) is takeExactly(range, n)
    else static if (is(Range == Take!(RRange, exact), RRange, bool exact))
    {
        assert(n <= range.length_);
        return Take!(RRange, true)(range.source, n);
    }
    else
    {
-        static struct TakeExactly
+        return Take!(R, true)(range, n);
        {
            mixin Take!(R, true);
        }
        return TakeExactly(range, n);
    }
 }
@ -382,30 +413,124 @@ if (isInputRange!R)
    assert(t.empty);
 }
-// Takes minimum length if the range length > n
+// Reverse-access-order range returned by `retro`.
-@nogc nothrow pure @safe unittest
+private struct Retro(Range)
 {
-    auto range = take(cast(int[]) null, 8);
+    Range source;
    assert(range.length == 0);
 }
-@nogc nothrow pure @safe unittest
+    @disable this();
-{
+
-    const int[9] range = [1, 2, 3, 4, 5, 6, 7, 8, 9];
+    private this(Range source) @safe
    {
-        auto slice = take(range[], 8)[1 .. 3];
+        this.source = source;
        assert(slice.length == 2);
        assert(slice.front == 2);
        assert(slice.back == 3);
    }
    mixin(`Retro save() ` ~ (hasConstSave!Range ? `const ` : ``) ~
    `{
        return Retro(source.save());
    }`);
    mixin(`@property auto ref front() ` ~ (hasInoutBack!Range ? `inout ` : ``) ~
    `in (!empty)
    {
-        auto slice = takeExactly(range[], 8)[1 .. 3];
+        return this.source.back;
    }`);
-        assert(slice.length == 2);
+    void popFront()
-        assert(slice.front == 2);
+    in (!empty)
-        assert(slice.back == 3);
+    {
        this.source.popBack();
    }
    mixin(`@property auto ref back() ` ~ (hasInoutFront!Range ? `inout ` : ``) ~
    `in (!empty)
    {
        return this.source.front;
    }`);
    void popBack()
    in (!empty)
    {
        this.source.popFront();
    }
    mixin(`@property bool empty() ` ~ (hasConstEmpty!Range ? `const ` : ``) ~
    `{
        return this.source.empty;
    }`);
    static if (hasLength!Range)
    {
        mixin(`@property size_t length() ` ~ (hasConstLength!Range ? `const ` : ``) ~
        `{
            return this.source.length;
        }`);
    }
    static if (isRandomAccessRange!Range && hasLength!Range)
    {
        mixin(`auto ref opIndex(size_t i) ` ~ (hasInoutIndex!Range ? `inout ` : ``) ~
        `in (i < length)
        {
            return this.source[$ - ++i];
        }`);
    }
    static if (hasLength!Range && hasSlicing!Range)
    {
        alias opDollar = length;
        mixin(`auto opSlice(size_t i, size_t j) ` ~ (hasConstSlice!Range ? `const ` : ``) ~
        `in (i <= j)
        in (j <= length)
        {
            return typeof(this)(this.source[$-j .. $-i]);
        }`);
    }
    static if (hasAssignableElements!Range)
    {
        @property void front(ref ElementType!Range value)
        in (!empty)
        {
            this.source.back = value;
        }
        @property void front(ElementType!Range value)
        in (!empty)
        {
            this.source.back = move(value);
        }
        @property void back(ref ElementType!Range value)
        in (!empty)
        {
            this.source.front = value;
        }
        @property void back(ElementType!Range value)
        in (!empty)
        {
            this.source.front = move(value);
        }
        static if (isRandomAccessRange!Range && hasLength!Range)
        {
            void opIndexAssign(ref ElementType!Range value, size_t i)
            in (i < length)
            {
                this.source[$ - ++i] = value;
            }
            void opIndexAssign(ElementType!Range value, size_t i)
            in (i < length)
            {
                this.source[$ - ++i] = move(value);
            }
        }
    }
    version (unittest) static assert(isBidirectionalRange!Retro);
 }
 /**
@ -423,112 +548,11 @@ if (isInputRange!R)
 auto retro(Range)(Range range)
 if (isBidirectionalRange!Range)
 {
-    static struct Retro
+    // Special case: retro(retro(range)) is range
-    {
+    static if (is(Range == Retro!RRange, RRange))
-        Range source;
+        return range.source;
-
+    else
-        @disable this();
+        return Retro!Range(range);
        private this(Range source)
        {
            this.source = source;
        }
        Retro save()
        {
            return this;
        }
        @property auto ref front()
        in (!empty)
        {
            return this.source.back;
        }
        void popFront()
        in (!empty)
        {
            this.source.popBack();
        }
        @property auto ref back()
        in (!empty)
        {
            return this.source.front;
        }
        void popBack()
        in (!empty)
        {
            this.source.popFront();
        }
        @property bool empty()
        {
            return this.source.empty;
        }
        static if (hasLength!Range)
        {
            @property size_t length()
            {
                return this.source.length;
            }
        }
        static if (isRandomAccessRange!Range && hasLength!Range)
        {
            auto ref opIndex(size_t i)
            in (i < length)
            {
                return this.source[$ - ++i];
            }
        }
        static if (hasAssignableElements!Range)
        {
            @property void front(ref ElementType!Range value)
            in (!empty)
            {
                this.source.back = value;
            }
            @property void front(ElementType!Range value)
            in (!empty)
            {
                this.source.back = move(value);
            }
            @property void back(ref ElementType!Range value)
            in (!empty)
            {
                this.source.front = value;
            }
            @property void back(ElementType!Range value)
            in (!empty)
            {
                this.source.front = move(value);
            }
            static if (isRandomAccessRange!Range && hasLength!Range)
            {
                void opIndexAssign(ref ElementType!Range value, size_t i)
                in (i < length)
                {
                    this.source[$ - ++i] = value;
                }
                void opIndexAssign(ElementType!Range value, size_t i)
                in (i < length)
                {
                    this.source[$ - ++i] = move(value);
                }
            }
        }
    }
    return Retro(range);
 }
 ///
@ -546,33 +570,272 @@ if (isBidirectionalRange!Range)
    assert(equal(actual, expected[]));
 }
-// Elements are accessible in reverse order
+private struct SingletonByValue(E)
@nogc nothrow pure @safe unittest
 {
-    const int[3] given = [1, 2, 3];
+    private Option!E element;
    auto actual = retro(given[]);
-    assert(actual.back == given[].front);
+    @disable this();
    assert(actual[0] == 3);
    assert(actual[2] == 1);
-    actual.popBack();
+    private this(U)(ref U element)
-    assert(actual.back == 2);
+    if (is(U == E))
-    assert(actual[1] == 2);
+    {
        this.element = move(element);
    }
    private this(U)(ref U element)
    if (is(Unqual!U == Option!(Unqual!E)) || is(Unqual!U == Option!(const E)))
    {
        if (!element.isNothing)
        {
            this.element = element.get;
        }
    }
    @property ref inout(E) front() inout
    in (!empty)
    {
        return this.element.get;
    }
    alias back = front;
    void popFront()
    in (!empty)
    {
        this.element.reset();
    }
    alias popBack = popFront;
    @property bool empty() const
    {
        return this.element.isNothing;
    }
    @property size_t length() const
    {
        return !this.element.isNothing;
    }
    auto save()
    {
        return SingletonByValue!E(this.element);
    }
    auto save() const
    {
        return SingletonByValue!(const E)(this.element);
    }
    ref inout(E) opIndex(size_t i) inout
    in (!empty)
    in (i == 0)
    {
        return this.element.get;
    }
 }
-// Elements can be assigned
+private struct SingletonByRef(E)
 {
    private E* element;
    @disable this();
    private this(return ref E element) @trusted
    {
        this.element = &element;
    }
    @property ref inout(E) front() inout return
    in (!empty)
    {
        return *this.element;
    }
    alias back = front;
    void popFront()
    in (!empty)
    {
        this.element = null;
    }
    alias popBack = popFront;
    @property bool empty() const
    {
        return this.element is null;
    }
    @property size_t length() const
    {
        return this.element !is null;
    }
    auto save() return
    {
        return typeof(this)(*this.element);
    }
    auto save() const return
    {
        return SingletonByRef!(const E)(*this.element);
    }
    ref inout(E) opIndex(size_t i) inout return
    in (!empty)
    in (i == 0)
    {
        return *this.element;
    }
 }
 /**
 * Creates a bidirectional and random-access range with the single element
 * $(D_PARAM element).
 *
 * If $(D_PARAM element) is passed by value the resulting range stores it
 * internally. If $(D_PARAM element) is passed by reference, the resulting
 * range keeps only a pointer to the element.
 *
 * Params:
 *  E       = Element type.
 *  element = Element.
 *
 * Returns: A range with one element.
 */
 auto singleton(E)(return E element)
 if (isMutable!E)
 {
    return SingletonByValue!E(element);
 }
 /// ditto
 auto singleton(E)(return ref E element)
 {
    return SingletonByRef!E(element);
 }
 ///
@nogc nothrow pure @safe unittest
 {
-    int[4] given = [1, 2, 3, 4];
+    auto singleChar = singleton('a');
    auto actual = retro(given[]);
-    actual.front = 5;
+    assert(singleChar.length == 1);
-    assert(given[].back == 5);
+    assert(singleChar.front == 'a');
-    actual.back = 8;
+    singleChar.popFront();
-    assert(given[].front == 8);
+    assert(singleChar.empty);
-
+}
-    actual[2] = 10;
+
-    assert(given[1] == 10);
+/**
 * Accumulates all elements of a range using a function.
 *
 * $(D_PSYMBOL foldl) takes a function, an input range and the initial value.
 * The function takes this initial value and the first element of the range (in
 * this order), puts them together and returns the result. The return
 * type of the function should be the same as the type of the initial value.
 * This is than repeated for all the remaining elements of the range, whereby
 * the value returned by the passed function is used at the place of the
 * initial value.
 *
 * $(D_PSYMBOL foldl) accumulates from left to right.
 *
 * Params:
 *  F = Callable accepting the accumulator and a range element.
 */
 template foldl(F...)
 if (F.length == 1)
 {
    /**
     * Params:
     *  R     = Input range type.
     *  T     = Type of the accumulated value.
     *  range = Input range.
     *  init  = Initial value.
     *
     * Returns: Accumulated value.
     */
    auto foldl(R, T)(R range, auto ref T init)
    if (isInputRange!R && !isInfinite!R)
    {
        if (range.empty)
        {
            return init;
        }
        else
        {
            auto acc = F[0](init, getAndPopFront(range));
            return foldl(range, acc);
        }
    }
 }
 ///
@nogc nothrow pure @safe unittest
 {
    int[3] range = [1, 2, 3];
    const actual = foldl!((acc, x) => acc + x)(range[], 0);
    assert(actual == 6);
 }
 /**
 * Accumulates all elements of a range using a function.
 *
 * $(D_PSYMBOL foldr) takes a function, an input range and the initial value.
 * The function takes this initial value and the first element of the range (in
 * this order), puts them together and returns the result. The return
 * type of the function should be the same as the type of the initial value.
 * This is than repeated for all the remaining elements of the range, whereby
 * the value returned by the passed function is used at the place of the
 * initial value.
 *
 * $(D_PSYMBOL foldr) accumulates from right to left.
 *
 * Params:
 *  F = Callable accepting the accumulator and a range element.
 */
 template foldr(F...)
 if (F.length == 1)
 {
    /**
     * Params:
     *  R     = Bidirectional range type.
     *  T     = Type of the accumulated value.
     *  range = Bidirectional range.
     *  init  = Initial value.
     *
     * Returns: Accumulated value.
     */
    auto foldr(R, T)(R range, auto ref T init)
    if (isBidirectionalRange!R)
    {
        if (range.empty)
        {
            return init;
        }
        else
        {
            auto acc = F[0](init, getAndPopBack(range));
            return foldr(range, acc);
        }
    }
 }
 ///
@nogc nothrow pure @safe unittest
 {
    int[3] range = [1, 2, 3];
    int[3] output;
    const int[3] expected = [3, 2, 1];
    alias f = (acc, x) {
        acc.front = x;
        acc.popFront;
        return acc;
    };
    const actual = foldr!f(range[], output[]);
    assert(output[] == expected[]);
 }
--- a/source/tanya/algorithm/mutation.d
+++ b/source/tanya/algorithm/mutation.d
@ -5,7 +5,7 @@
 /**
 * Algorithms that modify its arguments.
 *
- * Copyright: Eugene Wissner 2017-2018.
+ * Copyright: Eugene Wissner 2017-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
@ -14,268 +14,20 @@
 */
 module tanya.algorithm.mutation;
 static import tanya.memory.lifetime;
 static import tanya.memory.op;
 import tanya.meta.trait;
 import tanya.meta.transform;
 import tanya.range;
-private void deinitialize(bool zero, T)(ref T value)
+deprecated("Use tanya.memory.lifetime.swap instead")
-{
+alias swap = tanya.memory.lifetime.swap;
    static if (is(T == U[S], U, size_t S))
    {
        foreach (ref e; value)
        {
            deinitialize!zero(e);
        }
    }
    else
    {
        static if (isNested!T)
        {
            // Don't override the context pointer.
            enum size_t size = T.sizeof - (void*).sizeof;
        }
        else
        {
            enum size_t size = T.sizeof;
        }
        static if (zero)
        {
            tanya.memory.op.fill!0((cast(void*) &value)[0 .. size]);
        }
        else
        {
            tanya.memory.op.copy(typeid(T).initializer()[0 .. size],
                                 (&value)[0 .. 1]);
        }
    }
 }
-/**
+deprecated("Use tanya.memory.lifetime.moveEmplace instead")
- * Moves $(D_PARAM source) into $(D_PARAM target) assuming that
+alias moveEmplace = tanya.memory.lifetime.moveEmplace;
 * $(D_PARAM target) isn't initialized.
 *
 * Moving the $(D_PARAM source) copies it into the $(D_PARAM target) and places
 * the $(D_PARAM source) into a valid but unspecified state, which means that
 * after moving $(D_PARAM source) can be destroyed or assigned a new value, but
 * accessing it yields an unspecified value. No postblits or destructors are
 * called. If the $(D_PARAM target) should be destroyed before, use
 * $(D_PSYMBOL move).
 *
 * $(D_PARAM source) and $(D_PARAM target) must be different objects.
 *
 * Params:
 *  T      = Object type.
 *  source = Source object.
 *  target = Target object.
 *
 * See_Also: $(D_PSYMBOL move),
 *           $(D_PSYMBOL hasElaborateCopyConstructor),
 *           $(D_PSYMBOL hasElaborateDestructor).
 *
 * Precondition: `&source !is &target`.
 */
 void moveEmplace(T)(ref T source, ref T target) @system
 in
 {
    assert(&source !is &target, "Source and target must be different");
 }
 do
 {
    static if (is(T == struct) || isStaticArray!T)
    {
        tanya.memory.op.copy((&source)[0 .. 1], (&target)[0 .. 1]);
-        static if (hasElaborateCopyConstructor!T || hasElaborateDestructor!T)
+deprecated("Use tanya.memory.lifetime.move instead")
-        {
+alias move = tanya.memory.lifetime.move;
            if (typeid(T).initializer().ptr is null)
            {
                deinitialize!true(source);
            }
            else
            {
                deinitialize!false(source);
            }
        }
    }
    else
    {
        target = source;
    }
 }
 ///
@nogc nothrow pure @system unittest
 {
    static struct S
    {
        int member = 5;
        this(this) @nogc nothrow pure @safe
        {
            assert(false);
        }
    }
    S source, target = void;
    moveEmplace(source, target);
    assert(target.member == 5);
    int x1 = 5, x2;
    moveEmplace(x1, x2);
    assert(x2 == 5);
 }
 // Is pure.
@nogc nothrow pure @system unittest
 {
    struct S
    {
        this(this)
        {
        }
    }
    S source, target = void;
    static assert(is(typeof({ moveEmplace(source, target); })));
 }
 // Moves nested.
@nogc nothrow pure @system unittest
 {
    struct Nested
    {
        void method() @nogc nothrow pure @safe
        {
        }
    }
    Nested source, target = void;
    moveEmplace(source, target);
    assert(source == target);
 }
 // Emplaces static arrays.
@nogc nothrow pure @system unittest
 {
    static struct S
    {
        size_t member;
        this(size_t i) @nogc nothrow pure @safe
        {
            this.member = i;
        }
        ~this() @nogc nothrow pure @safe
        {
        }
    }
    S[2] source = [ S(5), S(5) ], target = void;
    moveEmplace(source, target);
    assert(source[0].member == 0);
    assert(target[0].member == 5);
    assert(source[1].member == 0);
    assert(target[1].member == 5);
 }
 /**
 * Moves $(D_PARAM source) into $(D_PARAM target) assuming that
 * $(D_PARAM target) isn't initialized.
 *
 * Moving the $(D_PARAM source) copies it into the $(D_PARAM target) and places
 * the $(D_PARAM source) into a valid but unspecified state, which means that
 * after moving $(D_PARAM source) can be destroyed or assigned a new value, but
 * accessing it yields an unspecified value. $(D_PARAM target) is destroyed before
 * the new value is assigned. If $(D_PARAM target) isn't initialized and
 * therefore shouldn't be destroyed, $(D_PSYMBOL moveEmplace) can be used.
 *
 * If $(D_PARAM target) isn't specified, $(D_PSYMBOL move) returns the source
 * as rvalue without calling its copy constructor or destructor.
 *
 * $(D_PARAM source) and $(D_PARAM target) are the same object,
 * $(D_PSYMBOL move) does nothing.
 *
 * Params:
 *  T      = Object type.
 *  source = Source object.
 *  target = Target object.
 *
 * See_Also: $(D_PSYMBOL moveEmplace).
 */
 void move(T)(ref T source, ref T target)
 {
    if ((() @trusted => &source is &target)())
    {
        return;
    }
    static if (hasElaborateDestructor!T)
    {
        target.__xdtor();
    }
    (() @trusted => moveEmplace(source, target))();
 }
 /// ditto
 T move(T)(ref T source) @trusted
 {
    T target = void;
    moveEmplace(source, target);
    return target;
 }
 ///
@nogc nothrow pure @safe unittest
 {
    static struct S
    {
        int member = 5;
        this(this) @nogc nothrow pure @safe
        {
            assert(false);
        }
    }
    S source, target = void;
    move(source, target);
    assert(target.member == 5);
    assert(move(target).member == 5);
    int x1 = 5, x2;
    move(x1, x2);
    assert(x2 == 5);
    assert(move(x2) == 5);
 }
 // Moves if source is target.
@nogc nothrow pure @safe unittest
 {
    int x = 5;
    move(x, x);
    assert(x == 5);
 }
 /**
 * Exchanges the values of $(D_PARAM a) and $(D_PARAM b).
 *
 * $(D_PSYMBOL swap) moves the contents of $(D_PARAM a) and $(D_PARAM b)
 * without calling its postblits or destructors.
 *
 * Params:
 *  a = The first object.
 *  b = The second object.
 */
 void swap(T)(ref T a, ref T b) @trusted
 {
    T tmp = void;
    moveEmplace(a, tmp);
    moveEmplace(b, a);
    moveEmplace(tmp, b);
 }
 ///
@nogc nothrow pure @safe unittest
 {
    int a = 3, b = 5;
    swap(a, b);
    assert(a == 5);
    assert(b == 3);
 }
 /**
 * Copies the $(D_PARAM source) range into the $(D_PARAM target) range.
@ -293,7 +45,7 @@ void swap(T)(ref T a, ref T b) @trusted
 *               $(D_PARAM source) elements.
 */
 Target copy(Source, Target)(Source source, Target target)
-if (isInputRange!Source && isOutputRange!(Target, Source))
+if (isInputRange!Source && isOutputRange!(Target, ElementType!Source))
 in
 {
    static if (hasLength!Source && hasLength!Target)
@ -343,48 +95,212 @@ do
    assert(equal(source[], target[]));
 }
-// Returns advanced target
+/**
-@nogc nothrow pure @safe unittest
+ * Fills $(D_PARAM range) with $(D_PARAM value).
 *
 * Params:
 *  Range = Input range type.
 *  Value = Filler type.
 *  range = Input range.
 *  value = Filler.
 */
 void fill(Range, Value)(Range range, auto ref Value value)
 if (isInputRange!Range && isAssignable!(ElementType!Range, Value))
 {
-    int[5] input = [1, 2, 3, 4, 5];
+    static if (!isDynamicArray!Range && is(typeof(range[] = value)))
-    assert(copy(input[3 .. 5], input[]).front == 3);
+    {
        range[] = value;
    }
    else
    {
        for (; !range.empty; range.popFront())
        {
            range.front = value;
        }
    }
 }
-// Copies overlapping arrays
+///
@nogc nothrow pure @safe unittest
 {
    import tanya.algorithm.comparison : equal;
-    int[6] actual = [1, 2, 3, 4, 5, 6];
+    int[6] actual;
-    const int[6] expected = [1, 2, 1, 2, 3, 4];
+    const int[6] expected = [1, 1, 1, 1, 1, 1];
-    copy(actual[0 .. 4], actual[2 .. 6]);
+    fill(actual[], 1);
    assert(equal(actual[], expected[]));
 }
-@nogc nothrow pure @safe unittest
+/**
 * Fills $(D_PARAM range) with $(D_PARAM value) assuming the elements of the
 * $(D_PARAM range) aren't initialized.
 *
 * Params:
 *  Range = Input range type.
 *  Value = Initializer type.
 *  range = Input range.
 *  value = Initializer.
 */
 void uninitializedFill(Range, Value)(Range range, auto ref Value value)
 if (isInputRange!Range && hasLvalueElements!Range
 && isAssignable!(ElementType!Range, Value))
 {
-    static assert(is(typeof(copy((ubyte[]).init, (ushort[]).init))));
+    static if (hasElaborateDestructor!(ElementType!Range))
    static assert(!is(typeof(copy((ushort[]).init, (ubyte[]).init))));
 }
@nogc nothrow pure @safe unittest
 {
    static struct OutPutRange
    {
-        int value;
+        for (; !range.empty; range.popFront())
        void put(int value) @nogc nothrow pure @safe
        in
        {
-            assert(this.value == 0);
+            ElementType!Range* p = &range.front;
-        }
+            tanya.memory.lifetime.emplace!(ElementType!Range)(cast(void[]) (p[0 .. 1]), value);
        do
        {
            this.value = value;
        }
    }
-    int[1] source = [5];
+    else
-    OutPutRange target;
+    {
-
+        fill(range, value);
-    assert(copy(source[], target).value == 5);
+    }
 }
 ///
@nogc nothrow pure @safe unittest
 {
    import tanya.algorithm.comparison : equal;
    int[6] actual = void;
    const int[6] expected = [1, 1, 1, 1, 1, 1];
    uninitializedFill(actual[], 1);
    assert(equal(actual[], expected[]));
 }
 /**
 * Initializes all elements of the $(D_PARAM range) assuming that they are
 * uninitialized.
 *
 * Params:
 *  Range = Input range type
 *  range = Input range.
 */
 void initializeAll(Range)(Range range) @trusted
 if (isInputRange!Range && hasLvalueElements!Range)
 {
    import tanya.memory.op : copy, fill;
    alias T = ElementType!Range;
    static if (__VERSION__ >= 2083
            && isDynamicArray!Range
            && __traits(isZeroInit, T))
    {
        fill!0(range);
    }
    else
    {
        static immutable init = T.init;
        for (; !range.empty; range.popFront())
        {
            copy((&init)[0 .. 1], (&range.front)[0 .. 1]);
        }
    }
 }
 ///
@nogc nothrow pure @safe unittest
 {
    import tanya.algorithm.comparison : equal;
    int[2] actual = void;
    const int[2] expected = [0, 0];
    initializeAll(actual[]);
    assert(equal(actual[], expected[]));
 }
 /**
 * Destroys all elements in the $(D_PARAM range).
 *
 * This function has effect only if the element type of $(D_PARAM Range) has
 * an elaborate destructor, i.e. it is a $(D_PSYMBOL struct) with an explicit
 * or generated by the compiler destructor.
 *
 * Params:
 *  Range = Input range type.
 *  range = Input range.
 */
 void destroyAll(Range)(Range range)
 if (isInputRange!Range && hasLvalueElements!Range)
 {
    tanya.memory.lifetime.destroyAllImpl!(Range, ElementType!Range)(range);
 }
 ///
@nogc nothrow pure @trusted unittest
 {
    static struct WithDtor
    {
        private size_t* counter;
        ~this() @nogc nothrow pure
        {
            if (this.counter !is null)
            {
                ++(*this.counter);
            }
        }
    }
    size_t counter;
    WithDtor[2] withDtor = [WithDtor(&counter), WithDtor(&counter)];
    destroyAll(withDtor[]);
    assert(counter == 2);
 }
 /**
 * Rotates the elements of a union of two ranges.
 *
 * Performs a left rotation on the given ranges, as if it would be a signle
 * range, so that [`front.front`, `back.front`$(RPAREN) is a valid range, that
 * is $(D_PARAM back) would continue $(D_PARAM front).
 *
 * The elements are moved so, that the first element of $(D_PARAM back) becomes
 * the first element of $(D_PARAM front) without changing the relative order of
 * their elements.
 *
 * Params:
 *  Range = Range type.
 *  front = Left half.
 *  back  = Right half.
 */
 void rotate(Range)(Range front, Range back)
 if (isForwardRange!Range && hasSwappableElements!Range)
 {
    auto next = back.save();
    while (!front.empty && !next.empty && !sameHead(front, next))
    {
        tanya.memory.lifetime.swap(front.front, next.front);
        front.popFront();
        next.popFront();
        if (next.empty)
        {
            next = back.save();
        }
        else if (front.empty)
        {
            front = back.save();
            back = next.save();
        }
    }
 }
 ///
@nogc nothrow pure @safe unittest
 {
    import tanya.algorithm.comparison : equal;
    const int[7] expected = [1, 2, 3, 4, 5, 6, 7];
    int[7] actual = [5, 6, 3, 4, 1, 2, 7];
    rotate(actual[0 .. 2], actual[4 .. 6]);
    assert(equal(actual[], expected[]));
 }
--- a/source/tanya/algorithm/package.d
+++ b/source/tanya/algorithm/package.d
@ -5,7 +5,7 @@
 /**
 * Collection of generic algorithms.
 *
- * Copyright: Eugene Wissner 2017-2018.
+ * Copyright: Eugene Wissner 2017-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
@ -17,3 +17,4 @@ module tanya.algorithm;
 public import tanya.algorithm.comparison;
 public import tanya.algorithm.iteration;
 public import tanya.algorithm.mutation;
 public import tanya.algorithm.searching;
--- a/source/tanya/algorithm/searching.d
+++ b/source/tanya/algorithm/searching.d
@ -0,0 +1,53 @@
 /* This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
 /**
 * Searching algorithms.
 *
 * Copyright: Eugene Wissner 2018-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
 * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/algorithm/searching.d,
 *                 tanya/algorithm/searching.d)
 */
 module tanya.algorithm.searching;
 import tanya.range;
 /**
 * Counts the elements in an input range.
 *
 * If $(D_PARAM R) has length, $(D_PSYMBOL count) returns it, otherwise it
 * iterates over the range and counts the elements.
 *
 * Params:
 *  R     = Input range type.
 *  range = Input range.
 *
 * Returns: $(D_PARAM range) length.
 */
 size_t count(R)(R range)
 if (isInputRange!R)
 {
    static if (hasLength!R)
    {
        return range.length;
    }
    else
    {
        size_t counter;
        for (; !range.empty; range.popFront(), ++counter)
        {
        }
        return counter;
    }
 }
 ///
@nogc nothrow pure @safe unittest
 {
    int[3] array;
    assert(count(array) == 3);
 }
--- a/source/tanya/async/event/epoll.d
+++ b/source/tanya/async/event/epoll.d
@ -5,7 +5,7 @@
 /**
 * Event loop implementation for Linux.
 *
- * Copyright: Eugene Wissner 2016-2018.
+ * Copyright: Eugene Wissner 2016-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
@ -30,7 +30,7 @@ import tanya.async.protocol;
 import tanya.async.transport;
 import tanya.async.watcher;
 import tanya.container.array;
-import tanya.memory;
+import tanya.memory.allocator;
 import tanya.network.socket;
 extern (C) nothrow @nogc
--- a/source/tanya/async/event/iocp.d
+++ b/source/tanya/async/event/iocp.d
@ -5,7 +5,7 @@
 /**
 * Event loop implementation for Windows.
 *
- * Copyright: Eugene Wissner 2016-2018.
+ * Copyright: Eugene Wissner 2016-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
@ -26,7 +26,7 @@ import tanya.async.protocol;
 import tanya.async.transport;
 import tanya.async.watcher;
 import tanya.container.buffer;
-import tanya.memory;
+import tanya.memory.allocator;
 import tanya.network.socket;
 import tanya.sys.windows.winbase;
@ -67,11 +67,7 @@ final class StreamTransport : SocketWatcher, DuplexTransport, SocketTransport
     * Postcondition: $(D_INLINECODE socket !is null)
     */
    override @property OverlappedConnectedSocket socket() pure nothrow @safe @nogc
-    out (socket)
+    out (socket; socket !is null)
    {
        assert(socket !is null);
    }
    do
    {
        return cast(OverlappedConnectedSocket) socket_;
    }
@ -124,11 +120,7 @@ final class StreamTransport : SocketWatcher, DuplexTransport, SocketTransport
     * Precondition: $(D_INLINECODE protocol !is null)
     */
    @property void protocol(Protocol protocol) pure nothrow @safe @nogc
-    in
+    in (protocol !is null)
    {
        assert(protocol !is null);
    }
    do
    {
        protocol_ = protocol;
    }
@ -264,11 +256,7 @@ final class IOCPLoop : Loop
    private void kill(StreamTransport transport,
                      SocketException exception = null) @nogc
-    in
+    in (transport !is null)
    {
        assert(transport !is null);
    }
    do
    {
        transport.socket.shutdown();
        defaultAllocator.dispose(transport.socket);
--- a/source/tanya/async/event/kqueue.d
+++ b/source/tanya/async/event/kqueue.d
@ -5,7 +5,7 @@
 /*
 * Event loop implementation for *BSD.
 *
- * Copyright: Eugene Wissner 2016-2018.
+ * Copyright: Eugene Wissner 2016-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
@ -58,7 +58,7 @@ import tanya.async.loop;
 import tanya.async.transport;
 import tanya.async.watcher;
 import tanya.container.array;
-import tanya.memory;
+import tanya.memory.allocator;
 import tanya.network.socket;
 void EV_SET(kevent_t* kevp, typeof(kevent_t.tupleof) args) pure nothrow @nogc
--- a/source/tanya/async/event/selector.d
+++ b/source/tanya/async/event/selector.d
@ -5,7 +5,7 @@
 /*
 * This module contains base implementations for reactor event loops.
 *
- * Copyright: Eugene Wissner 2016-2018.
+ * Copyright: Eugene Wissner 2016-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
@ -25,7 +25,7 @@ import tanya.async.transport;
 import tanya.async.watcher;
 import tanya.container.array;
 import tanya.container.buffer;
-import tanya.memory;
+import tanya.memory.allocator;
 import tanya.network.socket;
 /**
@ -75,22 +75,14 @@ package class StreamTransport : SocketWatcher, DuplexTransport, SocketTransport
     * Postcondition: $(D_INLINECODE socket !is null)
     */
    override @property ConnectedSocket socket() pure nothrow @safe @nogc
-    out (socket)
+    out (socket; socket !is null)
    {
        assert(socket !is null);
    }
    do
    {
        return cast(ConnectedSocket) socket_;
    }
    private @property void socket(ConnectedSocket socket)
    pure nothrow @safe @nogc
-    in
+    in (socket !is null)
    {
        assert(socket !is null);
    }
    do
    {
        socket_ = socket;
    }
@ -114,11 +106,7 @@ package class StreamTransport : SocketWatcher, DuplexTransport, SocketTransport
     * Precondition: $(D_INLINECODE protocol !is null)
     */
    @property void protocol(Protocol protocol) pure nothrow @safe @nogc
-    in
+    in (protocol !is null)
    {
        assert(protocol !is null);
    }
    do
    {
        protocol_ = protocol;
    }
@ -257,11 +245,7 @@ abstract class SelectorLoop : Loop
     */
    protected void kill(StreamTransport transport,
                        SocketException exception = null) @nogc
-    in
+    in (transport !is null)
    {
        assert(transport !is null);
    }
    do
    {
        transport.socket.shutdown();
        defaultAllocator.dispose(transport.socket);
@ -283,11 +267,7 @@ abstract class SelectorLoop : Loop
     */
    protected bool feed(StreamTransport transport,
                        SocketException exception = null) @nogc
-    in
+    in (transport !is null)
    {
        assert(transport !is null);
    }
    do
    {
        while (transport.input.length && transport.writeReady)
        {
@ -350,11 +330,7 @@ abstract class SelectorLoop : Loop
     *  connection = Connection watcher ready to accept.
     */
    package void acceptConnections(ConnectionWatcher connection) @nogc
-    in
+    in (connection !is null)
    {
        assert(connection !is null);
    }
    do
    {
        while (true)
        {
--- a/source/tanya/async/iocp.d
+++ b/source/tanya/async/iocp.d
@ -7,7 +7,7 @@
 *
 * Note: Available only on Windows.
 *
- * Copyright: Eugene Wissner 2016-2018.
+ * Copyright: Eugene Wissner 2016-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
--- a/source/tanya/async/loop.d
+++ b/source/tanya/async/loop.d
@ -62,7 +62,7 @@
 * }
 * ---
 *
- * Copyright: Eugene Wissner 2016-2018.
+ * Copyright: Eugene Wissner 2016-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
@ -77,7 +77,7 @@ import tanya.async.watcher;
 import tanya.bitmanip;
 import tanya.container.buffer;
 import tanya.container.list;
-import tanya.memory;
+import tanya.memory.allocator;
 import tanya.network.socket;
 version (DisableBackends)
@ -116,30 +116,6 @@ else version (DragonFlyBSD)
 {
    version = Kqueue;
 }
 version (unittest)
 {
    final class TestLoop : Loop
    {
        override protected bool reify(SocketWatcher watcher,
                                      EventMask oldEvents,
                                      EventMask events) @nogc
        {
            return true;
        }
        override protected void poll() @nogc
        {
            assert(!this.done);
            unloop();
        }
        override protected @property uint maxEvents()
        const pure nothrow @safe @nogc
        {
            return 64U;
        }
    }
 }
 /**
 * Events.
@ -160,7 +136,7 @@ alias EventMask = BitFlags!Event;
 */
 abstract class Loop
 {
-    private bool done = true;
+    protected bool done = true;
    /// Pending watchers.
    protected DList!Watcher pendings;
@ -175,14 +151,6 @@ abstract class Loop
        return 128U;
    }
    @nogc @system unittest
    {
        auto loop = defaultAllocator.make!TestLoop;
        assert(loop.maxEvents == 64);
        defaultAllocator.dispose(loop);
    }
    /**
     * Initializes the loop.
     */
@ -228,31 +196,6 @@ abstract class Loop
        this.done = true;
    }
    @nogc @system unittest
    {
        auto loop = defaultAllocator.make!TestLoop;
        assert(loop.done);
        loop.run();
        assert(loop.done);
        defaultAllocator.dispose(loop);
    }
    @nogc @system unittest
    {
        auto loop = defaultAllocator.make!TestLoop;
        auto watcher = defaultAllocator.make!DummyWatcher;
        loop.pendings.insertBack(watcher);
        assert(!watcher.invoked);
        loop.run();
        assert(watcher.invoked);
        defaultAllocator.dispose(loop);
        defaultAllocator.dispose(watcher);
    }
    /**
     * Start watching.
     *
@ -319,27 +262,12 @@ abstract class Loop
     *              $(D_PSYMBOL maxBlockTime).
     */
    protected @property void blockTime(in Duration blockTime) @safe pure nothrow @nogc
-    in
+    in (blockTime <= 1.dur!"hours", "Too long to wait.")
-    {
+    in (!blockTime.isNegative)
        assert(blockTime <= 1.dur!"hours", "Too long to wait.");
        assert(!blockTime.isNegative);
    }
    do
    {
        blockTime_ = blockTime;
    }
    @nogc @system unittest
    {
        auto loop = defaultAllocator.make!TestLoop;
        assert(loop.blockTime == 1.dur!"minutes");
        loop.blockTime = 2.dur!"minutes";
        assert(loop.blockTime == 2.dur!"minutes");
        defaultAllocator.dispose(loop);
    }
    /**
     * Does the actual polling.
     */
@ -408,26 +336,9 @@ class BadLoopException : Exception
 *  loop = The event loop.
 */
@property void defaultLoop(Loop loop) @nogc
-in
+in (loop !is null)
 {
    assert(loop !is null);
 }
 do
 {
    defaultLoop_ = loop;
 }
 private Loop defaultLoop_;
@nogc @system unittest
 {
    auto oldLoop = defaultLoop_;
    auto loop = defaultAllocator.make!TestLoop;
    defaultLoop = loop;
    assert(defaultLoop_ is loop);
    assert(defaultLoop is loop);
    defaultLoop_ = oldLoop;
    defaultAllocator.dispose(loop);
 }
--- a/source/tanya/async/package.d
+++ b/source/tanya/async/package.d
@ -5,7 +5,7 @@
 /**
 * This package provides asynchronous capabilities.
 *
- * Copyright: Eugene Wissner 2016-2018.
+ * Copyright: Eugene Wissner 2016-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
--- a/source/tanya/async/protocol.d
+++ b/source/tanya/async/protocol.d
@ -9,7 +9,7 @@
 * When an event from the network arrives, a protocol method gets
 * called and can respond to the event.
 *
- * Copyright: Eugene Wissner 2016-2018.
+ * Copyright: Eugene Wissner 2016-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
--- a/source/tanya/async/transport.d
+++ b/source/tanya/async/transport.d
@ -6,7 +6,7 @@
 * This module contains transports which are responsible for data dilvery
 * between two parties of an asynchronous communication.
 *
- * Copyright: Eugene Wissner 2016-2018.
+ * Copyright: Eugene Wissner 2016-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
@ -57,10 +57,7 @@ interface DuplexTransport : ReadTransport, WriteTransport
     * Postcondition: $(D_INLINECODE protocol !is null)
     */
    @property Protocol protocol() pure nothrow @safe @nogc
-    out (protocol)
+    out (protocol; protocol !is null);
    {
        assert(protocol !is null);
    }
    /**
     * Switches the protocol.
@ -73,10 +70,7 @@ interface DuplexTransport : ReadTransport, WriteTransport
     * Precondition: $(D_INLINECODE protocol !is null)
     */
    @property void protocol(Protocol protocol) pure nothrow @safe @nogc
-    in
+    in (protocol !is null);
    {
        assert(protocol !is null);
    }
    /**
--- a/source/tanya/async/watcher.d
+++ b/source/tanya/async/watcher.d
@ -5,7 +5,7 @@
 /**
 * Watchers register user's interest in some event.
 *
- * Copyright: Eugene Wissner 2016-2018.
+ * Copyright: Eugene Wissner 2016-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
@ -19,7 +19,7 @@ import tanya.async.protocol;
 import tanya.async.transport;
 import tanya.container.buffer;
 import tanya.container.list;
-import tanya.memory;
+import tanya.memory.allocator;
 import tanya.network.socket;
 /**
@ -37,19 +37,6 @@ abstract class Watcher
    void invoke() @nogc;
 }
 version (unittest)
 {
    final class DummyWatcher : Watcher
    {
        bool invoked;
        override void invoke() @nogc
        {
            this.invoked = true;
        }
    }
 }
 /**
 * Socket watcher.
 */
@ -65,11 +52,7 @@ abstract class SocketWatcher : Watcher
     * Precondition: $(D_INLINECODE socket !is null)
     */
    this(Socket socket) pure nothrow @safe @nogc
-    in
+    in (socket !is null)
    {
        assert(socket !is null);
    }
    do
    {
        socket_ = socket;
    }
@ -115,11 +98,7 @@ class ConnectionWatcher : SocketWatcher
     * Invokes new connection callback.
     */
    override void invoke() @nogc
-    in
+    in (protocolFactory !is null, "Protocol isn't set.")
    {
        assert(protocolFactory !is null, "Protocol isn't set.");
    }
    do
    {
        for (; !this.incoming.empty; this.incoming.removeFront())
        {
--- a/source/tanya/bitmanip.d
+++ b/source/tanya/bitmanip.d
@ -5,7 +5,7 @@
 /**
 * Bit manipulation.
 *
- * Copyright: Eugene Wissner 2018.
+ * Copyright: Eugene Wissner 2018-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
@ -276,47 +276,6 @@ if (isBitFlagEnum!E)
    }
 }
@nogc nothrow pure @safe unittest
 {
    enum E : int
    {
        one = 1,
    }
    // Casts to a boolean
    assert(BitFlags!E(E.one));
    assert(!BitFlags!E());
    // Assigns to and compares with a single value
    {
        BitFlags!E bitFlags;
        bitFlags = E.one;
        assert(bitFlags == E.one);
    }
    // Assigns to and compares with the same type
    {
        auto bitFlags1 = BitFlags!E(E.one);
        BitFlags!E bitFlags2;
        bitFlags2 = bitFlags1;
        assert(bitFlags1 == bitFlags2);
    }
    assert((BitFlags!E() | E.one) == BitFlags!E(E.one));
    assert((BitFlags!E() | BitFlags!E(E.one)) == BitFlags!E(E.one));
    assert(!(BitFlags!E() & BitFlags!E(E.one)));
    assert(!(BitFlags!E(E.one) ^ E.one));
    assert(BitFlags!E() ^ BitFlags!E(E.one));
    assert(~BitFlags!E());
    assert(BitFlags!E().toHash() == 0);
    assert(BitFlags!E(E.one).toHash() != 0);
    // opBinaryRight is allowed
    static assert(is(typeof({ E.one | BitFlags!E(); })));
 }
 /**
 * Creates a $(D_PSYMBOL BitFlags) object initialized with $(D_PARAM field).
 *
--- a/source/tanya/container/array.d
+++ b/source/tanya/container/array.d
@ -5,7 +5,7 @@
 /**
 * Single-dimensioned array.
 *
- * Copyright: Eugene Wissner 2016-2018.
+ * Copyright: Eugene Wissner 2016-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
@ -15,19 +15,14 @@
 module tanya.container.array;
 import core.checkedint;
 import std.algorithm.mutation : bringToFront,
                                copy,
                                fill,
                                initializeAll,
                                uninitializedFill;
 import std.meta;
 import tanya.algorithm.comparison;
 import tanya.algorithm.iteration;
 import tanya.algorithm.mutation;
-import tanya.exception;
+import tanya.memory.allocator;
-import tanya.memory;
+import tanya.memory.lifetime;
 import tanya.meta.trait;
 import tanya.meta.transform;
-import tanya.range.primitive;
+import tanya.range;
 /**
 * Random-access range for the $(D_PSYMBOL Array).
@ -41,22 +36,16 @@ struct Range(A)
    private E* begin, end;
    private A* container;
-    invariant
+    invariant (this.begin <= this.end);
-    {
+    invariant (this.container !is null);
-        assert(this.begin <= this.end);
+    invariant (this.begin >= this.container.data);
-        assert(this.container !is null);
+    invariant (this.end <= this.container.data + this.container.length);
        assert(this.begin >= this.container.data);
        assert(this.end <= this.container.data + this.container.length);
    }
-    private this(ref A container, E* begin, E* end) @trusted
+    private this(return ref A container, return E* begin, return E* end)
-    in
+    @trusted
-    {
+    in (begin <= end)
-        assert(begin <= end);
+    in (begin >= container.data)
-        assert(begin >= container.data);
+    in (end <= container.data + container.length)
        assert(end <= container.data + container.length);
    }
    do
    {
        this.container = &container;
        this.begin = begin;
@ -83,51 +72,31 @@ struct Range(A)
    alias opDollar = length;
    @property ref inout(E) front() inout
-    in
+    in (!empty)
    {
        assert(!empty);
    }
    do
    {
        return *this.begin;
    }
    @property ref inout(E) back() inout @trusted
-    in
+    in (!empty)
    {
        assert(!empty);
    }
    do
    {
        return *(this.end - 1);
    }
    void popFront() @trusted
-    in
+    in (!empty)
    {
        assert(!empty);
    }
    do
    {
        ++this.begin;
    }
    void popBack() @trusted
-    in
+    in (!empty)
    {
        assert(!empty);
    }
    do
    {
        --this.end;
    }
    ref inout(E) opIndex(size_t i) inout @trusted
-    in
+    in (i < length)
    {
        assert(i < length);
    }
    do
    {
        return *(this.begin + i);
    }
@ -143,28 +112,20 @@ struct Range(A)
    }
    Range opSlice(size_t i, size_t j) @trusted
-    in
+    in (i <= j)
-    {
+    in (j <= length)
        assert(i <= j);
        assert(j <= length);
    }
    do
    {
        return typeof(return)(*this.container, this.begin + i, this.begin + j);
    }
    A.ConstRange opSlice(size_t i, size_t j) const @trusted
-    in
+    in (i <= j)
-    {
+    in (j <= length)
        assert(i <= j);
        assert(j <= length);
    }
    do
    {
        return typeof(return)(*this.container, this.begin + i, this.begin + j);
    }
-    inout(E)[] get() inout @trusted
+    inout(E)[] get() inout
    {
        return this.begin[0 .. length];
    }
@ -188,11 +149,8 @@ struct Array(T)
    private T* data;
    private size_t capacity_;
-    invariant
+    invariant (this.length_ <= this.capacity_);
-    {
+    invariant (this.capacity_ == 0 || this.data !is null);
        assert(this.length_ <= this.capacity_);
        assert(this.capacity_ == 0 || this.data !is null);
    }
    /**
     * Creates a new $(D_PSYMBOL Array) with the elements from a static array.
@ -216,7 +174,7 @@ struct Array(T)
     *  init      = Values to initialize the array with.
     *  allocator = Allocator.
     */
-    this(R)(R init, shared Allocator allocator = defaultAllocator)
+    this(R)(scope R init, shared Allocator allocator = defaultAllocator)
    if (!isInfinite!R
     && isInputRange!R
     && isImplicitlyConvertible!(ElementType!R, T))
@ -269,7 +227,7 @@ struct Array(T)
        {
            // Move each element.
            reserve(init.length_);
-            foreach (ref target; this.data[0 .. init.length_])
+            foreach (ref target; slice(init.length_))
            {
                moveEmplace(*init.data++, target);
            }
@ -299,7 +257,9 @@ struct Array(T)
     *  init      = Initial value to fill the array with.
     *  allocator = Allocator.
     */
-    this(size_t len, T init, shared Allocator allocator = defaultAllocator)
+    this()(size_t len,
           auto ref T init,
           shared Allocator allocator = defaultAllocator)
    {
        this(allocator);
        reserve(len);
@ -316,11 +276,7 @@ struct Array(T)
    /// ditto
    this(shared Allocator allocator)
-    in
+    in (allocator !is null)
    {
        assert(allocator !is null);
    }
    do
    {
        allocator_ = allocator;
    }
@ -350,19 +306,28 @@ struct Array(T)
     */
    ~this()
    {
-        clear();
+        destroyAll(slice(this.length_));
-        (() @trusted => allocator.deallocate(slice(capacity)))();
+        deallocate();
    }
-    /**
+    private void deallocate() @trusted
     * Copies the array.
     */
    this(this)
    {
-        auto buf = slice(this.length);
+        allocator.deallocate(slice(capacity));
-        this.length_ = capacity_ = 0;
+    }
-        this.data = null;
+
-        insertBack(buf);
+    static if (isCopyable!T)
    {
        this(this)
        {
            auto buf = slice(this.length);
            this.length_ = capacity_ = 0;
            this.data = null;
            insertBack(buf);
        }
    }
    else
    {
        @disable this(this);
    }
    /**
@ -419,27 +384,19 @@ struct Array(T)
     */
    @property void length(size_t len) @trusted
    {
-        if (len == length)
+        if (len > length)
        {
            return;
        }
        else if (len > length)
        {
            reserve(len);
            initializeAll(this.data[length_ .. len]);
        }
        else
        {
-            static if (hasElaborateDestructor!T)
+            destroyAll(this.data[len .. this.length_]);
-            {
+        }
-                const T* end = this.data + length_ - 1;
+        if (len != length)
-                for (T* e = this.data + len; e != end; ++e)
+        {
-                {
+            length_ = len;
                    destroy(*e);
                }
            }
        }
        length_ = len;
    }
    ///
@ -504,7 +461,7 @@ struct Array(T)
                    destroy(*src);
                }
            }
-            allocator.deallocate(this.data[0 .. this.capacity_]);
+            deallocate();
            this.data = cast(T*) buf;
        }
        this.capacity_ = size;
@ -575,11 +532,7 @@ struct Array(T)
     * Precondition: $(D_INLINECODE !empty).
     */
    void removeBack()
-    in
+    in (!empty)
    {
        assert(!empty);
    }
    do
    {
        length = length - 1;
    }
@ -597,11 +550,7 @@ struct Array(T)
     * Returns: The number of elements removed
     */
    size_t removeBack(size_t howMany)
-    out (removed)
+    out (removed; removed <= howMany)
    {
        assert(removed <= howMany);
    }
    do
    {
        const toRemove = min(howMany, length);
@ -622,11 +571,7 @@ struct Array(T)
    }
    private inout(T)[] slice(size_t length) inout @trusted
-    in
+    in (length <= capacity)
    {
        assert(length <= capacity);
    }
    do
    {
        return this.data[0 .. length];
    }
@ -647,14 +592,10 @@ struct Array(T)
     *
     * Precondition: $(D_PARAM r) refers to a region of $(D_KEYWORD this).
     */
-    Range remove(Range r)
+    Range remove(scope Range r)
-    in
+    in (r.container is &this)
-    {
+    in (r.begin >= this.data)
-        assert(r.container is &this);
+    in (r.end <= end)
        assert(r.begin >= this.data);
        assert(r.end <= end);
    }
    do
    {
        auto target = r.begin;
        auto source = r.end;
@ -726,7 +667,7 @@ struct Array(T)
    }
    /// ditto
-    size_t insertBack(R)(R el)
+    size_t insertBack(R)(scope R el)
    if (!isInfinite!R
     && isInputRange!R
     && isImplicitlyConvertible!(ElementType!R, T))
@ -735,12 +676,7 @@ struct Array(T)
        {
            reserve(length + el.length);
        }
-        size_t retLength;
+        return foldl!((acc, e) => acc + insertBack(e))(el, 0U);
        foreach (e; el)
        {
            retLength += insertBack(e);
        }
        return retLength;
    }
    /// ditto
@ -805,34 +741,27 @@ struct Array(T)
     *
     * Precondition: $(D_PARAM r) refers to a region of $(D_KEYWORD this).
     */
-    size_t insertAfter(R)(Range r, R el)
+    size_t insertAfter(R)(Range r, scope R el)
    if (!isInfinite!R
     && isInputRange!R
     && isImplicitlyConvertible!(ElementType!R, T))
-    in
+    in (r.container is &this)
    in (r.begin >= this.data)
    in (r.end <= this.data + length)
    {
-        assert(r.container is &this);
+        const oldLength = length;
-        assert(r.begin >= this.data);
+        const after = r.end - this.data;
        assert(r.end <= this.data + length);
    }
    do
    {
        const oldLen = length;
        const offset = r.end - this.data;
        const inserted = insertBack(el);
-        bringToFront(this.data[offset .. oldLen], this.data[oldLen .. length]);
+
        rotate(this.data[after .. oldLength], this.data[oldLength .. length]);
        return inserted;
    }
    /// ditto
    size_t insertAfter(size_t R)(Range r, T[R] el)
-    in
+    in (r.container is &this)
-    {
+    in (r.begin >= this.data)
-        assert(r.container is &this);
+    in (r.end <= this.data + length)
        assert(r.begin >= this.data);
        assert(r.end <= this.data + length);
    }
    do
    {
        return insertAfter!(T[])(r, el[]);
    }
@ -840,13 +769,9 @@ struct Array(T)
    /// ditto
    size_t insertAfter(R)(Range r, auto ref R el)
    if (isImplicitlyConvertible!(R, T))
-    in
+    in (r.container is &this)
-    {
+    in (r.begin >= this.data)
-        assert(r.container is &this);
+    in (r.end <= this.data + length)
        assert(r.begin >= this.data);
        assert(r.end <= this.data + length);
    }
    do
    {
        const oldLen = length;
        const offset = r.end - this.data;
@ -859,36 +784,28 @@ struct Array(T)
        {
            moveBack(el);
        }
-        bringToFront(this.data[offset .. oldLen], this.data[oldLen .. length]);
+        rotate(this.data[offset .. oldLen], this.data[oldLen .. length]);
        return 1;
    }
    /// ditto
-    size_t insertBefore(R)(Range r, R el)
+    size_t insertBefore(R)(Range r, scope R el)
    if (!isInfinite!R
     && isInputRange!R
     && isImplicitlyConvertible!(ElementType!R, T))
-    in
+    in (r.container is &this)
-    {
+    in (r.begin >= this.data)
-        assert(r.container is &this);
+    in (r.end <= this.data + length)
        assert(r.begin >= this.data);
        assert(r.end <= this.data + length);
    }
    do
    {
        return insertAfter(Range(this, this.data, r.begin), el);
    }
    /// ditto
    size_t insertBefore(size_t R)(Range r, T[R] el)
-    in
+    in (r.container is &this)
-    {
+    in (r.begin >= this.data)
-        assert(r.container is &this);
+    in (r.end <= this.data + length)
        assert(r.begin >= this.data);
        assert(r.end <= this.data + length);
    }
    do
    {
        return insertBefore!(T[])(r, el[]);
    }
@ -896,13 +813,9 @@ struct Array(T)
    /// ditto
    size_t insertBefore(R)(Range r, auto ref R el)
    if (isImplicitlyConvertible!(R, T))
-    in
+    in (r.container is &this)
-    {
+    in (r.begin >= this.data)
-        assert(r.container is &this);
+    in (r.end <= this.data + length)
        assert(r.begin >= this.data);
        assert(r.end <= this.data + length);
    }
    do
    {
        const oldLen = length;
        const offset = r.begin - this.data;
@ -915,7 +828,7 @@ struct Array(T)
        {
            moveBack(el);
        }
-        bringToFront(this.data[offset .. oldLen], this.data[oldLen .. length]);
+        rotate(this.data[offset .. oldLen], this.data[oldLen .. length]);
        return 1;
    }
@ -1006,7 +919,7 @@ struct Array(T)
     */
    ref T opIndexAssign(E : T)(auto ref E value, size_t pos)
    {
-        return opIndex(pos) = value;
+        return opIndex(pos) = forward!value;
    }
    /// ditto
@ -1040,7 +953,7 @@ struct Array(T)
    }
    /// ditto
-    Range opIndexAssign(Range value)
+    Range opIndexAssign()(Range value)
    {
        return opSliceAssign(value, 0, length);
    }
@ -1070,11 +983,7 @@ struct Array(T)
     * Precondition: $(D_INLINECODE length > pos).
     */
    ref inout(T) opIndex(size_t pos) inout @trusted
-    in
+    in (length > pos)
    {
        assert(length > pos);
    }
    do
    {
        return *(this.data + pos);
    }
@ -1175,11 +1084,7 @@ struct Array(T)
     * Precondition: $(D_INLINECODE !empty).
     */
    @property ref inout(T) front() inout
-    in
+    in (!empty)
    {
        assert(!empty);
    }
    do
    {
        return *this.data;
    }
@ -1202,11 +1107,7 @@ struct Array(T)
     * Precondition: $(D_INLINECODE !empty).
     */
    @property ref inout(T) back() inout @trusted
-    in
+    in (!empty)
    {
        assert(!empty);
    }
    do
    {
        return *(this.data + length - 1);
    }
@ -1234,24 +1135,16 @@ struct Array(T)
     * Precondition: $(D_INLINECODE i <= j && j <= length).
     */
    Range opSlice(size_t i, size_t j) @trusted
-    in
+    in (i <= j)
-    {
+    in (j <= length)
        assert(i <= j);
        assert(j <= length);
    }
    do
    {
        return typeof(return)(this, this.data + i, this.data + j);
    }
    /// ditto
    ConstRange opSlice(size_t i, size_t j) const @trusted
-    in
+    in (i <= j)
-    {
+    in (j <= length)
        assert(i <= j);
        assert(j <= length);
    }
    do
    {
        return typeof(return)(this, this.data + i, this.data + j);
    }
@ -1308,12 +1201,8 @@ struct Array(T)
     */
    Range opSliceAssign(size_t R)(T[R] value, size_t i, size_t j)
    @trusted
-    in
+    in (i <= j)
-    {
+    in (j <= length)
        assert(i <= j);
        assert(j <= length);
    }
    do
    {
        copy(value[], this.data[i .. j]);
        return opSlice(i, j);
@ -1322,26 +1211,18 @@ struct Array(T)
    /// ditto
    Range opSliceAssign(R : T)(auto ref R value, size_t i, size_t j)
    @trusted
-    in
+    in (i <= j)
-    {
+    in (j <= length)
        assert(i <= j);
        assert(j <= length);
    }
    do
    {
        fill(this.data[i .. j], value);
        return opSlice(i, j);
    }
    /// ditto
-    Range opSliceAssign(Range value, size_t i, size_t j) @trusted
+    Range opSliceAssign()(Range value, size_t i, size_t j) @trusted
-    in
+    in (i <= j)
-    {
+    in (j <= length)
-        assert(i <= j);
+    in (j - i == value.length)
        assert(j <= length);
        assert(j - i == value.length);
    }
    do
    {
        copy(value, this.data[i .. j]);
        return opSlice(i, j);
@ -1376,13 +1257,13 @@ struct Array(T)
     *
     * Returns: The array with elements of this array.
     */
-    inout(T[]) get() inout @trusted
+    inout(T[]) get() inout
    {
        return this.data[0 .. length];
    }
    ///
-    @nogc nothrow pure @safe unittest
+    @nogc nothrow pure @system unittest
    {
        auto v = Array!int([1, 2, 4]);
        auto data = v.get();
@ -1438,7 +1319,7 @@ struct Array(T)
     *
     * Returns: $(D_KEYWORD this).
     */
-    ref typeof(this) opAssign(R)(R that)
+    ref typeof(this) opAssign(R)(scope R that)
    if (!isInfinite!R
     && isInputRange!R
     && isImplicitlyConvertible!(ElementType!R, T))
@ -1498,197 +1379,3 @@ struct Array(T)
    assert(r.front == 7);
    assert(r.front == v.front);
 }
@nogc nothrow pure @safe unittest
 {
    const v1 = Array!int();
    const Array!int v2;
    const v3 = Array!int([1, 5, 8]);
    static assert(is(PointerTarget!(typeof(v3.data)) == const(int)));
 }
@nogc nothrow pure @safe unittest
 {
    // Test that const arrays return usable ranges.
    auto v = const Array!int([1, 2, 4]);
    auto r1 = v[];
    assert(r1.back == 4);
    r1.popBack();
    assert(r1.back == 2);
    r1.popBack();
    assert(r1.back == 1);
    r1.popBack();
    assert(r1.length == 0);
    static assert(!is(typeof(r1[0] = 5)));
    static assert(!is(typeof(v[0] = 5)));
    const r2 = r1[];
    static assert(is(typeof(r2[])));
 }
@nogc nothrow pure @safe unittest
 {
    Array!int v1;
    const Array!int v2;
    auto r1 = v1[];
    auto r2 = v1[];
    assert(r1.length == 0);
    assert(r2.empty);
    assert(r1 == r2);
    v1.insertBack([1, 2, 4]);
    assert(v1[] == v1);
    assert(v2[] == v2);
    assert(v2[] != v1);
    assert(v1[] != v2);
    assert(v1[].equal(v1[]));
    assert(v2[].equal(v2[]));
    assert(!v1[].equal(v2[]));
 }
@nogc nothrow pure @safe unittest
 {
    struct MutableEqualsStruct
    {
        bool opEquals(typeof(this) that) @nogc nothrow pure @safe
        {
            return true;
        }
    }
    struct ConstEqualsStruct
    {
        bool opEquals(const typeof(this) that) const @nogc nothrow pure @safe
        {
            return true;
        }
    }
    auto v1 = Array!ConstEqualsStruct();
    auto v2 = Array!ConstEqualsStruct();
    assert(v1 == v2);
    assert(v1[] == v2);
    assert(v1 == v2[]);
    assert(v1[].equal(v2[]));
    auto v3 = const Array!ConstEqualsStruct();
    auto v4 = const Array!ConstEqualsStruct();
    assert(v3 == v4);
    assert(v3[] == v4);
    assert(v3 == v4[]);
    assert(v3[].equal(v4[]));
    auto v7 = Array!MutableEqualsStruct(1, MutableEqualsStruct());
    auto v8 = Array!MutableEqualsStruct(1, MutableEqualsStruct());
    assert(v7 == v8);
    assert(v7[] == v8);
    assert(v7 == v8[]);
    assert(v7[].equal(v8[]));
 }
@nogc nothrow pure @safe unittest
 {
    struct SWithDtor
    {
        ~this() @nogc nothrow pure @safe
        {
        }
    }
    auto v = Array!SWithDtor(); // Destructor can destroy empty arrays.
 }
@nogc nothrow pure @safe unittest
 {
    class A
    {
    }
    A a1, a2;
    auto v1 = Array!A([a1, a2]);
    // Issue 232: https://issues.caraus.io/issues/232.
    static assert(is(Array!(A*)));
 }
@nogc nothrow pure @safe unittest
 {
    auto v = Array!int([5, 15, 8]);
    {
        size_t i;
        foreach (e; v)
        {
            assert(i != 0 || e == 5);
            assert(i != 1 || e == 15);
            assert(i != 2 || e == 8);
            ++i;
        }
        assert(i == 3);
    }
    {
        size_t i = 3;
        foreach_reverse (e; v)
        {
            --i;
            assert(i != 2 || e == 8);
            assert(i != 1 || e == 15);
            assert(i != 0 || e == 5);
        }
        assert(i == 0);
    }
 }
 // const constructor tests
@nogc nothrow pure @safe unittest
 {
    auto v1 = const Array!int([1, 2, 3]);
    auto v2 = Array!int(v1);
    assert(v1.data !is v2.data);
    assert(v1 == v2);
    auto v3 = const Array!int(Array!int([1, 2, 3]));
    assert(v1 == v3);
    assert(v3.length == 3);
    assert(v3.capacity == 3);
 }
@nogc nothrow pure @safe unittest
 {
    auto v1 = Array!int(defaultAllocator);
 }
@nogc nothrow pure @safe unittest
 {
    Array!int v;
    auto r = v[];
    assert(r.length == 0);
    assert(r.empty);
 }
@nogc nothrow pure @safe unittest
 {
    auto v1 = const Array!int([5, 15, 8]);
    Array!int v2;
    v2 = v1[0 .. 2];
    assert(equal(v1[0 .. 2], v2[]));
 }
 // Move assignment
@nogc nothrow pure @safe unittest
 {
    Array!int v1;
    v1 = Array!int([5, 15, 8]);
 }
 // Postblit is safe
@nogc nothrow pure @safe unittest
 {
    auto array = Array!int(3);
    void func(Array!int arg)
    {
        assert(arg.capacity == 3);
    }
    func(array);
 }
--- a/source/tanya/container/buffer.d
+++ b/source/tanya/container/buffer.d
@ -5,7 +5,7 @@
 /**
 * This module contains buffers designed for C-style input/output APIs.
 *
- * Copyright: Eugene Wissner 2016-2018.
+ * Copyright: Eugene Wissner 2016-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
@ -14,7 +14,7 @@
 */
 module tanya.container.buffer;
-import tanya.memory;
+import tanya.memory.allocator;
 import tanya.meta.trait;
 version (unittest)
@ -22,11 +22,7 @@ version (unittest)
    private int fillBuffer(ubyte[] buffer,
                           int start = 0,
                           int end = 10) @nogc pure nothrow
-    in
+    in (start < end)
    {
        assert(start < end);
    }
    do
    {
        auto numberRead = end - start;
        for (ubyte i; i < numberRead; ++i)
@ -71,12 +67,9 @@ if (isScalarType!T)
    /// Size by which the buffer will grow.
    private size_t blockSize = 8192;
-    invariant
+    invariant (this.length_ <= this.buffer_.length);
-    {
+    invariant (this.blockSize > 0);
-        assert(this.length_ <= this.buffer_.length);
+    invariant (this.minAvailable > 0);
        assert(this.blockSize > 0);
        assert(this.minAvailable > 0);
    }
    /**
     * Creates a new read buffer.
@ -101,11 +94,7 @@ if (isScalarType!T)
    /// ditto
    this(shared Allocator allocator)
-    in
+    in (allocator_ is null)
    {
        assert(allocator_ is null);
    }
    do
    {
        allocator_ = allocator;
    }
@ -188,7 +177,7 @@ if (isScalarType!T)
     * Returns: $(D_KEYWORD this).
     */
    ref ReadBuffer opOpAssign(string op)(size_t length)
-        if (op == "+")
+    if (op == "+")
    {
        this.length_ += length;
        ring = start;
@ -293,11 +282,6 @@ if (isScalarType!T)
    mixin DefaultAllocator;
 }
@nogc nothrow pure @safe unittest
 {
    static assert(is(ReadBuffer!int));
 }
 /**
 * Circular, self-expanding buffer with overflow support. Can be used with
 * functions returning the number of the transferred bytes.
@ -328,12 +312,9 @@ if (isScalarType!T)
    /// The position of the free area in the buffer.
    private size_t position;
-    invariant
+    invariant (this.blockSize > 0);
-    {
+    // Position can refer to an element outside the buffer if the buffer is full.
-        assert(this.blockSize > 0);
+    invariant (this.position <= this.buffer_.length);
        // Position can refer to an element outside the buffer if the buffer is full.
        assert(this.position <= this.buffer_.length);
    }
    /**
     * Params:
@ -344,12 +325,8 @@ if (isScalarType!T)
     * Precondition: $(D_INLINECODE size > 0 && allocator !is null)
     */
    this(size_t size, shared Allocator allocator = defaultAllocator) @trusted
-    in
+    in (size > 0)
-    {
+    in (allocator !is null)
        assert(size > 0);
        assert(allocator !is null);
    }
    do
    {
        this.blockSize = size;
        ring = size - 1;
@ -435,7 +412,7 @@ if (isScalarType!T)
     *  buffer = Buffer chunk got with $(D_PSYMBOL opIndex).
     */
    ref WriteBuffer opOpAssign(string op)(const T[] buffer)
-        if (op == "~")
+    if (op == "~")
    {
        size_t end, start;
@ -509,12 +486,8 @@ if (isScalarType!T)
     * Returns: $(D_KEYWORD this).
     */
    ref WriteBuffer opOpAssign(string op)(size_t length)
-        if (op == "+")
+    if (op == "+")
-    in
+    in (length <= this.length)
    {
        assert(length <= this.length);
    }
    do
    {
        auto afterRing = ring + 1;
        auto oldStart = start;
@ -649,11 +622,6 @@ if (isScalarType!T)
    mixin DefaultAllocator;
 }
@nogc nothrow pure @safe unittest
 {
    static assert(is(typeof(WriteBuffer!int(5))));
 }
@nogc nothrow pure @system unittest
 {
    auto b = WriteBuffer!ubyte(4);
--- a/source/tanya/container/entry.d
+++ b/source/tanya/container/entry.d
@ -5,7 +5,7 @@
 /*
 * Internal package used by containers that rely on entries/nodes.
 *
- * Copyright: Eugene Wissner 2016-2018.
+ * Copyright: Eugene Wissner 2016-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
@ -14,9 +14,9 @@
 */
 module tanya.container.entry;
 import tanya.algorithm.mutation;
 import tanya.container.array;
 import tanya.memory.allocator;
 import tanya.memory.lifetime;
 import tanya.meta.trait;
 import tanya.meta.transform;
 import tanya.typecons;
@ -59,12 +59,12 @@ package struct Bucket(K, V = void)
    }
    BucketStatus status = BucketStatus.empty;
-    this(ref K key)
+    this()(ref K key)
    {
        this.key = key;
    }
-    @property void key(ref K key)
+    @property void key()(ref K key)
    {
        this.key() = key;
        this.status = BucketStatus.used;
@ -116,7 +116,7 @@ package static immutable size_t[33] primes = [
    805306457, 1610612741, 3221225473
 ];
-package struct HashArray(alias hasher, K, V = void)
+package(tanya.container) struct HashArray(alias hasher, K, V = void)
 {
    alias Key = K;
    alias Value = V;
@ -128,22 +128,14 @@ package struct HashArray(alias hasher, K, V = void)
    size_t length;
    this(shared Allocator allocator)
-    in
+    in (allocator !is null)
    {
        assert(allocator !is null);
    }
    do
    {
        this.array = Buckets(allocator);
    }
    this(T)(ref T data, shared Allocator allocator)
    if (is(Unqual!T == HashArray))
-    in
+    in (allocator !is null)
    {
        assert(allocator !is null);
    }
    do
    {
        this.array = Buckets(data.array, allocator);
        this.lengthIndex = data.lengthIndex;
@ -152,11 +144,7 @@ package struct HashArray(alias hasher, K, V = void)
    // Move constructor
    void move(ref HashArray data, shared Allocator allocator)
-    in
+    in (allocator !is null)
    {
        assert(allocator !is null);
    }
    do
    {
        this.array = Buckets(.move(data.array), allocator);
        this.lengthIndex = data.lengthIndex;
@ -170,7 +158,7 @@ package struct HashArray(alias hasher, K, V = void)
        .swap(this.length, data.length);
    }
-    void opAssign(ref typeof(this) that)
+    void opAssign()(ref typeof(this) that)
    {
        this.array = that.array;
        this.lengthIndex = that.lengthIndex;
@ -237,11 +225,7 @@ package struct HashArray(alias hasher, K, V = void)
    // Takes an index in the primes array.
    void rehashToSize(const size_t n)
-    in
+    in (n < primes.length)
    {
        assert(n < primes.length);
    }
    do
    {
        auto storage = typeof(this.array)(primes[n], this.array.allocator);
        DataLoop: foreach (ref e1; this.array[])
--- a/source/tanya/container/hashtable.d
+++ b/source/tanya/container/hashtable.d
@ -5,7 +5,7 @@
 /**
 * Hash table.
 *
- * Copyright: Eugene Wissner 2018.
+ * Copyright: Eugene Wissner 2018-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
@ -14,11 +14,13 @@
 */
 module tanya.container.hashtable;
 import tanya.algorithm.iteration;
 import tanya.algorithm.mutation;
 import tanya.container.array;
 import tanya.container.entry;
 import tanya.hash.lookup;
-import tanya.memory;
+import tanya.memory.allocator;
 import tanya.memory.lifetime;
 import tanya.meta.trait;
 import tanya.meta.transform;
 import tanya.range.primitive;
@ -68,17 +70,10 @@ struct Range(T)
        return this.dataRange.empty();
    }
-    @property void popFront()
+    void popFront()
-    in
+    in (!empty)
-    {
+    in (this.dataRange.front.status == BucketStatus.used)
-        assert(!empty);
+    out (; empty || this.dataRange.back.status == BucketStatus.used)
        assert(this.dataRange.front.status == BucketStatus.used);
    }
    out
    {
        assert(empty || this.dataRange.back.status == BucketStatus.used);
    }
    do
    {
        do
        {
@ -87,17 +82,10 @@ struct Range(T)
        while (!empty && dataRange.front.status != BucketStatus.used);
    }
-    @property void popBack()
+    void popBack()
-    in
+    in (!empty)
-    {
+    in (this.dataRange.back.status == BucketStatus.used)
-        assert(!empty);
+    out (; empty || this.dataRange.back.status == BucketStatus.used)
        assert(this.dataRange.back.status == BucketStatus.used);
    }
    out
    {
        assert(empty || this.dataRange.back.status == BucketStatus.used);
    }
    do
    {
        do
        {
@ -107,23 +95,15 @@ struct Range(T)
    }
    @property ref inout(KV) front() inout
-    in
+    in (!empty)
-    {
+    in (this.dataRange.front.status == BucketStatus.used)
        assert(!empty);
        assert(this.dataRange.front.status == BucketStatus.used);
    }
    do
    {
        return this.dataRange.front.kv;
    }
    @property ref inout(KV) back() inout
-    in
+    in (!empty)
-    {
+    in (this.dataRange.back.status == BucketStatus.used)
        assert(!empty);
        assert(this.dataRange.back.status == BucketStatus.used);
    }
    do
    {
        return this.dataRange.back.kv;
    }
@ -184,16 +164,9 @@ struct ByKey(T)
    }
    @property void popFront()
-    in
+    in (!empty)
-    {
+    in (this.dataRange.front.status == BucketStatus.used)
-        assert(!empty);
+    out (; empty || this.dataRange.back.status == BucketStatus.used)
        assert(this.dataRange.front.status == BucketStatus.used);
    }
    out
    {
        assert(empty || this.dataRange.back.status == BucketStatus.used);
    }
    do
    {
        do
        {
@ -203,16 +176,9 @@ struct ByKey(T)
    }
    @property void popBack()
-    in
+    in (!empty)
-    {
+    in (this.dataRange.back.status == BucketStatus.used)
-        assert(!empty);
+    out (; empty || this.dataRange.back.status == BucketStatus.used)
        assert(this.dataRange.back.status == BucketStatus.used);
    }
    out
    {
        assert(empty || this.dataRange.back.status == BucketStatus.used);
    }
    do
    {
        do
        {
@ -222,23 +188,15 @@ struct ByKey(T)
    }
    @property ref inout(Key) front() inout
-    in
+    in (!empty)
-    {
+    in (this.dataRange.front.status == BucketStatus.used)
        assert(!empty);
        assert(this.dataRange.front.status == BucketStatus.used);
    }
    do
    {
        return this.dataRange.front.key;
    }
    @property ref inout(Key) back() inout
-    in
+    in (!empty)
-    {
+    in (this.dataRange.back.status == BucketStatus.used)
        assert(!empty);
        assert(this.dataRange.back.status == BucketStatus.used);
    }
    do
    {
        return this.dataRange.back.key;
    }
@ -299,16 +257,9 @@ struct ByValue(T)
    }
    @property void popFront()
-    in
+    in (!empty)
-    {
+    in (this.dataRange.front.status == BucketStatus.used)
-        assert(!empty);
+    out (; empty || this.dataRange.back.status == BucketStatus.used)
        assert(this.dataRange.front.status == BucketStatus.used);
    }
    out
    {
        assert(empty || this.dataRange.back.status == BucketStatus.used);
    }
    do
    {
        do
        {
@ -318,16 +269,9 @@ struct ByValue(T)
    }
    @property void popBack()
-    in
+    in (!empty)
-    {
+    in (this.dataRange.back.status == BucketStatus.used)
-        assert(!empty);
+    out (; empty || this.dataRange.back.status == BucketStatus.used)
        assert(this.dataRange.back.status == BucketStatus.used);
    }
    out
    {
        assert(empty || this.dataRange.back.status == BucketStatus.used);
    }
    do
    {
        do
        {
@ -337,23 +281,15 @@ struct ByValue(T)
    }
    @property ref inout(Value) front() inout
-    in
+    in (!empty)
-    {
+    in (this.dataRange.front.status == BucketStatus.used)
        assert(!empty);
        assert(this.dataRange.front.status == BucketStatus.used);
    }
    do
    {
        return this.dataRange.front.kv.value;
    }
    @property ref inout(Value) back() inout
-    in
+    in (!empty)
-    {
+    in (this.dataRange.back.status == BucketStatus.used)
        assert(!empty);
        assert(this.dataRange.back.status == BucketStatus.used);
    }
    do
    {
        return this.dataRange.back.kv.value;
    }
@ -411,10 +347,7 @@ if (isHashFunction!(hasher, Key))
    /// ditto
    alias ConstByValue = .ByValue!(const HashArray);
-    invariant
+    invariant (this.data.lengthIndex < primes.length);
    {
        assert(this.data.lengthIndex < primes.length);
    }
    /**
     * Constructor.
@ -426,11 +359,7 @@ if (isHashFunction!(hasher, Key))
     * Precondition: $(D_INLINECODE allocator !is null).
     */
    this(size_t n, shared Allocator allocator = defaultAllocator)
-    in
+    in (allocator !is null)
    {
        assert(allocator !is null);
    }
    do
    {
        this(allocator);
        this.data.rehash(n);
@ -445,11 +374,7 @@ if (isHashFunction!(hasher, Key))
    /// ditto
    this(shared Allocator allocator)
-    in
+    in (allocator !is null)
    {
        assert(allocator !is null);
    }
    do
    {
        this.data = HashArray(allocator);
    }
@ -469,11 +394,7 @@ if (isHashFunction!(hasher, Key))
     */
    this(S)(ref S init, shared Allocator allocator = defaultAllocator)
    if (is(Unqual!S == HashTable))
-    in
+    in (allocator !is null)
    {
        assert(allocator !is null);
    }
    do
    {
        this.data = HashArray(init.data, allocator);
    }
@ -481,11 +402,7 @@ if (isHashFunction!(hasher, Key))
    /// ditto
    this(S)(S init, shared Allocator allocator = defaultAllocator)
    if (is(S == HashTable))
-    in
+    in (allocator !is null)
    {
        assert(allocator !is null);
    }
    do
    {
        this.data.move(init.data, allocator);
    }
@ -500,13 +417,9 @@ if (isHashFunction!(hasher, Key))
     *
     * Precondition: $(D_INLINECODE allocator !is null).
     */
-    this(R)(R range, shared Allocator allocator = defaultAllocator)
+    this(R)(scope R range, shared Allocator allocator = defaultAllocator)
-    if (isForwardRange!R && is(ElementType!R == KeyValue))
+    if (isForwardRange!R && is(ElementType!R == KeyValue) && !isInfinite!R)
-    in
+    in (allocator !is null)
    {
        assert(allocator !is null);
    }
    do
    {
        this(allocator);
        insert(range);
@ -536,12 +449,9 @@ if (isHashFunction!(hasher, Key))
     */
    this(size_t n)(KeyValue[n] array,
         shared Allocator allocator = defaultAllocator)
-    in
+    in (allocator !is null)
    {
        assert(allocator !is null);
    }
    do
    {
        this(allocator);
        insert(array[]);
    }
@ -588,11 +498,7 @@ if (isHashFunction!(hasher, Key))
     * Postcondition: $(D_INLINECODE allocator !is null)
     */
    @property shared(Allocator) allocator() const
-    out (allocator)
+    out (allocator; allocator !is null)
    {
        assert(allocator !is null);
    }
    do
    {
        return this.data.array.allocator;
    }
@ -759,7 +665,7 @@ if (isHashFunction!(hasher, Key))
     *
     * Returns: The number of the inserted elements with a unique key.
     */
-    size_t insert(ref KeyValue keyValue)
+    size_t insert()(ref KeyValue keyValue)
    {
        auto e = ((ref v) @trusted => &this.data.insert(v))(keyValue.key);
        size_t inserted;
@ -773,7 +679,7 @@ if (isHashFunction!(hasher, Key))
    }
    /// ditto
-    size_t insert(KeyValue keyValue)
+    size_t insert()(KeyValue keyValue)
    {
        auto e = ((ref v) @trusted => &this.data.insert(v))(keyValue.key);
        size_t inserted;
@ -810,15 +716,10 @@ if (isHashFunction!(hasher, Key))
     *
     * Returns: The number of the inserted elements with a unique key.
     */
-    size_t insert(R)(R range)
+    size_t insert(R)(scope R range)
-    if (isForwardRange!R && is(ElementType!R == KeyValue))
+    if (isForwardRange!R && is(ElementType!R == KeyValue) && !isInfinite!R)
    {
-        size_t count;
+        return foldl!((acc, x) => acc + insert(x))(range, 0U);
        foreach (e; range)
        {
            count += insert(e);
        }
        return count;
    }
    ///
@ -1084,116 +985,3 @@ if (isHashFunction!(hasher, Key))
    dinos.clear();
    assert(dinos.empty);
 }
@nogc nothrow pure @safe unittest
 {
    import tanya.range.primitive : isForwardRange;
    static assert(is(HashTable!(string, int) a));
    static assert(is(const HashTable!(string, int)));
    static assert(isForwardRange!(HashTable!(string, int).Range));
    static assert(is(HashTable!(int, int, (ref const int) => size_t.init)));
    static assert(is(HashTable!(int, int, (int) => size_t.init)));
 }
 // Constructs by reference
@nogc nothrow pure @safe unittest
 {
    auto hashTable1 = HashTable!(string, int)(7);
    auto hashTable2 = HashTable!(string, int)(hashTable1);
    assert(hashTable1.length == hashTable2.length);
    assert(hashTable1.capacity == hashTable2.capacity);
 }
 // Constructs by value
@nogc nothrow pure @safe unittest
 {
    auto hashTable = HashTable!(string, int)(HashTable!(string, int)(7));
    assert(hashTable.capacity == 7);
 }
 // Assigns by reference
@nogc nothrow pure @safe unittest
 {
    auto hashTable1 = HashTable!(string, int)(7);
    HashTable!(string, int) hashTable2;
    hashTable1 = hashTable2;
    assert(hashTable1.length == hashTable2.length);
    assert(hashTable1.capacity == hashTable2.capacity);
 }
 // Assigns by value
@nogc nothrow pure @safe unittest
 {
    HashTable!(string, int) hashTable;
    hashTable = HashTable!(string, int)(7);
    assert(hashTable.capacity == 7);
 }
 // Postblit copies
@nogc nothrow pure @safe unittest
 {
    auto hashTable = HashTable!(string, int)(7);
    void testFunc(HashTable!(string, int) hashTable)
    {
        assert(hashTable.capacity == 7);
    }
    testFunc(hashTable);
 }
 // Issue 53: https://github.com/caraus-ecms/tanya/issues/53
@nogc nothrow pure @safe unittest
 {
    {
        HashTable!(uint, uint) hashTable;
        foreach (uint i; 0 .. 14)
        {
            hashTable[i + 1] = i;
        }
        assert(hashTable.length == 14);
    }
    {
        HashTable!(int, int) hashtable;
        hashtable[1194250162] = 3;
        hashtable[-1131293824] = 6;
        hashtable[838100082] = 9;
        hashtable.rehash(11);
        assert(hashtable[-1131293824] == 6);
    }
 }
@nogc nothrow pure @safe unittest
 {
    static struct String
    {
        bool opEquals(string) const @nogc nothrow pure @safe
        {
            return true;
        }
        bool opEquals(ref const string) const @nogc nothrow pure @safe
        {
            return true;
        }
        bool opEquals(String) const @nogc nothrow pure @safe
        {
            return true;
        }
        bool opEquals(ref const String) const @nogc nothrow pure @safe
        {
            return true;
        }
        size_t toHash() const @nogc nothrow pure @safe
        {
            return 0;
        }
    }
    static assert(is(typeof("asdf" in HashTable!(String, int)())));
    static assert(is(typeof(HashTable!(String, int)()["asdf"])));
 }
--- a/source/tanya/container/list.d
+++ b/source/tanya/container/list.d
@ -6,7 +6,7 @@
 * This module contains singly-linked ($(D_PSYMBOL SList)) and doubly-linked
 * ($(D_PSYMBOL DList)) lists.
 *
- * Copyright: Eugene Wissner 2016-2018.
+ * Copyright: Eugene Wissner 2016-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
@ -15,11 +15,11 @@
 */
 module tanya.container.list;
 import std.algorithm.searching;
 import tanya.algorithm.comparison;
-import tanya.algorithm.mutation;
+import tanya.algorithm.iteration;
 import tanya.container.entry;
-import tanya.memory;
+import tanya.memory.allocator;
 import tanya.memory.lifetime;
 import tanya.meta.trait;
 import tanya.meta.transform;
 import tanya.range.array;
@ -38,12 +38,9 @@ struct SRange(L)
    private EntryPointer* head;
-    invariant
+    invariant (this.head !is null);
    {
        assert(this.head !is null);
    }
-    private this(ref EntryPointer head) @trusted
+    private this(return ref EntryPointer head) @trusted
    {
        this.head = &head;
    }
@ -61,21 +58,13 @@ struct SRange(L)
    }
    @property ref inout(E) front() inout
-    in
+    in (!empty)
    {
        assert(!empty);
    }
    do
    {
        return (*this.head).content;
    }
    void popFront() @trusted
-    in
+    in (!empty)
    {
        assert(!empty);
    }
    do
    {
        this.head = &(*this.head).next;
    }
@ -139,7 +128,7 @@ struct SList(T)
     *  init      = Values to initialize the list with.
     *  allocator = Allocator.
     */
-    this(R)(R init, shared Allocator allocator = defaultAllocator)
+    this(R)(scope R init, shared Allocator allocator = defaultAllocator)
    if (!isInfinite!R
     && isInputRange!R
     && isImplicitlyConvertible!(ElementType!R, T))
@ -156,8 +145,9 @@ struct SList(T)
     *  init      = Initial value to fill the list with.
     *  allocator = Allocator.
     */
-    this(size_t len, T init, shared Allocator allocator = defaultAllocator)
+    this()(size_t len,
-    @trusted
+           auto ref T init,
           shared Allocator allocator = defaultAllocator)
    {
        this(allocator);
        if (len == 0)
@ -183,7 +173,18 @@ struct SList(T)
    /// ditto
    this(size_t len, shared Allocator allocator = defaultAllocator)
    {
-        this(len, T.init, allocator);
+        this(allocator);
        if (len == 0)
        {
            return;
        }
        Entry* next = this.head = allocator.make!Entry();
        foreach (i; 1 .. len)
        {
            next.next = allocator.make!Entry();
            next = next.next;
        }
    }
    ///
@ -195,11 +196,7 @@ struct SList(T)
    /// ditto
    this(shared Allocator allocator)
-    in
+    in (allocator !is null)
    {
        assert(allocator !is null);
    }
    do
    {
        this.allocator_ = allocator;
    }
@ -272,14 +269,18 @@ struct SList(T)
        clear();
    }
-    /**
+    static if (isCopyable!T)
     * Copies the list.
     */
    this(this)
    {
-        auto list = typeof(this)(this[], this.allocator);
+        this(this)
-        this.head = list.head;
+        {
-        list.head = null;
+            auto list = typeof(this)(this[], this.allocator);
            this.head = list.head;
            list.head = null;
        }
    }
    else
    {
        @disable this(this);
    }
    ///
@ -317,11 +318,7 @@ struct SList(T)
     * Precondition: $(D_INLINECODE !empty).
     */
    @property ref inout(T) front() inout
-    in
+    in (!empty)
    {
        assert(!empty);
    }
    do
    {
        return this.head.content;
    }
@ -376,7 +373,7 @@ struct SList(T)
    }
    /// ditto
-    size_t insertFront(R)(R el) @trusted
+    size_t insertFront(R)(scope R el) @trusted
    if (!isInfinite!R
     && isInputRange!R
     && isImplicitlyConvertible!(ElementType!R, T))
@ -462,11 +459,7 @@ struct SList(T)
     */
    size_t insertBefore(R)(Range r, R el)
    if (isImplicitlyConvertible!(R, T))
-    in
+    in (checkRangeBelonging(r))
    {
        assert(checkRangeBelonging(r));
    }
    do
    {
        return moveEntry(*r.head, el);
    }
@ -481,15 +474,11 @@ struct SList(T)
    }
    /// ditto
-    size_t insertBefore(R)(Range r, R el)
+    size_t insertBefore(R)(Range r, scope R el)
    if (!isInfinite!R
     && isInputRange!R
     && isImplicitlyConvertible!(ElementType!R, T))
-    in
+    in (checkRangeBelonging(r))
    {
        assert(checkRangeBelonging(r));
    }
    do
    {
        size_t inserted;
        foreach (e; el)
@ -513,12 +502,8 @@ struct SList(T)
    }
    /// ditto
-    size_t insertBefore(Range r, ref T el) @trusted
+    size_t insertBefore()(Range r, ref T el) @trusted
-    in
+    in (checkRangeBelonging(r))
    {
        assert(checkRangeBelonging(r));
    }
    do
    {
        *r.head = allocator.make!Entry(el, *r.head);
        return 1;
@ -614,11 +599,7 @@ struct SList(T)
     * Precondition: $(D_INLINECODE !empty)
     */
    void removeFront()
-    in
+    in (!empty)
    {
        assert(!empty);
    }
    do
    {
        auto n = this.head.next;
@ -653,11 +634,7 @@ struct SList(T)
     * Returns: The number of elements removed.
     */
    size_t removeFront(size_t howMany)
-    out (removed)
+    out (removed; removed <= howMany)
    {
        assert(removed <= howMany);
    }
    do
    {
        size_t i;
        for (; i < howMany && !empty; ++i)
@ -688,12 +665,8 @@ struct SList(T)
     *
     * Precondition: $(D_PARAM r) is extracted from this list.
     */
-    Range remove(Range r)
+    Range remove(scope Range r)
-    in
+    in (checkRangeBelonging(r))
    {
        assert(checkRangeBelonging(r));
    }
    do
    {
        auto outOfScopeList = typeof(this)(allocator);
        outOfScopeList.head = *r.head;
@ -727,12 +700,8 @@ struct SList(T)
     *               $(D_PARAM range) is extracted from this list.
     */
    Range popFirstOf(Range range)
-    in
+    in (!range.empty)
-    {
+    in (checkRangeBelonging(range))
        assert(!range.empty);
        assert(checkRangeBelonging(range));
    }
    do
    {
        auto next = (*range.head).next;
@ -830,7 +799,7 @@ struct SList(T)
     *
     * Returns: $(D_KEYWORD this).
     */
-    ref typeof(this) opAssign(R)(R that) @trusted
+    ref typeof(this) opAssign(R)(scope R that) @trusted
    if (!isInfinite!R
     && isInputRange!R
     && isImplicitlyConvertible!(ElementType!R, T))
@ -908,46 +877,6 @@ struct SList(T)
    assert(i == 3);
 }
@nogc nothrow pure @safe unittest
 {
    interface Stuff
    {
    }
    static assert(is(SList!Stuff));
 }
@nogc nothrow pure @safe unittest
 {
    auto l = SList!int(0, 0);
    assert(l.empty);
 }
 // foreach called using opIndex().
@nogc nothrow pure @safe unittest
 {
    SList!int l;
    size_t i;
    l.insertFront(5);
    l.insertFront(4);
    l.insertFront(9);
    foreach (e; l)
    {
        assert(i != 0 || e == 9);
        assert(i != 1 || e == 4);
        assert(i != 2 || e == 5);
        ++i;
    }
 }
@nogc nothrow pure @safe unittest
 {
    auto l1 = SList!int();
    auto l2 = SList!int([9, 4]);
    l1 = l2[];
    assert(l1 == l2);
 }
 /**
 * Bidirectional range for the $(D_PSYMBOL DList).
 *
@ -962,13 +891,11 @@ struct DRange(L)
    private EntryPointer* head;
    private EntryPointer* tail;
-    invariant
+    invariant (this.head !is null);
-    {
+    invariant (this.tail !is null);
        assert(this.head !is null);
        assert(this.tail !is null);
    }
-    private this(ref EntryPointer head, ref EntryPointer tail) @trusted
+    private this(return ref EntryPointer head, return ref EntryPointer tail)
    @trusted
    {
        this.head = &head;
        this.tail = &tail;
@ -987,41 +914,25 @@ struct DRange(L)
    }
    @property ref inout(E) front() inout
-    in
+    in (!empty)
    {
        assert(!empty);
    }
    do
    {
        return (*this.head).content;
    }
    @property ref inout(E) back() inout
-    in
+    in (!empty)
    {
        assert(!empty);
    }
    do
    {
        return (*this.tail).content;
    }
    void popFront() @trusted
-    in
+    in (!empty)
    {
        assert(!empty);
    }
    do
    {
        this.head = &(*this.head).next;
    }
    void popBack() @trusted
-    in
+    in (!empty)
    {
        assert(!empty);
    }
    do
    {
        this.tail = &(*this.tail).prev;
    }
@ -1067,12 +978,11 @@ struct DList(T)
    // 0th and the last elements of the list.
    private Entry* head, tail;
-    invariant
+    static if (__VERSION__ < 2086) // Bug #20171.
    {
-        assert((this.tail is null && this.head is null)
+        invariant ((this.tail is null) == (this.head is null));
-            || (this.tail !is null && this.head !is null));
+        invariant (this.tail is null || this.tail.next is null);
-        assert(this.tail is null || this.tail.next is null);
+        invariant (this.head is null || this.head.prev is null);
        assert(this.head is null || this.head.prev is null);
    }
    /**
@ -1104,7 +1014,7 @@ struct DList(T)
     *  init      = Values to initialize the list with.
     *  allocator = Allocator.
     */
-    this(R)(R init, shared Allocator allocator = defaultAllocator)
+    this(R)(scope R init, shared Allocator allocator = defaultAllocator)
    if (!isInfinite!R
     && isInputRange!R
     && isImplicitlyConvertible!(ElementType!R, T))
@ -1121,8 +1031,9 @@ struct DList(T)
     *  init      = Initial value to fill the list with.
     *  allocator = Allocator.
     */
-    this(size_t len, T init, shared Allocator allocator = defaultAllocator)
+    this()(size_t len,
-    @trusted
+           auto ref T init,
           shared Allocator allocator = defaultAllocator)
    {
        this(allocator);
        if (len == 0)
@ -1151,7 +1062,20 @@ struct DList(T)
    /// ditto
    this(size_t len, shared Allocator allocator = defaultAllocator)
    {
-        this(len, T.init, allocator);
+        this(allocator);
        if (len == 0)
        {
            return;
        }
        Entry* next = this.head = allocator.make!Entry();
        foreach (i; 1 .. len)
        {
            next.next = allocator.make!Entry();
            next.next.prev = next;
            next = next.next;
        }
        this.tail = next;
    }
    ///
@ -1163,11 +1087,7 @@ struct DList(T)
    /// ditto
    this(shared Allocator allocator)
-    in
+    in (allocator !is null)
    {
        assert(allocator !is null);
    }
    do
    {
        this.allocator_ = allocator;
    }
@ -1243,15 +1163,19 @@ struct DList(T)
        clear();
    }
-    /**
+    static if (isCopyable!T)
     * Copies the list.
     */
    this(this)
    {
-        auto list = typeof(this)(this[], this.allocator);
+        this(this)
-        this.head = list.head;
+        {
-        this.tail = list.tail;
+            auto list = typeof(this)(this[], this.allocator);
-        list.head = list .tail = null;
+            this.head = list.head;
            this.tail = list.tail;
            list.head = list .tail = null;
        }
    }
    else
    {
        @disable this(this);
    }
    ///
@ -1289,11 +1213,7 @@ struct DList(T)
     * Precondition: $(D_INLINECODE !empty).
     */
    @property ref inout(T) front() inout
-    in
+    in (!empty)
    {
        assert(!empty);
    }
    do
    {
        return this.head.content;
    }
@ -1304,11 +1224,7 @@ struct DList(T)
     * Precondition: $(D_INLINECODE !empty).
     */
    @property ref inout(T) back() inout
-    in
+    in (!empty)
    {
        assert(!empty);
    }
    do
    {
        return this.tail.content;
    }
@ -1349,13 +1265,10 @@ struct DList(T)
    // Creates a lsit of linked entries from a range.
    // Returns count of the elements in the list.
-    private size_t makeList(R)(ref R el, out Entry* head, out Entry* tail) @trusted
+    private size_t makeList(R)(scope ref R el, out Entry* head, out Entry* tail)
-    out (retLength)
+    @trusted
-    {
+    out (retLength; (retLength == 0 && head is null && tail is null)
-        assert((retLength == 0 && head is null && tail is null)
+                 || (retLength > 0 && head !is null && tail !is null))
            || (retLength > 0 && head !is null && tail !is null));
    }
    do
    {
        size_t retLength;
@ -1423,7 +1336,7 @@ struct DList(T)
    }
    /// ditto
-    size_t insertFront(R)(R el)
+    size_t insertFront(R)(scope R el)
    if (!isInfinite!R
     && isInputRange!R
     && isImplicitlyConvertible!(ElementType!R, T))
@ -1542,7 +1455,7 @@ struct DList(T)
    }
    /// ditto
-    size_t insertBack(R)(R el) @trusted
+    size_t insertBack(R)(scope R el) @trusted
    if (!isInfinite!R
     && isInputRange!R
     && isImplicitlyConvertible!(ElementType!R, T))
@ -1623,11 +1536,7 @@ struct DList(T)
     */
    size_t insertBefore(R)(Range r, R el)
    if (isImplicitlyConvertible!(R, T))
-    in
+    in (checkRangeBelonging(r))
    {
        assert(checkRangeBelonging(r));
    }
    do
    {
        return moveFront(*r.head, el);
    }
@ -1642,12 +1551,8 @@ struct DList(T)
    }
    /// ditto
-    size_t insertBefore(Range r, ref T el) @trusted
+    size_t insertBefore()(Range r, ref T el) @trusted
-    in
+    in (checkRangeBelonging(r))
    {
        assert(checkRangeBelonging(r));
    }
    do
    {
        auto temp = allocator.make!Entry(el, *r.head);
@ -1677,15 +1582,11 @@ struct DList(T)
    }
    /// ditto
-    size_t insertBefore(R)(Range r, R el)
+    size_t insertBefore(R)(Range r, scope R el)
    if (!isInfinite!R
     && isInputRange!R
     && isImplicitlyConvertible!(ElementType!R, T))
-    in
+    in (checkRangeBelonging(r))
    {
        assert(checkRangeBelonging(r));
    }
    do
    {
        size_t inserted;
        foreach (e; el)
@ -1738,11 +1639,7 @@ struct DList(T)
     */
    size_t insertAfter(R)(Range r, R el) @trusted
    if (isImplicitlyConvertible!(R, T))
-    in
+    in (checkRangeBelonging(r))
    {
        assert(checkRangeBelonging(r));
    }
    do
    {
        return moveBack(*r.tail, el);
    }
@ -1759,12 +1656,8 @@ struct DList(T)
    }
    /// ditto
-    size_t insertAfter(Range r, ref T el) @trusted
+    size_t insertAfter()(Range r, ref T el) @trusted
-    in
+    in (checkRangeBelonging(r))
    {
        assert(checkRangeBelonging(r));
    }
    do
    {
        auto temp = allocator.make!Entry(el, null, *r.tail);
@ -1794,22 +1687,13 @@ struct DList(T)
    }
    /// ditto
-    size_t insertAfter(R)(Range r, R el)
+    size_t insertAfter(R)(Range r, scope R el)
    if (!isInfinite!R
     && isInputRange!R
     && isImplicitlyConvertible!(ElementType!R, T))
-    in
+    in (checkRangeBelonging(r))
    {
-        assert(checkRangeBelonging(r));
+        return foldl!((acc, x) => acc + insertAfter(r, x))(el, 0U);
    }
    do
    {
        size_t inserted;
        foreach (e; el)
        {
            inserted += insertAfter(r, e);
        }
        return inserted;
    }
    ///
@ -1893,11 +1777,7 @@ struct DList(T)
     * Precondition: $(D_INLINECODE !empty)
     */
    void removeFront()
-    in
+    in (!empty)
    {
        assert(!empty);
    }
    do
    {
        auto n = this.head.next;
@ -1929,11 +1809,7 @@ struct DList(T)
    /// ditto
    void removeBack()
-    in
+    in (!empty)
    {
        assert(!empty);
    }
    do
    {
        auto n = this.tail.prev;
@ -1975,11 +1851,7 @@ struct DList(T)
     * Returns: The number of elements removed.
     */
    size_t removeFront(size_t howMany)
-    out (removed)
+    out (removed; removed <= howMany)
    {
        assert(removed <= howMany);
    }
    do
    {
        size_t i;
        for (; i < howMany && !empty; ++i)
@ -2002,11 +1874,7 @@ struct DList(T)
    /// ditto
    size_t removeBack(size_t howMany)
-    out (removed)
+    out (removed; removed <= howMany)
    {
        assert(removed <= howMany);
    }
    do
    {
        size_t i;
        for (; i < howMany && !empty; ++i)
@ -2037,12 +1905,8 @@ struct DList(T)
     *
     * Precondition: $(D_PARAM r) is extracted from this list.
     */
-    Range remove(Range r)
+    Range remove(scope Range r)
-    in
+    in (checkRangeBelonging(r))
    {
        assert(checkRangeBelonging(r));
    }
    do
    {
        // Save references to the elements before and after the range.
        Entry* headPrev;
@ -2114,11 +1978,7 @@ struct DList(T)
     *               $(D_PARAM range) is extracted from this list.
     */
    Range popFirstOf(Range range)
-    in
+    in (!range.empty)
    {
        assert(!range.empty);
    }
    do
    {
        remove(Range(*range.head, *range.head));
        return range;
@ -2126,11 +1986,7 @@ struct DList(T)
    /// ditto
    Range popLastOf(Range range)
-    in
+    in (!range.empty)
    {
        assert(!range.empty);
    }
    do
    {
        remove(Range(*range.tail, *range.tail));
        return range;
@ -2207,7 +2063,7 @@ struct DList(T)
     *
     * Returns: $(D_KEYWORD this).
     */
-    ref typeof(this) opAssign(R)(R that) @trusted
+    ref typeof(this) opAssign(R)(scope R that) @trusted
    if (!isInfinite!R
     && isInputRange!R
     && isImplicitlyConvertible!(ElementType!R, T))
@ -2284,75 +2140,3 @@ struct DList(T)
    }
    assert(i == 3);
 }
@nogc nothrow pure @safe unittest
 {
    class A
    {
    }
    static assert(is(SList!(A*)));
    static assert(is(DList!(A*)));
 }
 // Removes all elements
@nogc nothrow pure @safe unittest
 {
    auto l = DList!int([5]);
    assert(l.remove(l[]).empty);
 }
@nogc nothrow pure @safe unittest
 {
    auto l1 = DList!int([5, 234, 30, 1]);
    auto l2 = DList!int([5, 1]);
    auto r = l1[];
    r.popFront();
    r.popBack();
    assert(r.front == 234);
    assert(r.back == 30);
    assert(!l1.remove(r).empty);
    assert(l1 == l2);
 }
@nogc nothrow pure @safe unittest
 {
    auto l = DList!int(0, 0);
    assert(l.empty);
 }
@nogc nothrow pure @safe unittest
 {
    auto l1 = DList!int([5, 234]);
    assert(l1.head is l1.head.next.prev);
 }
@nogc nothrow pure @safe unittest
 {
    DList!int l;
    l.insertAfter(l[], 234);
    assert(l.front == 234);
    assert(l.back == 234);
 }
@nogc nothrow pure @safe unittest
 {
    auto l1 = DList!int();
    auto l2 = DList!int([9, 4]);
    l1 = l2[];
    assert(l1 == l2);
 }
 // Sets the new head
@nogc nothrow pure @safe unittest
 {
    auto l1 = DList!int([5, 234, 30, 1]);
    auto l2 = DList!int([1]);
    auto r = l1[];
    r.popBack();
    assert(!l1.remove(r).empty);
    assert(l1 == l2);
 }
--- a/source/tanya/container/package.d
+++ b/source/tanya/container/package.d
@ -5,7 +5,7 @@
 /**
 * Abstract data types whose instances are collections of other objects.
 *
- * Copyright: Eugene Wissner 2016-2018.
+ * Copyright: Eugene Wissner 2016-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
--- a/source/tanya/container/set.d
+++ b/source/tanya/container/set.d
@ -6,7 +6,7 @@
 * This module implements a $(D_PSYMBOL Set) container that stores unique
 * values without any particular order.
 *
- * Copyright: Eugene Wissner 2017-2018.
+ * Copyright: Eugene Wissner 2017-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
@ -18,7 +18,8 @@ module tanya.container.set;
 import tanya.container.array;
 import tanya.container.entry;
 import tanya.hash.lookup;
-import tanya.memory;
+import tanya.memory.allocator;
 import tanya.memory.lifetime;
 import tanya.meta.trait;
 import tanya.meta.transform;
 import tanya.range.primitive;
@ -67,17 +68,10 @@ struct Range(T)
        return this.dataRange.empty();
    }
-    @property void popFront()
+    void popFront()
-    in
+    in (!empty)
-    {
+    in (this.dataRange.front.status == BucketStatus.used)
-        assert(!empty);
+    out (; empty || this.dataRange.back.status == BucketStatus.used)
        assert(this.dataRange.front.status == BucketStatus.used);
    }
    out
    {
        assert(empty || this.dataRange.back.status == BucketStatus.used);
    }
    do
    {
        do
        {
@ -86,17 +80,10 @@ struct Range(T)
        while (!empty && dataRange.front.status != BucketStatus.used);
    }
-    @property void popBack()
+    void popBack()
-    in
+    in (!empty)
-    {
+    in (this.dataRange.back.status == BucketStatus.used)
-        assert(!empty);
+    out (; empty || this.dataRange.back.status == BucketStatus.used)
        assert(this.dataRange.back.status == BucketStatus.used);
    }
    out
    {
        assert(empty || this.dataRange.back.status == BucketStatus.used);
    }
    do
    {
        do
        {
@ -106,23 +93,15 @@ struct Range(T)
    }
    @property ref inout(E) front() inout
-    in
+    in (!empty)
-    {
+    in (this.dataRange.front.status == BucketStatus.used)
        assert(!empty);
        assert(this.dataRange.front.status == BucketStatus.used);
    }
    do
    {
        return this.dataRange.front.key;
    }
    @property ref inout(E) back() inout
-    in
+    in (!empty)
-    {
+    in (this.dataRange.back.status == BucketStatus.used)
        assert(!empty);
        assert(this.dataRange.back.status == BucketStatus.used);
    }
    do
    {
        return this.dataRange.back.key;
    }
@ -167,12 +146,9 @@ if (isHashFunction!(hasher, T))
    /// ditto
    alias ConstRange = .Range!(const HashArray);
-    invariant
+    invariant (this.data.lengthIndex < primes.length);
-    {
+    invariant (this.data.array.length == 0
        assert(this.data.lengthIndex < primes.length);
        assert(this.data.array.length == 0
            || this.data.array.length == primes[this.data.lengthIndex]);
    }
    /**
     * Constructor.
@ -184,11 +160,7 @@ if (isHashFunction!(hasher, T))
     * Precondition: $(D_INLINECODE allocator !is null).
     */
    this(size_t n, shared Allocator allocator = defaultAllocator)
-    in
+    in (allocator !is null)
    {
        assert(allocator !is null);
    }
    do
    {
        this(allocator);
        this.data.rehash(n);
@ -203,11 +175,7 @@ if (isHashFunction!(hasher, T))
    /// ditto
    this(shared Allocator allocator)
-    in
+    in (allocator !is null)
    {
        assert(allocator !is null);
    }
    do
    {
        this.data = HashArray(allocator);
    }
@ -227,11 +195,7 @@ if (isHashFunction!(hasher, T))
     */
    this(S)(ref S init, shared Allocator allocator = defaultAllocator)
    if (is(Unqual!S == Set))
-    in
+    in (allocator !is null)
    {
        assert(allocator !is null);
    }
    do
    {
        this.data = HashArray(init.data, allocator);
    }
@ -239,11 +203,7 @@ if (isHashFunction!(hasher, T))
    /// ditto
    this(S)(S init, shared Allocator allocator = defaultAllocator)
    if (is(S == Set))
-    in
+    in (allocator !is null)
    {
        assert(allocator !is null);
    }
    do
    {
        this.data.move(init.data, allocator);
    }
@ -258,14 +218,13 @@ if (isHashFunction!(hasher, T))
     *
     * Precondition: $(D_INLINECODE allocator !is null).
     */
-    this(R)(R range, shared Allocator allocator = defaultAllocator)
+    this(R)(scope R range, shared Allocator allocator = defaultAllocator)
-    if (isForwardRange!R && isImplicitlyConvertible!(ElementType!R, T))
+    if (isForwardRange!R
-    in
+     && isImplicitlyConvertible!(ElementType!R, T)
-    {
+     && !isInfinite!R)
-        assert(allocator !is null);
+    in (allocator !is null)
    }
    do
    {
        this(allocator);
        insert(range);
    }
@ -290,12 +249,9 @@ if (isHashFunction!(hasher, T))
     * Precondition: $(D_INLINECODE allocator !is null).
     */
    this(size_t n)(T[n] array, shared Allocator allocator = defaultAllocator)
-    in
+    in (allocator !is null)
    {
        assert(allocator !is null);
    }
    do
    {
        this(allocator);
        insert(array[]);
    }
@ -341,11 +297,7 @@ if (isHashFunction!(hasher, T))
     * Postcondition: $(D_INLINECODE allocator !is null)
     */
    @property shared(Allocator) allocator() const
-    out (allocator)
+    out (allocator; allocator !is null)
    {
        assert(allocator !is null);
    }
    do
    {
        return this.data.array.allocator;
    }
@ -459,7 +411,7 @@ if (isHashFunction!(hasher, T))
     *
     * Returns: Amount of new elements inserted.
     */
-    size_t insert(ref T value)
+    size_t insert()(ref T value)
    {
        auto e = ((ref v) @trusted => &this.data.insert(v))(value);
        if (e.status != BucketStatus.used)
@ -470,7 +422,7 @@ if (isHashFunction!(hasher, T))
        return 0;
    }
-    size_t insert(T value)
+    size_t insert()(T value)
    {
        auto e = ((ref v) @trusted => &this.data.insert(v))(value);
        if (e.status != BucketStatus.used)
@ -508,8 +460,10 @@ if (isHashFunction!(hasher, T))
     *
     * Returns: The number of new elements inserted.
     */
-    size_t insert(R)(R range)
+    size_t insert(R)(scope R range)
-    if (isForwardRange!R && isImplicitlyConvertible!(ElementType!R, T))
+    if (isForwardRange!R
     && isImplicitlyConvertible!(ElementType!R, T)
     && !isInfinite!R)
    {
        size_t count;
        foreach (e; range)
@ -637,139 +591,3 @@ if (isHashFunction!(hasher, T))
        assert(set[].back == 8);
    }
 }
 // Basic insertion logic.
@nogc nothrow pure @safe unittest
 {
    Set!int set;
    assert(set.insert(5) == 1);
    assert(5 in set);
    assert(set.data.array.length == 3);
    assert(set.insert(5) == 0);
    assert(5 in set);
    assert(set.data.array.length == 3);
    assert(set.insert(9) == 1);
    assert(9 in set);
    assert(5 in set);
    assert(set.data.array.length == 3);
    assert(set.insert(7) == 1);
    assert(set.insert(8) == 1);
    assert(8 in set);
    assert(5 in set);
    assert(9 in set);
    assert(7 in set);
    assert(set.data.array.length == 7);
    assert(set.insert(16) == 1);
    assert(16 in set);
    assert(set.data.array.length == 7);
 }
 // Static checks.
@nogc nothrow pure @safe unittest
 {
    import tanya.range.primitive;
    static assert(isBidirectionalRange!(Set!int.ConstRange));
    static assert(isBidirectionalRange!(Set!int.Range));
    static assert(!isInfinite!(Set!int.Range));
    static assert(!hasLength!(Set!int.Range));
    static assert(is(Set!uint));
    static assert(is(Set!long));
    static assert(is(Set!ulong));
    static assert(is(Set!short));
    static assert(is(Set!ushort));
    static assert(is(Set!bool));
 }
@nogc nothrow pure @safe unittest
 {
    const Set!int set;
    assert(set[].empty);
 }
@nogc nothrow pure @safe unittest
 {
    Set!int set;
    set.insert(8);
    auto r1 = set[];
    auto r2 = r1.save();
    r1.popFront();
    assert(r1.empty);
    r2.popBack();
    assert(r2.empty);
 }
 // Initial capacity is 0.
@nogc nothrow pure @safe unittest
 {
    auto set = Set!int(defaultAllocator);
    assert(set.capacity == 0);
 }
 // Capacity is set to a prime.
@nogc nothrow pure @safe unittest
 {
    auto set = Set!int(8);
    assert(set.capacity == 13);
 }
 // Constructs by reference
@nogc nothrow pure @safe unittest
 {
    auto set1 = Set!int(7);
    auto set2 = Set!int(set1);
    assert(set1.length == set2.length);
    assert(set1.capacity == set2.capacity);
 }
 // Constructs by value
@nogc nothrow pure @safe unittest
 {
    auto set = Set!int(Set!int(7));
    assert(set.capacity == 7);
 }
 // Assigns by reference
@nogc nothrow pure @safe unittest
 {
    auto set1 = Set!int(7);
    Set!int set2;
    set1 = set2;
    assert(set1.length == set2.length);
    assert(set1.capacity == set2.capacity);
 }
 // Assigns by value
@nogc nothrow pure @safe unittest
 {
    Set!int set;
    set = Set!int(7);
    assert(set.capacity == 7);
 }
 // Postblit copies
@nogc nothrow pure @safe unittest
 {
    auto set = Set!int(7);
    void testFunc(Set!int set)
    {
        assert(set.capacity == 7);
    }
    testFunc(set);
 }
 // Hasher can take argument by ref
@nogc nothrow pure @safe unittest
 {
    static assert(is(Set!(int, (const ref x) => cast(size_t) x)));
 }
--- a/source/tanya/container/string.d
+++ b/source/tanya/container/string.d
@ -17,7 +17,7 @@
 * Internally $(D_PSYMBOL String) is represented by a sequence of
 * $(D_KEYWORD char)s.
 *
- * Copyright: Eugene Wissner 2017-2018.
+ * Copyright: Eugene Wissner 2017-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
@ -26,22 +26,16 @@
 */
 module tanya.container.string;
 import std.algorithm.mutation : bringToFront;
 import std.algorithm.searching : count;
 import tanya.algorithm.comparison;
 import tanya.algorithm.mutation;
 import tanya.hash.lookup;
-import tanya.memory;
+import tanya.memory.allocator;
 import tanya.memory.lifetime;
 import tanya.meta.trait;
 import tanya.meta.transform;
 import tanya.range.array;
 import tanya.range.primitive;
 version (unittest)
 {
    import tanya.test.assertion;
 }
 /**
 * Thrown on encoding errors.
 */
@ -76,22 +70,15 @@ if (is(Unqual!E == char))
    private alias ContainerType = CopyConstness!(E, String);
    private ContainerType* container;
-    invariant
+    invariant (this.begin <= this.end);
-    {
+    invariant (this.container !is null);
-        assert(this.begin <= this.end);
+    invariant (this.begin >= this.container.data);
-        assert(this.container !is null);
+    invariant (this.end <= this.container.data + this.container.length);
        assert(this.begin >= this.container.data);
        assert(this.end <= this.container.data + this.container.length);
    }
    private this(ref ContainerType container, E* begin, E* end) @trusted
-    in
+    in (begin <= end)
-    {
+    in (begin >= container.data)
-        assert(begin <= end);
+    in (end <= container.data + container.length)
        assert(begin >= container.data);
        assert(end <= container.data + container.length);
    }
    do
    {
        this.container = &container;
        this.begin = begin;
@ -118,51 +105,31 @@ if (is(Unqual!E == char))
    alias opDollar = length;
    @property ref inout(E) front() inout
-    in
+    in (!empty)
    {
        assert(!empty);
    }
    do
    {
        return *this.begin;
    }
    @property ref inout(E) back() inout @trusted
-    in
+    in (!empty)
    {
        assert(!empty);
    }
    do
    {
        return *(this.end - 1);
    }
    void popFront() @trusted
-    in
+    in (!empty)
    {
        assert(!empty);
    }
    do
    {
        ++this.begin;
    }
    void popBack() @trusted
-    in
+    in (!empty)
    {
        assert(!empty);
    }
    do
    {
        --this.end;
    }
    ref inout(E) opIndex(const size_t i) inout @trusted
-    in
+    in (i < length)
    {
        assert(i < length);
    }
    do
    {
        return *(this.begin + i);
    }
@ -178,23 +145,15 @@ if (is(Unqual!E == char))
    }
    ByCodeUnit opSlice(const size_t i, const size_t j) @trusted
-    in
+    in (i <= j)
-    {
+    in (j <= length)
        assert(i <= j);
        assert(j <= length);
    }
    do
    {
        return typeof(return)(*this.container, this.begin + i, this.begin + j);
    }
    ByCodeUnit!(const E) opSlice(const size_t i, const size_t j) const @trusted
-    in
+    in (i <= j)
-    {
+    in (j <= length)
        assert(i <= j);
        assert(j <= length);
    }
    do
    {
        return typeof(return)(*this.container, this.begin + i, this.begin + j);
    }
@ -218,22 +177,15 @@ if (is(Unqual!E == char))
    private alias ContainerType = CopyConstness!(E, String);
    private ContainerType* container;
-    invariant
+    invariant (this.begin <= this.end);
-    {
+    invariant (this.container !is null);
-        assert(this.begin <= this.end);
+    invariant (this.begin >= this.container.data);
-        assert(this.container !is null);
+    invariant (this.end <= this.container.data + this.container.length);
        assert(this.begin >= this.container.data);
        assert(this.end <= this.container.data + this.container.length);
    }
    private this(ref ContainerType container, E* begin, E* end) @trusted
-    in
+    in (begin <= end)
-    {
+    in (begin >= container.data)
-        assert(begin <= end);
+    in (end <= container.data + container.length)
        assert(begin >= container.data);
        assert(end <= container.data + container.length);
    }
    do
    {
        this.container = &container;
        this.begin = begin;
@ -253,15 +205,8 @@ if (is(Unqual!E == char))
    }
    @property dchar front() const @trusted
-    in
+    in (!empty)
-    {
+    out (chr; chr < 0xd800 || chr > 0xdfff)
        assert(!empty);
    }
    out (chr)
    {
        assert(chr < 0xd800 || chr > 0xdfff);
    }
    do
    {
        dchar chr;
        ubyte units;
@ -291,11 +236,7 @@ if (is(Unqual!E == char))
    }
    void popFront() @trusted
-    in
+    in (!empty)
    {
        assert(!empty);
    }
    do
    {
        ubyte units;
        if ((*begin & 0xf0) == 0xf0)
@ -341,10 +282,7 @@ struct String
    private char* data;
    private size_t capacity_;
-    pure nothrow @safe @nogc invariant
+    @nogc nothrow pure @safe invariant (this.length_ <= this.capacity_);
    {
        assert(this.length_ <= this.capacity_);
    }
    /**
     * Constructs the string from a stringish range.
@ -434,11 +372,7 @@ struct String
    /// ditto
    this(shared Allocator allocator) @nogc nothrow pure @safe
-    in
+    in (allocator !is null)
    {
        assert(allocator !is null);
    }
    do
    {
        this.allocator_ = allocator;
    }
@ -499,12 +433,6 @@ struct String
        }
    }
    @nogc nothrow pure @safe unittest
    {
        auto s = String(0, 'K');
        assert(s.length == 0);
    }
    this(this) @nogc nothrow pure @trusted
    {
        auto buf = this.data[0 .. this.length_];
@ -523,12 +451,8 @@ struct String
    private void write4Bytes(ref const dchar src)
    @nogc nothrow pure @trusted
-    in
+    in (capacity - length >= 4)
-    {
+    in (src - 0x10000 < 0x100000)
        assert(capacity - length >= 4);
        assert(src - 0x10000 < 0x100000);
    }
    do
    {
        auto dst = this.data + length;
@ -542,11 +466,7 @@ struct String
    private size_t insertWideChar(C)(auto ref const C chr) @trusted
    if (is(C == wchar) || is(C == dchar))
-    in
+    in (capacity - length >= 3)
    {
        assert(capacity - length >= 3);
    }
    do
    {
        auto dst = this.data + length;
        if (chr < 0x80)
@ -604,13 +524,6 @@ struct String
        return ret;
    }
    // Allocates enough space for 3-byte character.
    @nogc pure @safe unittest
    {
        String s;
        s.insertBack('\u8100');
    }
    /// ditto
    size_t insertBack(const dchar chr) @nogc pure @trusted
    {
@ -632,12 +545,6 @@ struct String
        }
    }
    @nogc pure @safe unittest
    {
        assertThrown!UTFException(() => String(1, cast(dchar) 0xd900));
        assertThrown!UTFException(() => String(1, cast(wchar) 0xd900));
    }
    /**
     * Inserts a stringish range at the end of the string.
     *
@ -882,13 +789,9 @@ struct String
                                     const size_t i,
                                     const size_t j)
    if (is(Unqual!R == char))
-    in
+    in (i <= j)
-    {
+    in (j <= length)
-        assert(i <= j);
+    in (j - i == value.length)
        assert(j <= length);
        assert(j - i == value.length);
    }
    do
    {
        auto target = opSlice(i, j);
        copy(value, target);
@ -900,12 +803,8 @@ struct String
                                  const size_t i,
                                  const size_t j)
    @nogc nothrow pure @trusted
-    in
+    in (i <= j)
-    {
+    in (j <= length)
        assert(i <= j);
        assert(j <= length);
    }
    do
    {
        copy(value[], this.data[i .. j]);
        return opSlice(i, j);
@ -916,12 +815,8 @@ struct String
                                  const size_t i,
                                  const size_t j)
    @nogc nothrow pure @trusted
-    in
+    in (i <= j)
-    {
+    in (j <= length)
        assert(i <= j);
        assert(j <= length);
    }
    do
    {
        for (auto p = this.data + i; p < this.data + j; ++p)
        {
@ -998,11 +893,7 @@ struct String
     * Precondition: $(D_INLINECODE length > pos).
     */
    ref inout(char) opIndex(const size_t pos) inout @nogc nothrow pure @trusted
-    in
+    in (length > pos)
    {
        assert(length > pos);
    }
    do
    {
        return *(this.data + pos);
    }
@ -1147,12 +1038,8 @@ struct String
     */
    ByCodeUnit!char opSlice(const size_t i, const size_t j)
    @nogc nothrow pure @trusted
-    in
+    in (i <= j)
-    {
+    in (j <= length)
        assert(i <= j);
        assert(j <= length);
    }
    do
    {
        return typeof(return)(this, this.data + i, this.data + j);
    }
@ -1160,12 +1047,8 @@ struct String
    /// ditto
    ByCodeUnit!(const char) opSlice(const size_t i, const size_t j)
    const @nogc nothrow pure @trusted
-    in
+    in (i <= j)
-    {
+    in (j <= length)
        assert(i <= j);
        assert(j <= length);
    }
    do
    {
        return typeof(return)(this, this.data + i, this.data + j);
    }
@ -1420,40 +1303,18 @@ struct String
        return opSliceAssign(value, 0, length);
    }
    @nogc nothrow pure @safe unittest
    {
        auto s1 = String("Buttercup");
        auto s2 = String("Cap");
        s2[] = s1[6 .. $];
        assert(s2 == "cup");
    }
    /// ditto
    ByCodeUnit!char opIndexAssign(const char value) @nogc nothrow pure @safe
    {
        return opSliceAssign(value, 0, length);
    }
    @nogc nothrow pure @safe unittest
    {
        auto s1 = String("Wow");
        s1[] = 'a';
        assert(s1 == "aaa");
    }
    /// ditto
    ByCodeUnit!char opIndexAssign(const char[] value) @nogc nothrow pure @safe
    {
        return opSliceAssign(value, 0, length);
    }
    @nogc nothrow pure @safe unittest
    {
        auto s1 = String("ö");
        s1[] = "oe";
        assert(s1 == "oe");
    }
    /**
     * Remove all characters beloning to $(D_PARAM r).
     *
@ -1468,13 +1329,9 @@ struct String
     */
    R remove(R)(R r) @trusted
    if (is(R == ByCodeUnit!char) || is(R == ByCodePoint!char))
-    in
+    in (r.container is &this)
-    {
+    in (r.begin >= this.data)
-        assert(r.container is &this);
+    in (r.end <= this.data + length)
        assert(r.begin >= this.data);
        assert(r.end <= this.data + length);
    }
    do
    {
        auto end = this.data + this.length;
        copy(ByCodeUnit!char(this, r.end, end), ByCodeUnit!char(this, r.begin, end));
@ -1485,6 +1342,8 @@ struct String
    ///
    @nogc pure @safe unittest
    {
        import tanya.algorithm.searching : count;
        auto s = String("Из пословицы слова не выкинешь.");
        assert(s.remove(s[5 .. 24]).length == 33);
@ -1521,20 +1380,15 @@ struct String
     && isInputRange!T
     && isSomeChar!(ElementType!T)))
     && (is(R == ByCodeUnit!char) || is(R == ByCodePoint!char)))
-    in
+    in (r.container is &this)
-    {
+    in (r.begin >= this.data)
-        assert(r.container is &this);
+    in (r.end <= this.data + length)
        assert(r.begin >= this.data);
        assert(r.end <= this.data + length);
    }
    do
    {
        const oldLength = length;
-        const rangeEnd = r.end - this.data;
+        const after = r.end - this.data;
        const inserted = insertBack(el);
-        auto containerEnd = this.data + oldLength;
+
-        bringToFront(ByCodeUnit!char(this, this.data + rangeEnd, containerEnd),
+        rotate(this.data[after .. oldLength], this.data[oldLength .. length]);
                     ByCodeUnit!char(this, containerEnd, this.data + length));
        return inserted;
    }
@ -1556,13 +1410,9 @@ struct String
     && isInputRange!T
     && isSomeChar!(ElementType!T)))
     && (is(R == ByCodeUnit!char) || is(R == ByCodePoint!char)))
-    in
+    in (r.container is &this)
-    {
+    in (r.begin >= this.data)
-        assert(r.container is &this);
+    in (r.end <= this.data + length)
        assert(r.begin >= this.data);
        assert(r.end <= this.data + length);
    }
    do
    {
        return insertAfter(R(this, this.data, r.begin), el);
    }
@ -1591,76 +1441,3 @@ struct String
    mixin DefaultAllocator;
 }
 // Postblit works
@nogc nothrow pure @safe unittest
 {
    void internFunc(String arg)
    {
    }
    void middleFunc(S...)(S args)
    {
        foreach (arg; args)
        {
            internFunc(arg);
        }
    }
    void topFunc(String args)
    {
        middleFunc(args);
    }
    topFunc(String("asdf"));
 }
 // Const range produces mutable ranges
@nogc pure @safe unittest
 {
    auto s = const String("И снизу лед, и сверху - маюсь между.");
    {
        const constRange = s[];
        auto fromConstRange = constRange[];
        fromConstRange.popFront();
        assert(fromConstRange.front == s[1]);
        fromConstRange = constRange[0 .. $];
        fromConstRange.popFront();
        assert(fromConstRange.front == s[1]);
        assert(constRange.get() is s.get());
    }
    {
        const constRange = s.byCodePoint();
        auto fromConstRange = constRange[];
        fromConstRange.popFront();
        assert(fromConstRange.front == ' ');
    }
 }
 // Can pop multibyte characters
@nogc pure @safe unittest
 {
    auto s = String("\U00024B62\U00002260");
    auto range = s.byCodePoint();
    range.popFront();
    assert(!range.empty);
    range.popFront();
    assert(range.empty);
    range = s.byCodePoint();
    range.popFront();
    s[$ - 3] = 0xf0;
    assertThrown!UTFException(&(range.popFront));
 }
 // Inserts own char range correctly
@nogc nothrow pure @safe unittest
 {
    auto s1 = String(`ü`);
    String s2;
    s2.insertBack(s1[]);
    assert(s1 == s2);
 }
--- a/source/tanya/conv.d
+++ b/source/tanya/conv.d
@ -5,7 +5,7 @@
 /**
 * This module provides functions for converting between different types.
 *
- * Copyright: Eugene Wissner 2017-2018.
+ * Copyright: Eugene Wissner 2017-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
@ -14,236 +14,14 @@
 */
 module tanya.conv;
 import std.traits : Unsigned;
 import tanya.container.string;
-import tanya.format;
+import tanya.memory.allocator;
-import tanya.memory;
+deprecated("Use tanya.memory.lifetime.emplace instead")
-import tanya.memory.op;
+public import tanya.memory.lifetime : emplace;
 import tanya.meta.trait;
 import tanya.meta.transform;
-import tanya.range.array;
+import tanya.range;
 import tanya.range.primitive;
 version (unittest)
 {
    import tanya.test.assertion;
 }
 /**
 * Constructs a new object of type $(D_PARAM T) in $(D_PARAM memory) with the
 * given arguments.
 *
 * If $(D_PARAM T) is a $(D_KEYWORD class), emplace returns a class reference
 * of type $(D_PARAM T), otherwise a pointer to the constructed object is
 * returned.
 *
 * If $(D_PARAM T) is a nested class inside another class, $(D_PARAM outer)
 * should be an instance of the outer class.
 *
 * $(D_PARAM args) are arguments for the constructor of $(D_PARAM T). If
 * $(D_PARAM T) isn't an aggregate type and doesn't have a constructor,
 * $(D_PARAM memory) can be initialized to `args[0]` if `Args.length == 1`,
 * `Args[0]` should be implicitly convertible to $(D_PARAM T) then.
 *
 * Params:
 *  T     = Constructed type.
 *  U     = Type of the outer class if $(D_PARAM T) is a nested class.
 *  Args  = Types of the constructor arguments if $(D_PARAM T) has a constructor
 *          or the type of the initial value.
 *  outer = Outer class instance if $(D_PARAM T) is a nested class.
 *  args  = Constructor arguments if $(D_PARAM T) has a constructor or the
 *          initial value.
 *
 * Returns: New instance of type $(D_PARAM T) constructed in $(D_PARAM memory).
 *
 * Precondition: `memory.length == stateSize!T`.
 * Postcondition: $(D_PARAM memory) and the result point to the same memory.
 */
 T emplace(T, U, Args...)(void[] memory, U outer, auto ref Args args)
 if (!isAbstractClass!T && isInnerClass!T && is(typeof(T.outer) == U))
 in
 {
    assert(memory.length >= stateSize!T);
 }
 out (result)
 {
    assert(memory.ptr is (() @trusted => cast(void*) result)());
 }
 do
 {
    copy(typeid(T).initializer, memory);
    auto result = (() @trusted => cast(T) memory.ptr)();
    result.outer = outer;
    static if (is(typeof(result.__ctor(args))))
    {
        result.__ctor(args);
    }
    return result;
 }
 /// ditto
 T emplace(T, Args...)(void[] memory, auto ref Args args)
 if (is(T == class) && !isAbstractClass!T && !isInnerClass!T)
 in
 {
    assert(memory.length == stateSize!T);
 }
 out (result)
 {
    assert(memory.ptr is (() @trusted => cast(void*) result)());
 }
 do
 {
    copy(typeid(T).initializer, memory);
    auto result = (() @trusted => cast(T) memory.ptr)();
    static if (is(typeof(result.__ctor(args))))
    {
        result.__ctor(args);
    }
    return result;
 }
 ///
@nogc nothrow pure @safe unittest
 {
    import tanya.memory : stateSize;
    class C
    {
        int i = 5;
        class Inner
        {
            int i;
            this(int param) pure nothrow @safe @nogc
            {
                this.i = param;
            }
        }
    }
    ubyte[stateSize!C] memory1;
    ubyte[stateSize!(C.Inner)] memory2;
    auto c = emplace!C(memory1);
    assert(c.i == 5);
    auto inner = emplace!(C.Inner)(memory2, c, 8);
    assert(c.i == 5);
    assert(inner.i == 8);
    assert(inner.outer is c);
 }
 /// ditto
 T* emplace(T, Args...)(void[] memory, auto ref Args args)
 if (!isAggregateType!T && (Args.length <= 1))
 in
 {
    assert(memory.length >= T.sizeof);
 }
 out (result)
 {
    assert(memory.ptr is result);
 }
 do
 {
    auto result = (() @trusted => cast(T*) memory.ptr)();
    static if (Args.length == 1)
    {
        *result = T(args[0]);
    }
    else
    {
        *result = T.init;
    }
    return result;
 }
 /// ditto
 T* emplace(T, Args...)(void[] memory, auto ref Args args)
 if (!isPolymorphicType!T && isAggregateType!T)
 in
 {
    assert(memory.length >= T.sizeof);
 }
 out (result)
 {
    assert(memory.ptr is result);
 }
 do
 {
    auto result = (() @trusted => cast(T*) memory.ptr)();
    static if (!hasElaborateAssign!T && isAssignable!T)
    {
        *result = T.init;
    }
    else
    {
        static const T init = T.init;
        copy((cast(void*) &init)[0 .. T.sizeof], memory);
    }
    static if (Args.length == 0)
    {
        static assert(is(typeof({ static T t; })),
                      "Default constructor is disabled");
    }
    else static if (is(typeof(T(args))))
    {
        *result = T(args);
    }
    else static if (is(typeof(result.__ctor(args))))
    {
        result.__ctor(args);
    }
    else
    {
        static assert(false,
                      "Unable to construct value with the given arguments");
    }
    return result;
 }
 ///
@nogc nothrow pure @safe unittest
 {
    ubyte[4] memory;
    auto i = emplace!int(memory);
    static assert(is(typeof(i) == int*));
    assert(*i == 0);
    i = emplace!int(memory, 5);
    assert(*i == 5);
    static struct S
    {
        int i;
        @disable this();
        @disable this(this);
        this(int i) @nogc nothrow pure @safe
        {
            this.i = i;
        }
    }
    auto s = emplace!S(memory, 8);
    static assert(is(typeof(s) == S*));
    assert(s.i == 8);
 }
 // Handles "Cannot access frame pointer" error.
@nogc nothrow pure @safe unittest
 {
    struct F
    {
        ~this() @nogc nothrow pure @safe
        {
        }
    }
    static assert(is(typeof(emplace!F((void[]).init))));
 }
 /**
 * Thrown if a type conversion fails.
@ -287,12 +65,8 @@ if (isInputRange!R
 && isSomeChar!(ElementType!R)
 && isIntegral!T
 && isUnsigned!T)
-in
+in (base >= 2)
-{
+in (base <= 36)
    assert(base >= 2);
    assert(base <= 36);
 }
 do
 {
    T boundary = cast(T) (T.max / base);
    if (range.empty)
@ -360,86 +134,6 @@ do
    return n;
 }
 // ':' is not a hex value
@nogc nothrow pure @safe unittest
 {
    string colon = ":";
    auto actual = readIntegral!ubyte(colon, 16);
    assert(actual == 0);
    assert(colon.length == 1);
 }
 // reads ubyte.max
@nogc nothrow pure @safe unittest
 {
    string number = "255";
    assert(readIntegral!ubyte(number) == 255);
    assert(number.empty);
 }
 // detects integer overflow
@nogc nothrow pure @safe unittest
 {
    string number = "500";
    readIntegral!ubyte(number);
    assert(number.front == '0');
    assert(number.length == 1);
 }
 // stops on a non-digit
@nogc nothrow pure @safe unittest
 {
    string number = "10-";
    readIntegral!ubyte(number);
    assert(number.front == '-');
 }
 // returns false if the number string is empty
@nogc nothrow pure @safe unittest
 {
    string number = "";
    readIntegral!ubyte(number);
    assert(number.empty);
 }
@nogc nothrow pure @safe unittest
 {
    string number = "29";
    assert(readIntegral!ubyte(number) == 29);
    assert(number.empty);
 }
@nogc nothrow pure @safe unittest
 {
    string number = "25467";
    readIntegral!ubyte(number);
    assert(number.front == '6');
 }
 // Converts lower case hexadecimals
@nogc nothrow pure @safe unittest
 {
    string number = "a";
    assert(readIntegral!ubyte(number, 16) == 10);
    assert(number.empty);
 }
 // Converts upper case hexadecimals
@nogc nothrow pure @safe unittest
 {
    string number = "FF";
    assert(readIntegral!ubyte(number, 16) == 255);
    assert(number.empty);
 }
 // Handles small overflows
@nogc nothrow pure @safe unittest
 {
    string number = "256";
    assert(readIntegral!ubyte(number, 10) == 25);
    assert(number.front == '6');
 }
 /**
 * If the source type $(D_PARAM From) and the target type $(D_PARAM To) are
 * equal, does nothing. If $(D_PARAM From) can be implicitly converted to
@ -479,12 +173,6 @@ template to(To)
    static assert(is(typeof(val) == int));
 }
@nogc nothrow pure @safe unittest
 {
    int val = 5;
    assert(val.to!int() == 5);
 }
 /**
 * Performs checked conversion from an integral type $(D_PARAM From) to an
 * integral type $(D_PARAM To).
@ -547,83 +235,6 @@ if (isIntegral!From
    }
 }
@nogc nothrow pure @safe unittest
 {
    // ubyte -> ushort
    assert((cast(ubyte) 0).to!ushort == 0);
    assert((cast(ubyte) 1).to!ushort == 1);
    assert((cast(ubyte) (ubyte.max - 1)).to!ushort == ubyte.max - 1);
    assert((cast(ubyte) ubyte.max).to!ushort == ubyte.max);
    // ubyte -> short
    assert((cast(ubyte) 0).to!short == 0);
    assert((cast(ubyte) 1).to!short == 1);
    assert((cast(ubyte) (ubyte.max - 1)).to!short == ubyte.max - 1);
    assert((cast(ubyte) ubyte.max).to!short == ubyte.max);
 }
@nogc pure @safe unittest
 {
    // ubyte <- ushort
    assert((cast(ushort) 0).to!ubyte == 0);
    assert((cast(ushort) 1).to!ubyte == 1);
    assert((cast(ushort) (ubyte.max - 1)).to!ubyte == ubyte.max - 1);
    assert((cast(ushort) ubyte.max).to!ubyte == ubyte.max);
    // ubyte <- short
    assert((cast(short) 0).to!ubyte == 0);
    assert((cast(short) 1).to!ubyte == 1);
    assert((cast(short) (ubyte.max - 1)).to!ubyte == ubyte.max - 1);
    assert((cast(short) ubyte.max).to!ubyte == ubyte.max);
    // short <-> int
    assert(short.min.to!int == short.min);
    assert((short.min + 1).to!int == short.min + 1);
    assert((cast(short) -1).to!int == -1);
    assert((cast(short) 0).to!int == 0);
    assert((cast(short) 1).to!int == 1);
    assert((short.max - 1).to!int == short.max - 1);
    assert(short.max.to!int == short.max);
    assert((cast(int) short.min).to!short == short.min);
    assert((cast(int) short.min + 1).to!short == short.min + 1);
    assert((cast(int) -1).to!short == -1);
    assert((cast(int) 0).to!short == 0);
    assert((cast(int) 1).to!short == 1);
    assert((cast(int) short.max - 1).to!short == short.max - 1);
    assert((cast(int) short.max).to!short == short.max);
    // uint <-> int
    assert((cast(uint) 0).to!int == 0);
    assert((cast(uint) 1).to!int == 1);
    assert((cast(uint) (int.max - 1)).to!int == int.max - 1);
    assert((cast(uint) int.max).to!int == int.max);
    assert((cast(int) 0).to!uint == 0);
    assert((cast(int) 1).to!uint == 1);
    assert((cast(int) (int.max - 1)).to!uint == int.max - 1);
    assert((cast(int) int.max).to!uint == int.max);
 }
@nogc pure @safe unittest
 {
    assertThrown!ConvException(&to!(short, int), int.min);
    assertThrown!ConvException(&to!(short, int), int.max);
    assertThrown!ConvException(&to!(ushort, uint), uint.max);
    assertThrown!ConvException(&to!(uint, int), -1);
 }
@nogc nothrow pure @safe unittest
 {
    enum Test : int
    {
        one,
        two,
    }
    assert(Test.one.to!int == 0);
    assert(Test.two.to!int == 1);
 }
 /**
 * Converts a floating point number to an integral type.
 *
@ -666,13 +277,6 @@ if (isFloatingPoint!From
    assert(2147483646.5.to!uint == 2147483646);
 }
@nogc pure @safe unittest
 {
    assertThrown!ConvException(&to!(int, double), 2147483647.5);
    assertThrown!ConvException(&to!(int, double), -2147483648.5);
    assertThrown!ConvException(&to!(uint, double), -21474.5);
 }
 /**
 * Performs checked conversion from an integral type $(D_PARAM From) to an
 * $(D_KEYWORD enum).
@ -714,16 +318,6 @@ if (isIntegral!From && is(To == enum))
    assert(1.to!Test == Test.two);
 }
@nogc pure @safe unittest
 {
    enum Test : uint
    {
        one,
        two,
    }
    assertThrown!ConvException(&to!(Test, int), 5);
 }
 /**
 * Converts $(D_PARAM from) to a boolean.
 *
@ -775,12 +369,6 @@ if (isNumeric!From && is(Unqual!To == bool) && !is(Unqual!To == Unqual!From))
    assert(1.to!bool);
 }
@nogc pure @safe unittest
 {
    assertThrown!ConvException(&to!(bool, int), -1);
    assertThrown!ConvException(&to!(bool, int), 2);
 }
 /// ditto
 To to(To, From)(auto ref const From from)
 if ((is(From == String) || isSomeString!From) && is(Unqual!To == bool))
@ -807,11 +395,6 @@ if ((is(From == String) || isSomeString!From) && is(Unqual!To == bool))
 }
@nogc pure @safe unittest
 {
    assertThrown!ConvException(() => "1".to!bool);
 }
 /**
 * Converts a boolean to $(D_PARAM To).
 *
@ -856,13 +439,6 @@ if (is(Unqual!From == bool) && isNumeric!To && !is(Unqual!To == Unqual!From))
    assert(false.to!int == 0);
 }
 deprecated("Use tanya.format.format instead")
 To to(To, From)(auto ref From from)
 if (is(Unqual!To == String))
 {
    return format!"{}"(from);
 }
 /**
 * Converts a stringish range to an integral value.
 *
@ -985,12 +561,5 @@ if (isInputRange!From && isSomeChar!(ElementType!From) && isIntegral!To)
    assert("010".to!int() == 8);
    assert("-010".to!int() == -8);
    assert("-128".to!byte == cast(byte) -128);
    assertThrown!ConvException(() => "".to!int);
    assertThrown!ConvException(() => "-".to!int);
    assertThrown!ConvException(() => "-5".to!uint);
    assertThrown!ConvException(() => "-129".to!byte);
    assertThrown!ConvException(() => "256".to!ubyte);
 }
--- a/source/tanya/exception.d
+++ b/source/tanya/exception.d
@ -1,66 +0,0 @@
 /* This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
 /**
 * Common exceptions and errors.
 *
 * Copyright: Eugene Wissner 2017-2018.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
 * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/exception.d,
 *                 tanya/exception.d)
 */
 module tanya.exception;
 import tanya.conv;
 import tanya.memory;
 /**
 * Error thrown if memory allocation fails.
 */
 final class OutOfMemoryError : Error
 {
    /**
     * Constructs new error.
     *
     * Params:
     *  msg  = The message for the exception.
     *  file = The file where the exception occurred.
     *  line = The line number where the exception occurred.
     *  next = The previous exception in the chain of exceptions, if any.
     */
    this(string msg = "Out of memory",
         string file = __FILE__,
         size_t line = __LINE__,
         Throwable next = null) @nogc nothrow pure @safe
    {
        super(msg, file, line, next);
    }
    /// ditto
    this(string msg,
         Throwable next,
         string file = __FILE__,
         size_t line = __LINE__) @nogc nothrow pure @safe
    {
        super(msg, file, line, next);
    }
 }
 /**
 * Allocates $(D_PSYMBOL OutOfMemoryError) in a static storage and throws it.
 *
 * Params:
 *  msg = Custom error message.
 *
 * Throws: $(D_PSYMBOL OutOfMemoryError).
 */
 void onOutOfMemoryError(string msg = "Out of memory")
@nogc nothrow pure @trusted
 {
    static ubyte[stateSize!OutOfMemoryError] memory;
    alias PureType = OutOfMemoryError function(string) @nogc nothrow pure;
    throw (cast(PureType) () => emplace!OutOfMemoryError(memory))(msg);
 }
--- a/source/tanya/format.d
+++ b/source/tanya/format.d
@ -17,11 +17,19 @@
 * To escape `{` or `}`, use `{{` and `}}` respectively. `{{` will be outputted
 * as a single `{`, `}}` - as a single `}`.
 *
- * If a custom data type (like $(D_KEYWORD struct) or $(D_KEYWORD class))
+ * To define the string representation for a custom data type (like
- * defines a `stringify()` function that is callable without arguments and
+ * $(D_KEYWORD class) or $(D_KEYWORD struct)), `toString()`-function can be
- * returns a $(D_PSYMBOL String), this function is used to produce a string
+ * implemented for that type. `toString()` should be $(D_KEYWORD const) and
- * representation for the value. String conversions for the most built-in
+ * accept exactly one argument: an output range for `const(char)[]`. It should
- * data types a also available.
+ * return the same output range, advanced after putting the corresponding value
 * into it. That is `toString()` signature should look like:
 *
 * ---
 * OR toString(OR)(OR range) const
 * if (isOutputRange!(OR, const(char)[]));
 * ---
 *
 * String conversions for the most built-in data types a also available.
 *
 * $(D_KEYWORD char), $(D_KEYWORD wchar) and $(D_KEYWORD dchar) ranges are
 * outputted as plain strings (without any delimiters between their elements).
@ -30,7 +38,7 @@
 *
 * More advanced formatting is currently not implemented.
 *
- * Copyright: Eugene Wissner 2017-2018.
+ * Copyright: Eugene Wissner 2017-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
@ -43,12 +51,11 @@ import tanya.algorithm.comparison;
 import tanya.container.string;
 import tanya.encoding.ascii;
 import tanya.math;
-import tanya.memory.op;
+static import tanya.memory.op;
 import tanya.meta.metafunction;
 import tanya.meta.trait;
 import tanya.meta.transform;
-import tanya.range.array;
+import tanya.range;
 import tanya.range.primitive;
 import tanya.typecons : Tuple;
 // Returns the last part of buffer with converted number.
@ -117,18 +124,6 @@ if (isIntegral!T)
    return buffer[$ - l - 1 .. $ - 1];
 }
 // Converting an integer to string.
@nogc nothrow pure @system unittest
 {
    char[21] buf;
    assert(integral2String(80, buf) == "80");
    assert(integral2String(-80, buf) == "-80");
    assert(integral2String(0, buf) == "0");
    assert(integral2String(uint.max, buf) == "4294967295");
    assert(integral2String(int.min, buf) == "-2147483648");
 }
 private int frexp(const double x) @nogc nothrow pure @safe
 {
    const FloatBits!double bits = { x };
@ -1180,11 +1175,7 @@ private struct uint128
    }
    Tuple!(uint128, uint128) divMod(ulong rhs) const @nogc nothrow pure @safe
-    in
+    in (rhs != uint128(), "Division by 0")
    {
        assert(rhs != uint128(), "Division by 0");
    }
    do
    {
        if (rhs == 1)
        {
@ -1284,11 +1275,7 @@ private int indexMismatch(ulong low, ulong high) @nogc nothrow pure @safe
 private char[] errol2(double value,
                      return ref char[512] buffer,
                      out int exponent) @nogc nothrow pure @safe
-in
+in (value > 9.007199254740992e15 && value < 3.40282366920938e38)
 {
    assert(value > 9.007199254740992e15 && value < 3.40282366920938e38);
 }
 do
 {
    auto v = uint128(value);
    auto leftBoundary = v + raise2ToExp((value - previous(value)) / 2.0);
@ -1351,7 +1338,7 @@ do
        intSlice.popBack();
    }
    const begin = buffer.length - intSlice.length;
-    copy(intSlice, buffer[begin .. $]);
+    tanya.memory.op.copy(intSlice, buffer[begin .. $]);
    exponent = cast(int) (intSlice.length + mismatch);
@ -1373,11 +1360,7 @@ do
 private char[] errolFixed(double value,
                          return ref char[512] buffer,
                          out int exponent) @nogc nothrow pure @safe
-in
+in (value >= 16.0 && value <= 9.007199254740992e15)
 {
    assert(value >= 16.0 && value <= 9.007199254740992e15);
 }
 do
 {
    auto decimal = cast(ulong) value;
    auto n = cast(double) decimal;
@ -1388,7 +1371,7 @@ do
    char[21] intBuffer;
    auto intSlice = integral2String(decimal, intBuffer);
-    copy(intSlice, buffer);
+    tanya.memory.op.copy(intSlice, buffer);
    exponent = cast(int) intSlice.length;
    size_t position = exponent;
@ -1903,7 +1886,7 @@ private char[] errol3(double value,
        if (pathologies[middle].representation == bits.integral)
        {
            exponent = pathologies[middle].exponent;
-            copy(pathologies[middle].digits, buffer);
+            tanya.memory.op.copy(pathologies[middle].digits, buffer);
            return buffer[0 .. pathologies[middle].digits.length];
        }
        else if (pathologies[middle].representation < bits.integral)
@ -1945,7 +1928,7 @@ private char[] errol3(double value,
 * $(D_PARAM sign).
 */
 private const(char)[] real2String(double value,
-                                  ref char[512] buffer,
+                                  return ref char[512] buffer,
                                  out int exponent,
                                  out bool sign) @nogc nothrow pure @trusted
 {
@ -1989,7 +1972,7 @@ private const(char)[] real2String(double value,
    }
 }
-private void formatReal(T)(ref T arg, ref String result)
+private void formatReal(T, OR)(ref T arg, OR result)
 if (isFloatingPoint!T)
 {
    char[512] buffer; // Big enough for e+308 or e-307.
@ -2017,11 +2000,11 @@ if (isFloatingPoint!T)
    if (negative)
    {
-        result.insertBack('-');
+        put(result, "-");
    }
    if (decimalPoint == special)
    {
-        result.insertBack(realString);
+        put(result, realString);
        return;
    }
@ -2054,7 +2037,7 @@ if (isFloatingPoint!T)
        {
            length = precision + 1;
        }
-        realString[1 .. length].copy(bufferSlice);
+        tanya.memory.op.copy(realString[1 .. length], bufferSlice);
        bufferSlice.popFrontExactly(length - 1);
        // Dump the exponent.
@ -2116,7 +2099,7 @@ if (isFloatingPoint!T)
                n = precision;
            }
-            fill!'0'(bufferSlice[0 .. n]);
+            tanya.memory.op.fill!'0'(bufferSlice[0 .. n]);
            bufferSlice.popFrontExactly(n);
            if ((length + n) > precision)
@ -2124,7 +2107,7 @@ if (isFloatingPoint!T)
                length = precision - n;
            }
-            realString[0 .. length].copy(bufferSlice);
+            tanya.memory.op.copy(realString[0 .. length], bufferSlice);
            bufferSlice.popFrontExactly(length);
        }
        else if (cast(uint) decimalPoint >= length)
@ -2142,7 +2125,7 @@ if (isFloatingPoint!T)
            {
                n = decimalPoint - n;
-                fill!'0'(bufferSlice[0 .. n]);
+                tanya.memory.op.fill!'0'(bufferSlice[0 .. n]);
                bufferSlice.popFrontExactly(n);
            }
            if (precision != 0)
@ -2173,7 +2156,7 @@ if (isFloatingPoint!T)
                length = precision + decimalPoint;
            }
-            realString[n .. length].copy(bufferSlice);
+            tanya.memory.op.copy(realString[n .. length], bufferSlice);
            bufferSlice.popFrontExactly(length - n);
        }
    }
@ -2181,11 +2164,11 @@ if (isFloatingPoint!T)
    // Get the length that we've copied.
    length = cast(uint) (buffer.length - bufferSlice.length);
-    result.insertBack(buffer[64 .. length]); // Number.
+    put(result, buffer[64 .. length]); // Number.
-    result.insertBack(tail[1 .. tail[0] + 1]); // Tail.
+    put(result, tail[1 .. tail[0] + 1]); // Tail.
 }
-private void formatStruct(T)(ref T arg, ref String result)
+private void formatStruct(T, OR)(ref T arg, OR result)
 if (is(T == struct))
 {
    template pred(alias f)
@ -2202,24 +2185,24 @@ if (is(T == struct))
    }
    alias fields = Filter!(pred, __traits(allMembers, T));
-    result.insertBack(T.stringof);
+    put(result, T.stringof);
-    result.insertBack('(');
+    put(result, "(");
    static if (fields.length > 0)
    {
        printToString!"{}"(result, __traits(getMember, arg, fields[0]));
        foreach (field; fields[1 .. $])
        {
-            result.insertBack(", ");
+            put(result, ", ");
            printToString!"{}"(result, __traits(getMember, arg, field));
        }
    }
-    result.insertBack(')');
+    put(result, ")");
 }
-private void formatRange(T)(ref T arg, ref String result)
+private void formatRange(T, OR)(ref T arg, OR result)
 if (isInputRange!T && !isInfinite!T)
 {
-    result.insertBack('[');
+    put(result, "[");
    if (!arg.empty)
    {
        printToString!"{}"(result, arg.front);
@ -2227,24 +2210,24 @@ if (isInputRange!T && !isInfinite!T)
    }
    foreach (e; arg)
    {
-        result.insertBack(", ");
+        put(result, ", ");
        printToString!"{}"(result, e);
    }
-    result.insertBack(']');
+    put(result, "]");
 }
-private ref String printToString(string fmt, Args...)(return ref String result,
+private void printToString(string fmt, OR, Args...)(ref OR result,
-                                                      auto ref Args args)
+                                                    auto ref Args args)
 {
    alias Arg = Args[0];
    static if (is(Unqual!Arg == typeof(null))) // null
    {
-        result.insertBack("null");
+        put(result, "null");
    }
    else static if (is(Unqual!Arg == bool)) // Boolean
    {
-        result.insertBack(args[0] ? "true" : "false");
+        put(result, args[0] ? "true" : "false");
    }
    else static if (is(Arg == enum)) // Enum
    {
@ -2252,19 +2235,19 @@ private ref String printToString(string fmt, Args...)(return ref String result,
        {
            if (args[0] == __traits(getMember, Arg, m))
            {
-                result.insertBack(m);
+                put(result, m);
            }
        }
    }
    else static if (isSomeChar!Arg || isSomeString!Arg) // String or char
    {
-        result.insertBack(args[0]);
+        put(result, args[0]);
    }
    else static if (isInputRange!Arg
                 && !isInfinite!Arg
                 && isSomeChar!(ElementType!Arg)) // Stringish range
    {
-        result.insertBack(args[0]);
+        put(result, args[0]);
    }
    else static if (isInputRange!Arg && !isInfinite!Arg)
    {
@ -2272,29 +2255,49 @@ private ref String printToString(string fmt, Args...)(return ref String result,
    }
    else static if (is(Unqual!(typeof(args[0].stringify())) == String))
    {
        pragma(msg, ".stringify() is deprecated. Use toString() with an output"
                  ~ " range instead");
        static if (is(Arg == class) || is(Arg == interface))
        {
            if (args[0] is null)
            {
-                result.insertBack("null");
+                put(result, "null");
            }
            else
            {
-                result.insertBack(args[0].stringify()[]);
+                put(result, args[0].stringify()[]);
            }
        }
        else
        {
-            result.insertBack(args[0].stringify()[]);
+            put(result, args[0].stringify()[]);
        }
    }
    else static if (is(typeof(args[0].toString(result)) == OR))
    {
        static if (is(Arg == class) || is(Arg == interface))
        {
            if (args[0] is null)
            {
                put(result, "null");
            }
            else
            {
                result = args[0].toString(result);
            }
        }
        else
        {
            result = args[0].toString(result);
        }
    }
    else static if (is(Arg == class))
    {
-        result.insertBack(args[0] is null ? "null" : args[0].toString());
+        put(result, args[0] is null ? "null" : args[0].toString());
    }
    else static if (is(Arg == interface))
    {
-        result.insertBack(Arg.classinfo.name);
+        put(result, Arg.classinfo.name);
    }
    else static if (is(Arg == struct))
    {
@ -2302,7 +2305,7 @@ private ref String printToString(string fmt, Args...)(return ref String result,
    }
    else static if (is(Arg == union))
    {
-        result.insertBack(Arg.stringof);
+        put(result, Arg.stringof);
    }
    else static if (isFloatingPoint!Arg) // Float
    {
@ -2321,21 +2324,19 @@ private ref String printToString(string fmt, Args...)(return ref String result,
        }
        while (address != 0);
-        result.insertBack("0x");
+        put(result, "0x");
-        result.insertBack(buffer[position .. $]);
+        put(result, buffer[position .. $]);
    }
    else static if (isIntegral!Arg) // Integer
    {
        char[21] buffer;
-        result.insertBack(integral2String(args[0], buffer));
+        put(result, integral2String(args[0], buffer));
    }
    else
    {
        static assert(false,
                      "Formatting type " ~ Arg.stringof ~ " is not supported");
    }
    return result;
 }
 /**
@ -2351,265 +2352,47 @@ private ref String printToString(string fmt, Args...)(return ref String result,
 String format(string fmt, Args...)(auto ref Args args)
 {
    String formatted;
    sformat!fmt(backInserter(formatted), args);
    return formatted;
 }
 /**
 * Produces a string according to the specified format and writes it into an
 * output range. $(D_PSYMBOL sformat) writes the final string in chunks, so the
 * output range should be in output range for `const(char)[]`.
 *
 * Params:
 *  fmt    = Format.
 *  R      = Output range type.
 *  output = Output range.
 *  args   = Arguments.
 *
 * Returns: $(D_PARAM output).
 */
 R sformat(string fmt, R, Args...)(R output, auto ref Args args)
 if (isOutputRange!(R, const(char)[]))
 {
    alias Specs = ParseFmt!fmt;
    enum bool FormatSpecFilter(alias spec) = is(typeof(spec) == FormatSpec);
    static assert((Filter!(FormatSpecFilter, ParseFmt!fmt)).length == Args.length,
-                  "Number of the arguments doesn't match the format strign");
+                  "Number of the arguments doesn't match the format string");
    foreach (spec; Specs)
    {
        static if (FormatSpecFilter!spec)
        {
-            printToString!"{}"(formatted, args[spec.position]);
+            printToString!"{}"(output, args[spec.position]);
        }
        else static if (isSomeString!(typeof(spec)))
        {
-            formatted.insertBack(spec);
+            put(output, spec);
        }
        else
        {
            static assert(false, "Format string parsed incorrectly");
        }
    }
-    return formatted;
+    return output;
 }
 // doesn't print the first argument repeatedly
@nogc nothrow pure @safe unittest
 {
    assert(format!"{}{}"(1, 2) == "12");
 }
@nogc nothrow pure @safe unittest
 {
    assert(format!"Without arguments"() == "Without arguments");
    assert(format!""().length == 0);
    static assert(!is(typeof(format!"{}"())));
    static assert(!is(typeof(format!"{j}"(5))));
 }
 // Enum.
@nogc nothrow pure @safe unittest
 {
    enum E1 : int
    {
        one,
        two,
    }
    assert(format!"{}"(E1.one) == "one");
    const E1 e1;
    assert(format!"{}"(e1) == "one");
 }
 // One argument tests.
@nogc pure @safe unittest
 {
    // Modifiers.
    assert(format!"{}"(8.5) == "8.5");
    assert(format!"{}"(8.6) == "8.6");
    assert(format!"{}"(1000) == "1000");
    assert(format!"{}"(1) == "1");
    assert(format!"{}"(10.25) == "10.25");
    assert(format!"{}"(1) == "1");
    assert(format!"{}"(0.01) == "0.01");
    // String printing.
    assert(format!"{}"("Some weired string") == "Some weired string");
    assert(format!"{}"(cast(string) null) == "");
    assert(format!"{}"('c') == "c");
    // Integer.
    assert(format!"{}"(8) == "8");
    assert(format!"{}"(8) == "8");
    assert(format!"{}"(-8) == "-8");
    assert(format!"{}"(-8L) == "-8");
    assert(format!"{}"(8) == "8");
    assert(format!"{}"(100000001) == "100000001");
    assert(format!"{}"(99999999L) == "99999999");
    assert(format!"{}"(10) == "10");
    assert(format!"{}"(10L) == "10");
    // Floating point.
    assert(format!"{}"(0.1234) == "0.1234");
    assert(format!"{}"(0.3) == "0.3");
    assert(format!"{}"(0.333333333333) == "0.333333");
    assert(format!"{}"(38234.1234) == "38234.1");
    assert(format!"{}"(-0.3) == "-0.3");
    assert(format!"{}"(0.000000000000000006) == "6e-18");
    assert(format!"{}"(0.0) == "0");
    assert(format!"{}"(double.init) == "NaN");
    assert(format!"{}"(-double.init) == "-NaN");
    assert(format!"{}"(double.infinity) == "Inf");
    assert(format!"{}"(-double.infinity) == "-Inf");
    assert(format!"{}"(0.000000000000000000000000003) == "3e-27");
    assert(format!"{}"(0.23432e304) == "2.3432e+303");
    assert(format!"{}"(-0.23432e8) == "-2.3432e+07");
    assert(format!"{}"(1e-307) == "1e-307");
    assert(format!"{}"(1e+8) == "1e+08");
    assert(format!"{}"(111234.1) == "111234");
    assert(format!"{}"(0.999) == "0.999");
    assert(format!"{}"(0x1p-16382L) == "0");
    assert(format!"{}"(1e+3) == "1000");
    assert(format!"{}"(38234.1234) == "38234.1");
    assert(format!"{}"(double.max) == "1.79769e+308");
    // typeof(null).
    assert(format!"{}"(null) == "null");
    // Boolean.
    assert(format!"{}"(true) == "true");
    assert(format!"{}"(false) == "false");
 }
 // Unsafe tests with pointers.
@nogc pure @system unittest
 {
    // Pointer convesions
    assert(format!"{}"(cast(void*) 1) == "0x1");
    assert(format!"{}"(cast(void*) 20) == "0x14");
    assert(format!"{}"(cast(void*) null) == "0x0");
 }
 // Structs.
@nogc pure @safe unittest
 {
    static struct WithoutStringify1
    {
        int a;
        void func()
        {
        }
    }
    assert(format!"{}"(WithoutStringify1(6)) == "WithoutStringify1(6)");
    static struct WithoutStringify2
    {
    }
    assert(format!"{}"(WithoutStringify2()) == "WithoutStringify2()");
    static struct WithoutStringify3
    {
        int a = -2;
        int b = 8;
    }
    assert(format!"{}"(WithoutStringify3()) == "WithoutStringify3(-2, 8)");
    struct Nested
    {
        int i;
        void func()
        {
        }
    }
    assert(format!"{}"(Nested()) == "Nested(0)");
    static struct WithStringify
    {
        String stringify() const @nogc nothrow pure @safe
        {
            return String("stringify method");
        }
    }
    assert(format!"{}"(WithStringify()) == "stringify method");
 }
 // Aggregate types.
@system unittest // Object.toString has no attributes.
 {
    import tanya.memory;
    import tanya.memory.smartref;
    interface I
    {
    }
    class A : I
    {
    }
    auto instance = defaultAllocator.unique!A();
    assert(format!"{}"(instance.get()) == instance.get().toString());
    assert(format!"{}"(cast(I) instance.get()) == I.classinfo.name);
    assert(format!"{}"(cast(A) null) == "null");
    class B
    {
        String stringify() @nogc nothrow pure @safe
        {
            return String("Class B");
        }
    }
    assert(format!"{}"(cast(B) null) == "null");
 }
 // Unions.
 unittest
 {
    union U
    {
        int i;
        char c;
    }
    assert(format!"{}"(U(2)) == "U");
 }
 // Ranges.
@nogc pure @safe unittest
 {
    static struct Stringish
    {
        private string content = "Some content";
        immutable(char) front() const @nogc nothrow pure @safe
        {
            return this.content[0];
        }
        void popFront() @nogc nothrow pure @safe
        {
            this.content = this.content[1 .. $];
        }
        bool empty() const @nogc nothrow pure @safe
        {
            return this.content.length == 0;
        }
    }
    assert(format!"{}"(Stringish()) == "Some content");
    static struct Intish
    {
        private int front_ = 3;
        int front() const @nogc nothrow pure @safe
        {
            return this.front_;
        }
        void popFront() @nogc nothrow pure @safe
        {
            --this.front_;
        }
        bool empty() const @nogc nothrow pure @safe
        {
            return this.front == 0;
        }
    }
    assert(format!"{}"(Intish()) == "[3, 2, 1]");
 }
 // Typeid.
 nothrow pure @safe unittest
 {
    assert(format!"{}"(typeid(int[])) == "int[]");
    class C
    {
    }
    assert(format!"{}"(typeid(C)) == typeid(C).toString());
 }
 private struct FormatSpec
--- a/source/tanya/functional.d
+++ b/source/tanya/functional.d
@ -1,78 +0,0 @@
 /* This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
 /**
 * Functions that manipulate other functions and their argument lists.
 *
 * Copyright: Eugene Wissner 2018.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
 * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/functional.d,
 *                 tanya/functional.d)
 */
 module tanya.functional;
 import tanya.algorithm.mutation;
 import tanya.meta.metafunction;
 /**
 * Forwards its argument list preserving $(D_KEYWORD ref) and $(D_KEYWORD out)
 * storage classes.
 *
 * $(D_PSYMBOL forward) accepts a list of variables or literals. It returns an
 * argument list of the same length that can be for example passed to a
 * function accepting the arguments of this type.
 *
 * Params:
 *  args = Argument list.
 *
 * Returns: $(D_PARAM args) with their original storage classes.
 */
 template forward(args...)
 {
    static if (args.length == 0)
    {
        alias forward = AliasSeq!();
    }
    else static if (__traits(isRef, args[0]) || __traits(isOut, args[0]))
    {
        static if (args.length == 1)
        {
            alias forward = args[0];
        }
        else
        {
            alias forward = AliasSeq!(args[0], forward!(args[1 .. $]));
        }
    }
    else
    {
        @property auto forwardOne()
        {
            return move(args[0]);
        }
        static if (args.length == 1)
        {
            alias forward = forwardOne;
        }
        else
        {
            alias forward = AliasSeq!(forwardOne, forward!(args[1 .. $]));
        }
    }
 }
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(typeof((int i) { int v = forward!i; })));
    static assert(is(typeof((ref int i) { int v = forward!i; })));
    static assert(is(typeof({
        void f(int i, ref int j, out int k)
        {
            f(forward!(i, j, k));
        }
    })));
 }
--- a/source/tanya/hash/lookup.d
+++ b/source/tanya/hash/lookup.d
@ -5,7 +5,7 @@
 /**
 * Non-cryptographic, lookup hash functions.
 *
- * Copyright: Eugene Wissner 2018.
+ * Copyright: Eugene Wissner 2018-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
@ -17,7 +17,7 @@ module tanya.hash.lookup;
 import tanya.meta.trait;
 import tanya.range.primitive;
-private struct FNV
+private struct Hasher
 {
    static if (size_t.sizeof == 4)
    {
@ -29,6 +29,11 @@ private struct FNV
        enum ulong offsetBasis = 14695981039346656037UL;
        enum ulong prime = 1099511628211UL;
    }
    else static if (size_t.sizeof == 16)
    {
        enum size_t offsetBasis = (size_t(0x6c62272e07bb0142UL) << 64) + 0x62b821756295c58dUL;
        enum size_t prime = (size_t(1) << 88) + (1 << 8) + 0x3b;
    }
    else
    {
        static assert(false, "FNV requires at least 32-bit hash length");
@ -44,11 +49,33 @@ private struct FNV
        }
        else static if (isScalarType!T || isPointer!T)
        {
-            (() @trusted => add((cast(const ubyte*) &key)[0 .. T.sizeof]))();
+            // Treat as an array of words
            static if (T.sizeof % size_t.sizeof == 0
                    && T.alignof >= size_t.alignof)
                alias CastT = size_t;
            // (64-bit or 128-bit) Treat as an array of ints
            else static if (T.sizeof % uint.sizeof == 0
                    && T.alignof >= uint.alignof)
                alias CastT = uint;
            // Treat as an array of bytes
            else
                alias CastT = ubyte;
            add((() @trusted => (cast(const CastT*) &key)[0 .. T.sizeof / CastT.sizeof])());
        }
        else static if (isArray!T && isScalarType!(ElementType!T))
        {
-            add(cast(const ubyte[]) key);
+            // Treat as an array of words
            static if (ElementType!T.sizeof % size_t.sizeof == 0
                    && ElementType!T.alignof >= size_t.alignof)
                alias CastT = size_t;
            // (64-bit or 128-bit) Treat as an array of ints
            else static if (ElementType!T.sizeof % uint.sizeof == 0
                    && ElementType!T.alignof >= uint.alignof)
                alias CastT = uint;
            // Treat as an array of bytes
            else
                alias CastT = ubyte;
            add(cast(const CastT[]) key);
        }
        else static if (is(T == typeof(null)))
        {
@ -67,13 +94,166 @@ private struct FNV
        }
    }
-    void add(const ubyte[] key) @nogc nothrow pure @safe
+    void add(scope const ubyte[] key) @nogc nothrow pure @safe
    {
        // FNV-1a
        foreach (c; key)
        {
            this.hash = (this.hash ^ c) * prime;
        }
    }
    void add(scope const size_t[] key) @nogc nothrow pure @safe
    {
        static if (size_t.sizeof == 4)
        {
            // Partial MurmurHash3_x86_32 (no finalization)
            enum uint c1 = 0xcc9e2d51;
            enum uint c2 = 0x1b873593;
            alias h1 = hash;
            foreach (x; key)
            {
                auto k1 = x * c1;
                k1 = (k1 << 15) | (k1 >> (32 - 15));
                k1 *= c2;
                h1 ^= k1;
                h1 = (h1 << 13) | (h1 >> (32 - 13));
                h1 = h1 * 5 + 0xe6546b64;
            }
        }
        else static if (size_t.sizeof == 8)
        {
            // Partial 64-bit MurmurHash64A (no finalization)
            alias h = hash;
            enum ulong m = 0xc6a4a7935bd1e995UL;
            foreach (x; key)
            {
                auto k = x * m;
                k ^= k >>> 47;
                k *= m;
                h ^= k;
                h *= m;
            }
        }
        else static if (size_t.sizeof == 16)
        {
            // Partial MurmurHash3_x64_128 (no finalization)
            // treating each size_t as a pair of ulong.
            ulong h1 = cast(ulong) hash;
            ulong h2 = cast(ulong) (hash >> 64);
            enum ulong c1 = 0x87c37b91114253d5UL;
            enum ulong c2 = 0x4cf5ad432745937fUL;
            foreach (x; key)
            {
                auto k1 = cast(ulong) x;
                auto k2 = cast(ulong) (x >> 64);
                k1 *= c1; k1 = (k1 << 32) | (k1 >> (64 - 31)); k1 *= c2; h1 ^= k1;
                h1 = (h1 << 27) | (h1 >> (64 - 27)); h1 += h2; h1 = h1*5+0x52dce729;
                k2 *= c2; k2 = (k2 << 33) | (k2 >> (64 - 33)); k2 *= c1; h2 ^= k2;
                h2 = (h2 << 31) | (h2 >> (64 - 31)); h2 += h1; h2 = h2*5+0x38495ab5;
            }
            hash = cast(size_t) h1 + ((cast(size_t) h2) << 64);
        }
        else
        {
            static assert(0, "Hash length must be either 32, 64, or 128 bits.");
        }
    }
    static if (size_t.sizeof != uint.sizeof)
    void add(scope const uint[] key) @nogc nothrow pure @trusted
    {
        static if (size_t.sizeof == 8)
        {
            // Partial 32-bit MurmurHash64B (no finalization)
            enum uint m = 0x5bd1e995;
            enum r = 24;
            uint h1 = cast(uint) hash;
            uint h2 = cast(uint) (hash >> 32);
            const(uint)* data = key.ptr;
            auto len = key.length;
            for (; len >= 2; data += 2, len -= 2)
            {
                uint k1 = data[0];
                k1 *= m; k1 ^= k1 >> r; k1 *= m;
                h1 *= m; h1 ^= k1;
                uint k2 = data[1];
                k2 *= m; k2 ^= k2 >> r; k2 *= m;
                h2 *= m; h2 ^= k2;
            }
            if (len)
            {
                uint k1 = data[0];
                k1 *= m; k1 ^= k1 >> r; k1 *= m;
                h1 *= m; h1 ^= k1;
            }
            hash = cast(ulong) h1 + ((cast(ulong) h2) << 32);
        }
        else static if (size_t.sizeof == 16)
        {
            // Partial MurmurHash3_x86_128 (no finalization)
            enum uint c1 = 0x239b961b;
            enum uint c2 = 0xab0e9789;
            enum uint c3 = 0x38b34ae5;
            enum uint c4 = 0xa1e38b93;
            uint h1 = cast(uint) hash;
            uint h2 = cast(uint) (hash >> 32);
            uint h3 = cast(uint) (hash >> 64);
            uint h4 = cast(uint) (hash >> 96);
            const(uint)* data = key.ptr;
            auto len = key.length;
            for (; len >= 4; data += 4, len -= 4)
            {
                uint k1 = data[0];
                uint k2 = data[1];
                uint k3 = data[2];
                uint k4 = data[3];
                h1 = (h1 << 19) | (h1 >> (32 - 19)); h1 += h2; h1 = h1*5+0x561ccd1b;
                k2 *= c2; k2 = (k2 << 16) | (k2 >> (32 - 16)); k2 *= c3; h2 ^= k2;
                h2 = (h2 << 17) | (h2 >> (32 - 17)); h2 += h3; h2 = h2*5+0x0bcaa747;
                k3 *= c3; k3 = (k3 << 17) | (k3 >> (32 - 17)); k3 *= c4; h3 ^= k3;
                h3 = (h3 << 15) | (h3 >> (32 - 15)); h3 += h4; h3 = h3*5+0x96cd1c35;
                k4 *= c4; k4 = (k4 << 18) | (k4 >> (32 - 18)); k4 *= c1; h4 ^= k4;
                h4 = (h4 << 13) | (h4 >> (32 - 13)); h4 += h1; h4 = h4*5+0x32ac3b17;
            }
            uint k1, k2, k3;
            switch (len) // 0, 1, 2, 3
            {
                case 3:
                    k3 = data[2];
                    k3 *= c3; k3 = (k3 << 17) | (k3 >> (32 - 17)); k3 *= c4; h3 ^= k3;
                    goto case;
                case 2:
                    k2 = data[1];
                    k2 *= c2; k2 = (k2 << 16) | (k2 >> (32 - 16)); k2 *= c3; h2 ^= k2;
                    goto case;
                case 1:
                    k1 = data[0];
                    k1 *= c1; k1 = (k1 << 15) | (k1 >> (32 - 15)); k1 *= c2; h1 ^= k1;
                    break;
            }
            hash = cast(size_t) h1 +
                   ((cast(size_t) h2) << 32) +
                   ((cast(size_t) h3) << 64) +
                   ((cast(size_t) h4) << 96);
        }
        else
        {
            static assert(0, "Hash length must be either 32, 64, or 128 bits.");
        }
    }
 }
 /**
@ -92,7 +272,8 @@ private struct FNV
 * For pointers and for scalar types implicitly convertible to `size_t` this
 * is an identity operation (i.e. the value is cast to `size_t` and returned
 * unaltered). Integer types wider than `size_t` are XOR folded down to
- * `size_t`. Other scalar types use the FNV-1a (Fowler-Noll-Vo) hash function.
+ * `size_t`. Other scalar types use an architecture-dependent hash function
 * based on their width and alignment.
 * If the type provides a `toHash`-function, only `toHash()` is called and its
 * result is returned.
 *
@ -128,515 +309,12 @@ size_t hash(T)(auto ref T key)
    }
    else
    {
-        FNV fnv;
+        Hasher hasher;
-        fnv(key);
+        hasher(key);
-        return fnv.hash;
+        return hasher.hash;
    }
 }
 version (unittest)
 {
    enum string r10(string x) = x ~ x ~ x ~ x ~ x ~ x ~ x ~ x ~ x ~ x;
    enum string r100(string x) = r10!x ~ r10!x ~ r10!x ~ r10!x ~ r10!x
                               ~ r10!x ~ r10!x ~ r10!x ~ r10!x ~ r10!x;
    enum string r500(string x) = r100!x ~ r100!x ~ r100!x ~ r100!x ~ r100!x;
    private static struct ToHash
    {
        size_t toHash() const @nogc nothrow pure @safe
        {
            return 0;
        }
    }
    private static struct HashRange
    {
        string fo = "fo";
        @property ubyte front() const @nogc nothrow pure @safe
        {
            return this.fo[0];
        }
        void popFront() @nogc nothrow pure @safe
        {
            this.fo = this.fo[1 .. $];
        }
        @property bool empty() const @nogc nothrow pure @safe
        {
            return this.fo.length == 0;
        }
    }
    private static struct ToHashRange
    {
        bool empty_;
        @property ToHash front() const @nogc nothrow pure @safe
        {
            return ToHash();
        }
        void popFront() @nogc nothrow pure @safe
        {
            this.empty_ = true;
        }
         @property bool empty() const @nogc nothrow pure @safe
         {
             return this.empty_;
         }
    }
 }
 // Tests that work for any hash size
@nogc nothrow pure @safe unittest
 {
    assert(hash(null) == 0);
    assert(hash(ToHash()) == 0U);
    assert(hash('a') == 'a');
 }
 static if (size_t.sizeof == 4) @nogc nothrow pure @safe unittest
 {
    assert(hash(HashRange()) == 0x6222e842U);
    assert(hash(ToHashRange()) == 1268118805U);
 }
 static if (size_t.sizeof == 8) @nogc nothrow pure @safe unittest
 {
    assert(hash(HashRange()) == 0x08985907b541d342UL);
    assert(hash(ToHashRange()) == 12161962213042174405UL);
 }
 static if (size_t.sizeof == 4) @nogc nothrow pure @system unittest
 {
    assert(hash(cast(void*) 0x6e6f6863) == 0x6e6f6863);
 }
 static if (size_t.sizeof == 8) @nogc nothrow pure @system unittest
 {
    assert(hash(cast(void*) 0x77206f676e6f6863) == 0x77206f676e6f6863);
 }
 /*
 * These are official FNV-1a test vectors and they are in the public domain.
 */
 // FNV-1a 32 bit test vectors
 static if (size_t.sizeof == 4) @nogc nothrow pure @safe unittest
 {
    assert(hash("") == 0x811c9dc5U);
    assert(hash("a") == 0xe40c292cU);
    assert(hash("b") == 0xe70c2de5U);
    assert(hash("c") == 0xe60c2c52U);
    assert(hash("d") == 0xe10c2473U);
    assert(hash("e") == 0xe00c22e0U);
    assert(hash("f") == 0xe30c2799U);
    assert(hash("fo") == 0x6222e842U);
    assert(hash("foo") == 0xa9f37ed7U);
    assert(hash("foob") == 0x3f5076efU);
    assert(hash("fooba") == 0x39aaa18aU);
    assert(hash("foobar") == 0xbf9cf968U);
    assert(hash("\0") == 0x050c5d1fU);
    assert(hash("a\0") == 0x2b24d044U);
    assert(hash("b\0") == 0x9d2c3f7fU);
    assert(hash("c\0") == 0x7729c516U);
    assert(hash("d\0") == 0xb91d6109U);
    assert(hash("e\0") == 0x931ae6a0U);
    assert(hash("f\0") == 0x052255dbU);
    assert(hash("fo\0") == 0xbef39fe6U);
    assert(hash("foo\0") == 0x6150ac75U);
    assert(hash("foob\0") == 0x9aab3a3dU);
    assert(hash("fooba\0") == 0x519c4c3eU);
    assert(hash("foobar\0") == 0x0c1c9eb8U);
    assert(hash("ch") == 0x5f299f4eU);
    assert(hash("cho") == 0xef8580f3U);
    assert(hash("chon") == 0xac297727U);
    assert(hash("chong") == 0x4546b9c0U);
    assert(hash("chongo") == 0xbd564e7dU);
    assert(hash("chongo ") == 0x6bdd5c67U);
    assert(hash("chongo w") == 0xdd77ed30U);
    assert(hash("chongo wa") == 0xf4ca9683U);
    assert(hash("chongo was") == 0x4aeb9bd0U);
    assert(hash("chongo was ") == 0xe0e67ad0U);
    assert(hash("chongo was h") == 0xc2d32fa8U);
    assert(hash("chongo was he") == 0x7f743fb7U);
    assert(hash("chongo was her") == 0x6900631fU);
    assert(hash("chongo was here") == 0xc59c990eU);
    assert(hash("chongo was here!") == 0x448524fdU);
    assert(hash("chongo was here!\n") == 0xd49930d5U);
    assert(hash("ch\0") == 0x1c85c7caU);
    assert(hash("cho\0") == 0x0229fe89U);
    assert(hash("chon\0") == 0x2c469265U);
    assert(hash("chong\0") == 0xce566940U);
    assert(hash("chongo\0") == 0x8bdd8ec7U);
    assert(hash("chongo \0") == 0x34787625U);
    assert(hash("chongo w\0") == 0xd3ca6290U);
    assert(hash("chongo wa\0") == 0xddeaf039U);
    assert(hash("chongo was\0") == 0xc0e64870U);
    assert(hash("chongo was \0") == 0xdad35570U);
    assert(hash("chongo was h\0") == 0x5a740578U);
    assert(hash("chongo was he\0") == 0x5b004d15U);
    assert(hash("chongo was her\0") == 0x6a9c09cdU);
    assert(hash("chongo was here\0") == 0x2384f10aU);
    assert(hash("chongo was here!\0") == 0xda993a47U);
    assert(hash("chongo was here!\n\0") == 0x8227df4fU);
    assert(hash("cu") == 0x4c298165U);
    assert(hash("cur") == 0xfc563735U);
    assert(hash("curd") == 0x8cb91483U);
    assert(hash("curds") == 0x775bf5d0U);
    assert(hash("curds ") == 0xd5c428d0U);
    assert(hash("curds a") == 0x34cc0ea3U);
    assert(hash("curds an") == 0xea3b4cb7U);
    assert(hash("curds and") == 0x8e59f029U);
    assert(hash("curds and ") == 0x2094de2bU);
    assert(hash("curds and w") == 0xa65a0ad4U);
    assert(hash("curds and wh") == 0x9bbee5f4U);
    assert(hash("curds and whe") == 0xbe836343U);
    assert(hash("curds and whey") == 0x22d5344eU);
    assert(hash("curds and whey\n") == 0x19a1470cU);
    assert(hash("cu\0") == 0x4a56b1ffU);
    assert(hash("cur\0") == 0x70b8e86fU);
    assert(hash("curd\0") == 0x0a5b4a39U);
    assert(hash("curds\0") == 0xb5c3f670U);
    assert(hash("curds \0") == 0x53cc3f70U);
    assert(hash("curds a\0") == 0xc03b0a99U);
    assert(hash("curds an\0") == 0x7259c415U);
    assert(hash("curds and\0") == 0x4095108bU);
    assert(hash("curds and \0") == 0x7559bdb1U);
    assert(hash("curds and w\0") == 0xb3bf0bbcU);
    assert(hash("curds and wh\0") == 0x2183ff1cU);
    assert(hash("curds and whe\0") == 0x2bd54279U);
    assert(hash("curds and whey\0") == 0x23a156caU);
    assert(hash("curds and whey\n\0") == 0x64e2d7e4U);
    assert(hash("hi") == 0x683af69aU);
    assert(hash("hi\0") == 0xaed2346eU);
    assert(hash("hello") == 0x4f9f2cabU);
    assert(hash("hello\0") == 0x02935131U);
    assert(hash("\xff\x00\x00\x01") == 0xc48fb86dU);
    assert(hash("\x01\x00\x00\xff") == 0x2269f369U);
    assert(hash("\xff\x00\x00\x02") == 0xc18fb3b4U);
    assert(hash("\x02\x00\x00\xff") == 0x50ef1236U);
    assert(hash("\xff\x00\x00\x03") == 0xc28fb547U);
    assert(hash("\x03\x00\x00\xff") == 0x96c3bf47U);
    assert(hash("\xff\x00\x00\x04") == 0xbf8fb08eU);
    assert(hash("\x04\x00\x00\xff") == 0xf3e4d49cU);
    assert(hash("\x40\x51\x4e\x44") == 0x32179058U);
    assert(hash("\x44\x4e\x51\x40") == 0x280bfee6U);
    assert(hash("\x40\x51\x4e\x4a") == 0x30178d32U);
    assert(hash("\x4a\x4e\x51\x40") == 0x21addaf8U);
    assert(hash("\x40\x51\x4e\x54") == 0x4217a988U);
    assert(hash("\x54\x4e\x51\x40") == 0x772633d6U);
    assert(hash("127.0.0.1") == 0x08a3d11eU);
    assert(hash("127.0.0.1\0") == 0xb7e2323aU);
    assert(hash("127.0.0.2") == 0x07a3cf8bU);
    assert(hash("127.0.0.2\0") == 0x91dfb7d1U);
    assert(hash("127.0.0.3") == 0x06a3cdf8U);
    assert(hash("127.0.0.3\0") == 0x6bdd3d68U);
    assert(hash("64.81.78.68") == 0x1d5636a7U);
    assert(hash("64.81.78.68\0") == 0xd5b808e5U);
    assert(hash("64.81.78.74") == 0x1353e852U);
    assert(hash("64.81.78.74\0") == 0xbf16b916U);
    assert(hash("64.81.78.84") == 0xa55b89edU);
    assert(hash("64.81.78.84\0") == 0x3c1a2017U);
    assert(hash("feedface") == 0x0588b13cU);
    assert(hash("feedface\0") == 0xf22f0174U);
    assert(hash("feedfacedaffdeed") == 0xe83641e1U);
    assert(hash("feedfacedaffdeed\0") == 0x6e69b533U);
    assert(hash("feedfacedeadbeef") == 0xf1760448U);
    assert(hash("feedfacedeadbeef\0") == 0x64c8bd58U);
    assert(hash("line 1\nline 2\nline 3") == 0x97b4ea23U);
    assert(hash("chongo <Landon Curt Noll> /\\../\\") == 0x9a4e92e6U);
    assert(hash("chongo <Landon Curt Noll> /\\../\\\0") == 0xcfb14012U);
    assert(hash("chongo (Landon Curt Noll) /\\../\\") == 0xf01b2511U);
    assert(hash("chongo (Landon Curt Noll) /\\../\\\0") == 0x0bbb59c3U);
    assert(hash("http://antwrp.gsfc.nasa.gov/apod/astropix.html") == 0xce524afaU);
    assert(hash("http://en.wikipedia.org/wiki/Fowler_Noll_Vo_hash") == 0xdd16ef45U);
    assert(hash("http://epod.usra.edu/") == 0x60648bb3U);
    assert(hash("http://exoplanet.eu/") == 0x7fa4bcfcU);
    assert(hash("http://hvo.wr.usgs.gov/cam3/") == 0x5053ae17U);
    assert(hash("http://hvo.wr.usgs.gov/cams/HMcam/") == 0xc9302890U);
    assert(hash("http://hvo.wr.usgs.gov/kilauea/update/deformation.html") == 0x956ded32U);
    assert(hash("http://hvo.wr.usgs.gov/kilauea/update/images.html") == 0x9136db84U);
    assert(hash("http://hvo.wr.usgs.gov/kilauea/update/maps.html") == 0xdf9d3323U);
    assert(hash("http://hvo.wr.usgs.gov/volcanowatch/current_issue.html") == 0x32bb6cd0U);
    assert(hash("http://neo.jpl.nasa.gov/risk/") == 0xc8f8385bU);
    assert(hash("http://norvig.com/21-days.html") == 0xeb08bfbaU);
    assert(hash("http://primes.utm.edu/curios/home.php") == 0x62cc8e3dU);
    assert(hash("http://slashdot.org/") == 0xc3e20f5cU);
    assert(hash("http://tux.wr.usgs.gov/Maps/155.25-19.5.html") == 0x39e97f17U);
    assert(hash("http://volcano.wr.usgs.gov/kilaueastatus.php") == 0x7837b203U);
    assert(hash("http://www.avo.alaska.edu/activity/Redoubt.php") == 0x319e877bU);
    assert(hash("http://www.dilbert.com/fast/") == 0xd3e63f89U);
    assert(hash("http://www.fourmilab.ch/gravitation/orbits/") == 0x29b50b38U);
    assert(hash("http://www.fpoa.net/") == 0x5ed678b8U);
    assert(hash("http://www.ioccc.org/index.html") == 0xb0d5b793U);
    assert(hash("http://www.isthe.com/cgi-bin/number.cgi") == 0x52450be5U);
    assert(hash("http://www.isthe.com/chongo/bio.html") == 0xfa72d767U);
    assert(hash("http://www.isthe.com/chongo/index.html") == 0x95066709U);
    assert(hash("http://www.isthe.com/chongo/src/calc/lucas-calc") == 0x7f52e123U);
    assert(hash("http://www.isthe.com/chongo/tech/astro/venus2004.html") == 0x76966481U);
    assert(hash("http://www.isthe.com/chongo/tech/astro/vita.html") == 0x063258b0U);
    assert(hash("http://www.isthe.com/chongo/tech/comp/c/expert.html") == 0x2ded6e8aU);
    assert(hash("http://www.isthe.com/chongo/tech/comp/calc/index.html") == 0xb07d7c52U);
    assert(hash("http://www.isthe.com/chongo/tech/comp/fnv/index.html") == 0xd0c71b71U);
    assert(hash("http://www.isthe.com/chongo/tech/math/number/howhigh.html") == 0xf684f1bdU);
    assert(hash("http://www.isthe.com/chongo/tech/math/number/number.html") == 0x868ecfa8U);
    assert(hash("http://www.isthe.com/chongo/tech/math/prime/mersenne.html") == 0xf794f684U);
    assert(hash("http://www.isthe.com/chongo/tech/math/prime/mersenne.html#largest") == 0xd19701c3U);
    assert(hash("http://www.lavarnd.org/cgi-bin/corpspeak.cgi") == 0x346e171eU);
    assert(hash("http://www.lavarnd.org/cgi-bin/haiku.cgi") == 0x91f8f676U);
    assert(hash("http://www.lavarnd.org/cgi-bin/rand-none.cgi") == 0x0bf58848U);
    assert(hash("http://www.lavarnd.org/cgi-bin/randdist.cgi") == 0x6317b6d1U);
    assert(hash("http://www.lavarnd.org/index.html") == 0xafad4c54U);
    assert(hash("http://www.lavarnd.org/what/nist-test.html") == 0x0f25681eU);
    assert(hash("http://www.macosxhints.com/") == 0x91b18d49U);
    assert(hash("http://www.mellis.com/") == 0x7d61c12eU);
    assert(hash("http://www.nature.nps.gov/air/webcams/parks/havoso2alert/havoalert.cfm") == 0x5147d25cU);
    assert(hash("http://www.nature.nps.gov/air/webcams/parks/havoso2alert/timelines_24.cfm") == 0x9a8b6805U);
    assert(hash("http://www.paulnoll.com/") == 0x4cd2a447U);
    assert(hash("http://www.pepysdiary.com/") == 0x1e549b14U);
    assert(hash("http://www.sciencenews.org/index/home/activity/view") == 0x2fe1b574U);
    assert(hash("http://www.skyandtelescope.com/") == 0xcf0cd31eU);
    assert(hash("http://www.sput.nl/~rob/sirius.html") == 0x6c471669U);
    assert(hash("http://www.systemexperts.com/") == 0x0e5eef1eU);
    assert(hash("http://www.tq-international.com/phpBB3/index.php") == 0x2bed3602U);
    assert(hash("http://www.travelquesttours.com/index.htm") == 0xb26249e0U);
    assert(hash("http://www.wunderground.com/global/stations/89606.html") == 0x2c9b86a4U);
    assert(hash(r10!"21701") == 0xe415e2bbU);
    assert(hash(r10!"M21701") == 0x18a98d1dU);
    assert(hash(r10!"2^21701-1") == 0xb7df8b7bU);
    assert(hash(r10!"\x54\xc5") == 0x241e9075U);
    assert(hash(r10!"\xc5\x54") == 0x063f70ddU);
    assert(hash(r10!"23209") == 0x0295aed9U);
    assert(hash(r10!"M23209") == 0x56a7f781U);
    assert(hash(r10!"2^23209-1") == 0x253bc645U);
    assert(hash(r10!"\x5a\xa9") == 0x46610921U);
    assert(hash(r10!"\xa9\x5a") == 0x7c1577f9U);
    assert(hash(r10!"391581216093") == 0x512b2851U);
    assert(hash(r10!"391581*2^216093-1") == 0x76823999U);
    assert(hash(r10!"\x05\xf9\x9d\x03\x4c\x81") == 0xc0586935U);
    assert(hash(r10!"FEDCBA9876543210") == 0xf3415c85U);
    assert(hash(r10!"\xfe\xdc\xba\x98\x76\x54\x32\x10") == 0x0ae4ff65U);
    assert(hash(r10!"EFCDAB8967452301") == 0x58b79725U);
    assert(hash(r10!"\xef\xcd\xab\x89\x67\x45\x23\x01") == 0xdea43aa5U);
    assert(hash(r10!"0123456789ABCDEF") == 0x2bb3be35U);
    assert(hash(r10!"\x01\x23\x45\x67\x89\xab\xcd\xef") == 0xea777a45U);
    assert(hash(r10!"1032547698BADCFE") == 0x8f21c305U);
    assert(hash(r10!"\x10\x32\x54\x76\x98\xba\xdc\xfe") == 0x5c9d0865U);
    assert(hash(r500!"\x00") == 0xfa823dd5U);
    assert(hash(r500!"\x07") == 0x21a27271U);
    assert(hash(r500!"~") == 0x83c5c6d5U);
    assert(hash(r500!"\x7f") == 0x813b0881U);
 }
 // FNV-1a 64 bit test vectors
 static if (size_t.sizeof == 8) @nogc nothrow pure @safe unittest
 {
    assert(hash("") == 0xcbf29ce484222325UL);
    assert(hash("a") == 0xaf63dc4c8601ec8cUL);
    assert(hash("b") == 0xaf63df4c8601f1a5UL);
    assert(hash("c") == 0xaf63de4c8601eff2UL);
    assert(hash("d") == 0xaf63d94c8601e773UL);
    assert(hash("e") == 0xaf63d84c8601e5c0UL);
    assert(hash("f") == 0xaf63db4c8601ead9UL);
    assert(hash("fo") == 0x08985907b541d342UL);
    assert(hash("foo") == 0xdcb27518fed9d577UL);
    assert(hash("foob") == 0xdd120e790c2512afUL);
    assert(hash("fooba") == 0xcac165afa2fef40aUL);
    assert(hash("foobar") == 0x85944171f73967e8UL);
    assert(hash("\0") == 0xaf63bd4c8601b7dfUL);
    assert(hash("a\0") == 0x089be207b544f1e4UL);
    assert(hash("b\0") == 0x08a61407b54d9b5fUL);
    assert(hash("c\0") == 0x08a2ae07b54ab836UL);
    assert(hash("d\0") == 0x0891b007b53c4869UL);
    assert(hash("e\0") == 0x088e4a07b5396540UL);
    assert(hash("f\0") == 0x08987c07b5420ebbUL);
    assert(hash("fo\0") == 0xdcb28a18fed9f926UL);
    assert(hash("foo\0") == 0xdd1270790c25b935UL);
    assert(hash("foob\0") == 0xcac146afa2febf5dUL);
    assert(hash("fooba\0") == 0x8593d371f738acfeUL);
    assert(hash("foobar\0") == 0x34531ca7168b8f38UL);
    assert(hash("ch") == 0x08a25607b54a22aeUL);
    assert(hash("cho") == 0xf5faf0190cf90df3UL);
    assert(hash("chon") == 0xf27397910b3221c7UL);
    assert(hash("chong") == 0x2c8c2b76062f22e0UL);
    assert(hash("chongo") == 0xe150688c8217b8fdUL);
    assert(hash("chongo ") == 0xf35a83c10e4f1f87UL);
    assert(hash("chongo w") == 0xd1edd10b507344d0UL);
    assert(hash("chongo wa") == 0x2a5ee739b3ddb8c3UL);
    assert(hash("chongo was") == 0xdcfb970ca1c0d310UL);
    assert(hash("chongo was ") == 0x4054da76daa6da90UL);
    assert(hash("chongo was h") == 0xf70a2ff589861368UL);
    assert(hash("chongo was he") == 0x4c628b38aed25f17UL);
    assert(hash("chongo was her") == 0x9dd1f6510f78189fUL);
    assert(hash("chongo was here") == 0xa3de85bd491270ceUL);
    assert(hash("chongo was here!") == 0x858e2fa32a55e61dUL);
    assert(hash("chongo was here!\n") == 0x46810940eff5f915UL);
    assert(hash("ch\0") == 0xf5fadd190cf8edaaUL);
    assert(hash("cho\0") == 0xf273ed910b32b3e9UL);
    assert(hash("chon\0") == 0x2c8c5276062f6525UL);
    assert(hash("chong\0") == 0xe150b98c821842a0UL);
    assert(hash("chongo\0") == 0xf35aa3c10e4f55e7UL);
    assert(hash("chongo \0") == 0xd1ed680b50729265UL);
    assert(hash("chongo w\0") == 0x2a5f0639b3dded70UL);
    assert(hash("chongo wa\0") == 0xdcfbaa0ca1c0f359UL);
    assert(hash("chongo was\0") == 0x4054ba76daa6a430UL);
    assert(hash("chongo was \0") == 0xf709c7f5898562b0UL);
    assert(hash("chongo was h\0") == 0x4c62e638aed2f9b8UL);
    assert(hash("chongo was he\0") == 0x9dd1a8510f779415UL);
    assert(hash("chongo was her\0") == 0xa3de2abd4911d62dUL);
    assert(hash("chongo was here\0") == 0x858e0ea32a55ae0aUL);
    assert(hash("chongo was here!\0") == 0x46810f40eff60347UL);
    assert(hash("chongo was here!\n\0") == 0xc33bce57bef63eafUL);
    assert(hash("cu") == 0x08a24307b54a0265UL);
    assert(hash("cur") == 0xf5b9fd190cc18d15UL);
    assert(hash("curd") == 0x4c968290ace35703UL);
    assert(hash("curds") == 0x07174bd5c64d9350UL);
    assert(hash("curds ") == 0x5a294c3ff5d18750UL);
    assert(hash("curds a") == 0x05b3c1aeb308b843UL);
    assert(hash("curds an") == 0xb92a48da37d0f477UL);
    assert(hash("curds and") == 0x73cdddccd80ebc49UL);
    assert(hash("curds and ") == 0xd58c4c13210a266bUL);
    assert(hash("curds and w") == 0xe78b6081243ec194UL);
    assert(hash("curds and wh") == 0xb096f77096a39f34UL);
    assert(hash("curds and whe") == 0xb425c54ff807b6a3UL);
    assert(hash("curds and whey") == 0x23e520e2751bb46eUL);
    assert(hash("curds and whey\n") == 0x1a0b44ccfe1385ecUL);
    assert(hash("cu\0") == 0xf5ba4b190cc2119fUL);
    assert(hash("cur\0") == 0x4c962690ace2baafUL);
    assert(hash("curd\0") == 0x0716ded5c64cda19UL);
    assert(hash("curds\0") == 0x5a292c3ff5d150f0UL);
    assert(hash("curds \0") == 0x05b3e0aeb308ecf0UL);
    assert(hash("curds a\0") == 0xb92a5eda37d119d9UL);
    assert(hash("curds an\0") == 0x73ce41ccd80f6635UL);
    assert(hash("curds and\0") == 0xd58c2c132109f00bUL);
    assert(hash("curds and \0") == 0xe78baf81243f47d1UL);
    assert(hash("curds and w\0") == 0xb0968f7096a2ee7cUL);
    assert(hash("curds and wh\0") == 0xb425a84ff807855cUL);
    assert(hash("curds and whe\0") == 0x23e4e9e2751b56f9UL);
    assert(hash("curds and whey\0") == 0x1a0b4eccfe1396eaUL);
    assert(hash("curds and whey\n\0") == 0x54abd453bb2c9004UL);
    assert(hash("hi") == 0x08ba5f07b55ec3daUL);
    assert(hash("hi\0") == 0x337354193006cb6eUL);
    assert(hash("hello") == 0xa430d84680aabd0bUL);
    assert(hash("hello\0") == 0xa9bc8acca21f39b1UL);
    assert(hash("\xff\x00\x00\x01") == 0x6961196491cc682dUL);
    assert(hash("\x01\x00\x00\xff") == 0xad2bb1774799dfe9UL);
    assert(hash("\xff\x00\x00\x02") == 0x6961166491cc6314UL);
    assert(hash("\x02\x00\x00\xff") == 0x8d1bb3904a3b1236UL);
    assert(hash("\xff\x00\x00\x03") == 0x6961176491cc64c7UL);
    assert(hash("\x03\x00\x00\xff") == 0xed205d87f40434c7UL);
    assert(hash("\xff\x00\x00\x04") == 0x6961146491cc5faeUL);
    assert(hash("\x04\x00\x00\xff") == 0xcd3baf5e44f8ad9cUL);
    assert(hash("\x40\x51\x4e\x44") == 0xe3b36596127cd6d8UL);
    assert(hash("\x44\x4e\x51\x40") == 0xf77f1072c8e8a646UL);
    assert(hash("\x40\x51\x4e\x4a") == 0xe3b36396127cd372UL);
    assert(hash("\x4a\x4e\x51\x40") == 0x6067dce9932ad458UL);
    assert(hash("\x40\x51\x4e\x54") == 0xe3b37596127cf208UL);
    assert(hash("\x54\x4e\x51\x40") == 0x4b7b10fa9fe83936UL);
    assert(hash("127.0.0.1") == 0xaabafe7104d914beUL);
    assert(hash("127.0.0.1\0") == 0xf4d3180b3cde3edaUL);
    assert(hash("127.0.0.2") == 0xaabafd7104d9130bUL);
    assert(hash("127.0.0.2\0") == 0xf4cfb20b3cdb5bb1UL);
    assert(hash("127.0.0.3") == 0xaabafc7104d91158UL);
    assert(hash("127.0.0.3\0") == 0xf4cc4c0b3cd87888UL);
    assert(hash("64.81.78.68") == 0xe729bac5d2a8d3a7UL);
    assert(hash("64.81.78.68\0") == 0x74bc0524f4dfa4c5UL);
    assert(hash("64.81.78.74") == 0xe72630c5d2a5b352UL);
    assert(hash("64.81.78.74\0") == 0x6b983224ef8fb456UL);
    assert(hash("64.81.78.84") == 0xe73042c5d2ae266dUL);
    assert(hash("64.81.78.84\0") == 0x8527e324fdeb4b37UL);
    assert(hash("feedface") == 0x0a83c86fee952abcUL);
    assert(hash("feedface\0") == 0x7318523267779d74UL);
    assert(hash("feedfacedaffdeed") == 0x3e66d3d56b8caca1UL);
    assert(hash("feedfacedaffdeed\0") == 0x956694a5c0095593UL);
    assert(hash("feedfacedeadbeef") == 0xcac54572bb1a6fc8UL);
    assert(hash("feedfacedeadbeef\0") == 0xa7a4c9f3edebf0d8UL);
    assert(hash("line 1\nline 2\nline 3") == 0x7829851fac17b143UL);
    assert(hash("chongo <Landon Curt Noll> /\\../\\") == 0x2c8f4c9af81bcf06UL);
    assert(hash("chongo <Landon Curt Noll> /\\../\\\0") == 0xd34e31539740c732UL);
    assert(hash("chongo (Landon Curt Noll) /\\../\\") == 0x3605a2ac253d2db1UL);
    assert(hash("chongo (Landon Curt Noll) /\\../\\\0") == 0x08c11b8346f4a3c3UL);
    assert(hash("http://antwrp.gsfc.nasa.gov/apod/astropix.html") == 0x6be396289ce8a6daUL);
    assert(hash("http://en.wikipedia.org/wiki/Fowler_Noll_Vo_hash") == 0xd9b957fb7fe794c5UL);
    assert(hash("http://epod.usra.edu/") == 0x05be33da04560a93UL);
    assert(hash("http://exoplanet.eu/") == 0x0957f1577ba9747cUL);
    assert(hash("http://hvo.wr.usgs.gov/cam3/") == 0xda2cc3acc24fba57UL);
    assert(hash("http://hvo.wr.usgs.gov/cams/HMcam/") == 0x74136f185b29e7f0UL);
    assert(hash("http://hvo.wr.usgs.gov/kilauea/update/deformation.html") == 0xb2f2b4590edb93b2UL);
    assert(hash("http://hvo.wr.usgs.gov/kilauea/update/images.html") == 0xb3608fce8b86ae04UL);
    assert(hash("http://hvo.wr.usgs.gov/kilauea/update/maps.html") == 0x4a3a865079359063UL);
    assert(hash("http://hvo.wr.usgs.gov/volcanowatch/current_issue.html") == 0x5b3a7ef496880a50UL);
    assert(hash("http://neo.jpl.nasa.gov/risk/") == 0x48fae3163854c23bUL);
    assert(hash("http://norvig.com/21-days.html") == 0x07aaa640476e0b9aUL);
    assert(hash("http://primes.utm.edu/curios/home.php") == 0x2f653656383a687dUL);
    assert(hash("http://slashdot.org/") == 0xa1031f8e7599d79cUL);
    assert(hash("http://tux.wr.usgs.gov/Maps/155.25-19.5.html") == 0xa31908178ff92477UL);
    assert(hash("http://volcano.wr.usgs.gov/kilaueastatus.php") == 0x097edf3c14c3fb83UL);
    assert(hash("http://www.avo.alaska.edu/activity/Redoubt.php") == 0xb51ca83feaa0971bUL);
    assert(hash("http://www.dilbert.com/fast/") == 0xdd3c0d96d784f2e9UL);
    assert(hash("http://www.fourmilab.ch/gravitation/orbits/") == 0x86cd26a9ea767d78UL);
    assert(hash("http://www.fpoa.net/") == 0xe6b215ff54a30c18UL);
    assert(hash("http://www.ioccc.org/index.html") == 0xec5b06a1c5531093UL);
    assert(hash("http://www.isthe.com/cgi-bin/number.cgi") == 0x45665a929f9ec5e5UL);
    assert(hash("http://www.isthe.com/chongo/bio.html") == 0x8c7609b4a9f10907UL);
    assert(hash("http://www.isthe.com/chongo/index.html") == 0x89aac3a491f0d729UL);
    assert(hash("http://www.isthe.com/chongo/src/calc/lucas-calc") == 0x32ce6b26e0f4a403UL);
    assert(hash("http://www.isthe.com/chongo/tech/astro/venus2004.html") == 0x614ab44e02b53e01UL);
    assert(hash("http://www.isthe.com/chongo/tech/astro/vita.html") == 0xfa6472eb6eef3290UL);
    assert(hash("http://www.isthe.com/chongo/tech/comp/c/expert.html") == 0x9e5d75eb1948eb6aUL);
    assert(hash("http://www.isthe.com/chongo/tech/comp/calc/index.html") == 0xb6d12ad4a8671852UL);
    assert(hash("http://www.isthe.com/chongo/tech/comp/fnv/index.html") == 0x88826f56eba07af1UL);
    assert(hash("http://www.isthe.com/chongo/tech/math/number/howhigh.html") == 0x44535bf2645bc0fdUL);
    assert(hash("http://www.isthe.com/chongo/tech/math/number/number.html") == 0x169388ffc21e3728UL);
    assert(hash("http://www.isthe.com/chongo/tech/math/prime/mersenne.html") == 0xf68aac9e396d8224UL);
    assert(hash("http://www.isthe.com/chongo/tech/math/prime/mersenne.html#largest") == 0x8e87d7e7472b3883UL);
    assert(hash("http://www.lavarnd.org/cgi-bin/corpspeak.cgi") == 0x295c26caa8b423deUL);
    assert(hash("http://www.lavarnd.org/cgi-bin/haiku.cgi") == 0x322c814292e72176UL);
    assert(hash("http://www.lavarnd.org/cgi-bin/rand-none.cgi") == 0x8a06550eb8af7268UL);
    assert(hash("http://www.lavarnd.org/cgi-bin/randdist.cgi") == 0xef86d60e661bcf71UL);
    assert(hash("http://www.lavarnd.org/index.html") == 0x9e5426c87f30ee54UL);
    assert(hash("http://www.lavarnd.org/what/nist-test.html") == 0xf1ea8aa826fd047eUL);
    assert(hash("http://www.macosxhints.com/") == 0x0babaf9a642cb769UL);
    assert(hash("http://www.mellis.com/") == 0x4b3341d4068d012eUL);
    assert(hash("http://www.nature.nps.gov/air/webcams/parks/havoso2alert/havoalert.cfm") == 0xd15605cbc30a335cUL);
    assert(hash("http://www.nature.nps.gov/air/webcams/parks/havoso2alert/timelines_24.cfm") == 0x5b21060aed8412e5UL);
    assert(hash("http://www.paulnoll.com/") == 0x45e2cda1ce6f4227UL);
    assert(hash("http://www.pepysdiary.com/") == 0x50ae3745033ad7d4UL);
    assert(hash("http://www.sciencenews.org/index/home/activity/view") == 0xaa4588ced46bf414UL);
    assert(hash("http://www.skyandtelescope.com/") == 0xc1b0056c4a95467eUL);
    assert(hash("http://www.sput.nl/~rob/sirius.html") == 0x56576a71de8b4089UL);
    assert(hash("http://www.systemexperts.com/") == 0xbf20965fa6dc927eUL);
    assert(hash("http://www.tq-international.com/phpBB3/index.php") == 0x569f8383c2040882UL);
    assert(hash("http://www.travelquesttours.com/index.htm") == 0xe1e772fba08feca0UL);
    assert(hash("http://www.wunderground.com/global/stations/89606.html") == 0x4ced94af97138ac4UL);
    assert(hash(r10!"21701") == 0xc4112ffb337a82fbUL);
    assert(hash(r10!"M21701") == 0xd64a4fd41de38b7dUL);
    assert(hash(r10!"2^21701-1") == 0x4cfc32329edebcbbUL);
    assert(hash(r10!"\x54\xc5") == 0x0803564445050395UL);
    assert(hash(r10!"\xc5\x54") == 0xaa1574ecf4642ffdUL);
    assert(hash(r10!"23209") == 0x694bc4e54cc315f9UL);
    assert(hash(r10!"M23209") == 0xa3d7cb273b011721UL);
    assert(hash(r10!"2^23209-1") == 0x577c2f8b6115bfa5UL);
    assert(hash(r10!"\x5a\xa9") == 0xb7ec8c1a769fb4c1UL);
    assert(hash(r10!"\xa9\x5a") == 0x5d5cfce63359ab19UL);
    assert(hash(r10!"391581216093") == 0x33b96c3cd65b5f71UL);
    assert(hash(r10!"391581*2^216093-1") == 0xd845097780602bb9UL);
    assert(hash(r10!"\x05\xf9\x9d\x03\x4c\x81") == 0x84d47645d02da3d5UL);
    assert(hash(r10!"FEDCBA9876543210") == 0x83544f33b58773a5UL);
    assert(hash(r10!"\xfe\xdc\xba\x98\x76\x54\x32\x10") == 0x9175cbb2160836c5UL);
    assert(hash(r10!"EFCDAB8967452301") == 0xc71b3bc175e72bc5UL);
    assert(hash(r10!"\xef\xcd\xab\x89\x67\x45\x23\x01") == 0x636806ac222ec985UL);
    assert(hash(r10!"0123456789ABCDEF") == 0xb6ef0e6950f52ed5UL);
    assert(hash(r10!"\x01\x23\x45\x67\x89\xab\xcd\xef") == 0xead3d8a0f3dfdaa5UL);
    assert(hash(r10!"1032547698BADCFE") == 0x922908fe9a861ba5UL);
    assert(hash(r10!"\x10\x32\x54\x76\x98\xba\xdc\xfe") == 0x6d4821de275fd5c5UL);
    assert(hash(r500!"\x00") == 0x1fe3fce62bd816b5UL);
    assert(hash(r500!"\x07") == 0xc23e9fccd6f70591UL);
    assert(hash(r500!"~") == 0xc1af12bdfe16b5b5UL);
    assert(hash(r500!"\x7f") == 0x39e9f18f2f85e221UL);
 }
 /**
 * Determines whether $(D_PARAM hasher) is hash function for $(D_PARAM T), i.e.
 * it is callable with a value of type $(D_PARAM T) and returns a
--- a/source/tanya/hash/package.d
+++ b/source/tanya/hash/package.d
@ -3,7 +3,7 @@
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
 /**
- * Copyright: Eugene Wissner 2018.
+ * Copyright: Eugene Wissner 2018-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
--- a/source/tanya/math/mp.d
+++ b/source/tanya/math/mp.d
--- a/source/tanya/math/nbtheory.d
+++ b/source/tanya/math/nbtheory.d
@ -5,7 +5,7 @@
 /**
 * Number theory.
 *
- * Copyright: Eugene Wissner 2017-2018.
+ * Copyright: Eugene Wissner 2017-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
@ -14,7 +14,6 @@
 */
 module tanya.math.nbtheory;
 import tanya.math.mp;
 import tanya.meta.trait;
 import tanya.meta.transform;
@ -91,21 +90,6 @@ if (isFloatingPoint!T)
    static assert(is(typeof(r.abs) == real));
 }
 /// ditto
 T abs(T : Integer)(const auto ref T x)
 {
    auto result = Integer(x, x.allocator);
    result.sign = Sign.positive;
    return result;
 }
 /// ditto
 T abs(T : Integer)(T x)
 {
    x.sign = Sign.positive;
    return x;
 }
 version (D_Ddoc)
 {
    /**
--- a/source/tanya/math/package.d
+++ b/source/tanya/math/package.d
@ -12,7 +12,7 @@
 * be found in its submodules. $(D_PSYMBOL tanya.math) doesn't import any
 * submodules publically, they should be imported explicitly.
 *
- * Copyright: Eugene Wissner 2016-2018.
+ * Copyright: Eugene Wissner 2016-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
@ -21,8 +21,6 @@
 */
 module tanya.math;
 import tanya.algorithm.mutation;
 import tanya.math.mp;
 import tanya.math.nbtheory;
 import tanya.meta.trait;
 import tanya.meta.transform;
@ -255,21 +253,6 @@ if (isFloatingPoint!F)
    assert(classify(-real.infinity) == FloatingPointClass.infinite);
 }
@nogc nothrow pure @safe unittest
 {
    static if (ieeePrecision!float == IEEEPrecision.doubleExtended)
    {
        assert(classify(1.68105e-10) == FloatingPointClass.normal);
        assert(classify(1.68105e-4932L) == FloatingPointClass.subnormal);
        // Emulate unnormals, because they aren't generated anymore since i386
        FloatBits!real unnormal;
        unnormal.exp = 0x123;
        unnormal.mantissa = 0x1;
        assert(classify(unnormal) == FloatingPointClass.subnormal);
    }
 }
 /**
 * Determines whether $(D_PARAM x) is a finite number.
 *
@ -564,9 +547,6 @@ if (isFloatingPoint!F)
 /**
 * Computes $(D_PARAM x) to the power $(D_PARAM y) modulo $(D_PARAM z).
 *
 * If $(D_PARAM I) is an $(D_PSYMBOL Integer), the allocator of $(D_PARAM x)
 * is used to allocate the result.
 *
 * Params:
 *  I = Base type.
 *  G = Exponent type.
@ -582,11 +562,7 @@ if (isFloatingPoint!F)
 */
 H pow(I, G, H)(in auto ref I x, in auto ref G y, in auto ref H z)
 if (isIntegral!I && isIntegral!G && isIntegral!H)
-in
+in (z > 0, "Division by zero")
 {
    assert(z > 0, "Division by zero.");
 }
 do
 {
    G mask = G.max / 2 + 1;
    H result;
@ -620,45 +596,6 @@ do
    return result;
 }
 /// ditto
 I pow(I)(const auto ref I x, const auto ref I y, const auto ref I z)
 if (is(I == Integer))
 in
 {
    assert(z.length > 0, "Division by zero.");
 }
 do
 {
    size_t i;
    auto tmp1 = Integer(x, x.allocator);
    auto result = Integer(x.allocator);
    if (x.size == 0 && y.size != 0)
    {
        i = y.size;
    }
    else
    {
        result = 1;
    }
    while (i < y.size)
    {
        for (uint mask = 0x01; mask != 0x10000000; mask <<= 1)
        {
            if (y.rep[i] & mask)
            {
                result *= tmp1;
                result %= z;
            }
            auto tmp2 = tmp1;
            tmp1 *= tmp2;
            tmp1 %= z;
        }
        ++i;
    }
    return result;
 }
 ///
@nogc nothrow pure @safe unittest
 {
@ -672,70 +609,3 @@ do
    assert(pow(0, 0, 5) == 1);
    assert(pow(0, 5, 5) == 0);
 }
 ///
@nogc nothrow pure @safe unittest
 {
    assert(pow(Integer(3), Integer(5), Integer(7)) == 5);
    assert(pow(Integer(2), Integer(2), Integer(1)) == 0);
    assert(pow(Integer(3), Integer(3), Integer(3)) == 0);
    assert(pow(Integer(7), Integer(4), Integer(2)) == 1);
    assert(pow(Integer(53), Integer(0), Integer(2)) == 1);
    assert(pow(Integer(53), Integer(1), Integer(3)) == 2);
    assert(pow(Integer(53), Integer(2), Integer(5)) == 4);
    assert(pow(Integer(0), Integer(0), Integer(5)) == 1);
    assert(pow(Integer(0), Integer(5), Integer(5)) == 0);
 }
 /**
 * Checks if $(D_PARAM x) is a prime.
 *
 * Params:
 *  x = The number should be checked.
 *
 * Returns: $(D_KEYWORD true) if $(D_PARAM x) is a prime number,
 *          $(D_KEYWORD false) otherwise.
 */
 bool isPseudoprime(ulong x) @nogc nothrow pure @safe
 {
    return pow(2, x - 1, x) == 1;
 }
 ///
@nogc nothrow pure @safe unittest
 {
    assert(74623.isPseudoprime);
    assert(104729.isPseudoprime);
    assert(15485867.isPseudoprime);
    assert(!15485868.isPseudoprime);
 }
@nogc nothrow pure @safe unittest
 {
    assert(74653.isPseudoprime);
    assert(74687.isPseudoprime);
    assert(74699.isPseudoprime);
    assert(74707.isPseudoprime);
    assert(74713.isPseudoprime);
    assert(74717.isPseudoprime);
    assert(74719.isPseudoprime);
    assert(74747.isPseudoprime);
    assert(74759.isPseudoprime);
    assert(74761.isPseudoprime);
    assert(74771.isPseudoprime);
    assert(74779.isPseudoprime);
    assert(74797.isPseudoprime);
    assert(74821.isPseudoprime);
    assert(74827.isPseudoprime);
    assert(9973.isPseudoprime);
    assert(49979693.isPseudoprime);
    assert(104395303.isPseudoprime);
    assert(593441861.isPseudoprime);
    assert(104729.isPseudoprime);
    assert(15485867.isPseudoprime);
    assert(49979693.isPseudoprime);
    assert(104395303.isPseudoprime);
    assert(593441861.isPseudoprime);
    assert(899809363.isPseudoprime);
    assert(982451653.isPseudoprime);
 }
--- a/source/tanya/math/random.d
+++ b/source/tanya/math/random.d
@ -5,7 +5,7 @@
 /**
 * Random number generator.
 *
- * Copyright: Eugene Wissner 2016-2018.
+ * Copyright: Eugene Wissner 2016-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
@ -14,12 +14,8 @@
 */
 module tanya.math.random;
-import std.digest.sha;
+import tanya.memory.allocator;
-import std.typecons;
+import tanya.typecons;
 import tanya.memory;
 /// Block size of entropy accumulator (SHA-512).
 enum blockSize = 64;
 /// Maximum amount gathered from the entropy sources.
 enum maxGather = 128;
@ -39,7 +35,7 @@ class EntropyException : Exception
    this(string msg,
         string file = __FILE__,
         size_t line = __LINE__,
-         Throwable next = null) pure @safe nothrow const @nogc
+         Throwable next = null) const @nogc nothrow pure @safe
    {
        super(msg, file, line, next);
    }
@ -56,17 +52,17 @@ abstract class EntropySource
    /**
     * Returns: Minimum bytes required from the entropy source.
     */
-    @property ubyte threshold() const pure nothrow @safe @nogc;
+    @property ubyte threshold() const @nogc nothrow pure @safe;
    /**
     * Returns: Whether this entropy source is strong.
     */
-    @property bool strong() const pure nothrow @safe @nogc;
+    @property bool strong() const @nogc nothrow pure @safe;
    /**
     * Returns: Amount of already generated entropy.
     */
-    @property ushort size() const pure nothrow @safe @nogc
+    @property ushort size() const @nogc nothrow pure @safe
    {
        return size_;
    }
@ -76,7 +72,7 @@ abstract class EntropySource
     *  size = Amount of already generated entropy. Cannot be smaller than the
     *         already set value.
     */
-    @property void size(ushort size) pure nothrow @safe @nogc
+    @property void size(ushort size) @nogc nothrow pure @safe
    {
        size_ = size;
    }
@ -89,9 +85,13 @@ abstract class EntropySource
     *           to fill the buffer).
     *
     * Returns: Number of bytes that were copied to the $(D_PARAM output)
-     *          or $(D_PSYMBOL Nullable!ubyte.init) on error.
+     *          or nothing on error.
     *
     * Postcondition: Returned length is less than or equal to
     *                $(D_PARAM output) length.
     */
-    Nullable!ubyte poll(out ubyte[maxGather] output) @nogc;
+    Option!ubyte poll(out ubyte[maxGather] output) @nogc
    out (length; length.isNothing || length.get <= maxGather);
 }
 version (CRuntime_Bionic)
@ -118,7 +118,7 @@ else version (Solaris)
 version (linux)
 {
    import core.stdc.config : c_long;
-    extern (C) c_long syscall(c_long number, ...) nothrow @system @nogc;
+    private extern(C) c_long syscall(c_long number, ...) @nogc nothrow @system;
    /**
     * Uses getrandom system call.
@ -128,7 +128,7 @@ version (linux)
        /**
         * Returns: Minimum bytes required from the entropy source.
         */
-        override @property ubyte threshold() const pure nothrow @safe @nogc
+        override @property ubyte threshold() const @nogc nothrow pure @safe
        {
            return 32;
        }
@ -136,7 +136,7 @@ version (linux)
        /**
         * Returns: Whether this entropy source is strong.
         */
-        override @property bool strong() const pure nothrow @safe @nogc
+        override @property bool strong() const @nogc nothrow pure @safe
        {
            return true;
        }
@ -149,19 +149,14 @@ version (linux)
         *           to fill the buffer).
         *
         * Returns: Number of bytes that were copied to the $(D_PARAM output)
-         *          or $(D_PSYMBOL Nullable!ubyte.init) on error.
+         *          or nothing on error.
         */
-        override Nullable!ubyte poll(out ubyte[maxGather] output) nothrow @nogc
+        override Option!ubyte poll(out ubyte[maxGather] output) @nogc nothrow
        out (length)
        {
            assert(length <= maxGather);
        }
        do
        {
            // int getrandom(void *buf, size_t buflen, unsigned int flags);
            import mir.linux._asm.unistd : NR_getrandom;
            auto length = syscall(NR_getrandom, output.ptr, output.length, 0);
-            Nullable!ubyte ret;
+            Option!ubyte ret;
            if (length >= 0)
            {
@ -170,19 +165,11 @@ version (linux)
            return ret;
        }
    }
    @nogc @system unittest
    {
        auto entropy = defaultAllocator.make!Entropy();
        ubyte[blockSize] output;
        output = entropy.random;
        defaultAllocator.dispose(entropy);
    }
 }
 else version (SecureARC4Random)
 {
-    private extern (C) void arc4random_buf(scope void* buf, size_t nbytes) nothrow @nogc @system;
+    private extern(C) void arc4random_buf(scope void* buf, size_t nbytes)
    @nogc nothrow @system;
    /**
     * Uses arc4random_buf.
@ -192,7 +179,7 @@ else version (SecureARC4Random)
        /**
         * Returns: Minimum bytes required from the entropy source.
         */
-        override @property ubyte threshold() const pure nothrow @safe @nogc
+        override @property ubyte threshold() const @nogc nothrow pure @safe
        {
            return 32;
        }
@ -200,7 +187,7 @@ else version (SecureARC4Random)
        /**
         * Returns: Whether this entropy source is strong.
         */
-        override @property bool strong() const pure nothrow @safe @nogc
+        override @property bool strong() const @nogc nothrow pure @safe
        {
            return true;
        }
@ -213,23 +200,15 @@ else version (SecureARC4Random)
         *           to fill the buffer).
         *
         * Returns: Number of bytes that were copied to the $(D_PARAM output)
-         *          or $(D_PSYMBOL Nullable!ubyte.init) on error.
+         *          or nothing on error.
         */
-        override Nullable!ubyte poll(out ubyte[maxGather] output) nothrow @nogc @safe
+        override Option!ubyte poll(out ubyte[maxGather] output)
        @nogc nothrow @safe
        {
            (() @trusted => arc4random_buf(output.ptr, output.length))();
-            return Nullable!ubyte(cast(ubyte) (output.length));
+            return Option!ubyte(cast(ubyte) (output.length));
        }
    }
    @nogc @system unittest
    {
        auto entropy = defaultAllocator.make!Entropy();
        ubyte[blockSize] output;
        output = entropy.random;
        defaultAllocator.dispose(entropy);
    }
 }
 else version (Windows)
 {
@ -248,22 +227,31 @@ else version (Windows)
        BOOL CryptReleaseContext(HCRYPTPROV, ULONG_PTR);
    }
-    private bool initCryptGenRandom(scope ref HCRYPTPROV hProvider) @nogc nothrow @trusted
+    private bool initCryptGenRandom(scope ref HCRYPTPROV hProvider)
    @nogc nothrow @trusted
    {
        // https://msdn.microsoft.com/en-us/library/windows/desktop/aa379886(v=vs.85).aspx
        // For performance reasons, we recommend that you set the pszContainer
        // parameter to NULL and the dwFlags parameter to CRYPT_VERIFYCONTEXT
        // in all situations where you do not require a persisted key.
-        // CRYPT_SILENT is intended for use with applications for which the UI cannot be displayed by the CSP.
+        // CRYPT_SILENT is intended for use with applications for which the UI
-        if (!CryptAcquireContextW(&hProvider, null, null, PROV_RSA_FULL, CRYPT_VERIFYCONTEXT | CRYPT_SILENT))
+        // cannot be displayed by the CSP.
        if (!CryptAcquireContextW(&hProvider,
                                  null,
                                  null,
                                  PROV_RSA_FULL,
                                  CRYPT_VERIFYCONTEXT | CRYPT_SILENT))
        {
-            if (GetLastError() == NTE_BAD_KEYSET)
+            if (GetLastError() != NTE_BAD_KEYSET)
            {
-                // Attempt to create default container
+                return false;
                if (!CryptAcquireContextA(&hProvider, null, null, PROV_RSA_FULL, CRYPT_NEWKEYSET | CRYPT_SILENT))
                    return false;
            }
-            else
+            // Attempt to create default container
            if (!CryptAcquireContextA(&hProvider,
                                      null,
                                      null,
                                      PROV_RSA_FULL,
                                      CRYPT_NEWKEYSET | CRYPT_SILENT))
            {
                return false;
            }
@ -299,7 +287,7 @@ else version (Windows)
        /**
         * Returns: Minimum bytes required from the entropy source.
         */
-        override @property ubyte threshold() const pure nothrow @safe @nogc
+        override @property ubyte threshold() const @nogc nothrow pure @safe
        {
            return 32;
        }
@ -307,7 +295,7 @@ else version (Windows)
        /**
         * Returns: Whether this entropy source is strong.
         */
-        override @property bool strong() const pure nothrow @safe @nogc
+        override @property bool strong() const @nogc nothrow pure @safe
        {
            return true;
        }
@ -320,16 +308,14 @@ else version (Windows)
         *           to fill the buffer).
         *
         * Returns: Number of bytes that were copied to the $(D_PARAM output)
-         *          or $(D_PSYMBOL Nullable!ubyte.init) on error.
+         *          or nothing on error.
         */
-        override Nullable!ubyte poll(out ubyte[maxGather] output) @nogc nothrow @safe
+        override Option!ubyte poll(out ubyte[maxGather] output)
-        in
+        @nogc nothrow @safe
        {
-            assert(hProvider > 0, "hProvider not properly initialized.");
+            Option!ubyte ret;
-        }
+
-        do
+            assert(hProvider > 0, "hProvider not properly initialized");
        {
            Nullable!ubyte ret;
            if ((() @trusted => CryptGenRandom(hProvider, output.length, cast(PBYTE) output.ptr))())
            {
                ret = cast(ubyte) (output.length);
@ -337,185 +323,4 @@ else version (Windows)
            return ret;
        }
    }
    @nogc @system unittest
    {
        auto entropy = defaultAllocator.make!Entropy();
        ubyte[blockSize] output;
        output = entropy.random;
        defaultAllocator.dispose(entropy);
    }
 }
 /**
 * Pseudorandom number generator.
 * ---
 * auto entropy = defaultAllocator.make!Entropy();
 *
 * ubyte[blockSize] output;
 *
 * output = entropy.random;
 *
 * defaultAllocator.dispose(entropy);
 * ---
 */
 class Entropy
 {
    /// Entropy sources.
    protected EntropySource[] sources;
    private ubyte sourceCount_;
    /// Entropy accumulator.
    protected SHA!(maxGather * 8, 512) accumulator;
    /**
     * Params:
     *  maxSources = Maximum amount of entropy sources can be set.
     *  allocator  = Allocator to allocate entropy sources available on the
     *               system.
     */
    this(const size_t maxSources = 20,
         shared Allocator allocator = defaultAllocator) @nogc
    in
    {
        assert(maxSources > 0 && maxSources <= ubyte.max);
        assert(allocator !is null);
    }
    do
    {
        allocator.resize(sources, maxSources);
        static if (is(PlatformEntropySource))
        {
            this ~= allocator.make!PlatformEntropySource;
        }
    }
    /**
     * Returns: Amount of the registered entropy sources.
     */
    @property ubyte sourceCount() const pure nothrow @safe @nogc
    {
        return sourceCount_;
    }
    /**
     * Add an entropy source.
     *
     * Params:
     *  source = Entropy source.
     *
     * Returns: $(D_PSYMBOL this).
     *
     * See_Also:
     *  $(D_PSYMBOL EntropySource)
     */
    Entropy opOpAssign(string op)(EntropySource source)
    pure nothrow @safe @nogc
    if (op == "~")
    in
    {
        assert(sourceCount_ <= sources.length);
    }
    do
    {
        sources[sourceCount_++] = source;
        return this;
    }
    /**
     * Returns: Generated random sequence.
     *
     * Throws: $(D_PSYMBOL EntropyException) if no strong entropy source was
     *         registered or it failed.
     */
    @property ubyte[blockSize] random() @nogc
    in
    {
        assert(sourceCount_ > 0, "No entropy sources defined.");
    }
    do
    {
        bool haveStrong;
        ushort done;
        ubyte[blockSize] output;
        do
        {
            ubyte[maxGather] buffer;
            // Run through our entropy sources
            for (ubyte i; i < sourceCount; ++i)
            {
                auto outputLength = sources[i].poll(buffer);
                if (!outputLength.isNull)
                {
                    if (outputLength > 0)
                    {
                        update(i, buffer, outputLength);
                        sources[i].size = cast(ushort) (sources[i].size + outputLength);
                    }
                    if (sources[i].size < sources[i].threshold)
                    {
                        continue;
                    }
                    else if (sources[i].strong)
                    {
                        haveStrong = true;
                    }
                }
                done = 257;
            }
        }
        while (++done < 256);
        if (!haveStrong)
        {
            throw defaultAllocator.make!EntropyException("No strong entropy source defined.");
        }
        output = accumulator.finish();
        // Reset accumulator and counters and recycle existing entropy
        accumulator.start();
        // Perform second SHA-512 on entropy
        output = sha512Of(output);
        for (ubyte i; i < sourceCount; ++i)
        {
            sources[i].size = 0;
        }
        return output;
    }
    /**
     * Update entropy accumulator.
     *
     * Params:
     *  sourceId = Entropy source index in $(D_PSYMBOL sources).
     *  data     = Data got from the entropy source.
     *  length   = Length of the received data.
     */
    protected void update(in ubyte sourceId,
                          ref ubyte[maxGather] data,
                          ubyte length) pure nothrow @safe @nogc
    {
        ubyte[2] header;
        if (length > blockSize)
        {
            data[0 .. 64] = sha512Of(data);
            length = blockSize;
        }
        header[0] = sourceId;
        header[1] = length;
        accumulator.put(header);
        accumulator.put(data[0 .. length]);
    }
 }
--- a/source/tanya/memory/allocator.d
+++ b/source/tanya/memory/allocator.d
@ -1,81 +0,0 @@
 /* This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
 /**
 * This module contains the interface for implementing custom allocators.
 *
 * Allocators are classes encapsulating memory allocation strategy. This allows
 * to decouple memory management from the algorithms and the data. 
 *
 * Copyright: Eugene Wissner 2016-2018.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
 * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/memory/allocator.d,
 *                 tanya/memory/allocator.d)
 */
 module tanya.memory.allocator;
 /**
 * Abstract class implementing a basic allocator.
 */
 interface Allocator
 {
    /**
     * Returns: Alignment offered.
     */
    @property uint alignment() const shared pure nothrow @safe @nogc;
    /**
     * Allocates $(D_PARAM size) bytes of memory.
     *
     * Params:
     *  size = Amount of memory to allocate.
     *
     * Returns: Pointer to the new allocated memory.
     */
    void[] allocate(size_t size) shared pure nothrow @nogc;
    /**
     * Deallocates a memory block.
     *
     * Params:
     *  p = A pointer to the memory block to be freed.
     *
     * Returns: Whether the deallocation was successful.
     */
    bool deallocate(void[] p) shared pure nothrow @nogc;
    /**
     * Increases or decreases the size of a memory block.
     *
     * Params:
     *  p    = A pointer to the memory block.
     *  size = Size of the reallocated block.
     *
     * Returns: Pointer to the allocated memory.
     */
    bool reallocate(ref void[] p, size_t size) shared pure nothrow @nogc;
    /**
     * Reallocates a memory block in place if possible or returns
     * $(D_KEYWORD false). This function cannot be used to allocate or
     * deallocate memory, so if $(D_PARAM p) is $(D_KEYWORD null) or
     * $(D_PARAM size) is `0`, it should return $(D_KEYWORD false).
     *
     * Params:
     *  p    = A pointer to the memory block.
     *  size = Size of the reallocated block.
     *
     * Returns: $(D_KEYWORD true) if successful, $(D_KEYWORD false) otherwise.
     */
    bool reallocateInPlace(ref void[] p, size_t size)
    shared pure nothrow @nogc;
 }
 package template GetPureInstance(T : Allocator)
 {
    alias GetPureInstance = shared(T) function()
                            pure nothrow @nogc;
 }
--- a/source/tanya/meta/transform.d
+++ b/source/tanya/meta/transform.d
@ -1,981 +0,0 @@
 /* This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
 /**
 * Type transformations.
 *
 * Templates in this module can be used to modify type qualifiers or transform
 * types. They take some type as argument and return a different type after
 * perfoming the specified transformation.
 *
 * Copyright: Eugene Wissner 2017-2018.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
 * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/meta/transform.d,
 *                 tanya/meta/transform.d)
 */
 module tanya.meta.transform;
 import tanya.meta.metafunction;
 import tanya.meta.trait;
 /**
 * Removes any type qualifiers from $(D_PARAM T).
 *
 * Removed qualifiers are:
 * $(UL
 *  $(LI const)
 *  $(LI immutable)
 *  $(LI inout)
 *  $(LI shared)
 * )
 * and combinations of these.
 *
 * If the type $(D_PARAM T) doesn't have any qualifieres,
 * $(D_INLINECODE Unqual!T) becomes an alias for $(D_PARAM T).
 *
 * Params:
 *  T = A type.
 *
 * Returns: $(D_PARAM T) without any type qualifiers.
 */
 template Unqual(T)
 {
    static if (is(T U == const U)
            || is(T U == immutable U)
            || is(T U == inout U)
            || is(T U == inout const U)
            || is(T U == shared U)
            || is(T U == shared const U)
            || is(T U == shared inout U)
            || is(T U == shared inout const U))
    {
        alias Unqual = U;
    }
    else
    {
        alias Unqual = T;
    }
 }
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(Unqual!bool == bool));
    static assert(is(Unqual!(immutable bool) == bool));
    static assert(is(Unqual!(inout bool) == bool));
    static assert(is(Unqual!(inout const bool) == bool));
    static assert(is(Unqual!(shared bool) == bool));
    static assert(is(Unqual!(shared const bool) == bool));
    static assert(is(Unqual!(shared inout const bool) == bool));
 }
 /**
 * If $(D_PARAM T) is an $(D_KEYWORD enum), $(D_INLINECODE OriginalType!T)
 * evaluates to the most base type of that $(D_KEYWORD enum) and to
 * $(D_PARAM T) otherwise.
 *
 * Params:
 *  T = A type.
 *
 * Returns: Base type of the $(D_KEYWORD enum) $(D_PARAM T) or $(D_PARAM T)
 *          itself.
 */
 template OriginalType(T)
 {
    static if (is(T U == enum))
    {
        alias OriginalType = OriginalType!U;
    }
    else
    {
        alias OriginalType = T;
    }
 }
 ///
@nogc nothrow pure @safe unittest
 {
    enum E1 : const(int)
    {
        n = 0,
    }
    enum E2 : bool
    {
        t = true,
    }
    enum E3 : E2
    {
        t = E2.t,
    }
    enum E4 : const(E2)
    {
        t = E2.t,
    }
    static assert(is(OriginalType!E1 == const int));
    static assert(is(OriginalType!E2 == bool));
    static assert(is(OriginalType!E3 == bool));
    static assert(is(OriginalType!E4 == bool));
    static assert(is(OriginalType!(const E4) == bool));
 }
 /**
 * Copies constness of $(D_PARAM From) to $(D_PARAM To).
 *
 * The following type qualifiers affect the constness and hence are copied:
 * $(UL
 *  $(LI const)
 *  $(LI immutable)
 *  $(LI inout)
 *  $(LI inout const)
 * )
 *
 * Params:
 *  From = Source type.
 *  To   = Target type.
 *
 * Returns: $(D_PARAM To) with the constness of $(D_PARAM From).
 *
 * See_Also: $(D_PSYMBOL CopyTypeQualifiers).
 */
 template CopyConstness(From, To)
 {
    static if (is(From T == immutable T))
    {
        alias CopyConstness = immutable To;
    }
    else static if (is(From T == const T) || is(From T == shared const T))
    {
        alias CopyConstness = const To;
    }
    else static if (is(From T == inout T) || is(From T == shared inout T))
    {
        alias CopyConstness = inout To;
    }
    else static if (is(From T == inout const T)
                 || is(From T == shared inout const T))
    {
        alias CopyConstness = inout const To;
    }
    else
    {
        alias CopyConstness = To;
    }
 }
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(CopyConstness!(int, char) == char));
    static assert(is(CopyConstness!(const int, char) == const char));
    static assert(is(CopyConstness!(immutable int, char) == immutable char));
    static assert(is(CopyConstness!(inout int, char) == inout char));
    static assert(is(CopyConstness!(inout const int, char) == inout const char));
    static assert(is(CopyConstness!(shared int, char) == char));
    static assert(is(CopyConstness!(shared const int, char) == const char));
    static assert(is(CopyConstness!(shared inout int, char) == inout char));
    static assert(is(CopyConstness!(shared inout const int, char) == inout const char));
    static assert(is(CopyConstness!(const int, shared char) == shared const char));
    static assert(is(CopyConstness!(const int, immutable char) == immutable char));
    static assert(is(CopyConstness!(immutable int, const char) == immutable char));
 }
 /**
 * Copies type qualifiers of $(D_PARAM From) to $(D_PARAM To).
 *
 * Type qualifiers copied are:
 * $(UL
 *  $(LI const)
 *  $(LI immutable)
 *  $(LI inout)
 *  $(LI shared)
 * )
 * and combinations of these.
 *
 * Params:
 *  From = Source type.
 *  To   = Target type.
 *
 * Returns: $(D_PARAM To) with the type qualifiers of $(D_PARAM From).
 *
 * See_Also: $(D_PSYMBOL CopyConstness).
 */
 template CopyTypeQualifiers(From, To)
 {
    static if (is(From T == immutable T))
    {
        alias CopyTypeQualifiers = immutable To;
    }
    else static if (is(From T == const T))
    {
        alias CopyTypeQualifiers = const To;
    }
    else static if (is(From T == shared T))
    {
        alias CopyTypeQualifiers = shared To;
    }
    else static if (is(From T == shared const T))
    {
        alias CopyTypeQualifiers = shared const To;
    }
    else static if (is(From T == inout T))
    {
        alias CopyTypeQualifiers = inout To;
    }
    else static if (is(From T == shared inout T))
    {
        alias CopyTypeQualifiers = shared inout To;
    }
    else static if (is(From T == inout const T))
    {
        alias CopyTypeQualifiers = inout const To;
    }
    else static if (is(From T == shared inout const T))
    {
        alias CopyTypeQualifiers = shared inout const To;
    }
    else
    {
        alias CopyTypeQualifiers = To;
    }
 }
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(CopyTypeQualifiers!(int, char) == char));
    static assert(is(CopyTypeQualifiers!(const int, char) == const char));
    static assert(is(CopyTypeQualifiers!(immutable int, char) == immutable char));
    static assert(is(CopyTypeQualifiers!(inout int, char) == inout char));
    static assert(is(CopyTypeQualifiers!(inout const int, char) == inout const char));
    static assert(is(CopyTypeQualifiers!(shared int, char) == shared char));
    static assert(is(CopyTypeQualifiers!(shared const int, char) == shared const char));
    static assert(is(CopyTypeQualifiers!(shared inout int, char) == shared inout char));
    static assert(is(CopyTypeQualifiers!(shared inout const int, char) == shared inout const char));
 }
 /**
 * Evaluates to the unsigned counterpart of the integral type $(D_PARAM T) preserving all type qualifiers.
 * If $(D_PARAM T) is already unsigned, $(D_INLINECODE Unsigned!T) aliases $(D_PARAM T).
 *
 * Params:
 *  T = A type.
 *
 * Returns: Unsigned counterpart of $(D_PARAM T).
 *
 * See_Also: $(D_PSYMBOL isSigned).
 */
 template Unsigned(T)
 if (isIntegral!T)
 {
    alias UnqualedType = Unqual!(OriginalType!T);
    static if (is(UnqualedType == byte))
    {
        alias Unsigned = CopyTypeQualifiers!(T, ubyte);
    }
    else static if (is(UnqualedType == short))
    {
        alias Unsigned = CopyTypeQualifiers!(T, ushort);
    }
    else static if (is(UnqualedType == int))
    {
        alias Unsigned = CopyTypeQualifiers!(T, uint);
    }
    else static if (is(UnqualedType == long))
    {
        alias Unsigned = CopyTypeQualifiers!(T, ulong);
    }
    else
    {
        alias Unsigned = T;
    }
 }
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(Unsigned!byte == ubyte));
    static assert(is(Unsigned!short == ushort));
    static assert(is(Unsigned!int == uint));
    static assert(is(Unsigned!long == ulong));
    static assert(is(Unsigned!(const byte) == const ubyte));
    static assert(is(Unsigned!(shared byte) == shared ubyte));
    static assert(is(Unsigned!(shared const byte) == shared const ubyte));
    static assert(!is(Unsigned!float));
    static assert(is(Unsigned!ubyte == ubyte));
 }
 /**
 * Evaluates to the signed counterpart of the integral type $(D_PARAM T) preserving all type qualifiers.
 * If $(D_PARAM T) is already signed, $(D_INLINECODE Signed!T) aliases $(D_PARAM T).
 *
 * Params:
 *  T = A type.
 *
 * Returns: Signed counterpart of $(D_PARAM T).
 *
 * See_Also: $(D_PSYMBOL isUnsigned).
 */
 template Signed(T)
 if (isIntegral!T)
 {
    alias UnqualedType = Unqual!(OriginalType!T);
    static if (is(UnqualedType == ubyte))
    {
        alias Signed = CopyTypeQualifiers!(T, byte);
    }
    else static if (is(UnqualedType == ushort))
    {
        alias Signed = CopyTypeQualifiers!(T, short);
    }
    else static if (is(UnqualedType == uint))
    {
        alias Signed = CopyTypeQualifiers!(T, int);
    }
    else static if (is(UnqualedType == ulong))
    {
        alias Signed = CopyTypeQualifiers!(T, long);
    }
    else
    {
        alias Signed = T;
    }
 }
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(Signed!ubyte == byte));
    static assert(is(Signed!ushort == short));
    static assert(is(Signed!uint == int));
    static assert(is(Signed!ulong == long));
    static assert(is(Signed!(const ubyte) == const byte));
    static assert(is(Signed!(shared ubyte) == shared byte));
    static assert(is(Signed!(shared const ubyte) == shared const byte));
    static assert(!is(Signed!float));
    static assert(is(Signed!byte == byte));
 }
 /**
 * Retrieves the target type `U` of a pointer `U*`.
 *
 * Params:
 *  T = Pointer type.
 *
 * Returns: Pointer target type.
 */
 template PointerTarget(T)
 {
    static if (is(T U : U*))
    {
        alias PointerTarget = U;
    }
    else
    {
        static assert(T.stringof ~ " isn't a pointer type");
    }
 }
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(PointerTarget!(bool*) == bool));
    static assert(is(PointerTarget!(const bool*) == const bool));
    static assert(is(PointerTarget!(const shared bool*) == const shared bool));
    static assert(!is(PointerTarget!bool));
 }
 /**
 * Params:
 *  T = The type of the associative array.
 *
 * Returns: The key type of the associative array $(D_PARAM T).
 */
 template KeyType(T)
 {
    static if (is(T V : V[K], K))
    {
        alias KeyType = K;
    }
    else
    {
        static assert(false, T.stringof ~ " isn't an associative array");
    }
 }
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(KeyType!(int[string]) == string));
    static assert(!is(KeyType!(int[15])));
 }
 /**
 * Params:
 *  T = The type of the associative array.
 *
 * Returns: The value type of the associative array $(D_PARAM T).
 */
 template ValueType(T)
 {
    static if (is(T V : V[K], K))
    {
        alias ValueType = V;
    }
    else
    {
        static assert(false, T.stringof ~ " isn't an associative array");
    }
 }
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(ValueType!(int[string]) == int));
    static assert(!is(ValueType!(int[15])));
 }
 /**
 * Params:
 *  T = Scalar type.
 *
 * Returns: The type $(D_PARAM T) will promote to.
 *
 * See_Also: $(LINK2 https://dlang.org/spec/type.html#integer-promotions,
 *                   Integer Promotions).
 */
 template Promoted(T)
 if (isScalarType!T)
 {
    alias Promoted = CopyTypeQualifiers!(T, typeof(T.init + T.init));
 }
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(Promoted!bool == int));
    static assert(is(Promoted!byte == int));
    static assert(is(Promoted!ubyte == int));
    static assert(is(Promoted!short == int));
    static assert(is(Promoted!ushort == int));
    static assert(is(Promoted!char == int));
    static assert(is(Promoted!wchar == int));
    static assert(is(Promoted!dchar == uint));
    static assert(is(Promoted!(const bool) == const int));
    static assert(is(Promoted!(shared bool) == shared int));
 }
 /**
 * Adds $(D_KEYWORD inout) qualifier to the type $(D_PARAM T).
 *
 * Params:
 *  T = A type.
 *
 * Returns: $(D_INLINECODE inout(T)).
 */
 alias InoutOf(T) = inout(T);
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(InoutOf!int == inout int));
 }
 /**
 * Adds $(D_KEYWORD inout) qualifier to the type $(D_PARAM T).
 *
 * Params:
 *  T = A type.
 *
 * Returns: $(D_INLINECODE inout(T)).
 */
 alias ConstOf(T) = const(T);
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(ConstOf!int == const int));
 }
 /**
 * Adds $(D_KEYWORD inout) qualifier to the type $(D_PARAM T).
 *
 * Params:
 *  T = A type.
 *
 * Returns: $(D_INLINECODE inout(T)).
 */
 alias SharedOf(T) = shared(T);
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(SharedOf!int == shared int));
 }
 /**
 * Adds $(D_KEYWORD inout) qualifier to the type $(D_PARAM T).
 *
 * Params:
 *  T = A type.
 *
 * Returns: $(D_INLINECODE inout(T)).
 */
 alias SharedInoutOf(T) = shared(inout T);
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(SharedInoutOf!int == shared inout int));
 }
 /**
 * Adds $(D_KEYWORD shared const) qualifier to the type $(D_PARAM T).
 *
 * Params:
 *  T = A type.
 *
 * Returns: $(D_INLINECODE shared(const T)).
 */
 alias SharedConstOf(T) = shared(const T);
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(SharedConstOf!int == shared const int));
 }
 /**
 * Adds $(D_KEYWORD immutable) qualifier to the type $(D_PARAM T).
 *
 * Params:
 *  T = A type.
 *
 * Returns: $(D_INLINECODE immutable(T)).
 */
 alias ImmutableOf(T) = immutable(T);
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(ImmutableOf!int == immutable int));
 }
 /**
 * Adds $(D_KEYWORD inout const) qualifier to the type $(D_PARAM T).
 *
 * Params:
 *  T = A type.
 *
 * Returns: $(D_INLINECODE inout(const T)).
 */
 alias InoutConstOf(T) = inout(const T);
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(InoutConstOf!int == inout const int));
 }
 /**
 * Adds $(D_KEYWORD shared inout const) qualifier to the type $(D_PARAM T).
 *
 * Params:
 *  T = A type.
 *
 * Returns: $(D_INLINECODE shared(inout const T)).
 */
 alias SharedInoutConstOf(T) = shared(inout const T);
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(SharedInoutConstOf!int == shared inout const int));
 }
 /**
 * Returns a template with one argument which applies all qualifiers of
 * $(D_PARAM T) on its argument if instantiated.
 *
 * Params:
 *  T = A type.
 *
 * Returns: $(D_INLINECODE shared(inout const T)).
 */
 template QualifierOf(T)
 {
    static if (is(T U == const U))
    {
        alias QualifierOf = ConstOf;
    }
    else static if (is(T U == immutable U))
    {
        alias QualifierOf = ImmutableOf;
    }
    else static if (is(T U == inout U))
    {
        alias QualifierOf = InoutOf;
    }
    else static if (is(T U == inout const U))
    {
        alias QualifierOf = InoutConstOf;
    }
    else static if (is(T U == shared U))
    {
        alias QualifierOf = SharedOf;
    }
    else static if (is(T U == shared const U))
    {
        alias QualifierOf = SharedConstOf;
    }
    else static if (is(T U == shared inout U))
    {
        alias QualifierOf = SharedInoutOf;
    }
    else static if (is(T U == shared inout const U))
    {
        alias QualifierOf = SharedInoutConstOf;
    }
    else
    {
        alias QualifierOf(T) = T;
    }
 }
 ///
@nogc nothrow pure @safe unittest
 {
    alias MutableOf = QualifierOf!int;
    static assert(is(MutableOf!uint == uint));
    alias ConstOf = QualifierOf!(const int);
    static assert(is(ConstOf!uint == const uint));
    alias InoutOf = QualifierOf!(inout int);
    static assert(is(InoutOf!uint == inout uint));
    alias InoutConstOf = QualifierOf!(inout const int);
    static assert(is(InoutConstOf!uint == inout const uint));
    alias ImmutableOf = QualifierOf!(immutable int);
    static assert(is(ImmutableOf!uint == immutable uint));
    alias SharedOf = QualifierOf!(shared int);
    static assert(is(SharedOf!uint == shared uint));
    alias SharedConstOf = QualifierOf!(shared const int);
    static assert(is(SharedConstOf!uint == shared const uint));
    alias SharedInoutOf = QualifierOf!(shared inout int);
    static assert(is(SharedInoutOf!uint == shared inout uint));
    alias SharedInoutConstOf = QualifierOf!(shared inout const int);
    static assert(is(SharedInoutConstOf!uint == shared inout const uint));
 }
 /**
 * Determines the type of $(D_PARAM T). If $(D_PARAM T) is already a type,
 * $(D_PSYMBOL TypeOf) aliases itself to $(D_PARAM T).
 *
 * $(D_PSYMBOL TypeOf) evaluates to $(D_KEYWORD void) for template arguments.
 *
 * The symbols that don't have a type and aren't types cannot be used as
 * arguments to $(D_PSYMBOL TypeOf).
 *
 * Params:
 *  T = Expression, type or template.
 *
 * Returns: The type of $(D_PARAM T).
 */
 alias TypeOf(T) = T;
 /// ditto
 template TypeOf(alias T)
 if (isExpressions!T || __traits(isTemplate, T))
 {
    alias TypeOf = typeof(T);
 }
 ///
@nogc nothrow pure @safe unittest
 {
    struct S(T)
    {
    }
    static assert(is(TypeOf!S == void));
    static assert(is(TypeOf!int == int));
    static assert(is(TypeOf!true == bool));
    static assert(!is(TypeOf!(tanya.meta)));
 }
 // e.g. returns int for int**.
 private template FinalPointerTarget(T)
 {
    static if (isPointer!T)
    {
        alias FinalPointerTarget = FinalPointerTarget!(PointerTarget!T);
    }
    else
    {
        alias FinalPointerTarget = T;
    }
 }
 // Returns true if T1 is void* and T2 is some pointer.
 private template voidAndPointer(T1, T2)
 {
    enum bool voidAndPointer = is(Unqual!(PointerTarget!T1) == void)
                            && isPointer!T2;
 }
 // Type returned by the ternary operator.
 private alias TernaryType(T, U) = typeof(true ? T.init : U.init);
 /**
 * Determines the type all $(D_PARAM Args) can be implicitly converted to.
 *
 * $(OL
 *  $(LI If one of the arguments is $(D_KEYWORD void), the common type is
 *       $(D_KEYWORD void).)
 *  $(LI The common type of integers with the same sign is the type with a
 *       larger size. Signed and unsigned integers don't have a common type.
 *       Type qualifiers are only preserved if all arguments are the same
 *       type.)
 *  $(LI The common type of floating point numbers is the type with more
 *       precision. Type qualifiers are only preserved if all arguments are
 *       the same type.)
 *  $(LI The common type of polymorphic objects is the next, more generic type
 *       both objects inherit from, e.g. $(D_PSYMBOL Object).)
 *  $(LI `void*` is concerned as a common type of pointers only if one of the
 *       arguments is a void pointer.)
 *  $(LI Other types have a common type only if their pointers have a common
 *       type. It means that for example $(D_KEYWORD bool) and $(D_KEYWORD int)
         don't have a common type. If the types fullfill this condition, the
         common type is determined with the ternary operator, i.e.
         `typeof(true ? T1.init : T2.init)` is evaluated.)
 * )
 *
 * If $(D_PARAM Args) don't have a common type, $(D_PSYMBOL CommonType) is
 * $(D_KEYWORD void).
 *
 * Params:
 *  Args = Type list.
 *
 * Returns: Common type for $(D_PARAM Args) or $(D_KEYWORD void) if
 *          $(D_PARAM Args) don't have a common type.
 */
 template CommonType(Args...)
 if (allSatisfy!(isType, Args))
 {
    static if (Args.length == 0
            || is(Unqual!(Args[0]) == void)
            || is(Unqual!(Args[1]) == void))
    {
        alias CommonType = void;
    }
    else static if (Args.length == 1)
    {
        alias CommonType = Args[0];
    }
    else
    {
        private alias Pair = Args[0 .. 2];
        private enum bool sameSigned = allSatisfy!(isIntegral, Pair)
                                    && isSigned!(Args[0]) == isSigned!(Args[1]);
        static if (is(Args[0] == Args[1]))
        {
            alias CommonType = CommonType!(Args[0], Args[2 .. $]);
        }
        else static if (sameSigned || allSatisfy!(isFloatingPoint, Pair))
        {
            alias CommonType = CommonType!(Unqual!(Largest!Pair),
                                           Args[2 .. $]);
        }
        else static if (voidAndPointer!Pair
                     || voidAndPointer!(Args[1], Args[0]))
        {
            // Workaround for https://issues.dlang.org/show_bug.cgi?id=15557.
            // Determine the qualifiers returned by the ternary operator as if
            // both pointers were int*. Then copy the qualifiers to void*.
            alias P1 = CopyTypeQualifiers!(FinalPointerTarget!(Args[0]), int)*;
            alias P2 = CopyTypeQualifiers!(FinalPointerTarget!(Args[1]), int)*;
            static if (is(TernaryType!(P1, P2) U))
            {
                alias CommonType = CopyTypeQualifiers!(PointerTarget!U, void)*;
            }
            else
            {
                alias CommonType = void;
            }
        }
        else static if ((isPointer!(Args[0]) || isPolymorphicType!(Args[0]))
                     && is(TernaryType!Pair U))
        {
            alias CommonType = CommonType!(U, Args[2 .. $]);
        }
        else static if (is(TernaryType!(Args[0]*, Args[1]*)))
        {
            alias CommonType = CommonType!(TernaryType!Pair, Args[2 .. $]);
        }
        else
        {
            alias CommonType = void;
        }
    }
 }
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(CommonType!(int, int, int) == int));
    static assert(is(CommonType!(ubyte, ushort, uint) == uint));
    static assert(is(CommonType!(int, uint) == void));
    static assert(is(CommonType!(int, const int) == int));
    static assert(is(CommonType!(const int, const int) == const int));
    static assert(is(CommonType!(int[], const(int)[]) == const(int)[]));
    static assert(is(CommonType!(string, char[]) == const(char)[]));
    class A
    {
    }
    static assert(is(CommonType!(const A, Object) == const Object));
 }
@nogc nothrow pure @safe unittest
 {
    static assert(is(CommonType!(void*, int*) == void*));
    static assert(is(CommonType!(void*, const(int)*) == const(void)*));
    static assert(is(CommonType!(void*, const(void)*) == const(void)*));
    static assert(is(CommonType!(int*, void*) == void*));
    static assert(is(CommonType!(const(int)*, void*) == const(void)*));
    static assert(is(CommonType!(const(void)*, void*) == const(void)*));
    static assert(is(CommonType!() == void));
    static assert(is(CommonType!(int*, const(int)*) == const(int)*));
    static assert(is(CommonType!(int**, const(int)**) == const(int*)*));
    static assert(is(CommonType!(float, double) == double));
    static assert(is(CommonType!(float, int) == void));
    static assert(is(CommonType!(bool, const bool) == bool));
    static assert(is(CommonType!(int, bool) == void));
    static assert(is(CommonType!(int, void) == void));
    static assert(is(CommonType!(Object, void*) == void));
    class A
    {
    }
    static assert(is(CommonType!(A, Object) == Object));
    static assert(is(CommonType!(const(A)*, Object*) == const(Object)*));
    static assert(is(CommonType!(A, typeof(null)) == A));
    class B : A
    {
    }
    class C : A
    {
    }
    static assert(is(CommonType!(B, C) == A));
    static struct S
    {
        int opCast(T : int)()
        {
            return 1;
        }
    }
    static assert(is(CommonType!(S, int) == void));
    static assert(is(CommonType!(const S, S) == const S));
 }
 /**
 * Finds the type with the smallest size in the $(D_PARAM Args) list. If
 * several types have the same type, the leftmost is returned.
 *
 * Params:
 *  Args = Type list.
 *
 * Returns: The smallest type.
 *
 * See_Also: $(D_PSYMBOL Largest).
 */
 template Smallest(Args...)
 if (Args.length >= 1)
 {
    static assert(is(Args[0]), T.stringof ~ " doesn't have .sizeof property");
    static if (Args.length == 1)
    {
        alias Smallest = Args[0];
    }
    else static if (Smallest!(Args[1 .. $]).sizeof < Args[0].sizeof)
    {
        alias Smallest = Smallest!(Args[1 .. $]);
    }
    else
    {
        alias Smallest = Args[0];
    }
 }
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(Smallest!(int, ushort, uint, short) == ushort));
    static assert(is(Smallest!(short) == short));
    static assert(is(Smallest!(ubyte[8], ubyte[5]) == ubyte[5]));
    static assert(!is(Smallest!(short, 5)));
 }
 /**
 * Finds the type with the largest size in the $(D_PARAM Args) list. If several
 * types have the same type, the leftmost is returned.
 *
 * Params:
 *  Args = Type list.
 *
 * Returns: The largest type.
 *
 * See_Also: $(D_PSYMBOL Smallest).
 */
 template Largest(Args...)
 if (Args.length >= 1)
 {
    static assert(is(Args[0]), T.stringof ~ " doesn't have .sizeof property");
    static if (Args.length == 1)
    {
        alias Largest = Args[0];
    }
    else static if (Largest!(Args[1 .. $]).sizeof > Args[0].sizeof)
    {
        alias Largest = Largest!(Args[1 .. $]);
    }
    else
    {
        alias Largest = Args[0];
    }
 }
 ///
@nogc nothrow pure @safe unittest
 {
    static assert(is(Largest!(int, short, uint) == int));
    static assert(is(Largest!(short) == short));
    static assert(is(Largest!(ubyte[8], ubyte[5]) == ubyte[8]));
    static assert(!is(Largest!(short, 5)));
 }
--- a/source/tanya/net/iface.d
+++ b/source/tanya/net/iface.d
@ -5,7 +5,7 @@
 /**
 * Network interfaces.
 *
- * Copyright: Eugene Wissner 2018.
+ * Copyright: Eugene Wissner 2018-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
@ -14,7 +14,6 @@
 */
 module tanya.net.iface;
 import tanya.algorithm.comparison;
 import tanya.algorithm.mutation;
 import tanya.container.string;
 import tanya.meta.trait;
@ -209,20 +208,3 @@ String indexToName(uint index) @nogc nothrow @trusted
        return String(findNullTerminated(buffer));
    }
 }
@nogc nothrow @safe unittest
 {
    version (linux)
    {
        assert(equal(indexToName(1)[], "lo"));
    }
    else version (Windows)
    {
        assert(equal(indexToName(1)[], "loopback_0"));
    }
    else
    {
        assert(equal(indexToName(1)[], "lo0"));
    }
    assert(indexToName(uint.max).empty);
 }
--- a/source/tanya/net/inet.d
+++ b/source/tanya/net/inet.d
@ -5,7 +5,7 @@
 /**
 * Internet utilities.
 *
- * Copyright: Eugene Wissner 2016-2018.
+ * Copyright: Eugene Wissner 2016-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
@ -72,11 +72,7 @@ if (L > ubyte.sizeof && L <= ulong.sizeof)
     */
    this(T)(T value)
    if (isUnsigned!T)
-    in
+    in (value <= (2 ^^ (L * 8)) - 1)
    {
        assert(value <= (2 ^^ (L * 8)) - 1);
    }
    do
    {
        this.value = value & StorageType.max;
    }
@ -87,11 +83,7 @@ if (L > ubyte.sizeof && L <= ulong.sizeof)
     * Precondition: $(D_INLINECODE length > 0).
     */
    @property ubyte back() const
-    in
+    in (this.length > 0)
    {
        assert(this.length > 0);
    }
    do
    {
        return this.value & 0xff;
    }
@ -102,11 +94,7 @@ if (L > ubyte.sizeof && L <= ulong.sizeof)
     * Precondition: $(D_INLINECODE length > 0).
     */
    @property ubyte front() const
-    in
+    in (this.length > 0)
    {
        assert(this.length > 0);
    }
    do
    {
        return (this.value >> ((this.length - 1) * 8)) & 0xff;
    }
@ -117,11 +105,7 @@ if (L > ubyte.sizeof && L <= ulong.sizeof)
     * Precondition: $(D_INLINECODE length > 0).
     */
    void popBack()
-    in
+    in (this.length > 0)
    {
        assert(this.length > 0);
    }
    do
    {
        this.value >>= 8;
        --this.size;
@ -133,11 +117,7 @@ if (L > ubyte.sizeof && L <= ulong.sizeof)
     * Precondition: $(D_INLINECODE length > 0).
     */
    void popFront()
-    in
+    in (this.length > 0)
    {
        assert(this.length > 0);
    }
    do
    {
        this.value &= StorageType.max >> ((StorageType.sizeof - this.length) * 8);
        --this.size;
@ -189,15 +169,6 @@ if (L > ubyte.sizeof && L <= ulong.sizeof)
    assert(networkOrder.empty);
 }
 // Static tests
@nogc nothrow pure @safe unittest
 {
    static assert(isBidirectionalRange!(NetworkOrder!4));
    static assert(isBidirectionalRange!(NetworkOrder!8));
    static assert(!is(NetworkOrder!9));
    static assert(!is(NetworkOrder!1));
 }
 /**
 * Converts the $(D_KEYWORD ubyte) input range $(D_PARAM range) to
 * $(D_PARAM T).
--- a/source/tanya/net/ip.d
+++ b/source/tanya/net/ip.d
@ -5,7 +5,7 @@
 /**
 * Internet Protocol implementation.
 *
- * Copyright: Eugene Wissner 2018.
+ * Copyright: Eugene Wissner 2018-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
@ -15,11 +15,13 @@
 module tanya.net.ip;
 import tanya.algorithm.comparison;
 import tanya.algorithm.iteration;
 import tanya.algorithm.mutation;
 import tanya.container.string;
 import tanya.conv;
 import tanya.encoding.ascii;
 import tanya.format;
 import tanya.memory.lifetime;
 import tanya.meta.trait;
 import tanya.meta.transform;
 import tanya.net.iface;
@ -55,10 +57,9 @@ struct Address4
     * Params:
     *  address = The address as an unsigned integer in host byte order.
     */
-    this(uint address) @nogc nothrow pure @safe
+    this(uint address) @nogc nothrow pure @trusted
    {
-        copy(NetworkOrder!4(address),
+        copy(NetworkOrder!4(address), (cast(ubyte*) &this.address)[0 .. 4]);
             (() @trusted => (cast(ubyte*) &this.address)[0 .. 4])());
    }
    ///
@ -103,7 +104,7 @@ struct Address4
     *
     * Returns: Object that represents the Loopback address.
     */
-    static Address4 loopback() @nogc nothrow pure @safe
+    static @property Address4 loopback() @nogc nothrow pure @safe
    {
        typeof(return) address;
        address.address = Address4.loopback_;
@ -121,7 +122,7 @@ struct Address4
     *
     * Returns: Object that represents any address.
     */
-    static Address4 any() @nogc nothrow pure @safe
+    static @property Address4 any() @nogc nothrow pure @safe
    {
        typeof(return) address;
        address.address = Address4.any_;
@ -148,7 +149,7 @@ struct Address4
    ///
    @nogc nothrow pure @safe unittest
    {
-        assert(address4("127.0.0.1").isLoopback());
+        assert(address4("127.0.0.1").get.isLoopback());
    }
    /**
@ -166,7 +167,7 @@ struct Address4
    ///
    @nogc nothrow pure @safe unittest
    {
-        assert(address4("0.0.0.0").isAny());
+        assert(address4("0.0.0.0").get.isAny());
    }
    /**
@ -183,7 +184,7 @@ struct Address4
    ///
    @nogc nothrow pure @safe unittest
    {
-        assert(address4("255.255.255.255").isBroadcast());
+        assert(address4("255.255.255.255").get.isBroadcast());
    }
    /**
@ -210,7 +211,7 @@ struct Address4
    ///
    @nogc nothrow pure @safe unittest
    {
-        assert(address4("224.0.0.3").isMulticast());
+        assert(address4("224.0.0.3").get.isMulticast());
    }
    /**
@ -229,7 +230,7 @@ struct Address4
    ///
    @nogc nothrow pure @safe unittest
    {
-        assert(address4("192.168.0.1").isUnicast());
+        assert(address4("192.168.0.1").get.isUnicast());
    }
    /**
@ -237,6 +238,7 @@ struct Address4
     *
     * Returns: This address in dotted-decimal notation.
     */
    deprecated("Use Address4.toString() instead")
    String stringify() const @nogc nothrow pure @safe
    {
        const octets = (() @trusted => (cast(ubyte*) &this.address)[0 .. 4])();
@ -251,12 +253,50 @@ struct Address4
        }
    }
    /**
     * Writes this IPv4 address in dotted-decimal notation.
     *
     * Params:
     *  OR     = Type of the output range.
     *  output = Output range.
     *
     * Returns: $(D_PARAM output).
     */
    OR toString(OR)(OR output) const @nogc nothrow pure @safe
    if (isOutputRange!(OR, const(char)[]))
    {
        const octets = (() @trusted => (cast(ubyte*) &this.address)[0 .. 4])();
        enum string fmt = "{}.{}.{}.{}";
        version (LittleEndian)
        {
            return sformat!fmt(output,
                               octets[0],
                               octets[1],
                               octets[2],
                               octets[3]);
        }
        else
        {
            return sformat!fmt(output,
                               octets[3],
                               octets[2],
                               octets[1],
                               octets[0]);
        }
    }
    ///
    @nogc nothrow pure @safe unittest
    {
        import tanya.container.string : String;
        import tanya.range : backInserter;
        const dottedDecimal = "192.168.0.1";
        String actual;
        const address = address4(dottedDecimal);
-        assert(address.get.stringify() == dottedDecimal);
+
        address.get.toString(backInserter(actual));
        assert(actual == dottedDecimal);
    }
    /**
@ -276,7 +316,7 @@ struct Address4
    {
        const actual = address4("192.168.0.1");
        const ubyte[4] expected = [192, 168, 0, 1];
-        assert(actual.toBytes() == expected);
+        assert(actual.get.toBytes() == expected);
    }
    /**
@ -293,7 +333,7 @@ struct Address4
    ///
    @nogc nothrow pure @safe unittest
    {
-        assert(address4("127.0.0.1").toUInt() == 0x7f000001U);
+        assert(address4("127.0.0.1").get.toUInt() == 0x7f000001U);
    }
 }
@ -343,17 +383,6 @@ if (isForwardRange!R && is(Unqual!(ElementType!R) == char) && hasLength!R)
    return range.empty ? typeof(return)(result) : typeof(return)();
 }
 // Rejects malformed addresses
@nogc nothrow pure @safe unittest
 {
    assert(address4("256.0.0.1").isNothing);
    assert(address4(".0.0.1").isNothing);
    assert(address4("0..0.1").isNothing);
    assert(address4("0.0.0.").isNothing);
    assert(address4("0.0.").isNothing);
    assert(address4("").isNothing);
 }
 /**
 * Constructs an $(D_PSYMBOL Address4) from raw bytes in network byte order.
 *
@ -394,7 +423,7 @@ if (isInputRange!R && is(Unqual!(ElementType!R) == ubyte))
 {
    {
        ubyte[4] actual = [127, 0, 0, 1];
-        assert(address4(actual[]).isLoopback());
+        assert(address4(actual[]).get.isLoopback());
    }
    {
        ubyte[3] actual = [127, 0, 0];
@ -406,20 +435,6 @@ if (isInputRange!R && is(Unqual!(ElementType!R) == ubyte))
    }
 }
@nogc nothrow pure @safe unittest
 {
    assert(address4(cast(ubyte[]) []).isNothing);
 }
 // Assignment and comparison works
@nogc nothrow pure @safe unittest
 {
    auto address1 = Address4.loopback();
    auto address2 = Address4.any();
    address1 = address2;
    assert(address1 == address2);
 }
 /**
 * IPv6 internet address.
 */
@ -490,8 +505,8 @@ struct Address6
        assert(address6("::14") > address6("::1"));
        assert(address6("::1") < address6("::14"));
        assert(address6("::1") == address6("::1"));
-        assert(address6("::1%1") < address6("::1%2"));
+        assert(address6("fe80::1%1") < address6("fe80::1%2"));
-        assert(address6("::1%2") > address6("::1%1"));
+        assert(address6("fe80::1%2") > address6("fe80::1%1"));
    }
    /**
@ -499,7 +514,7 @@ struct Address6
     *
     * Returns: Object that represents any address.
     */
-    static Address6 any() @nogc nothrow pure @safe
+    static @property Address6 any() @nogc nothrow pure @safe
    {
        return Address6();
    }
@ -515,7 +530,7 @@ struct Address6
     *
     * Returns: Object that represents the Loopback address.
     */
-    static Address6 loopback() @nogc nothrow pure @safe
+    static @property Address6 loopback() @nogc nothrow pure @safe
    {
        typeof(return) address;
        address.address[$ - 1] = 1;
@ -543,7 +558,7 @@ struct Address6
    ///
    @nogc nothrow @safe unittest
    {
-        assert(address6("::").isAny());
+        assert(address6("::").get.isAny());
    }
    /**
@ -560,7 +575,7 @@ struct Address6
    ///
    @nogc nothrow @safe unittest
    {
-        assert(address6("::1").isLoopback());
+        assert(address6("::1").get.isLoopback());
    }
    /**
@ -579,7 +594,7 @@ struct Address6
    ///
    @nogc nothrow @safe unittest
    {
-        assert(address6("ff00::").isMulticast());
+        assert(address6("ff00::").get.isMulticast());
    }
    /**
@ -598,7 +613,7 @@ struct Address6
    ///
    @nogc nothrow @safe unittest
    {
-        assert(address6("::1").isUnicast());
+        assert(address6("::1").get.isUnicast());
    }
    /**
@ -615,7 +630,7 @@ struct Address6
    ///
    @nogc nothrow @safe unittest
    {
-        assert(address6("fe80::1").isLinkLocal());
+        assert(address6("fe80::1").get.isLinkLocal());
    }
    /**
@ -632,7 +647,7 @@ struct Address6
    ///
    @nogc nothrow @safe unittest
    {
-        assert(address6("fd80:124e:34f3::1").isUniqueLocal());
+        assert(address6("fd80:124e:34f3::1").get.isUniqueLocal());
    }
    /**
@ -640,46 +655,110 @@ struct Address6
     *
     * Returns: text representation of this address.
     */
    deprecated("Use Address6.toString() instead")
    String stringify() const @nogc nothrow pure @safe
    {
        String output;
        foreach (i, b; this.address)
        {
            ubyte low = b & 0xf;
            ubyte high = b >> 4;
-            if (high < 10)
+        toString(backInserter(output));
        return output;
    }
    /**
     * Writes text representation of this address to an output range.
     *
     * Params:
     *  OR     = Type of the output range.
     *  output = Output range.
     *
     * Returns: $(D_PARAM output).
     */
    OR toString(OR)(OR output) const
    if (isOutputRange!(OR, const(char)[]))
    {
        ptrdiff_t largestGroupIndex = -1;
        size_t largestGroupSize;
        size_t zeroesInGroup;
        size_t groupIndex;
        // Look for the longest group of zeroes
        for (size_t i; i < this.address.length; i += 2)
        {
            if (this.address[i] == 0 && this.address[i + 1] == 0)
            {
-                output.insertBack(cast(char) (high + '0'));
+                if (zeroesInGroup++ == 0)
                {
                    groupIndex = i;
                }
            }
            else
            {
-                output.insertBack(cast(char) (high - 10 + 'a'));
+                zeroesInGroup = 0;
            }
-            if (low < 10)
+            if (zeroesInGroup > largestGroupSize && zeroesInGroup > 1)
            {
-                output.insertBack(cast(char) (low + '0'));
+                largestGroupSize = zeroesInGroup;
                largestGroupIndex = groupIndex;
            }
-            else
+        }
        // Write the address
        size_t i;
        if (largestGroupIndex != 0)
        {
            writeGroup(output, i);
        }
        if (largestGroupIndex != -1)
        {
            while (i < largestGroupIndex)
            {
-                output.insertBack(cast(char) (low - 10 + 'a'));
+                put(output, ":");
                writeGroup(output, i);
            }
-            if (i % 2 != 0 && i != (this.address.length - 1))
+            put(output, "::");
            i += largestGroupSize + 2;
            if (i < (this.address.length - 1))
            {
-                output.insertBack(':');
+                writeGroup(output, i);
            }
        }
        while (i < this.address.length - 1)
        {
            put(output, ":");
            writeGroup(output, i);
        }
        return output;
    }
    ///
    @nogc nothrow @safe unittest
    {
-        import tanya.algorithm.comparison : equal;
+        import tanya.container.string : String;
        import tanya.range : backInserter;
-        assert(equal(address6("1:2:3:4:5:6:7:8").stringify()[],
+        String actual;
-               "0001:0002:0003:0004:0005:0006:0007:0008"));
+
        address6("1:2:3:4:5:6:7:8").get.toString(backInserter(actual));
        assert(actual == "1:2:3:4:5:6:7:8");
    }
    private void writeGroup(OR)(ref OR output, ref size_t i) const
    {
        ubyte low = this.address[i] & 0xf;
        ubyte high = this.address[i] >> 4;
        bool groupStarted = writeHexDigit!OR(output, high);
        groupStarted = writeHexDigit!OR(output, low, groupStarted);
        ++i;
        low = this.address[i] & 0xf;
        high = this.address[i] >> 4;
        writeHexDigit!OR(output, high, groupStarted);
        put(output, low.toHexDigit.singleton);
        ++i;
    }
    /**
@ -697,17 +776,36 @@ struct Address6
    {
        auto actual = address6("1:2:3:4:5:6:7:8");
        ubyte[16] expected = [0, 1, 0, 2, 0, 3, 0, 4, 0, 5, 0, 6, 0, 7, 0, 8];
-        assert(actual.toBytes() == expected);
+        assert(actual.get.toBytes() == expected);
    }
 }
-private void write2Bytes(R)(ref R range, ubyte[] address)
+private void read2Bytes(R)(ref R range, ubyte[] address)
 {
    ushort group = readIntegral!ushort(range, 16);
    address[0] = cast(ubyte) (group >> 8);
    address[1] = group & 0xff;
 }
 private char toHexDigit(ubyte digit) @nogc nothrow pure @safe
 in (digit < 16)
 {
    return cast(char) (digit >= 10 ? (digit - 10 + 'a') : (digit + '0'));
 }
 private bool writeHexDigit(OR)(ref OR output,
                               ubyte digit,
                               bool groupStarted = false)
 in (digit < 16)
 {
    if (digit != 0 || groupStarted)
    {
        put(output, digit.toHexDigit.singleton);
        return true;
    }
    return groupStarted;
 }
 /**
 * Parses a string containing an IPv6 address.
 *
@ -716,20 +814,17 @@ private void write2Bytes(R)(ref R range, ubyte[] address)
 * is specified (i.e. first character after `%` is not a digit), the parser
 * tries to convert it to the ID of that interface. If the interface with the
 * given name can't be found, the parser doesn't fail, but just ignores the
- * invalid interface name.
+ * invalid interface name, scope ID is `0` then.
 *
 * If an ID is given (i.e. first character after `%` is a digit),
 * $(D_PSYMBOL address6) just stores it in $(D_PSYMBOL Address6.scopeID) without
 * checking whether an interface with this ID really exists. If the ID is
 * invalid (if it is too long or contains non decimal characters), parsing
- * and nothing is returned.
+ * fails and nothing is returned.
 *
 * If neither an ID nor a name is given, $(D_PSYMBOL Address6.scopeID) is set
 * to `0`.
 *
 * The parser doesn't support notation with an embedded IPv4 address (e.g.
 * ::1.2.3.4).
 *
 * Params:
 *  R     = Input range type.
 *  range = Stringish range containing the address.
@ -746,7 +841,6 @@ if (isForwardRange!R && is(Unqual!(ElementType!R) == char) && hasLength!R)
    }
    Address6 result;
    ubyte[12] tail;
    size_t i;
    size_t j;
    // An address begins with a number, not ':'. But there is a special case
@ -764,25 +858,43 @@ if (isForwardRange!R && is(Unqual!(ElementType!R) == char) && hasLength!R)
    // Parse the address before '::'.
    // This loop parses the whole address if it doesn't contain '::'.
-    for (; i < 13; i += 2)
+    static foreach (i; 0 .. 7)
    {
-        write2Bytes(range, result.address[i .. $]);
+        { // To make "state" definition local
-        if (range.empty || range.front != ':')
+            static if (i == 6) // Can be embedded IPv4
-        {
+            {
-            return typeof(return)();
+                auto state = range.save();
-        }
+            }
-        range.popFront();
+            read2Bytes(range, result.address[i * 2 .. $]);
-        if (range.empty)
+            if (range.empty)
-        {
+            {
-            return typeof(return)();
+                return typeof(return)();
-        }
+            }
-        if (range.front == ':')
+            static if (i == 6)
-        {
+            {
                if (range.front == '.')
                {
                    swap(range, state);
                    goto ParseIPv4;
                }
            }
            if (range.front != ':')
            {
                return typeof(return)();
            }
            range.popFront();
-            goto ParseTail;
+            if (range.empty)
            {
                return typeof(return)();
            }
            if (range.front == ':')
            {
                range.popFront();
                goto ParseTail;
            }
        }
    }
-    write2Bytes(range, result.address[14 .. $]);
+    read2Bytes(range, result.address[14 .. $]);
    if (range.empty)
    {
@ -810,28 +922,39 @@ ParseTail: // after ::
    {
        return typeof(return)();
    }
-    write2Bytes(range, tail[j .. $]);
+    { // To make "state" definition local
-    if (range.empty)
+        auto state = range.save();
    {
        goto CopyTail;
    }
    else if (range.front == '%')
    {
        goto ParseIface;
    }
    else if (range.front != ':')
    {
        return typeof(return)();
    }
    range.popFront();
-    for (i = 2, j = 2; i <= 11; i += 2, j += 2, range.popFront())
+        read2Bytes(range, tail[j .. $]);
        if (range.empty)
        {
            goto CopyTail;
        }
        else if (range.front == '%')
        {
            goto ParseIface;
        }
        else if (range.front == '.')
        {
            swap(range, state);
            goto ParseIPv4;
        }
        else if (range.front != ':')
        {
            return typeof(return)();
        }
        range.popFront();
    }
    j = 2;
    for (size_t i = 2; i <= 11; i += 2, j += 2, range.popFront())
    {
        if (range.empty || range.front == ':')
        {
            return typeof(return)();
        }
-        write2Bytes(range, tail[j .. $]);
+        auto state = range.save();
        read2Bytes(range, tail[j .. $]);
        if (range.empty)
        {
@ -841,12 +964,45 @@ ParseTail: // after ::
        {
            goto ParseIface;
        }
        else if (range.front == '.')
        {
            swap(range, state);
            goto ParseIPv4;
        }
        else if (range.front != ':')
        {
            return typeof(return)();
        }
    }
 ParseIPv4:
    // We know there is a number followed by '.'. We have to ensure this number
    // is an octet
    tail[j] = readIntegral!ubyte(range);
    static foreach (i; 1 .. 4)
    {
        if (range.empty || range.front != '.')
        {
            return typeof(return)();
        }
        range.popFront();
        if (range.empty)
        {
            return typeof(return)();
        }
        tail[j + i] = readIntegral!ubyte(range);
    }
    j += 2;
    if (range.empty)
    {
        goto CopyTail;
    }
    else if (range.front != '%')
    {
        return typeof(return)();
    }
 ParseIface: // Scope name or ID
    range.popFront();
    if (range.empty)
@ -875,41 +1031,6 @@ CopyTail:
    return typeof(return)(result);
 }
@nogc nothrow @safe unittest
 {
    {
        ubyte[16] expected = [0, 1, 0, 2, 0, 3, 0, 4, 0, 5, 0, 6, 0, 7, 0, 8];
        auto actual = address6("1:2:3:4:5:6:7:8");
        assert(actual.address == expected);
    }
    {
        ubyte[16] expected;
        auto actual = address6("::");
        assert(actual.address == expected);
    }
    {
        ubyte[16] expected = [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1];
        auto actual = address6("::1");
        assert(actual.address == expected);
    }
    {
        ubyte[16] expected = [0, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0];
        auto actual = address6("1::");
        assert(actual.address == expected);
    }
 }
 // Rejects malformed addresses
@nogc nothrow @safe unittest
 {
    assert(address6("").isNothing);
    assert(address6(":").isNothing);
    assert(address6(":a").isNothing);
    assert(address6("a:").isNothing);
    assert(address6("1:2:3:4::6:").isNothing);
    assert(address6("1:2:3:4::6:7:8%").isNothing);
 }
 /**
 * Constructs an $(D_PSYMBOL Address6) from raw bytes in network byte order and
 * the scope ID.
@ -959,3 +1080,252 @@ if (isInputRange!R && is(Unqual!(ElementType!R) == ubyte))
        assert(address6(cast(ubyte[]) []).isNothing);
    }
 }
 /**
 * Address storage, that can hold either an IPv4 or IPv6 address.
 */
 struct Address
 {
    private Variant!(Address4, Address6) address;
    @disable this();
    /**
     * Initializes the addres with an IPv4 address.
     *
     * Params:
     *  address = IPv6 address.
     */
    this(Address4 address) @nogc nothrow pure @safe
    {
        this.address = address;
    }
    /**
     * Initializes the addres with an IPv4 address.
     *
     * Params:
     *  address = IPv6 address.
     */
    this(Address6 address) @nogc nothrow pure @safe
    {
        this.address = address;
    }
    /**
     * Determines whether this is an IPv4 address.
     *
     * Returns: $(D_KEYWORD true) if this is an IPv4 address,
     *          $(D_KEYWORD false) otherwise.
     */
    bool isV4() const @nogc nothrow pure @safe
    {
        return this.address.peek!Address4;
    }
    ///
    @nogc nothrow pure @safe unittest
    {
        assert(Address(Address4.any()).isV4());
    }
    /**
     * Determines whether this is an IPv6 address.
     *
     * Returns: $(D_KEYWORD true) if this is an IPv6 address,
     *          $(D_KEYWORD false) otherwise.
     */
    bool isV6() const @nogc nothrow pure @safe
    {
        return this.address.peek!Address6;
    }
    ///
    @nogc nothrow pure @safe unittest
    {
        assert(Address(Address6.any()).isV6());
    }
    /**
     * Get the address as an IPv4 address.
     *
     * This method doesn't convert the address, so the address should be
     * already an IPv4 one.
     *
     * Returns: IPv4 address.
     *
     * Precondition: This is an IPv4 address.
     */
    ref inout(Address4) toV4() inout @nogc nothrow pure @safe
    in (this.address.peek!Address4)
    {
        return this.address.get!Address4;
    }
    ///
    @nogc nothrow pure @safe unittest
    {
        auto expected = Address4.loopback;
        assert(Address(expected).toV4() == expected);
    }
    /**
     * Get the address as an IPv6 address.
     *
     * This method doesn't convert the address, so the address should be
     * already an IPv6 one.
     *
     * Returns: IPv6 address.
     *
     * Precondition: This is an IPv6 address.
     */
    ref inout(Address6) toV6() inout @nogc nothrow pure @safe
    in (this.address.peek!Address6)
    {
        return this.address.get!Address6;
    }
    ///
    @nogc nothrow pure @safe unittest
    {
        auto expected = Address6.loopback;
        assert(Address(expected).toV6() == expected);
    }
    /**
     * Determines whether this is a loopback address.
     *
     * Returns: $(D_KEYWORD true) if this is a loopback address,
     *          $(D_KEYWORD false) otherwise.
     *
     * See_Also: $(D_PSYMBOL Address4.loopback),
     *           $(D_PSYMBOL Address6.loopback).
     */
    bool isLoopback() const @nogc nothrow pure @safe
    in (this.address.hasValue)
    {
        if (this.address.peek!Address4)
        {
            return this.address.get!Address4.isLoopback();
        }
        return this.address.get!Address6.isLoopback();
    }
    ///
    @nogc nothrow pure @safe unittest
    {
        assert(Address(Address4.loopback()).isLoopback());
        assert(Address(Address6.loopback()).isLoopback());
    }
    /**
     * Determines whether this address' destination is a group of endpoints.
     *
     * Returns: $(D_KEYWORD true) if this is a multicast address,
     *          $(D_KEYWORD false) otherwise.
     *
     * See_Also: $(D_PSYMBOL Address4.isMulticast),
     *           $(D_PSYMBOL Address6.isMulticast).
     */
    bool isMulticast() const @nogc nothrow pure @safe
    in (this.address.hasValue)
    {
        if (this.address.peek!Address4)
        {
            return this.address.get!Address4.isMulticast();
        }
        return this.address.get!Address6.isMulticast();
    }
    ///
    @nogc nothrow @safe unittest
    {
        assert(Address(address4("224.0.0.3").get).isMulticast());
        assert(Address(address6("ff00::").get).isMulticast());
    }
    /**
     * Determines whether this is an unspecified address.
     *
     * Returns: $(D_KEYWORD true) if this is an unspecified address,
     *          $(D_KEYWORD false) otherwise.
     *
     * See_Also: $(D_PSYMBOL Address4.isAny), $(D_PSYMBOL Address6.isAny).
     */
    bool isAny() const @nogc nothrow pure @safe
    in (this.address.hasValue)
    {
        if (this.address.peek!Address4)
        {
            return this.address.get!Address4.isAny();
        }
        return this.address.get!Address6.isAny();
    }
    ///
    @nogc nothrow pure @safe unittest
    {
        assert(Address(Address4.any).isAny());
        assert(Address(Address6.any).isAny());
    }
    /**
     * Compares two addresses for equality.
     *
     * Params:
     *  T    = The type of the other address. It can be $(D_PSYMBOL Address),
     *         $(D_PSYMBOL Address4) or $(D_PSYMBOL Address6).
     *  that = The address to compare with.
     *
     * Returns: $(D_KEYWORD true) if this and $(D_PARAM that) addresses are
     *          representations of the same IP address, $(D_KEYWORD false)
     *          otherwise.
     */
    bool opEquals(T)(T that) const
    if (is(Unqual!T == Address4) || is(Unqual!T == Address6))
    {
        alias AddressType = Unqual!T;
        if (this.address.peek!AddressType)
        {
            return this.address.get!AddressType == that;
        }
        return false;
    }
    ///
    @nogc nothrow pure @safe unittest
    {
        assert(Address(Address4.loopback) == Address4.loopback);
        assert(Address(Address6.loopback) == Address6.loopback);
        assert(Address(Address4.loopback) != Address6.loopback);
    }
    /// ditto
    bool opEquals(T)(T that) const
    if (is(Unqual!T == Address))
    {
        return this.address == that.address;
    }
    ///
    @nogc nothrow pure @safe unittest
    {
        assert(Address(Address6.loopback) == Address(Address6.loopback));
        assert(Address(Address4.loopback) != Address(Address6.loopback));
    }
    ref Address opAssign(T)(T that)
    if (is(Unqual!T == Address4) || is(Unqual!T == Address6))
    {
        this.address = that;
        return this;
    }
    ///
    @nogc nothrow pure @safe unittest
    {
        Address address = Address4.any;
        address = Address4.loopback;
        assert(address == Address4.loopback);
    }
 }
--- a/source/tanya/net/package.d
+++ b/source/tanya/net/package.d
@ -5,7 +5,7 @@
 /**
 * Network programming.
 *
- * Copyright: Eugene Wissner 2017-2018.
+ * Copyright: Eugene Wissner 2017-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
@ -14,5 +14,7 @@
 */
 module tanya.net;
 public import tanya.net.iface;
 public import tanya.net.inet;
 public import tanya.net.ip;
 public import tanya.net.uri;
--- a/source/tanya/net/uri.d
+++ b/source/tanya/net/uri.d
@ -5,7 +5,7 @@
 /**
 * URL parser.
 *
- * Copyright: Eugene Wissner 2017-2018.
+ * Copyright: Eugene Wissner 2017-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
@ -16,12 +16,7 @@ module tanya.net.uri;
 import tanya.conv;
 import tanya.encoding.ascii;
-import tanya.memory;
+import tanya.memory.allocator;
 version (unittest)
 {
    import tanya.test.assertion;
 }
 /**
 * Thrown if an invalid URI was specified.
@ -370,90 +365,6 @@ struct URL
    assert(u.fragment == "fragment");
 }
@nogc pure @system unittest
 {
    auto u = URL("127.0.0.1");
    assert(u.path == "127.0.0.1");
    u = URL("http://127.0.0.1");
    assert(u.scheme == "http");
    assert(u.host == "127.0.0.1");
    u = URL("http://127.0.0.1:9000");
    assert(u.scheme == "http");
    assert(u.host == "127.0.0.1");
    assert(u.port == 9000);
    u = URL("127.0.0.1:80");
    assert(u.host == "127.0.0.1");
    assert(u.port == 80);
    assert(u.path is null);
    u = URL("//example.net");
    assert(u.host == "example.net");
    assert(u.scheme is null);
    u = URL("//example.net?q=before:after");
    assert(u.host == "example.net");
    assert(u.query == "q=before:after");
    u = URL("localhost:8080");
    assert(u.host == "localhost");
    assert(u.port == 8080);
    assert(u.path is null);
    u = URL("ftp:");
    assert(u.scheme == "ftp");
    u = URL("file:///C:\\Users");
    assert(u.scheme == "file");
    assert(u.path == "C:\\Users");
    u = URL("localhost:66000");
    assert(u.scheme == "localhost");
    assert(u.path == "66000");
    u = URL("file:///home/");
    assert(u.scheme == "file");
    assert(u.path == "/home/");
    u = URL("file:///home/?q=asdf");
    assert(u.scheme == "file");
    assert(u.path == "/home/");
    assert(u.query == "q=asdf");
    u = URL("http://secret@example.org");
    assert(u.scheme == "http");
    assert(u.host == "example.org");
    assert(u.user == "secret");
    u = URL("h_tp://:80");
    assert(u.path == "h_tp://:80");
    assert(u.port == 0);
    u = URL("zlib:/home/user/file.gz");
    assert(u.scheme == "zlib");
    assert(u.path == "/home/user/file.gz");
    u = URL("h_tp:asdf");
    assert(u.path == "h_tp:asdf");
 }
@nogc pure @system unittest
 {
    assertThrown!URIException(() => URL("http://:80"));
    assertThrown!URIException(() => URL(":80"));
    assertThrown!URIException(() => URL("http://u1:p1@u2:p2@example.org"));
    assertThrown!URIException(() => URL("http://blah.com:port"));
    assertThrown!URIException(() => URL("http://blah.com:66000"));
 }
@nogc pure @system unittest
 {
    auto u = URL("ftp://");
    assert(u.scheme == "ftp");
 }
 /**
 * Attempts to parse an URL from a string and returns the specified component
 * of the URL or $(D_PSYMBOL URL) if no component is specified.
--- a/source/tanya/network/package.d
+++ b/source/tanya/network/package.d
@ -5,7 +5,7 @@
 /**
 * Network programming.
 *
- * Copyright: Eugene Wissner 2016-2018.
+ * Copyright: Eugene Wissner 2016-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
--- a/source/tanya/network/socket.d
+++ b/source/tanya/network/socket.d
@ -41,7 +41,7 @@
 * For an example of an asynchronous server refer to the documentation of the
 * $(D_PSYMBOL tanya.async.loop) module.
 *
- * Copyright: Eugene Wissner 2016-2018.
+ * Copyright: Eugene Wissner 2016-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
@ -53,10 +53,10 @@ module tanya.network.socket;
 import core.stdc.errno;
 import core.time;
 public import std.socket : SocketOption, SocketOptionLevel;
 import std.traits;
 import std.typecons;
 import tanya.algorithm.comparison;
-import tanya.memory;
+import tanya.bitmanip;
 import tanya.memory.allocator;
 import tanya.meta.trait;
 import tanya.os.error;
 /// Value returned by socket operations on error.
--- a/source/tanya/range/adapter.d
+++ b/source/tanya/range/adapter.d
@ -3,260 +3,202 @@
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
 /**
- * Range adapters.
+ * Range adapters transform some data structures into ranges.
 *
- * A range adapter wraps another range and modifies the way, how the original
+ * Copyright: Eugene Wissner 2018-2019.
 * range is iterated, or the order in which its elements are accessed.
 *
 * All adapters are lazy algorithms, they request the next element of the
 * adapted range on demand.
 *
 * Copyright: Eugene Wissner 2018.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
 * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/range/adapter.d,
 *                 tanya/range/adapter.d)
 */
 deprecated("Use tanya.algorithm.iteration instead")
 module tanya.range.adapter;
 import tanya.algorithm.mutation;
-import tanya.math;
+import tanya.memory.lifetime;
-import tanya.range.primitive;
+import tanya.meta.trait;
 import tanya.range;
-private mixin template Take(R, bool exactly)
+private mixin template InserterCtor()
 {
-    private R source;
+    private Container* container;
    size_t length_;
-    @disable this();
+    private this(return scope ref Container container) @trusted
    private this(R source, size_t length)
    {
-        this.source = source;
+        this.container = &container;
        static if (!exactly && hasLength!R)
        {
            this.length_ = min(source.length, length);
        }
        else
        {
            this.length_ = length;
        }
    }
    @property auto ref front()
    in
    {
        assert(!empty);
    }
    do
    {
        return this.source.front;
    }
    void popFront()
    in
    {
        assert(!empty);
    }
    do
    {
        this.source.popFront();
        --this.length_;
    }
    @property bool empty()
    {
        static if (exactly || isInfinite!R)
        {
            return length == 0;
        }
        else
        {
            return length == 0 || this.source.empty;
        }
    }
    @property size_t length()
    {
        return this.length_;
    }
    static if (hasAssignableElements!R)
    {
        @property void front(ref ElementType!R value)
        in
        {
            assert(!empty);
        }
        do
        {
            this.source.front = value;
        }
        @property void front(ElementType!R value)
        in
        {
            assert(!empty);
        }
        do
        {
            this.source.front = move(value);
        }
    }
    static if (isForwardRange!R)
    {
        typeof(this) save()
        {
            return typeof(this)(this.source.save(), length);
        }
    }
    static if (isRandomAccessRange!R)
    {
        @property auto ref back()
        in
        {
            assert(!empty);
        }
        do
        {
            return this.source[this.length - 1];
        }
        void popBack()
        in
        {
            assert(!empty);
        }
        do
        {
            --this.length_;
        }
        auto ref opIndex(size_t i)
        in
        {
            assert(i < length);
        }
        do
        {
            return this.source[i];
        }
        static if (hasAssignableElements!R)
        {
            @property void back(ref ElementType!R value)
            in
            {
                assert(!empty);
            }
            do
            {
                this.source[length - 1] = value;
            }
            @property void back(ElementType!R value)
            in
            {
                assert(!empty);
            }
            do
            {
                this.source[length - 1] = move(value);
            }
            void opIndexAssign(ref ElementType!R value, size_t i)
            in
            {
                assert(i < length);
            }
            do
            {
                this.source[i] = value;
            }
            void opIndexAssign(ElementType!R value, size_t i)
            in
            {
                assert(i < length);
            }
            do
            {
                this.source[i] = move(value);
            }
        }
    }
    static if (hasSlicing!R)
    {
        auto opSlice(size_t i, size_t j)
        in
        {
            assert(i <= j);
            assert(j <= length);
        }
        do
        {
            return take(this.source[i .. j], length);
        }
    }
 }
 /**
- * Takes $(D_PARAM n) elements from $(D_PARAM range).
+ * If $(D_PARAM container) is a container with `insertBack`-support,
 * $(D_PSYMBOL backInserter) returns an output range that puts the elements
 * into the container with `insertBack`.
 *
- * If $(D_PARAM range) doesn't have $(D_PARAM n) elements, the resulting range
+ * The resulting output range supports all types `insertBack` supports.
 * spans all elements of $(D_PARAM range).
 *
- * $(D_PSYMBOL take) is particulary useful with infinite ranges. You can take
+ * The range keeps a reference to the container passed to it, it doesn't use
- ` $(B n) elements from such range and pass the result to an algorithm which
+ * any other storage. So there is no method to get the written data out of the
- * expects a finit range.
+ * range - the container passed to $(D_PSYMBOL backInserter) contains that data
 * and can be used directly after all operations on the output range are
 * completed. It also means that the result range is not allowed to outlive its
 * container.
 *
 * Params:
- *  R     = Type of the adapted range.
+ *  Container = Container type.
- *  range = The range to take the elements from.
+ *  container = Container used as an output range.
 *  n     = The number of elements to take.
 *
- * Returns: A range containing maximum $(D_PARAM n) first elements of
+ * Returns: `insertBack`-based output range.
 *          $(D_PARAM range).
 *
 * See_Also: $(D_PSYMBOL takeExactly).
 */
-auto take(R)(R range, size_t n)
+auto backInserter(Container)(return scope ref Container container)
-if (isInputRange!R)
+if (hasMember!(Container, "insertBack"))
 {
-    struct Take
+    static struct Inserter
    {
-        mixin .Take!(R, false);
+        void opCall(T)(auto ref T data)
        {
            this.container.insertBack(forward!data);
        }
        mixin InserterCtor;
    }
-    return Take(range, n);
+    return Inserter(container);
 }
 ///
@nogc nothrow pure @safe unittest
 {
    static struct Container
    {
        int element;
        void insertBack(int element)
        {
            this.element = element;
        }
    }
    Container container;
    backInserter(container)(5);
    assert(container.element == 5);
 }
 /**
- * Takes exactly $(D_PARAM n) elements from $(D_PARAM range).
+ * If $(D_PARAM container) is a container with `insertFront`-support,
 * $(D_PSYMBOL frontInserter) returns an output range that puts the elements
 * into the container with `insertFront`.
 *
- * $(D_PARAM range) must have at least $(D_PARAM n) elements.
+ * The resulting output range supports all types `insertFront` supports.
 *
- * $(D_PSYMBOL takeExactly) is particulary useful with infinite ranges. You can
+ * The range keeps a reference to the container passed to it, it doesn't use
- ` take $(B n) elements from such range and pass the result to an algorithm
+ * any other storage. So there is no method to get the written data out of the
- * which expects a finit range.
+ * range - the container passed to $(D_PSYMBOL frontInserter) contains that data
 * and can be used directly after all operations on the output range are
 * completed. It also means that the result range is not allowed to outlive its
 * container.
 *
 * Params:
- *  R     = Type of the adapted range.
+ *  Container = Container type.
- *  range = The range to take the elements from.
+ *  container = Container used as an output range.
 *  n     = The number of elements to take.
 *
- * Returns: A range containing $(D_PARAM n) first elements of $(D_PARAM range).
+ * Returns: `insertFront`-based output range.
 *
 * See_Also: $(D_PSYMBOL take).
 */
-auto takeExactly(R)(R range, size_t n)
+auto frontInserter(Container)(return scope ref Container container)
-if (isInputRange!R)
+if (hasMember!(Container, "insertFront"))
 {
-    struct TakeExactly
+    static struct Inserter
    {
-        mixin Take!(R, true);
+        void opCall(T)(auto ref T data)
        {
            this.container.insertFront(forward!data);
        }
        mixin InserterCtor;
    }
-    return TakeExactly(range, n);
+    return Inserter(container);
 }
 ///
@nogc nothrow pure @safe unittest
 {
    static struct Container
    {
        int element;
        void insertFront(int element)
        {
            this.element = element;
        }
    }
    Container container;
    frontInserter(container)(5);
    assert(container.element == 5);
 }
 /**
 * $(D_PSYMBOL arrayInserter) makes an output range out of an array.
 *
 * The returned output range accepts single values as well as input ranges that
 * can be copied into the target array.
 *
 * Params:
 *  Array = Array type.
 *  array = Array.
 *
 * Returns: An output range writing into $(D_PARAM array).
 */
 auto arrayInserter(Array)(return scope ref Array array)
 if (isArray!Array)
 {
    static if (is(Array ArrayT : ArrayT[size], size_t size))
    {
        alias E = ArrayT;
    }
    else
    {
        alias E = ElementType!Array;
    }
    static struct ArrayInserter
    {
        private E[] data;
        private this(return scope ref Array data) @trusted
        {
            this.data = data[];
        }
        void opCall(T)(auto ref T data)
        if (is(T : E))
        in (!this.data.empty)
        {
            put(this.data, data);
        }
        void opCall(R)(auto ref R data)
        if (isInputRange!R && isOutputRange!(E[], ElementType!R))
        {
            this.data = copy(data, this.data);
        }
    }
    return ArrayInserter(array);
 }
 ///
@nogc nothrow pure @safe unittest
 {
    int[1] array;
    arrayInserter(array)(5);
    assert(array[0] == 5);
 }
 ///
@nogc nothrow pure @safe unittest
 {
    char[1] array;
    alias Actual = typeof(arrayInserter(array));
    static assert(isOutputRange!(Actual, char));
    static assert(isOutputRange!(Actual, char[]));
 }
--- a/source/tanya/range/array.d
+++ b/source/tanya/range/array.d
@ -31,7 +31,7 @@
 * (D_INLINECODE dchar[])) are treated as any other normal array, they aren't
 * auto-decoded.
 *
- * Copyright: Eugene Wissner 2017-2018.
+ * Copyright: Eugene Wissner 2017-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
@ -54,12 +54,8 @@ module tanya.range.array;
 *
 * Precondition: $(D_INLINECODE array.length > 0).
 */
-@property ref T front(T)(T[] array)
+@property ref inout(T) front(T)(return scope inout(T)[] array)
-in
+in (array.length > 0)
 {
    assert(array.length > 0);
 }
 do
 {
    return array[0];
 }
@ -94,12 +90,8 @@ do
 *
 * Precondition: $(D_INLINECODE array.length > 0).
 */
-@property ref T back(T)(T[] array)
+@property ref inout(T) back(T)(return scope inout(T)[] array)
-in
+in (array.length > 0)
 {
    assert(array.length > 0);
 }
 do
 {
    return array[$ - 1];
 }
@ -133,23 +125,15 @@ do
 *
 * Precondition: $(D_INLINECODE array.length > 0).
 */
-void popFront(T)(ref T[] array)
+void popFront(T)(scope ref inout(T)[] array)
-in
+in (array.length > 0)
 {
    assert(array.length > 0);
 }
 do
 {
    array = array[1 .. $];
 }
 /// ditto
-void popBack(T)(ref T[] array)
+void popBack(T)(scope ref inout(T)[] array)
-in
+in (array.length > 0)
 {
    assert(array.length > 0);
 }
 do
 {
    array = array[0 .. $ - 1];
 }
@ -178,7 +162,7 @@ do
 * Returns: $(D_KEYWORD true) if $(D_PARAM array) has no elements,
 *          $(D_KEYWORD false) otherwise.
 */
-@property bool empty(T)(const T[] array)
+@property bool empty(T)(scope const T[] array)
 {
    return array.length == 0;
 }
@ -203,7 +187,7 @@ do
 *
 * Returns: A copy of the slice $(D_PARAM array).
 */
-@property T[] save(T)(T[] array)
+@property inout(T)[] save(T)(return scope inout(T)[] array)
 {
    return array;
 }
--- a/source/tanya/range/package.d
+++ b/source/tanya/range/package.d
@ -6,7 +6,7 @@
 * This package contains generic functions and templates to be used with D
 * ranges.
 *
- * Copyright: Eugene Wissner 2017-2018.
+ * Copyright: Eugene Wissner 2017-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
--- a/source/tanya/range/primitive.d
+++ b/source/tanya/range/primitive.d
--- a/source/tanya/typecons.d
+++ b/source/tanya/typecons.d
@ -8,7 +8,7 @@
 * This module contains templates that allow to build new types from the
 * available ones.
 *
- * Copyright: Eugene Wissner 2017-2018.
+ * Copyright: Eugene Wissner 2017-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
@ -17,9 +17,8 @@
 */
 module tanya.typecons;
 import tanya.algorithm.mutation;
 import tanya.format;
-import tanya.functional;
+import tanya.memory.lifetime;
 import tanya.meta.metafunction;
 import tanya.meta.trait;
@ -117,25 +116,6 @@ template Tuple(Specs...)
    assert(pair[1] == "second");
 }
@nogc nothrow pure @safe unittest
 {
    static assert(is(Tuple!(int, int)));
    static assert(!is(Tuple!(int, 5)));
    static assert(is(Tuple!(int, "first", int)));
    static assert(is(Tuple!(int, "first", int, "second")));
    static assert(is(Tuple!(int, "first", int)));
    static assert(is(Tuple!(int, int, "second")));
    static assert(!is(Tuple!("first", int, "second", int)));
    static assert(!is(Tuple!(int, int, int)));
    static assert(!is(Tuple!(int, "first")));
    static assert(!is(Tuple!(int, double, char)));
    static assert(!is(Tuple!(int, "first", double, "second", char, "third")));
 }
 /**
 * Creates a new $(D_PSYMBOL Tuple).
 *
@ -226,11 +206,15 @@ struct Option(T)
     * Precondition: `!isNothing`.
     */
    @property ref inout(T) get() inout
-    in
+    in (!isNothing, "Option is nothing")
    {
-        assert(!isNothing, "Option is nothing");
+        return this.value;
    }
-    do
+
    /// ditto
    deprecated("Call Option.get explicitly instead of relying on alias this")
    @property ref inout(T) get_() inout
    in (!isNothing, "Option is nothing")
    {
        return this.value;
    }
@ -312,11 +296,7 @@ struct Option(T)
    /// ditto
    bool opEquals(U)(auto ref const U that) const
    if (ifTestable!(U, a => a == T.init) && !is(U == Option))
-    in
+    in (!isNothing)
    {
        assert(!isNothing);
    }
    do
    {
        return get == that;
    }
@ -366,8 +346,15 @@ struct Option(T)
    ref typeof(this) opAssign(U)(ref U that)
    if (is(U == Option))
    {
-        this.value = that;
+        if (that.isNothing)
-        this.isNothing_ = that.isNothing;
+        {
            reset();
        }
        else
        {
            this.value = that.get;
            this.isNothing_ = false;
        }
        return this;
    }
@ -398,7 +385,7 @@ struct Option(T)
        }
    }
-    alias get this;
+    alias get_ this;
 }
 ///
@ -417,122 +404,6 @@ struct Option(T)
    assert(option.isNothing);
 }
 // Assigns a new value
@nogc nothrow pure @safe unittest
 {
    {
        Option!int option = 5;
        option = 8;
        assert(!option.isNothing);
        assert(option == 8);
    }
    {
        Option!int option;
        const int newValue = 8;
        assert(option.isNothing);
        option = newValue;
        assert(!option.isNothing);
        assert(option == newValue);
    }
    {
        Option!int option1;
        Option!int option2 = 5;
        assert(option1.isNothing);
        option1 = option2;
        assert(!option1.isNothing);
        assert(option1.get == 5);
    }
 }
 // Constructs with a value passed by reference
@nogc nothrow pure @safe unittest
 {
    int i = 5;
    assert(Option!int(i).get == 5);
 }
 // Moving
@nogc nothrow pure @safe unittest
 {
    static struct NotCopyable
    {
        @disable this(this);
    }
    static assert(is(typeof(Option!NotCopyable(NotCopyable()))));
    // The value cannot be returned by reference because the default value
    // isn't passed by reference
    static assert(!is(typeof(Option!DisabledPostblit().or(NotCopyable()))));
    {
        NotCopyable notCopyable;
        static assert(is(typeof(Option!NotCopyable().or(notCopyable))));
    }
    {
        Option!NotCopyable option;
        assert(option.isNothing);
        option = NotCopyable();
        assert(!option.isNothing);
    }
    {
        Option!NotCopyable option;
        assert(option.isNothing);
        option = Option!NotCopyable(NotCopyable());
        assert(!option.isNothing);
    }
 }
 // Cast to bool is done before touching the encapsulated value
@nogc nothrow pure @safe unittest
 {
    assert(Option!bool(false));
 }
 // Option can be const
@nogc nothrow pure @safe unittest
 {
    assert((const Option!int(5)).get == 5);
    assert((const Option!int()).or(5) == 5);
 }
 // Equality
@nogc nothrow pure @safe unittest
 {
    assert(Option!int() == Option!int());
    assert(Option!int(0) != Option!int());
    assert(Option!int(5) == Option!int(5));
    assert(Option!int(5) == 5);
    assert(Option!int(5) == cast(ubyte) 5);
 }
 // Returns default value
@nogc nothrow pure @safe unittest
 {
    {
        int i = 5;
        assert(((ref e) => e)(Option!int().or(i)) == 5);
    }
 }
 // Implements toHash() for nothing
@nogc nothrow pure @safe unittest
 {
    static struct ToHash
    {
        size_t toHash() const @nogc nothrow pure @safe
        {
            return 1U;
        }
    }
    {
        Option!ToHash toHash;
        assert(toHash.toHash() == 0U);
    }
    {
        auto toHash = Option!ToHash(ToHash());
        assert(toHash.toHash() == 1U);
    }
 }
 /**
 * Creates a new $(D_PSYMBOL Option).
 *
@ -559,3 +430,272 @@ Option!T option(T)()
    assert(option!int().isNothing);
    assert(option(5) == 5);
 }
 /**
 * Type that can hold one of the types listed as its template parameters.
 *
 * $(D_PSYMBOL Variant) is a type similar to $(D_KEYWORD union), but
 * $(D_PSYMBOL Variant) keeps track of the actually used type and throws an
 * assertion error when trying to access an invalid type at runtime.
 *
 * Params:
 *  Specs = Types this $(D_SPYBMOL Variant) can hold.
 */
 template Variant(Specs...)
 if (isTypeTuple!Specs && NoDuplicates!Specs.length == Specs.length)
 {
    union AlignedUnion(Args...)
    {
        static if (Args.length > 0)
        {
            Args[0] value;
        }
        static if (Args.length > 1)
        {
            AlignedUnion!(Args[1 .. $]) rest;
        }
    }
    private struct VariantAccessorInfo
    {
        string accessor;
        ptrdiff_t tag;
    }
    template accessor(T, Union)
    {
        enum VariantAccessorInfo info = accessorImpl!(T, Union, 1);
        enum accessor = VariantAccessorInfo("this.values" ~ info.accessor, info.tag);
    }
    template accessorImpl(T, Union, size_t tag)
    {
        static if (is(T == typeof(Union.value)))
        {
            enum accessorImpl = VariantAccessorInfo(".value", tag);
        }
        else
        {
            enum VariantAccessorInfo info = accessorImpl!(T, typeof(Union.rest), tag + 1);
            enum accessorImpl = VariantAccessorInfo(".rest" ~ info.accessor, info.tag);
        }
    }
    struct Variant
    {
        /// Types can be present in this $(D_PSYMBOL Variant).
        alias Types = Specs;
        private ptrdiff_t tag = -1;
        private AlignedUnion!Types values;
        /**
         * Constructs this $(D_PSYMBOL Variant) with one of the types supported
         * in it.
         *
         * Params:
         *  T     = Type of the initial value.
         *  value = Initial value.
         */
        this(T)(ref T value)
        if (canFind!(T, Types))
        {
            copyAssign!T(value);
        }
        /// ditto
        this(T)(T value)
        if (canFind!(T, Types))
        {
            moveAssign!T(value);
        }
        ~this()
        {
            reset();
        }
        this(this)
        {
            alias pred(U) = hasElaborateCopyConstructor!(U.Seq[1]);
            static foreach (Type; Filter!(pred, Enumerate!Types))
            {
                if (this.tag == Type.Seq[0])
                {
                    get!(Type.Seq[1]).__postblit();
                }
            }
        }
        /**
         * Tells whether this $(D_PSYMBOL Variant) is initialized.
         *
         * Returns: $(D_KEYWORD true) if this $(D_PSYMBOL Variant) contains a
         *          value, $(D_KEYWORD false) otherwise.
         */
        bool hasValue() const
        {
            return this.tag != -1;
        }
        /**
         * Tells whether this $(D_PSYMBOL Variant) holds currently a value of
         * type $(D_PARAM T).
         *
         * Params:
         *  T = Examined type.
         *
         * Returns: $(D_KEYWORD true) if this $(D_PSYMBOL Variant) currently
         *          contains a value of type $(D_PARAM T), $(D_KEYWORD false)
         *          otherwise.
         */
        bool peek(T)() const
        if (canFind!(T, Types))
        {
            return this.tag == staticIndexOf!(T, Types);
        }
        /**
         * Returns the underlying value, assuming it is of the type $(D_PARAM T).
         *
         * Params:
         *  T = Type of the value should be returned.
         *
         * Returns: The underyling value.
         *
         * Precondition: The $(D_PSYMBOL Variant) has a value.
         *
         * See_Also: $(D_PSYMBOL peek), $(D_PSYMBOL hasValue).
         */
        ref inout(T) get(T)() inout
        if (canFind!(T, Types))
        in (this.tag == staticIndexOf!(T, Types), "Variant isn't initialized")
        {
            mixin("return " ~ accessor!(T, AlignedUnion!Types).accessor ~ ";");
        }
        /**
         * Reassigns the value.
         *
         * Params:
         *  T    = Type of the new value
         *  that = New value.
         *
         * Returns: $(D_KEYWORD this).
         */
        ref typeof(this) opAssign(T)(T that)
        if (canFind!(T, Types))
        {
            reset();
            return moveAssign!T(that);
        }
        /// ditto
        ref typeof(this) opAssign(T)(ref T that)
        if (canFind!(T, Types))
        {
            reset();
            return copyAssign!T(that);
        }
        private ref typeof(this) moveAssign(T)(ref T that) @trusted
        {
            this.tag = staticIndexOf!(T, Types);
            enum string accessorMixin = accessor!(T, AlignedUnion!Types).accessor;
            moveEmplace(that, mixin(accessorMixin));
            return this;
        }
        private ref typeof(this) copyAssign(T)(ref T that) return
        {
            this.tag = staticIndexOf!(T, Types);
            enum string accessorMixin = accessor!(T, AlignedUnion!Types).accessor;
            emplace!T((() @trusted => (&mixin(accessorMixin))[0 .. 1])(), that);
            return this;
        }
        private void reset()
        {
            alias pred(U) = hasElaborateDestructor!(U.Seq[1]);
            static foreach (Type; Filter!(pred, Enumerate!Types))
            {
                if (this.tag == Type.Seq[0])
                {
                    destroy(get!(Type.Seq[1]));
                }
            }
        }
        /**
         * Returns $(D_PSYMBOL TypeInfo) corresponding to the current type.
         *
         * If this $(D_PSYMBOL Variant) isn't initialized, returns
         * $(D_KEYWORD null).
         *
         * Returns: $(D_PSYMBOL TypeInfo) of the current type.
         */
        @property TypeInfo type()
        {
            static foreach (i, Type; Types)
            {
                if (this.tag == i)
                {
                    return typeid(Type);
                }
            }
            return null;
        }
        /**
         * Compares this $(D_PSYMBOL Variant) with another one with the same
         * specification for equality.
         *
         * $(UL
         *  $(LI If both hold values of the same type, these values are
         *       compared.)
         *  $(LI If they hold values of different types, then the
         *       $(D_PSYMBOL Variant)s aren't equal.)
         *  $(LI If only one of them is initialized but another one not, they
         *       aren't equal.)
         *  $(LI If neither of them is initialized, they are equal.)
         * )
         *
         * Params:
         *  that = The $(D_PSYMBOL Variant) to compare with.
         *
         * Returns: $(D_KEYWORD true) if this $(D_PSYMBOL Variant) is equal to
         *          $(D_PARAM that), $(D_KEYWORD false) otherwise.
         */
        bool opEquals()(auto ref inout Variant that) inout
        {
            if (this.tag != that.tag)
            {
                return false;
            }
            static foreach (i, Type; Types)
            {
                if (this.tag == i)
                {
                    return get!Type == that.get!Type;
                }
            }
            return true;
        }
    }
 }
 ///
@nogc nothrow pure @safe unittest
 {
    Variant!(int, double) variant = 5;
    assert(variant.peek!int);
    assert(variant.get!int == 5);
    variant = 5.4;
    assert(!variant.peek!int);
    assert(variant.get!double == 5.4);
 }
--- a/sys/dub.json
+++ b/sys/dub.json
@ -0,0 +1,13 @@
 {
 	"name": "sys",
 	"description": "Low-level operating system bindings and definitions",
 	"targetType": "library",
 	"sourcePaths": [
 		"."
 	],
 	"importPaths": [
 		"."
 	],
 	"dflags-dmd": ["-dip1000"]
 }
--- a/source/tanya/sys/linux/syscall.d
+++ b/source/tanya/sys/linux/syscall.d
@ -3,12 +3,10 @@
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
 /*
- * Copyright: Eugene Wissner 2018.
+ * Copyright: Eugene Wissner 2018-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
 * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/sys/linux/syscall.d,
 *                 tanya/sys/linux/syscall.d)
 */
 module tanya.sys.linux.syscall;
--- a/source/tanya/sys/posix/ioctl.d
+++ b/source/tanya/sys/posix/ioctl.d
@ -3,12 +3,10 @@
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
 /*
- * Copyright: Eugene Wissner 2018.
+ * Copyright: Eugene Wissner 2018-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
 * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/sys/posix/ioctl.d,
 *                 tanya/sys/posix/ioctl.d)
 */
 module tanya.sys.posix.ioctl;
--- a/source/tanya/sys/posix/mman.d
+++ b/source/tanya/sys/posix/mman.d
@ -3,12 +3,10 @@
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
 /*
- * Copyright: Eugene Wissner 2018.
+ * Copyright: Eugene Wissner 2018-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
 * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/sys/posix/mman.d,
 *                 tanya/sys/posix/mman.d)
 */
 module tanya.sys.posix.mman;
--- a/source/tanya/sys/posix/net/if_.d
+++ b/source/tanya/sys/posix/net/if_.d
@ -3,12 +3,10 @@
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
 /*
- * Copyright: Eugene Wissner 2018.
+ * Copyright: Eugene Wissner 2018-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
 * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/sys/posix/net/if_.d,
 *                 tanya/sys/posix/net/if_.d)
 */
 module tanya.sys.posix.net.if_;
--- a/source/tanya/sys/posix/socket.d
+++ b/source/tanya/sys/posix/socket.d
@ -3,12 +3,10 @@
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
 /*
- * Copyright: Eugene Wissner 2018.
+ * Copyright: Eugene Wissner 2018-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
 * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/sys/posix/socket.d,
 *                 tanya/sys/posix/socket.d)
 */
 module tanya.sys.posix.socket;
--- a/source/tanya/sys/windows/def.d
+++ b/source/tanya/sys/windows/def.d
@ -16,12 +16,10 @@
 * defined here.
 * Also aliases for specific types like $(D_PSYMBOL SOCKET) are defined here.
 *
- * Copyright: Eugene Wissner 2017-2018.
+ * Copyright: Eugene Wissner 2017-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
 * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/sys/windows/def.d,
 *                 tanya/sys/windows/def.d)
 */
 module tanya.sys.windows.def;
--- a/source/tanya/sys/windows/ifdef.d
+++ b/source/tanya/sys/windows/ifdef.d
@ -3,12 +3,10 @@
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
 /**
- * Copyright: Eugene Wissner 2018.
+ * Copyright: Eugene Wissner 2018-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
 * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/sys/windows/ifdef.d,
 *                 tanya/sys/windows/ifdef.d)
 */
 module tanya.sys.windows.ifdef;
--- a/source/tanya/sys/windows/iphlpapi.d
+++ b/source/tanya/sys/windows/iphlpapi.d
@ -3,12 +3,10 @@
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
 /**
- * Copyright: Eugene Wissner 2018.
+ * Copyright: Eugene Wissner 2018-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
 * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/sys/windows/iphlpapi.d,
 *                 tanya/sys/windows/iphlpapi.d)
 */
 module tanya.sys.windows.iphlpapi;
--- a/source/tanya/sys/windows/package.d
+++ b/source/tanya/sys/windows/package.d
@ -3,12 +3,10 @@
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
 /**
- * Copyright: Eugene Wissner 2017-2018.
+ * Copyright: Eugene Wissner 2017-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
 * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/sys/windows/package.d,
 *                 tanya/sys/windows/package.d)
 */
 module tanya.sys.windows;
--- a/source/tanya/sys/windows/winbase.d
+++ b/source/tanya/sys/windows/winbase.d
@ -5,12 +5,10 @@
 /**
 * Definitions from winbase.h.
 *
- * Copyright: Eugene Wissner 2017-2018.
+ * Copyright: Eugene Wissner 2017-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
 * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/sys/windows/winbase.d,
 *                 tanya/sys/windows/winbase.d)
 */
 module tanya.sys.windows.winbase;
--- a/source/tanya/sys/windows/winsock2.d
+++ b/source/tanya/sys/windows/winsock2.d
@ -5,12 +5,10 @@
 /**
 * Definitions from winsock2.h, ws2def.h and MSWSock.h.
 *
- * Copyright: Eugene Wissner 2017-2018.
+ * Copyright: Eugene Wissner 2017-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
 * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/sys/windows/winsock2.d,
 *                 tanya/sys/windows/winsock2.d)
 */
 module tanya.sys.windows.winsock2;
--- a/test/dub.json
+++ b/test/dub.json
@ -0,0 +1,17 @@
 {
 	"name": "test",
 	"description": "Test suite for unittest-blocks",
 	"targetType": "library",
 	"dependencies": {
 		"tanya:middle": "*"
 	},
 	"sourcePaths": [
 		"."
 	],
 	"importPaths": [
 		"."
 	],
 	"dflags-dmd": ["-dip1000"]
 }
--- a/source/tanya/test/assertion.d
+++ b/source/tanya/test/assertion.d
@ -13,7 +13,7 @@
 * The functions can cause segmentation fault if the module is compiled
 * in production mode and the condition fails.
 *
- * Copyright: Eugene Wissner 2017-2018.
+ * Copyright: Eugene Wissner 2017-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
@ -22,7 +22,7 @@
 */
 module tanya.test.assertion;
-import tanya.memory;
+import tanya.memory.allocator;
 import tanya.meta.trait;
 /**
--- a/source/tanya/test/package.d
+++ b/source/tanya/test/package.d
@ -5,7 +5,7 @@
 /**
 * Test suite for $(D_KEYWORD unittest)-blocks.
 *
- * Copyright: Eugene Wissner 2017-2018.
+ * Copyright: Eugene Wissner 2017-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
@ -15,3 +15,4 @@
 module tanya.test;
 public import tanya.test.assertion;
 public import tanya.test.stub;
--- a/test/tanya/test/stub.d
+++ b/test/tanya/test/stub.d
@ -0,0 +1,373 @@
 /* This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
 /**
 * Range and generic type generators.
 *
 * Copyright: Eugene Wissner 2018-2019.
 * License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
 *                  Mozilla Public License, v. 2.0).
 * Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
 * Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/test/stub.d,
 *                 tanya/test/stub.d)
 */
 module tanya.test.stub;
 /**
 * Attribute signalizing that the generated range should contain the given
 * number of elements.
 *
 * $(D_PSYMBOL Count) should be always specified with some value and not as a
 * type, so $(D_INLINECODE Count(1)) instead just $(D_INLINECODE Count),
 * otherwise you can just omit $(D_PSYMBOL Count) and it will default to 0.
 *
 * $(D_PSYMBOL Count) doesn't generate `.length` property - use
 * $(D_PSYMBOL Length) for that.
 *
 * If neither $(D_PSYMBOL Length) nor $(D_PSYMBOL Infinite) is given,
 * $(D_ILNINECODE Count(0)) is assumed.
 *
 * This attribute conflicts with $(D_PSYMBOL Infinite) and $(D_PSYMBOL Length).
 */
 struct Count
 {
    /// Original range length.
    size_t count = 0;
    @disable this();
    /**
     * Constructs the attribute with the given length.
     *
     * Params:
     *  count = Original range length.
     */
    this(size_t count) @nogc nothrow pure @safe
    {
        this.count = count;
    }
 }
 /**
 * Attribute signalizing that the generated range should be infinite.
 *
 * This attribute conflicts with $(D_PSYMBOL Count) and $(D_PSYMBOL Length).
 */
 struct Infinite
 {
 }
 /**
 * Generates `.length` property for the range.
 *
 * The length of the range can be specified as a constructor argument,
 * otherwise it is 0.
 *
 * This attribute conflicts with $(D_PSYMBOL Count) and $(D_PSYMBOL Infinite).
 */
 struct Length
 {
    /// Original range length.
    size_t length = 0;
 }
 /**
 * Attribute signalizing that the generated range should return values by
 * reference.
 *
 * This atribute affects the return values of `.front`, `.back` and `[]`.
 */
 struct WithLvalueElements
 {
 }
 /**
 * Generates an input range.
 *
 * Params:
 *  E = Element type.
 */
 mixin template InputRangeStub(E = int)
 {
    import tanya.meta.metafunction : Alias;
    import tanya.meta.trait : evalUDA, getUDAs, hasUDA;
    /*
     * Aliases for the attribute lookups to access them faster
     */
    private enum bool infinite = hasUDA!(typeof(this), Infinite);
    private enum bool withLvalueElements = hasUDA!(typeof(this),
                                                   WithLvalueElements);
    private alias Count = getUDAs!(typeof(this), .Count);
    private alias Length = getUDAs!(typeof(this), .Length);
    static if (Count.length != 0)
    {
        private enum size_t count = Count[0].count;
        static assert (!infinite,
                       "Range cannot have count and be infinite at the same time");
        static assert (Length.length == 0,
                       "Range cannot have count and length at the same time");
    }
    else static if (Length.length != 0)
    {
        private enum size_t count = evalUDA!(Length[0]).length;
        static assert (!infinite,
                       "Range cannot have length and be infinite at the same time");
    }
    else static if (!infinite)
    {
        private enum size_t count = 0;
    }
    /*
     * Member generation
     */
    static if (infinite)
    {
        enum bool empty = false;
    }
    else
    {
        private size_t length_ = count;
        @property bool empty() const @nogc nothrow pure @safe
        {
            return this.length_ == 0;
        }
    }
    static if (withLvalueElements)
    {
        private E* element; // Pointer to enable range copying in save()
    }
    void popFront() @nogc nothrow pure @safe
    in (!empty)
    {
        static if (!infinite)
        {
            --this.length_;
        }
    }
    static if (withLvalueElements)
    {
        ref E front() @nogc nothrow pure @safe
        in (!empty)
        {
            return *this.element;
        }
    }
    else
    {
        E front() @nogc nothrow pure @safe
        in (!empty)
        {
            return E.init;
        }
    }
    static if (Length.length != 0)
    {
        size_t length() const @nogc nothrow pure @safe
        {
            return this.length_;
        }
    }
 }
 /**
 * Generates a forward range.
 *
 * This mixin includes input range primitives as well, but can be combined with
 * $(D_PSYMBOL RandomAccessRangeStub).
 *
 * Params:
 *  E = Element type.
 */
 mixin template ForwardRangeStub(E = int)
 {
    static if (!is(typeof(this.InputRangeMixin) == void))
    {
        mixin InputRangeStub!E InputRangeMixin;
    }
    auto save() @nogc nothrow pure @safe
    {
        return this;
    }
 }
 /**
 * Generates a bidirectional range.
 *
 * This mixin includes forward range primitives as well, but can be combined with
 * $(D_PSYMBOL RandomAccessRangeStub).
 *
 * Params:
 *  E = Element type.
 */
 mixin template BidirectionalRangeStub(E = int)
 {
    mixin ForwardRangeStub!E;
    void popBack() @nogc nothrow pure @safe
    in (!empty)
    {
        static if (!infinite)
        {
            --this.length_;
        }
    }
    static if (withLvalueElements)
    {
        ref E back() @nogc nothrow pure @safe
        in (!empty)
        {
            return *this.element;
        }
    }
    else
    {
        E back() @nogc nothrow pure @safe
        in (!empty)
        {
            return E.init;
        }
    }
 }
 /**
 * Generates a random-access range.
 *
 * This mixin includes input range primitives as well, but can be combined with
 * $(D_PSYMBOL ForwardRangeStub) or $(D_PSYMBOL BidirectionalRangeStub).
 *
 * Note that a random-access range also requires $(D_PSYMBOL Length) or
 * $(D_PARAM Infinite) by definition.
 *
 * Params:
 *  E = Element type.
 */
 mixin template RandomAccessRangeStub(E = int)
 {
    static if (!is(typeof(this.InputRangeMixin) == void))
    {
        mixin InputRangeStub!E InputRangeMixin;
    }
    static if (withLvalueElements)
    {
        ref E opIndex(size_t) @nogc nothrow pure @safe
        {
            return *this.element;
        }
    }
    else
    {
        E opIndex(size_t) @nogc nothrow pure @safe
        {
            return E.init;
        }
    }
 }
 /**
 * Struct with a disabled postblit constructor.
 *
 * $(D_PSYMBOL NonCopyable) can be used as an attribute for
 * $(D_PSYMBOL StructStub) or as a standalone type.
 */
 struct NonCopyable
 {
    @disable this(this);
 }
 /**
 * Struct with an elaborate destructor.
 *
 * $(D_PSYMBOL WithDtor) can be used as an attribute for
 * $(D_PSYMBOL StructStub) or as a standalone type.
 *
 * When used as a standalone object the constructor of $(D_PSYMBOL WithDtor)
 * accepts an additional `counter` argument, which is incremented by the
 * destructor. $(D_PSYMBOL WithDtor) stores a pointer to the passed variable,
 * so the variable can be investigated after the struct isn't available
 * anymore.
 */
 struct WithDtor
 {
    size_t* counter;
    this(ref size_t counter) @nogc nothrow pure @trusted
    {
        this.counter = &counter;
    }
    ~this() @nogc nothrow pure @safe
    {
        if (this.counter !is null)
        {
            ++*this.counter;
        }
    }
 }
 /**
 * Struct supporting hashing.
 *
 * $(D_PSYMBOL Hashable) can be used as an attribute for
 * $(D_PSYMBOL StructStub) or as a standalone type.
 *
 * The constructor accepts an additional parameter, which is returned by the
 * `toHash()`-function. `0U` is returned if no hash value is given.
 */
 struct Hashable
 {
    size_t hash;
    size_t toHash() const @nogc nothrow pure @safe
    {
        return this.hash;
    }
 }
 /**
 * Generates a $(D_KEYWORD struct) with common functionality.
 *
 * To specify the needed functionality use user-defined attributes on the
 * $(D_KEYWORD struct) $(D_PSYMBOL StructStub) is mixed in.
 *
 * Supported attributes are: $(D_PSYMBOL NonCopyable), $(D_PSYMBOL Hashable),
 * $(D_PSYMBOL WithDtor).
 */
 mixin template StructStub()
 {
    import tanya.meta.trait : evalUDA, getUDAs, hasUDA;
    static if (hasUDA!(typeof(this), NonCopyable))
    {
        @disable this(this);
    }
    private alias Hashable = getUDAs!(typeof(this), .Hashable);
    static if (Hashable.length > 0)
    {
        size_t toHash() const @nogc nothrow pure @safe
        {
            return evalUDA!(Hashable[0]).hash;
        }
    }
    static if (hasUDA!(typeof(this), WithDtor))
    {
        ~this() @nogc nothrow pure @safe
        {
        }
    }
 }
--- a/tests/tanya/algorithm/tests/comparison.d
+++ b/tests/tanya/algorithm/tests/comparison.d
@ -0,0 +1,97 @@
 /* This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
 module tanya.algorithm.tests.comparison;
 import tanya.algorithm.comparison;
 import tanya.math;
 import tanya.range;
@nogc nothrow pure @safe unittest
 {
    static assert(!is(typeof(min(1, 1UL))));
 }
@nogc nothrow pure @safe unittest
 {
    assert(min(5, 3) == 3);
    assert(min(4, 4) == 4);
    assert(min(5.2, 3.0) == 3.0);
    assert(min(5.2, double.nan) == 5.2);
    assert(min(double.nan, 3.0) == 3.0);
    assert(isNaN(min(double.nan, double.nan)));
 }
@nogc nothrow pure @safe unittest
 {
    assert(min(cast(ubyte[]) []).empty);
 }
@nogc nothrow pure @safe unittest
 {
    static assert(!is(typeof(max(1, 1UL))));
 }
@nogc nothrow pure @safe unittest
 {
    assert(max(5, 3) == 5);
    assert(max(4, 4) == 4);
    assert(max(5.2, 3.0) == 5.2);
    assert(max(5.2, double.nan) == 5.2);
    assert(max(double.nan, 3.0) == 3.0);
    assert(isNaN(max(double.nan, double.nan)));
 }
@nogc nothrow pure @safe unittest
 {
    assert(max(cast(ubyte[]) []).empty);
 }
 // min/max compare const and mutable structs.
@nogc nothrow pure @safe unittest
 {
    static struct S
    {
        int s;
        int opCmp(typeof(this) that) const @nogc nothrow pure @safe
        {
            return this.s - that.s;
        }
    }
    {
        const s1 = S(1);
        assert(min(s1, S(2)).s == 1);
        assert(max(s1, S(2)).s == 2);
    }
    {
        auto s2 = S(2), s3 = S(3);
        assert(min(s2, s3).s == 2);
        assert(max(s2, s3).s == 3);
    }
 }
@nogc nothrow pure @safe unittest
 {
    static struct OpCmp(int value)
    {
        int opCmp(OpCmp) @nogc nothrow pure @safe
        {
            return value;
        }
    }
    {
        OpCmp!(-1)[1] range;
        assert(compare(range[], range[]) < 0);
    }
    {
        OpCmp!1[1] range;
        assert(compare(range[], range[]) > 0);
    }
    {
        OpCmp!0[1] range;
        assert(compare(range[], range[]) == 0);
    }
 }
--- a/tests/tanya/algorithm/tests/iteration.d
+++ b/tests/tanya/algorithm/tests/iteration.d
@ -0,0 +1,127 @@
 /* This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
 module tanya.algorithm.tests.iteration;
 import tanya.algorithm.iteration;
 import tanya.range;
 import tanya.test.stub;
 // length is unknown when taking from a range without length
@nogc nothrow pure @safe unittest
 {
    static struct R
    {
        mixin InputRangeStub;
    }
    auto actual = take(R(), 100);
    static assert(!hasLength!(typeof(actual)));
 }
 // Takes minimum length if the range length > n
@nogc nothrow pure @safe unittest
 {
    auto range = take(cast(int[]) null, 8);
    assert(range.length == 0);
 }
@nogc nothrow pure @safe unittest
 {
    const int[9] range = [1, 2, 3, 4, 5, 6, 7, 8, 9];
    {
        auto slice = take(range[], 8)[1 .. 3];
        assert(slice.length == 2);
        assert(slice.front == 2);
        assert(slice.back == 3);
    }
    {
        auto slice = takeExactly(range[], 8)[1 .. 3];
        assert(slice.length == 2);
        assert(slice.front == 2);
        assert(slice.back == 3);
    }
 }
 // Elements are accessible in reverse order
@nogc nothrow pure @safe unittest
 {
    const int[3] given = [1, 2, 3];
    auto actual = retro(given[]);
    assert(actual.back == given[].front);
    assert(actual[0] == 3);
    assert(actual[2] == 1);
    actual.popBack();
    assert(actual.back == 2);
    assert(actual[1] == 2);
    // Check slicing.
    auto slice = retro(given[])[1 .. $];
    assert(slice.length == 2 && slice.front == 2 && slice.back == 1);
 }
 // Elements can be assigned
@nogc nothrow pure @safe unittest
 {
    int[4] given = [1, 2, 3, 4];
    auto actual = retro(given[]);
    actual.front = 5;
    assert(given[].back == 5);
    actual.back = 8;
    assert(given[].front == 8);
    actual[2] = 10;
    assert(given[1] == 10);
 }
 // Singleton range is bidirectional and random-access
@nogc nothrow pure @safe unittest
 {
    static assert(isBidirectionalRange!(typeof(singleton('a'))));
    static assert(isRandomAccessRange!(typeof(singleton('a'))));
    assert({ char a; return isBidirectionalRange!(typeof(singleton(a))); });
    assert({ char a; return isRandomAccessRange!(typeof(singleton(a))); });
 }
@nogc nothrow pure @safe unittest
 {
    char a = 'a';
    auto single = singleton(a);
    assert(single.front == 'a');
    assert(single.back == 'a');
    assert(single[0] == 'a');
    assert(single.length == 1);
    assert(!single.empty);
 }
 // popFront makes SingletonByRef empty
@nogc nothrow pure @safe unittest
 {
    char a = 'a';
    auto single = singleton(a);
    single.popFront();
    assert(single.empty);
    assert(single.length == 0);
    assert(single.empty);
 }
 // popBack makes SingletonByRef empty
@nogc nothrow pure @safe unittest
 {
    char a = 'b';
    auto single = singleton(a);
    single.popBack();
    assert(single.empty);
    assert(single.length == 0);
    assert(single.empty);
 }
--- a/tests/tanya/algorithm/tests/mutation.d
+++ b/tests/tanya/algorithm/tests/mutation.d
@ -0,0 +1,128 @@
 /* This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
 module tanya.algorithm.tests.mutation;
 import tanya.algorithm.mutation;
 import tanya.range;
 import tanya.test.stub;
 // Returns advanced target
@nogc nothrow pure @safe unittest
 {
    int[5] input = [1, 2, 3, 4, 5];
    assert(copy(input[3 .. 5], input[]).front == 3);
 }
 // Copies overlapping arrays
@nogc nothrow pure @safe unittest
 {
    import tanya.algorithm.comparison : equal;
    int[6] actual = [1, 2, 3, 4, 5, 6];
    const int[6] expected = [1, 2, 1, 2, 3, 4];
    copy(actual[0 .. 4], actual[2 .. 6]);
    assert(equal(actual[], expected[]));
 }
@nogc nothrow pure @safe unittest
 {
    static assert(is(typeof(copy((ubyte[]).init, (ushort[]).init))));
    static assert(!is(typeof(copy((ushort[]).init, (ubyte[]).init))));
 }
@nogc nothrow pure @safe unittest
 {
    static struct OutPutRange
    {
        int value;
        void opCall(int value) @nogc nothrow pure @safe
        in (this.value == 0)
        {
            this.value = value;
        }
    }
    int[1] source = [5];
    OutPutRange target;
    assert(copy(source[], target).value == 5);
 }
 // [] is called where possible
@nogc nothrow pure @system unittest
 {
    static struct Slice
    {
        bool* slicingCalled;
        int front() @nogc nothrow pure @safe
        {
            return 0;
        }
        void front(int) @nogc nothrow pure @safe
        {
        }
        void popFront() @nogc nothrow pure @safe
        {
        }
        bool empty() @nogc nothrow pure @safe
        {
            return true;
        }
        void opIndexAssign(int) @nogc nothrow pure @safe
        {
            *this.slicingCalled = true;
        }
    }
    bool slicingCalled;
    auto range = Slice(&slicingCalled);
    fill(range, 0);
    assert(slicingCalled);
 }
@nogc nothrow pure @safe unittest
 {
    NonCopyable[] nonCopyable;
    initializeAll(nonCopyable);
 }
@nogc nothrow pure @safe unittest
 {
    import tanya.algorithm.comparison : equal;
    const int[5] expected = [1, 2, 3, 4, 5];
    int[5] actual = [4, 5, 1, 2, 3];
    rotate(actual[0 .. 2], actual[2 .. $]);
    assert(equal(actual[], expected[]));
 }
 // Doesn't cause an infinite loop if back is shorter than the front
@nogc nothrow pure @safe unittest
 {
    import tanya.algorithm.comparison : equal;
    const int[5] expected = [1, 2, 3, 4, 5];
    int[5] actual = [3, 4, 5, 1, 2];
    rotate(actual[0 .. 3], actual[3 .. $]);
    assert(equal(actual[], expected[]));
 }
 // Doesn't call .front on an empty front
@nogc nothrow pure @safe unittest
 {
    import tanya.algorithm.comparison : equal;
    const int[2] expected = [2, 8];
    int[2] actual = expected;
    rotate(actual[0 .. 0], actual[]);
    assert(equal(actual[], expected[]));
 }
--- a/tests/tanya/algorithm/tests/searching.d
+++ b/tests/tanya/algorithm/tests/searching.d
@ -0,0 +1,17 @@
 /* This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
 module tanya.algorithm.tests.searching;
 import tanya.algorithm.searching;
 import tanya.test.stub;
@nogc nothrow pure @safe unittest
 {
    @Count(3)
    static struct Range
    {
        mixin InputRangeStub!int;
    }
    assert(count(Range()) == 3);
 }
--- a/tests/tanya/async/tests/loop.d
+++ b/tests/tanya/async/tests/loop.d
@ -0,0 +1,97 @@
 /* This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
 module tanya.async.tests.loop;
 import core.time;
 import tanya.async.loop;
 import tanya.async.watcher;
 import tanya.memory.allocator;
 private final class DummyWatcher : Watcher
 {
    bool invoked;
    override void invoke() @nogc
    {
        this.invoked = true;
    }
 }
 private final class TestLoop : Loop
 {
    override protected bool reify(SocketWatcher watcher,
                                  EventMask oldEvents,
                                  EventMask events) @nogc
    {
        return true;
    }
    override protected void poll() @nogc
    {
        assert(!this.done);
        unloop();
    }
    override protected @property uint maxEvents()
    const pure nothrow @safe @nogc
    {
        return 64U;
    }
    @nogc @system unittest
    {
        auto loop = defaultAllocator.make!TestLoop;
        assert(loop.blockTime == 1.dur!"minutes");
        loop.blockTime = 2.dur!"minutes";
        assert(loop.blockTime == 2.dur!"minutes");
        defaultAllocator.dispose(loop);
    }
    @nogc @system unittest
    {
        auto loop = defaultAllocator.make!TestLoop;
        assert(loop.done);
        loop.run();
        assert(loop.done);
        defaultAllocator.dispose(loop);
    }
    @nogc @system unittest
    {
        auto loop = defaultAllocator.make!TestLoop;
        auto watcher = defaultAllocator.make!DummyWatcher;
        loop.pendings.insertBack(watcher);
        assert(!watcher.invoked);
        loop.run();
        assert(watcher.invoked);
        defaultAllocator.dispose(loop);
        defaultAllocator.dispose(watcher);
    }
 }
@nogc @system unittest
 {
    auto loop = defaultAllocator.make!TestLoop;
    assert(loop.maxEvents == 64);
    defaultAllocator.dispose(loop);
 }
@nogc @system unittest
 {
    auto oldLoop = defaultLoop;
    auto loop = defaultAllocator.make!TestLoop;
    defaultLoop = loop;
    assert(defaultLoop is loop);
    defaultLoop = oldLoop;
    defaultAllocator.dispose(loop);
 }
--- a/tests/tanya/container/tests/array.d
+++ b/tests/tanya/container/tests/array.d
@ -0,0 +1,196 @@
 /* This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
 module tanya.container.tests.array;
 import tanya.algorithm.comparison;
 import tanya.container.array;
 import tanya.memory.allocator;
 import tanya.test.stub;
 // const arrays return usable ranges
@nogc nothrow pure @safe unittest
 {
    auto v = const Array!int([1, 2, 4]);
    auto r1 = v[];
    assert(r1.back == 4);
    r1.popBack();
    assert(r1.back == 2);
    r1.popBack();
    assert(r1.back == 1);
    r1.popBack();
    assert(r1.length == 0);
    static assert(!is(typeof(r1[0] = 5)));
    static assert(!is(typeof(v[0] = 5)));
    const r2 = r1[];
    static assert(is(typeof(r2[])));
 }
@nogc nothrow pure @safe unittest
 {
    Array!int v1;
    const Array!int v2;
    auto r1 = v1[];
    auto r2 = v1[];
    assert(r1.length == 0);
    assert(r2.empty);
    assert(r1 == r2);
    v1.insertBack([1, 2, 4]);
    assert(v1[] == v1);
    assert(v2[] == v2);
    assert(v2[] != v1);
    assert(v1[] != v2);
    assert(v1[].equal(v1[]));
    assert(v2[].equal(v2[]));
    assert(!v1[].equal(v2[]));
 }
@nogc nothrow pure @safe unittest
 {
    struct MutableEqualsStruct
    {
        bool opEquals(typeof(this) that) @nogc nothrow pure @safe
        {
            return true;
        }
    }
    struct ConstEqualsStruct
    {
        bool opEquals(const typeof(this) that) const @nogc nothrow pure @safe
        {
            return true;
        }
    }
    auto v1 = Array!ConstEqualsStruct();
    auto v2 = Array!ConstEqualsStruct();
    assert(v1 == v2);
    assert(v1[] == v2);
    assert(v1 == v2[]);
    assert(v1[].equal(v2[]));
    auto v3 = const Array!ConstEqualsStruct();
    auto v4 = const Array!ConstEqualsStruct();
    assert(v3 == v4);
    assert(v3[] == v4);
    assert(v3 == v4[]);
    assert(v3[].equal(v4[]));
    auto v7 = Array!MutableEqualsStruct(1, MutableEqualsStruct());
    auto v8 = Array!MutableEqualsStruct(1, MutableEqualsStruct());
    assert(v7 == v8);
    assert(v7[] == v8);
    assert(v7 == v8[]);
    assert(v7[].equal(v8[]));
 }
 // Destructor can destroy empty arrays
@nogc nothrow pure @safe unittest
 {
    auto v = Array!WithDtor();
 }
@nogc nothrow pure @safe unittest
 {
    class A
    {
    }
    A a1, a2;
    auto v1 = Array!A([a1, a2]);
    static assert(is(Array!(A*)));
 }
@nogc nothrow pure @safe unittest
 {
    auto v = Array!int([5, 15, 8]);
    {
        size_t i;
        foreach (e; v)
        {
            assert(i != 0 || e == 5);
            assert(i != 1 || e == 15);
            assert(i != 2 || e == 8);
            ++i;
        }
        assert(i == 3);
    }
    {
        size_t i = 3;
        foreach_reverse (e; v)
        {
            --i;
            assert(i != 2 || e == 8);
            assert(i != 1 || e == 15);
            assert(i != 0 || e == 5);
        }
        assert(i == 0);
    }
 }
 // const constructor tests
@nogc nothrow pure @system unittest
 {
    auto v1 = const Array!int([1, 2, 3]);
    auto v2 = Array!int(v1);
    assert(v1.get !is v2.get);
    assert(v1 == v2);
    auto v3 = const Array!int(Array!int([1, 2, 3]));
    assert(v1 == v3);
    assert(v3.length == 3);
    assert(v3.capacity == 3);
 }
@nogc nothrow pure @safe unittest
 {
    auto v1 = Array!int(defaultAllocator);
 }
@nogc nothrow pure @safe unittest
 {
    Array!int v;
    auto r = v[];
    assert(r.length == 0);
    assert(r.empty);
 }
@nogc nothrow pure @safe unittest
 {
    auto v1 = const Array!int([5, 15, 8]);
    Array!int v2;
    v2 = v1[0 .. 2];
    assert(equal(v1[0 .. 2], v2[]));
 }
 // Move assignment
@nogc nothrow pure @safe unittest
 {
    Array!int v1;
    v1 = Array!int([5, 15, 8]);
 }
 // Postblit is safe
@nogc nothrow pure @safe unittest
 {
    auto array = Array!int(3);
    void func(Array!int arg)
    {
        assert(arg.capacity == 3);
    }
    func(array);
 }
 // Can have non-copyable elements
@nogc nothrow pure @safe unittest
 {
    static assert(is(Array!NonCopyable));
    static assert(is(typeof({ Array!NonCopyable.init[0] = NonCopyable(); })));
 }
--- a/tests/tanya/container/tests/buffer.d
+++ b/tests/tanya/container/tests/buffer.d
@ -0,0 +1,17 @@
 /* This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
 module tanya.container.tests.buffer;
 import tanya.container.buffer;
@nogc nothrow pure @safe unittest
 {
    static assert(is(ReadBuffer!int));
 }
@nogc nothrow pure @safe unittest
 {
    static assert(is(typeof(WriteBuffer!int(5))));
 }
--- a/tests/tanya/container/tests/entry.d
+++ b/tests/tanya/container/tests/entry.d
@ -0,0 +1,17 @@
 /* This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
 module tanya.container.tests.entry;
 import tanya.container.entry;
 import tanya.test.stub;
 // Can be constructed with non-copyable key/values
@nogc nothrow pure @safe unittest
 {
    static assert(is(Bucket!NonCopyable));
    static assert(is(Bucket!(NonCopyable, NonCopyable)));
    static assert(is(HashArray!((ref NonCopyable) => 0U, NonCopyable)));
    static assert(is(HashArray!((ref NonCopyable) => 0U, NonCopyable, NonCopyable)));
 }
--- a/tests/tanya/container/tests/hashtable.d
+++ b/tests/tanya/container/tests/hashtable.d
@ -0,0 +1,133 @@
 /* This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
 module tanya.container.tests.hashtable;
 import tanya.container.hashtable;
 import tanya.test.stub;
@nogc nothrow pure @safe unittest
 {
    import tanya.range.primitive : isForwardRange;
    static assert(is(HashTable!(string, int) a));
    static assert(is(const HashTable!(string, int)));
    static assert(isForwardRange!(HashTable!(string, int).Range));
    static assert(is(HashTable!(int, int, (ref const int) => size_t.init)));
    static assert(is(HashTable!(int, int, (int) => size_t.init)));
 }
 // Constructs by reference
@nogc nothrow pure @safe unittest
 {
    auto hashTable1 = HashTable!(string, int)(7);
    auto hashTable2 = HashTable!(string, int)(hashTable1);
    assert(hashTable1.length == hashTable2.length);
    assert(hashTable1.capacity == hashTable2.capacity);
 }
 // Constructs by value
@nogc nothrow pure @safe unittest
 {
    auto hashTable = HashTable!(string, int)(HashTable!(string, int)(7));
    assert(hashTable.capacity == 7);
 }
 // Assigns by reference
@nogc nothrow pure @safe unittest
 {
    auto hashTable1 = HashTable!(string, int)(7);
    HashTable!(string, int) hashTable2;
    hashTable1 = hashTable2;
    assert(hashTable1.length == hashTable2.length);
    assert(hashTable1.capacity == hashTable2.capacity);
 }
 // Assigns by value
@nogc nothrow pure @safe unittest
 {
    HashTable!(string, int) hashTable;
    hashTable = HashTable!(string, int)(7);
    assert(hashTable.capacity == 7);
 }
 // Postblit copies
@nogc nothrow pure @safe unittest
 {
    auto hashTable = HashTable!(string, int)(7);
    void testFunc(HashTable!(string, int) hashTable)
    {
        assert(hashTable.capacity == 7);
    }
    testFunc(hashTable);
 }
 // Issue 53: https://github.com/caraus-ecms/tanya/issues/53
@nogc nothrow pure @safe unittest
 {
    {
        HashTable!(uint, uint) hashTable;
        foreach (uint i; 0 .. 14)
        {
            hashTable[i + 1] = i;
        }
        assert(hashTable.length == 14);
    }
    {
        HashTable!(int, int) hashtable;
        hashtable[1194250162] = 3;
        hashtable[-1131293824] = 6;
        hashtable[838100082] = 9;
        hashtable.rehash(11);
        assert(hashtable[-1131293824] == 6);
    }
 }
@nogc nothrow pure @safe unittest
 {
    static struct String
    {
        bool opEquals(string) const @nogc nothrow pure @safe
        {
            return true;
        }
        bool opEquals(ref const string) const @nogc nothrow pure @safe
        {
            return true;
        }
        bool opEquals(String) const @nogc nothrow pure @safe
        {
            return true;
        }
        bool opEquals(ref const String) const @nogc nothrow pure @safe
        {
            return true;
        }
        size_t toHash() const @nogc nothrow pure @safe
        {
            return 0;
        }
    }
    static assert(is(typeof("asdf" in HashTable!(String, int)())));
    static assert(is(typeof(HashTable!(String, int)()["asdf"])));
 }
 // Can have non-copyable keys and elements
@nogc nothrow pure @safe unittest
 {
    @NonCopyable @Hashable
    static struct S
    {
        mixin StructStub;
    }
    static assert(is(HashTable!(S, int)));
    static assert(is(HashTable!(int, S)));
    static assert(is(HashTable!(S, S)));
 }
--- a/tests/tanya/container/tests/list.d
+++ b/tests/tanya/container/tests/list.d
@ -0,0 +1,120 @@
 /* This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
 module tanya.container.tests.list;
 import tanya.container.list;
 import tanya.test.stub;
@nogc nothrow pure @safe unittest
 {
    interface Stuff
    {
    }
    static assert(is(SList!Stuff));
 }
@nogc nothrow pure @safe unittest
 {
    auto l = SList!int(0, 0);
    assert(l.empty);
 }
 // foreach called using opIndex().
@nogc nothrow pure @safe unittest
 {
    SList!int l;
    size_t i;
    l.insertFront(5);
    l.insertFront(4);
    l.insertFront(9);
    foreach (e; l)
    {
        assert(i != 0 || e == 9);
        assert(i != 1 || e == 4);
        assert(i != 2 || e == 5);
        ++i;
    }
 }
@nogc nothrow pure @safe unittest
 {
    auto l1 = SList!int();
    auto l2 = SList!int([9, 4]);
    l1 = l2[];
    assert(l1 == l2);
 }
@nogc nothrow pure @safe unittest
 {
    class A
    {
    }
    static assert(is(SList!(A*)));
    static assert(is(DList!(A*)));
 }
 // Removes all elements
@nogc nothrow pure @safe unittest
 {
    auto l = DList!int([5]);
    assert(l.remove(l[]).empty);
 }
@nogc nothrow pure @safe unittest
 {
    auto l1 = DList!int([5, 234, 30, 1]);
    auto l2 = DList!int([5, 1]);
    auto r = l1[];
    r.popFront();
    r.popBack();
    assert(r.front == 234);
    assert(r.back == 30);
    assert(!l1.remove(r).empty);
    assert(l1 == l2);
 }
@nogc nothrow pure @safe unittest
 {
    auto l = DList!int(0, 0);
    assert(l.empty);
 }
@nogc nothrow pure @safe unittest
 {
    DList!int l;
    l.insertAfter(l[], 234);
    assert(l.front == 234);
    assert(l.back == 234);
 }
@nogc nothrow pure @safe unittest
 {
    auto l1 = DList!int();
    auto l2 = DList!int([9, 4]);
    l1 = l2[];
    assert(l1 == l2);
 }
 // Sets the new head
@nogc nothrow pure @safe unittest
 {
    auto l1 = DList!int([5, 234, 30, 1]);
    auto l2 = DList!int([1]);
    auto r = l1[];
    r.popBack();
    assert(!l1.remove(r).empty);
    assert(l1 == l2);
 }
 // Can have non-copyable elements
@nogc nothrow pure @safe unittest
 {
    static assert(is(SList!NonCopyable));
    static assert(is(DList!NonCopyable));
 }
--- a/Show More
+++ b/Show More
Author	SHA1	Message	Date
Eugen Wissner	c68b8d1bdd	Update compiler, remove deprecated modules	2020-05-04 06:03:45 +02:00
Eugen Wissner	048939410c	Deprecate Integer and isPseudoprime()	2019-09-03 09:13:29 +02:00
Eugen Wissner	c69282a8df	Work around 2.086 bugs	2019-08-28 20:50:15 +02:00
Eugen Wissner	0a973b46ba	Add algorithm.iteration.foldr	2019-04-24 06:53:08 +02:00
Eugene Wissner	73535568b7	Merge pull request #87 from n8sh/getAndPopFrontSafety Ensure getAndPopFront/getAndPopBack don't promote `system` to `safe`	2019-04-22 10:50:58 +02:00
Nathan Sashihara	b2a1a849f8	Ensure getAndPopFront/getAndPopBack don't promote `system` to `safe`	2019-04-19 09:34:30 -04:00
Eugen Wissner	76bda0ac8d	Add getAndPopFront()/getAndPopBack()	2019-04-17 06:27:18 +02:00
Eugen Wissner	f214f3baa2	Add algorithm.iteration.foldl	2019-04-16 07:20:52 +02:00
Eugen Wissner	f66935f40d	Build with -dip1000. Fix #85	2019-04-15 07:05:56 +02:00
Eugen Wissner	9814e5ad8e	Pass allocator in all HashTable/Set constructors	2019-04-14 09:07:22 +02:00
Eugen Wissner	e6c6a2d21a	Make Array.get system function .get() returns a memory block that can be changed if the original array is manipulated after getting the slice. So the slice returned by .get() may allow access to invalid memory.	2019-04-05 08:58:22 +02:00
Eugen Wissner	d55eac3bac	Refactor allSatisfy, anySatisfy, staticIndexOf	2019-04-03 18:34:39 +02:00
Eugene Wissner	b55bb767e5	Merge pull request #84 from n8sh/inoutConstIteration In tanya.algorithm.iteration.take & retro preserve const/inout for `empty`/`front`/etc.	2019-03-29 08:36:50 +01:00
Eugen Wissner	2b8471fe34	Add meta.trait.hasFunctionAttributes	2019-03-24 21:59:29 +01:00
Nathan Sashihara	10afe47bae	In tanya.algorithm.iteration.take & retro preserve const/inout for `empty`/`front`/etc.	2019-03-23 23:41:20 -04:00
Eugen Wissner	76f2cd7080	Add DIP25 compatibility. Fix #83	2019-03-23 06:42:50 +01:00
Eugen Wissner	ad46afb10b	Move memory/package.d into memory.allocator	2019-03-22 08:18:01 +01:00
Eugen Wissner	a36b51f0c3	Fix MmapPool private tests; move remaining tests	2019-03-21 14:54:16 +01:00
Eugen Wissner	0fe7308a22	algorithm: import searching publically	2019-03-20 07:30:47 +01:00
Eugen Wissner	20c7e47ff7	net: Add missing public imports, move tests	2019-03-19 08:47:39 +01:00
Eugen Wissner	484cb13317	Separate non-documentation tests from the code	2019-03-19 07:45:52 +01:00
Eugen Wissner	5ab99cf887	Move memory functions into memory.lifecycle - move - moveEmplace - forward - emplace - swap	2019-03-17 10:56:44 +01:00
Eugen Wissner	85d7a2b9ca	Move memory exception into memory.lifecycle	2019-03-16 10:35:28 +01:00
Eugen Wissner	b458c6a380	Make subpackages of os, sys and encoding	2019-03-05 20:47:02 +01:00
Eugen Wissner	5b850d532e	Move meta into a separate subpackage	2019-03-02 08:08:10 +01:00
Eugen Wissner	d7dfa3f6f1	net.ip.Address6.toString() recommended notation Fix #65.	2019-03-01 08:28:36 +01:00
Eugen Wissner	8fd0452cd0	algorithm.iteration: Add singleton() ... iterating over a single value.	2019-02-25 09:27:03 +01:00
Eugen Wissner	df99ea45f2	range.adapter: new arrayInserter	2019-02-24 13:14:30 +01:00
Eugen Wissner	87ba58098e	format.sformat: Support range-based toString()	2019-02-19 06:39:39 +01:00
Eugen Wissner	5a134ce768	net.ip: Implement .toString() with output ranges	2019-02-16 08:37:45 +01:00
Eugen Wissner	0835edce1d	range.adapter: Add container-range adapters. Fix #67	2019-02-16 08:36:50 +01:00
Nathan Sashihara	a786bdbec5	Use word-wise hash instead of FNV-1a for arrays of word-aligned scalars Also special case int-aligned scalars on 64-bit machines. On a 64-bit machine hashing an array of pointers is now ~5.95x faster with LDC2 and ~8.54x faster with DMD, and hashing an array of ints is ~3.34x faster with LDC2 and ~8.12x faster with DMD.	2019-02-12 10:34:18 -05:00
Eugen Wissner	0bef2ef76d	Add sformat() writing to an output range	2019-02-12 07:37:24 +01:00
Eugen Wissner	1d3d750adb	Update dmd to 2.084.1	2019-02-11 22:14:59 +01:00
Eugen Wissner	0c8f1eb4ce	Deprecate InputRange source for OutputRanges An output range for E won't be automatically an output range for [E] anymore. The same, an output range for [E] won't be automatically an output range for E. Automatic E <-> [E] conversion seems to be a nice feature at first glance, but it causes much ambiguity. 1) If I want that my output range accepts only UTF-8 strings but not single characters (because it could be only part of a code point and look like broken UTF-8 without the remaining code units), I can't do it because an OutputRange(R, E) can't distinguish between char and string. 2) Here is an example from 2013: import std.range; import std.stdio; Appender!(const(char)[][]) app; put(app, "aasdf"); put(app, 'b'); writeln(app.data); This outputs: ["aasdf", "\0"]. Whether it is a common case or not, such code just shouldn't compile.	2019-02-06 07:26:28 +01:00
Eugen Wissner	bf197a6554	Deprecate put() as an OutputRange primitive	2019-02-04 10:49:12 +01:00
Eugen Wissner	7af5c30820	move(): Give compiler an opportunity to optimize Fix #75.	2019-02-01 06:33:41 +01:00
Eugen Wissner	c1535e8752	typecons.Variant: Make public. Fix #73	2019-01-31 06:33:19 +01:00
Eugen Wissner	5453f6417f	typecons.Option: Deprecate alias this	2019-01-30 06:58:02 +01:00
Eugen Wissner	410b865df9	typecons.Option: Fix assigning nothing	2019-01-29 08:24:58 +01:00
Eugen Wissner	4566cf7857	meta.metafunction: Add Enumerate and EnumerateFrom	2019-01-28 08:30:54 +01:00
Eugen Wissner	0a2798cc96	Call postblit when emplacing a struct. Fix #81	2019-01-27 07:18:53 +01:00
Eugen Wissner	a505a033ab	net.ip.Address: Address4/Address6 compatibility	2019-01-25 13:07:32 +01:00
Eugen Wissner	1f02ba5042	net.ip: Add Address4 and Address6 wrapper	2019-01-24 07:14:15 +01:00
Eugen Wissner	50aaa170fb	Merge remote-tracking branch 'n8sh/retro-slicing'	2019-01-09 18:17:41 +01:00
Nathan Sashihara	ff7d20f167	retro supports slicing if source range supports slicing	2019-01-08 20:19:53 -05:00
Eugen Wissner	03e21d4368	Remove deprecated memory.op.cmp and Entropy class	2018-12-21 20:05:23 +01:00
Eugen Wissner	c293c6c809	container.array: Fix assigning non-copyable values Fix #59.	2018-12-18 05:37:52 +01:00
Eugen Wissner	e93898d837	Update dmd to 2.083.1	2018-12-17 18:04:36 +01:00
Eugen Wissner	49d7452b33	Make containers work with non-copyable elements It is the first step. The containers can be at least created with non-copyable structs without compilation errors now. Fix #69.	2018-11-24 06:25:55 +01:00
Eugen Wissner	884dc30953	Fix emplacing POD structs	2018-11-23 13:36:31 +01:00
Eugen Wissner	e67a05138e	range.primitive: Support non copyable elements ... in all ranges.	2018-11-19 21:37:58 +01:00
Eugen Wissner	7585bf59e7	Add test.stub. Fix #51	2018-11-18 06:32:10 +01:00
Eugen Wissner	0a121d9d19	Disable length when taking from a lengthless range Fix #79.	2018-11-13 08:29:51 +01:00
Eugen Wissner	9e6f5c3105	Add algorithm.mutation.rotate	2018-11-12 07:54:52 +01:00
Eugen Wissner	3f66782368	Add support for DMD 2.083.0	2018-11-11 07:27:25 +01:00
Eugen Wissner	3c8f6e3435	Merge remote-tracking branch 'n8sh/take-slice'	2018-11-07 07:08:52 +01:00
Eugen Wissner	ee8b7ef719	Merge remote-tracking branch 'retro-retro'	2018-11-06 16:59:57 +01:00
Nathan Sashihara	6b22cd60df	take(take(range,...),n) is take(range, n) and use slicing in `take` like in `takeExactly` Also take!R is the same as takeExactly!R when isInfinite!R.	2018-11-05 22:49:10 -05:00
Nathan Sashihara	c290c85088	retro(retro(range)) is range	2018-11-05 18:43:58 -05:00
Nathan Sashihara	65e2e344df	Use inout in tanya.range.array functions This is to reduce distinct generated functions in final executable. Also add `scope` and `return` to function parameters.	2018-11-05 16:40:48 -05:00
Eugen Wissner	184d307e40	Add range primitive sameHead	2018-11-04 06:31:38 +01:00
Eugen Wissner	8aec781e2a	memory.op.equal: Fix parameter documentation	2018-10-30 12:57:09 +01:00
Eugen Wissner	1e46109e50	algorithm.mutation.destroyAll: New Fix #71.	2018-10-29 11:14:33 +01:00
Eugene Wissner	64ceb0330c	Merge pull request #74 from n8sh/128-bit-fnv Add FNV constants for size_t == ucent	2018-10-25 20:05:21 +02:00
Nathan Sashihara	b230685595	Add FNV constants for size_t == ucent	2018-10-25 07:07:29 -04:00
Eugen Wissner	ff58b5e81c	Add algorithm.mutation.initializeAll	2018-10-24 08:14:15 +02:00
Eugen Wissner	373a192b3a	Make hasLvalueElements work with non-copyable	2018-10-22 08:39:38 +02:00
Nathan Sashihara	4e8c9bd28f	Use new __traits(isZeroInit) to check for a null initializer at compile time instead of runtime	2018-10-21 18:52:02 -04:00
Eugen Wissner	3b5709821a	Add algorithm.mutation.uninitializedFill	2018-10-20 10:42:01 +02:00
Eugen Wissner	a04a04bb96	conv.emplace: Don't call a destructor Don't call the destructor on uninitialized elements.	2018-10-14 11:30:02 +02:00
Eugen Wissner	d0d682ca65	Update dmd to 2.082.1, Update GDC .gitignore	2018-10-12 19:57:49 +02:00
Eugen Wissner	6d01680685	conv.emplace: Fix emplacing structs w/o this()	2018-10-08 17:51:59 +02:00
Eugen Wissner	4f9927a8c3	Add algorithm.mutation.fill()	2018-10-06 16:00:08 +02:00
Eugen Wissner	a8b18d7603	Deprecate Entropy (leaving platform sources alone) Also introduces unavoidable breaking change in EntropySource interface: poll() returns Option!ubyte instead of Nullable.	2018-10-05 13:23:57 +02:00
Eugen Wissner	9364112690	net.ip: Parse embedded Ipv4. Fix #64	2018-10-03 20:49:14 +02:00
Eugen Wissner	772e87739c	Replace memory.op.cmp with optimized equal version Deprecate cmp. Fix #68.	2018-10-02 08:55:29 +02:00
Eugen Wissner	2a90a812db	Add algorithm.searching.count	2018-09-30 15:25:10 +02:00
Eugen Wissner	e68fcc3a38	Remove code deprecated in 0.11.2 and earlier - conv.to!String - meta.metafunction.Tuple - range.adapter.take - range.adapter.takeExactly - range.primitive: put()-ting input range into an output one	2018-09-29 09:00:43 +02:00