Update compiler, remove deprecated modules

This commit is contained in:
Eugen Wissner 2020-05-04 06:03:45 +02:00
parent 048939410c
commit c68b8d1bdd
14 changed files with 13 additions and 2206 deletions

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@ -7,11 +7,11 @@ os:
language: d language: d
d: d:
- dmd-2.087.1 - dmd-2.091.1
env: env:
global: global:
- LATEST=2.087.1 - LATEST=2.091.1
matrix: matrix:
- ARCH=x86_64 - ARCH=x86_64

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@ -174,7 +174,7 @@ parameter is used)
| DMD | GCC | | DMD | GCC |
|:-------:|:---------:| |:-------:|:---------:|
| 2.087.1 | gdc trunk | | 2.091.1 | gdc trunk |
## Further characteristics ## Further characteristics

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@ -4,10 +4,10 @@ os: Visual Studio 2015
environment: environment:
matrix: matrix:
- DC: dmd - DC: dmd
DVersion: 2.087.1 DVersion: 2.091.1
arch: x64 arch: x64
- DC: dmd - DC: dmd
DVersion: 2.087.1 DVersion: 2.091.1
arch: x86 arch: x86
skip_tags: true skip_tags: true

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@ -43,14 +43,14 @@ import tanya.meta.trait;
*/ */
template Unqual(T) template Unqual(T)
{ {
static if (is(T U == const U) 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 == immutable U)
|| is(T U == inout U) || is(T U == inout U)
|| is(T U == inout const U) || is(T U == shared 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; alias Unqual = U;
} }
@ -138,8 +138,6 @@ template OriginalType(T)
* To = Target type. * To = Target type.
* *
* Returns: $(D_PARAM To) with the constness of $(D_PARAM From). * Returns: $(D_PARAM To) with the constness of $(D_PARAM From).
*
* See_Also: $(D_PSYMBOL CopyTypeQualifiers).
*/ */
template CopyConstness(From, To) template CopyConstness(From, To)
{ {
@ -185,187 +183,6 @@ template CopyConstness(From, To)
static assert(is(CopyConstness!(immutable int, const 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*`. * Retrieves the target type `U` of a pointer `U*`.
* *
@ -445,37 +262,6 @@ template ValueType(T)
static assert(!is(ValueType!(int[15]))); 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). * Adds $(D_KEYWORD inout) qualifier to the type $(D_PARAM T).
* *
@ -604,86 +390,6 @@ alias SharedInoutConstOf(T) = shared(inout const T);
static assert(is(SharedInoutConstOf!int == shared inout const int)); 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, * 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) aliases itself to $(D_PARAM T).
@ -719,142 +425,6 @@ if (isExpressions!T || __traits(isTemplate, T))
static assert(!is(TypeOf!(tanya.meta))); 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));
}
/** /**
* Finds the type with the smallest size in the $(D_PARAM Args) list. If * Finds the type with the smallest size in the $(D_PARAM Args) list. If
* several types have the same type, the leftmost is returned. * several types have the same type, the leftmost is returned.

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@ -14,6 +14,7 @@
*/ */
module tanya.algorithm.comparison; module tanya.algorithm.comparison;
import std.traits : CommonType;
import tanya.algorithm.mutation; import tanya.algorithm.mutation;
import tanya.math; import tanya.math;
static import tanya.memory.op; static import tanya.memory.op;

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@ -14,6 +14,7 @@
*/ */
module tanya.conv; module tanya.conv;
import std.traits : Unsigned;
import tanya.container.string; import tanya.container.string;
import tanya.memory.allocator; import tanya.memory.allocator;
deprecated("Use tanya.memory.lifetime.emplace instead") deprecated("Use tanya.memory.lifetime.emplace instead")

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@ -1,16 +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/. */
/*
* 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/exception.d,
* tanya/exception.d)
*/
deprecated("Use tanya.memory.allocator instead")
module tanya.exception;
public import tanya.memory.allocator : onOutOfMemoryError, OutOfMemoryError;

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@ -1,18 +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 2018-2019.
* 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/functional.d,
* tanya/functional.d)
*/
deprecated("Use tanya.memory.lifetime instead")
module tanya.functional;
public import tanya.memory.lifetime : forward;

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@ -14,7 +14,6 @@
*/ */
module tanya.math.nbtheory; module tanya.math.nbtheory;
import tanya.math.mp;
import tanya.meta.trait; import tanya.meta.trait;
import tanya.meta.transform; import tanya.meta.transform;
@ -91,21 +90,6 @@ if (isFloatingPoint!T)
static assert(is(typeof(r.abs) == real)); 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) version (D_Ddoc)
{ {
/** /**

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@ -21,7 +21,6 @@
*/ */
module tanya.math; module tanya.math;
import tanya.math.mp;
import tanya.math.nbtheory; import tanya.math.nbtheory;
import tanya.meta.trait; import tanya.meta.trait;
import tanya.meta.transform; import tanya.meta.transform;
@ -548,9 +547,6 @@ if (isFloatingPoint!F)
/** /**
* Computes $(D_PARAM x) to the power $(D_PARAM y) modulo $(D_PARAM z). * 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: * Params:
* I = Base type. * I = Base type.
* G = Exponent type. * G = Exponent type.
@ -600,41 +596,6 @@ in (z > 0, "Division by zero")
return result; 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 (z.length > 0, "Division by zero")
{
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 @nogc nothrow pure @safe unittest
{ {
@ -648,32 +609,3 @@ in (z.length > 0, "Division by zero")
assert(pow(0, 0, 5) == 1); assert(pow(0, 0, 5) == 1);
assert(pow(0, 5, 5) == 0); 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);
}
deprecated
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);
}

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@ -1,73 +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/. */
module tanya.math.tests.mp;
import tanya.algorithm.comparison;
import tanya.math.mp;
@nogc nothrow pure @safe unittest
{
auto h1 = Integer(18);
auto h2 = Integer(4);
h1 %= h2;
assert(h1 == 2);
h1 = 8;
h1 %= h2;
assert(h1 == 0);
h1 = 7;
h1 %= h2;
assert(h1 == 3);
h1 = 56088;
h2 = 456;
h1 /= h2;
assert(h1 == 123);
}
@nogc nothrow pure @safe unittest
{
Integer integer;
assert(integer.toArray().length == 0);
}
@nogc nothrow pure @safe unittest
{
auto integer = Integer(0x03);
ubyte[1] expected = [ 0x03 ];
auto array = integer.toArray();
assert(equal(array[], expected[]));
}
@nogc nothrow pure @safe unittest
{
ubyte[63] expected = [
0x02, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08,
0x09, 0x0a, 0x0b, 0x0c, 0x0d, 0x0e, 0x0f, 0x10,
0x11, 0x12, 0x13, 0x14, 0x15, 0x16, 0x17, 0x18,
0x19, 0x1a, 0x1b, 0x1c, 0x1d, 0x1e, 0x1f, 0x20,
0x21, 0x22, 0x23, 0x24, 0x25, 0x26, 0x27, 0x28,
0x29, 0x2a, 0x2b, 0x2c, 0x2d, 0x2e, 0x2f, 0x30,
0x31, 0x32, 0x33, 0x34, 0x35, 0x36, 0x37, 0x38,
0x39, 0x3a, 0x3b, 0x00, 0x61, 0x62, 0x63,
];
auto integer = Integer(Sign.positive, expected[]);
auto array = integer.toArray();
assert(equal(array[], expected[]));
}
@nogc nothrow pure @safe unittest
{
ubyte[14] expected = [
0x22, 0x33, 0x44, 0x55, 0x05, 0x06, 0x07,
0x08, 0x3a, 0x3b, 0x00, 0x61, 0x62, 0x63,
];
auto integer = Integer(Sign.positive, expected[]);
auto array = integer.toArray();
assert(equal(array[], expected[]));
}

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@ -17,33 +17,3 @@ static if (ieeePrecision!float == IEEEPrecision.doubleExtended)
unnormal.mantissa = 0x1; unnormal.mantissa = 0x1;
assert(classify(unnormal) == FloatingPointClass.subnormal); assert(classify(unnormal) == FloatingPointClass.subnormal);
} }
@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);
}

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@ -1,53 +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/. */
module tanya.meta.tests.transform;
import tanya.meta.transform;
@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));
}