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OSS:v0.19.0 OSS:v0.18.0 OSS:v0.17.0 OSS:v0.16.1 OSS:v0.16.0 OSS:v0.15.0 OSS:v0.14.0 OSS:v0.13.0 OSS:v0.12.0 OSS:v0.11.2 OSS:v0.11.1 OSS:v0.11.0 OSS:v0.10.0 OSS:v0.9.0 OSS:v0.8.1 OSS:v0.8.0 OSS:v0.7.10 OSS:v0.7.9 OSS:v0.7.8 OSS:v0.7.7 OSS:v0.7.6 OSS:v0.7.5 OSS:v0.7.4 OSS:v0.7.3 OSS:v0.7.2 OSS:v0.7.1 OSS:v0.7.0 OSS:v0.6.0 OSS:v0.5.0 OSS:v0.4.0 OSS:v0.3.0 OSS:v0.2.0 OSS:v0.1.4 OSS:v0.1.3 OSS:v0.1.2 OSS:v0.1.1 OSS:v0.1.0 OSS:v0.0.1

70 Commits
v0.10.0 ... v0.13.0

Author SHA1 Message Date
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
Eugen Wissner
c5eb2f27be Add algorithm.iteration 2018-09-28 05:40:33 +02:00
Eugen Wissner
349e6dfede Create separate travis job for D-Scanner 2018-09-26 06:30:05 +02:00
Eugen Wissner
fd133554f3 net.ip: Implement opCmp. Fix #63 2018-09-24 06:45:44 +02:00
Eugen Wissner
9ac56c50f1 typecons: Add option constructor function 2018-09-23 06:59:41 +02:00
Eugen Wissner
03b45ae441 Add typecons.tuple(), Tuple construction function 2018-09-22 07:32:30 +02:00
Eugen Wissner
31d4f30a49 functional.forward: Fix template visibility bug 
Because of the private template forwardOne, forward couldn't be used in
other modules. forwardOne cannot be a local template either since it
accepts an alias as its template parameter.
 2018-09-21 06:23:59 +02:00
Eugen Wissner
180c4d3956 typecons.Option: Implement toHash forwarder 2018-09-18 22:27:54 +02:00
Eugen Wissner
b0dc7b59e5 Add predicate support for algorithm.comparison.equal 2018-09-17 19:17:39 +02:00
Eugen Wissner
eb796e0ddf Add bitmanip.BitFlags 2018-09-16 19:07:55 +02:00
Eugen Wissner
e5569e5fea meta.trait.EnumMembers: Fix one-member enums 
Produce a tuple for an enum with only one member.
 2018-09-15 06:06:17 +02:00
Eugen Wissner
b831a05407 Introduce hash.lookup.isHashFunction trait 
Fix #66.
 2018-09-14 15:16:08 +02:00
Eugen Wissner
b6d1766d58 Implement compare algorithm. Fix #50 2018-09-11 10:05:15 +02:00
Eugen Wissner
7f080831c5 Implement IPv6 parser, fix #49 2018-09-08 07:20:23 +02:00
Eugen Wissner
94c7fd2231 Move range.adapter to algorithms + take() bugfixes 
A lot of algorithms like lazy sort() can be also classified as adapters
since it wraps the original range and allows to access the elements of
the range in a particular order. The only reason why take() was in
range.adapter is that take() is trivial - it doesn't change the order of
elements but can turn an infinite range into finite one. This
distinction between trivial and non-trivial algorithms isn't absolutely
clear. So let us put all algorithms and any adapters that change the
range iteration in some way into "algorithm" package to avoid any
confusion later.

- range.adapter is renamed into algorithm.iteration
- range.adapter is deprecated
- Added missing imports for take() and takeExactly()
- takeExactly() doesn't wrap ranges that have slicing anymore
- Voldemort structs for take() takeExactly() are now static
 2018-09-06 12:50:42 +02:00
Eugen Wissner
5ba6d35a1b Use fixed dscanner version 2018-09-03 09:55:19 +02:00
Eugen Wissner
09f434f631 net.iface: Add indexToName 2018-09-02 10:00:52 +02:00
Eugen Wissner
1f615301e5 memory.op: Add findNullTerminated 2018-09-02 08:27:26 +02:00
Eugen Wissner
131675d0a8 Parse for the main part of an IPv6 address 2018-09-01 11:02:10 +02:00
Eugen Wissner
aa12aa9014 Add module for network interfaces 2018-09-01 10:15:23 +02:00
Eugen Wissner
41878cde50 Fix #60: Copying overlapping array slices 2018-08-30 07:12:38 +02:00
Eugen Wissner
0fc0aa23f7 Add constants and syscall for if_nametoindex 2018-08-28 20:39:45 +02:00
Eugen Wissner
c205c087a4 Switch to COFF on x86 Windows 2018-08-26 00:10:17 +02:00
Eugen Wissner
8ca88d1f01 net.ip.Address4: Reject malformed addresses 2018-08-22 06:51:20 +02:00
Eugen Wissner
fa4cbb7e59 Update to 2.081.2. Remove old compilers 2018-08-17 05:44:58 +02:00
Eugen Wissner
4653e94fa1 Merge remote-tracking branch 'n8sh/relax-hasher-reqs' 2018-08-12 06:17:12 +02:00
Eugen Wissner
ba5833318b conv: Fix taking out of range chars for hex values 2018-08-11 14:42:09 +02:00
Eugen Wissner
918d8f5450 Deprecated putting an input into an output range 
Use copy instead.
 2018-08-10 15:34:07 +02:00
Eugen Wissner
2862cc6f50 Update asm mangling to match GDC's D frontend 2018-08-08 10:27:23 +02:00
Eugen Wissner
aa4ccddf47 Add net.ip. Fix #48 2018-08-07 22:27:09 +02:00
Nathan Sashihara
22cffe9d6e Set: allow hasher to take arg by ref 2018-08-06 14:41:47 -04:00
Eugen Wissner
abd286064b Add algorithm.mutation.copy 2018-08-05 07:19:30 +02:00
Eugen Wissner
b04928d2c8 net.inet: Import range.array as well 2018-08-03 16:52:34 +02:00
Nathan Sashihara
ceb8e6a113 Use identity hash for integers and pointers 
This is appropriate because HashArray in tanya.container.entry uses
prime numbers instead of powers of 2 for its number of buckets so there
is no pitfall if the hashes are all multiples of some power of 2.
 2018-08-02 12:37:02 -04:00
Eugen Wissner
900a7172bf Make format() public 
Make format() public. Deprecate to!String.
 2018-08-01 16:58:23 +02:00
Eugen Wissner
fe0576a2d6 Fix format printing only the first argument 2018-07-29 12:51:38 +02:00
Eugen Wissner
a5b84deca7 format: Add errol3 lookup 2018-07-28 13:52:59 +02:00
Eugen Wissner
24056d53c5 network.socket.Linger.enabled: Add return type 
network.socket.Linger.enabled: Add missing return type (void).
 2018-07-25 05:40:49 +02:00
Eugen Wissner
d62f29abd1 Rename meta.metafunction.Tuple into Pack 
typecons.Tuples and meta.metafunction.Tuples are often used together,
from the same module. So it is reasonable give them different names.
 2018-07-24 20:16:21 +02:00
Eugen Wissner
f2eb99bab0 Format fixed-point numbers 2018-07-22 15:28:17 +02:00
Eugen Wissner
531cae51a3 Stringish to integral type conversion. Fix #44 2018-07-18 06:33:45 +02:00
Eugen Wissner
1b203507f6 conv: Fix overflow hanndling in readIntegral 2018-07-17 16:03:05 +02:00
Eugen Wissner
99e06e0d04 format: Support text in the format string 
Fix  #25.
 2018-07-14 19:09:21 +02:00
Eugen Wissner
158a47d54a Update dmd to 2.081.1. Remove 2.077.1 2018-07-13 05:39:58 +02:00
Eugen Wissner
5865e355cd Fix EV_SET 0 length on 32-bit BSD 2018-07-08 12:54:47 +02:00
Eugen Wissner
a94b1b0af4 Add functional module. Fix #52 2018-07-07 12:17:59 +02:00
Eugen Wissner
3df4eb6259 Don't check UTF-8 correctness when inserting chars 
- Fix bug when inserting char ranges that are not arrays
- Optimize insertion from the String own range
- Assume char and char ranges are correclty encoded (as it actually
should be) and don't throw an exception. This should make the most
common use cases nothrow (Fix #19). Dchars and Wchars are still encoded
because they should be converted to UTF-8 before inserting anyway.
 2018-07-06 05:36:13 +02:00
Eugen Wissner
a332d727af Implement errol2 for floating point formatting 
Handles whole floating point numbers in the range between 2^54 and 2^131.
 2018-07-02 10:47:05 +02:00
Eugen Wissner
8241943a58 Add uint128 tailored for errol2 computations 2018-07-02 10:26:45 +02:00
Eugen Wissner
d54e06f43c Iterate hash table by key or by value 2018-06-29 20:43:05 +02:00
Eugene Wissner
5e901f505c Make HashTable work complex types as key 
- Add toHash() function for String
- The key type shouldn't match exact for a lookup.
The key type and lookup key type should be comparable.
- Move elements when inserting if passed by value.
 2018-06-28 12:14:45 +02:00
Eugen Wissner
533fa3b023 container.HashTable: Fix infinite rehashing when inserting 
Fix #53.
 2018-06-27 05:45:53 +02:00
Eugen Wissner
adf2d8b689 Add Option to typecons 
Fix #47.
 2018-06-26 04:25:32 +02:00
Eugen Wissner
74ece7ddf4 Replace floating pointer formatter with errol1 2018-06-23 16:21:19 +02:00
Eugen Wissner
411e45ec5c Remove functions deprecated in 0.9.0 2018-06-22 07:11:56 +02:00
52 changed files with 6799 additions and 1610 deletions
Expand all files Collapse all files

2
.gitignore vendored
View File

@ -10,7 +10,7 @@ dub.selections.json
__test__*__
__test__*__.core
/tanya-test-*
/dub_platform_probe-*
/dub_platform_probe[_-]*
/docs/
/docs.json

45
.travis.yml
View File

@ -1,39 +1,46 @@
sudo: false
os:
- linux
- osx
- linux
- osx
language: d
d:
- dmd-2.080.1
- dmd-2.079.1
- dmd-2.078.3
- dmd-2.077.1
- dmd-2.082.1
env:
matrix:
- ARCH=x86_64
- ARCH=x86
- ARCH=x86_64
- ARCH=x86
matrix:
include:
- name: "D-Scanner"
d: dmd-2.082.1
env: DSCANNER=0.5.11
os: linux
addons:
apt:
packages:
- gcc-multilib
- gcc-multilib
before_script:
- if [ "`$DC --version | head -n 1 | grep 'v2.080.1'`" ]; then
export UNITTEST="unittest-cov";
fi
- if [ "`$DC --version | head -n 1 | grep 'v2.082.1'`" ] &&
[ -z "$DSCANNER" ]; then
export UNITTEST="unittest-cov";
fi
script:
- dub test -b ${UNITTEST:-unittest} --arch=$ARCH --compiler=$DC
- if [ "$UNITTEST" ] && [ "$ARCH" = "x86_64" ] && [ "$TRAVIS_OS_NAME" = "linux" ];
then
dub fetch dscanner;
dub run dscanner -- --styleCheck ./source/;
fi
- if [ -z "$DSCANNER" ]; then
dub test -b ${UNITTEST:-unittest} --arch=$ARCH --compiler=$DC;
else
dub fetch dscanner --version=$DSCANNER;
FILES=$(find source -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)

13
README.md
View File

@ -25,6 +25,7 @@ Tanya consists of the following packages and (top-level) modules:
* `algorithm`: Collection of generic algorithms.
* `async`: Event loop (epoll, kqueue and IOCP).
* `bitmanip`: Bit manipulation.
* `container`: Queue, Array, Singly and doubly linked lists, Buffers, UTF-8
string, Set, Hash table.
* `conv`: This module provides functions for converting between different
@ -32,6 +33,8 @@ 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.
* `hash`: Hash algorithms.
* `math`: Arbitrary precision integer and a set of functions.
* `memory`: Tools for manual memory management (allocators, smart pointers).
@ -170,12 +173,10 @@ parameter is used)
### Supported compilers
| DMD | GCC |
|:-------:|:---------:|
| 2.080.1 | *master* |
| 2.079.1 | |
| 2.078.3 | |
| 2.077.1 | |
| DMD | GCC |
|:-------:|:---------------:|
| 2.082.1 | gdc-8 (2.081.2) |
| | gdc-7 (2.081.2) |
### Release management

24
appveyor.yml
View File

@ -4,28 +4,10 @@ os: Visual Studio 2015
environment:
matrix:
- DC: dmd
DVersion: 2.080.1
DVersion: 2.082.1
arch: x64
- DC: dmd
DVersion: 2.080.1
arch: x86
- DC: dmd
DVersion: 2.079.1
arch: x64
- DC: dmd
DVersion: 2.079.1
arch: x86
- DC: dmd
DVersion: 2.078.3
arch: x64
- DC: dmd
DVersion: 2.078.3
arch: x86
- DC: dmd
DVersion: 2.077.1
arch: x64
- DC: dmd
DVersion: 2.077.1
DVersion: 2.082.1
arch: x86
skip_tags: true
@ -46,7 +28,7 @@ install:
before_build:
- ps: if($env:arch -eq "x86"){
$env:compilersetupargs = "x86";
$env:Darch = "x86";
$env:Darch = "x86_mscoff";
}
elseif($env:arch -eq "x64"){
$env:compilersetupargs = "amd64";

4
arch/build.ninja
View File

@ -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

33
arch/x64/linux/memory/cmp.S → arch/x64/linux/memory/equal.S
View File

@ -1,21 +1,19 @@
.text
/*
* cmpMemory.
* equalMemory.
*
* rdi - r1 length
* rsi - r1 data.
* rdx - r2 length.
* rcx - r2 data.
*/
.globl _D5tanya6memory2op9cmpMemoryFNaNbNixAvxAvZi
.type _D5tanya6memory2op9cmpMemoryFNaNbNixAvxAvZi, @function
_D5tanya6memory2op9cmpMemoryFNaNbNixAvxAvZi:
.globl _D5tanya6memory2op11equalMemoryFNaNbNixAvxQdZb
.type _D5tanya6memory2op11equalMemoryFNaNbNixAvxQdZb, @function
_D5tanya6memory2op11equalMemoryFNaNbNixAvxQdZb:
// Compare the lengths
cmp %rdx, %rdi
jl less
jg greater
jne not_equal
mov %rcx, %rdi
@ -27,8 +25,7 @@ _D5tanya6memory2op9cmpMemoryFNaNbNixAvxAvZi:
naligned:
cmpsb
jl less
jg greater
jne not_equal
dec %rdx
test $0x07, %edi
@ -39,8 +36,7 @@ _D5tanya6memory2op9cmpMemoryFNaNbNixAvxAvZi:
shr $0x03, %rcx
repe cmpsq
jl less
jg greater
jne not_equal
and $0x07, %edx
jz equal
@ -50,19 +46,14 @@ _D5tanya6memory2op9cmpMemoryFNaNbNixAvxAvZi:
cmp $0x0, %rcx
repe cmpsb
jl less
jg greater
jne not_equal
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

33
arch/x64/linux/syscall.S
View File

@ -11,10 +11,11 @@ The returned value is placed in %rax.
*/
.text
.globl syscall1
.type syscall1, @function
// 1 parameter.
.globl _D5tanya3sys5linux7syscallQiFNbNillZl
.type _D5tanya3sys5linux7syscallQiFNbNillZl, @function
syscall1:
_D5tanya3sys5linux7syscallQiFNbNillZl:
movq %rsi, %rax // Syscall number.
syscall
@ -23,10 +24,10 @@ syscall1:
// 2 parameters.
.globl _D5tanya3sys5linux7syscall7syscallFNbNilllZl
.type _D5tanya3sys5linux7syscall7syscallFNbNilllZl, @function
.globl _D5tanya3sys5linux7syscallQiFNbNilllZl
.type _D5tanya3sys5linux7syscallQiFNbNilllZl, @function
_D5tanya3sys5linux7syscall7syscallFNbNilllZl:
_D5tanya3sys5linux7syscallQiFNbNilllZl:
movq %rdx, %rax
syscall
@ -34,11 +35,23 @@ _D5tanya3sys5linux7syscall7syscallFNbNilllZl:
ret
// 6 parameters.
.globl _D5tanya3sys5linux7syscall7syscallFNbNilllllllZl
.type _D5tanya3sys5linux7syscall7syscallFNbNilllllllZl, @function
// 3 parameters.
.globl _D5tanya3sys5linux7syscallQiFNbNillllZl
.type _D5tanya3sys5linux7syscallQiFNbNillllZl, @function
_D5tanya3sys5linux7syscall7syscallFNbNilllllllZl:
_D5tanya3sys5linux7syscallQiFNbNillllZl:
movq %rcx, %rax
syscall
ret
// 6 parameters.
.globl _D5tanya3sys5linux7syscallQiFNbNilllllllZl
.type _D5tanya3sys5linux7syscallQiFNbNilllllllZl, @function
_D5tanya3sys5linux7syscallQiFNbNilllllllZl:
pushq %rbp
movq %rsp, %rbp

4
dub.json
View File

@ -34,5 +34,7 @@
}
],
"libs-windows": ["advapi32"]
"libs-windows": ["advapi32"],
"libs-windows-x86_mscoff": ["iphlpapi"],
"libs-windows-x86_64": ["iphlpapi"]
}

150
source/tanya/algorithm/comparison.d
View File

@ -15,8 +15,8 @@
module tanya.algorithm.comparison;
import tanya.algorithm.mutation;
import tanya.math : isNaN;
import tanya.memory.op;
import tanya.math;
static import tanya.memory.op;
import tanya.meta.metafunction;
import tanya.meta.trait;
import tanya.meta.transform;
@ -278,22 +278,25 @@ if (isForwardRange!Range && isOrderingComparable!(ElementType!Range))
* If the ranges have different lengths, they aren't equal.
*
* Params:
* R1 = First range type.
* R2 = Second range type.
* r1 = First range.
* r2 = Second range.
* pred = Predicate used to compare individual element pairs.
* R1 = First range type.
* R2 = Second range type.
* r1 = First range.
* r2 = Second range.
*
* Returns: $(D_KEYWORD true) if both ranges are equal, $(D_KEYWORD false)
* otherwise.
*/
bool equal(R1, R2)(R1 r1, R2 r2)
if (allSatisfy!(isInputRange, R1, R2) && is(typeof(r1.front == r2.front)))
bool equal(alias pred = (auto ref a, auto ref b) => a == b, R1, R2)
(R1 r1, R2 r2)
if (allSatisfy!(isInputRange, R1, R2)
&& is(typeof(pred(r1.front, r2.front)) == bool))
{
static if (isDynamicArray!R1
&& is(R1 == R2)
&& __traits(isPOD, ElementType!R1))
{
return cmp(r1, r2) == 0;
return tanya.memory.op.equal(r1, r2);
}
else
{
@ -306,7 +309,7 @@ if (allSatisfy!(isInputRange, R1, R2) && is(typeof(r1.front == r2.front)))
}
for (; !r1.empty && !r2.empty; r1.popFront(), r2.popFront())
{
if (r1.front != r2.front)
if (!pred(r1.front, r2.front))
{
return false;
}
@ -331,3 +334,130 @@ if (allSatisfy!(isInputRange, R1, R2) && is(typeof(r1.front == r2.front)))
int[3] range2 = [1, 2, 3];
assert(!equal(range1[], range2[]));
}
/**
* Compares element-wise two ranges for ordering.
*
* $(D_PSYMBOL compare) returns a negative value if $(D_PARAM r1) is less than
* $(D_PARAM r2), a positive value if $(D_PARAM r2) is less than $(D_PARAM r1),
* or `0` if $(D_PARAM r1) and $(D_PARAM r2) equal.
*
* $(D_PSYMBOL compare) iterates both ranges in lockstep. Whichever of them
* contains an element that is greater than the respective element at the same
* position in the other range is the greater one of the two.
*
* If one of the ranges becomes empty when iterating, but all elements equal so
* far, the range with more elements is the greater one.
*
* If $(D_PARAM pred) is given, it is used for comparison. $(D_PARAM pred) is
* called as $(D_INLINECODE pred(r1.front, r2.front)) and
* $(D_INLINECODE pred(r2.front, r1.front)) to perform three-way comparison.
* $(D_PARAM pred) should return a $(D_KEYWORD bool).
*
* If $(D_PARAM pred) is not given, but the element type of $(D_PARAM R1)
* defines `opCmp()` for the element type of $(D_PARAM R2), `opCmp()` is used.
*
* Otherwise the comparison is perfomed using the basic comparison operators.
*
* Params:
* pred = Predicate used for comparison.
* R1 = First range type.
* R2 = Second range type.
* r1 = First range.
* r2 = Second range.
*
* Returns: A negative value if $(D_PARAM r1) is less than $(D_PARAM r2), a
* positive value if $D(_PARAM r2) is less than $(D_PARAM r1), `0`
* otherwise.
*/
int compare(alias pred, R1, R2)(R1 r1, R2 r2)
if (allSatisfy!(isInputRange, R1, R2)
&& is(typeof(pred(r1.front, r2.front)) == bool)
&& is(typeof(pred(r2.front, r1.front)) == bool))
{
alias predImpl = (ref r1, ref r2) {
return pred(r2.front, r1.front) - pred(r1.front, r2.front);
};
return compareImpl!(predImpl, R1, R2)(r1, r2);
}
/// ditto
int compare(R1, R2)(R1 r1, R2 r2)
if (allSatisfy!(isInputRange, R1, R2)
&& is(typeof(r1.front < r2.front || r2.front < r1.front)))
{
static if (is(typeof(r1.front.opCmp(r2.front)) == int))
{
alias pred = (ref r1, ref r2) => r1.front.opCmp(r2.front);
}
else
{
alias pred = (ref r1, ref r2) {
return (r2.front < r1.front) - (r1.front < r2.front);
};
}
return compareImpl!(pred, R1, R2)(r1, r2);
}
///
@nogc nothrow pure @safe unittest
{
assert(compare("abc", "abc") == 0);
assert(compare("abcd", "abc") > 0);
assert(compare("ab", "abc") < 0);
assert(compare("abc", "abcd") < 0);
assert(compare("abc", "ab") > 0);
assert(compare("aec", "abc") > 0);
assert(compare("aac", "abc") < 0);
assert(compare("abc", "aec") < 0);
assert(compare("abc", "aab") > 0);
assert(compare("aacd", "abc") < 0);
assert(compare("abc", "aacd") > 0);
assert(compare!((a, b) => a > b)("aec", "abc") < 0);
assert(compare!((a, b) => a > b)("aac", "abc") > 0);
}
private int compareImpl(alias pred, R1, R2)(ref R1 r1, ref R2 r2)
{
for (; !r1.empty || !r2.empty; r1.popFront(), r2.popFront())
{
if (r1.empty)
{
return -1;
}
else if (r2.empty)
{
return 1;
}
const comparison = pred(r1, r2);
if (comparison != 0)
{
return comparison;
}
}
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);
}
}

578
source/tanya/algorithm/iteration.d Normal file
View File

@ -0,0 +1,578 @@
/* 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 adapters.
*
* A range adapter wraps another range and modifies 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
* 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/algorithm/iteration.d,
* tanya/algorithm/iteration.d)
*/
module tanya.algorithm.iteration;
import tanya.algorithm.comparison;
import tanya.algorithm.mutation;
import tanya.range;
private mixin template Take(R, bool exactly)
{
private R source;
size_t length_;
@disable this();
private this(R source, size_t length)
{
this.source = source;
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);
}
}
}
}
/**
* Takes $(D_PARAM n) elements from $(D_PARAM range).
*
* If $(D_PARAM range) doesn't have $(D_PARAM n) elements, the resulting range
* spans all elements of $(D_PARAM range).
*
* $(D_PSYMBOL take) is particulary useful with infinite ranges. You can take
` $(B n) elements from such range and pass the result to an algorithm which
* expects a finit range.
*
* Params:
* R = Type of the adapted range.
* range = The range to take the elements from.
* n = The number of elements to take.
*
* Returns: A range containing maximum $(D_PARAM n) first elements of
* $(D_PARAM range).
*
* See_Also: $(D_PSYMBOL takeExactly).
*/
auto take(R)(R range, size_t n)
if (isInputRange!R)
{
static struct Take
{
mixin .Take!(R, false);
static if (hasSlicing!R)
{
auto opSlice(size_t i, size_t j)
in
{
assert(i <= j);
assert(j <= length);
}
do
{
return typeof(this)(this.source[i .. j], length);
}
}
}
return Take(range, n);
}
///
@nogc nothrow pure @safe unittest
{
static struct InfiniteRange
{
private size_t front_ = 1;
enum bool empty = false;
@property size_t front() @nogc nothrow pure @safe
{
return this.front_;
}
@property void front(size_t i) @nogc nothrow pure @safe
{
this.front_ = i;
}
void popFront() @nogc nothrow pure @safe
{
++this.front_;
}
size_t opIndex(size_t i) @nogc nothrow pure @safe
{
return this.front_ + i;
}
void opIndexAssign(size_t value, size_t i) @nogc nothrow pure @safe
{
this.front = i + value;
}
InfiniteRange save() @nogc nothrow pure @safe
{
return this;
}
}
auto t = InfiniteRange().take(3);
assert(t.length == 3);
assert(t.front == 1);
assert(t.back == 3);
t.popFront();
assert(t.front == 2);
assert(t.back == 3);
t.popBack();
assert(t.front == 2);
assert(t.back == 2);
t.popFront();
assert(t.empty);
}
/**
* Takes exactly $(D_PARAM n) elements from $(D_PARAM range).
*
* $(D_PARAM range) must have at least $(D_PARAM n) elements.
*
* $(D_PSYMBOL takeExactly) is particulary useful with infinite ranges. You can
` take $(B n) elements from such range and pass the result to an algorithm
* which expects a finit range.
*
* Params:
* R = Type of the adapted range.
* range = The range to take the elements from.
* n = The number of elements to take.
*
* Returns: A range containing $(D_PARAM n) first elements of $(D_PARAM range).
*
* See_Also: $(D_PSYMBOL take).
*/
auto takeExactly(R)(R range, size_t n)
if (isInputRange!R)
{
static if (hasSlicing!R)
{
return range[0 .. n];
}
else
{
static struct TakeExactly
{
mixin Take!(R, true);
}
return TakeExactly(range, n);
}
}
///
@nogc nothrow pure @safe unittest
{
static struct InfiniteRange
{
private size_t front_ = 1;
enum bool empty = false;
@property size_t front() @nogc nothrow pure @safe
{
return this.front_;
}
@property void front(size_t i) @nogc nothrow pure @safe
{
this.front_ = i;
}
void popFront() @nogc nothrow pure @safe
{
++this.front_;
}
size_t opIndex(size_t i) @nogc nothrow pure @safe
{
return this.front_ + i;
}
void opIndexAssign(size_t value, size_t i) @nogc nothrow pure @safe
{
this.front = i + value;
}
InfiniteRange save() @nogc nothrow pure @safe
{
return this;
}
}
auto t = InfiniteRange().takeExactly(3);
assert(t.length == 3);
assert(t.front == 1);
assert(t.back == 3);
t.popFront();
assert(t.front == 2);
assert(t.back == 3);
t.popBack();
assert(t.front == 2);
assert(t.back == 2);
t.popFront();
assert(t.empty);
}
// 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);
}
}
/**
* Iterates a bidirectional range backwards.
*
* If $(D_PARAM Range) is a random-access range as well, the resulting range
* is a random-access range too.
*
* Params:
* Range = Bidirectional range type.
* range = Bidirectional range.
*
* Returns: Bidirectional range with the elements order reversed.
*/
auto retro(Range)(Range range)
if (isBidirectionalRange!Range)
{
static struct Retro
{
Range source;
@disable this();
private this(Range source)
{
this.source = source;
}
Retro save()
{
return this;
}
@property auto ref front()
in (!empty)
{
return this.source.back;
}
void popFront()
in (!empty)
{
this.source.popBack();
}
@property auto ref back()
in (!empty)
{
return this.source.front;
}
void popBack()
in (!empty)
{
this.source.popFront();
}
@property bool empty()
{
return this.source.empty;
}
static if (hasLength!Range)
{
@property size_t length()
{
return this.source.length;
}
}
static if (isRandomAccessRange!Range && hasLength!Range)
{
auto ref opIndex(size_t i)
in (i < length)
{
return this.source[$ - ++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);
}
///
@nogc nothrow pure @safe unittest
{
import tanya.algorithm.comparison : equal;
const int[3] given = [1, 2, 3];
const int[3] expected = [3, 2, 1];
auto actual = retro(given[]);
assert(actual.length == expected.length);
assert(!actual.empty);
assert(equal(actual, expected[]));
}
// 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);
}
// 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);
}

348
source/tanya/algorithm/mutation.d
View File

@ -14,8 +14,11 @@
*/
module tanya.algorithm.mutation;
import tanya.memory.op;
import tanya.conv;
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)
{
@ -39,11 +42,12 @@ private void deinitialize(bool zero, T)(ref T value)
}
static if (zero)
{
fill!0((cast(void*) &value)[0 .. size]);
tanya.memory.op.fill!0((cast(void*) &value)[0 .. size]);
}
else
{
copy(typeid(T).initializer()[0 .. size], (&value)[0 .. 1]);
tanya.memory.op.copy(typeid(T).initializer()[0 .. size],
(&value)[0 .. 1]);
}
}
}
@ -81,17 +85,24 @@ do
{
static if (is(T == struct) || isStaticArray!T)
{
copy((&source)[0 .. 1], (&target)[0 .. 1]);
tanya.memory.op.copy((&source)[0 .. 1], (&target)[0 .. 1]);
static if (hasElaborateCopyConstructor!T || hasElaborateDestructor!T)
{
if (typeid(T).initializer().ptr is null)
static if (__VERSION__ >= 2083) // __traits(isZeroInit) available.
{
deinitialize!true(source);
deinitialize!(__traits(isZeroInit, T))(source);
}
else
{
deinitialize!false(source);
if (typeid(T).initializer().ptr is null)
{
deinitialize!true(source);
}
else
{
deinitialize!false(source);
}
}
}
}
@ -273,3 +284,326 @@ void swap(T)(ref T a, ref T b) @trusted
assert(a == 5);
assert(b == 3);
}
/**
* Copies the $(D_PARAM source) range into the $(D_PARAM target) range.
*
* Params:
* Source = Input range type.
* Target = Output range type.
* source = Source input range.
* target = Target output range.
*
* Returns: $(D_PARAM target) range, whose front element is the one past the
* last element copied.
*
* Precondition: $(D_PARAM target) should be large enough to accept all
* $(D_PARAM source) elements.
*/
Target copy(Source, Target)(Source source, Target target)
if (isInputRange!Source && isOutputRange!(Target, Source))
in
{
static if (hasLength!Source && hasLength!Target)
{
assert(target.length >= source.length);
}
}
do
{
alias E = ElementType!Source;
static if (isDynamicArray!Source
&& is(Unqual!E == ElementType!Target)
&& !hasElaborateCopyConstructor!E
&& !hasElaborateAssign!E
&& !hasElaborateDestructor!E)
{
if (source.ptr < target.ptr
&& (() @trusted => (target.ptr - source.ptr) < source.length)())
{
tanya.memory.op.copyBackward(source, target);
}
else if (source.ptr !is target.ptr)
{
tanya.memory.op.copy(source, target);
}
return target[source.length .. $];
}
else
{
for (; !source.empty; source.popFront())
{
put(target, source.front);
}
return target;
}
}
///
@nogc nothrow pure @safe unittest
{
import tanya.algorithm.comparison : equal;
const int[2] source = [1, 2];
int[2] target = [3, 4];
copy(source[], target[]);
assert(equal(source[], target[]));
}
// 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 put(int value) @nogc nothrow pure @safe
in
{
assert(this.value == 0);
}
do
{
this.value = value;
}
}
int[1] source = [5];
OutPutRange target;
assert(copy(source[], target).value == 5);
}
/**
* 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))
{
static if (!isDynamicArray!Range && is(typeof(range[] = value)))
{
range[] = value;
}
else
{
for (; !range.empty; range.popFront())
{
range.front = value;
}
}
}
///
@nogc nothrow pure @safe unittest
{
import tanya.algorithm.comparison : equal;
int[6] actual;
const int[6] expected = [1, 1, 1, 1, 1, 1];
fill(actual[], 1);
assert(equal(actual[], expected[]));
}
// [] 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);
}
/**
* 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 if (hasElaborateDestructor!(ElementType!Range))
{
for (; !range.empty; range.popFront())
{
ElementType!Range* p = &range.front;
emplace!(ElementType!Range)(cast(void[]) (p[0 .. 1]), value);
}
}
else
{
fill(range, value);
}
}
///
@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[]));
}
@nogc nothrow pure @safe unittest
{
static struct NonCopyable
{
@disable this(this);
}
NonCopyable[] nonCopyable;
initializeAll(nonCopyable);
}
/**
* 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)
{
static if (hasElaborateDestructor!(ElementType!Range))
{
foreach (ref e; range)
{
destroy(e);
}
}
}
///
@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);
}

1
source/tanya/algorithm/package.d
View File

@ -15,4 +15,5 @@
module tanya.algorithm;
public import tanya.algorithm.comparison;
public import tanya.algorithm.iteration;
public import tanya.algorithm.mutation;

78
source/tanya/algorithm/searching.d Normal file
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@ -0,0 +1,78 @@
/* 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.
* 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);
}
@nogc nothrow pure @safe unittest
{
static struct Range
{
private int counter = 3;
int front() const @nogc nothrow pure @safe
{
return this.counter;
}
void popFront() @nogc nothrow pure @safe
{
--this.counter;
}
bool empty() const @nogc nothrow pure @safe
{
return this.counter == 0;
}
}
Range range;
assert(count(range) == 3);
}

4
source/tanya/async/event/iocp.d
View File

@ -318,7 +318,9 @@ final class IOCPLoop : Loop
connection.incoming.insertBack(transport);
reify(transport, EventMask(Event.none), EventMask(Event.read, Event.write));
reify(transport,
EventMask(Event.none),
EventMask(Event.read | Event.write));
pendings.insertBack(connection);
listener.beginAccept(overlapped);

14
source/tanya/async/event/kqueue.d
View File

@ -84,12 +84,12 @@ enum : short
struct kevent_t
{
uintptr_t ident; /* identifier for this event */
short filter; /* filter for event */
ushort flags;
uint fflags;
intptr_t data;
void *udata; /* opaque user data identifier */
uintptr_t ident; // Identifier for this event
short filter; // Filter for event
ushort flags;
uint fflags;
intptr_t data;
void* udata; // Opaque user data identifier
}
enum
@ -168,7 +168,7 @@ final class KqueueLoop : SelectorLoop
filter,
flags,
0U,
0L,
0,
null);
++changeCount;
}

6
source/tanya/async/event/selector.d
View File

@ -140,7 +140,7 @@ package class StreamTransport : SocketWatcher, DuplexTransport, SocketTransport
{
closing = true;
loop.reify(this,
EventMask(Event.read, Event.write),
EventMask(Event.read | Event.write),
EventMask(Event.write));
}
@ -393,7 +393,9 @@ abstract class SelectorLoop : Loop
transport.socket = client;
}
reify(transport, EventMask(Event.none), EventMask(Event.read, Event.write));
reify(transport,
EventMask(Event.none),
EventMask(Event.read | Event.write));
connection.incoming.insertBack(transport);
}

2
source/tanya/async/loop.d
View File

@ -72,9 +72,9 @@
module tanya.async.loop;
import core.time;
import std.typecons;
import tanya.async.transport;
import tanya.async.watcher;
import tanya.bitmanip;
import tanya.container.buffer;
import tanya.container.list;
import tanya.memory;

359
source/tanya/bitmanip.d Normal file
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@ -0,0 +1,359 @@
/* 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/. */
/**
* Bit manipulation.
*
* 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/bitmanip.d,
* tanya/bitmanip.d)
*/
module tanya.bitmanip;
import tanya.meta.metafunction;
import tanya.meta.trait;
import tanya.meta.transform;
/**
* Determines whether $(D_PARAM E) is a $(D_KEYWORD enum), whose members can be
* used as bit flags.
*
* This is the case if all members of $(D_PARAM E) are integral numbers that
* are either 0 or positive integral powers of 2.
*
* Params:
* E = Some $(D_KEYWORD enum).
*
* Returns: $(D_KEYWORD true) if $(D_PARAM E) contains only bit flags,
* $(D_KEYWORD false) otherwise.
*/
template isBitFlagEnum(E)
{
enum bool isValid(OriginalType!E x) = x == 0
|| (x > 0 && ((x & (x - 1)) == 0));
static if (isIntegral!E)
{
enum bool isBitFlagEnum = allSatisfy!(isValid, EnumMembers!E);
}
else
{
enum bool isBitFlagEnum = false;
}
}
///
@nogc nothrow pure @safe unittest
{
enum Valid
{
none = 0,
one = 1 << 0,
two = 1 << 1,
}
static assert(isBitFlagEnum!Valid);
enum Invalid
{
one,
two,
three,
four,
}
static assert(!isBitFlagEnum!Invalid);
enum Negative
{
one = -1,
two = -2,
}
static assert(!isBitFlagEnum!Negative);
}
/**
* Validates that $(D_PARAM field) contains only bits from $(D_PARAM E).
*
* Params:
* E = Some $(D_KEYWORD enum).
* field = Bit field.
*
* Returns: $(D_KEYWORD true) if $(D_PARAM field) is valid, $(D_KEYWORD false)
* otherwise.
*/
bool containsBitFlags(E)(E field)
if (isBitFlagEnum!E)
{
OriginalType!E fillField()
{
typeof(return) full;
static foreach (member; EnumMembers!E)
{
full |= member;
}
return full;
}
enum OriginalType!E full = fillField();
return (field & ~full) == OriginalType!E.init;
}
///
@nogc nothrow pure @safe unittest
{
enum E
{
one,
two,
three,
}
assert(containsBitFlags(E.one | E.two));
assert(!containsBitFlags(cast(E) 0x8));
}
/**
* Allows to use $(D_KEYWORD enum) values as a set of bit flags.
*
* $(D_PSYMBOL BitFlags) behaves the same as a bit field of type $(D_PARAM E),
* but does additional cheks to ensure that the bit field contains only valid
* values, this is only values from $(D_PARAM E).
*
* Params:
* E = Some $(D_KEYWORD enum).
*/
struct BitFlags(E)
if (isBitFlagEnum!E)
{
private OriginalType!E field;
/**
* Constructs $(D_PSYMBOL BitFlags) from $(D_PARAM field).
*
* Params:
* field = Bits to be set.
*/
this(E field)
{
this.field = field;
}
/**
* Converts $(D_PSYMBOL BitFlags) to a boolean.
*
* It is $(D_KEYWORD true) if any bit is set, $(D_KEYWORD false) otherwise.
*
* Returns: $(D_KEYWORD true) if this $(D_PSYMBOL BitFlags) contains any
* set bits, $(D_KEYWORD false) otherwise.
*/
bool opCast(T : bool)()
{
return this.field != 0;
}
/**
* Converts to the original type of $(D_PARAM E) ($(D_KEYWORD int) by
* default).
*
* Returns: $(D_KEYWORD this) as $(D_INLINECODE OriginalType!T).
*/
OriginalType!E opCast(T : OriginalType!E)() const
{
return this.field;
}
/**
* Tests (&), sets (|) or toggles (^) bits.
*
* Params:
* op = Operation.
* that = 0 or more bit flags.
*
* Returns: New $(D_PSYMBOL BitFlags) object.
*/
BitFlags opBinary(string op)(E that) const
if (op == "&" || op == "|" || op == "^")
{
BitFlags result = this;
mixin("return result " ~ op ~ "= that;");
}
/// ditto
BitFlags opBinary(string op)(BitFlags that) const
if (op == "&" || op == "|" || op == "^")
{
BitFlags result = this;
mixin("return result " ~ op ~ "= that;");
}
/// ditto
BitFlags opBinaryRight(string op)(E that) const
if (op == "&" || op == "|" || op == "^")
{
BitFlags result = this;
mixin("return result " ~ op ~ "= that;");
}
/**
* Tests (&), sets (|) or toggles (^) bits.
*
* Params:
* op = Operation.
* that = 0 or more bit flags.
*
* Returns: $(D_KEYWORD this).
*/
ref BitFlags opOpAssign(string op)(E that)
if (op == "&" || op == "|" || op == "^")
{
mixin("this.field " ~ op ~ "= that;");
return this;
}
/// ditto
ref BitFlags opOpAssign(string op)(BitFlags that)
if (op == "&" || op == "|" || op == "^")
{
mixin("this.field " ~ op ~ "= that.field;");
return this;
}
/**
* Inverts all bit flags.
*
* Returns: New $(D_PSYMBOL BitFlags) object with all bits inverted.
*/
BitFlags opUnary(string op : "~")() const
{
BitFlags result;
result.field = ~this.field;
return result;
}
/**
* Assigns a bit field.
*
* Params:
* that = Bit field of type $(D_PARAM E).
*
* Returns: $(D_KEYWORD this).
*/
ref BitFlags opAssign(E that)
{
this.field = that;
return this;
}
/**
* Compares this $(D_PSYMBOL BitFlags) object to another bit field.
*
* Params:
* that = $(D_PSYMBOL BitFlags) object or a bit field of type
* $(D_PARAM E).
*
* Returns: $(D_KEYWORD true) if $(D_KEYWORD this) and $(D_PARAM that)
* contain the same bits ,$(D_KEYWORD false) otherwise.
*/
bool opEquals(E that) const
{
return this.field == that;
}
/// ditto
bool opEquals(BitFlags that) const
{
return this.field == that.field;
}
/**
* Generates a hash value of this object.
*
* Returns: Hash value.
*/
size_t toHash() const
{
return cast(size_t) this.field;
}
}
@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).
*
* Params:
* E = Some $(D_KEYWORD enum).
* field = Bits to be set.
*/
BitFlags!E bitFlags(E)(E field)
if (isBitFlagEnum!E)
{
return BitFlags!E(field);
}
///
@nogc nothrow pure @safe unittest
{
enum E
{
one = 1 << 0,
two = 1 << 1,
three = 1 << 2,
}
// Construct with E.one and E.two set
auto flags = bitFlags(E.one | E.two);
// Test wheter E.one is set
assert(flags & E.one);
// Toggle E.one
flags ^= E.one;
assert(!(flags & E.one));
// Set E.three
flags |= E.three;
assert(flags & E.three);
// Clear E.three
flags &= ~E.three;
assert(!(flags & E.three));
}

35
source/tanya/container/array.d
View File

@ -15,19 +15,14 @@
module tanya.container.array;
import core.checkedint;
import std.algorithm.mutation : bringToFront,
copy,
fill,
initializeAll,
uninitializedFill;
import std.meta;
import std.algorithm.mutation : bringToFront;
import tanya.algorithm.comparison;
import tanya.algorithm.mutation;
import tanya.exception;
import tanya.memory;
import tanya.meta.trait;
import tanya.meta.transform;
import tanya.range.primitive;
import tanya.range;
/**
* Random-access range for the $(D_PSYMBOL Array).
@ -419,27 +414,19 @@ struct Array(T)
*/
@property void length(size_t len) @trusted
{
if (len == length)
{
return;
}
else if (len > length)
if (len > length)
{
reserve(len);
initializeAll(this.data[length_ .. len]);
}
else
{
static if (hasElaborateDestructor!T)
{
const T* end = this.data + length_ - 1;
for (T* e = this.data + len; e != end; ++e)
{
destroy(*e);
}
}
destroyAll(this.data[len .. this.length_]);
}
if (len != length)
{
length_ = len;
}
length_ = len;
}
///
@ -1554,14 +1541,14 @@ struct Array(T)
{
struct MutableEqualsStruct
{
int opEquals(typeof(this) that) @nogc nothrow pure @safe
bool opEquals(typeof(this) that) @nogc nothrow pure @safe
{
return true;
}
}
struct ConstEqualsStruct
{
int opEquals(const typeof(this) that) const @nogc nothrow pure @safe
bool opEquals(const typeof(this) that) const @nogc nothrow pure @safe
{
return true;
}
@ -1590,7 +1577,7 @@ struct Array(T)
@nogc nothrow pure @safe unittest
{
struct SWithDtor
static struct SWithDtor
{
~this() @nogc nothrow pure @safe
{

61
source/tanya/container/entry.d
View File

@ -82,12 +82,18 @@ package struct Bucket(K, V = void)
}
}
bool opEquals(ref inout(K) key) inout
void moveKey(ref K key)
{
move(key, this.key());
this.status = BucketStatus.used;
}
bool opEquals(T)(ref const T key) const
{
return this.status == BucketStatus.used && this.key == key;
}
bool opEquals(ref inout(typeof(this)) that) inout
bool opEquals(ref const(typeof(this)) that) const
{
return key == that.key && this.status == that.status;
}
@ -171,24 +177,29 @@ package struct HashArray(alias hasher, K, V = void)
this.length = that.length;
}
@property size_t bucketCount() const
{
return primes[this.lengthIndex];
}
/*
* Returns bucket position for `hash`. `0` may mean the 0th position or an
* empty `buckets` array.
*/
size_t locateBucket(ref const Key key) const
size_t locateBucket(T)(ref const T key) const
{
return this.array.length == 0
? 0
: hasher(key) % primes[this.lengthIndex];
return this.array.length == 0 ? 0 : hasher(key) % bucketCount;
}
/*
* Inserts a key into an empty or deleted bucket. If the key is
* already in there, does nothing. Returns the bucket with the key.
* If the key doesn't already exists, returns an empty bucket the key can
* be inserted in and adjusts the element count. Otherwise returns the
* bucket containing the key.
*/
ref Bucket insert(ref Key key)
{
while ((this.lengthIndex + 1) != primes.length)
const newLengthIndex = this.lengthIndex + 1;
if (newLengthIndex != primes.length)
{
foreach (ref e; this.array[locateBucket(key) .. $])
{
@ -203,17 +214,29 @@ package struct HashArray(alias hasher, K, V = void)
}
}
if (this.rehashToSize(this.lengthIndex + 1))
this.rehashToSize(newLengthIndex);
}
foreach (ref e; this.array[locateBucket(key) .. $])
{
if (e == key)
{
++this.lengthIndex;
return e;
}
else if (e.status != BucketStatus.used)
{
++this.length;
return e;
}
}
this.array.insertBack(Bucket(key));
this.array.length = this.array.length + 1;
++this.length;
return this.array[$ - 1];
}
// Takes an index in the primes array.
bool rehashToSize(const size_t n)
void rehashToSize(const size_t n)
in
{
assert(n < primes.length);
@ -231,15 +254,15 @@ package struct HashArray(alias hasher, K, V = void)
{
if (e2.status != BucketStatus.used) // Insert the key
{
e2 = e1;
.move(e1, e2);
continue DataLoop;
}
}
return false; // Rehashing failed.
storage.insertBack(.move(e1));
}
}
.move(storage, this.array);
return true;
this.lengthIndex = n;
}
void rehash(const size_t n)
@ -252,9 +275,9 @@ package struct HashArray(alias hasher, K, V = void)
break;
}
}
if (this.rehashToSize(lengthIndex))
if (lengthIndex > this.lengthIndex)
{
this.lengthIndex = lengthIndex;
this.rehashToSize(lengthIndex);
}
}
@ -287,7 +310,7 @@ package struct HashArray(alias hasher, K, V = void)
return 0;
}
bool opBinaryRight(string op : "in")(ref inout(Key) key) inout
bool opBinaryRight(string op : "in", T)(ref const T key) const
{
foreach (ref e; this.array[locateBucket(key) .. $])
{

454
source/tanya/container/hashtable.d
View File

@ -14,6 +14,7 @@
*/
module tanya.container.hashtable;
import tanya.algorithm.mutation;
import tanya.container.array;
import tanya.container.entry;
import tanya.hash.lookup;
@ -138,6 +139,236 @@ struct Range(T)
}
}
/**
* Bidirectional range iterating over the key of a $(D_PSYMBOL HashTable).
*
* Params:
* T = Type of the internal hash storage.
*/
struct ByKey(T)
{
private alias Key = CopyConstness!(T, T.Key);
static if (isMutable!T)
{
private alias DataRange = T.array.Range;
}
else
{
private alias DataRange = T.array.ConstRange;
}
private DataRange dataRange;
@disable this();
private this(DataRange dataRange)
{
while (!dataRange.empty && dataRange.front.status != BucketStatus.used)
{
dataRange.popFront();
}
while (!dataRange.empty && dataRange.back.status != BucketStatus.used)
{
dataRange.popBack();
}
this.dataRange = dataRange;
}
@property ByKey save()
{
return this;
}
@property bool empty() const
{
return this.dataRange.empty();
}
@property void popFront()
in
{
assert(!empty);
assert(this.dataRange.front.status == BucketStatus.used);
}
out
{
assert(empty || this.dataRange.back.status == BucketStatus.used);
}
do
{
do
{
this.dataRange.popFront();
}
while (!empty && dataRange.front.status != BucketStatus.used);
}
@property void popBack()
in
{
assert(!empty);
assert(this.dataRange.back.status == BucketStatus.used);
}
out
{
assert(empty || this.dataRange.back.status == BucketStatus.used);
}
do
{
do
{
this.dataRange.popBack();
}
while (!empty && dataRange.back.status != BucketStatus.used);
}
@property ref inout(Key) front() inout
in
{
assert(!empty);
assert(this.dataRange.front.status == BucketStatus.used);
}
do
{
return this.dataRange.front.key;
}
@property ref inout(Key) back() inout
in
{
assert(!empty);
assert(this.dataRange.back.status == BucketStatus.used);
}
do
{
return this.dataRange.back.key;
}
ByKey opIndex()
{
return typeof(return)(this.dataRange[]);
}
ByKey!(const T) opIndex() const
{
return typeof(return)(this.dataRange[]);
}
}
/**
* Bidirectional range iterating over the key of a $(D_PSYMBOL HashTable).
*
* Params:
* T = Type of the internal hash storage.
*/
struct ByValue(T)
{
private alias Value = CopyConstness!(T, T.Value);
static if (isMutable!T)
{
private alias DataRange = T.array.Range;
}
else
{
private alias DataRange = T.array.ConstRange;
}
private DataRange dataRange;
@disable this();
private this(DataRange dataRange)
{
while (!dataRange.empty && dataRange.front.status != BucketStatus.used)
{
dataRange.popFront();
}
while (!dataRange.empty && dataRange.back.status != BucketStatus.used)
{
dataRange.popBack();
}
this.dataRange = dataRange;
}
@property ByValue save()
{
return this;
}
@property bool empty() const
{
return this.dataRange.empty();
}
@property void popFront()
in
{
assert(!empty);
assert(this.dataRange.front.status == BucketStatus.used);
}
out
{
assert(empty || this.dataRange.back.status == BucketStatus.used);
}
do
{
do
{
this.dataRange.popFront();
}
while (!empty && dataRange.front.status != BucketStatus.used);
}
@property void popBack()
in
{
assert(!empty);
assert(this.dataRange.back.status == BucketStatus.used);
}
out
{
assert(empty || this.dataRange.back.status == BucketStatus.used);
}
do
{
do
{
this.dataRange.popBack();
}
while (!empty && dataRange.back.status != BucketStatus.used);
}
@property ref inout(Value) front() inout
in
{
assert(!empty);
assert(this.dataRange.front.status == BucketStatus.used);
}
do
{
return this.dataRange.front.kv.value;
}
@property ref inout(Value) back() inout
in
{
assert(!empty);
assert(this.dataRange.back.status == BucketStatus.used);
}
do
{
return this.dataRange.back.kv.value;
}
ByValue opIndex()
{
return typeof(return)(this.dataRange[]);
}
ByValue!(const T) opIndex() const
{
return typeof(return)(this.dataRange[]);
}
}
/**
* Hash table is a data structure that stores pairs of keys and values without
* any particular order.
@ -155,7 +386,7 @@ struct Range(T)
* hasher = Hash function for $(D_PARAM Key).
*/
struct HashTable(Key, Value, alias hasher = hash)
if (is(typeof(hasher(Key.init)) == size_t))
if (isHashFunction!(hasher, Key))
{
private alias HashArray = .HashArray!(hasher, Key, Value);
private alias Buckets = HashArray.Buckets;
@ -171,11 +402,18 @@ if (is(typeof(hasher(Key.init)) == size_t))
/// ditto
alias ConstRange = .Range!(const HashArray);
/// ditto
alias ByKey = .ByKey!(const HashArray);
/// ditto
alias ByValue = .ByValue!HashArray;
/// ditto
alias ConstByValue = .ByValue!(const HashArray);
invariant
{
assert(this.data.lengthIndex < primes.length);
assert(this.data.array.length == 0
|| this.data.array.length == primes[this.data.lengthIndex]);
}
/**
@ -440,6 +678,23 @@ if (is(typeof(hasher(Key.init)) == size_t))
assert(hashTable.empty);
}
/**
* Returns current bucket count in the container.
*
* Bucket count equals to the number of the elements can be saved in the
* container in the best case scenario for key distribution, i.d. every key
* has a unique hash value. In a worse case the bucket count can be less
* than the number of elements stored in the container.
*
* Returns: Current bucket count.
*
* See_Also: $(D_PSYMBOL rehash).
*/
@property size_t bucketCount() const
{
return this.data.bucketCount;
}
/// The maximum number of buckets the container can have.
enum size_t maxBucketCount = primes[$ - 1];
@ -453,14 +708,28 @@ if (is(typeof(hasher(Key.init)) == size_t))
*
* Returns: Just inserted element.
*/
ref Value opIndexAssign(Value value, Key key)
ref Value opIndexAssign()(auto ref Value value, auto ref Key key)
{
auto e = ((ref v) @trusted => &this.data.insert(v))(key);
if (e.status != BucketStatus.used)
{
e.key = key;
static if (__traits(isRef, key))
{
e.key = key;
}
else
{
e.moveKey(key);
}
}
static if (__traits(isRef, value))
{
return e.kv.value = value;
}
else
{
return e.kv.value = move(value);
}
return e.kv.value = value;
}
///
@ -490,7 +759,7 @@ if (is(typeof(hasher(Key.init)) == size_t))
*
* Returns: The number of the inserted elements with a unique key.
*/
size_t insert(KeyValue keyValue)
size_t insert(ref KeyValue keyValue)
{
auto e = ((ref v) @trusted => &this.data.insert(v))(keyValue.key);
size_t inserted;
@ -503,6 +772,20 @@ if (is(typeof(hasher(Key.init)) == size_t))
return inserted;
}
/// ditto
size_t insert(KeyValue keyValue)
{
auto e = ((ref v) @trusted => &this.data.insert(v))(keyValue.key);
size_t inserted;
if (e.status != BucketStatus.used)
{
e.moveKey(keyValue.key);
inserted = 1;
}
move(keyValue.value, e.kv.value);
return inserted;
}
///
@nogc nothrow pure @safe unittest
{
@ -557,13 +840,15 @@ if (is(typeof(hasher(Key.init)) == size_t))
* Find the element with the key $(D_PARAM key).
*
* Params:
* T = Type comparable with the key type, used for the lookup.
* key = The key to be find.
*
* Returns: The value associated with $(D_PARAM key).
*
* Precondition: Element with $(D_PARAM key) is in this hash table.
*/
ref Value opIndex(Key key)
ref Value opIndex(T)(auto ref const T key)
if (ifTestable!(T, a => Key.init == a))
{
const code = this.data.locateBucket(key);
@ -619,12 +904,14 @@ if (is(typeof(hasher(Key.init)) == size_t))
* Looks for $(D_PARAM key) in this hash table.
*
* Params:
* T = Type comparable with the key type, used for the lookup.
* key = The key to look for.
*
* Returns: $(D_KEYWORD true) if $(D_PARAM key) exists in the hash table,
* $(D_KEYWORD false) otherwise.
*/
bool opBinaryRight(string op : "in")(auto ref inout(Key) key) inout
bool opBinaryRight(string op : "in", T)(auto ref const T key) const
if (ifTestable!(T, a => Key.init == a))
{
return key in this.data;
}
@ -645,18 +932,15 @@ if (is(typeof(hasher(Key.init)) == size_t))
* Sets the number of buckets in the container to at least $(D_PARAM n)
* and rearranges all the elements according to their hash values.
*
* If $(D_PARAM n) is greater than the current $(D_PSYMBOL capacity)
* If $(D_PARAM n) is greater than the current $(D_PSYMBOL bucketCount)
* and lower than or equal to $(D_PSYMBOL maxBucketCount), a rehash is
* forced.
*
* If $(D_PARAM n) is greater than $(D_PSYMBOL maxBucketCount),
* $(D_PSYMBOL maxBucketCount) is used instead as a new number of buckets.
*
* If $(D_PARAM n) is equal to the current $(D_PSYMBOL capacity), rehashing
* is forced without resizing the container.
*
* If $(D_PARAM n) is lower than the current $(D_PSYMBOL capacity), the
* function may have no effect.
* If $(D_PARAM n) is less than or equal to the current
* $(D_PSYMBOL bucketCount), the function may have no effect.
*
* Rehashing is automatically performed whenever the container needs space
* to insert new elements.
@ -697,6 +981,86 @@ if (is(typeof(hasher(Key.init)) == size_t))
assert(hashTable[].front == hashTable.KeyValue("Iguanodon", 9));
assert(hashTable[].back == hashTable.KeyValue("Iguanodon", 9));
}
/**
* Returns a bidirectional range that iterats over the keys of this
* $(D_PSYMBOL HashTable).
*
* This function always returns a $(D_KEYWORD const) range, since changing
* a key of a hash table would probably change its hash value and require
* rehashing.
*
* Returns: $(D_KEYWORD const) bidirectional range that iterates over the
* keys of the container.
*
* See_Also: $(D_PSYMBOL byValue).
*/
ByKey byKey() const
{
return typeof(return)(this.data.array[]);
}
///
@nogc nothrow pure @safe unittest
{
HashTable!(string, int) hashTable;
hashTable["one"] = 1;
hashTable["two"] = 2;
auto byKey = hashTable.byKey();
assert(!byKey.empty);
assert(byKey.front == "one" || byKey.front == "two");
assert(byKey.back == "one" || byKey.back == "two");
assert(byKey.front != byKey.back);
byKey.popFront();
assert(byKey.front == byKey.back);
byKey.popBack();
assert(byKey.empty);
}
/**
* Returns a bidirectional range that iterats over the values of this
* $(D_PSYMBOL HashTable).
*
* Returns: A bidirectional range that iterates over the values of the
* container.
*
* See_Also: $(D_PSYMBOL byKey).
*/
ByValue byValue()
{
return typeof(return)(this.data.array[]);
}
/// ditto
ConstByValue byValue() const
{
return typeof(return)(this.data.array[]);
}
///
@nogc nothrow pure @safe unittest
{
HashTable!(string, int) hashTable;
hashTable["one"] = 1;
hashTable["two"] = 2;
auto byValue = hashTable.byValue();
assert(!byValue.empty);
assert(byValue.front == 1 || byValue.front == 2);
assert(byValue.back == 1 || byValue.back == 2);
assert(byValue.front != byValue.back);
byValue.popFront();
assert(byValue.front == byValue.back);
byValue.popBack();
assert(byValue.empty);
}
}
@nogc nothrow pure @safe unittest
@ -727,6 +1091,9 @@ if (is(typeof(hasher(Key.init)) == size_t))
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
@ -773,3 +1140,60 @@ if (is(typeof(hasher(Key.init)) == size_t))
}
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"])));
}

1
source/tanya/container/list.d
View File

@ -15,7 +15,6 @@
*/
module tanya.container.list;
import std.algorithm.searching;
import tanya.algorithm.comparison;
import tanya.algorithm.mutation;
import tanya.container.entry;

23
source/tanya/container/package.d
View File

@ -20,26 +20,3 @@ public import tanya.container.hashtable;
public import tanya.container.list;
public import tanya.container.set;
public import tanya.container.string;
/**
* Thrown if $(D_PSYMBOL Set) cannot insert a new element because the container
* is full.
*/
deprecated
class HashContainerFullException : Exception
{
/**
* 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,
string file = __FILE__,
size_t line = __LINE__,
Throwable next = null) @nogc nothrow pure @safe
{
super(msg, file, line, next);
}
}

50
source/tanya/container/set.d
View File

@ -15,7 +15,6 @@
*/
module tanya.container.set;
import tanya.algorithm.mutation;
import tanya.container.array;
import tanya.container.entry;
import tanya.hash.lookup;
@ -155,7 +154,7 @@ struct Range(T)
* hasher = Hash function for $(D_PARAM T).
*/
struct Set(T, alias hasher = hash)
if (is(typeof(hasher(T.init)) == size_t))
if (isHashFunction!(hasher, T))
{
private alias HashArray = .HashArray!(hasher, T);
private alias Buckets = HashArray.Buckets;
@ -432,6 +431,23 @@ if (is(typeof(hasher(T.init)) == size_t))
assert(set.empty);
}
/**
* Returns current bucket count in the container.
*
* Bucket count equals to the number of the elements can be saved in the
* container in the best case scenario for key distribution, i.d. every key
* has a unique hash value. In a worse case the bucket count can be less
* than the number of elements stored in the container.
*
* Returns: Current bucket count.
*
* See_Also: $(D_PSYMBOL rehash).
*/
@property size_t bucketCount() const
{
return this.data.bucketCount;
}
/// The maximum number of buckets the container can have.
enum size_t maxBucketCount = primes[$ - 1];
@ -443,6 +459,17 @@ if (is(typeof(hasher(T.init)) == size_t))
*
* Returns: Amount of new elements inserted.
*/
size_t insert(ref T value)
{
auto e = ((ref v) @trusted => &this.data.insert(v))(value);
if (e.status != BucketStatus.used)
{
e.moveKey(value);
return 1;
}
return 0;
}
size_t insert(T value)
{
auto e = ((ref v) @trusted => &this.data.insert(v))(value);
@ -534,12 +561,14 @@ if (is(typeof(hasher(T.init)) == size_t))
* $(D_KEYWORD in) operator.
*
* Params:
* U = Type comparable with the element type, used for the lookup.
* value = Element to be searched for.
*
* Returns: $(D_KEYWORD true) if the given element exists in the container,
* $(D_KEYWORD false) otherwise.
*/
bool opBinaryRight(string op : "in")(auto ref inout(T) value) inout
bool opBinaryRight(string op : "in", U)(auto ref const U value) const
if (ifTestable!(U, a => T.init == a))
{
return value in this.data;
}
@ -559,18 +588,15 @@ if (is(typeof(hasher(T.init)) == size_t))
* Sets the number of buckets in the container to at least $(D_PARAM n)
* and rearranges all the elements according to their hash values.
*
* If $(D_PARAM n) is greater than the current $(D_PSYMBOL capacity)
* If $(D_PARAM n) is greater than the current $(D_PSYMBOL bucketCount)
* and lower than or equal to $(D_PSYMBOL maxBucketCount), a rehash is
* forced.
*
* If $(D_PARAM n) is greater than $(D_PSYMBOL maxBucketCount),
* $(D_PSYMBOL maxBucketCount) is used instead as a new number of buckets.
*
* If $(D_PARAM n) is equal to the current $(D_PSYMBOL capacity), rehashing
* is forced without resizing the container.
*
* If $(D_PARAM n) is lower than the current $(D_PSYMBOL capacity), the
* function may have no effect.
* If $(D_PARAM n) is less than or equal to the current
* $(D_PSYMBOL bucketCount), the function may have no effect.
*
* Rehashing is automatically performed whenever the container needs space
* to insert new elements.
@ -741,3 +767,9 @@ if (is(typeof(hasher(T.init)) == size_t))
}
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)));
}

147
source/tanya/container/string.d
View File

@ -26,11 +26,10 @@
*/
module tanya.container.string;
import std.algorithm.comparison : cmp;
import std.algorithm.mutation : bringToFront, copy;
import std.algorithm.searching;
import std.algorithm.mutation : bringToFront;
import tanya.algorithm.comparison;
import tanya.algorithm.mutation;
import tanya.hash.lookup;
import tanya.memory;
import tanya.meta.trait;
import tanya.meta.transform;
@ -499,7 +498,7 @@ struct String
}
}
@nogc pure @safe unittest
@nogc nothrow pure @safe unittest
{
auto s = String(0, 'K');
assert(s.length == 0);
@ -579,16 +578,10 @@ struct String
* Params:
* chr = The character should be inserted.
*
* Returns: The number of bytes inserted.
*
* Throws: $(D_PSYMBOL UTFException).
* Returns: The number of bytes inserted (1).
*/
size_t insertBack(const char chr) @nogc pure @trusted
size_t insertBack(char chr) @nogc nothrow pure @trusted
{
if ((chr & 0x80) != 0)
{
throw defaultAllocator.make!UTFException("Invalid UTF-8 character");
}
reserve(length + 1);
*(data + length) = chr;
@ -652,8 +645,6 @@ struct String
* str = String should be inserted.
*
* Returns: The number of bytes inserted.
*
* Throws: $(D_PSYMBOL UTFException).
*/
size_t insertBack(R)(R str) @trusted
if (!isInfinite!R
@ -673,46 +664,18 @@ struct String
this.length_ = size;
return str.length;
}
else static if (isInstanceOf!(ByCodeUnit, R))
{
str.get.copy(this.data[length .. size]);
this.length_ = size;
return str.length;
}
else
{
size_t insertedLength;
while (!str.empty)
foreach (c; str)
{
ubyte expectedLength;
if ((str.front & 0x80) == 0x00)
{
expectedLength = 1;
}
else if ((str.front & 0xe0) == 0xc0)
{
expectedLength = 2;
}
else if ((str.front & 0xf0) == 0xe0)
{
expectedLength = 3;
}
else if ((str.front & 0xf8) == 0xf0)
{
expectedLength = 4;
}
else
{
throw defaultAllocator.make!UTFException("Invalid UTF-8 sequeunce");
}
size = length + expectedLength;
reserve(size);
for (; expectedLength > 0; --expectedLength)
{
if (str.empty)
{
throw defaultAllocator.make!UTFException("Invalid UTF-8 sequeunce");
}
*(data + length) = str.front;
str.popFront();
}
insertedLength += expectedLength;
this.length_ = size;
insertedLength += insertBack(c);
}
return insertedLength;
}
@ -828,7 +791,7 @@ struct String
}
///
@nogc pure @safe unittest
@nogc nothrow pure @safe unittest
{
String s;
assert(s.capacity == 0);
@ -869,7 +832,7 @@ struct String
}
///
@nogc pure @safe unittest
@nogc nothrow pure @safe unittest
{
auto s = String("Die Alten lasen laut.");
assert(s.capacity == 21);
@ -894,7 +857,7 @@ struct String
}
///
@nogc pure @safe unittest
@nogc nothrow pure @safe unittest
{
auto s = String("In allem Schreiben ist Schamlosigkeit.");
assert(s.capacity == 38);
@ -991,7 +954,7 @@ struct String
*
* Returns: Null-terminated string.
*/
const(char)* toStringz() @nogc nothrow pure
const(char)* toStringz() @nogc nothrow pure @system
{
reserve(length + 1);
this.data[length] = '\0';
@ -999,7 +962,7 @@ struct String
}
///
@nogc pure unittest
@nogc nothrow pure @system unittest
{
auto s = String("C string.");
assert(s.toStringz()[0] == 'C');
@ -1018,7 +981,7 @@ struct String
alias opDollar = length;
///
@nogc pure @safe unittest
@nogc nothrow pure @safe unittest
{
auto s = String("Piscis primuin a capite foetat.");
assert(s.length == 31);
@ -1044,7 +1007,7 @@ struct String
}
///
@nogc pure @safe unittest
@nogc nothrow pure @safe unittest
{
auto s = String("Alea iacta est.");
assert(s[0] == 'A');
@ -1067,7 +1030,7 @@ struct String
}
///
@nogc pure @safe unittest
@nogc nothrow pure @safe unittest
{
auto s = String("Plutarchus");
auto r = s[];
@ -1086,7 +1049,7 @@ struct String
}
///
@nogc pure @safe unittest
@nogc nothrow pure @safe unittest
{
auto s = const String("Was ich vermag, soll gern geschehen. Goethe");
auto r1 = s[];
@ -1162,7 +1125,7 @@ struct String
}
///
@nogc pure @safe unittest
@nogc nothrow pure @safe unittest
{
String s;
assert(s.empty);
@ -1207,7 +1170,7 @@ struct String
}
///
@nogc pure @safe unittest
@nogc nothrow pure @safe unittest
{
auto s = String("Vladimir Soloviev");
auto r = s[9 .. $];
@ -1271,7 +1234,7 @@ struct String
}
///
@nogc pure @safe unittest
@nogc nothrow pure @safe unittest
{
auto s = String("Черная, потом пропахшая выть!");
s = String("Как мне тебя не ласкать, не любить?");
@ -1299,10 +1262,11 @@ struct String
}
///
@nogc pure @safe unittest
@nogc nothrow pure @safe unittest
{
auto s = String("Оловом светится лужная голь...");
s = "Грустная песня, ты - русская боль.";
assert(s == "Грустная песня, ты - русская боль.");
}
/**
@ -1318,33 +1282,33 @@ struct String
int opCmp(S)(auto ref S that) const @trusted
if (is(Unqual!S == String))
{
return cmp(this.data[0 .. length], that.data[0 .. that.length]);
return compare(this.data[0 .. length], that.data[0 .. that.length]);
}
/// ditto
int opCmp(S)(ByCodeUnit!S that) const @trusted
if (is(Unqual!S == char))
{
return cmp(this.data[0 .. length],
that.begin[0 .. that.end - that.begin]);
return compare(this.data[0 .. length],
that.begin[0 .. that.end - that.begin]);
}
/// ditto
int opCmp(S)(ByCodePoint!S that) const @trusted
if (is(Unqual!S == char))
{
return cmp(this.data[0 .. length],
that.begin[0 .. that.end - that.begin]);
return compare(this.data[0 .. length],
that.begin[0 .. that.end - that.begin]);
}
/// ditto
int opCmp()(const char[] that) const @trusted
{
return cmp(this.data[0 .. length], that);
return compare(this.data[0 .. length], that);
}
///
@nogc pure @safe unittest
@nogc nothrow pure @safe unittest
{
assert(String("Голубая кофта.") < String("Синие глаза."));
assert(String("Никакой я правды") < String("милой не сказал")[]);
@ -1397,7 +1361,7 @@ struct String
}
///
@nogc pure @safe unittest
@nogc nothrow pure @safe unittest
{
assert(String("Милая спросила:") != String("Крутит ли метель?"));
assert(String("Затопить бы печку,") != String("постелить постель.")[]);
@ -1430,7 +1394,7 @@ struct String
}
///
@nogc pure @safe unittest
@nogc nothrow pure @safe unittest
{
auto s = String("alea iacta est.");
@ -1455,7 +1419,7 @@ struct String
return opSliceAssign(value, 0, length);
}
@nogc pure @safe unittest
@nogc nothrow pure @safe unittest
{
auto s1 = String("Buttercup");
auto s2 = String("Cap");
@ -1469,7 +1433,7 @@ struct String
return opSliceAssign(value, 0, length);
}
@nogc pure @safe unittest
@nogc nothrow pure @safe unittest
{
auto s1 = String("Wow");
s1[] = 'a';
@ -1482,7 +1446,7 @@ struct String
return opSliceAssign(value, 0, length);
}
@nogc pure @safe unittest
@nogc nothrow pure @safe unittest
{
auto s1 = String("ö");
s1[] = "oe";
@ -1520,6 +1484,8 @@ 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);
@ -1574,7 +1540,7 @@ struct String
}
///
@nogc pure @safe unittest
@nogc nothrow pure @safe unittest
{
auto s = String("Казнить нельзя помиловать.");
s.insertAfter(s[0 .. 27], ",");
@ -1603,7 +1569,7 @@ struct String
}
///
@nogc pure @safe unittest
@nogc nothrow pure @safe unittest
{
auto s = String("Казнить нельзя помиловать.");
s.insertBefore(s[27 .. $], ",");
@ -1614,11 +1580,21 @@ struct String
assert(s == "Казнить, нельзя помиловать.");
}
/**
* Calculates the hash value for the string.
*
* Returns: Hash value for the string.
*/
size_t toHash() const @nogc nothrow pure @safe
{
return hash(get);
}
mixin DefaultAllocator;
}
// Postblit works.
@nogc pure @safe unittest
// Postblit works
@nogc nothrow pure @safe unittest
{
void internFunc(String arg)
{
@ -1637,7 +1613,7 @@ struct String
topFunc(String("asdf"));
}
// Const range produces mutable ranges.
// Const range produces mutable ranges
@nogc pure @safe unittest
{
auto s = const String("И снизу лед, и сверху - маюсь между.");
@ -1663,7 +1639,7 @@ struct String
}
}
// Can pop multibyte characters.
// Can pop multibyte characters
@nogc pure @safe unittest
{
auto s = String("\U00024B62\U00002260");
@ -1680,3 +1656,12 @@ struct String
s[$ - 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);
}

260
source/tanya/conv.d
View File

@ -14,6 +14,7 @@
*/
module tanya.conv;
import tanya.algorithm.mutation;
import tanya.container.string;
import tanya.format;
import tanya.memory;
@ -164,40 +165,48 @@ do
/// 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
in(memory.length >= T.sizeof)
out(result; memory.ptr is result)
{
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);
}
alias trustedCopy = (ref arg) @trusted =>
copy((cast(void*) &arg)[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))))
{
static if (!hasElaborateAssign!T && isAssignable!T)
{
*result = T.init;
}
else
{
static if (__VERSION__ >= 2083 // __traits(isZeroInit) available.
&& __traits(isZeroInit, T))
{
(() @trusted => memory.ptr[0 .. T.sizeof])().fill!0;
}
else
{
static immutable T init = T.init;
trustedCopy(init);
}
}
result.__ctor(args);
}
else static if (Args.length == 1 && is(typeof({ T t = args[0]; })))
{
trustedCopy(args[0]);
}
else static if (is(typeof({ T t = T(args); })))
{
auto init = T(args);
(() @trusted => moveEmplace(init, *result))();
}
else
{
static assert(false,
@ -245,6 +254,38 @@ do
static assert(is(typeof(emplace!F((void[]).init))));
}
// Can emplace structs without a constructor
@nogc nothrow pure @safe unittest
{
static struct SWithDtor
{
~this() @nogc nothrow pure @safe
{
}
}
static assert(is(typeof(emplace!SWithDtor(null, SWithDtor()))));
static assert(is(typeof(emplace!SWithDtor(null))));
}
// Doesn't call a destructor on uninitialized elements
@nogc nothrow pure @system unittest
{
static struct WithDtor
{
private bool canBeInvoked = false;
~this() @nogc nothrow pure @safe
{
if (!this.canBeInvoked)
{
assert(false);
}
}
}
void[WithDtor.sizeof] memory = void;
auto actual = emplace!WithDtor(memory[], WithDtor(true));
assert(actual.canBeInvoked);
}
/**
* Thrown if a type conversion fails.
*/
@ -282,8 +323,8 @@ final class ConvException : Exception
*
* The function doesn't handle the sign (+ or -) or number prefixes (like 0x).
*/
package T readIntegral(T, R)(ref R range, ubyte base = 10)
if (isForwardRange!R
package T readIntegral(T, R)(ref R range, const ubyte base = 10)
if (isInputRange!R
&& isSomeChar!(ElementType!R)
&& isIntegral!T
&& isUnsigned!T)
@ -301,18 +342,18 @@ do
}
T n;
while (n <= boundary)
int digit;
do
{
int digit;
if (range.front >= 'a')
{
digit = range.front - 'W';
}
else if (range.front >= 'A')
else if (range.front >= 'A' && range.front <= 'Z')
{
digit = range.front - '7';
}
else if (range.front >= '0')
else if (range.front >= '0' && range.front <= '9')
{
digit = range.front - '0';
}
@ -332,21 +373,43 @@ do
return n;
}
}
if (range.length > 1)
while (n < boundary);
if (range.front >= 'a')
{
digit = range.front - 'W';
}
else if (range.front >= 'A')
{
digit = range.front - '7';
}
else if (range.front >= '0')
{
digit = range.front - '0';
}
else
{
return n;
}
int digit = range.front - '0';
if (n > cast(T) ((T.max - digit) / base))
{
return n;
}
n = cast(T) (n * base + digit);
range.popFront();
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
{
@ -410,6 +473,14 @@ do
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
@ -827,30 +898,133 @@ if (is(Unqual!From == bool) && isNumeric!To && !is(Unqual!To == Unqual!From))
}
/**
* Converts $(D_PARAM From) to a $(D_PSYMBOL String).
* Converts a stringish range to an integral value.
*
* Params:
* From = Source type.
* To = Target type.
* from = Source value.
*
* Returns: $(D_PARAM from) converted to $(D_PSYMBOL String).
* Returns: $(D_PARAM from) converted to $(D_PARAM To).
*
* Throws: $(D_PSYMBOL ConvException) if $(D_PARAM from) doesn't contain an
* integral value.
*/
To to(To, From)(auto ref From from)
if (is(Unqual!To == String))
if (isInputRange!From && isSomeChar!(ElementType!From) && isIntegral!To)
{
return format!"{}"(from);
if (from.empty)
{
throw make!ConvException(defaultAllocator, "Input range is empty");
}
static if (isSigned!To)
{
bool negative;
}
if (from.front == '-')
{
static if (isUnsigned!To)
{
throw make!ConvException(defaultAllocator,
"Negative integer overflow");
}
else
{
negative = true;
from.popFront();
}
}
if (from.empty)
{
throw make!ConvException(defaultAllocator, "Input range is empty");
}
ubyte base = 10;
if (from.front == '0')
{
from.popFront();
if (from.empty)
{
return To.init;
}
else if (from.front == 'x' || from.front == 'X')
{
base = 16;
from.popFront();
}
else if (from.front == 'b' || from.front == 'B')
{
base = 2;
from.popFront();
}
else
{
base = 8;
}
}
auto unsigned = readIntegral!(Unsigned!To, From)(from, base);
if (!from.empty)
{
throw make!ConvException(defaultAllocator, "Integer overflow");
}
static if (isSigned!To)
{
if (negative)
{
auto predecessor = cast(Unsigned!To) (unsigned - 1);
if (predecessor > cast(Unsigned!To) To.max)
{
throw make!ConvException(defaultAllocator,
"Negative integer overflow");
}
return cast(To) (-(cast(Largest!(To, ptrdiff_t)) predecessor) - 1);
}
else if (unsigned > cast(Unsigned!To) To.max)
{
throw make!ConvException(defaultAllocator, "Integer overflow");
}
else
{
return unsigned;
}
}
else
{
return unsigned;
}
}
///
@nogc nothrow pure @safe unittest
@nogc pure @safe unittest
{
assert(true.to!String == "true");
assert(false.to!String == "false");
}
assert("1234".to!uint() == 1234);
assert("1234".to!int() == 1234);
assert("1234".to!int() == 1234);
@nogc nothrow pure @safe unittest
{
static assert(is(typeof((const String("true")).to!bool)));
static assert(is(typeof(false.to!(const String) == "false")));
assert("0".to!int() == 0);
assert("-0".to!int() == 0);
assert("0x10".to!int() == 16);
assert("0X10".to!int() == 16);
assert("-0x10".to!int() == -16);
assert("0b10".to!int() == 2);
assert("0B10".to!int() == 2);
assert("-0b10".to!int() == -2);
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);
}

2219
source/tanya/format.d
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File diff suppressed because it is too large Load Diff

78
source/tanya/functional.d Normal file
View File

@ -0,0 +1,78 @@
/* 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));
}
})));
}

56
source/tanya/hash/lookup.d
View File

@ -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");
@ -89,7 +94,10 @@ private struct FNV
* }
* ---
*
* For scalar types FNV-1a (Fowler-Noll-Vo) hash function is used internally.
* 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.
* If the type provides a `toHash`-function, only `toHash()` is called and its
* result is returned.
*
@ -110,6 +118,19 @@ size_t hash(T)(auto ref T key)
{
return key.toHash();
}
else static if ((isIntegral!T || isSomeChar!T || isBoolean!T)
&& T.sizeof <= size_t.sizeof)
{
return cast(size_t) key;
}
else static if (isIntegral!T && T.sizeof > size_t.sizeof)
{
return cast(size_t) (key ^ (key >>> (size_t.sizeof * 8)));
}
else static if (isPointer!T || is(T : typeof(null)))
{
return (() @trusted => cast(size_t) key)();
}
else
{
FNV fnv;
@ -177,30 +198,29 @@ version (unittest)
// Tests that work for any hash size
@nogc nothrow pure @safe unittest
{
assert(hash(null) == FNV.offsetBasis);
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('a') == 0xe40c292cU);
assert(hash(HashRange()) == 0x6222e842U);
assert(hash(ToHashRange()) == 1268118805U);
}
static if (size_t.sizeof == 8) @nogc nothrow pure @safe unittest
{
assert(hash('a') == 0xaf63dc4c8601ec8cUL);
assert(hash(HashRange()) == 0x08985907b541d342UL);
assert(hash(ToHashRange()) == 12161962213042174405UL);
}
static if (size_t.sizeof == 4) @nogc nothrow pure @system unittest
{
assert(hash(cast(void*) 0x6e6f6863) == 0xac297727U);
assert(hash(cast(void*) 0x6e6f6863) == 0x6e6f6863);
}
static if (size_t.sizeof == 8) @nogc nothrow pure @system unittest
{
assert(hash(cast(void*) 0x77206f676e6f6863) == 0xd1edd10b507344d0UL);
assert(hash(cast(void*) 0x77206f676e6f6863) == 0x77206f676e6f6863);
}
/*
@ -621,3 +641,27 @@ static if (size_t.sizeof == 8) @nogc nothrow pure @safe unittest
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
* $(D_PSYMBOL size_t) value.
*
* Params:
* hasher = Hash function candidate.
* T = Type to test the hash function with.
*
* Returns: $(D_KEYWORD true) if $(D_PARAM hasher) is a hash function for
* $(D_PARAM T), $(D_KEYWORD false) otherwise.
*/
template isHashFunction(alias hasher, T)
{
private alias wrapper = (T x) => hasher(x);
enum bool isHashFunction = is(typeof(wrapper(T.init)) == size_t);
}
///
@nogc nothrow pure @safe unittest
{
static assert(isHashFunction!(hash, int));
}

24
source/tanya/math/mp.d
View File

@ -14,17 +14,15 @@
*/
module tanya.math.mp;
import std.algorithm.comparison : cmp;
import std.algorithm.mutation : copy, fill, reverse;
import std.range;
import tanya.algorithm.comparison;
import tanya.algorithm.iteration;
import tanya.algorithm.mutation;
import tanya.container.array;
import tanya.encoding.ascii;
import tanya.memory;
static import tanya.memory.op;
import tanya.meta.trait;
import tanya.meta.transform;
import tanya.range;
/**
* Algebraic sign.
@ -211,7 +209,7 @@ struct Integer
this(this) @nogc nothrow pure @safe
{
auto tmp = allocator.resize!digit(null, this.size);
tanya.memory.op.copy(this.rep[0 .. this.size], tmp);
copy(this.rep[0 .. this.size], tmp);
this.rep = tmp;
}
@ -344,8 +342,7 @@ struct Integer
if (is(Unqual!T == Integer))
{
this.rep = allocator.resize(this.rep, value.size);
tanya.memory.op.copy(value.rep[0 .. value.size],
this.rep[0 .. value.size]);
copy(value.rep[0 .. value.size], this.rep[0 .. value.size]);
this.size = value.size;
this.sign = value.sign;
@ -631,7 +628,7 @@ struct Integer
}
return this.rep[0 .. this.size]
.retro
.cmp(that.rep[0 .. that.size].retro);
.compare(that.rep[0 .. that.size].retro);
}
/**
@ -932,7 +929,7 @@ struct Integer
const shift = digitBitCount - bit;
digit carry;
foreach (ref d; this.rep[0 .. this.size].retro)
foreach_reverse (ref d; this.rep[0 .. this.size])
{
const newCarry = d & mask;
d = (d >> bit) | (carry << shift);
@ -1508,14 +1505,11 @@ struct Integer
tmp = this;
}
do
array.length = length;
for (size_t i = array.length - 1; tmp != 0; tmp >>= 8, --i)
{
array.insertBack(cast(ubyte) (tmp.rep[0] & 0xff));
tmp >>= 8;
array[i] = (cast(ubyte) (tmp.rep[0] & 0xff));
}
while (tmp != 0);
array[].reverse();
return array;
}

100
source/tanya/math/package.d
View File

@ -87,7 +87,7 @@ if (isFloatingPoint!F)
static assert(ieeePrecision!double == IEEEPrecision.double_);
}
private union FloatBits(F)
package(tanya) union FloatBits(F)
{
Unqual!F floating;
static if (ieeePrecision!F == IEEEPrecision.single)
@ -739,101 +739,3 @@ bool isPseudoprime(ulong x) @nogc nothrow pure @safe
assert(899809363.isPseudoprime);
assert(982451653.isPseudoprime);
}
deprecated("Use tanya.algorithm.comparison.min instead")
T min(T)(T x, T y)
if (isIntegral!T)
{
return x < y ? x : y;
}
deprecated("Use tanya.algorithm.comparison.min instead")
T min(T)(T x, T y)
if (isFloatingPoint!T)
{
if (isNaN(x))
{
return y;
}
if (isNaN(y))
{
return x;
}
return x < y ? x : y;
}
deprecated("Use tanya.algorithm.comparison.min instead")
ref T min(T)(ref T x, ref T y)
if (is(Unqual!T == Integer))
{
return x < y ? x : y;
}
deprecated("Use tanya.algorithm.comparison.min instead")
T min(T)(T x, T y)
if (is(T == Integer))
{
return x < y ? move(x) : move(y);
}
@nogc nothrow pure @safe unittest
{
assert(min(Integer(5), Integer(3)) == 3);
}
deprecated("Use tanya.algorithm.comparison.max instead")
T max(T)(T x, T y)
if (isIntegral!T)
{
return x > y ? x : y;
}
deprecated("Use tanya.algorithm.comparison.max instead")
T max(T)(T x, T y)
if (isFloatingPoint!T)
{
if (isNaN(x))
{
return y;
}
if (isNaN(y))
{
return x;
}
return x > y ? x : y;
}
deprecated("Use tanya.algorithm.comparison.max instead")
ref T max(T)(ref T x, ref T y)
if (is(Unqual!T == Integer))
{
return x > y ? x : y;
}
deprecated("Use tanya.algorithm.comparison.max instead")
T max(T)(T x, T y)
if (is(T == Integer))
{
return x > y ? move(x) : move(y);
}
///
@nogc nothrow pure @safe unittest
{
assert(max(Integer(5), Integer(3)) == 5);
}
// min/max accept const and mutable references.
@nogc nothrow pure @safe unittest
{
{
Integer i1 = 5, i2 = 3;
assert(min(i1, i2) == 3);
assert(max(i1, i2) == 5);
}
{
const Integer i1 = 5, i2 = 3;
assert(min(i1, i2) == 3);
assert(max(i1, i2) == 5);
}
}

137
source/tanya/math/random.d
View File

@ -15,10 +15,11 @@
module tanya.math.random;
import std.digest.sha;
import std.typecons;
import tanya.memory;
import tanya.typecons;
/// Block size of entropy accumulator (SHA-512).
deprecated
enum blockSize = 64;
/// Maximum amount gathered from the entropy sources.
@ -39,7 +40,7 @@ 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 +57,17 @@ 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 +77,7 @@ 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 +90,13 @@ 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 +123,7 @@ 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 +133,7 @@ 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 +141,7 @@ 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 +154,14 @@ 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
out (length)
{
assert(length <= maxGather);
}
do
override Option!ubyte poll(out ubyte[maxGather] output) @nogc nothrow
{
// 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 +170,11 @@ 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 +184,7 @@ 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 +192,7 @@ 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 +205,15 @@ 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 +232,31 @@ 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.
if (!CryptAcquireContextW(&hProvider, null, null, PROV_RSA_FULL, CRYPT_VERIFYCONTEXT | CRYPT_SILENT))
// CRYPT_SILENT is intended for use with applications for which the UI
// 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
if (!CryptAcquireContextA(&hProvider, null, null, PROV_RSA_FULL, CRYPT_NEWKEYSET | CRYPT_SILENT))
return false;
return false;
}
else
// Attempt to create default container
if (!CryptAcquireContextA(&hProvider,
null,
null,
PROV_RSA_FULL,
CRYPT_NEWKEYSET | CRYPT_SILENT))
{
return false;
}
@ -299,7 +292,7 @@ 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 +300,7 @@ 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 +313,14 @@ 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
in
override Option!ubyte poll(out ubyte[maxGather] output)
@nogc nothrow @safe
{
assert(hProvider > 0, "hProvider not properly initialized.");
}
do
{
Nullable!ubyte ret;
Option!ubyte ret;
assert(hProvider > 0, "hProvider not properly initialized");
if ((() @trusted => CryptGenRandom(hProvider, output.length, cast(PBYTE) output.ptr))())
{
ret = cast(ubyte) (output.length);
@ -337,15 +328,16 @@ else version (Windows)
return ret;
}
}
}
@nogc @system unittest
{
auto entropy = defaultAllocator.make!Entropy();
ubyte[blockSize] output;
output = entropy.random;
static if (is(PlatformEntropySource)) @nogc @system unittest
{
import tanya.memory.smartref : unique;
defaultAllocator.dispose(entropy);
}
auto source = defaultAllocator.unique!PlatformEntropySource();
assert(source.threshold == 32);
assert(source.strong);
}
/**
@ -360,6 +352,7 @@ else version (Windows)
* defaultAllocator.dispose(entropy);
* ---
*/
deprecated
class Entropy
{
/// Entropy sources.
@ -396,7 +389,7 @@ class Entropy
/**
* Returns: Amount of the registered entropy sources.
*/
@property ubyte sourceCount() const pure nothrow @safe @nogc
@property ubyte sourceCount() const @nogc nothrow pure @safe
{
return sourceCount_;
}
@ -413,7 +406,7 @@ class Entropy
* $(D_PSYMBOL EntropySource)
*/
Entropy opOpAssign(string op)(EntropySource source)
pure nothrow @safe @nogc
@nogc nothrow pure @safe
if (op == "~")
in
{
@ -451,7 +444,7 @@ class Entropy
{
auto outputLength = sources[i].poll(buffer);
if (!outputLength.isNull)
if (!outputLength.isNothing)
{
if (outputLength > 0)
{
@ -502,7 +495,7 @@ class Entropy
*/
protected void update(in ubyte sourceId,
ref ubyte[maxGather] data,
ubyte length) pure nothrow @safe @nogc
ubyte length) @nogc nothrow pure @safe
{
ubyte[2] header;

217
source/tanya/memory/op.d
View File

@ -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
@ -43,7 +43,7 @@ version (TanyaNative)
@nogc nothrow pure @safe unittest
{
assert(cmp(null, null) == 0);
assert(equal(null, null));
}
}
@ -91,7 +91,7 @@ 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
@ -110,7 +110,7 @@ do
ubyte[8] source = [1, 2, 3, 4, 5, 6, 7, 8];
ubyte[8] target;
source.copy(target);
assert(cmp(source, target) == 0);
assert(equal(source, target));
}
}
@ -212,7 +212,7 @@ 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
@ -221,7 +221,7 @@ do
ubyte[9] r2;
copyBackward(r1, r2);
assert(cmp(r1, r2) == 0);
assert(equal(r1, r2));
}
/**
@ -241,6 +241,7 @@ do
* negative integer if $(D_INLINECODE r2 > r1),
* `0` if $(D_INLINECODE r1 == r2).
*/
deprecated("Use tanya.memory.op.equal() or tanya.algorithm.comparison.compare() instead")
int cmp(const void[] r1, const void[] r2) @nogc nothrow pure @trusted
in
{
@ -249,48 +250,13 @@ in
}
do
{
version (TanyaNative)
import core.stdc.string : memcmp;
if (r1.length > r2.length)
{
return cmpMemory(r1, r2);
return 1;
}
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);
return r1.length < r2.length ? -1 : memcmp(r1.ptr, r2.ptr, r1.length);
}
/**
@ -305,7 +271,7 @@ do
* first occurrence of $(D_PARAM needle). If $(D_PARAM needle)
* couldn't be found, an empty `inout void[]` is returned.
*/
inout(void[]) find(return inout void[] haystack, const ubyte needle)
inout(void[]) find(return inout void[] haystack, ubyte needle)
@nogc nothrow pure @trusted
in
{
@ -326,19 +292,19 @@ do
{
return bytes[0 .. length];
}
bytes++;
length--;
++bytes;
--length;
}
// Check if some of the words has the needle
auto words = cast(inout(size_t)*) bytes;
while (length >= size_t.sizeof)
{
if (((*words ^ needleWord) - highBits) & (~*words) & mask)
if ((((*words ^ needleWord) - highBits) & (~*words) & mask) != 0)
{
break;
}
words++;
++words;
length -= size_t.sizeof;
}
@ -350,8 +316,8 @@ do
{
return bytes[0 .. length];
}
bytes++;
length--;
++bytes;
--length;
}
return haystack[$ .. $];
@ -362,14 +328,145 @@ do
{
const ubyte[9] haystack = ['a', 'b', 'c', 'd', 'e', 'f', 'b', 'g', 'h'];
assert(find(haystack, 'a') == haystack[]);
assert(find(haystack, 'b') == haystack[1 .. $]);
assert(find(haystack, 'c') == haystack[2 .. $]);
assert(find(haystack, 'd') == haystack[3 .. $]);
assert(find(haystack, 'e') == haystack[4 .. $]);
assert(find(haystack, 'f') == haystack[5 .. $]);
assert(find(haystack, 'h') == haystack[8 .. $]);
assert(equal(find(haystack, 'a'), haystack[]));
assert(equal(find(haystack, 'b'), haystack[1 .. $]));
assert(equal(find(haystack, 'c'), haystack[2 .. $]));
assert(equal(find(haystack, 'd'), haystack[3 .. $]));
assert(equal(find(haystack, 'e'), haystack[4 .. $]));
assert(equal(find(haystack, 'f'), haystack[5 .. $]));
assert(equal(find(haystack, 'h'), haystack[8 .. $]));
assert(find(haystack, 'i').length == 0);
assert(find(null, 'a').length == 0);
}
/**
* Looks for `\0` in the $(D_PARAM haystack) and returns the part of the
* $(D_PARAM haystack) ahead of it.
*
* Returns $(D_KEYWORD null) if $(D_PARAM haystack) doesn't contain a null
* character.
*
* Params:
* haystack = Memory block.
*
* Returns: The subrange that spans all bytes before the null character or
* $(D_KEYWORD null) if the $(D_PARAM haystack) doesn't contain any.
*/
inout(char[]) findNullTerminated(return inout char[] haystack)
@nogc nothrow pure @trusted
in
{
assert(haystack.length == 0 || haystack.ptr !is null);
}
do
{
auto length = haystack.length;
enum size_t highBits = filledBytes!(0x01, 0);
enum size_t mask = filledBytes!(0x80, 0);
// Align
auto bytes = cast(inout(ubyte)*) haystack;
while (length > 0 && ((cast(size_t) bytes) & 3) != 0)
{
if (*bytes == '\0')
{
return haystack[0 .. haystack.length - length];
}
++bytes;
--length;
}
// Check if some of the words contains 0
auto words = cast(inout(size_t)*) bytes;
while (length >= size_t.sizeof)
{
if (((*words - highBits) & (~*words) & mask) != 0)
{
break;
}
++words;
length -= size_t.sizeof;
}
// Find the exact 0 position in the word
bytes = cast(inout(ubyte)*) words;
while (length > 0)
{
if (*bytes == '\0')
{
return haystack[0 .. haystack.length - length];
}
++bytes;
--length;
}
return null;
}
///
@nogc nothrow pure @safe unittest
{
assert(equal(findNullTerminated("abcdef\0gh"), "abcdef"));
assert(equal(findNullTerminated("\0garbage"), ""));
assert(equal(findNullTerminated("\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:
* haystack = First memory block.
* needle = First 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
{
assert(r1.length == 0 || r1.ptr !is null);
assert(r2.length == 0 || r2.ptr !is null);
}
do
{
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"));
}
// Compares unanligned memory
@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(equal(r1, r2));
assert(equal(r1[1 .. $], r2[1 .. $]));
assert(equal(r1[0 .. $ - 1], r2[0 .. $ - 1]));
assert(equal(r1[0 .. 8], r2[0 .. 8]));
}

10
source/tanya/memory/package.d
View File

@ -14,7 +14,7 @@
*/
module tanya.memory;
import std.algorithm.mutation;
import tanya.algorithm.mutation;
import tanya.conv;
import tanya.exception;
public import tanya.memory.allocator;
@ -341,13 +341,7 @@ if (isPolymorphicType!T)
package(tanya) void[] finalize(T)(ref T[] p)
{
static if (hasElaborateDestructor!(typeof(p[0])))
{
foreach (ref e; p)
{
destroy(e);
}
}
destroyAll(p);
return p;
}

57
source/tanya/meta/metafunction.d
View File

@ -116,7 +116,7 @@ if (Args.length > 0 && __traits(isTemplate, pred))
}
/**
* Zips one or more $(D_PSYMBOL Tuple)s with $(D_PARAM f).
* Zips one or more $(D_PSYMBOL Pack)s with $(D_PARAM f).
*
* Given $(D_PARAM f) and tuples t1, t2, ..., tk, where tk[i] denotes the
* $(I i)-th element of the tuple $(I k)-th tuple, $(D_PSYMBOL ZipWith)
@ -129,7 +129,7 @@ if (Args.length > 0 && __traits(isTemplate, pred))
* f(tk[0], tk[1], ... tk[i]),
* ---
*
* $(D_PSYMBOL ZipWith) begins with the first elements from $(D_PARAM Tuples)
* $(D_PSYMBOL ZipWith) begins with the first elements from $(D_PARAM Packs)
* and applies $(D_PARAM f) to them, then it takes the second
* ones and does the same, and so on.
*
@ -140,16 +140,17 @@ if (Args.length > 0 && __traits(isTemplate, pred))
*
* Params:
* f = Some template that can be applied to the elements of
* $(D_PARAM Tuples).
* Tuples = $(D_PSYMBOL Tuple) instances.
* $(D_PARAM Packs).
* Packs = $(D_PSYMBOL Pack) instances.
*
* Returns: A sequence, whose $(I i)-th element contains the $(I i)-th element
* from each of the $(D_PARAM Tuples).
* from each of the $(D_PARAM Packs).
*/
template ZipWith(alias f, Tuples...)
if (Tuples.length > 0
template ZipWith(alias f, Packs...)
if (Packs.length > 0
&& __traits(isTemplate, f)
&& allSatisfy!(ApplyLeft!(isInstanceOf, Tuple), Tuples))
&& (allSatisfy!(ApplyLeft!(isInstanceOf, Pack), Packs)
|| allSatisfy!(ApplyLeft!(isInstanceOf, Tuple), Packs)))
{
private template GetIth(size_t i, Args...)
{
@ -164,43 +165,37 @@ if (Tuples.length > 0
}
private template Iterate(size_t i, Args...)
{
alias Tuple = GetIth!(i, Args);
alias Pack = GetIth!(i, Args);
static if (Tuple.length < Tuples.length)
static if (Pack.length < Packs.length)
{
alias Iterate = AliasSeq!();
}
else
{
alias Iterate = AliasSeq!(f!Tuple,
Iterate!(i + 1, Args));
alias Iterate = AliasSeq!(f!Pack, Iterate!(i + 1, Args));
}
}
alias ZipWith = Iterate!(0, Tuples);
alias ZipWith = Iterate!(0, Packs);
}
///
@nogc nothrow pure @safe unittest
{
alias Result1 = ZipWith!(AliasSeq,
Tuple!(1, 2),
Tuple!(5, 6),
Tuple!(9, 10));
alias Result1 = ZipWith!(AliasSeq, Pack!(1, 2), Pack!(5, 6), Pack!(9, 10));
static assert(Result1 == AliasSeq!(1, 5, 9, 2, 6, 10));
alias Result2 = ZipWith!(AliasSeq,
Tuple!(1, 2, 3),
Tuple!(4, 5));
alias Result2 = ZipWith!(AliasSeq, Pack!(1, 2, 3), Pack!(4, 5));
static assert(Result2 == AliasSeq!(1, 4, 2, 5));
alias Result3 = ZipWith!(AliasSeq, Tuple!(), Tuple!(4, 5));
alias Result3 = ZipWith!(AliasSeq, Pack!(), Pack!(4, 5));
static assert(Result3.length == 0);
}
/**
* Holds a typed sequence of template parameters.
*
* Different than $(D_PSYMBOL AliasSeq), $(D_PSYMBOL Tuple) doesn't unpack
* Different than $(D_PSYMBOL AliasSeq), $(D_PSYMBOL Pack) doesn't unpack
* its template parameters automatically. Consider:
*
* ---
@ -215,7 +210,7 @@ if (Tuples.length > 0
* Using $(D_PSYMBOL AliasSeq) template `A` gets 4 parameters instead of 2,
* because $(D_PSYMBOL AliasSeq) is just an alias for its template parameters.
*
* With $(D_PSYMBOL Tuple) it is possible to pass distinguishable
* With $(D_PSYMBOL Pack) it is possible to pass distinguishable
* sequences of parameters to a template. So:
*
* ---
@ -224,15 +219,15 @@ if (Tuples.length > 0
* static assert(Args.length == 2);
* }
*
* alias BInstance = B!(Tuple!(int, uint), Tuple!(float, double));
* alias BInstance = B!(Pack!(int, uint), Pack!(float, double));
* ---
*
* Params:
* Args = Elements of this $(D_PSYMBOL Tuple).
* Args = Elements of this $(D_PSYMBOL Pack).
*
* See_Also: $(D_PSYMBOL AliasSeq).
*/
struct Tuple(Args...)
struct Pack(Args...)
{
/// Elements in this tuple as $(D_PSYMBOL AliasSeq).
alias Seq = Args;
@ -246,9 +241,9 @@ struct Tuple(Args...)
///
@nogc nothrow pure @safe unittest
{
alias A = Tuple!short;
alias B = Tuple!(3, 8, 9);
alias C = Tuple!(A, B);
alias A = Pack!short;
alias B = Pack!(3, 8, 9);
alias C = Pack!(A, B);
static assert(C.length == 2);
@ -257,7 +252,7 @@ struct Tuple(Args...)
static assert(B.length == 3);
static assert(B.Seq == AliasSeq!(3, 8, 9));
alias D = Tuple!();
alias D = Pack!();
static assert(D.length == 0);
static assert(is(D.Seq == AliasSeq!()));
}
@ -270,7 +265,7 @@ struct Tuple(Args...)
* for determining if two items are equal.
*
* Params:
* Args = Elements of this $(D_PSYMBOL Tuple).
* Args = Elements of this $(D_PSYMBOL Set).
*/
struct Set(Args...)
{

72
source/tanya/meta/trait.d
View File

@ -70,26 +70,6 @@ enum bool isWideString(T) = is(T : const dchar[]) && !isStaticArray!T;
static assert(!isWideString!(dchar[10]));
}
deprecated("Use tanya.meta.transform.Smallest instead")
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];
}
}
/**
* Determines whether $(D_PARAM T) is a complex type.
*
@ -178,7 +158,7 @@ enum bool isPolymorphicType(T) = is(T == class) || is(T == interface);
*/
template hasStaticMember(T, string member)
{
static if (__traits(hasMember, T, member))
static if (hasMember!(T, member))
{
alias Member = Alias!(__traits(getMember, T, member));
@ -928,26 +908,6 @@ template mostNegative(T)
static assert(mostNegative!cfloat == -cfloat.max);
}
deprecated("Use tanya.meta.transform.Largest instead")
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];
}
}
/**
* Determines whether the type $(D_PARAM T) is copyable.
*
@ -1540,7 +1500,6 @@ if (F.length == 1)
* Returns: $(D_KEYWORD true) if $(D_PARAM T) defines a symbol
* $(D_PARAM member), $(D_KEYWORD false) otherwise.
*/
deprecated("Use __traits(hasMember) instead")
enum bool hasMember(T, string member) = __traits(hasMember, T, member);
///
@ -1642,7 +1601,7 @@ if (is(T == class) || is(T == struct) || is(T == union))
}
///
pure nothrow @safe unittest
@nogc pure nothrow @safe unittest
{
static struct S
{
@ -2654,14 +2613,23 @@ if (is(T == enum))
}
else
{
alias getEnumMembers = AliasSeq!(__traits(getMember, T, Args[0]), getEnumMembers!(Args[1 .. $]));
alias getEnumMembers = AliasSeq!(__traits(getMember, T, Args[0]),
getEnumMembers!(Args[1 .. $]));
}
}
alias EnumMembers = getEnumMembers!(__traits(allMembers, T));
private alias allMembers = AliasSeq!(__traits(allMembers, T));
static if (allMembers.length == 1)
{
alias EnumMembers = AliasSeq!(__traits(getMember, T, allMembers));
}
else
{
alias EnumMembers = getEnumMembers!allMembers;
}
}
///
pure nothrow @nogc @safe unittest
@nogc nothrow pure @safe unittest
{
enum E : int
{
@ -2669,7 +2637,17 @@ pure nothrow @nogc @safe unittest
two,
three,
}
static assert([E.one, E.two, E.three] == [ EnumMembers!E ]);
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);
}
/**

228
source/tanya/net/iface.d Normal file
View File

@ -0,0 +1,228 @@
/* 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/. */
/**
* Network interfaces.
*
* 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/net/iface.d,
* tanya/net/iface.d)
*/
module tanya.net.iface;
import tanya.algorithm.comparison;
import tanya.algorithm.mutation;
import tanya.container.string;
import tanya.meta.trait;
import tanya.meta.transform;
import tanya.range;
version (TanyaNative)
{
import mir.linux._asm.unistd;
import tanya.sys.linux.syscall;
import tanya.sys.posix.ioctl;
import tanya.sys.posix.net.if_;
import tanya.sys.posix.socket;
}
else version (Windows)
{
import tanya.sys.windows.ifdef;
import tanya.sys.windows.iphlpapi;
}
else version (Posix)
{
import core.sys.posix.net.if_;
}
/**
* Converts the name of a network interface to its index.
*
* If an interface with the name $(D_PARAM name) cannot be found or another
* error occurres, returns 0.
*
* Params:
* name = Interface name.
*
* Returns: Returns interface index or 0.
*/
uint nameToIndex(R)(R name) @trusted
if (isInputRange!R && is(Unqual!(ElementType!R) == char) && hasLength!R)
{
version (TanyaNative)
{
if (name.length >= IF_NAMESIZE)
{
return 0;
}
ifreq ifreq_ = void;
copy(name, ifreq_.ifr_name[]);
ifreq_.ifr_name[name.length] = '\0';
auto socket = syscall(AF_INET,
SOCK_DGRAM | SOCK_CLOEXEC,
0,
NR_socket);
if (socket <= 0)
{
return 0;
}
scope (exit)
{
syscall(socket, NR_close);
}
if (syscall(socket,
SIOCGIFINDEX,
cast(ptrdiff_t) &ifreq_,
NR_ioctl) == 0)
{
return ifreq_.ifr_ifindex;
}
return 0;
}
else version (Windows)
{
if (name.length > IF_MAX_STRING_SIZE)
{
return 0;
}
char[IF_MAX_STRING_SIZE + 1] buffer;
NET_LUID luid;
copy(name, buffer[]);
buffer[name.length] = '\0';
if (ConvertInterfaceNameToLuidA(buffer.ptr, &luid) != 0)
{
return 0;
}
NET_IFINDEX index;
if (ConvertInterfaceLuidToIndex(&luid, &index) == 0)
{
return index;
}
return 0;
}
else version (Posix)
{
if (name.length >= IF_NAMESIZE)
{
return 0;
}
char[IF_NAMESIZE] buffer;
copy(name, buffer[]);
buffer[name.length] = '\0';
return if_nametoindex(buffer.ptr);
}
}
///
@nogc nothrow @safe unittest
{
version (linux)
{
assert(nameToIndex("lo") == 1);
}
else version (Windows)
{
assert(nameToIndex("loopback_0") == 1);
}
else
{
assert(nameToIndex("lo0") == 1);
}
assert(nameToIndex("ecafretni") == 0);
}
/**
* Converts the index of a network interface to its name.
*
* If an interface with the $(D_PARAM index) cannot be found or another
* error occurres, returns an empty $(D_PSYMBOL String).
*
* Params:
* index = Interface index.
*
* Returns: Returns interface name or an empty $(D_PSYMBOL String).
*/
String indexToName(uint index) @nogc nothrow @trusted
{
import tanya.memory.op : findNullTerminated;
version (TanyaNative)
{
ifreq ifreq_ = void;
ifreq_.ifr_ifindex = index;
auto socket = syscall(AF_INET,
SOCK_DGRAM | SOCK_CLOEXEC,
0,
NR_socket);
if (socket <= 0)
{
return String();
}
scope (exit)
{
syscall(socket, NR_close);
}
if (syscall(socket,
SIOCGIFNAME,
cast(ptrdiff_t) &ifreq_,
NR_ioctl) == 0)
{
return String(findNullTerminated(ifreq_.ifr_name));
}
return String();
}
else version (Windows)
{
NET_LUID luid;
if (ConvertInterfaceIndexToLuid(index, &luid) != 0)
{
return String();
}
char[IF_MAX_STRING_SIZE + 1] buffer;
if (ConvertInterfaceLuidToNameA(&luid,
buffer.ptr,
IF_MAX_STRING_SIZE + 1) != 0)
{
return String();
}
return String(findNullTerminated(buffer));
}
else version (Posix)
{
char[IF_NAMESIZE] buffer;
if (if_indextoname(index, buffer.ptr) is null)
{
return String();
}
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);
}

2
source/tanya/net/inet.d
View File

@ -16,7 +16,7 @@ module tanya.net.inet;
import tanya.meta.trait;
import tanya.meta.transform;
import tanya.range.primitive;
import tanya.range;
/**
* Represents an unsigned integer as an $(D_KEYWORD ubyte) range.

1043
source/tanya/net/ip.d Normal file
View File

File diff suppressed because it is too large Load Diff

48
source/tanya/network/socket.d
View File

@ -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.bitmanip;
import tanya.memory;
import tanya.meta.trait;
import tanya.os.error;
/// Value returned by socket operations on error.
@ -112,17 +112,10 @@ else version (Windows)
socket,
socklen_t,
SOL_SOCKET,
WSAEWOULDBLOCK,
WSAGetLastError;
import tanya.async.iocp;
import tanya.sys.windows.def;
import tanya.sys.windows.error : ECONNABORTED = WSAECONNABORTED,
ENOBUFS = WSAENOBUFS,
EOPNOTSUPP = WSAEOPNOTSUPP,
EPROTONOSUPPORT = WSAEPROTONOSUPPORT,
EPROTOTYPE = WSAEPROTOTYPE,
ESOCKTNOSUPPORT = WSAESOCKTNOSUPPORT,
ETIMEDOUT = WSAETIMEDOUT,
EWOULDBLOCK = WSAEWOULDBLOCK;
public import tanya.sys.windows.winbase;
public import tanya.sys.windows.winsock2;
@ -505,7 +498,7 @@ struct Linger
*
* See_Also: $(D_PSYMBOL time).
*/
@property enabled(const bool value) pure nothrow @safe @nogc
@property void enabled(const bool value) pure nothrow @safe @nogc
{
this.l_onoff = value;
}
@ -616,37 +609,6 @@ enum AddressFamily : int
inet6 = 10, /// IP version 6.
}
deprecated("Use tanya.os.error.ErrorCode.ErrorNo instead")
enum SocketError : int
{
/// Unknown error.
unknown = 0,
/// Firewall rules forbid connection.
accessDenied = EPERM,
/// A socket operation was attempted on a non-socket.
notSocket = EBADF,
/// The network is not available.
networkDown = ECONNABORTED,
/// An invalid pointer address was detected by the underlying socket provider.
fault = EFAULT,
/// An invalid argument was supplied to a $(D_PSYMBOL Socket) member.
invalidArgument = EINVAL,
/// The limit on the number of open sockets has been reached.
tooManyOpenSockets = ENFILE,
/// No free buffer space is available for a Socket operation.
noBufferSpaceAvailable = ENOBUFS,
/// The address family is not supported by the protocol family.
operationNotSupported = EOPNOTSUPP,
/// The protocol is not implemented or has not been configured.
protocolNotSupported = EPROTONOSUPPORT,
/// Protocol error.
protocolError = EPROTOTYPE,
/// The connection attempt timed out, or the connected host has failed to respond.
timedOut = ETIMEDOUT,
/// The support for the specified socket type does not exist in this address family.
socketNotSupported = ESOCKTNOSUPPORT,
}
/**
* $(D_PSYMBOL SocketException) should be thrown only if one of the socket functions
* $(D_PSYMBOL socketError) and sets $(D_PSYMBOL errno), because
@ -1476,7 +1438,7 @@ bool wouldHaveBlocked() nothrow @trusted @nogc
else version (Windows)
{
return WSAGetLastError() == ERROR_IO_PENDING
|| WSAGetLastError() == EWOULDBLOCK
|| WSAGetLastError() == WSAEWOULDBLOCK
|| WSAGetLastError() == ERROR_IO_INCOMPLETE;
}
}

360
source/tanya/range/adapter.d
View File

@ -5,12 +5,6 @@
/**
* Range adapters.
*
* A range adapter wraps another range and modifies 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
* 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).
@ -19,357 +13,3 @@
* tanya/range/adapter.d)
*/
module tanya.range.adapter;
import tanya.algorithm.mutation;
import tanya.math;
import tanya.range.primitive;
private mixin template Take(R, bool exactly)
{
private R source;
size_t length_;
@disable this();
private this(R source, size_t length)
{
this.source = source;
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 range) doesn't have $(D_PARAM n) elements, the resulting range
* spans all elements of $(D_PARAM range).
*
* $(D_PSYMBOL take) is particulary useful with infinite ranges. You can take
` $(B n) elements from such range and pass the result to an algorithm which
* expects a finit range.
*
* Params:
* R = Type of the adapted range.
* range = The range to take the elements from.
* n = The number of elements to take.
*
* Returns: A range containing maximum $(D_PARAM n) first elements of
* $(D_PARAM range).
*
* See_Also: $(D_PSYMBOL takeExactly).
*/
auto take(R)(R range, size_t n)
if (isInputRange!R)
{
struct Take
{
mixin .Take!(R, false);
}
return Take(range, n);
}
///
@nogc nothrow pure @safe unittest
{
static struct InfiniteRange
{
private size_t front_ = 1;
enum bool empty = false;
@property size_t front() @nogc nothrow pure @safe
{
return this.front_;
}
@property void front(size_t i) @nogc nothrow pure @safe
{
this.front_ = i;
}
void popFront() @nogc nothrow pure @safe
{
++this.front_;
}
size_t opIndex(size_t i) @nogc nothrow pure @safe
{
return this.front_ + i;
}
void opIndexAssign(size_t value, size_t i) @nogc nothrow pure @safe
{
this.front = i + value;
}
InfiniteRange save() @nogc nothrow pure @safe
{
return this;
}
}
auto t = InfiniteRange().take(3);
assert(t.length == 3);
assert(t.front == 1);
assert(t.back == 3);
t.popFront();
assert(t.front == 2);
assert(t.back == 3);
t.popBack();
assert(t.front == 2);
assert(t.back == 2);
t.popFront();
assert(t.empty);
}
/**
* Takes exactly $(D_PARAM n) elements from $(D_PARAM range).
*
* $(D_PARAM range) must have at least $(D_PARAM n) elements.
*
* $(D_PSYMBOL takeExactly) is particulary useful with infinite ranges. You can
` take $(B n) elements from such range and pass the result to an algorithm
* which expects a finit range.
*
* Params:
* R = Type of the adapted range.
* range = The range to take the elements from.
* n = The number of elements to take.
*
* Returns: A range containing $(D_PARAM n) first elements of $(D_PARAM range).
*
* See_Also: $(D_PSYMBOL take).
*/
auto takeExactly(R)(R range, size_t n)
if (isInputRange!R)
{
struct TakeExactly
{
mixin Take!(R, true);
}
return TakeExactly(range, n);
}
///
@nogc nothrow pure @safe unittest
{
static struct InfiniteRange
{
private size_t front_ = 1;
enum bool empty = false;
@property size_t front() @nogc nothrow pure @safe
{
return this.front_;
}
@property void front(size_t i) @nogc nothrow pure @safe
{
this.front_ = i;
}
void popFront() @nogc nothrow pure @safe
{
++this.front_;
}
size_t opIndex(size_t i) @nogc nothrow pure @safe
{
return this.front_ + i;
}
void opIndexAssign(size_t value, size_t i) @nogc nothrow pure @safe
{
this.front = i + value;
}
InfiniteRange save() @nogc nothrow pure @safe
{
return this;
}
}
auto t = InfiniteRange().takeExactly(3);
assert(t.length == 3);
assert(t.front == 1);
assert(t.back == 3);
t.popFront();
assert(t.front == 2);
assert(t.back == 3);
t.popBack();
assert(t.front == 2);
assert(t.back == 2);
t.popFront();
assert(t.empty);
}

72
source/tanya/range/primitive.d
View File

@ -14,8 +14,8 @@
*/
module tanya.range.primitive;
import tanya.algorithm.comparison;
import tanya.algorithm.mutation;
import tanya.math;
import tanya.meta.trait;
import tanya.meta.transform;
import tanya.range.array;
@ -813,17 +813,28 @@ template isRandomAccessRange(R)
/**
* Puts $(D_PARAM e) into the $(D_PARAM range).
*
* $(D_PSYMBOL R) should be an output range for $(D_PARAM E).
*
* $(D_PARAM range) is advanced after putting an element into it if all of the
* following conditions are met:
* $(D_PSYMBOL R) should be an output range for $(D_PARAM E). It doesn't mean
* that everything $(D_PARAM range) is an output range for can be put into it,
* but only if one of the following conditions is met:
*
* $(OL
* $(LI $(D_PSYMBOL R) is an input range)
* $(LI $(D_PSYMBOL R) doesn't define a `put`-method)
* $(LI $(D_PARAM R) defines a `put`-method for $(D_PARAM E))
* $(LI $(D_PARAM e) can be assigned to $(D_INLINECODE range.front))
* $(LI $(D_PARAM e) can be put into $(D_PARAM range) using
* $(D_INLINECODE range(e))
* )
* )
*
* The method to put $(D_PARAM e) into $(D_PARAM range) is chosen based on the
* order specified above.
*
* If $(D_PARAM E) is an input range and $(D_PARAM R) is an output range for
* its elements as well, use $(D_PSYMBOL tanya.algorithm.mutation.copy)
* instead.
*
* $(D_PARAM range) is advanced after putting an element into it if it is an
* input range that doesn't define a `put`-method.
*
* Params:
* R = Target range type.
* E = Source element type.
@ -849,13 +860,6 @@ void put(R, E)(ref R range, auto ref E e)
{
range(e);
}
else static if (isInputRange!E)
{
for (; !e.empty; e.popFront())
{
put(range, e.front);
}
}
else
{
static assert(false, R.stringof ~ " is not an output range for "
@ -907,17 +911,6 @@ void put(R, E)(ref R range, auto ref E e)
assert(oc.e == 2);
}
///
@nogc nothrow pure @safe unittest
{
int[2] actual;
int[2] expected = [2, 3];
auto slice = actual[];
put(slice, expected[]);
assert(actual == expected);
}
/**
* Determines whether $(D_PARAM R) is an output range for the elemens of type
* $(D_PARAM E).
@ -963,7 +956,22 @@ void put(R, E)(ref R range, auto ref E e)
* Returns: $(D_KEYWORD true) if $(D_PARAM R) is an output range for the
* elements of the type $(D_PARAM E), $(D_KEYWORD false) otherwise.
*/
enum bool isOutputRange(R, E) = is(typeof((ref R r, ref E e) => put(r, e)));
template isOutputRange(R, E)
{
static if (is(typeof((R r, E e) => put(r, e))))
{
enum bool isOutputRange = true;
}
else static if (isInputRange!E)
{
alias ET = ElementType!E;
enum bool isOutputRange = is(typeof((R r, ET e) => put(r, e)));
}
else
{
enum bool isOutputRange = false;
}
}
///
@nogc nothrow pure @safe unittest
@ -1820,7 +1828,7 @@ template hasMobileElements(R)
*/
template hasLvalueElements(R)
{
private alias refDg = (ref ElementType!R e) => e;
private alias refDg = (ref ElementType!R e) => &e;
static if (isRandomAccessRange!R)
{
@ -1878,6 +1886,16 @@ template hasLvalueElements(R)
static assert(hasLvalueElements!R2);
}
// Works with non-copyable elements
@nogc nothrow pure @safe unittest
{
static struct NonCopyable
{
@disable this(this);
}
static assert(hasLvalueElements!(NonCopyable[]));
}
/**
* Determines whether the elements of $(D_PARAM R) are assignable.
*

16
source/tanya/sys/linux/syscall.d
View File

@ -14,9 +14,15 @@ module tanya.sys.linux.syscall;
version (TanyaNative):
extern ptrdiff_t syscall(ptrdiff_t, ptrdiff_t)
@nogc nothrow @system;
extern ptrdiff_t syscall(ptrdiff_t, ptrdiff_t, ptrdiff_t)
@nogc nothrow @system;
extern ptrdiff_t syscall(ptrdiff_t, ptrdiff_t, ptrdiff_t, ptrdiff_t)
@nogc nothrow @system;
extern ptrdiff_t syscall(ptrdiff_t,
ptrdiff_t,
ptrdiff_t,
@ -34,10 +40,18 @@ private template getOverloadMangling(size_t n)
}
pragma(mangle, getOverloadMangling!0)
extern ptrdiff_t syscall_(ptrdiff_t, ptrdiff_t, ptrdiff_t)
extern ptrdiff_t syscall_(ptrdiff_t, ptrdiff_t)
@nogc nothrow pure @system;
pragma(mangle, getOverloadMangling!1)
extern ptrdiff_t syscall_(ptrdiff_t, ptrdiff_t, ptrdiff_t)
@nogc nothrow pure @system;
pragma(mangle, getOverloadMangling!2)
extern ptrdiff_t syscall_(ptrdiff_t, ptrdiff_t, ptrdiff_t, ptrdiff_t)
@nogc nothrow pure @system;
pragma(mangle, getOverloadMangling!3)
extern ptrdiff_t syscall_(ptrdiff_t,
ptrdiff_t,
ptrdiff_t,

78
source/tanya/sys/posix/ioctl.d Normal file
View File

@ -0,0 +1,78 @@
/* 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 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/sys/posix/ioctl.d,
* tanya/sys/posix/ioctl.d)
*/
module tanya.sys.posix.ioctl;
version (TanyaNative):
enum
{
SIOCADDRT = 0x890B, // Add routing table entry.
SIOCDELRT = 0x890C, // Delete routing table entry.
SIOCRTMSG = 0x890D, // Call to routing system.
SIOCGIFNAME = 0x8910, // Get iface name.
SIOCSIFLINK = 0x8911, // Set iface channel.
SIOCGIFCONF = 0x8912, // Get iface list.
SIOCGIFFLAGS = 0x8913, // Get flags.
SIOCSIFFLAGS = 0x8914, // Set flags.
SIOCGIFADDR = 0x8915, // Get PA address.
SIOCSIFADDR = 0x8916, // Set PA address.
SIOCGIFDSTADDR = 0x8917, // Get remote PA address.
SIOCSIFDSTADDR = 0x8918, // Set remote PA address.
SIOCGIFBRDADDR = 0x8919, // Get broadcast PA address.
SIOCSIFBRDADDR = 0x891a, // Set broadcast PA address.
SIOCGIFNETMASK = 0x891b, // Get network PA mask.
SIOCSIFNETMASK = 0x891c, // Set network PA mask.
SIOCGIFMETRIC = 0x891d, // Get metric.
SIOCSIFMETRIC = 0x891e, // Set metric.
SIOCGIFMEM = 0x891f, // Get memory address (BSD).
SIOCSIFMEM = 0x8920, // Set memory address (BSD).
SIOCGIFMTU = 0x8921, // Get MTU size.
SIOCSIFMTU = 0x8922, // Set MTU size.
SIOCSIFNAME = 0x8923, // Set interface name.
SIOCSIFHWADDR = 0x8924, // Set hardware address.
SIOCGIFENCAP = 0x8925, // Get/set encapsulations.
SIOCSIFENCAP = 0x8926,
SIOCGIFHWADDR = 0x8927, // Get hardware address.
SIOCGIFSLAVE = 0x8929, // Driver slaving support.
SIOCSIFSLAVE = 0x8930,
SIOCADDMULTI = 0x8931, // Multicast address lists.
SIOCDELMULTI = 0x8932,
SIOCGIFINDEX = 0x8933, // Name -> if_index mapping.
SIOGIFINDEX = SIOCGIFINDEX, // Misprint compatibility.
SIOCSIFPFLAGS = 0x8934, // Set/get extended flags set.
SIOCGIFPFLAGS = 0x8935,
SIOCDIFADDR = 0x8936, // Delete PA address.
SIOCSIFHWBROADCAST = 0x8937, // Set hardware broadcast address.
SIOCGIFCOUNT = 0x8938, // Get number of devices.
SIOCGIFBR = 0x8940, // Bridging support.
SIOCSIFBR = 0x8941, // Set bridging options.
SIOCGIFTXQLEN = 0x8942, // Get the tx queue length.
SIOCSIFTXQLEN = 0x8943, // Set the tx queue length.
SIOCDARP = 0x8953, // Delete ARP table entry.
SIOCGARP = 0x8954, // Get ARP table entry.
SIOCSARP = 0x8955, // Set ARP table entry.
SIOCDRARP = 0x8960, // Delete RARP table entry.
SIOCGRARP = 0x8961, // Get RARP table entry.
SIOCSRARP = 0x8962, // Set RARP table entry.
SIOCGIFMAP = 0x8970, // Get device parameters.
SIOCSIFMAP = 0x8971, // Set device parameters.
SIOCADDDLCI = 0x8980, // Create new DLCI device.
SIOCDELDLCI = 0x8981, // Delete DLCI device.
}

27
source/tanya/sys/posix/net/if_.d Normal file
View File

@ -0,0 +1,27 @@
/* 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 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/sys/posix/net/if_.d,
* tanya/sys/posix/net/if_.d)
*/
module tanya.sys.posix.net.if_;
version (TanyaNative):
enum size_t IF_NAMESIZE = 16;
struct ifreq
{
char[IF_NAMESIZE] ifr_name;
union
{
int ifr_ifindex;
}
}

152
source/tanya/sys/posix/socket.d Normal file
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@ -0,0 +1,152 @@
/* 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 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/sys/posix/socket.d,
* tanya/sys/posix/socket.d)
*/
module tanya.sys.posix.socket;
version (TanyaNative):
/*
* Protocol families.
*/
enum
{
PF_UNSPEC = 0, // Unspecified.
PF_LOCAL = 1, // Local to host (pipes and file-domain).
PF_UNIX = PF_LOCAL, // POSIX name for PF_LOCAL.
PF_FILE = PF_LOCAL, // Another non-standard name for PF_LOCAL.
PF_INET = 2, // IP protocol family.
PF_AX25 = 3, // Amateur Radio AX.25.
PF_IPX = 4, // Novell Internet Protocol.
PF_APPLETALK = 5, // Appletalk DDP.
PF_NETROM = 6, // Amateur radio NetROM.
PF_BRIDGE = 7, // Multiprotocol bridge.
PF_ATMPVC = 8, // ATM PVCs.
PF_X25 = 9, // Reserved for X.25 project.
PF_INET6 = 10, // IP version 6.
PF_ROSE = 11, // Amateur Radio X.25 PLP.
PF_DECnet = 12, // Reserved for DECnet project.
PF_NETBEUI = 13, // Reserved for 802.2LLC project.
PF_SECURITY = 14, // Security callback pseudo AF.
PF_KEY = 15, // PF_KEY key management API.
PF_NETLINK = 16, // Kernel user interface device.
PF_ROUTE = PF_NETLINK, // Alias to emulate 4.4BSD.
PF_PACKET = 17, // Packet family.
PF_ASH = 18, // Ash.
PF_ECONET = 19, // Acorn Econet.
PF_ATMSVC = 20, // ATM SVCs.
PF_RDS = 21, // RDS sockets.
PF_SNA = 22, // Linux SNA Project.
PF_IRDA = 23, // IRDA sockets.
PF_PPPOX = 24, // PPPoX sockets.
PF_WANPIPE = 25, // Wanpipe API sockets.
PF_LLC = 26, // Linux LLC.
PF_IB = 27, // Native InfiniBand address.
PF_MPLS = 28, // MPLS.
PF_CAN = 29, // Controller Area Network.
PF_TIPC = 30, // TIPC sockets.
PF_BLUETOOTH = 31, // Bluetooth sockets.
PF_IUCV = 32, // IUCV sockets.
PF_RXRPC = 33, // RxRPC sockets.
PF_ISDN = 34, // mISDN sockets.
PF_PHONET = 35, // Phonet sockets.
PF_IEEE802154 = 36, // IEEE 802.15.4 sockets.
PF_CAIF = 37, // CAIF sockets.
PF_ALG = 38, // Algorithm sockets.
PF_NFC = 39, // NFC sockets.
PF_VSOCK = 40, // vSockets.
PF_MAX = 41, // For now.
}
/*
* Address families.
*/
enum
{
AF_UNSPEC = PF_UNSPEC,
AF_LOCAL = PF_LOCAL,
AF_UNIX = PF_UNIX,
AF_FILE = PF_FILE,
AF_INET = PF_INET,
AF_AX25 = PF_AX25,
AF_IPX = PF_IPX,
AF_APPLETALK = PF_APPLETALK,
AF_NETROM = PF_NETROM,
AF_BRIDGE = PF_BRIDGE,
AF_ATMPVC = PF_ATMPVC,
AF_X25 = PF_X25,
AF_INET6 = PF_INET6,
AF_ROSE = PF_ROSE,
AF_DECnet = PF_DECnet,
AF_NETBEUI = PF_NETBEUI,
AF_SECURITY = PF_SECURITY,
AF_KEY = PF_KEY,
AF_NETLINK = PF_NETLINK,
AF_ROUTE = PF_ROUTE,
AF_PACKET = PF_PACKET,
AF_ASH = PF_ASH,
AF_ECONET = PF_ECONET,
AF_ATMSVC = PF_ATMSVC,
AF_RDS = PF_RDS,
AF_SNA = PF_SNA,
AF_IRDA = PF_IRDA,
AF_PPPOX = PF_PPPOX,
AF_WANPIPE = PF_WANPIPE,
AF_LLC = PF_LLC,
AF_IB = PF_IB,
AF_MPLS = PF_MPLS,
AF_CAN = PF_CAN,
AF_TIPC = PF_TIPC,
AF_BLUETOOTH = PF_BLUETOOTH,
AF_IUCV = PF_IUCV,
AF_RXRPC = PF_RXRPC,
AF_ISDN = PF_ISDN,
AF_PHONET = PF_PHONET,
AF_IEEE802154 = PF_IEEE802154,
AF_CAIF = PF_CAIF,
AF_ALG = PF_ALG,
AF_NFC = PF_NFC,
AF_VSOCK = PF_VSOCK,
AF_MAX = PF_MAX,
}
/*
* Types of sockets.
*/
enum
{
// Sequenced, reliable, connection-based byte streams.
SOCK_STREAM = 1,
// Connectionless, unreliable datagrams of fixed maximum length.
SOCK_DGRAM = 2,
// Raw protocol interface.
SOCK_RAW = 3,
// Reliably-delivered messages.
SOCK_RDM = 4,
// Sequenced, reliable, connection-based, datagrams of fixed maximum
// length.
SOCK_SEQPACKET = 5,
// Datagram Congestion Control Protocol.
SOCK_DCCP = 6,
// Linux specific way of getting packets at the dev level. For writing rarp
// and other similar things on the user level.
SOCK_PACKET = 10,
}
/*
* Flags to be ORed into the type parameter of socket and socketpair and used
* for the flags parameter of paccept.
*/
enum
{
SOCK_CLOEXEC = 0x80000, // Atomically set close-on-exec flag for the new descriptor(s).
SOCK_NONBLOCK = 0x800, // Atomically mark descriptor(s) as non-blocking.
}

5
source/tanya/sys/windows/def.d
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@ -30,6 +30,7 @@ version (Windows):
alias BYTE = ubyte;
alias TBYTE = wchar; // If Unicode, otherwise char.
alias CHAR = char; // Signed or unsigned char.
alias WCHAR = wchar;
alias TCHAR = wchar; // If Unicode, otherwise char.
alias SHORT = short;
alias USHORT = ushort;
@ -52,6 +53,10 @@ enum HANDLE INVALID_HANDLE_VALUE = cast(HANDLE) -1;
enum TRUE = 1;
enum FALSE = 0;
alias PSTR = CHAR*;
alias PWSTR = WCHAR*;
alias PTSTR = TCHAR*;
align(1) struct GUID
{
uint Data1;

115
source/tanya/sys/windows/error.d
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@ -1,115 +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 2017-2018.
* 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/sys/windows/error.d,
* tanya/sys/windows/error.d)
*/
deprecated("Use core.sys.windows.winerror instead")
module tanya.sys.windows.error;
version (Windows):
private enum WSABASEERR = 10000;
enum
{
WSAEINTR = WSABASEERR + 4,
WSAEBADF = WSABASEERR + 9,
WSAEACCES = WSABASEERR + 13,
WSAEFAULT = WSABASEERR + 14,
WSAEINVAL = WSABASEERR + 22,
WSAEMFILE = WSABASEERR + 24,
WSAEWOULDBLOCK = WSABASEERR + 35,
WSAEINPROGRESS = WSABASEERR + 36,
WSAEALREADY = WSABASEERR + 37,
WSAENOTSOCK = WSABASEERR + 38,
WSAEDESTADDRREQ = WSABASEERR + 39,
WSAEMSGSIZE = WSABASEERR + 40,
WSAEPROTOTYPE = WSABASEERR + 41,
WSAENOPROTOOPT = WSABASEERR + 42,
WSAEPROTONOSUPPORT = WSABASEERR + 43,
WSAESOCKTNOSUPPORT = WSABASEERR + 44,
WSAEOPNOTSUPP = WSABASEERR + 45,
WSAEPFNOSUPPORT = WSABASEERR + 46,
WSAEAFNOSUPPORT = WSABASEERR + 47,
WSAEADDRINUSE = WSABASEERR + 48,
WSAEADDRNOTAVAIL = WSABASEERR + 49,
WSAENETDOWN = WSABASEERR + 50,
WSAENETUNREACH = WSABASEERR + 51,
WSAENETRESET = WSABASEERR + 52,
WSAECONNABORTED = WSABASEERR + 53,
WSAECONNRESET = WSABASEERR + 54,
WSAENOBUFS = WSABASEERR + 55,
WSAEISCONN = WSABASEERR + 56,
WSAENOTCONN = WSABASEERR + 57,
WSAESHUTDOWN = WSABASEERR + 58,
WSAETOOMANYREFS = WSABASEERR + 59,
WSAETIMEDOUT = WSABASEERR + 60,
WSAECONNREFUSED = WSABASEERR + 61,
WSAELOOP = WSABASEERR + 62,
WSAENAMETOOLONG = WSABASEERR + 63,
WSAEHOSTDOWN = WSABASEERR + 64,
WSAEHOSTUNREACH = WSABASEERR + 65,
WSAENOTEMPTY = WSABASEERR + 66,
WSAEPROCLIM = WSABASEERR + 67,
WSAEUSERS = WSABASEERR + 68,
WSAEDQUOT = WSABASEERR + 69,
WSAESTALE = WSABASEERR + 70,
WSAEREMOTE = WSABASEERR + 71,
WSASYSNOTREADY = WSABASEERR + 91,
WSAVERNOTSUPPORTED = WSABASEERR + 92,
WSANOTINITIALISED = WSABASEERR + 93,
WSAEDISCON = WSABASEERR + 101,
WSAENOMORE = WSABASEERR + 102,
WSAECANCELLED = WSABASEERR + 103,
WSAEINVALIDPROCTABLE = WSABASEERR + 104,
WSAEINVALIDPROVIDER = WSABASEERR + 105,
WSAEPROVIDERFAILEDINIT = WSABASEERR + 106,
WSASYSCALLFAILURE = WSABASEERR + 107,
WSASERVICE_NOT_FOUND = WSABASEERR + 108,
WSATYPE_NOT_FOUND = WSABASEERR + 109,
WSA_E_NO_MORE = WSABASEERR + 110,
WSA_E_CANCELLED = WSABASEERR + 111,
WSAEREFUSED = WSABASEERR + 112,
WSAHOST_NOT_FOUND = WSABASEERR + 1001,
WSATRY_AGAIN = WSABASEERR + 1002,
WSANO_RECOVERY = WSABASEERR + 1003,
WSANO_DATA = WSABASEERR + 1004,
WSA_QOS_RECEIVERS = WSABASEERR + 1005,
WSA_QOS_SENDERS = WSABASEERR + 1006,
WSA_QOS_NO_SENDERS = WSABASEERR + 1007,
WSA_QOS_NO_RECEIVERS = WSABASEERR + 1008,
WSA_QOS_REQUEST_CONFIRMED = WSABASEERR + 1009,
WSA_QOS_ADMISSION_FAILURE = WSABASEERR + 1010,
WSA_QOS_POLICY_FAILURE = WSABASEERR + 1011,
WSA_QOS_BAD_STYLE = WSABASEERR + 1012,
WSA_QOS_BAD_OBJECT = WSABASEERR + 1013,
WSA_QOS_TRAFFIC_CTRL_ERROR = WSABASEERR + 1014,
WSA_QOS_GENERIC_ERROR = WSABASEERR + 1015,
WSA_QOS_ESERVICETYPE = WSABASEERR + 1016,
WSA_QOS_EFLOWSPEC = WSABASEERR + 1017,
WSA_QOS_EPROVSPECBUF = WSABASEERR + 1018,
WSA_QOS_EFILTERSTYLE = WSABASEERR + 1019,
WSA_QOS_EFILTERTYPE = WSABASEERR + 1020,
WSA_QOS_EFILTERCOUNT = WSABASEERR + 1021,
WSA_QOS_EOBJLENGTH = WSABASEERR + 1022,
WSA_QOS_EFLOWCOUNT = WSABASEERR + 1023,
WSA_QOS_EUNKOWNPSOBJ = WSABASEERR + 1024,
WSA_QOS_EPOLICYOBJ = WSABASEERR + 1025,
WSA_QOS_EFLOWDESC = WSABASEERR + 1026,
WSA_QOS_EPSFLOWSPEC = WSABASEERR + 1027,
WSA_QOS_EPSFILTERSPEC = WSABASEERR + 1028,
WSA_QOS_ESDMODEOBJ = WSABASEERR + 1029,
WSA_QOS_ESHAPERATEOBJ = WSABASEERR + 1030,
WSA_QOS_RESERVED_PETYPE = WSABASEERR + 1031,
}

30
source/tanya/sys/windows/ifdef.d Normal file
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@ -0,0 +1,30 @@
/* 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 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/sys/windows/ifdef.d,
* tanya/sys/windows/ifdef.d)
*/
module tanya.sys.windows.ifdef;
version (Windows):
import tanya.sys.windows.def;
union NET_LUID_LH
{
ulong Value;
ulong Info;
}
alias NET_LUID = NET_LUID_LH;
alias IF_LUID = NET_LUID_LH;
alias NET_IFINDEX = ULONG;
enum size_t IF_MAX_STRING_SIZE = 256;

39
source/tanya/sys/windows/iphlpapi.d Normal file
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@ -0,0 +1,39 @@
/* 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 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/sys/windows/iphlpapi.d,
* tanya/sys/windows/iphlpapi.d)
*/
module tanya.sys.windows.iphlpapi;
version (Windows):
import tanya.sys.windows.def;
import tanya.sys.windows.ifdef;
extern(Windows)
DWORD ConvertInterfaceNameToLuidA(const(CHAR)* InterfaceName,
NET_LUID* InterfaceLuid)
@nogc nothrow @system;
extern(Windows)
DWORD ConvertInterfaceLuidToIndex(const(NET_LUID)* InterfaceLuid,
NET_IFINDEX* InterfaceIndex)
@nogc nothrow @system;
extern(Windows)
DWORD ConvertInterfaceIndexToLuid(NET_IFINDEX InterfaceIndex,
NET_LUID* InterfaceLuid)
@nogc nothrow @system;
extern(Windows)
DWORD ConvertInterfaceLuidToNameA(const(NET_LUID)* InterfaceLuid,
PSTR InterfaceName,
size_t Length)
@nogc nothrow @system;

3
source/tanya/sys/windows/package.d
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@ -15,6 +15,7 @@ module tanya.sys.windows;
version (Windows):
public import tanya.sys.windows.def;
public import tanya.sys.windows.error;
public import tanya.sys.windows.ifdef;
public import tanya.sys.windows.iphlpapi;
public import tanya.sys.windows.winbase;
public import tanya.sys.windows.winsock2;

492
source/tanya/typecons.d
View File

@ -17,65 +17,11 @@
*/
module tanya.typecons;
import tanya.algorithm.mutation;
import tanya.format;
import tanya.meta.metafunction : AliasSeq, AliasTuple = Tuple, Map;
deprecated("Use tanya.typecons.Tuple instead")
template Pair(Specs...)
{
template parseSpecs(size_t fieldCount, Specs...)
{
static if (Specs.length == 0)
{
alias parseSpecs = AliasSeq!();
}
else static if (is(Specs[0]) && fieldCount < 2)
{
static if (is(typeof(Specs[1]) == string))
{
alias parseSpecs
= AliasSeq!(AliasTuple!(Specs[0], Specs[1]),
parseSpecs!(fieldCount + 1, Specs[2 .. $]));
}
else
{
alias parseSpecs
= AliasSeq!(AliasTuple!(Specs[0]),
parseSpecs!(fieldCount + 1, Specs[1 .. $]));
}
}
else
{
static assert(false, "Invalid argument: " ~ Specs[0].stringof);
}
}
alias ChooseType(alias T) = T.Seq[0];
alias ParsedSpecs = parseSpecs!(0, Specs);
static assert(ParsedSpecs.length == 2, "Invalid argument count");
struct Pair
{
/// Field types.
alias Types = Map!(ChooseType, ParsedSpecs);
// Create field aliases.
static if (ParsedSpecs[0].length == 2)
{
mixin("alias " ~ ParsedSpecs[0][1] ~ " = expand[0];");
}
static if (ParsedSpecs[1].length == 2)
{
mixin("alias " ~ ParsedSpecs[1][1] ~ " = expand[1];");
}
/// Represents the values of the $(D_PSYMBOL Pair) as a list of values.
Types expand;
alias expand this;
}
}
import tanya.functional;
import tanya.meta.metafunction;
import tanya.meta.trait;
/**
* $(D_PSYMBOL Tuple) can store two or more heterogeneous objects.
@ -90,6 +36,8 @@ template Pair(Specs...)
*
* Params:
* Specs = Field types and names.
*
* See_Also: $(D_PSYMBOL tuple).
*/
template Tuple(Specs...)
{
@ -104,13 +52,13 @@ template Tuple(Specs...)
static if (is(typeof(Specs[1]) == string))
{
alias parseSpecs
= AliasSeq!(AliasTuple!(Specs[0], Specs[1]),
= AliasSeq!(Pack!(Specs[0], Specs[1]),
parseSpecs!(fieldCount + 1, Specs[2 .. $]));
}
else
{
alias parseSpecs
= AliasSeq!(AliasTuple!(Specs[0]),
= AliasSeq!(Pack!(Specs[0]),
parseSpecs!(fieldCount + 1, Specs[1 .. $]));
}
}
@ -187,3 +135,427 @@ template Tuple(Specs...)
static assert(!is(Tuple!(int, double, char)));
static assert(!is(Tuple!(int, "first", double, "second", char, "third")));
}
/**
* Creates a new $(D_PSYMBOL Tuple).
*
* Params:
* Names = Field names.
*
* See_Also: $(D_PSYMBOL Tuple).
*/
template tuple(Names...)
{
/**
* Creates a new $(D_PSYMBOL Tuple).
*
* Params:
* Args = Field types.
* args = Field values.
*
* Returns: Newly created $(D_PSYMBOL Tuple).
*/
auto tuple(Args...)(auto ref Args args)
if (Args.length >= Names.length && isTypeTuple!Args)
{
alias Zipped = ZipWith!(AliasSeq, Pack!Args, Pack!Names);
alias Nameless = Args[Names.length .. $];
return Tuple!(Zipped, Nameless)(forward!args);
}
}
///
@nogc nothrow pure @safe unittest
{
auto t = tuple!("one", "two")(20, 5);
assert(t.one == 20);
assert(t.two == 5);
}
/**
* $(D_PSYMBOL Option) is a type that contains an optional value.
*
* Params:
* T = Type of the encapsulated value.
*
* See_Also: $(D_PSYMBOL option).
*/
struct Option(T)
{
private bool isNothing_ = true;
private T value = void;
/**
* Constructs a new option with $(D_PARAM value).
*
* Params:
* value = Encapsulated value.
*/
this()(ref T value)
{
this.value = value;
this.isNothing_ = false;
}
/// ditto
this()(T value) @trusted
{
moveEmplace(value, this.value);
this.isNothing_ = false;
}
/**
* Tells if the option is just a value or nothing.
*
* Returns: $(D_KEYWORD true) if this $(D_PSYMBOL Option) contains a nothing,
* $(D_KEYWORD false) if it contains a value.
*/
@property bool isNothing() const
{
return this.isNothing_;
}
/**
* Returns the encapsulated value.
*
* Returns: Value encapsulated in this $(D_PSYMBOL Option).
*
* See_Also: $(D_PSYMBOL or).
*
* Precondition: `!isNothing`.
*/
@property ref inout(T) get() inout
in
{
assert(!isNothing, "Option is nothing");
}
do
{
return this.value;
}
/**
* Returns the encapsulated value if available or a default value
* otherwise.
*
* Note that the contained value can be returned by reference only if the
* default value is passed by reference as well.
*
* Params:
* U = Type of the default value.
* defaultValue = Default value.
*
* Returns: The value of this $(D_PSYMBOL Option) if available,
* $(D_PARAM defaultValue) otherwise.
*
* See_Also: $(D_PSYMBOL isNothing), $(D_PSYMBOL get).
*/
@property U or(U)(U defaultValue) inout
if (is(U == T) && isCopyable!T)
{
return isNothing ? defaultValue : this.value;
}
/// ditto
@property ref inout(T) or(ref inout(T) defaultValue) inout
{
return isNothing ? defaultValue : this.value;
}
/**
* Casts this $(D_PSYMBOL Option) to $(D_KEYWORD bool).
*
* An $(D_PSYMBOL Option) is $(D_KEYWORD true) if it contains a value,
* ($D_KEYWORD false) if it contains nothing.
*
* Returns: $(D_KEYWORD true) if this $(D_PSYMBOL Option) contains a value,
* ($D_KEYWORD false) if it contains nothing.
*/
bool opCast(U : bool)()
{
return !isNothing;
}
/**
* Compares this $(D_PSYMBOL Option) with $(D_PARAM that).
*
* If both objects are options of the same type and they don't contain a
* value, they are considered equal. If only one of them contains a value,
* they aren't equal. Otherwise, the encapsulated values are compared for
* equality.
*
* If $(D_PARAM U) is a type comparable with the type encapsulated by this
* $(D_PSYMBOL Option), the value of this $(D_PSYMBOL Option) is compared
* with $(D_PARAM that), this $(D_PSYMBOL Option) must have a value then.
*
* Params:
* U = Type of the object to compare with.
* that = Object to compare with.
*
* Returns: $(D_KEYWORD true) if this $(D_PSYMBOL Option) and
* $(D_PARAM that) are equal, $(D_KEYWORD false) if not.
*
* Precondition: `!isNothing` if $(D_PARAM U) is equality comparable with
* $(D_PARAM T).
*/
bool opEquals(U)(auto ref const U that) const
if (is(U == Option))
{
if (!isNothing && !that.isNothing)
{
return this.value == that.value;
}
return isNothing == that.isNothing;
}
/// ditto
bool opEquals(U)(auto ref const U that) const
if (ifTestable!(U, a => a == T.init) && !is(U == Option))
in
{
assert(!isNothing);
}
do
{
return get == that;
}
/**
* Resets this $(D_PSYMBOL Option) and destroys the contained value.
*
* $(D_PSYMBOL reset) can be safely called on an $(D_PSYMBOL Option) that
* doesn't contain any value.
*/
void reset()
{
static if (hasElaborateDestructor!T)
{
destroy(this.value);
}
this.isNothing_ = true;
}
/**
* Assigns a new value.
*
* Params:
* U = Type of the new value.
* that = New value.
*
* Returns: $(D_KEYWORD this).
*/
ref typeof(this) opAssign(U)(ref U that)
if (is(U : T) && !is(U == Option))
{
this.value = that;
this.isNothing_ = false;
return this;
}
/// ditto
ref typeof(this) opAssign(U)(U that)
if (is(U == T))
{
move(that, this.value);
this.isNothing_ = false;
return this;
}
/// ditto
ref typeof(this) opAssign(U)(ref U that)
if (is(U == Option))
{
this.value = that;
this.isNothing_ = that.isNothing;
return this;
}
/// ditto
ref typeof(this) opAssign(U)(U that)
if (is(U == Option))
{
move(that.value, this.value);
this.isNothing_ = that.isNothing_;
return this;
}
version (D_Ddoc)
{
/**
* If $(D_PARAM T) has a `toHash()` method, $(D_PSYMBOL Option) defines
* `toHash()` which returns `T.toHash()` if it is set or 0 otherwise.
*
* Returns: Hash value.
*/
size_t toHash() const;
}
else static if (is(typeof(T.init.toHash()) == size_t))
{
size_t toHash() const
{
return isNothing ? 0U : this.value.toHash();
}
}
alias get this;
}
///
@nogc nothrow pure @safe unittest
{
Option!int option;
assert(option.isNothing);
assert(option.or(8) == 8);
option = 5;
assert(!option.isNothing);
assert(option.get == 5);
assert(option.or(8) == 5);
option.reset();
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).
*
* Params:
* T = Option type.
* value = Initial value.
*
* See_Also: $(D_PSYMBOL Option).
*/
Option!T option(T)(auto ref T value)
{
return Option!T(forward!value);
}
/// ditto
Option!T option(T)()
{
return Option!T();
}
///
@nogc nothrow pure @safe unittest
{
assert(option!int().isNothing);
assert(option(5) == 5);
}