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124 Commits
v0.7.0 ... v0.7.6

Author SHA1 Message Date
Eugen Wissner
7e7bf40f70 Move remaining to methods to tanya.conv 2017-11-29 19:09:58 +01:00
Eugen Wissner
642717883e Add boolean and null formatting 2017-11-29 18:44:51 +01:00
Eugen Wissner
85be35c5e0 Make floating formatting safe 2017-11-29 07:49:20 +01:00
Eugen Wissner
664298f038 Remove buffer argument from format 2017-11-28 22:11:19 +01:00
Eugen Wissner
c199cdd47c Merge changes to reals formatting from master 2017-11-28 09:32:20 +01:00
Eugen Wissner
3a24e9e462 Make pointer to string conversion safer 2017-11-27 15:10:17 +01:00
Eugen Wissner
f334e6a1a0 Check format specifier at compile time 2017-11-25 22:29:45 +01:00
Eugen Wissner
72d5760589 Change default pointer format 2017-11-25 19:01:20 +01:00
Eugen Wissner
b28dde9d8e Remove triplet comma 2017-11-25 17:10:59 +01:00
Eugen Wissner
b612e978bf format: Add format string tests 2017-11-25 15:24:45 +01:00
Eugene Wissner
02d1d8218b Port vsprintf 2017-11-25 15:11:43 +01:00
Eugen Wissner
fbf6ec5250 format: Check if the scientific form is to be used 2017-11-25 14:59:27 +01:00
Eugen Wissner
ac317aa9d6 math.min: Drop useless second isFloatingPoint check 2017-11-19 22:37:15 +01:00
Eugen Wissner
10022d158c Replace aho/ali usage with HP 2017-11-16 19:28:44 +01:00
Eugen Wissner
a38242d0ac Make real2String more readable 2017-11-16 19:19:18 +01:00
Eugen Wissner
a84c71f26d Revert usage of "do" instead of "body" 
And fix GCC build.
 2017-11-16 19:15:56 +01:00
Eugen Wissner
7797f0a1fe format.conv.number2String -> format.integral2String (intern) 2017-11-12 11:57:47 +01:00
Eugen Wissner
4bbc8b510a conv: Use assertThrown to check ConvException is thrown 2017-11-12 11:44:45 +01:00
Eugen Wissner
87ea1f98dc Add range primitives that remove several elements 
- isOutputRange
- popFrontN
- popFrontExactly
- popBackN
- popBackExactly
 2017-11-05 07:00:10 +01:00
Eugen Wissner
9422888b6c Support dmd 2.075.1 - 2.077.0 2017-11-04 00:35:47 +01:00
Eugen Wissner
13407fcf8a math: Add min/max 2017-11-02 06:00:11 +01:00
Eugen Wissner
e06cc5a071 Fix moveEmplace for static arrays 2017-11-01 14:27:39 +01:00
Eugen Wissner
12fb9ff9f6 Add algorithm.mutation.swap 2017-11-01 13:03:48 +01:00
Eugen Wissner
392cdcf192 Fix moveEmplace not being pure 2017-11-01 12:30:27 +01:00
Eugen Wissner
09b6655b9a memory.op: Check for valid .ptr and .length 
typeid(T).initializer can return an array, whose .ptr is null but the
length not. Assert that .ptr and .length are consistent.
 2017-11-01 00:01:43 +01:00
Eugen Wissner
7a2768340e Add algorithm package with move and moveEmplace 2017-10-29 07:51:00 +01:00
Eugen Wissner
414d7a11a8 Add meta.trait.Fields 2017-10-27 20:28:34 +02:00
Eugen Wissner
0d69c7fc79 Make math.mp.Integer pure 2017-10-24 11:50:32 +02:00
Eugene Wissner
b023146cb3 Update contributing guidelines 2017-10-21 14:36:34 +02:00
Eugen Wissner
d1d55be7c2 Fix lowerHexDigits string 2017-10-18 06:40:22 +02:00
Eugen Wissner
7b21238db7 String: Fix byCodePoint.popFront for multibyte chars 2017-10-14 13:47:16 +02:00
Eugen Wissner
e316631f6e Add test package 2017-10-12 07:41:35 +02:00
Eugen Wissner
fdf902c755 Update dmd 2.076 to 2.076.1 2017-10-10 07:03:04 +02:00
Eugen Wissner
5d6f8e5299 Implement pure onOutOfMemory 2017-10-10 06:59:34 +02:00
Eugen Wissner
87bfd77373 container.string: Add missing postblit 2017-10-08 15:53:29 +02:00
Eugen Wissner
17005e4ac9 Fix isInnerClass for templates, sort unittest attributes 2017-10-06 12:28:14 +02:00
Eugen Wissner
85ad88bc4d Rename isPolymorphic into isPolymorphicType 2017-10-06 12:06:47 +02:00
Eugen Wissner
211f590caa Tests and better documentation for memory.stateSize 2017-10-06 07:45:46 +02:00
Eugen Wissner
2f4dd34582 Replace isInterface, isClass, isStruct with isPolymorphic 2017-10-05 07:12:27 +02:00
Eugen Wissner
7e93bcdeeb meta: Add canFind and isInnerClass 2017-10-04 06:06:26 +02:00
Eugen Wissner
e4cd57a615 math.nbtheory: Implement natural logarithm 2017-10-02 14:55:30 +02:00
Eugen Wissner
74b085b88d Sort imports 2017-10-01 19:03:42 +02:00
Eugen Wissner
a576c36d02 Replace memcpy/memmove with copy/copyBackward 2017-09-30 08:15:02 +02:00
Eugen Wissner
1056a2984e Fix #303 
Allocation schema is displayed incorrectly in HTML.
Add pre-tag for the schema.
 2017-09-27 17:56:15 +02:00
Eugen Wissner
faebf3e4d5 Fix #304 
Replace inline assembly with GAS.
 2017-09-26 08:26:12 +02:00
Eugen Wissner
20e7df386b Ignore dub_platform_probe- files 2017-09-25 07:51:03 +02:00
Eugen Wissner
15d9cda755 Add info about supporting GDC 2017-09-24 18:08:47 +02:00
Eugen Wissner
ee48c25328 Replace "Ditto." with "ditto" 
ddox doesn't recognize "Ditto.".
 2017-09-22 04:08:50 +02:00
Eugen Wissner
4612d5eb6d Add tanya.encoding.ascii 2017-09-21 06:57:49 +02:00
Eugen Wissner
8d3a4860e6 Add memory.op.find for looking for a byte in a memory block 2017-09-20 08:31:54 +02:00
Eugene Wissner
3df6c83376 Move formatting development to the io branch 2017-09-19 15:10:24 +02:00
Eugen Wissner
7445d42ad4 Add thrd_current for x86-64 linux 2017-09-19 06:16:43 +02:00
Eugen Wissner
14f91b6942 Don't import math submodules publically 2017-09-18 12:28:13 +02:00
Eugen Wissner
be551e9349 Add docs and tests for fp classificators 2017-09-18 11:31:37 +02:00
Eugen Wissner
586d12b6c7 Classificators for double extended floating point numbers 2017-09-17 10:30:12 +02:00
Eugen Wissner
27146f7e0c Add tanya.math.fp 2017-09-16 22:35:31 +02:00
Eugene Wissner
9b54017840 Move all windows specific definitions from network.socket to the sys-package 2017-09-15 10:58:23 +02:00
Eugene Wissner
aabb6334be Import extern windows fill/copy memory functions 2017-09-14 18:49:13 +02:00
Eugene Wissner
ce425b9ce5 Move simple socket definitions to sys.windows 2017-09-14 07:31:26 +02:00
Eugen Wissner
3e9ca359da math: Add floating point support to abs 2017-09-13 06:43:49 +02:00
Eugen Wissner
3705cf387e Add syscalls to x86-64 linux 2017-09-12 06:23:28 +02:00
Eugen Wissner
edc3296083 Drop support for dmd 2.073.2, remove deprecations 2017-09-12 06:07:16 +02:00
Eugen Wissner
e8143bd0cc Fix template constraints style in tanya.math 2017-09-11 06:48:47 +02:00
Eugen Wissner
3eb8618c32 Add range.primitive 2017-09-10 10:35:05 +02:00
Eugen Wissner
3567a6608e Add generic description for 'meta' package 2017-09-09 11:48:30 +02:00
Eugen Wissner
520bd399a3 Add template-time Set and set-theoretic metafunctions 2017-09-05 05:51:34 +02:00
Eugen Wissner
d38e33593e Add traits for working with UDAs 2017-09-03 00:00:43 +02:00
Eugen Wissner
34b79ad46e Update compiler version list in the README 2017-09-02 09:48:28 +02:00
Eugen Wissner
515bf619e8 Add support for dmd 2.076.0 2017-09-01 19:38:44 +02:00
Eugene Wissner
617eaab9a2 tanya.format: Cast lookup array index to size_t 2017-08-30 12:20:42 +02:00
Eugene Wissner
d946b598fd Add internal sprintf-compatible format function 
format() has full support for sprintf format but is written completely in D.
It is currently internal, since it is not typesafe and uses GC at one place.
After some work the function can be made public.
 2017-08-29 10:38:03 +02:00
Eugen Wissner
e9d7e9eb73 Add documention for newly added metafunctions 
Docs for:
* ZipWith
* Min
* Max

Unittests for "Instantiate".
 2017-08-28 16:07:02 +02:00
Eugen Wissner
4dbfbe9874 Add new metafunctions: Min, Max, ZipWith 
Documentation follow
 2017-08-27 15:32:05 +02:00
Eugen Wissner
25d59ffdda Remove "static" prefix from metafunctions 2017-08-26 10:37:22 +02:00
Eugene Wissner
2c064eb05b Add hasElaborate traits 2017-08-25 14:50:15 +02:00
Eugen Wissner
c9a4a2f651 Add "native" configuration and TanyaPhobos version 2017-08-25 00:29:43 +02:00
Eugen Wissner
0e99effaeb net.inet: Remove htonl/htons based unit tests 2017-08-24 07:45:16 +02:00
Eugen Wissner
0f1e53b4b9 format.conv: Replace loop with copy() 2017-08-22 12:47:13 +02:00
Eugen Wissner
666d59c231 Add traits for checking if class, iface, struct 
They are useful for compile-time algorithms like Filter, StaticMap and
so on.
 2017-08-22 11:12:41 +02:00
Eugen Wissner
ce90b4865b Make front and popFront for arrays public 
This commit adds tanya.range.array module which contains functions to make
the arrays act as ranges. These functions don't do any auto-decoding for
strings.
 2017-08-21 06:49:02 +02:00
Eugen Wissner
beb5d6963b Complete tanya.meta.metafunction 2017-08-20 12:29:48 +02:00
Eugen Wissner
a188f8b6e2 Rename traits module to trait 2017-08-19 11:28:08 +02:00
Eugen Wissner
9355c54163 Add metafunctions 2017-08-18 23:38:41 +02:00
Eugen Wissner
e8dd6e3217 Add more traits 2017-08-16 06:45:15 +02:00
Eugen Wissner
94a7fdbb91 Update latest DMD to 2.075.1 2017-08-15 01:18:21 +02:00
Eugen Wissner
afd3c42c5f Add meta.traits module 2017-08-14 14:21:10 +02:00
Eugen Wissner
1d91bb4df9 Add templates to meta.transform 2017-08-14 14:13:43 +02:00
Eugen Wissner
a5026e48d8 Add meta.transform package 
Templates in this module applied to a type produce a transformed type.
 2017-08-13 19:12:46 +02:00
Eugen Wissner
64f2295d1a Fix #276 
Add link to the source file for each module.
 2017-08-12 17:01:51 +02:00
Eugen Wissner
dea0eb9a37 Add function for comparing memory regions 
memory.op.cmp.
 2017-08-11 22:15:01 +02:00
Eugen Wissner
7c2abadb90 Add memory.op.copyBackward 
Added function that can copy memory chunks that can overlap.
 2017-08-09 07:01:57 +02:00
Eugen Wissner
e6b28468ca Fix typo in the README, remove dmd 2.072 support 2017-08-08 05:59:04 +02:00
Eugen Wissner
2934bb16d7 Rename memory.op.zero into fill 
- Rename memory.op.zero to fill, which accepts one template parameter: one
byte to fill the memory with.
- Fix bug on x86_64: RAX (register keeping the value to fill with) isn't set if
the pointer was already aligned.
 2017-08-06 06:22:28 +02:00
Eugen Wissner
ed92e3993e Add fast function to zero memory 2017-08-02 06:41:54 +02:00
Eugen Wissner
1a4d1238a1 Remove dmd 2.071.2 support 2017-08-01 05:17:57 +02:00
Eugen Wissner
04864559e2 Respect how Windows passes arrays on x86_64 
tanya.memory.arch.x86_64:
Linux passes the array length and the data pointer in separate registers.
Windows passes a pointer to the whole array instead (pointer to the
array length practically).
 2017-07-31 04:23:21 +02:00
Eugen Wissner
40e43c1465 Add memory.op.copy 2017-07-30 00:08:41 +02:00
Eugen Wissner
5d145f524c Add fast memory copy function for x86-64 2017-07-29 10:08:44 +02:00
Eugen Wissner
51ade45108 Add internal routing to convert a number to string 
Add internal routing to write a number to a char buffer.
 2017-07-28 09:08:58 +02:00
Eugen Wissner
3afb40e09e format.conv: Convert string to a boolean 2017-07-27 08:48:44 +02:00
Eugen Wissner
a9cc135318 format.conv: Add conversion from bool to String 2017-07-26 06:49:33 +02:00
Eugen Wissner
1389b03842 memory: Fix parameter name in the documentation 
Size parameter for "make" was renamed into n, but the function
description wasn't fixed:
  size => n

This commit also removes some redundant variables in "make".
 2017-07-25 07:40:14 +02:00
Eugen Wissner
a37c9b162e container.Set: Reduce duplicated code, add tests 2017-07-22 07:40:58 +02:00
Eugen Wissner
cde492c279 Add dmd 2.075.0 support 2017-07-21 05:44:45 +02:00
Eugen Wissner
922c8bf7a3 Fix assigning a ByCodeUnit to the String slice 
std.algorithm.mutation copy is unable to copy a char range into a char array slice.
 2017-07-19 07:58:48 +02:00
Eugen Wissner
a0a28c76f7 Fix CONTRIBUTING.md typos 2017-07-19 07:58:20 +02:00
Eugen Wissner
a1f4d2bc1c If scheme is invalid, parse everything as path 2017-07-18 23:01:57 +02:00
Eugen Wissner
e5fb95ceb0 Fix #254 
network.url Range violation.

Add a check after parsing "scheme://"  whether only the scheme is available.
 2017-07-17 04:57:33 +02:00
Eugen Wissner
9ef5986288 Add some style guidelines for contributors 2017-07-16 18:56:48 +02:00
Eugen Wissner
42146c5e8a Fix #259 
Get rid of std.experimental.
 2017-07-15 22:25:29 +02:00
Eugen Wissner
e6b91f70cb Add style checking 
A lot of tests are disabled. They should be enabled successively.
 2017-07-14 00:05:13 +02:00
Eugen Wissner
657f4a60d5 Fix #246 
Make allocators pure.
* Methods allocating/deallocating memory are pure.
* Allocator.instance is pure (once initialized, it always returns
  the same instance).
* defaultAllocator getter property is pure (should be set at the
  beginning, and always return the same instance after that).
 2017-07-13 16:01:21 +02:00
Eugen Wissner
839c740cb1 Fix mmap flags on linux 2017-07-12 10:04:48 +02:00
Eugen Wissner
2bd612fd19 Make MmapPool allocations pure 2017-07-12 09:30:07 +02:00
Eugen Wissner
fc53779d3f Fix #245 
* Remove postcondition for functions calculating alignment
* Put MmapPool invariant into version (none) block
* Check that alignment doesn't overflow
 2017-07-11 10:27:24 +02:00
Eugen Wissner
7bdc778390 Fix inserting 3 byte wchar into String 
* Fix inserting 3 byte wchar into String
* Improve documentation
 2017-07-09 15:16:06 +02:00
Eugen Wissner
97358ebc6c Ignore tanya-test-library.core (FreeBSD) 2017-07-08 15:54:47 +02:00
Eugen Wissner
4834b36271 Finish DList implementation. Fixes #209 
* removeBack
* insertAfter
* Diverse fixes of insertion logic
* Internal moveFront and moveBack functions
* Internal makeList function
 2017-07-08 15:51:17 +02:00
Eugen Wissner
53df12897b Add missing methods to DList. Issue #209 2017-07-08 13:44:57 +02:00
Eugen Wissner
4ac890d7d3 Fix #260 
DList invariant fails.
 2017-07-08 05:41:04 +02:00
Eugen Wissner
b79657f0d2 Fix 232 2017-07-06 08:35:16 +02:00
Eugen Wissner
9429e7bb14 Refer to net instead of network package in README 2017-07-05 23:11:54 +02:00
Eugen Wissner
4fd37e84f8 Fix #232 for Array 
Because const is transitive, if we create a range as Range!(const E)
there is no way to get the original type from inside of the range. So if
E is int*, the original type of const(E) could be const(int)* or int*.
Unqual!(const(int*)) returns const(int)*. So pass the whole container as
template parameter. It is a breaking change but since we have Range and
ConstRange aliases now, the usage should be fine.
 2017-07-04 07:24:29 +02:00
Eugen Wissner
e46e45ad5a Remove previously deprecated modules 
* tanya.network.uri
* tanya.network.inet
* tanya.memory.types
 2017-06-30 04:19:20 +02:00
76 changed files with 14073 additions and 3245 deletions
Expand all files Collapse all files

6
.gitignore vendored
View File

@ -6,9 +6,13 @@
.dub
__test__*__
__test__*__.core
/tanya-test-library
/tanya-test-*
/dub_platform_probe-*
/docs/
/docs.json
/*.lst
# Ninja build
.ninja_*

9
.travis.yml
View File

@ -7,10 +7,9 @@ os:
language: d
d:
- dmd-2.074.1
- dmd-2.073.2
- dmd-2.072.2
- dmd-2.071.2
- dmd-2.077.0
- dmd-2.076.1
- dmd-2.075.1
env:
matrix:
@ -23,7 +22,7 @@ addons:
- gcc-multilib
before_script:
- if [ "$PS1" = '(dmd-2.074.1)' ]; then
- if [ "$PS1" = '(dmd-2.077.0)' ]; then
export UNITTEST="unittest-cov";
fi

87
CONTRIBUTING.md
View File

@ -1,3 +1,4 @@
# Contributing
Tanya is a project in active development, therefore any help is appreciated. Thank you for considering contributing
@ -7,39 +8,37 @@ These guidelines describe ways to get started.
## Ways to get involved
* **Reporting a problem**: [Report](https://issues.caraus.io/projects/tanya/issues) bugs and usage problems you
* **Reporting a problem**: [Report](https://github.com/caraus-ecms/tanya/issues) bugs and usage problems you
encounter.
* **Fixing issues**: [The bug tracker](https://issues.caraus.io/projects/tanya/issues) contains a list of issues you
* **Fixing issues**: [The bug tracker](https://github.com/caraus-ecms/tanya/issues) contains a list of issues you
can work on.
* **Documentation**: You can improve API documentation by correcting grammar errors, completing existing texts and
writing new ones, or providing usage examples.
* **Testing**: Test coverage is important for a library. Writing tests is not only helpful, but is also a great way
to get a feel for how tanya works.
* **Adding new features**: Tanya is a growing library. If you think some feature is missing, you can suggest
and implement this.
## Opening an issue
If you have found a bug, an error, have some question, or suggestion, open in issue. Tanya uses an external
[bug tracker](https://issues.caraus.io/projects/tanya/issues). You should
[register](https://issues.caraus.io/account/register) before you can report your issue. There is also a list
of open issues that mirror the current development process and progress. If you're looking for a challenge, just
If you have found a bug, an error, have some question, or suggestion,
[Open an issue](https://github.com/caraus-ecms/tanya/issues). I'll try to answer as soon as I can. There is also a
list of open issues that mirror the current development process and progress. If you're looking for a challenge, just
pick an issue you are interested in and start working on it. Fill free to comment on the issue to get more
information.
Some issues have a category assigned to it. Such issues belongs mostly to a larger part of the library that is
currently in development. The category specifies then the git branch development happens on. The remaining issues
can be fixed directly in master.
In the [roadmap](https://issues.caraus.io/projects/tanya/roadmap) you can find a list of issues that are planned
to be fixed till a specific release. Version numbers refer to the versions in the
[git repository](https://github.com/caraus-ecms/tanya/releases).
You can also look at the [milestones](https://github.com/Dlackware/gnome/milestones) to see what is planned for a
specific release.
## Creating a pull request
## Contribution process
I accept GitHub pull requests. Creating a pull request is like sending a patch with a suggested change.
### Creating a pull request
I accept GitHub pull requests. Creating a pull request is like sending a patch with the suggested change.
First you have to [fork](https://guides.github.com/activities/forking/) the repository. Clone your fork locally
with `git clone` and create a new branch where you want to work, for example:
with `git clone` and create a new branch where you want to work. For example:
```shell
git checkout -b bugfix-x
@ -47,18 +46,62 @@ git checkout -b bugfix-x
Commit your changes to your fork:
```shell
git commit -m "Fix Bug X"
git commit -m "Fix X"
git push -u origin bugfix-x
```
After that if you visit your fork on GitHub, GitHub will suggest to create pull request. Just follow the steps
described on GitHub to finish the process.
Please ensure that you fork is even with the upstream (original) repository. If not, you have to rebase your branch
on upstream master before submitting a pull request. See https://help.github.com/articles/syncing-a-fork/ for a
After that if you visit your fork on GitHub, GitHub will suggest to create pull request. Just follow the steps
described on GitHub to finish the process. See
[Using Pull Requests](https://help.github.com/articles/about-pull-requests/) for more information.
Please ensure that your fork is even with the upstream (original) repository. If not, you have to rebase your branch
on upstream/master before submitting the pull request. See [Syncing a fork](https://help.github.com/articles/syncing-a-fork/) for a
step-by-step guide.
### Fixing a bug
Add a unit test that demonstrates the bug along with a short description or link to the original bug.
### Adding new features
* Use Ddoc to document the feature.
* Add some unit tests to prevent bugs.
* [Documented D unit tests](https://dlang.org/spec/ddoc.html#using_ddoc_to_generate_examples) go into the documentation and can be used as an usage
example. These tests should be readable and not complicated since they demonstrate how the feature is supposed to work.
* More advanced tests should be put into a separate not documented unittest block.
### Writing unit tests
```d
///
unittest
{
// A documented unit test has three slashes in front of it.
}
// Issue ##: https://github.com/caraus-ecms/tanya/issues/##.
unittest
{
// Not documented unit test may still have a description.
}
```
### Style guide
Make sure your changes follow [The D Style](https://dlang.org/dstyle.html) (including
[Additional Requirements for Phobos](https://dlang.org/dstyle.html#phobos)).
You can also use [dscanner](https://github.com/dlang-community/D-Scanner) to test the new code against the
most guidlines. The root of this repository contains
[dscanner.ini](https://github.com/caraus-ecms/tanya/blob/master/dscanner.ini), configuration file with settings for an
automatic style check. Just go to the top-level directory and issue (this assumes `dscanner` is installed in your
system):
```shell
dscanner --styleCheck source
```
## Questions and suggestions
* [Open an issue](https://issues.caraus.io/projects/tanya/issues)
* [Open an issue](https://github.com/caraus-ecms/tanya/issues)
* [Send an email](mailto:info@caraus.de)

45
README.md
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@ -15,22 +15,39 @@ Garbage Collector heap. Everything in the library is usable in @nogc code.
Tanya extends Phobos functionality and provides alternative implementations for
data structures and utilities that depend on the Garbage Collector in Phobos.
* [Bug tracker](https://issues.caraus.io/projects/tanya/issues)
* [Documentation](https://docs.caraus.io/tanya)
* [API Documentation](https://docs.caraus.io/tanya)
* [Contribution guidelines](CONTRIBUTING.md)
## Overview
Tanya consists of the following packages:
Tanya consists of the following packages and (top-level) modules:
* `algorithm`: Collection of generic algorithms.
* `async`: Event loop (epoll, kqueue and IOCP).
* `container`: Queue, Array, Singly and doubly linked lists, Buffers, UTF-8
string, Hash set.
* `conv`: This module provides functions for converting between different
types.
* `encoding`: This package provides tools to work with text encodings.
* `exception`: Common exceptions and errors.
* `format`: Formatting and conversion functions.
* `math`: Arbitrary precision integer and a set of functions.
* `memory`: Tools for manual memory management (allocators, smart pointers).
* `network`: URL-Parsing, sockets, utilities.
* `meta`: Template metaprogramming. This package contains utilities to acquire
type information at compile-time, to transform from one type to another. It has
also different algorithms for iterating, searching and modifying template
arguments.
* `net`: URL-Parsing, network programming.
* `network`: Socket implementation. `network` is currently under rework.
After finishing the new socket implementation will land in the `net` package and
`network` will be deprecated.
* `os`: Platform-independent interfaces to operating system functionality.
* `range`: Generic functions and templates for D ranges.
* `test`: Test suite for unittest-blocks.
* `typecons`: Templates that allow to build new types based on the available
ones.
## Basic usage
@ -120,21 +137,21 @@ foreach (el; arr[0 .. 5])
{
}
int i = arr[7]; // Access 7th element.
int i = arr[7]; // Access 8th element.
```
There are more containers in the `tanya.container` package.
## Development
### Supported compilers
| dmd |
|:-------:|
| 2.074.1 |
| 2.073.2 |
| 2.072.2 |
| 2.071.2 |
| DMD | GCC |
|:-------:|:--------------:|
| 2.077.0 | *gdc-5* branch |
| 2.076.1 | |
| 2.075.1 | |
### Current status
@ -160,3 +177,9 @@ Deprecated features are removed after one release (in approximately 6 weeks afte
is being tested on Windows and FreeBSD as well.
* The library isn't thread-safe yet.
## Feedback
Any feedback about your experience with tanya would be greatly appreciated. Feel free to
[contact me](mailto:info@caraus.de).

24
appveyor.yml
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@ -4,28 +4,22 @@ os: Visual Studio 2015
environment:
matrix:
- DC: dmd
DVersion: 2.074.1
DVersion: 2.077.0
arch: x64
- DC: dmd
DVersion: 2.074.1
DVersion: 2.077.0
arch: x86
- DC: dmd
DVersion: 2.073.2
DVersion: 2.076.1
arch: x64
- DC: dmd
DVersion: 2.073.2
DVersion: 2.076.1
arch: x86
- DC: dmd
DVersion: 2.072.2
DVersion: 2.075.1
arch: x64
- DC: dmd
DVersion: 2.072.2
arch: x86
- DC: dmd
DVersion: 2.071.2
arch: x64
- DC: dmd
DVersion: 2.071.2
DVersion: 2.075.1
arch: x86
skip_tags: true
@ -43,12 +37,6 @@ install:
}
- ps: SetUpDCompiler
- ps: if($env:DVersion -eq "2.071.2"){
Invoke-WebRequest "http://code.dlang.org/files/dub-1.2.1-windows-x86.zip" -OutFile "dub.zip";
7z x dub.zip -odub > $null;
Move-Item "dub/dub.exe" "C:\dmd2\windows\bin"
}
before_build:
- ps: if($env:arch -eq "x86"){
$env:compilersetupargs = "x86";

14
arch/build.ninja Normal file
View File

@ -0,0 +1,14 @@
rule gas
command = gcc -c $in -o $out
rule archive
command = ar rcs $out $in
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 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

8
arch/x64/linux/concurrency/thread.S Normal file
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@ -0,0 +1,8 @@
.text
.globl thrd_current
.type thrd_current, @function
thrd_current:
mov %fs:0, %rax
ret

35
arch/x64/linux/math/abs.S Normal file
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@ -0,0 +1,35 @@
.text
// fabsf.
.globl _D5tanya4math8nbtheory10__T3absTfZ3absFNaNbNiNffZf
.type _D5tanya4math8nbtheory10__T3absTfZ3absFNaNbNiNffZf, @function
_D5tanya4math8nbtheory10__T3absTfZ3absFNaNbNiNffZf:
mov $0x7fffffff, %eax
movq %rax, %xmm1
andpd %xmm1, %xmm0
ret
// fabs.
.globl _D5tanya4math8nbtheory10__T3absTdZ3absFNaNbNiNfdZd
.type _D5tanya4math8nbtheory10__T3absTdZ3absFNaNbNiNfdZd, @function
_D5tanya4math8nbtheory10__T3absTdZ3absFNaNbNiNfdZd:
mov $0x7fffffffffffffff, %rax
movq %rax, %xmm1
andpd %xmm1, %xmm0
ret
// fabsl.
.globl _D5tanya4math8nbtheory10__T3absTeZ3absFNaNbNiNfeZe
.type _D5tanya4math8nbtheory10__T3absTeZ3absFNaNbNiNfeZe, @function
// Load the parameter from the stack onto FP stack, execute 'fabs' instruction
// The result is returned in ST0.
_D5tanya4math8nbtheory10__T3absTeZ3absFNaNbNiNfeZe:
fldt 0x8(%rsp)
fabs
ret

48
arch/x64/linux/math/log.S Normal file
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@ -0,0 +1,48 @@
.text
// logl.
.globl _D5tanya4math8nbtheory2lnFNaNbNiNfeZe
.type _D5tanya4math8nbtheory2lnFNaNbNiNfeZe, @function
_D5tanya4math8nbtheory2lnFNaNbNiNfeZe:
fldln2 // Put lb(e) onto the FPU stack
fldt 8(%rsp) // Put the argument onto the FPU stack
fyl2x // %st1 * lb(%st0)
ret
// log.
.globl _D5tanya4math8nbtheory2lnFNaNbNiNfdZd
.type _D5tanya4math8nbtheory2lnFNaNbNiNfdZd, @function
_D5tanya4math8nbtheory2lnFNaNbNiNfdZd:
movsd %xmm0, -8(%rsp) // Put the argument onto the stack
fldln2 // Put lb(e) onto the FPU stack
fldl -8(%rsp) // Put a double onto the FPU stack
fyl2x // %st1 * lb(%st0)
// The result is on the FPU stack, but returned in %xmm0
fstpl -8(%rsp)
movsd -8(%rsp), %xmm0
ret
// logf.
.globl _D5tanya4math8nbtheory2lnFNaNbNiNffZf
.type _D5tanya4math8nbtheory2lnFNaNbNiNffZf, @function
_D5tanya4math8nbtheory2lnFNaNbNiNffZf:
movss %xmm0, -4(%rsp) // Put the argument onto the stack
fldln2 // Put lb(e) onto the FPU stack
flds -4(%rsp) // Put a float onto the FPU stack
fyl2x // %st1 * lb(%st0)
// The result is on the FPU stack, but returned in %xmm0
fstps -4(%rsp)
movss -4(%rsp), %xmm0
ret

67
arch/x64/linux/memory/cmp.S Normal file
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@ -0,0 +1,67 @@
.text
/*
* cmpMemory.
*
* rdi - r1 length
* rsi - r1 data.
* rdx - r2 length.
* rcx - r2 data.
*/
.globl _D5tanya6memory2op9cmpMemoryFNaNbNixAvxAvZi
.type _D5tanya6memory2op9cmpMemoryFNaNbNixAvxAvZi, @function
_D5tanya6memory2op9cmpMemoryFNaNbNixAvxAvZi:
// Compare the lengths
cmp %rdx, %rdi
jl less
jg greater
mov %rcx, %rdi
// Check if we're aligned
cmp $0x08, %rdx
jc aligned_1
test $0x07, %edi
jz aligned_8
naligned:
cmpsb
jl less
jg greater
dec %rdx
test $0x07, %edi
jnz naligned
aligned_8:
mov %rdx, %rcx
shr $0x03, %rcx
repe cmpsq
jl less
jg greater
and $0x07, %edx
jz equal
aligned_1: // Compare the remaining bytes
mov %rdx, %rcx
repe cmpsb
jl less
jg greater
equal:
xor %rax, %rax // Return 0
jmp end
greater:
mov $0x01, %rax
jmp end
less:
mov $-0x01, %rax
end:
ret

67
arch/x64/linux/memory/copy.S Normal file
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@ -0,0 +1,67 @@
.text
/*
* copyMemory.
*
* rdi - source length
* rsi - source data.
* rdx - target length.
* rcx - target data.
*/
.globl _D5tanya6memory2op10copyMemoryFNaNbNixAvAvZv
.type _D5tanya6memory2op10copyMemoryFNaNbNixAvAvZv, @function
_D5tanya6memory2op10copyMemoryFNaNbNixAvAvZv:
mov %rdi, %rdx
mov %rcx, %rdi
cmp $0x08, %rdx
jc aligned_1
test $0x07, %edi
jz aligned_8
naligned:
movsb
dec %rdx
test $0x07, %edi
jnz naligned
aligned_8:
mov %rdx, %rcx
shr $0x03, %rcx
rep movsq
and $0x07, %edx
jz end
aligned_1:
// Write the remaining bytes
mov %rdx, %rcx
rep movsb
end:
ret
/*
* moveMemory.
*
* rdi - source length
* rsi - source data.
* rdx - target length.
* rcx - target data.
*/
.globl _D5tanya6memory2op10moveMemoryFNaNbNixAvAvZv
.type _D5tanya6memory2op10moveMemoryFNaNbNixAvAvZv, @function
_D5tanya6memory2op10moveMemoryFNaNbNixAvAvZv:
mov %rdi, %rdx
lea -1(%rdx, %rsi), %rsi
lea -1(%rdx, %rcx), %rdi
mov %rdx, %rcx
std // Set the direction flag
rep movsb
cld // Clear the direction flag
ret

155
arch/x64/linux/memory/fill.S Normal file
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@ -0,0 +1,155 @@
.text
/*
* fillMemory.
*
* rdi - length.
* rsi - pointer.
* rdx - value filled with a byte.
*/
.globl _D5tanya6memory2op10fillMemoryFNaNbNiAvmZv
.type _D5tanya6memory2op10fillMemoryFNaNbNiAvmZv, @function
_D5tanya6memory2op10fillMemoryFNaNbNiAvmZv:
// Check for zero length
test %rdi, %rdi
jz end
mov %rdi, %rax
mov %rsi, %r8
movq %rdx, %xmm0
movlhps %xmm0, %xmm0
// Check if the pointer is aligned to a 16-byte boundary
and $-0x10, %r8
// Compute the number of misaligned bytes
mov %rsi, %r9
sub %r8, %r9
test %r9, %r9
jz aligned
// Get the number of bytes to be written until we are aligned
mov $0x10, %rcx
sub %r9, %rcx
mov %rsi, %r8
naligned:
mov %dl, (%r8) // Write a byte
// Advance the pointer. Decrease the total number of bytes
// and the misaligned ones
inc %r8
dec %rcx
dec %rax
// Checks if we are aligned
test %rcx, %rcx
jnz naligned
aligned:
// Checks if we're done writing bytes
test %rax, %rax
jz end
// Write 1 byte at a time
cmp $8, %rax
jl aligned_1
// Write 8 bytes at a time
cmp $16, %rax
jl aligned_8
// Write 16 bytes at a time
cmp $32, %rax
jl aligned_16
// Write 32 bytes at a time
cmp $64, %rax
jl aligned_32
aligned_64:
movdqa %xmm0, (%r8)
movdqa %xmm0, 16(%r8)
movdqa %xmm0, 32(%r8)
movdqa %xmm0, 48(%r8)
add $64, %r8
sub $64, %rax
cmp $64, %rax
jge aligned_64
// Checks if we're done writing bytes
test %rax, %rax
jz end
// Write 1 byte at a time
cmp $8, %rax
jl aligned_1
// Write 8 bytes at a time
cmp $16, %rax
jl aligned_8
// Write 16 bytes at a time
cmp $32, %rax
jl aligned_16
aligned_32:
movdqa %xmm0, (%r8)
movdqa %xmm0, 16(%r8)
add $32, %r8
sub $32, %rax
// Checks if we're done writing bytes
test %rax, %rax
jz end
// Write 1 byte at a time
cmp $8, %rax
jl aligned_1
// Write 8 bytes at a time
cmp $16, %rax
jl aligned_8
aligned_16:
movdqa %xmm0, (%r8)
add $16, %r8
sub $16, %rax
// Checks if we're done writing bytes
test %rax, %rax
jz end
// Write 1 byte at a time
cmp $8, %rax
jl aligned_1
aligned_8:
mov %rdx, (%r8)
add $8, %r8
sub $8, %rax
// Checks if we're done writing bytes
test %rax, %rax
jz end
aligned_1:
mov %dl, (%r8)
inc %r8
dec %rax
test %rax, %rax
jnz aligned_1
end:
ret

65
arch/x64/linux/syscall.S Normal file
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@ -0,0 +1,65 @@
/*
The kernel uses the following registers:
%rdi, %rsi, %rdx, %r8, %r9, %r10
The number of the syscall is passed in %rax.
A syscall clobbers:
%rax, %rcx, %r11
The returned value is placed in %rax.
*/
.text
.globl syscall1
.type syscall1, @function
syscall1:
movq %rsi, %rax // Syscall number.
syscall
ret
.globl syscall2
.type syscall2, @function
syscall2:
// Store registers.
movq %rdi, %r8
movq %rdx, %rax // Syscall number.
// Syscall arguments.
movq %rsi, %rdi
movq %r8, %rsi
syscall
// Restore registers.
movq %rdi, %rsi
movq %r8, %rdi
ret
.globl syscall3
.type syscall3, @function
syscall3:
// Store registers.
movq %rdi, %r8
movq %rcx, %rax // Syscall number.
// Syscall arguments.
movq %rdx, %rdi
movq %r8, %rdx
syscall
// Restore registers.
movq %r8, %rdi
ret

1
codecov.yml
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@ -1,4 +1,3 @@
ignore:
- "source/tanya/async/event/iocp.d"
- "source/tanya/async/iocp.d"
- "source/tanya/memory/types.d"

81
dscanner.ini Normal file
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@ -0,0 +1,81 @@
; Configure which static analysis checks are skip-unittest
[analysis.config.StaticAnalysisConfig]
; Check variable, class, struct, interface, union, and function names against t
; he Phobos style guide
style_check="disabled"
; Check for array literals that cause unnecessary allocation
enum_array_literal_check="skip-unittest"
; Check for poor exception handling practices
exception_check="skip-unittest"
; Check for use of the deprecated 'delete' keyword
delete_check="skip-unittest"
; Check for use of the deprecated floating point operators
float_operator_check="skip-unittest"
; Check number literals for readability
number_style_check="disabled"
; Checks that opEquals, opCmp, toHash, and toString are either const, immutable
; , or inout.
object_const_check="disabled"
; Checks for .. expressions where the left side is larger than the right.
backwards_range_check="skip-unittest"
; Checks for if statements whose 'then' block is the same as the 'else' block
if_else_same_check="skip-unittest"
; Checks for some problems with constructors
constructor_check="skip-unittest"
; Checks for unused variables and function parameters
unused_variable_check="disabled"
; Checks for unused labels
unused_label_check="skip-unittest"
; Checks for duplicate attributes
duplicate_attribute="skip-unittest"
; Checks that opEquals and toHash are both defined or neither are defined
opequals_tohash_check="disabled"
; Checks for subtraction from .length properties
length_subtraction_check="disabled"
; Checks for methods or properties whose names conflict with built-in propertie
; s
builtin_property_names_check="skip-unittest"
; Checks for confusing code in inline asm statements
asm_style_check="skip-unittest"
; Checks for confusing logical operator precedence
logical_precedence_check="skip-unittest"
; Checks for undocumented public declarations
undocumented_declaration_check="disabled"
; Checks for poor placement of function attributes
function_attribute_check="skip-unittest"
; Checks for use of the comma operator
comma_expression_check="skip-unittest"
; Checks for local imports that are too broad
local_import_check="disabled"
; Checks for variables that could be declared immutable
could_be_immutable_check="disabled"
; Checks for redundant expressions in if statements
redundant_if_check="skip-unittest"
; Checks for redundant parenthesis
redundant_parens_check="skip-unittest"
; Checks for mismatched argument and parameter names
mismatched_args_check="skip-unittest"
; Checks for labels with the same name as variables
label_var_same_name_check="disabled"
; Checks for lines longer than 120 characters
long_line_check="skip-unittest"
; Checks for assignment to auto-ref function parameters
auto_ref_assignment_check="disabled"
; Checks for incorrect infinite range definitions
incorrect_infinite_range_check="skip-unittest"
; Checks for asserts that are always true
useless_assert_check="skip-unittest"
; Check for uses of the old-style alias syntax
alias_syntax_check="disabled"
; Checks for else if that should be else static if
static_if_else_check="skip-unittest"
; Check for unclear lambda syntax
lambda_return_check="skip-unittest"
; Check for auto function without return statement
auto_function_check="skip-unittest"
; Check for sortedness of imports
imports_sortedness="skip-unittest"
; Check for explicitly annotated unittests
explicitly_annotated_unittests="disabled"
; Check for useless usage of the final attribute
final_attribute_check="skip-unittest"

14
dub.json
View File

@ -1,6 +1,6 @@
{
"name": "tanya",
"description": "General purpose, @nogc library. Containers, networking, memory management, utilities",
"description": "General purpose, @nogc library. Containers, networking, metaprogramming, memory management, utilities",
"license": "MPL-2.0",
"copyright": "(c) Eugene Wissner <info@caraus.de>",
"authors": [
@ -11,7 +11,17 @@
"configurations": [
{
"name": "library"
"name": "library",
"targetType": "library",
"versions": ["TanyaPhobos"]
},
{
"name": "native",
"targetType": "library",
"platforms": ["linux-x86_64-gdc"],
"preBuildCommands": ["ninja -C arch"],
"lflags": ["arch/tanya.a"],
"versions": ["TanyaNative"]
}
]
}

275
source/tanya/algorithm/mutation.d Normal file
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@ -0,0 +1,275 @@
/* 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/. */
/**
* Algorithms that modify its arguments.
*
* Copyright: Eugene Wissner 2017.
* 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/mutation.d,
* tanya/algorithm/mutation.d)
*/
module tanya.algorithm.mutation;
import tanya.memory.op;
import tanya.meta.trait;
private void deinitialize(bool zero, T)(ref T value)
{
static if (is(T == U[S], U, size_t S))
{
foreach (ref e; value)
{
deinitialize!zero(e);
}
}
else
{
static if (isNested!T)
{
// Don't override the context pointer.
enum size_t size = T.sizeof - (void*).sizeof;
}
else
{
enum size_t size = T.sizeof;
}
static if (zero)
{
fill!0((cast(void*) &value)[0 .. size]);
}
else
{
copy(typeid(T).initializer()[0 .. size], (&value)[0 .. 1]);
}
}
}
/**
* Moves $(D_PARAM source) into $(D_PARAM target) assuming that
* $(D_PARAM target) isn't initialized.
*
* Moving the $(D_PARAM source) copies it into the $(D_PARAM target) and places
* the $(D_PARAM source) into a valid but unspecified state, which means that
* after moving $(D_PARAM source) can be destroyed or assigned a new value, but
* accessing it yields an unspecified value. No postblits or destructors are
* called. If the $(D_PARAM target) should be destroyed before, use
* $(D_PSYMBOL move).
*
* $(D_PARAM source) and $(D_PARAM target) must be different objects.
*
* Params:
* T = Object type.
* source = Source object.
* target = Target object.
*
* See_Also: $(D_PSYMBOL move),
* $(D_PSYMBOL hasElaborateCopyConstructor),
* $(D_PSYMBOL hasElaborateDestructor).
*
* Precondition: `&source !is &target`.
*/
void moveEmplace(T)(ref T source, ref T target) @system
in
{
assert(&source !is &target, "Source and target must be different");
}
body
{
static if (is(T == struct) || isStaticArray!T)
{
copy((&source)[0 .. 1], (&target)[0 .. 1]);
static if (hasElaborateCopyConstructor!T || hasElaborateDestructor!T)
{
if (typeid(T).initializer().ptr is null)
{
deinitialize!true(source);
}
else
{
deinitialize!false(source);
}
}
}
else
{
target = source;
}
}
///
@nogc nothrow pure @system unittest
{
static struct S
{
int member = 5;
this(this) @nogc nothrow pure @safe
{
assert(false);
}
}
S source, target = void;
moveEmplace(source, target);
assert(target.member == 5);
int x1 = 5, x2;
moveEmplace(x1, x2);
assert(x2 == 5);
}
// Is pure.
@nogc nothrow pure @system unittest
{
struct S
{
this(this)
{
}
}
S source, target = void;
static assert(is(typeof({ moveEmplace(source, target); })));
}
// Moves nested.
@nogc nothrow pure @system unittest
{
struct Nested
{
void method() @nogc nothrow pure @safe
{
}
}
Nested source, target = void;
moveEmplace(source, target);
assert(source == target);
}
// Emplaces static arrays.
@nogc nothrow pure @system unittest
{
static struct S
{
size_t member;
this(size_t i) @nogc nothrow pure @safe
{
this.member = i;
}
~this() @nogc nothrow pure @safe
{
}
}
S[2] source = [ S(5), S(5) ], target = void;
moveEmplace(source, target);
assert(source[0].member == 0);
assert(target[0].member == 5);
assert(source[1].member == 0);
assert(target[1].member == 5);
}
/**
* Moves $(D_PARAM source) into $(D_PARAM target) assuming that
* $(D_PARAM target) isn't initialized.
*
* Moving the $(D_PARAM source) copies it into the $(D_PARAM target) and places
* the $(D_PARAM source) into a valid but unspecified state, which means that
* after moving $(D_PARAM source) can be destroyed or assigned a new value, but
* accessing it yields an unspecified value. $(D_PARAM target) is destroyed before
* the new value is assigned. If $(D_PARAM target) isn't initialized and
* therefore shouldn't be destroyed, $(D_PSYMBOL moveEmplace) can be used.
*
* If $(D_PARAM target) isn't specified, $(D_PSYMBOL move) returns the source
* as rvalue without calling its copy constructor or destructor.
*
* $(D_PARAM source) and $(D_PARAM target) are the same object,
* $(D_PSYMBOL move) does nothing.
*
* Params:
* T = Object type.
* source = Source object.
* target = Target object.
*
* See_Also: $(D_PSYMBOL moveEmplace).
*/
void move(T)(ref T source, ref T target)
{
if ((() @trusted => &source is &target)())
{
return;
}
static if (hasElaborateDestructor!T)
{
target.__xdtor();
}
(() @trusted => moveEmplace(source, target))();
}
/// ditto
T move(T)(ref T source) @trusted
{
T target = void;
moveEmplace(source, target);
return target;
}
///
@nogc nothrow pure @safe unittest
{
static struct S
{
int member = 5;
this(this) @nogc nothrow pure @safe
{
assert(false);
}
}
S source, target = void;
move(source, target);
assert(target.member == 5);
assert(move(target).member == 5);
int x1 = 5, x2;
move(x1, x2);
assert(x2 == 5);
assert(move(x2) == 5);
}
// Moves if source is target.
@nogc nothrow pure @safe unittest
{
int x = 5;
move(x, x);
assert(x == 5);
}
/**
* Exchanges the values of $(D_PARAM a) and $(D_PARAM b).
*
* $(D_PSYMBOL swap) moves the contents of $(D_PARAM a) and $(D_PARAM b)
* without calling its postblits or destructors.
*
* Params:
* a = The first object.
* a = The second object.
*/
void swap(T)(ref T a, ref T b) @trusted
{
T tmp = void;
moveEmplace(a, tmp);
moveEmplace(b, a);
moveEmplace(tmp, b);
}
///
@nogc nothrow pure @safe unittest
{
int a = 3, b = 5;
swap(a, b);
assert(a == 5);
assert(b == 3);
}

17
source/tanya/algorithm/package.d Normal file
View File

@ -0,0 +1,17 @@
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
/**
* Collection of generic algorithms.
*
* Copyright: Eugene Wissner 2017.
* 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/package.d,
* tanya/algorithm/package.d)
*/
module tanya.algorithm;
public import tanya.algorithm.mutation;

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

@ -2,13 +2,15 @@
* 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/. */
/*
/**
* Event loop implementation for Linux.
*
* Copyright: Eugene Wissner 2016-2017.
* 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/async/event/epoll.d,
* tanya/async/event/epoll.d)
*/
module tanya.async.event.epoll;
@ -17,20 +19,20 @@ version (D_Ddoc)
}
else version (linux):
import core.stdc.errno;
public import core.sys.linux.epoll;
import tanya.async.protocol;
import core.sys.posix.unistd;
import core.time;
import std.algorithm.comparison;
import tanya.async.event.selector;
import tanya.async.loop;
import tanya.async.protocol;
import tanya.async.transport;
import tanya.async.watcher;
import tanya.container.array;
import tanya.memory;
import tanya.memory.mmappool;
import tanya.network.socket;
import core.stdc.errno;
import core.sys.posix.unistd;
import core.time;
import std.algorithm.comparison;
extern (C) nothrow @nogc
{

30
source/tanya/async/event/iocp.d
View File

@ -2,13 +2,15 @@
* 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/. */
/*
/**
* Event loop implementation for Windows.
*
* Copyright: Eugene Wissner 2016-2017.
* 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/async/event/iocp.d,
* tanya/async/event/iocp.d)
*/
module tanya.async.event.iocp;
@ -17,19 +19,17 @@ version (D_Ddoc)
}
else version (Windows):
import tanya.container.buffer;
import core.sys.windows.mswsock;
import core.sys.windows.winsock2;
import tanya.async.loop;
import tanya.async.protocol;
import tanya.async.transport;
import tanya.async.watcher;
import tanya.container.buffer;
import tanya.memory;
import tanya.memory.mmappool;
import tanya.network.socket;
import core.sys.windows.basetyps;
import core.sys.windows.mswsock;
import core.sys.windows.winbase;
import core.sys.windows.windef;
import core.sys.windows.winsock2;
import tanya.sys.windows.winbase;
/**
* Transport for stream sockets.
@ -183,7 +183,7 @@ final class IOCPLoop : Loop
{
super();
completionPort = CreateIoCompletionPort(INVALID_HANDLE_VALUE, NULL, 0, 0);
completionPort = CreateIoCompletionPort(INVALID_HANDLE_VALUE, null, 0, 0);
if (!completionPort)
{
throw make!BadLoopException(defaultAllocator,
@ -213,7 +213,7 @@ final class IOCPLoop : Loop
if (CreateIoCompletionPort(cast(HANDLE) socket.handle,
completionPort,
cast(ULONG_PTR) (cast(void*) watcher),
cast(size_t) (cast(void*) watcher),
0) !is completionPort)
{
return false;
@ -231,15 +231,15 @@ final class IOCPLoop : Loop
return false;
}
}
if (!(oldEvents & Event.read) && (events & Event.read)
|| !(oldEvents & Event.write) && (events & Event.write))
if ((!(oldEvents & Event.read) && (events & Event.read))
|| (!(oldEvents & Event.write) && (events & Event.write)))
{
auto transport = cast(StreamTransport) watcher;
assert(transport !is null);
if (CreateIoCompletionPort(cast(HANDLE) transport.socket.handle,
completionPort,
cast(ULONG_PTR) (cast(void*) watcher),
cast(size_t) (cast(void*) watcher),
0) !is completionPort)
{
return false;
@ -284,8 +284,8 @@ final class IOCPLoop : Loop
override protected void poll() @nogc
{
DWORD lpNumberOfBytes;
ULONG_PTR key;
LPOVERLAPPED overlap;
size_t key;
OVERLAPPED* overlap;
immutable timeout = cast(immutable int) blockTime.total!"msecs";
auto result = GetQueuedCompletionStatus(completionPort,
@ -293,7 +293,7 @@ final class IOCPLoop : Loop
&key,
&overlap,
timeout);
if (result == FALSE && overlap == NULL)
if (result == FALSE && overlap is null)
{
return; // Timeout
}

2
source/tanya/async/event/kqueue.d
View File

@ -9,6 +9,8 @@
* 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/async/event/kqueue.d,
* tanya/async/event/kqueue.d)
*/
module tanya.async.event.kqueue;

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

@ -9,6 +9,8 @@
* 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/async/event/selector.d,
* tanya/async/event/selector.d)
*/
module tanya.async.event.selector;
@ -21,8 +23,8 @@ import tanya.async.loop;
import tanya.async.protocol;
import tanya.async.transport;
import tanya.async.watcher;
import tanya.container.buffer;
import tanya.container.array;
import tanya.container.buffer;
import tanya.memory;
import tanya.memory.mmappool;
import tanya.network.socket;

5
source/tanya/async/iocp.d
View File

@ -11,6 +11,8 @@
* 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/async/iocp.d,
* tanya/async/iocp.d)
*/
module tanya.async.iocp;
@ -35,8 +37,7 @@ else version (D_Ddoc)
version (WindowsDoc):
import core.sys.windows.winbase;
import core.sys.windows.windef;
import tanya.sys.windows.winbase;
/**
* Provides an extendable representation of a Win32 $(D_PSYMBOL OVERLAPPED)

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

@ -64,6 +64,8 @@
* 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/async/loop.d,
* tanya/async/loop.d)
*/
module tanya.async.loop;

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

@ -9,6 +9,8 @@
* 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/async/package.d,
* tanya/async/package.d)
*/
module tanya.async;

4
source/tanya/async/protocol.d
View File

@ -13,11 +13,13 @@
* 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/async/protocol.d,
* tanya/async/protocol.d)
*/
module tanya.async.protocol;
import tanya.network.socket;
import tanya.async.transport;
import tanya.network.socket;
/**
* Common protocol interface.

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

@ -10,6 +10,8 @@
* 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/async/transport.d,
* tanya/async/transport.d)
*/
module tanya.async.transport;

4
source/tanya/async/watcher.d
View File

@ -9,11 +9,13 @@
* 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/async/watcher.d,
* tanya/async/watcher.d)
*/
module tanya.async.watcher;
import std.functional;
import std.exception;
import std.functional;
import tanya.async.loop;
import tanya.async.protocol;
import tanya.async.transport;

119
source/tanya/container/array.d
View File

@ -9,30 +9,37 @@
* 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/container/array.d,
* tanya/container/array.d)
*/
module tanya.container.array;
import core.checkedint;
import core.exception;
import std.algorithm.comparison;
import std.algorithm.mutation;
import std.conv;
import std.range.primitives;
import std.algorithm.mutation : bringToFront,
copy,
fill,
initializeAll,
uninitializedFill;
import std.meta;
import std.traits;
import tanya.algorithm.mutation;
import tanya.exception;
import tanya.memory;
import tanya.meta.trait;
import tanya.meta.transform;
import tanya.range.primitive;
/**
* Random-access range for the $(D_PSYMBOL Array).
*
* Params:
* E = Element type.
* A = Array type.
*/
struct Range(E)
struct Range(A)
{
private alias E = PointerTarget!(typeof(A.data));
private E* begin, end;
private alias ContainerType = CopyConstness!(E, Array!(Unqual!E));
private ContainerType* container;
private A* container;
invariant
{
@ -42,7 +49,7 @@ struct Range(E)
assert(this.end <= this.container.data + this.container.length);
}
private this(ref ContainerType container, E* begin, E* end) @trusted
private this(ref A container, E* begin, E* end) @trusted
in
{
assert(begin <= end);
@ -130,7 +137,7 @@ struct Range(E)
return typeof(return)(*this.container, this.begin, this.end);
}
Range!(const E) opIndex() const
A.ConstRange opIndex() const
{
return typeof(return)(*this.container, this.begin, this.end);
}
@ -146,7 +153,7 @@ struct Range(E)
return typeof(return)(*this.container, this.begin + i, this.begin + j);
}
Range!(const E) opSlice(const size_t i, const size_t j) const @trusted
A.ConstRange opSlice(const size_t i, const size_t j) const @trusted
in
{
assert(i <= j);
@ -172,10 +179,10 @@ struct Range(E)
struct Array(T)
{
/// The range types for $(D_PSYMBOL Array).
alias Range = .Range!T;
alias Range = .Range!Array;
/// Ditto.
alias ConstRange = .Range!(const T);
/// ditto
alias ConstRange = .Range!(const Array);
private size_t length_;
private T* data;
@ -242,7 +249,7 @@ struct Array(T)
insertBack(init[]);
}
/// Ditto.
/// ditto
this(R)(R init, shared Allocator allocator = defaultAllocator) @trusted
if (is(R == Array))
{
@ -262,7 +269,10 @@ struct Array(T)
{
// Move each element.
reserve(init.length_);
moveEmplaceAll(init.data[0 .. init.length_], this.data[0 .. init.length_]);
foreach (ref target; this.data[0 .. init.length_])
{
moveEmplace(*init.data++, target);
}
this.length_ = init.length_;
// Destructor of init should destroy it here.
}
@ -310,14 +320,14 @@ struct Array(T)
length_ = len;
}
/// Ditto.
/// ditto
this(const size_t len, shared Allocator allocator = defaultAllocator)
{
this(allocator);
length = len;
}
/// Ditto.
/// ditto
this(shared Allocator allocator)
in
{
@ -413,7 +423,7 @@ struct Array(T)
return length_;
}
/// Ditto.
/// ditto
size_t opDollar() const
{
return length;
@ -498,13 +508,12 @@ struct Array(T)
buf = allocator.allocate(byteSize);
if (buf is null)
{
onOutOfMemoryErrorNoGC();
onOutOfMemoryError();
}
scope (failure)
{
allocator.deallocate(buf);
}
const T* end = this.data + this.length_;
for (T* src = this.data, dest = cast(T*) buf; src != end; ++src, ++dest)
{
moveEmplace(*src, *dest);
@ -630,6 +639,11 @@ struct Array(T)
assert(v.removeBack(3) == 0);
}
private @property inout(T)* end() inout
{
return this.data + this.length_;
}
/**
* Remove all elements beloning to $(D_PARAM r).
*
@ -650,10 +664,13 @@ struct Array(T)
}
body
{
auto end = this.data + this.length;
moveAll(.Range!T(this, r.end, end), .Range!T(this, r.begin, end));
auto target = r.begin;
for (auto source = r.end; source != end; ++source, ++target)
{
move(*source, *target);
}
length = length - r.length;
return .Range!T(this, r.begin, this.data + length);
return Range(this, r.begin, this.data + length);
}
///
@ -681,7 +698,7 @@ struct Array(T)
if (isImplicitlyConvertible!(R, T))
{
reserve(this.length + 1);
moveEmplace(el, *(this.data + this.length_));
moveEmplace(el, *end);
++this.length_;
}
@ -701,17 +718,20 @@ struct Array(T)
return 1;
}
/// Ditto.
/// ditto
size_t insertBack(R)(ref R el) @trusted
if (isImplicitlyConvertible!(R, T))
{
reserve(this.length_ + 1);
emplace(this.data + this.length_, el);
++this.length_;
this.length = this.length + 1;
scope (failure)
{
this.length = this.length - 1;
}
opIndex(this.length - 1) = el;
return 1;
}
/// Ditto.
/// ditto
size_t insertBack(R)(R el)
if (!isInfinite!R
&& isInputRange!R
@ -729,13 +749,13 @@ struct Array(T)
return retLength;
}
/// Ditto.
/// ditto
size_t insertBack(size_t R)(T[R] el)
{
return insertBack!(T[])(el[]);
}
/// Ditto.
/// ditto
alias insert = insertBack;
///
@ -810,7 +830,7 @@ struct Array(T)
return inserted;
}
/// Ditto.
/// ditto
size_t insertAfter(size_t R)(Range r, T[R] el)
in
{
@ -823,7 +843,7 @@ struct Array(T)
return insertAfter!(T[])(r, el[]);
}
/// Ditto.
/// ditto
size_t insertAfter(R)(Range r, auto ref R el)
if (isImplicitlyConvertible!(R, T))
in
@ -850,7 +870,7 @@ struct Array(T)
return 1;
}
/// Ditto.
/// ditto
size_t insertBefore(R)(Range r, R el)
if (!isInfinite!R
&& isInputRange!R
@ -863,10 +883,10 @@ struct Array(T)
}
body
{
return insertAfter(.Range!T(this, this.data, r.begin), el);
return insertAfter(Range(this, this.data, r.begin), el);
}
/// Ditto.
/// ditto
size_t insertBefore(size_t R)(Range r, T[R] el)
in
{
@ -879,7 +899,7 @@ struct Array(T)
return insertBefore!(T[])(r, el[]);
}
/// Ditto.
/// ditto
size_t insertBefore(R)(Range r, auto ref R el)
if (isImplicitlyConvertible!(R, T))
in
@ -995,7 +1015,7 @@ struct Array(T)
return opIndex(pos) = value;
}
/// Ditto.
/// ditto
Range opIndexAssign(E : T)(auto ref E value)
{
return opSliceAssign(value, 0, length);
@ -1025,7 +1045,7 @@ struct Array(T)
return opSliceAssign!R(value, 0, length);
}
/// Ditto.
/// ditto
Range opIndexAssign(Range value)
{
return opSliceAssign(value, 0, length);
@ -1074,7 +1094,7 @@ struct Array(T)
return typeof(return)(this, this.data, this.data + length);
}
/// Ditto.
/// ditto
ConstRange opIndex() const @trusted
{
return typeof(return)(this, this.data, this.data + length);
@ -1107,13 +1127,13 @@ struct Array(T)
return equal(this.data[0 .. length], that.data[0 .. that.length]);
}
/// Ditto.
/// ditto
bool opEquals()(auto ref const typeof(this) that) const @trusted
{
return equal(this.data[0 .. length], that.data[0 .. that.length]);
}
/// Ditto.
/// ditto
bool opEquals(Range that)
{
return equal(opIndex(), that);
@ -1230,7 +1250,7 @@ struct Array(T)
return typeof(return)(this, this.data + i, this.data + j);
}
/// Ditto.
/// ditto
ConstRange opSlice(const size_t i, const size_t j) const @trusted
in
{
@ -1314,7 +1334,7 @@ struct Array(T)
return opSlice(i, j);
}
/// Ditto.
/// ditto
Range opSliceAssign(R : T)(auto ref R value, const size_t i, const size_t j)
@trusted
in
@ -1328,7 +1348,7 @@ struct Array(T)
return opSlice(i, j);
}
/// Ditto.
/// ditto
Range opSliceAssign(Range value, const size_t i, const size_t j) @trusted
in
{
@ -1413,7 +1433,7 @@ struct Array(T)
return this = that[];
}
/// Ditto.
/// ditto
ref typeof(this) opAssign(R)(R that) @trusted
if (is(R == Array))
{
@ -1617,6 +1637,9 @@ private unittest
}
A a1, a2;
auto v1 = Array!A([a1, a2]);
// Issue 232: https://issues.caraus.io/issues/232.
static assert(is(Array!(A*)));
}
private @safe @nogc unittest

10
source/tanya/container/buffer.d
View File

@ -9,11 +9,13 @@
* 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/container/buffer.d,
* tanya/container/buffer.d)
*/
module tanya.container.buffer;
import std.traits;
import tanya.memory;
import tanya.meta.trait;
version (unittest)
{
@ -98,7 +100,7 @@ struct ReadBuffer(T = ubyte)
buffer_ = cast(T[]) allocator_.allocate(size * T.sizeof);
}
/// Ditto.
/// ditto
this(shared Allocator allocator)
in
{
@ -141,7 +143,7 @@ struct ReadBuffer(T = ubyte)
return length_ - start;
}
/// Ditto.
/// ditto
alias opDollar = length;
/**
@ -393,7 +395,7 @@ struct WriteBuffer(T = ubyte)
}
}
/// Ditto.
/// ditto
alias opDollar = length;
///

11
source/tanya/container/entry.d
View File

@ -9,10 +9,12 @@
* 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/container/entry.d,
* tanya/container/entry.d)
*/
module tanya.container.entry;
import std.traits;
import tanya.meta.trait;
import tanya.typecons;
package struct SEntry(T)
@ -53,11 +55,6 @@ package enum BucketStatus : byte
package struct Bucket(T)
{
this(ref T content)
{
this.content = content;
}
@property void content(ref T content)
{
this.content_ = content;
@ -78,7 +75,7 @@ package struct Bucket(T)
return false;
}
bool opEquals(ref T content) const
bool opEquals(ref const T content) const
{
if (this.status == BucketStatus.used && this.content == content)
{

590
source/tanya/container/list.d
View File

@ -9,26 +9,31 @@
* 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/container/list.d,
* tanya/container/list.d)
*/
module tanya.container.list;
import std.algorithm.comparison;
import std.algorithm.mutation;
import std.algorithm.searching;
import std.range.primitives;
import std.traits;
import tanya.algorithm.mutation;
import tanya.container.entry;
import tanya.memory;
import tanya.meta.trait;
import tanya.meta.transform;
import tanya.range.array;
import tanya.range.primitive;
/**
* Forward range for the $(D_PSYMBOL SList).
*
* Params:
* E = Element type.
* L = List type.
*/
struct SRange(E)
struct SRange(L)
{
private alias EntryPointer = CopyConstness!(E, SEntry!(Unqual!E)*);
private alias EntryPointer = typeof(L.head);
private alias E = typeof(EntryPointer.content);
private EntryPointer* head;
@ -79,7 +84,7 @@ struct SRange(E)
return typeof(return)(*this.head);
}
SRange!(const E) opIndex() const
L.ConstRange opIndex() const
{
return typeof(return)(*this.head);
}
@ -94,10 +99,10 @@ struct SRange(E)
struct SList(T)
{
/// The range types for $(D_PSYMBOL SList).
alias Range = SRange!T;
alias Range = SRange!SList;
/// Ditto.
alias ConstRange = SRange!(const T);
/// ditto
alias ConstRange = SRange!(const SList);
private alias Entry = SEntry!T;
@ -180,7 +185,7 @@ struct SList(T)
assert(l.empty);
}
/// Ditto.
/// ditto
this(const size_t len, shared Allocator allocator = defaultAllocator)
{
this(len, T.init, allocator);
@ -194,7 +199,7 @@ struct SList(T)
assert(l.front == 0);
}
/// Ditto.
/// ditto
this(shared Allocator allocator)
in
{
@ -228,7 +233,7 @@ struct SList(T)
this(init[], allocator);
}
/// Ditto.
/// ditto
this(R)(R init, shared Allocator allocator = defaultAllocator) @trusted
if (is(R == SList))
{
@ -352,7 +357,7 @@ struct SList(T)
return moveEntry(this.head, el);
}
/// Ditto.
/// ditto
size_t insertFront(R)(ref R el) @trusted
if (isImplicitlyConvertible!(R, T))
{
@ -374,7 +379,7 @@ struct SList(T)
assert(l.front == 8);
}
/// Ditto.
/// ditto
size_t insertFront(R)(R el) @trusted
if (!isInfinite!R
&& isInputRange!R
@ -404,13 +409,13 @@ struct SList(T)
return retLength;
}
/// Ditto.
/// ditto
size_t insertFront(size_t R)(T[R] el)
{
return insertFront!(T[])(el[]);
}
/// Ditto.
/// ditto
alias insert = insertFront;
///
@ -434,7 +439,7 @@ struct SList(T)
version (assert)
{
private bool checkRangeBelonging(ref SRange!T r) const
private bool checkRangeBelonging(ref Range r) const
{
const(Entry*)* pos = &this.head;
for (; pos != r.head && *pos !is null; pos = &(*pos).next)
@ -456,7 +461,7 @@ struct SList(T)
*
* Precondition: $(D_PARAM r) is extracted from this list.
*/
size_t insertBefore(R)(SRange!T r, R el)
size_t insertBefore(R)(Range r, R el)
if (isImplicitlyConvertible!(R, T))
in
{
@ -476,8 +481,8 @@ struct SList(T)
assert(l1 == l2);
}
/// Ditto.
size_t insertBefore(R)(SRange!T r, R el)
/// ditto
size_t insertBefore(R)(Range r, R el)
if (!isInfinite!R
&& isInputRange!R
&& isImplicitlyConvertible!(ElementType!R, T))
@ -508,7 +513,7 @@ struct SList(T)
assert(l1 == l2);
}
/// Ditto.
/// ditto
size_t insertBefore(Range r, ref T el) @trusted
in
{
@ -544,7 +549,18 @@ struct SList(T)
*/
size_t insertBefore(size_t R)(Range r, T[R] el)
{
return insertFront!(T[])(el[]);
return insertBefore!(T[])(r, el[]);
}
///
@safe @nogc unittest
{
auto l1 = SList!int([5, 234, 30, 1]);
auto l2 = SList!int([5, 1]);
auto r = l2[];
r.popFront();
l2.insertBefore(r, [234, 30]);
assert(l1 == l2);
}
/**
@ -731,7 +747,7 @@ struct SList(T)
return typeof(return)(this.head);
}
/// Ditto.
/// ditto
ConstRange opIndex() const
{
return typeof(return)(this.head);
@ -758,7 +774,7 @@ struct SList(T)
return this = that[];
}
/// Ditto.
/// ditto
ref typeof(this) opAssign(R)(R that)
if (is(R == SList))
{
@ -812,7 +828,7 @@ struct SList(T)
}
next = &(*next).next;
}
remove(SRange!T(*next));
remove(Range(*next));
return this;
}
@ -906,28 +922,28 @@ private @nogc @safe unittest
}
/**
* Forward range for the $(D_PSYMBOL SList).
* Forward range for the $(D_PSYMBOL DList).
*
* Params:
* E = Element type.
* L = List type.
*/
struct DRange(E)
struct DRange(L)
{
private alias EntryPointer = CopyConstness!(E, DEntry!(Unqual!E)*);
private alias TailPointer = CopyConstness!(E, DEntry!(Unqual!E))*;
private alias E = typeof(L.head.content);
private alias EntryPointer = typeof(L.head);
private EntryPointer* head;
private TailPointer tail;
private EntryPointer* tail;
invariant
{
assert(this.head !is null);
}
private this(ref EntryPointer head, TailPointer tail) @trusted
private this(ref EntryPointer head, ref EntryPointer tail) @trusted
{
this.head = &head;
this.tail = tail;
this.tail = &tail;
}
@disable this();
@ -939,7 +955,7 @@ struct DRange(E)
@property bool empty() const
{
return *this.head is null || *this.head is this.tail.next;
return *this.head is null || *this.head is (*this.tail).next;
}
@property ref inout(E) front() inout
@ -959,7 +975,7 @@ struct DRange(E)
}
body
{
return this.tail.content;
return (*this.tail).content;
}
void popFront() @trusted
@ -979,17 +995,17 @@ struct DRange(E)
}
body
{
this.tail = this.tail.prev;
this.tail = &(*this.tail).prev;
}
DRange opIndex()
{
return typeof(return)(*this.head, this.tail);
return typeof(return)(*this.head, *this.tail);
}
DRange!(const E) opIndex() const
L.ConstRange opIndex() const
{
return typeof(return)(*this.head, this.tail);
return typeof(return)(*this.head, *this.tail);
}
}
@ -1002,10 +1018,10 @@ struct DRange(E)
struct DList(T)
{
/// The range types for $(D_PSYMBOL DList).
alias Range = DRange!T;
alias Range = DRange!DList;
/// Ditto.
alias ConstRange = DRange!(const T);
/// ditto
alias ConstRange = DRange!(const DList);
private alias Entry = DEntry!T;
@ -1017,6 +1033,7 @@ struct DList(T)
assert((this.tail is null && this.head is null)
|| (this.tail !is null && this.head !is null));
assert(this.tail is null || this.tail.next is null);
assert(this.head is null || this.head.prev is null);
}
/**
@ -1098,7 +1115,7 @@ struct DList(T)
assert(l.empty);
}
/// Ditto.
/// ditto
this(const size_t len, shared Allocator allocator = defaultAllocator)
{
this(len, T.init, allocator);
@ -1112,7 +1129,7 @@ struct DList(T)
assert(l.front == 0);
}
/// Ditto.
/// ditto
this(shared Allocator allocator)
in
{
@ -1146,7 +1163,7 @@ struct DList(T)
this(init[], allocator);
}
/// Ditto.
/// ditto
this(R)(R init, shared Allocator allocator = defaultAllocator) @trusted
if (is(R == DList))
{
@ -1272,20 +1289,21 @@ struct DList(T)
assert(l.back == 25);
}
private size_t moveEntry(R)(ref Entry* head, ref R el) @trusted
private size_t moveFront(R)(ref Entry* head, ref R el) @trusted
if (isImplicitlyConvertible!(R, T))
{
auto temp = cast(Entry*) allocator.allocate(Entry.sizeof);
el.moveEmplace(temp.content);
temp.next = head;
temp.prev = null;
if (this.tail is null)
{
temp.prev = null;
this.tail = temp;
}
else
{
temp.prev = head.prev;
head.prev = temp;
}
@ -1293,6 +1311,34 @@ struct DList(T)
return 1;
}
// Creates a lsit of linked entries from a range.
// Returns count of the elements in the list.
private size_t makeList(R)(ref R el, out Entry* head, out Entry* tail) @trusted
out (retLength)
{
assert((retLength == 0 && head is null && tail is null)
|| (retLength > 0 && head !is null && tail !is null));
}
body
{
size_t retLength;
if (!el.empty)
{
head = tail = allocator.make!Entry(el.front);
el.popFront();
retLength = 1;
}
foreach (ref e; el)
{
tail.next = allocator.make!Entry(e);
tail.next.prev = tail;
tail = tail.next;
++retLength;
}
return retLength;
}
/**
* Inserts a new element at the beginning.
*
@ -1305,10 +1351,10 @@ struct DList(T)
size_t insertFront(R)(R el)
if (isImplicitlyConvertible!(R, T))
{
return moveEntry(this.head, el);
return moveFront(this.head, el);
}
/// Ditto.
/// ditto
size_t insertFront(R)(ref R el) @trusted
if (isImplicitlyConvertible!(R, T))
{
@ -1340,50 +1386,40 @@ struct DList(T)
assert(l.back == 5);
}
/// Ditto.
size_t insertFront(R)(R el) @trusted
/// ditto
size_t insertFront(R)(R el)
if (!isInfinite!R
&& isInputRange!R
&& isImplicitlyConvertible!(ElementType!R, T))
{
size_t retLength;
Entry* next, newHead;
Entry* begin, end;
const inserted = makeList(el, begin, end);
if (!el.empty)
{
next = allocator.make!Entry(el.front);
newHead = next;
el.popFront();
retLength = 1;
}
foreach (ref e; el)
{
next.next = allocator.make!Entry(e);
next = next.next;
++retLength;
}
if (this.head is null)
{
this.tail = next;
this.tail = end;
}
if (newHead !is null)
if (begin !is null)
{
next.next = this.head;
this.head = newHead;
end.next = this.head;
this.head = begin;
}
return retLength;
return inserted;
}
/// Ditto.
private @safe @nogc unittest
{
auto l1 = DList!int([5, 234]);
assert(l1.head is l1.head.next.prev);
}
/// ditto
size_t insertFront(size_t R)(T[R] el)
{
return insertFront!(T[])(el[]);
}
/// Ditto.
alias insert = insertBack;
///
@safe @nogc unittest
{
@ -1407,6 +1443,28 @@ struct DList(T)
assert(l2.back == 15);
}
private size_t moveBack(R)(ref Entry* tail, ref R el) @trusted
if (isImplicitlyConvertible!(R, T))
{
auto temp = cast(Entry*) allocator.allocate(Entry.sizeof);
el.moveEmplace(temp.content);
temp.prev = tail;
if (this.head is null)
{
temp.next = null;
this.head = this.tail = temp;
}
else
{
temp.next = tail.next;
tail.next = temp;
}
tail = temp;
return 1;
}
/**
* Inserts a new element at the end.
*
@ -1419,25 +1477,10 @@ struct DList(T)
size_t insertBack(R)(R el) @trusted
if (isImplicitlyConvertible!(R, T))
{
auto temp = cast(Entry*) allocator.allocate(Entry.sizeof);
el.moveEmplace(temp.content);
temp.next = null;
temp.prev = tail;
if (this.head is null)
{
this.head = temp;
}
else
{
this.tail.next = temp;
return moveBack(this.tail, el);
}
this.tail = temp;
return 1;
}
/// Ditto.
/// ditto
size_t insertBack(R)(ref R el) @trusted
if (isImplicitlyConvertible!(R, T))
{
@ -1469,23 +1512,32 @@ struct DList(T)
assert(l.back == value);
}
/// Ditto.
/// ditto
size_t insertBack(R)(R el) @trusted
if (!isInfinite!R
&& isInputRange!R
&& isImplicitlyConvertible!(ElementType!R, T))
{
size_t inserted;
Entry* begin, end;
const inserted = makeList(el, begin, end);
foreach (ref e; el)
if (this.tail is null)
{
inserted += insertBack(e);
this.head = begin;
}
else
{
this.tail.next = begin;
}
if (begin !is null)
{
this.tail = end;
}
return inserted;
}
/// Ditto.
/// ditto
size_t insertBack(size_t R)(T[R] el)
{
return insertBack!(T[])(el[]);
@ -1510,9 +1562,12 @@ struct DList(T)
assert(l2.back == 9);
}
/// ditto
alias insert = insertBack;
version (assert)
{
private bool checkRangeBelonging(ref DRange!T r) const
private bool checkRangeBelonging(ref Range r) const
{
const(Entry*)* pos = &this.head;
for (; pos != r.head && *pos !is null; pos = &(*pos).next)
@ -1534,7 +1589,7 @@ struct DList(T)
*
* Precondition: $(D_PARAM r) is extracted from this list.
*/
size_t insertBefore(R)(DRange!T r, R el)
size_t insertBefore(R)(Range r, R el)
if (isImplicitlyConvertible!(R, T))
in
{
@ -1542,7 +1597,7 @@ struct DList(T)
}
body
{
return moveEntry(*r.head, el);
return moveFront(*r.head, el);
}
///
@ -1554,8 +1609,43 @@ struct DList(T)
assert(l1 == l2);
}
/// Ditto.
size_t insertBefore(R)(DRange!T r, R el)
/// ditto
size_t insertBefore(Range r, ref T el) @trusted
in
{
assert(checkRangeBelonging(r));
}
body
{
auto temp = allocator.make!Entry(el, *r.head);
if (this.tail is null)
{
this.tail = temp;
}
else
{
temp.prev = (*r.head).prev;
(*r.head).prev = temp;
}
*r.head = temp;
return 1;
}
///
@safe @nogc unittest
{
auto l1 = DList!int([234, 5, 1]);
auto l2 = DList!int([5, 1]);
int var = 234;
l2.insertBefore(l2[], var);
assert(l1 == l2);
}
/// ditto
size_t insertBefore(R)(Range r, R el)
if (!isInfinite!R
&& isInputRange!R
&& isImplicitlyConvertible!(ElementType!R, T))
@ -1579,32 +1669,9 @@ struct DList(T)
{
auto l1 = DList!int([5, 234, 30, 1]);
auto l2 = DList!int([5, 1]);
auto l3 = DList!int([234, 30]);
auto r = l2[];
r.popFront();
l2.insertBefore(r, l3[]);
assert(l1 == l2);
}
/// Ditto.
size_t insertBefore(Range r, ref T el) @trusted
in
{
assert(checkRangeBelonging(r));
}
body
{
*r.head = allocator.make!Entry(el, *r.head);
return 1;
}
///
@safe @nogc unittest
{
auto l1 = DList!int([234, 5, 1]);
auto l2 = DList!int([5, 1]);
int var = 234;
l2.insertBefore(l2[], var);
l2.insertBefore(r, [234, 30]);
assert(l1 == l2);
}
@ -1622,7 +1689,133 @@ struct DList(T)
*/
size_t insertBefore(size_t R)(Range r, T[R] el)
{
return insertFront!(T[])(el[]);
return insertBefore!(T[])(r, el[]);
}
/**
* Inserts new elements after $(D_PARAM r).
*
* Params:
* R = Type of the inserted value(s).
* r = Range extracted from this list.
* el = New element(s).
*
* Returns: The number of elements inserted.
*
* Precondition: $(D_PARAM r) is extracted from this list.
*/
size_t insertAfter(R)(Range r, R el) @trusted
if (isImplicitlyConvertible!(R, T))
in
{
assert(checkRangeBelonging(r));
}
body
{
return moveBack(*r.tail, el);
}
///
@safe @nogc unittest
{
auto l1 = DList!int([5, 234, 1]);
auto l2 = DList!int([5, 1]);
auto r = l2[];
r.popBack();
l2.insertAfter(r, 234);
assert(l1 == l2);
}
private @safe @nogc unittest
{
DList!int l;
l.insertAfter(l[], 234);
assert(l.front == 234);
assert(l.back == 234);
assert(l.length == 1);
}
/// ditto
size_t insertAfter(Range r, ref T el) @trusted
in
{
assert(checkRangeBelonging(r));
}
body
{
auto temp = allocator.make!Entry(el, null, *r.tail);
if (this.head is null)
{
this.head = temp;
}
else
{
temp.next = (*r.tail).next;
(*r.tail).next = temp;
}
*r.tail = temp;
return 1;
}
///
@safe @nogc unittest
{
auto l1 = DList!int([5, 1, 234]);
auto l2 = DList!int([5, 1]);
int var = 234;
l2.insertAfter(l2[], var);
assert(l1 == l2);
}
/// ditto
size_t insertAfter(R)(Range r, R el)
if (!isInfinite!R
&& isInputRange!R
&& isImplicitlyConvertible!(ElementType!R, T))
in
{
assert(checkRangeBelonging(r));
}
body
{
size_t inserted;
foreach (e; el)
{
inserted += insertAfter(r, e);
}
return inserted;
}
///
@safe @nogc unittest
{
auto l1 = DList!int([5, 234, 30, 1]);
auto l2 = DList!int([5, 1]);
auto r = l2[];
r.popBack();
l2.insertAfter(r, [234, 30]);
assert(l1 == l2);
}
/**
* Inserts elements from a static array after $(D_PARAM r).
*
* Params:
* R = Static array size.
* r = Range extracted from this list.
* el = New elements.
*
* Returns: The number of elements inserted.
*
* Precondition: $(D_PARAM r) is extracted from this list.
*/
size_t insertAfter(size_t R)(Range r, T[R] el)
{
return insertAfter!(T[])(r, el[]);
}
/**
@ -1694,7 +1887,7 @@ struct DList(T)
}
/**
* Removes the front element.
* Removes the front or back element.
*
* Precondition: $(D_INLINECODE !empty)
*/
@ -1707,12 +1900,16 @@ struct DList(T)
{
auto n = this.head.next;
this.allocator.dispose(this.head);
allocator.dispose(this.head);
this.head = n;
if (this.head is null)
{
this.tail = null;
}
else
{
this.head.prev = null;
}
}
///
@ -1729,12 +1926,47 @@ struct DList(T)
assert(l.empty);
}
/// ditto
void removeBack()
in
{
assert(!empty);
}
body
{
auto n = this.tail.prev;
allocator.dispose(this.tail);
this.tail = n;
if (this.tail is null)
{
this.head = null;
}
else
{
this.tail.next = null;
}
}
///
@safe @nogc unittest
{
auto l = DList!int([9, 8]);
assert(l.back == 8);
l.removeBack();
assert(l.back == 9);
l.removeFront();
assert(l.empty);
}
/**
* Removes $(D_PARAM howMany) elements from the list.
*
* Unlike $(D_PSYMBOL removeFront()), this method doesn't fail, if it could not
* remove $(D_PARAM howMany) elements. Instead, if $(D_PARAM howMany) is
* greater than the list length, all elements are removed.
* Unlike $(D_PSYMBOL removeFront()) and $(D_PSYMBOL removeBack()), this
* method doesn't fail, if it could not remove $(D_PARAM howMany) elements.
* Instead, if $(D_PARAM howMany) is greater than the list length, all
* elements are removed.
*
* Params:
* howMany = How many elements should be removed.
@ -1767,13 +1999,40 @@ struct DList(T)
assert(l.removeFront(3) == 0);
}
/// ditto
size_t removeBack(const size_t howMany)
out (removed)
{
assert(removed <= howMany);
}
body
{
size_t i;
for (; i < howMany && !empty; ++i)
{
removeBack();
}
return i;
}
///
@safe @nogc unittest
{
DList!int l = DList!int([8, 5, 4]);
assert(l.removeBack(0) == 0);
assert(l.removeBack(2) == 2);
assert(l.removeBack(3) == 1);
assert(l.removeBack(3) == 0);
}
/**
* Removes $(D_PARAM r) from the list.
*
* Params:
* r = The range to remove.
*
* Returns: An empty range.
* Returns: Range spanning the elements just after $(D_PARAM r).
*
* Precondition: $(D_PARAM r) is extracted from this list.
*/
@ -1784,19 +2043,34 @@ struct DList(T)
}
body
{
auto outOfScopeList = typeof(this)(allocator);
outOfScopeList.head = *r.head;
outOfScopeList.tail = r.tail;
if (r.tail is null)
// Save references to the elements before and after the range.
Entry* tailNext, headPrev;
if (*r.tail !is null && (*r.tail).next !is null)
{
*r.head = null;
tailNext = (*r.tail).next;
}
else
if (*r.head !is null)
{
outOfScopeList.tail.next = null;
*r.head = r.tail.next;
headPrev = (*r.head).prev;
}
// Remove the elements.
Entry* e = *r.head;
while (e !is tailNext)
{
auto next = e.next;
allocator.dispose(e);
e = next;
}
// Connect the elements before and after the removed range.
if (tailNext !is null)
{
tailNext.prev = headPrev;
}
*r.head = tailNext;
*r.tail = tail;
return r;
}
@ -1813,6 +2087,22 @@ struct DList(T)
assert(l1 == l2);
}
// Issue 260: https://issues.caraus.io/issues/260.
private @safe @nogc unittest
{
auto l1 = DList!int([5, 234, 30, 1]);
auto l2 = DList!int([5, 1]);
auto r = l1[];
r.popFront();
r.popBack();
assert(r.front == 234);
assert(r.back == 30);
assert(!l1.remove(r).empty);
assert(l1 == l2);
}
/**
* Returns: Range that iterates over all elements of the container, in
* forward order.
@ -1822,7 +2112,7 @@ struct DList(T)
return typeof(return)(this.head, this.tail);
}
/// Ditto.
/// ditto
ConstRange opIndex() const
{
return typeof(return)(this.head, this.tail);
@ -1849,7 +2139,7 @@ struct DList(T)
return this = that[];
}
/// Ditto.
/// ditto
ref typeof(this) opAssign(R)(R that)
if (is(R == DList))
{
@ -1883,7 +2173,7 @@ struct DList(T)
}
if (that.empty)
{
remove(DRange!T(*next, this.tail));
remove(Range(*next, this.tail));
}
else
{
@ -1953,3 +2243,13 @@ struct DList(T)
}
assert(i == 3);
}
// Issue 232: https://issues.caraus.io/issues/232.
private @nogc unittest
{
class A
{
}
static assert(is(SList!(A*)));
static assert(is(DList!(A*)));
}

6
source/tanya/container/package.d
View File

@ -9,15 +9,17 @@
* 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/container/package.d,
* tanya/container/package.d)
*/
module tanya.container;
public import tanya.container.array;
public import tanya.container.buffer;
public import tanya.container.set;
public import tanya.container.list;
public import tanya.container.string;
public import tanya.container.queue;
public import tanya.container.set;
public import tanya.container.string;
/**
* Thrown if $(D_PSYMBOL Set) cannot insert a new element because the container

14
source/tanya/container/queue.d
View File

@ -9,14 +9,16 @@
* 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/container/queue.d,
* tanya/container/queue.d)
*/
module tanya.container.queue;
import core.exception;
import std.traits;
import std.algorithm.mutation;
import tanya.algorithm.mutation;
import tanya.container.entry;
import tanya.exception;
import tanya.memory;
import tanya.meta.trait;
/**
* FIFO queue.
@ -113,7 +115,7 @@ struct Queue(T)
enqueueEntry(temp);
}
/// Ditto.
/// ditto
void enqueue(T x)
{
auto temp = allocateEntry();
@ -199,7 +201,7 @@ struct Queue(T)
{
int result;
for (size_t i = 0; !empty; ++i)
for (size_t i; !empty; ++i)
{
auto e = dequeue();
if ((result = dg(i, e)) != 0)
@ -210,7 +212,7 @@ struct Queue(T)
return result;
}
/// Ditto.
/// ditto
int opApply(scope int delegate(ref T) @nogc dg)
{
int result;

113
source/tanya/container/set.d
View File

@ -10,14 +10,17 @@
* 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/container/set.d,
* tanya/container/set.d)
*/
module tanya.container.set;
import std.algorithm.mutation;
import std.traits;
import tanya.algorithm.mutation;
import tanya.container;
import tanya.container.entry;
import tanya.memory;
import tanya.meta.trait;
import tanya.meta.transform;
/**
* Bidirectional range that iterates over the $(D_PSYMBOL Set)'s values.
@ -153,7 +156,7 @@ struct Set(T)
/// The range types for $(D_PSYMBOL Set).
alias Range = .Range!T;
/// Ditto.
/// ditto
alias ConstRange = .Range!(const T);
invariant
@ -183,7 +186,7 @@ struct Set(T)
rehash(n);
}
/// Ditto.
/// ditto
this(shared Allocator allocator)
in
{
@ -229,7 +232,7 @@ struct Set(T)
this.data = typeof(this.data)(init.data, allocator);
}
/// Ditto.
/// ditto
this(S)(S init, shared Allocator allocator = defaultAllocator)
if (is(S == Set))
in
@ -263,7 +266,7 @@ struct Set(T)
return this;
}
/// Ditto.
/// ditto
ref typeof(this) opAssign(S)(S that) @trusted
if (is(S == Set))
{
@ -349,7 +352,8 @@ struct Set(T)
/// The maximum number of buckets the container can have.
enum size_t maxBucketCount = primes[$ - 1];
static private size_t calculateHash(ref T value)
static private size_t calculateHash(U)(ref const U value)
if (is(U == Unqual!T))
{
static if (isIntegral!T || isSomeChar!T || is(T == bool))
{
@ -361,11 +365,26 @@ struct Set(T)
}
}
static private size_t locateBucket(ref const DataType buckets, size_t hash)
static private size_t locateBucket(ref const DataType buckets,
const size_t hash)
in
{
assert(buckets.length > 0);
}
body
{
return hash % buckets.length;
}
/*
* Returns bucket position for `hash`. `0` may mean the 0th position or an
* empty `buckets` array.
*/
private size_t locateBucket(const size_t hash) const
{
return this.data.length == 0 ? 0 : locateBucket(this.data, hash);
}
private enum InsertStatus : byte
{
found = -1,
@ -376,7 +395,8 @@ struct Set(T)
/*
* Inserts the value in an empty or deleted bucket. If the value is
* already in there, does nothing and returns InsertStatus.found. If the
* hash array is full returns InsertStatus.failed.
* hash array is full returns InsertStatus.failed. Otherwise,
* InsertStatus.added is returned.
*/
private InsertStatus insertInUnusedBucket(ref T value)
{
@ -417,7 +437,7 @@ struct Set(T)
InsertStatus status = insertInUnusedBucket(value);
for (; !status; status = insertInUnusedBucket(value))
{
if ((this.primes.length - 1) == this.lengthIndex)
if (this.primes.length == (this.lengthIndex + 1))
{
throw make!HashContainerFullException(defaultAllocator,
"Set is full");
@ -456,12 +476,7 @@ struct Set(T)
*/
size_t remove(T value)
{
if (this.data.length == 0)
{
return 0;
}
auto bucketPosition = locateBucket(this.data, calculateHash(value));
auto bucketPosition = locateBucket(calculateHash(value));
foreach (ref e; this.data[bucketPosition .. $])
{
if (e == value) // Found.
@ -478,7 +493,7 @@ struct Set(T)
}
///
unittest
@nogc unittest
{
Set!int set;
assert(8 !in set);
@ -500,14 +515,9 @@ struct Set(T)
* Returns: $(D_KEYWORD true) if the given element exists in the container,
* $(D_KEYWORD false) otherwise.
*/
bool opBinaryRight(string op : "in")(auto ref T value)
bool opBinaryRight(string op : "in")(auto ref const T value) const
{
if (this.data.length == 0)
{
return 0;
}
auto bucketPosition = locateBucket(this.data, calculateHash(value));
auto bucketPosition = locateBucket(calculateHash(value));
foreach (ref e; this.data[bucketPosition .. $])
{
if (e == value) // Found.
@ -522,37 +532,15 @@ struct Set(T)
return false;
}
/// Ditto.
bool opBinaryRight(string op : "in")(auto ref const T value) const
{
if (this.data.length == 0)
{
return 0;
}
auto bucketPosition = locateBucket(this.data, calculateHash(value));
foreach (ref e; this.data[bucketPosition .. $])
{
if (e.status == BucketStatus.used && e.content == value) // Found.
{
return true;
}
else if (e.status == BucketStatus.empty)
{
break;
}
}
return false;
}
///
unittest
@nogc unittest
{
Set!int set;
assert(5 !in set);
set.insert(5);
assert(5 in set);
assert(8 !in set);
}
/**
@ -626,14 +614,14 @@ struct Set(T)
return typeof(return)(this.data[]);
}
/// Ditto.
/// ditto
ConstRange opIndex() const
{
return typeof(return)(this.data[]);
}
///
unittest
@nogc unittest
{
Set!int set;
assert(set[].empty);
@ -647,13 +635,34 @@ struct Set(T)
assert(set[].empty);
}
private @nogc unittest
{
const Set!int set;
assert(set[].empty);
}
private @nogc unittest
{
Set!int set;
set.insert(8);
auto r1 = set[];
auto r2 = r1.save();
r1.popFront();
assert(r1.empty);
r2.popBack();
assert(r2.empty);
}
private alias DataType = Array!(Bucket!T);
private DataType data;
private size_t lengthIndex;
}
// Basic insertion logic.
private unittest
private @nogc unittest
{
Set!int set;
@ -693,7 +702,7 @@ private unittest
// Static checks.
private unittest
{
import std.range.primitives;
import tanya.range.primitive;
static assert(isBidirectionalRange!(Set!int.ConstRange));
static assert(isBidirectionalRange!(Set!int.Range));

404
source/tanya/container/string.d
View File

@ -3,43 +3,43 @@
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
/**
* UTF-8 string.
* UTF-8 encoded string.
*
* You can create a $(D_PSYMBOL String) from a literal string, single character
* or character range. Characters can be of the type $(D_KEYWORD char),
* $(D_KEYWORD wchar) or $(D_KEYWORD dchar). Literal strings, characters and
* character ranges can be also inserted into an existing string.
*
* $(D_PSYMBOL String) is always valid UTF-8. Inserting an invalid sequence
* or working on a corrupted $(D_PSYMBOL String) causes
* $(D_PSYMBOL UTFException) to be thrown.
*
* Internally $(D_PSYMBOL String) is represented by a sequence of
* $(D_KEYWORD char)s.
*
* Copyright: Eugene Wissner 2017.
* 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/container/string.d,
* tanya/container/string.d)
*/
module tanya.container.string;
import core.exception;
import std.algorithm.comparison;
import std.algorithm.mutation;
import std.algorithm.mutation : bringToFront, copy;
import std.algorithm.searching;
import std.range;
import std.traits;
static import std.range;
import tanya.algorithm.mutation;
import tanya.memory;
import tanya.meta.trait;
import tanya.meta.transform;
import tanya.range.array;
import tanya.range.primitive;
private ref const(wchar) front(const wchar[] str)
pure nothrow @safe @nogc
in
version (unittest)
{
assert(str.length > 0);
}
body
{
return str[0];
}
private void popFront(ref const(wchar)[] str, const size_t s = 1)
pure nothrow @safe @nogc
in
{
assert(str.length >= s);
}
body
{
str = str[s .. $];
import tanya.test.assertion;
}
/**
@ -297,21 +297,21 @@ struct ByCodePoint(E)
body
{
ubyte units;
if ((*begin & 0x80) == 0)
if ((*begin & 0xf0) == 0xf0)
{
units = 1;
}
else if ((*begin & 0xc0) == 0xc0)
{
units = 2;
units = 4;
}
else if ((*begin & 0xe0) == 0xe0)
{
units = 3;
}
else if ((*begin & 0xf0) == 0xf0)
else if ((*begin & 0xc0) == 0xc0)
{
units = 4;
units = 2;
}
else if ((*begin & 0x80) == 0)
{
units = 1;
}
if (units == 0 || this.begin + units > this.end)
{
@ -360,21 +360,21 @@ struct String
this(S)(const S str, shared Allocator allocator = defaultAllocator)
if (!isInfinite!S
&& isInputRange!S
&& isSomeChar!(ElementEncodingType!S))
&& isSomeChar!(ElementType!S))
{
this(allocator);
insertBack(str);
}
///
@safe @nogc unittest
@nogc pure @safe unittest
{
auto s = String("\u10437"w);
assert(s == "\u10437");
}
///
@safe @nogc unittest
@nogc pure @safe unittest
{
auto s = String("Отказаться от вина - в этом страшная вина."d);
assert(s == "Отказаться от вина - в этом страшная вина.");
@ -398,8 +398,7 @@ struct String
*
* Precondition: $(D_INLINECODE allocator is null).
*/
this(S)(S init, shared Allocator allocator = defaultAllocator)
nothrow @trusted @nogc
this(S)(S init, shared Allocator allocator = defaultAllocator) @trusted
if (is(S == String))
{
this(allocator);
@ -422,9 +421,8 @@ struct String
}
}
/// Ditto.
this(S)(ref S init, shared Allocator allocator = defaultAllocator)
nothrow @trusted @nogc
/// ditto
this(S)(ref S init, shared Allocator allocator = defaultAllocator) @trusted
if (is(Unqual!S == String))
{
this(allocator);
@ -433,8 +431,8 @@ struct String
this.length_ = init.length;
}
/// Ditto.
this(shared Allocator allocator) pure nothrow @safe @nogc
/// ditto
this(shared Allocator allocator) @nogc nothrow pure @safe
in
{
assert(allocator !is null);
@ -484,7 +482,7 @@ struct String
}
///
@safe @nogc unittest
@nogc pure @safe unittest
{
{
auto s = String(1, 'О');
@ -500,22 +498,30 @@ struct String
}
}
@safe @nogc unittest
@nogc pure @safe unittest
{
auto s = String(0, 'K');
assert(s.length == 0);
}
this(this) @nogc nothrow pure @trusted
{
auto buf = this.data[0 .. this.length_];
this.length_ = capacity_ = 0;
this.data = null;
insertBack(buf);
}
/**
* Destroys the string.
*/
~this() nothrow @trusted @nogc
~this() @nogc nothrow pure @trusted
{
allocator.resize(this.data[0 .. this.capacity_], 0);
}
private void write4Bytes(ref const dchar src)
pure nothrow @trusted @nogc
@nogc nothrow pure @trusted
in
{
assert(capacity - length >= 4);
@ -537,7 +543,7 @@ struct String
if (is(C == wchar) || is(C == dchar))
in
{
assert(capacity - length >= C.sizeof);
assert(capacity - length >= 3);
}
body
{
@ -555,7 +561,7 @@ struct String
this.length_ += 2;
return 2;
}
else if (chr < 0xd800 || chr - 0xe000 < 0x2000)
else if (chr < 0xd800 || (chr >= 0xe000 && chr <= 0xffff))
{
*dst++ = 0xe0 | (chr >> 12) & 0xff;
*dst++ = 0x80 | ((chr >> 6) & 0x3f);
@ -576,7 +582,7 @@ struct String
*
* Throws: $(D_PSYMBOL UTFException).
*/
size_t insertBack(const char chr) @trusted @nogc
size_t insertBack(const char chr) @nogc pure @trusted
{
if ((chr & 0x80) != 0)
{
@ -590,12 +596,12 @@ struct String
return 1;
}
/// Ditto.
size_t insertBack(const wchar chr) @trusted @nogc
/// ditto
size_t insertBack(const wchar chr) @nogc pure @trusted
{
reserve(length + wchar.sizeof);
reserve(length + 3);
auto ret = insertWideChar(chr);
const ret = insertWideChar(chr);
if (ret == 0)
{
throw defaultAllocator.make!UTFException("Invalid UTF-16 sequeunce");
@ -603,12 +609,19 @@ struct String
return ret;
}
/// Ditto.
size_t insertBack(const dchar chr) @trusted @nogc
// Allocates enough space for 3-byte character.
@nogc pure @safe unittest
{
String s;
s.insertBack('\u8100');
}
/// ditto
size_t insertBack(const dchar chr) @nogc pure @trusted
{
reserve(length + dchar.sizeof);
auto ret = insertWideChar(chr);
const ret = insertWideChar(chr);
if (ret > 0)
{
return ret;
@ -624,6 +637,12 @@ struct String
}
}
@nogc pure @safe unittest
{
assertThrown!UTFException(() => String(1, cast(dchar) 0xd900));
assertThrown!UTFException(() => String(1, cast(wchar) 0xd900));
}
/**
* Inserts a stringish range at the end of the string.
*
@ -638,7 +657,7 @@ struct String
size_t insertBack(R)(R str) @trusted
if (!isInfinite!R
&& isInputRange!R
&& is(Unqual!(ElementEncodingType!R) == char))
&& is(Unqual!(ElementType!R) == char))
{
size_t size;
static if (hasLength!R || isNarrowString!R)
@ -698,11 +717,11 @@ struct String
}
}
/// Ditto.
/// ditto
size_t insertBack(R)(R str) @trusted
if (!isInfinite!R
&& isInputRange!R
&& is(Unqual!(ElementEncodingType!R) == wchar))
&& is(Unqual!(ElementType!R) == wchar))
{
static if (hasLength!R || isNarrowString!R)
{
@ -739,7 +758,7 @@ struct String
}
dchar d = (range[0] - 0xd800) | ((range[1] - 0xdc00) >> 10);
range.popFront(2);
std.range.popFrontN(range, 2);
}
else
{
@ -764,11 +783,11 @@ struct String
return this.length_ - oldLength;
}
/// Ditto.
/// ditto
size_t insertBack(R)(R str) @trusted
if (!isInfinite!R
&& isInputRange!R
&& is(Unqual!(ElementEncodingType!R) == dchar))
&& is(Unqual!(ElementType!R) == dchar))
{
static if (hasLength!R || isSomeString!R)
{
@ -783,7 +802,7 @@ struct String
return insertedLength;
}
/// Ditto.
/// ditto
alias insert = insertBack;
/**
@ -796,7 +815,7 @@ struct String
* Params:
* size = Desired size in bytes.
*/
void reserve(const size_t size) nothrow @trusted @nogc
void reserve(const size_t size) @nogc nothrow pure @trusted
{
if (this.capacity_ >= size)
{
@ -808,7 +827,7 @@ struct String
}
///
@nogc @safe unittest
@nogc pure @safe unittest
{
String s;
assert(s.capacity == 0);
@ -832,7 +851,7 @@ struct String
* Params:
* size = Desired size.
*/
void shrink(const size_t size) nothrow @trusted @nogc
void shrink(const size_t size) @nogc nothrow pure @trusted
{
if (this.capacity_ <= size)
{
@ -849,7 +868,7 @@ struct String
}
///
@nogc @safe unittest
@nogc pure @safe unittest
{
auto s = String("Die Alten lasen laut.");
assert(s.capacity == 21);
@ -868,13 +887,13 @@ struct String
/**
* Returns: String capacity in bytes.
*/
@property size_t capacity() const pure nothrow @safe @nogc
@property size_t capacity() const @nogc nothrow pure @safe
{
return this.capacity_;
}
///
@safe @nogc unittest
@nogc pure @safe unittest
{
auto s = String("In allem Schreiben ist Schamlosigkeit.");
assert(s.capacity == 38);
@ -884,8 +903,8 @@ struct String
* Slicing assignment.
*
* Params:
* R = Type of the assigned slice.
* value = New value (single value, range or string).
* R = $(D_KEYWORD char).
* value = Assigned character, range or string.
* i = Slice start.
* j = Slice end.
*
@ -896,7 +915,7 @@ struct String
*/
ByCodeUnit!char opSliceAssign(R)(ByCodeUnit!R value,
const size_t i,
const size_t j) @trusted
const size_t j)
if (is(Unqual!R == char))
in
{
@ -906,15 +925,16 @@ struct String
}
body
{
copy(value, this.data[i .. j]);
return opSlice(i, j);
auto target = opSlice(i, j);
copy(value, target);
return target;
}
/// Ditto.
/// ditto
ByCodeUnit!char opSliceAssign(const char[] value,
const size_t i,
const size_t j)
pure nothrow @trusted @nogc
@nogc nothrow pure @trusted
in
{
assert(i <= j);
@ -926,11 +946,11 @@ struct String
return opSlice(i, j);
}
/// Ditto.
/// ditto
ByCodeUnit!char opSliceAssign(const char value,
const size_t i,
const size_t j)
pure nothrow @trusted @nogc
@nogc nothrow pure @trusted
in
{
assert(i <= j);
@ -952,13 +972,13 @@ struct String
*
* Returns: The array representing the string.
*/
inout(char)[] get() inout pure nothrow @trusted @nogc
inout(char)[] get() inout @nogc nothrow pure @trusted
{
return this.data[0 .. this.length_];
}
///
nothrow @safe @nogc unittest
@nogc nothrow pure @safe unittest
{
auto s = String("Char array.");
assert(s.get().length == 11);
@ -970,7 +990,7 @@ struct String
*
* Returns: Null-terminated string.
*/
const(char)* toStringz() nothrow @nogc
const(char)* toStringz() @nogc nothrow pure
{
reserve(length + 1);
this.data[length] = '\0';
@ -978,7 +998,7 @@ struct String
}
///
@nogc unittest
@nogc pure unittest
{
auto s = String("C string.");
assert(s.toStringz()[0] == 'C');
@ -988,7 +1008,7 @@ struct String
/**
* Returns: The number of code units that are required to encode the string.
*/
@property size_t length() const pure nothrow @safe @nogc
@property size_t length() const @nogc nothrow pure @safe
{
return this.length_;
}
@ -997,7 +1017,7 @@ struct String
alias opDollar = length;
///
@safe @nogc unittest
@nogc pure @safe unittest
{
auto s = String("Piscis primuin a capite foetat.");
assert(s.length == 31);
@ -1012,7 +1032,7 @@ struct String
*
* Precondition: $(D_INLINECODE length > pos).
*/
ref inout(char) opIndex(const size_t pos) inout pure nothrow @trusted @nogc
ref inout(char) opIndex(const size_t pos) inout @nogc nothrow pure @trusted
in
{
assert(length > pos);
@ -1023,7 +1043,7 @@ struct String
}
///
@safe @nogc unittest
@nogc pure @safe unittest
{
auto s = String("Alea iacta est.");
assert(s[0] == 'A');
@ -1034,19 +1054,19 @@ struct String
* Returns: Random access range that iterates over the string by bytes, in
* forward order.
*/
ByCodeUnit!char opIndex() pure nothrow @trusted @nogc
ByCodeUnit!char opIndex() @nogc nothrow pure @trusted
{
return typeof(return)(this, this.data, this.data + length);
}
/// Ditto.
/// ditto
ByCodeUnit!(const char) opIndex() const pure nothrow @trusted @nogc
{
return typeof(return)(this, this.data, this.data + length);
}
///
@safe @nogc unittest
@nogc pure @safe unittest
{
auto s = String("Plutarchus");
auto r = s[];
@ -1064,30 +1084,41 @@ struct String
assert(r.length == 8);
}
///
@nogc pure @safe unittest
{
auto s = const String("Was ich vermag, soll gern geschehen. Goethe");
auto r1 = s[];
assert(r1.front == 'W');
auto r2 = r1[];
r1.popFront();
assert(r1.front == 'a');
assert(r2.front == 'W');
}
/**
* Returns: Forward range that iterates over the string by code points.
*/
ByCodePoint!char byCodePoint() pure nothrow @trusted @nogc
ByCodePoint!char byCodePoint() @nogc nothrow pure @trusted
{
return typeof(return)(this, this.data, this.data + length);
}
/// Ditto.
ByCodePoint!(const char) byCodePoint() const pure nothrow @trusted @nogc
/// ditto
ByCodePoint!(const char) byCodePoint() const @nogc nothrow pure @trusted
{
return typeof(return)(this, this.data, this.data + length);
}
///
@safe @nogc unittest
@nogc pure @safe unittest
{
auto s = String("Высоцкий");
auto s = String("Мне есть, что спеть, представ перед Всевышним.");
auto cp = s.byCodePoint();
assert(cp.front == 'В');
assert(cp.front == 'М');
cp.popFront();
assert(cp.front == 'ы');
cp.popFront();
assert(cp.front == 'с');
assert(cp.front == 'н');
s = String("€");
cp = s.byCodePoint();
@ -1100,16 +1131,37 @@ struct String
assert(s.length == 4);
}
///
@nogc pure @safe unittest
{
auto s = const String("Высоцкий");
auto cp1 = s.byCodePoint();
assert(cp1.front == 'В');
auto cp2 = cp1[];
cp1.popFront();
assert(cp1.front == 'ы');
assert(cp2.front == 'В');
cp2 = cp1.save();
cp1.popFront();
assert(cp1.front == 'с');
assert(cp2.front == 'ы');
}
/**
* Returns: $(D_KEYWORD true) if the string is empty.
* Returns whether the string is empty.
*
* Returns: $(D_KEYWORD true) if the string is empty, $(D_KEYWORD false)
* otherwise.
*/
@property bool empty() const pure nothrow @safe @nogc
@property bool empty() const @nogc nothrow pure @safe
{
return length == 0;
}
///
@safe @nogc unittest
@nogc pure @safe unittest
{
String s;
assert(s.empty);
@ -1129,7 +1181,7 @@ struct String
* Precondition: $(D_INLINECODE i <= j && j <= length).
*/
ByCodeUnit!char opSlice(const size_t i, const size_t j)
pure nothrow @trusted @nogc
@nogc nothrow pure @trusted
in
{
assert(i <= j);
@ -1140,9 +1192,9 @@ struct String
return typeof(return)(this, this.data + i, this.data + j);
}
/// Ditto.
/// ditto
ByCodeUnit!(const char) opSlice(const size_t i, const size_t j)
const pure nothrow @trusted @nogc
const @nogc nothrow pure @trusted
in
{
assert(i <= j);
@ -1154,7 +1206,7 @@ struct String
}
///
@safe @nogc unittest
@nogc pure @safe unittest
{
auto s = String("Vladimir Soloviev");
auto r = s[9 .. $];
@ -1207,7 +1259,7 @@ struct String
return this;
}
/// Ditto.
/// ditto
ref String opAssign(S)(ref S that) @trusted
if (is(Unqual!S == String))
{
@ -1218,7 +1270,7 @@ struct String
}
///
@safe @nogc unittest
@nogc pure @safe unittest
{
auto s = String("Черная, потом пропахшая выть!");
s = String("Как мне тебя не ласкать, не любить?");
@ -1235,10 +1287,10 @@ struct String
*
* Throws: $(D_PSYMBOL UTFException).
*/
ref String opAssign(S)(S that) nothrow
ref String opAssign(S)(S that)
if (!isInfinite!S
&& isInputRange!S
&& isSomeChar!(ElementEncodingType!S))
&& isSomeChar!(ElementType!S))
{
this.length_ = 0;
insertBack(that);
@ -1246,7 +1298,7 @@ struct String
}
///
@safe @nogc unittest
@nogc pure @safe unittest
{
auto s = String("Оловом светится лужная голь...");
s = "Грустная песня, ты - русская боль.";
@ -1268,7 +1320,7 @@ struct String
return cmp(this.data[0 .. length], that.data[0 .. that.length]);
}
/// Ditto.
/// ditto
int opCmp(S)(ByCodeUnit!S that) const @trusted
if (is(Unqual!S == char))
{
@ -1276,7 +1328,7 @@ struct String
that.begin[0 .. that.end - that.begin]);
}
/// Ditto.
/// ditto
int opCmp(S)(ByCodePoint!S that) const @trusted
if (is(Unqual!S == char))
{
@ -1284,14 +1336,14 @@ struct String
that.begin[0 .. that.end - that.begin]);
}
/// Ditto.
/// ditto
int opCmp()(const char[] that) const @trusted
{
return cmp(this.data[0 .. length], that);
}
///
@safe @nogc unittest
@nogc pure @safe unittest
{
assert(String("Голубая кофта.") < String("Синие глаза."));
assert(String("Никакой я правды") < String("милой не сказал")[]);
@ -1329,7 +1381,7 @@ struct String
that.begin[0 .. that.end - that.begin]);
}
/// Ditto.
/// ditto
bool opEquals(S)(ByCodePoint!S that) const @trusted
if (is(Unqual!S == char))
{
@ -1337,14 +1389,14 @@ struct String
that.begin[0 .. that.end - that.begin]);
}
/// Ditto.
/// ditto
bool opEquals()(const char[] that) const @trusted
{
return equal(this.data[0 .. length], that);
}
///
@safe @nogc unittest
@nogc pure @safe unittest
{
assert(String("Милая спросила:") != String("Крутит ли метель?"));
assert(String("Затопить бы печку,") != String("постелить постель.")[]);
@ -1371,13 +1423,13 @@ struct String
* Precondition: $(D_INLINECODE length > pos).
*/
ref char opIndexAssign(const char value, const size_t pos)
pure nothrow @safe @nogc
@nogc nothrow pure @safe
{
return opIndex(pos) = value;
}
///
@safe @nogc unittest
@nogc pure @safe unittest
{
auto s = String("alea iacta est.");
@ -1386,13 +1438,13 @@ struct String
}
/**
* Assigns a range or a string.
* Slicing assignment.
*
* Params:
* R = Value type.
* value = Value.
* R = $(D_KEYWORD char).
* value = Assigned character, range or string.
*
* Returns: Assigned value.
* Returns: Range over the string.
*
* Precondition: $(D_INLINECODE length == value.length).
*/
@ -1402,18 +1454,40 @@ struct String
return opSliceAssign(value, 0, length);
}
/// Ditto.
ByCodeUnit!char opIndexAssign(const char value) pure nothrow @safe @nogc
@nogc pure @safe unittest
{
auto s1 = String("Buttercup");
auto s2 = String("Cap");
s2[] = s1[6 .. $];
assert(s2 == "cup");
}
/// ditto
ByCodeUnit!char opIndexAssign(const char value) @nogc nothrow pure @safe
{
return opSliceAssign(value, 0, length);
}
/// Ditto.
ByCodeUnit!char opIndexAssign(const char[] value) pure nothrow @safe @nogc
@nogc pure @safe unittest
{
auto s1 = String("Wow");
s1[] = 'a';
assert(s1 == "aaa");
}
/// ditto
ByCodeUnit!char opIndexAssign(const char[] value) @nogc nothrow pure @safe
{
return opSliceAssign(value, 0, length);
}
@nogc pure @safe unittest
{
auto s1 = String("ö");
s1[] = "oe";
assert(s1 == "oe");
}
/**
* Remove all characters beloning to $(D_PARAM r).
*
@ -1443,7 +1517,7 @@ struct String
}
///
@nogc @safe unittest
@nogc pure @safe unittest
{
auto s = String("Из пословицы слова не выкинешь.");
@ -1452,7 +1526,7 @@ struct String
assert(s.length == 38);
auto byCodePoint = s.byCodePoint();
byCodePoint.popFrontN(8);
std.range.popFrontN(byCodePoint, 8);
assert(s.remove(byCodePoint).count == 0);
assert(s == "Из слова");
@ -1479,7 +1553,7 @@ struct String
size_t insertAfter(T, R)(R r, T el) @trusted
if ((isSomeChar!T || (!isInfinite!T
&& isInputRange!T
&& isSomeChar!(ElementEncodingType!T)))
&& isSomeChar!(ElementType!T)))
&& (is(R == ByCodeUnit!char) || is(R == ByCodePoint!char)))
in
{
@ -1497,7 +1571,7 @@ struct String
}
///
@safe @nogc unittest
@nogc pure @safe unittest
{
auto s = String("Казнить нельзя помиловать.");
s.insertAfter(s[0 .. 27], ",");
@ -1512,7 +1586,7 @@ struct String
size_t insertBefore(T, R)(R r, T el) @trusted
if ((isSomeChar!T || (!isInfinite!T
&& isInputRange!T
&& isSomeChar!(ElementEncodingType!T)))
&& isSomeChar!(ElementType!T)))
&& (is(R == ByCodeUnit!char) || is(R == ByCodePoint!char)))
in
{
@ -1526,7 +1600,7 @@ struct String
}
///
@safe @nogc unittest
@nogc pure @safe unittest
{
auto s = String("Казнить нельзя помиловать.");
s.insertBefore(s[27 .. $], ",");
@ -1539,3 +1613,67 @@ struct String
mixin DefaultAllocator;
}
// Postblit works.
@nogc pure @safe unittest
{
void internFunc(String arg)
{
}
void middleFunc(S...)(S args)
{
foreach (arg; args)
{
internFunc(arg);
}
}
void topFunc(String args)
{
middleFunc(args);
}
topFunc(String("asdf"));
}
// Const range produces mutable ranges.
@nogc pure @safe unittest
{
auto s = const String("И снизу лед, и сверху - маюсь между.");
{
const constRange = s[];
auto fromConstRange = constRange[];
fromConstRange.popFront();
assert(fromConstRange.front == s[1]);
fromConstRange = constRange[0 .. $];
fromConstRange.popFront();
assert(fromConstRange.front == s[1]);
assert(constRange.get() is s.get());
}
{
const constRange = s.byCodePoint();
auto fromConstRange = constRange[];
fromConstRange.popFront();
assert(fromConstRange.front == ' ');
}
}
// Can pop multibyte characters.
@nogc pure @safe unittest
{
auto s = String("\U00024B62\U00002260");
auto range = s.byCodePoint();
range.popFront();
assert(!range.empty);
range.popFront();
assert(range.empty);
range = s.byCodePoint();
range.popFront();
s[$ - 3] = 0xf0;
assertThrown!UTFException(&(range.popFront));
}

709
source/tanya/conv.d Normal file
View File

@ -0,0 +1,709 @@
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
/**
* This module provides functions for converting between different types.
*
* Copyright: Eugene Wissner 2017.
* 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/conv.d,
* tanya/conv.d)
*/
module tanya.conv;
import tanya.container.string;
import tanya.format;
import tanya.memory;
import tanya.memory.op;
import tanya.meta.trait;
import tanya.meta.transform;
version (unittest)
{
import tanya.test.assertion;
}
/**
* Constructs a new object of type $(D_PARAM T) in $(D_PARAM memory) with the
* given arguments.
*
* If $(D_PARAM T) is a $(D_KEYWORD class), emplace returns a class reference
* of type $(D_PARAM T), otherwise a pointer to the constructed object is
* returned.
*
* If $(D_PARAM T) is a nested class inside another class, $(D_PARAM outer)
* should be an instance of the outer class.
*
* $(D_PARAM args) are arguments for the constructor of $(D_PARAM T). If
* $(D_PARAM T) isn't an aggregate type and doesn't have a constructor,
* $(D_PARAM memory) can be initialized to `args[0]` if `Args.length == 1`,
* `Args[0]` should be implicitly convertible to $(D_PARAM T) then.
*
* Params:
* T = Constructed type.
* U = Type of the outer class if $(D_PARAM T) is a nested class.
* Args = Types of the constructor arguments if $(D_PARAM T) has a constructor
* or the type of the initial value.
* outer = Outer class instance if $(D_PARAM T) is a nested class.
* args = Constructor arguments if $(D_PARAM T) has a constructor or the
* initial value.
*
* Returns: New instance of type $(D_PARAM T) constructed in $(D_PARAM memory).
*
* Precondition: `memory.length == stateSize!T`.
* Postcondition: $(D_PARAM memory) and the result point to the same memory.
*/
T emplace(T, U, Args...)(void[] memory, U outer, auto ref Args args)
if (!isAbstractClass!T && isInnerClass!T && is(typeof(T.outer) == U))
in
{
assert(memory.length >= stateSize!T);
}
out (result)
{
assert(memory.ptr is (() @trusted => cast(void*) result)());
}
body
{
copy(typeid(T).initializer, memory);
auto result = (() @trusted => cast(T) memory.ptr)();
result.outer = outer;
static if (is(typeof(result.__ctor(args))))
{
result.__ctor(args);
}
return result;
}
/// ditto
T emplace(T, Args...)(void[] memory, auto ref Args args)
if (is(T == class) && !isAbstractClass!T && !isInnerClass!T)
in
{
assert(memory.length == stateSize!T);
}
out (result)
{
assert(memory.ptr is (() @trusted => cast(void*) result)());
}body
{
copy(typeid(T).initializer, memory);
auto result = (() @trusted => cast(T) memory.ptr)();
static if (is(typeof(result.__ctor(args))))
{
result.__ctor(args);
}
return result;
}
///
@nogc nothrow pure @safe unittest
{
import tanya.memory : stateSize;
class C
{
int i = 5;
class Inner
{
int i;
this(int param) pure nothrow @safe @nogc
{
this.i = param;
}
}
}
ubyte[stateSize!C] memory1;
ubyte[stateSize!(C.Inner)] memory2;
auto c = emplace!C(memory1);
assert(c.i == 5);
auto inner = emplace!(C.Inner)(memory2, c, 8);
assert(c.i == 5);
assert(inner.i == 8);
assert(inner.outer is c);
}
/// ditto
T* emplace(T, Args...)(void[] memory, auto ref Args args)
if (!isAggregateType!T && (Args.length <= 1))
in
{
assert(memory.length >= T.sizeof);
}
out (result)
{
assert(memory.ptr is result);
}
body
{
auto result = (() @trusted => cast(T*) memory.ptr)();
static if (Args.length == 1)
{
*result = T(args[0]);
}
else
{
*result = T.init;
}
return result;
}
/// ditto
T* emplace(T, Args...)(void[] memory, auto ref Args args)
if (!isPolymorphicType!T && isAggregateType!T)
in
{
assert(memory.length >= T.sizeof);
}
out (result)
{
assert(memory.ptr is result);
}
body
{
auto result = (() @trusted => cast(T*) memory.ptr)();
static if (!hasElaborateAssign!T && isAssignable!T)
{
*result = T.init;
}
else
{
static const T init = T.init;
copy((cast(void*) &init)[0 .. T.sizeof], memory);
}
static if (Args.length == 0)
{
static assert(is(typeof({ static T t; })),
"Default constructor is disabled");
}
else static if (is(typeof(T(args))))
{
*result = T(args);
}
else static if (is(typeof(result.__ctor(args))))
{
result.__ctor(args);
}
else
{
static assert(false,
"Unable to construct value with the given arguments");
}
return result;
}
///
@nogc nothrow pure @safe unittest
{
ubyte[4] memory;
auto i = emplace!int(memory);
static assert(is(typeof(i) == int*));
assert(*i == 0);
i = emplace!int(memory, 5);
assert(*i == 5);
static struct S
{
int i;
@disable this();
@disable this(this);
this(int i) @nogc nothrow pure @safe
{
this.i = i;
}
}
auto s = emplace!S(memory, 8);
static assert(is(typeof(s) == S*));
assert(s.i == 8);
}
// Handles "Cannot access frame pointer" error.
@nogc nothrow pure @safe unittest
{
struct F
{
~this() @nogc nothrow pure @safe
{
}
}
static assert(is(typeof(emplace!F((void[]).init))));
}
/**
* Thrown if a type conversion fails.
*/
final class ConvException : 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 @safe pure nothrow
{
super(msg, file, line, next);
}
}
/**
* 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
* $(D_PARAM To), just returns $(D_PARAM from).
*
* Params:
* To = Target type.
*
* Returns: $(D_PARAM from).
*/
template to(To)
{
/**
* Params:
* From = Source type.
* from = Source value.
*/
ref To to(From)(ref From from)
if (is(To == From))
{
return from;
}
/// ditto
To to(From)(From from)
if (is(Unqual!To == Unqual!From) || (isNumeric!From && isFloatingPoint!To))
{
return from;
}
}
///
@nogc nothrow pure @safe unittest
{
auto val = 5.to!int();
assert(val == 5);
static assert(is(typeof(val) == int));
}
@nogc nothrow pure @safe unittest
{
int val = 5;
assert(val.to!int() == 5);
}
/**
* Performs checked conversion from an integral type $(D_PARAM From) to an
* integral type $(D_PARAM To).
*
* Params:
* From = Source type.
* To = Target type.
* from = Source value.
*
* Returns: $(D_PARAM from) converted to $(D_PARAM To).
*
* Throws: $(D_PSYMBOL ConvException) if $(D_PARAM from) is too small or too
* large to be represented by $(D_PARAM To).
*/
To to(To, From)(From from)
if (isIntegral!From
&& isIntegral!To
&& !is(Unqual!To == Unqual!From)
&& !is(To == enum))
{
static if ((isUnsigned!From && isSigned!To && From.sizeof == To.sizeof)
|| From.sizeof > To.sizeof)
{
if (from > To.max)
{
throw make!ConvException(defaultAllocator,
"Positive integer overflow");
}
}
static if (isSigned!From)
{
static if (isUnsigned!To)
{
if (from < 0)
{
throw make!ConvException(defaultAllocator,
"Negative integer overflow");
}
}
else static if (From.sizeof > To.sizeof)
{
if (from < To.min)
{
throw make!ConvException(defaultAllocator,
"Negative integer overflow");
}
}
}
static if (From.sizeof <= To.sizeof)
{
return from;
}
else static if (isSigned!To)
{
return cast(To) from;
}
else
{
return from & To.max;
}
}
@nogc nothrow pure @safe unittest
{
// ubyte -> ushort
assert((cast(ubyte) 0).to!ushort == 0);
assert((cast(ubyte) 1).to!ushort == 1);
assert((cast(ubyte) (ubyte.max - 1)).to!ushort == ubyte.max - 1);
assert((cast(ubyte) ubyte.max).to!ushort == ubyte.max);
// ubyte -> short
assert((cast(ubyte) 0).to!short == 0);
assert((cast(ubyte) 1).to!short == 1);
assert((cast(ubyte) (ubyte.max - 1)).to!short == ubyte.max - 1);
assert((cast(ubyte) ubyte.max).to!short == ubyte.max);
}
@nogc pure @safe unittest
{
// ubyte <- ushort
assert((cast(ushort) 0).to!ubyte == 0);
assert((cast(ushort) 1).to!ubyte == 1);
assert((cast(ushort) (ubyte.max - 1)).to!ubyte == ubyte.max - 1);
assert((cast(ushort) ubyte.max).to!ubyte == ubyte.max);
// ubyte <- short
assert((cast(short) 0).to!ubyte == 0);
assert((cast(short) 1).to!ubyte == 1);
assert((cast(short) (ubyte.max - 1)).to!ubyte == ubyte.max - 1);
assert((cast(short) ubyte.max).to!ubyte == ubyte.max);
// short <-> int
assert(short.min.to!int == short.min);
assert((short.min + 1).to!int == short.min + 1);
assert((cast(short) -1).to!int == -1);
assert((cast(short) 0).to!int == 0);
assert((cast(short) 1).to!int == 1);
assert((short.max - 1).to!int == short.max - 1);
assert(short.max.to!int == short.max);
assert((cast(int) short.min).to!short == short.min);
assert((cast(int) short.min + 1).to!short == short.min + 1);
assert((cast(int) -1).to!short == -1);
assert((cast(int) 0).to!short == 0);
assert((cast(int) 1).to!short == 1);
assert((cast(int) short.max - 1).to!short == short.max - 1);
assert((cast(int) short.max).to!short == short.max);
// uint <-> int
assert((cast(uint) 0).to!int == 0);
assert((cast(uint) 1).to!int == 1);
assert((cast(uint) (int.max - 1)).to!int == int.max - 1);
assert((cast(uint) int.max).to!int == int.max);
assert((cast(int) 0).to!uint == 0);
assert((cast(int) 1).to!uint == 1);
assert((cast(int) (int.max - 1)).to!uint == int.max - 1);
assert((cast(int) int.max).to!uint == int.max);
}
@nogc pure @safe unittest
{
assertThrown!ConvException(&to!(short, int), int.min);
assertThrown!ConvException(&to!(short, int), int.max);
assertThrown!ConvException(&to!(ushort, uint), uint.max);
assertThrown!ConvException(&to!(uint, int), -1);
}
@nogc nothrow pure @safe unittest
{
enum Test : int
{
one,
two,
}
assert(Test.one.to!int == 0);
assert(Test.two.to!int == 1);
}
/**
* Converts a floating point number to an integral type.
*
* Params:
* From = Source type.
* To = Target type.
* from = Source value.
*
* Returns: Truncated $(D_PARAM from) (everything after the decimal point is
* dropped).
*
* Throws: $(D_PSYMBOL ConvException) if
* $(D_INLINECODE from < To.min || from > To.max).
*/
To to(To, From)(From from)
if (isFloatingPoint!From
&& isIntegral!To
&& !is(Unqual!To == Unqual!From)
&& !is(To == enum))
{
if (from > To.max)
{
throw make!ConvException(defaultAllocator,
"Positive number overflow");
}
else if (from < To.min)
{
throw make!ConvException(defaultAllocator,
"Negative number overflow");
}
return cast(To) from;
}
///
@nogc pure @safe unittest
{
assert(1.5.to!int == 1);
assert(2147483646.5.to!int == 2147483646);
assert((-2147483647.5).to!int == -2147483647);
assert(2147483646.5.to!uint == 2147483646);
}
@nogc pure @safe unittest
{
assertThrown!ConvException(&to!(int, double), 2147483647.5);
assertThrown!ConvException(&to!(int, double), -2147483648.5);
assertThrown!ConvException(&to!(uint, double), -21474.5);
}
/**
* Performs checked conversion from an integral type $(D_PARAM From) to an
* $(D_KEYWORD enum).
*
* Params:
* From = Source type.
* To = Target type.
* from = Source value.
*
* Returns: $(D_KEYWORD enum) value.
*
* Throws: $(D_PSYMBOL ConvException) if $(D_PARAM from) is not a member of
* $(D_PSYMBOL To).
*/
To to(To, From)(From from)
if (isIntegral!From && is(To == enum))
{
foreach (m; EnumMembers!To)
{
if (from == m)
{
return m;
}
}
throw make!ConvException(defaultAllocator,
"Value not found in enum '" ~ To.stringof ~ "'");
}
///
@nogc pure @safe unittest
{
enum Test : int
{
one,
two,
}
static assert(is(typeof(1.to!Test) == Test));
assert(0.to!Test == Test.one);
assert(1.to!Test == Test.two);
}
@nogc pure @safe unittest
{
enum Test : uint
{
one,
two,
}
assertThrown!ConvException(&to!(Test, int), 5);
}
/**
* Converts $(D_PARAM from) to a boolean.
*
* If $(D_PARAM From) is a numeric type, then `1` becomes $(D_KEYWORD true),
* `0` $(D_KEYWORD false). Otherwise $(D_PSYMBOL ConvException) is thrown.
*
* If $(D_PARAM To) is a string (built-in string or $(D_PSYMBOL String)),
* then `"true"` or `"false"` are converted to the appropriate boolean value.
* Otherwise $(D_PSYMBOL ConvException) is thrown.
*
* Params:
* From = Source type.
* To = Target type.
* from = Source value.
*
* Returns: $(D_KEYWORD from) converted to a boolean.
*
* Throws: $(D_PSYMBOL ConvException) if $(D_PARAM from) isn't convertible.
*/
To to(To, From)(From from)
if (isNumeric!From && is(Unqual!To == bool) && !is(Unqual!To == Unqual!From))
{
if (from == 0)
{
return false;
}
else if (from < 0)
{
throw make!ConvException(defaultAllocator,
"Negative number overflow");
}
else if (from <= 1)
{
return true;
}
throw make!ConvException(defaultAllocator,
"Positive number overflow");
}
///
@nogc pure @safe unittest
{
assert(!0.0.to!bool);
assert(0.2.to!bool);
assert(0.5.to!bool);
assert(1.0.to!bool);
assert(!0.to!bool);
assert(1.to!bool);
}
@nogc pure @safe unittest
{
assertThrown!ConvException(&to!(bool, int), -1);
assertThrown!ConvException(&to!(bool, int), 2);
}
/// ditto
To to(To, From)(auto ref const From from)
if ((is(From == String) || isSomeString!From) && is(Unqual!To == bool))
{
if (from == "true")
{
return true;
}
else if (from == "false")
{
return false;
}
throw make!ConvException(defaultAllocator,
"String doesn't contain a boolean value");
}
///
@nogc pure @safe unittest
{
assert("true".to!bool);
assert(!"false".to!bool);
assert(String("true").to!bool);
assert(!String("false").to!bool);
}
@nogc pure @safe unittest
{
assertThrown!ConvException(() => "1".to!bool);
}
/**
* Converts a boolean to $(D_PARAM To).
*
* If $(D_PARAM To) is a numeric type, then $(D_KEYWORD true) becomes `1`,
* $(D_KEYWORD false) `0`.
*
* If $(D_PARAM To) is a $(D_PSYMBOL String), then `"true"` or `"false"`
* is returned.
*
* Params:
* From = Source type.
* To = Target type.
* from = Source value.
*
* Returns: $(D_PARAM from) converted to $(D_PARAM To).
*/
To to(To, From)(From from)
if (is(Unqual!From == bool) && isNumeric!To && !is(Unqual!To == Unqual!From))
{
return from;
}
///
@nogc nothrow pure @safe unittest
{
assert(true.to!float == 1.0);
assert(true.to!double == 1.0);
assert(true.to!ubyte == 1);
assert(true.to!byte == 1);
assert(true.to!ushort == 1);
assert(true.to!short == 1);
assert(true.to!uint == 1);
assert(true.to!int == 1);
assert(false.to!float == 0);
assert(false.to!double == 0);
assert(false.to!ubyte == 0);
assert(false.to!byte == 0);
assert(false.to!ushort == 0);
assert(false.to!short == 0);
assert(false.to!uint == 0);
assert(false.to!int == 0);
}
/**
* Converts $(D_PARAM From) to a $(D_PSYMBOL String).
*
* Params:
* From = Source type.
* To = Target type.
* from = Source value.
*
* Returns: $(D_PARAM from) converted to $(D_PSYMBOL String).
*/
To to(To, From)(auto ref From from)
if (is(Unqual!To == String))
{
return format!"{}"(from);
}
///
@nogc nothrow pure @safe unittest
{
assert(true.to!String == "true");
assert(false.to!String == "false");
}
@nogc nothrow pure @safe unittest
{
static assert(is(typeof((const String("true")).to!bool)));
static assert(is(typeof(false.to!(const String) == "false")));
}

501
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@ -0,0 +1,501 @@
/* 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 operating on ASCII characters.
*
* ASCII is $(B A)merican $(B S)tandard $(B C)ode for $(B I)nformation
* $(B I)nterchange.
*
* Copyright: Eugene Wissner 2017.
* License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
* Mozilla Public License, v. 2.0).
* Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
* Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/encoding/ascii.d,
* tanya/encoding/ascii.d)
*/
module tanya.encoding.ascii;
import tanya.meta.trait;
const string fullHexDigits = "0123456789ABCDEFabcdef"; /// 0..9A..Fa..f.
const string hexDigits = "0123456789ABCDEF"; /// 0..9A..F.
const string lowerHexDigits = "0123456789abcdef"; /// 0..9a..f.
const string digits = "0123456789"; /// 0..9.
const string octalDigits = "01234567"; /// 0..7.
/// A..Za..z.
const string letters = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz";
const string uppercase = "ABCDEFGHIJKLMNOPQRSTUVWXYZ"; /// A..Z.
const string lowercase = "abcdefghijklmnopqrstuvwxyz"; /// a..z.
/**
* Whitespace, Horizontal Tab (HT), Line Feed (LF), Carriage Return (CR),
* Vertical Tab (VT) or Form Feed (FF).
*/
const string whitespace = "\t\n\v\f\r ";
/// Letter case specifier.
enum LetterCase : bool
{
upper, /// Uppercase.
lower, /// Lowercase.
}
/**
* Checks for an uppecase alphabetic character.
*
* Params:
* C = Some character type.
* c = Some character.
*
* Returns: $(D_KEYWORD true) if $(D_PARAM c) is an uppercase alphabetic
* character, $(D_KEYWORD false) otherwise.
*/
bool isUpper(C)(C c)
if (isSomeChar!C)
{
return (c >= 'A') && (c <= 'Z');
}
///
pure nothrow @safe @nogc unittest
{
assert(isUpper('A'));
assert(isUpper('Z'));
assert(isUpper('L'));
assert(!isUpper('a'));
assert(!isUpper('!'));
}
/**
* Checks for a lowercase alphabetic character.
*
* Params:
* C = Some character type.
* c = Some character.
*
* Returns: $(D_KEYWORD true) if $(D_PARAM c) is a lowercase alphabetic
* character, $(D_KEYWORD false) otherwise.
*/
bool isLower(C)(C c)
if (isSomeChar!C)
{
return (c >= 'a') && (c <= 'z');
}
///
pure nothrow @safe @nogc unittest
{
assert(isLower('a'));
assert(isLower('z'));
assert(isLower('l'));
assert(!isLower('A'));
assert(!isLower('!'));
}
/**
* Checks for an alphabetic character (upper- or lowercase).
*
* Params:
* C = Some character type.
* c = Some character.
*
* Returns: $(D_KEYWORD true) if $(D_PARAM c) is an alphabetic character,
* $(D_KEYWORD false) otherwise.
*/
bool isAlpha(C)(C c)
if (isSomeChar!C)
{
return isUpper(c) || isLower(c);
}
///
pure nothrow @safe @nogc unittest
{
assert(isAlpha('A'));
assert(isAlpha('Z'));
assert(isAlpha('L'));
assert(isAlpha('a'));
assert(isAlpha('z'));
assert(isAlpha('l'));
assert(!isAlpha('!'));
}
/**
* Checks for a digit.
*
* Params:
* C = Some character type.
* c = Some character.
*
* Returns: $(D_KEYWORD true) if $(D_PARAM c) is a digit,
* $(D_KEYWORD false) otherwise.
*/
bool isDigit(C)(C c)
if (isSomeChar!C)
{
return (c >= '0') && (c <= '9');
}
///
pure nothrow @safe @nogc unittest
{
assert(isDigit('0'));
assert(isDigit('1'));
assert(isDigit('2'));
assert(isDigit('3'));
assert(isDigit('4'));
assert(isDigit('5'));
assert(isDigit('6'));
assert(isDigit('7'));
assert(isDigit('8'));
assert(isDigit('9'));
assert(!isDigit('a'));
assert(!isDigit('!'));
}
/**
* Checks for an alphabetic character (upper- or lowercase) or a digit.
*
* Params:
* C = Some character type.
* c = Some character.
*
* Returns: $(D_KEYWORD true) if $(D_PARAM c) is an alphabetic character or a
* digit, $(D_KEYWORD false) otherwise.
*/
bool isAlphaNum(C)(C c)
if (isSomeChar!C)
{
return isAlpha(c) || isDigit(c);
}
///
pure nothrow @safe @nogc unittest
{
assert(isAlphaNum('0'));
assert(isAlphaNum('1'));
assert(isAlphaNum('9'));
assert(isAlphaNum('A'));
assert(isAlphaNum('Z'));
assert(isAlphaNum('L'));
assert(isAlphaNum('a'));
assert(isAlphaNum('z'));
assert(isAlphaNum('l'));
assert(!isAlphaNum('!'));
}
/**
* Checks for a 7-bit ASCII character.
*
* Params:
* C = Some character type.
* c = Some character.
*
* Returns: $(D_KEYWORD true) if $(D_PARAM c) is an ASCII character,
* $(D_KEYWORD false) otherwise.
*/
bool isASCII(C)(C c)
if (isSomeChar!C)
{
return c < 128;
}
///
pure nothrow @safe @nogc unittest
{
assert(isASCII('0'));
assert(isASCII('L'));
assert(isASCII('l'));
assert(isASCII('!'));
assert(!isASCII('©'));
assert(!isASCII('§'));
assert(!isASCII(char.init)); // 0xFF
assert(!isASCII(wchar.init)); // 0xFFFF
assert(!isASCII(dchar.init)); // 0xFFFF
}
/**
* Checks for a control character.
*
* Control characters are non-printable characters. Their ASCII codes are those
* between 0x00 (NUL) and 0x1f (US), and 0x7f (DEL).
*
* Params:
* C = Some character type.
* c = Some character.
*
* Returns: $(D_KEYWORD true) if $(D_PARAM c) is a control character,
* $(D_KEYWORD false) otherwise.
*
* See_Also: $(D_PSYMBOL isPrintable), $(D_PSYMBOL isGraphical).
*/
bool isControl(C)(C c)
if (isSomeChar!C)
{
return (c <= 0x1f) || (c == 0x7f);
}
///
pure nothrow @safe @nogc unittest
{
assert(isControl('\t'));
assert(isControl('\0'));
assert(isControl('\u007f'));
assert(!isControl(' '));
assert(!isControl('a'));
assert(!isControl(char.init)); // 0xFF
assert(!isControl(wchar.init)); // 0xFFFF
}
/**
* Checks for a whitespace character.
*
* Whitespace characters are:
*
* $(UL
* $(LI Whitespace)
* $(LI Horizontal Tab (HT))
* $(LI Line Feed (LF))
* $(LI Carriage Return (CR))
* $(LI Vertical Tab (VT))
* $(LI Form Feed (FF))
* )
*
* Params:
* C = Some character type.
* c = Some character.
*
* Returns: $(D_KEYWORD true) if $(D_PARAM c) is a whitespace character,
* $(D_KEYWORD false) otherwise.
*
* See_Also: $(D_PSYMBOL whitespace).
*/
bool isWhite(C)(C c)
if (isSomeChar!C)
{
return ((c >= 0x09) && (c <= 0x0d)) || (c == 0x20);
}
///
pure nothrow @safe @nogc unittest
{
assert(isWhite('\t'));
assert(isWhite('\n'));
assert(isWhite('\v'));
assert(isWhite('\f'));
assert(isWhite('\r'));
assert(isWhite(' '));
}
/**
* Checks for a graphical character.
*
* Graphical characters are printable characters but whitespace characters.
*
* Params:
* C = Some character type.
* c = Some character.
*
* Returns: $(D_KEYWORD true) if $(D_PARAM c) is a control character,
* $(D_KEYWORD false) otherwise.
*
* See_Also: $(D_PSYMBOL isControl), $(D_PSYMBOL isWhite).
*/
bool isGraphical(C)(C c)
if (isSomeChar!C)
{
return (c > 0x20) && (c < 0x7f);
}
///
pure nothrow @safe @nogc unittest
{
assert(isGraphical('a'));
assert(isGraphical('0'));
assert(!isGraphical('\u007f'));
assert(!isGraphical('§'));
assert(!isGraphical('\n'));
assert(!isGraphical(' '));
}
/**
* Checks for a printable character.
*
* This is the opposite of a control character.
*
* Params:
* C = Some character type.
* c = Some character.
*
* Returns: $(D_KEYWORD true) if $(D_PARAM c) is a control character,
* $(D_KEYWORD false) otherwise.
*
* See_Also: $(D_PSYMBOL isControl).
*/
bool isPrintable(C)(C c)
if (isSomeChar!C)
{
return (c >= 0x20) && (c < 0x7f);
}
///
pure nothrow @safe @nogc unittest
{
assert(isPrintable('a'));
assert(isPrintable('0'));
assert(!isPrintable('\u007f'));
assert(!isPrintable('§'));
assert(!isPrintable('\n'));
assert(isPrintable(' '));
}
/**
* Checks for a hexadecimal digit.
*
* Params:
* C = Some character type.
* c = Some character.
*
* Returns: $(D_KEYWORD true) if $(D_PARAM c) is a hexadecimal digit,
* $(D_KEYWORD false) otherwise.
*/
bool isHexDigit(C)(C c)
if (isSomeChar!C)
{
return ((c >= '0') && (c <= '9'))
|| ((c >= 'a') && (c <= 'f'))
|| ((c >= 'A') && (c <= 'F'));
}
///
pure nothrow @safe @nogc unittest
{
assert(isHexDigit('0'));
assert(isHexDigit('1'));
assert(isHexDigit('8'));
assert(isHexDigit('9'));
assert(isHexDigit('A'));
assert(isHexDigit('F'));
assert(!isHexDigit('G'));
assert(isHexDigit('a'));
assert(isHexDigit('f'));
assert(!isHexDigit('g'));
}
/**
* Checks for an octal character.
*
* Params:
* C = Some character type.
* c = Some character.
*
* Returns: $(D_KEYWORD true) if $(D_PARAM c) is an octal character,
* $(D_KEYWORD false) otherwise.
*/
bool isOctalDigit(C)(C c)
if (isSomeChar!C)
{
return (c >= '0') && (c <= '7');
}
///
pure nothrow @safe @nogc unittest
{
assert(isOctalDigit('0'));
assert(isOctalDigit('1'));
assert(isOctalDigit('2'));
assert(isOctalDigit('3'));
assert(isOctalDigit('4'));
assert(isOctalDigit('5'));
assert(isOctalDigit('6'));
assert(isOctalDigit('7'));
assert(!isOctalDigit('8'));
}
/**
* Checks for a octal character.
*
* Params:
* C = Some character type.
* c = Some character.
*
* Returns: $(D_KEYWORD true) if $(D_PARAM c) is a octal character,
* $(D_KEYWORD false) otherwise.
*/
bool isPunctuation(C)(C c)
if (isSomeChar!C)
{
return ((c >= 0x21) && (c <= 0x2f))
|| ((c >= 0x3a) && (c <= 0x40))
|| ((c >= 0x5b) && (c <= 0x60))
|| ((c >= 0x7b) && (c <= 0x7e));
}
///
pure nothrow @safe @nogc unittest
{
assert(isPunctuation('!'));
assert(isPunctuation(':'));
assert(isPunctuation('\\'));
assert(isPunctuation('|'));
assert(!isPunctuation('0'));
assert(!isPunctuation(' '));
}
/**
* Converts $(D_PARAM c) to uppercase.
*
* If $(D_PARAM c) is not a lowercase character, $(D_PARAM c) is returned
* unchanged.
*
* Params:
* C = Some character type.
* c = Some character.
*
* Returns: The lowercase of $(D_PARAM c) if available, just $(D_PARAM c)
* otherwise.
*/
C toUpper(C)(const C c)
if (isSomeChar!C)
{
return isLower(c) ? (cast(C) (c - 32)) : c;
}
///
pure nothrow @safe @nogc unittest
{
assert(toUpper('a') == 'A');
assert(toUpper('A') == 'A');
assert(toUpper('!') == '!');
}
/**
* Converts $(D_PARAM c) to lowercase.
*
* If $(D_PARAM c) is not an uppercase character, $(D_PARAM c) is returned
* unchanged.
*
* Params:
* C = Some character type.
* c = Some character.
*
* Returns: The uppercase of $(D_PARAM c) if available, just $(D_PARAM c)
* otherwise.
*/
C toLower(C)(const C c)
if (isSomeChar!C)
{
return isUpper(c) ? (cast(C) (c + 32)) : c;
}
///
pure nothrow @safe @nogc unittest
{
assert(toLower('A') == 'a');
assert(toLower('a') == 'a');
assert(toLower('!') == '!');
}

17
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@ -0,0 +1,17 @@
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
/**
* This package provides tools to work with text encodings.
*
* Copyright: Eugene Wissner 2017.
* License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
* Mozilla Public License, v. 2.0).
* Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
* Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/encoding/package.d,
* tanya/encoding/package.d)
*/
module tanya.encoding;
public import tanya.encoding.ascii;

66
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@ -0,0 +1,66 @@
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
/**
* Common exceptions and errors.
*
* Copyright: Eugene Wissner 2017.
* License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
* Mozilla Public License, v. 2.0).
* Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
* Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/exception.d,
* tanya/exception.d)
*/
module tanya.exception;
import tanya.conv;
import tanya.memory;
/**
* Error thrown if memory allocation fails.
*/
final class OutOfMemoryError : Error
{
/**
* Constructs new error.
*
* Params:
* msg = The message for the exception.
* file = The file where the exception occurred.
* line = The line number where the exception occurred.
* next = The previous exception in the chain of exceptions, if any.
*/
this(string msg = "Out of memory",
string file = __FILE__,
size_t line = __LINE__,
Throwable next = null) @nogc nothrow pure @safe
{
super(msg, file, line, next);
}
/// ditto
this(string msg,
Throwable next,
string file = __FILE__,
size_t line = __LINE__) @nogc nothrow pure @safe
{
super(msg, file, line, next);
}
}
/**
* Allocates $(D_PSYMBOL OutOfMemoryError) in a static storage and throws it.
*
* Params:
* msg = Custom error message.
*
* Throws: $(D_PSYMBOL OutOfMemoryError).
*/
void onOutOfMemoryError(string msg = "Out of memory")
@nogc nothrow pure @trusted
{
static ubyte[stateSize!OutOfMemoryError] memory;
alias PureType = OutOfMemoryError function(string) @nogc nothrow pure;
throw (cast(PureType) () => emplace!OutOfMemoryError(memory))(msg);
}

354
source/tanya/format/conv.d
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@ -8,12 +8,22 @@
* Copyright: Eugene Wissner 2017.
* 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)
* Authors: Jeff Roberts, $(LINK2 mailto:info@caraus.de, Eugene Wissner)
* Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/format/conv.d,
* tanya/format/conv.d)
*/
module tanya.format.conv;
import std.traits;
import tanya.container.string;
import tanya.memory;
import tanya.memory.op;
import tanya.meta.trait;
import tanya.meta.transform;
version (unittest)
{
import tanya.test.assertion;
}
/**
* Thrown if a type conversion fails.
@ -46,6 +56,7 @@ final class ConvException : Exception
*
* Returns: $(D_PARAM from).
*/
deprecated("Use tanya.conv.to instead")
template to(To)
{
/**
@ -59,28 +70,14 @@ template to(To)
return from;
}
/// Ditto.
/// ditto
To to(From)(From from)
if (is(Unqual!To == Unqual!From) || isNumeric!From && isFloatingPoint!To)
if (is(Unqual!To == Unqual!From) || (isNumeric!From && isFloatingPoint!To))
{
return from;
}
}
///
pure nothrow @safe @nogc unittest
{
auto val = 5.to!int();
assert(val == 5);
static assert(is(typeof(val) == int));
}
private pure nothrow @safe @nogc unittest
{
int val = 5;
assert(val.to!int() == 5);
}
/**
* Performs checked conversion from an integral type $(D_PARAM From) to an
* integral type $(D_PARAM To).
@ -95,6 +92,7 @@ private pure nothrow @safe @nogc unittest
* Throws: $(D_PSYMBOL ConvException) if $(D_PARAM from) is too small or too
* large to be represented by $(D_PARAM To).
*/
deprecated("Use tanya.conv.to instead")
To to(To, From)(From from)
if (isIntegral!From
&& isIntegral!To
@ -143,149 +141,26 @@ if (isIntegral!From
}
}
private pure nothrow @safe @nogc unittest
{
// ubyte -> ushort
assert((cast(ubyte) 0).to!ushort == 0);
assert((cast(ubyte) 1).to!ushort == 1);
assert((cast(ubyte) (ubyte.max - 1)).to!ushort == ubyte.max - 1);
assert((cast(ubyte) ubyte.max).to!ushort == ubyte.max);
// ubyte -> short
assert((cast(ubyte) 0).to!short == 0);
assert((cast(ubyte) 1).to!short == 1);
assert((cast(ubyte) (ubyte.max - 1)).to!short == ubyte.max - 1);
assert((cast(ubyte) ubyte.max).to!short == ubyte.max);
}
private unittest
{
// ubyte <- ushort
assert((cast(ushort) 0).to!ubyte == 0);
assert((cast(ushort) 1).to!ubyte == 1);
assert((cast(ushort) (ubyte.max - 1)).to!ubyte == ubyte.max - 1);
assert((cast(ushort) ubyte.max).to!ubyte == ubyte.max);
// ubyte <- short
assert((cast(short) 0).to!ubyte == 0);
assert((cast(short) 1).to!ubyte == 1);
assert((cast(short) (ubyte.max - 1)).to!ubyte == ubyte.max - 1);
assert((cast(short) ubyte.max).to!ubyte == ubyte.max);
// short <-> int
assert(short.min.to!int == short.min);
assert((short.min + 1).to!int == short.min + 1);
assert((cast(short) -1).to!int == -1);
assert((cast(short) 0).to!int == 0);
assert((cast(short) 1).to!int == 1);
assert((short.max - 1).to!int == short.max - 1);
assert(short.max.to!int == short.max);
assert((cast(int) short.min).to!short == short.min);
assert((cast(int) short.min + 1).to!short == short.min + 1);
assert((cast(int) -1).to!short == -1);
assert((cast(int) 0).to!short == 0);
assert((cast(int) 1).to!short == 1);
assert((cast(int) short.max - 1).to!short == short.max - 1);
assert((cast(int) short.max).to!short == short.max);
// uint <-> int
assert((cast(uint) 0).to!int == 0);
assert((cast(uint) 1).to!int == 1);
assert((cast(uint) (int.max - 1)).to!int == int.max - 1);
assert((cast(uint) int.max).to!int == int.max);
assert((cast(int) 0).to!uint == 0);
assert((cast(int) 1).to!uint == 1);
assert((cast(int) (int.max - 1)).to!uint == int.max - 1);
assert((cast(int) int.max).to!uint == int.max);
}
private unittest
{
ConvException exception;
try
{
assert(int.min.to!short == int.min);
}
catch (ConvException e)
{
exception = e;
}
assert(exception !is null);
defaultAllocator.dispose(exception);
}
private unittest
{
ConvException exception;
try
{
assert(int.max.to!short == int.max);
}
catch (ConvException e)
{
exception = e;
}
assert(exception !is null);
defaultAllocator.dispose(exception);
}
private unittest
{
ConvException exception;
try
{
assert(uint.max.to!ushort == ushort.max);
}
catch (ConvException e)
{
exception = e;
}
assert(exception !is null);
defaultAllocator.dispose(exception);
}
private unittest
{
ConvException exception;
try
{
assert((-1).to!uint == -1);
}
catch (ConvException e)
{
exception = e;
}
assert(exception !is null);
defaultAllocator.dispose(exception);
}
private @nogc unittest
{
enum Test : int
{
one,
two,
}
assert(Test.one.to!int == 0);
assert(Test.two.to!int == 1);
}
/**
* Converts a number to a boolean.
* Converts $(D_PARAM from) to a boolean.
*
* If $(D_PARAM From) is a numeric type, then `1` becomes $(D_KEYWORD true),
* `0` $(D_KEYWORD false). Otherwise $(D_PSYMBOL ConvException) is thrown.
*
* If $(D_PARAM To) is a string (built-in string or $(D_PSYMBOL String)),
* then `"true"` or `"false"` are converted to the appropriate boolean value.
* Otherwise $(D_PSYMBOL ConvException) is thrown.
*
* Params:
* From = Source type.
* To = Target type.
* from = Source value.
*
* Returns: $(D_KEYWORD true) if $(D_INLINECODE from > 0 && from <= 1),
* otherwise $(D_KEYWORD false).
* Returns: $(D_KEYWORD from) converted to a boolean.
*
* Throws: $(D_PSYMBOL ConvException) if $(D_PARAM from) is greater than `1` or
* less than `0`.
* Throws: $(D_PSYMBOL ConvException) if $(D_PARAM from) isn't convertible.
*/
deprecated("Use tanya.conv.to instead")
To to(To, From)(From from)
if (isNumeric!From && is(Unqual!To == bool) && !is(Unqual!To == Unqual!From))
{
@ -306,84 +181,52 @@ if (isNumeric!From && is(Unqual!To == bool) && !is(Unqual!To == Unqual!From))
"Positive number overflow");
}
private @nogc unittest
/// ditto
deprecated("Use tanya.conv.to instead")
To to(To, From)(auto ref const From from)
if ((is(From == String) || isSomeString!From) && is(Unqual!To == bool))
{
assert(0.0.to!bool == false);
assert(0.2.to!bool == true);
assert(0.5.to!bool == true);
assert(1.0.to!bool == true);
assert(0.to!bool == false);
assert(1.to!bool == true);
if (from == "true")
{
return true;
}
private @nogc unittest
else if (from == "false")
{
ConvException exception;
try
{
assert((-1).to!bool == true);
return false;
}
catch (ConvException e)
{
exception = e;
}
assert(exception !is null);
defaultAllocator.dispose(exception);
}
private @nogc unittest
{
ConvException exception;
try
{
assert(2.to!bool == true);
}
catch (ConvException e)
{
exception = e;
}
assert(exception !is null);
defaultAllocator.dispose(exception);
throw make!ConvException(defaultAllocator,
"String doesn't contain a boolean value");
}
/**
* Converts a boolean to a number. $(D_KEYWORD true) is `1`, $(D_KEYWORD false)
* is `0`.
* Converts a boolean to $(D_PARAM To).
*
* If $(D_PARAM To) is a numeric type, then $(D_KEYWORD true) becomes `1`,
* $(D_KEYWORD false) `0`.
*
* If $(D_PARAM To) is a $(D_PSYMBOL String), then `"true"` or `"false"`
* is returned.
*
* Params:
* From = Source type.
* To = Target type.
* from = Source value.
*
* Returns: `1` if $(D_PARAM from) is $(D_KEYWORD true), otherwise `0`.
* Returns: $(D_PARAM from) converted to $(D_PARAM To).
*/
To to(To, From)(From from)
deprecated("Use tanya.conv.to instead")
To to(To, From)(const From from)
if (is(Unqual!From == bool) && isNumeric!To && !is(Unqual!To == Unqual!From))
{
return from;
}
///
pure nothrow @safe @nogc unittest
/// ditto
deprecated("Use tanya.conv.to instead")
To to(To, From)(const From from)
if (is(Unqual!From == bool) && is(Unqual!To == String))
{
assert(true.to!float == 1.0);
assert(true.to!double == 1.0);
assert(true.to!ubyte == 1);
assert(true.to!byte == 1);
assert(true.to!ushort == 1);
assert(true.to!short == 1);
assert(true.to!uint == 1);
assert(true.to!int == 1);
assert(false.to!float == 0);
assert(false.to!double == 0);
assert(false.to!ubyte == 0);
assert(false.to!byte == 0);
assert(false.to!ushort == 0);
assert(false.to!short == 0);
assert(false.to!uint == 0);
assert(false.to!int == 0);
return String(from ? "true" : "false");
}
/**
@ -400,6 +243,7 @@ pure nothrow @safe @nogc unittest
* Throws: $(D_PSYMBOL ConvException) if
* $(D_INLINECODE from < To.min || from > To.max).
*/
deprecated("Use tanya.conv.to instead")
To to(To, From)(From from)
if (isFloatingPoint!From
&& isIntegral!To
@ -419,60 +263,6 @@ if (isFloatingPoint!From
return cast(To) from;
}
///
@nogc unittest
{
assert(1.5.to!int == 1);
assert(2147483646.5.to!int == 2147483646);
assert((-2147483647.5).to!int == -2147483647);
assert(2147483646.5.to!uint == 2147483646);
}
private @nogc unittest
{
ConvException exception;
try
{
assert(2147483647.5.to!int == 2147483647);
}
catch (ConvException e)
{
exception = e;
}
assert(exception !is null);
defaultAllocator.dispose(exception);
}
private @nogc unittest
{
ConvException exception;
try
{
assert((-2147483648.5).to!int == -2147483648);
}
catch (ConvException e)
{
exception = e;
}
assert(exception !is null);
defaultAllocator.dispose(exception);
}
private @nogc unittest
{
ConvException exception;
try
{
assert((-21474.5).to!uint == -21474);
}
catch (ConvException e)
{
exception = e;
}
assert(exception !is null);
defaultAllocator.dispose(exception);
}
/**
* Performs checked conversion from an integral type $(D_PARAM From) to an
* $(D_KEYWORD enum).
@ -486,8 +276,8 @@ private @nogc unittest
*
* Throws: $(D_PSYMBOL ConvException) if $(D_PARAM from) is not a member of
* $(D_PSYMBOL To).
*/
deprecated("Use tanya.conv.to instead")
To to(To, From)(From from)
if (isIntegral!From && is(To == enum))
{
@ -501,37 +291,3 @@ if (isIntegral!From && is(To == enum))
throw make!ConvException(defaultAllocator,
"Value not found in enum '" ~ To.stringof ~ "'");
}
///
@nogc unittest
{
enum Test : int
{
one,
two,
}
static assert(is(typeof(1.to!Test) == Test));
assert(0.to!Test == Test.one);
assert(1.to!Test == Test.two);
}
private @nogc unittest
{
enum Test : uint
{
one,
two,
}
ConvException exception;
try
{
assert(5.to!Test == Test.one);
}
catch (ConvException e)
{
exception = e;
}
assert(exception !is null);
defaultAllocator.dispose(exception);
}

876
source/tanya/format/package.d
View File

@ -9,7 +9,883 @@
* 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: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/format/package.d,
* tanya/format/package.d)
*/
module tanya.format;
import tanya.container.string;
import tanya.encoding.ascii;
public import tanya.format.conv;
import tanya.math;
import tanya.memory.op;
import tanya.meta.metafunction;
import tanya.meta.trait;
import tanya.meta.transform;
import tanya.range.array;
import tanya.range.primitive;
// Integer and floating point to string conversion is based on stb_sprintf
// written by Jeff Roberts.
// Returns the last part of buffer with converted number.
package(tanya) char[] integral2String(T)(T number, return ref char[21] buffer)
@trusted
if (isIntegral!T)
{
// abs the integer.
ulong n64 = number < 0 ? -cast(long) number : number;
char* start = buffer[].ptr + buffer.sizeof - 1;
while (true)
{
// Do in 32-bit chunks (avoid lots of 64-bit divides even with constant
// denominators).
char* o = start - 8;
uint n;
if (n64 >= 100000000)
{
n = n64 % 100000000;
n64 /= 100000000;
}
else
{
n = cast(uint) n64;
n64 = 0;
}
while (n)
{
*--start = cast(char) (n % 10) + '0';
n /= 10;
}
// Ignore the leading zero if it was the last part of the integer.
if (n64 == 0)
{
if ((start[0] == '0')
&& (start != (buffer[].ptr + buffer.sizeof -1)))
{
++start;
}
break;
}
// Copy leading zeros if it wasn't the most significant part of the
// integer.
while (start != o)
{
*--start = '0';
}
}
// Get the length that we have copied.
uint l = cast(uint) ((buffer[].ptr + buffer.sizeof - 1) - start);
if (l == 0)
{
*--start = '0';
l = 1;
}
else if (number < 0) // Set the sign.
{
*--start = '-';
++l;
}
return buffer[$ - l - 1 .. $ - 1];
}
// Converting an integer to string.
@nogc nothrow pure @system unittest
{
char[21] buf;
assert(integral2String(80, buf) == "80");
assert(integral2String(-80, buf) == "-80");
assert(integral2String(0, buf) == "0");
assert(integral2String(uint.max, buf) == "4294967295");
assert(integral2String(int.min, buf) == "-2147483648");
}
/*
* Double-double high-precision floating point number.
*
* The first element is a base value corresponding to the nearest approximation
* of the target $(D_PSYMBOL HP) value, and the second element is an offset
* value corresponding to the difference between the target value and the base.
* Thus, the $(D_PSYMBOL HP) value represented is the sum of the base and the
* offset.
*/
private struct HP
{
private double base;
private double offset = 0.0;
private void normalize() @nogc nothrow pure @safe
{
const double target = this.base + this.offset;
this.offset -= target - this.base;
this.base = target;
}
private void multiply(ref const HP x, ref const HP y)
@nogc nothrow pure @safe
{
HP a, b;
long bt;
this.base = x.base * y.base;
copyFp(x.base, bt);
bt &= ulong.max << 27;
copyFp(bt, a.base);
a.offset = x.base - a.base;
copyFp(y.base, bt);
bt &= ulong.max << 27;
copyFp(bt, b.base);
b.offset = y.base - b.base;
this.offset = a.base * b.base - this.base
+ a.base * b.offset
+ a.offset * b.base
+ a.offset * b.offset;
this.offset += x.base * y.offset + x.offset * y.base;
}
}
private enum special = 0x7000;
private enum char period = '.';
private static const ulong[20] powersOf10 = [
1,
10,
100,
1000,
10000,
100000,
1000000,
10000000,
100000000,
1000000000,
10000000000UL,
100000000000UL,
1000000000000UL,
10000000000000UL,
100000000000000UL,
1000000000000000UL,
10000000000000000UL,
100000000000000000UL,
1000000000000000000UL,
10000000000000000000UL,
];
private static const char[201] digitPairs =
"0001020304050607080910111213141516171819202122232425262728293031323334353"
~ "6373839404142434445464748495051525354555657585960616263646566676869707172"
~ "737475767778798081828384858687888990919293949596979899";
private static const HP[23] bottom = [
HP(1e+000), HP(1e+001), HP(1e+002), HP(1e+003), HP(1e+004), HP(1e+005),
HP(1e+006), HP(1e+007), HP(1e+008), HP(1e+009), HP(1e+010), HP(1e+011),
HP(1e+012), HP(1e+013), HP(1e+014), HP(1e+015), HP(1e+016), HP(1e+017),
HP(1e+018), HP(1e+019), HP(1e+020), HP(1e+021), HP(1e+022),
];
private static const HP[22] negativeBottom = [
HP(1e-001, -5.551115123125783e-018),
HP(1e-002, -2.0816681711721684e-019),
HP(1e-003, -2.0816681711721686e-020),
HP(1e-004, -4.7921736023859299e-021),
HP(1e-005, -8.1803053914031305e-022),
HP(1e-006, 4.5251888174113741e-023),
HP(1e-007, 4.5251888174113739e-024),
HP(1e-008, -2.0922560830128471e-025),
HP(1e-009, -6.2281591457779853e-026),
HP(1e-010, -3.6432197315497743e-027),
HP(1e-011, 6.0503030718060191e-028),
HP(1e-012, 2.0113352370744385e-029),
HP(1e-013, -3.0373745563400371e-030),
HP(1e-014, 1.1806906454401013e-032),
HP(1e-015, -7.7705399876661076e-032),
HP(1e-016, 2.0902213275965398e-033),
HP(1e-017, -7.1542424054621921e-034),
HP(1e-018, -7.1542424054621926e-035),
HP(1e-019, 2.4754073164739869e-036),
HP(1e-020, 5.4846728545790429e-037),
HP(1e-021, 9.2462547772103625e-038),
HP(1e-022, -4.8596774326570872e-039),
];
private static const HP[13] top = [
HP(1e+023, 8388608),
HP(1e+046, 6.8601809640529717e+028),
HP(1e+069, -7.253143638152921e+052),
HP(1e+092, -4.3377296974619174e+075),
HP(1e+115, -1.5559416129466825e+098),
HP(1e+138, -3.2841562489204913e+121),
HP(1e+161, -3.7745893248228135e+144),
HP(1e+184, -1.7356668416969134e+167),
HP(1e+207, -3.8893577551088374e+190),
HP(1e+230, -9.9566444326005119e+213),
HP(1e+253, 6.3641293062232429e+236),
HP(1e+276, -5.2069140800249813e+259),
HP(1e+299, -5.2504760255204387e+282),
];
private static const HP[13] negativeTop = [
HP(1e-023, 3.9565301985100693e-040L),
HP(1e-046, -2.299904345391321e-063L),
HP(1e-069, 3.6506201437945798e-086L),
HP(1e-092, 1.1875228833981544e-109L),
HP(1e-115, -5.0644902316928607e-132L),
HP(1e-138, -6.7156837247865426e-155L),
HP(1e-161, -2.812077463003139e-178L),
HP(1e-184, -5.7778912386589953e-201L),
HP(1e-207, 7.4997100559334532e-224L),
HP(1e-230, -4.6439668915134491e-247L),
HP(1e-253, -6.3691100762962136e-270L),
HP(1e-276, -9.436808465446358e-293L),
HP(1e-299, 8.0970921678014997e-317L),
];
private enum ulong tenTo19th = 1000000000000000000UL;
// Power can be -323 to +350.
private HP raise2Power10(const HP value, int power)
@nogc nothrow pure @safe
{
HP result;
if ((power >= 0) && (power <= 22))
{
result.multiply(value, bottom[power]);
}
else
{
HP p2;
int e = power;
if (power < 0)
{
e = -e;
}
int et = (e * 0x2c9) >> 14; // % 23
if (et > 13)
{
et = 13;
}
int eb = e - (et * 23);
result = value;
if (power < 0)
{
if (eb != 0)
{
--eb;
result.multiply(value, negativeBottom[eb]);
}
if (et)
{
result.normalize();
--et;
p2.multiply(result, negativeTop[et]);
result = p2;
}
}
else
{
if (eb != 0)
{
e = eb;
if (eb > 22)
{
eb = 22;
}
e -= eb;
result.multiply(value, bottom[eb]);
if (e)
{
result.normalize();
p2.multiply(result, bottom[e]);
result = p2;
}
}
if (et != 0)
{
result.normalize();
--et;
p2.multiply(result, top[et]);
result = p2;
}
}
}
result.normalize();
return result;
}
/*
* Given a float value, returns the significant bits in bits, and the position
* of the decimal point in $(D_PARAM exponent). +/-Inf and NaN are specified
* by special values returned in the $(D_PARAM exponent). Sing bit is set in
* $(D_PARAM sign).
*/
private const(char)[] real2String(double value,
ref char[512] buffer,
out int exponent,
out bool sign) @nogc nothrow pure @trusted
{
long bits;
copyFp(value, bits);
exponent = (bits >> 52) & 0x7ff;
sign = signBit(value);
if (sign)
{
value = -value;
}
if (exponent == 2047) // Is NaN or Inf?
{
exponent = special;
return (bits & ((1UL << 52) - 1)) != 0 ? "NaN" : "Inf";
}
if (exponent == 0) // Is zero or denormal?
{
if ((bits << 1) == 0) // Zero.
{
exponent = 1;
buffer[0] = '0';
return buffer[0 .. 1];
}
// Find the right exponent for denormals.
for (long cursor = 1UL << 51; (bits & cursor) == 0; cursor >>= 1)
{
--exponent;
}
}
// "617 / 2048" and "1233 / 4096" are estimations for the common logarithm
// (log10) of 2. Multiplied by a binary number it tells how big the number
// is in decimals, so it translates the binary exponent into decimal
// format. The estimation is tweaked to hit or undershoot by no more than
// 1 of log10 of all exponents 1..2046.
int tens = exponent - 1023; // Bias.
if (tens < 0)
{
tens = tens * 617 / 2048;
}
else
{
tens = tens * 1233 / 4096 + 1;
}
// Move the significant bits into position and stick them into an int.
HP p = raise2Power10(HP(value), 18 - tens);
// Get full as much precision from double-double as possible.
bits = cast(long) p.base;
double vh = cast(double) bits;
auto a = HP(p.base - vh);
double t = a.base - p.base;
a.offset = p.base - a.base + t - vh - t;
bits += cast(long) (a.base + a.offset + p.offset);
// Check if we undershot (bits >= 10 ^ 19).
if ((cast(ulong) bits) >= 1000000000000000000UL)
{
++tens;
}
// Now do the rounding in integer land.
enum uint fracDigits = 6;
uint dg = 1;
if ((cast(ulong) bits) >= powersOf10[9])
{
dg = 10;
}
uint length;
while ((cast(ulong) bits) >= powersOf10[dg])
{
++dg;
if (dg == 20)
{
goto NoRound;
}
}
if (fracDigits < dg)
{
// Add 0.5 at the right position and round.
length = dg - fracDigits;
if (length >= 24)
{
goto NoRound;
}
ulong r = powersOf10[length];
bits = bits + (r / 2);
if ((cast(ulong) bits) >= powersOf10[dg])
{
++tens;
}
bits /= r;
}
NoRound:
// Kill long trailing runs of zeros.
if (bits)
{
while (bits > 0xffffffff)
{
if (bits % 1000)
{
goto Zeroed;
}
bits /= 1000;
}
auto n = cast(uint) bits;
while ((n % 1000) == 0)
{
n /= 1000;
}
bits = n;
}
Zeroed:
// Convert to string.
auto result = buffer.ptr + 64;
length = 0;
while (true)
{
uint n;
char* o = result - 8;
// Do the conversion in chunks of U32s (avoid most 64-bit divides,
// worth it, constant denomiators be damned).
if (bits >= 100000000)
{
n = cast(uint) (bits % 100000000);
bits /= 100000000;
}
else
{
n = cast(uint) bits;
bits = 0;
}
while (n)
{
result -= 2;
*cast(ushort*) result = *cast(ushort*) &digitPairs[(n % 100) * 2];
n /= 100;
length += 2;
}
if (bits == 0)
{
if ((length != 0) && (result[0] == '0'))
{
++result;
--length;
}
break;
}
for (; result !is o; ++length, --result)
{
*result = '0';
}
}
exponent = tens;
return result[0 .. length];
}
/*
* Copies double into long and back bitwise.
*/
private void copyFp(T, U)(ref const U src, ref T dest) @trusted
if (T.sizeof == U.sizeof)
{
copy((&src)[0 .. 1], (&dest)[0 .. 1]);
}
package(tanya) String format(string fmt, Args...)(auto ref Args args)
{
String result;
static if (is(Unqual!(Args[0]) == typeof(null)))
{
result.insertBack("null");
}
else static if(is(Unqual!(Args[0]) == bool))
{
result.insertBack(args[0] ? "true" : "false");
}
else static if (isSomeString!(Args[0])) // String
{
if (args[0] is null)
{
result.insertBack("null");
}
else
{
result.insertBack(args[0]);
}
}
else static if (isSomeChar!(Args[0])) // Char
{
result.insertBack(args[0]);
}
else static if (isFloatingPoint!(Args[0])) // Float
{
char[512] buffer; // Big enough for e+308 or e-307.
char[8] tail = 0;
char[] bufferSlice = buffer[64 .. $];
uint precision = 6;
bool negative;
int decimalPoint;
// Read the double into a string.
auto realString = real2String(args[0], buffer, decimalPoint, negative);
auto length = cast(uint) realString.length;
// Clamp the precision and delete extra zeros after clamp.
uint n = precision;
if (length > precision)
{
length = precision;
}
while ((length > 1)
&& (precision != 0)
&& (realString[length - 1] == '0'))
{
--precision;
--length;
}
if (negative)
{
result.insertBack('-');
}
if (decimalPoint == special)
{
result.insertBack(realString);
goto ParamEnd;
}
// Should we use sceintific notation?
if ((decimalPoint <= -4) || (decimalPoint > cast(int) n))
{
if (precision > length)
{
precision = length - 1;
}
else if (precision > 0)
{
// When using scientific notation, there is one digit before the
// decimal.
--precision;
}
// Handle leading chars.
bufferSlice.front = realString[0];
bufferSlice.popFront();
if (precision != 0)
{
bufferSlice.front = period;
bufferSlice.popFront();
}
// Handle after decimal.
if ((length - 1) > precision)
{
length = precision + 1;
}
realString[1 .. length].copy(bufferSlice);
bufferSlice.popFrontExactly(length - 1);
// Dump the exponent.
tail[1] = 'e';
--decimalPoint;
if (decimalPoint < 0)
{
tail[2] = '-';
decimalPoint = -decimalPoint;
}
else
{
tail[2] = '+';
}
n = decimalPoint >= 100 ? 5 : 4;
tail[0] = cast(char) n;
while (true)
{
tail[n] = '0' + decimalPoint % 10;
if (n <= 3)
{
break;
}
--n;
decimalPoint /= 10;
}
}
else
{
if (decimalPoint > 0)
{
precision = decimalPoint < (cast(int) length)
? length - decimalPoint
: 0;
}
else
{
precision = -decimalPoint
+ (precision > length ? length : precision);
}
// Handle the three decimal varieties.
if (decimalPoint <= 0)
{
// Handle 0.000*000xxxx.
bufferSlice.front = '0';
bufferSlice.popFront();
if (precision != 0)
{
bufferSlice.front = period;
bufferSlice.popFront();
}
n = -decimalPoint;
if (n > precision)
{
n = precision;
}
fill!'0'(bufferSlice[0 .. n]);
bufferSlice.popFrontExactly(n);
if ((length + n) > precision)
{
length = precision - n;
}
realString[0 .. length].copy(bufferSlice);
bufferSlice.popFrontExactly(length);
}
else if (cast(uint) decimalPoint >= length)
{
// Handle xxxx000*000.0.
n = 0;
do
{
bufferSlice.front = realString[n];
bufferSlice.popFront();
++n;
}
while (n < length);
if (n < cast(uint) decimalPoint)
{
n = decimalPoint - n;
fill!'0'(bufferSlice[0 .. n]);
bufferSlice.popFrontExactly(n);
}
if (precision != 0)
{
bufferSlice.front = period;
bufferSlice.popFront();
}
}
else
{
// Handle xxxxx.xxxx000*000.
n = 0;
do
{
bufferSlice.front = realString[n];
bufferSlice.popFront();
++n;
}
while (n < cast(uint) decimalPoint);
if (precision > 0)
{
bufferSlice.front = period;
bufferSlice.popFront();
}
if ((length - decimalPoint) > precision)
{
length = precision + decimalPoint;
}
realString[n .. length].copy(bufferSlice);
bufferSlice.popFrontExactly(length - n);
}
}
// Get the length that we've copied.
length = cast(uint) (buffer.length - bufferSlice.length);
result.insertBack(buffer[64 .. length]); // Number.
result.insertBack(tail[1 .. tail[0] + 1]); // Tail.
}
else static if (isPointer!(Args[0])) // Pointer
{
char[size_t.sizeof * 2] buffer;
size_t position = buffer.length;
auto address = cast(size_t) args[0];
do // Write at least "0" if the pointer is null.
{
buffer[--position] = lowerHexDigits[cast(size_t) (address & 15)];
address >>= 4;
}
while (address != 0);
result.insertBack("0x");
result.insertBack(buffer[position .. $]);
}
else static if (isIntegral!(Args[0])) // Integer
{
char[21] buffer;
result.insertBack(integral2String(args[0], buffer));
}
else
{
static assert(false);
}
ParamEnd:
return result;
}
// One argument tests.
@nogc pure @safe unittest
{
// Modifiers.
assert(format!"{}"(8.5) == "8.5");
assert(format!"{}"(8.6) == "8.6");
assert(format!"{}"(1000) == "1000");
assert(format!"{}"(1) == "1");
assert(format!"{}"(10.25) == "10.25");
assert(format!"{}"(1) == "1");
assert(format!"{}"(0.01) == "0.01");
// String printing.
assert(format!"{}"("Some weired string") == "Some weired string");
assert(format!"{}"(cast(string) null) == "null");
assert(format!"{}"('c') == "c");
// Integer.
assert(format!"{}"(8) == "8");
assert(format!"{}"(8) == "8");
assert(format!"{}"(-8) == "-8");
assert(format!"{}"(-8L) == "-8");
assert(format!"{}"(8) == "8");
assert(format!"{}"(100000001) == "100000001");
assert(format!"{}"(99999999L) == "99999999");
assert(format!"{}"(10) == "10");
assert(format!"{}"(10L) == "10");
// Floating point.
assert(format!"{}"(0.1234) == "0.1234");
assert(format!"{}"(0.3) == "0.3");
assert(format!"{}"(0.333333333333) == "0.333333");
assert(format!"{}"(38234.1234) == "38234.1");
assert(format!"{}"(-0.3) == "-0.3");
assert(format!"{}"(0.000000000000000006) == "6e-18");
assert(format!"{}"(0.0) == "0");
assert(format!"{}"(double.init) == "NaN");
assert(format!"{}"(-double.init) == "-NaN");
assert(format!"{}"(double.infinity) == "Inf");
assert(format!"{}"(-double.infinity) == "-Inf");
assert(format!"{}"(0.000000000000000000000000003) == "3e-27");
assert(format!"{}"(0.23432e304) == "2.3432e+303");
assert(format!"{}"(-0.23432e8) == "-2.3432e+07");
assert(format!"{}"(1e-307) == "1e-307");
assert(format!"{}"(1e+8) == "1e+08");
assert(format!"{}"(111234.1) == "111234");
assert(format!"{}"(0.999) == "0.999");
assert(format!"{}"(0x1p-16382L) == "0");
assert(format!"{}"(1e+3) == "1000");
assert(format!"{}"(38234.1234) == "38234.1");
// typeof(null).
assert(format!"{}"(null) == "null");
// Boolean.
assert(format!"{}"(true) == "true");
assert(format!"{}"(false) == "false");
}
// Unsafe tests with pointers.
@nogc pure @system unittest
{
// Pointer convesions
assert(format!"{}"(cast(void*) 1) == "0x1");
assert(format!"{}"(cast(void*) 20) == "0x14");
assert(format!"{}"(cast(void*) null) == "0x0");
}
private struct FormatSpec
{
}
// Returns the position of `tag` in `fmt`. If `tag` can't be found, returns the
// length of `fmt`.
private size_t specPosition(string fmt, char tag)()
{
foreach (i, c; fmt)
{
if (c == tag)
{
return i;
}
}
return fmt.length;
}
private template ParseFmt(string fmt, size_t pos = 0)
{
static if (fmt.length == 0)
{
alias ParseFmt = AliasSeq!();
}
else static if (fmt[0] == '{')
{
static if (fmt.length > 1 && fmt[1] == '{')
{
enum size_t pos = specPosition!(fmt[2 .. $], '{') + 2;
alias ParseFmt = AliasSeq!(fmt[1 .. pos],
ParseFmt!(fmt[pos .. $], pos));
}
else
{
enum size_t pos = specPosition!(fmt[1 .. $], '}') + 1;
static if (pos < fmt.length)
{
alias ParseFmt = AliasSeq!(FormatSpec(),
ParseFmt!(fmt[pos + 1 .. $], pos + 1));
}
else
{
static assert(false, "Enclosing '}' is missing");
}
}
}
else
{
enum size_t pos = specPosition!(fmt, '{');
alias ParseFmt = AliasSeq!(fmt[0 .. pos],
ParseFmt!(fmt[pos .. $], pos));
}
}
@nogc nothrow pure @safe unittest
{
static assert(ParseFmt!"".length == 0);
static assert(ParseFmt!"asdf".length == 1);
static assert(ParseFmt!"asdf"[0] == "asdf");
static assert(ParseFmt!"{}".length == 1);
}

165
source/tanya/math/mp.d
View File

@ -9,15 +9,21 @@
* 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/math/mp.d,
* tanya/math/mp.d)
*/
module tanya.math.mp;
import std.algorithm;
import std.ascii;
import std.algorithm.comparison;
import std.algorithm.mutation : copy, fill, reverse;
import std.range;
import std.traits;
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;
/**
* Algebraic sign.
@ -72,7 +78,7 @@ struct Integer
this = value;
}
/// Ditto.
/// ditto
this(T)(ref T value, shared Allocator allocator = defaultAllocator)
if (is(Unqual!T == Integer))
{
@ -80,9 +86,8 @@ struct Integer
this = value;
}
/// Ditto.
/// ditto
this(T)(T value, shared Allocator allocator = defaultAllocator)
nothrow @safe @nogc
if (is(T == Integer))
{
this(allocator);
@ -101,8 +106,8 @@ struct Integer
}
}
/// Ditto.
this(shared Allocator allocator) pure nothrow @safe @nogc
/// ditto
this(shared Allocator allocator) @nogc nothrow pure @safe
in
{
assert(allocator !is null);
@ -153,7 +158,8 @@ struct Integer
}
}
nothrow @safe @nogc unittest
///
@nogc nothrow pure @safe unittest
{
ubyte[8] range = [ 0x66, 0x77, 0x88, 0x99, 0xaa, 0xbb, 0xdd, 0xee ];
auto integer = Integer(Sign.positive, range[]);
@ -170,8 +176,7 @@ struct Integer
*
* Precondition: $(D_INLINECODE allocator !is null)
*/
this(R)(R value,
shared Allocator allocator = defaultAllocator)
this(R)(R value, shared Allocator allocator = defaultAllocator)
if (isBidirectionalRange!R && hasLength!R
&& is(Unqual!(ElementType!R) == ubyte))
{
@ -185,7 +190,7 @@ struct Integer
}
///
nothrow @safe @nogc unittest
@nogc nothrow pure @safe unittest
{
{
ubyte[8] range = [ 0x66, 0x77, 0x88, 0x99, 0xaa, 0xbb, 0xdd, 0xee ];
@ -202,17 +207,17 @@ struct Integer
/**
* Copies the integer.
*/
this(this) nothrow @trusted @nogc
this(this) @nogc nothrow pure @safe
{
auto tmp = allocator.resize!digit(null, this.size);
this.rep[0 .. this.size].copy(tmp);
tanya.memory.op.copy(this.rep[0 .. this.size], tmp);
this.rep = tmp;
}
/**
* Destroys the integer.
*/
~this() nothrow @trusted @nogc
~this() @nogc nothrow pure @safe
{
allocator.resize(this.rep, 0);
}
@ -222,7 +227,7 @@ struct Integer
];
// Counts the number of LSBs before the first non-zero bit.
private ptrdiff_t countLSBs() const pure nothrow @safe @nogc
private ptrdiff_t countLSBs() const @nogc nothrow pure @safe
{
if (this.size == 0)
{
@ -254,7 +259,7 @@ struct Integer
/**
* Returns: Number of bytes in the two's complement representation.
*/
@property size_t length() const pure nothrow @safe @nogc
@property size_t length() const @nogc nothrow pure @safe
{
if (this.sign)
{
@ -277,6 +282,19 @@ struct Integer
}
}
///
@nogc nothrow pure @safe unittest
{
{
Integer i;
assert(i.length == 0);
}
{
auto i = Integer(-123456789);
assert(i.length == 4);
}
}
/**
* Assigns a new value.
*
@ -320,20 +338,21 @@ struct Integer
return this;
}
/// Ditto.
ref Integer opAssign(T)(ref T value) @trusted
/// ditto
ref Integer opAssign(T)(ref T value)
if (is(Unqual!T == Integer))
{
this.rep = allocator.resize(this.rep, value.size);
value.rep[0 .. value.size].copy(this.rep[0 .. value.size]);
tanya.memory.op.copy(value.rep[0 .. value.size],
this.rep[0 .. value.size]);
this.size = value.size;
this.sign = value.sign;
return this;
}
/// Ditto.
ref Integer opAssign(T)(T value) nothrow @safe @nogc
/// ditto
ref Integer opAssign(T)(T value)
if (is(T == Integer))
{
swap(this.rep, value.rep);
@ -356,7 +375,7 @@ struct Integer
return this.size > 0;
}
/// Ditto.
/// ditto
T opCast(T)() const
if (isIntegral!T && isUnsigned!T)
{
@ -370,7 +389,7 @@ struct Integer
return ret;
}
/// Ditto.
/// ditto
T opCast(T)() const
if (isIntegral!T && isSigned!T)
{
@ -378,7 +397,7 @@ struct Integer
}
///
@safe @nogc unittest
@nogc nothrow pure @safe unittest
{
auto integer = Integer(79);
assert(cast(ushort) integer == 79);
@ -402,14 +421,14 @@ struct Integer
assert(cast(long) integer == 0);
}
/* trim unused digits
/* Trim unused digits.
*
* This is used to ensure that leading zero digits are
* trimed and the leading "size" digit will be non-zero
* Typically very fast. Also fixes the sign if there
* are no more leading digits
*/
void contract() nothrow @safe @nogc
void contract() @nogc nothrow pure @safe
{
/* decrease size while the most significant digit is
* zero.
@ -426,7 +445,7 @@ struct Integer
}
}
private void grow(const size_t size) nothrow @trusted @nogc
private void grow(const size_t size) @nogc nothrow pure @safe
{
if (this.rep.length >= size)
{
@ -437,7 +456,7 @@ struct Integer
this.rep[oldLength .. $].fill(digit.init);
}
private size_t countBits() const pure nothrow @safe @nogc
private size_t countBits() const @nogc nothrow pure @safe
{
if (this.size == 0)
{
@ -455,7 +474,7 @@ struct Integer
}
private void add(ref const Integer summand, ref Integer sum)
const nothrow @safe @nogc
const @nogc nothrow pure @safe
{
const(digit)[] max, min;
@ -506,7 +525,7 @@ struct Integer
}
private void add(const digit summand, ref Integer sum)
const nothrow @safe @nogc
const @nogc nothrow pure @safe
{
sum.grow(this.size + 2);
@ -532,7 +551,7 @@ struct Integer
}
private void subtract(ref const Integer subtrahend, ref Integer difference)
const nothrow @safe @nogc
const @nogc nothrow pure @safe
{
difference.grow(this.size);
@ -568,7 +587,7 @@ struct Integer
}
private void subtract(const digit subtrahend, ref Integer difference)
const nothrow @safe @nogc
const @nogc nothrow pure @safe
{
difference.grow(this.size);
@ -597,7 +616,7 @@ struct Integer
}
// Compare the magnitude.
private int compare(ref const Integer that) const pure nothrow @safe @nogc
private int compare(ref const Integer that) const @nogc nothrow pure @safe
{
if (this.size > that.size)
{
@ -646,7 +665,7 @@ struct Integer
}
///
@safe @nogc unittest
@nogc nothrow pure @safe unittest
{
auto integer1 = Integer(1019);
auto integer2 = Integer(1019);
@ -662,7 +681,7 @@ struct Integer
assert(integer1 > integer2);
}
/// Ditto.
/// ditto
int opCmp(I)(const I that) const
if (isIntegral!I)
{
@ -692,7 +711,7 @@ struct Integer
}
///
@safe @nogc unittest
@nogc nothrow pure @safe unittest
{
auto integer = Integer(1019);
@ -716,7 +735,7 @@ struct Integer
}
///
@safe @nogc unittest
@nogc nothrow pure @safe unittest
{
auto integer = Integer(1019);
@ -752,7 +771,7 @@ struct Integer
}
///
unittest
@nogc nothrow pure @safe unittest
{
{
auto h1 = Integer(1019);
@ -774,7 +793,7 @@ struct Integer
}
}
/// Ditto.
/// ditto
ref Integer opOpAssign(string op : "-")(auto ref const Integer operand)
{
if (this.sign != operand.sign)
@ -794,7 +813,7 @@ struct Integer
}
///
unittest
@nogc nothrow pure @safe unittest
{
{
auto h1 = Integer(3);
@ -822,7 +841,7 @@ struct Integer
}
}
/// Ditto.
/// ditto
ref Integer opOpAssign(string op : "*")(auto ref const Integer operand)
{
const digits = this.size + operand.size + 1;
@ -838,7 +857,7 @@ struct Integer
}
///
nothrow @safe @nogc unittest
@nogc nothrow pure @safe unittest
{
auto h1 = Integer(123);
auto h2 = Integer(456);
@ -846,7 +865,7 @@ struct Integer
assert(h1 == 56088);
}
/// Ditto.
/// ditto
ref Integer opOpAssign(string op : "/")(auto ref const Integer operand)
in
{
@ -858,7 +877,7 @@ struct Integer
return this;
}
/// Ditto.
/// ditto
ref Integer opOpAssign(string op : "%")(auto ref const Integer operand)
in
{
@ -870,7 +889,7 @@ struct Integer
return this;
}
nothrow @safe @nogc unittest
@nogc nothrow pure @safe unittest
{
auto h1 = Integer(18);
auto h2 = Integer(4);
@ -891,7 +910,7 @@ struct Integer
assert(h1 == 123);
}
/// Ditto.
/// ditto
ref Integer opOpAssign(string op : ">>")(const size_t operand)
{
if (operand == 0)
@ -922,7 +941,7 @@ struct Integer
}
///
nothrow @safe @nogc unittest
@nogc nothrow pure @safe unittest
{
auto integer = Integer(4294967294);
integer >>= 10;
@ -953,7 +972,7 @@ struct Integer
assert(integer == 0);
}
/// Ditto.
/// ditto
ref Integer opOpAssign(string op : "<<")(const size_t operand)
{
const step = operand / digitBitCount;
@ -990,7 +1009,7 @@ struct Integer
}
///
nothrow @safe @nogc unittest
@nogc nothrow pure @safe unittest
{
auto integer = Integer(4294967295);
integer <<= 1;
@ -1008,11 +1027,14 @@ struct Integer
Integer opUnary(string op : "~")() const
{
auto ret = Integer(this, allocator);
ret.rep[0 .. ret.size].each!((ref a) => a = ~a & mask);
foreach (ref a; ret.rep[0 .. ret.size])
{
a = ~a & mask;
}
return ret;
}
/// Ditto.
/// ditto
Integer opUnary(string op : "-")() const
{
auto ret = Integer(this, allocator);
@ -1034,7 +1056,7 @@ struct Integer
}
//
nothrow @safe @nogc unittest
@nogc nothrow pure @safe unittest
{
auto h1 = Integer(79);
Integer h2;
@ -1053,7 +1075,7 @@ struct Integer
assert(h2 == ~cast(ubyte) 79);
}
/// Ditto.
/// ditto
ref Integer opUnary(string op : "++")()
{
if (this.sign)
@ -1067,7 +1089,7 @@ struct Integer
return this;
}
/// Ditto.
/// ditto
ref Integer opUnary(string op : "--")()
{
if (this.size == 0)
@ -1087,7 +1109,7 @@ struct Integer
}
///
nothrow @safe @nogc unittest
@nogc nothrow pure @safe unittest
{
Integer integer;
@ -1137,7 +1159,7 @@ struct Integer
mixin("return Integer(this, allocator) " ~ op ~ "= operand;");
}
/// Ditto.
/// ditto
Integer opBinary(string op)(const auto ref Integer operand) const
if (op == "/" || op == "%")
in
@ -1149,7 +1171,7 @@ struct Integer
mixin("return Integer(this, allocator) " ~ op ~ "= operand;");
}
/// Ditto.
/// ditto
Integer opBinary(string op)(const size_t operand) const
if (op == "<<" || op == ">>")
{
@ -1157,7 +1179,7 @@ struct Integer
}
// Shift right a certain amount of digits.
private void shiftRight(const size_t operand) nothrow @safe @nogc
private void shiftRight(const size_t operand) @nogc nothrow pure @safe
{
if (operand == 0)
{
@ -1176,7 +1198,7 @@ struct Integer
}
// Shift left a certain amount of digits.
private void shiftLeft(const size_t operand) nothrow @safe @nogc
private void shiftLeft(const size_t operand) @nogc nothrow pure @safe
{
if (operand == 0)
{
@ -1198,7 +1220,7 @@ struct Integer
}
private void multiply(const digit factor, ref Integer product)
const nothrow @safe @nogc
const @nogc nothrow pure @safe
{
product.grow(this.size + 1);
product.sign = this.sign;
@ -1224,7 +1246,7 @@ struct Integer
private void multiply(ref const Integer factor,
ref Integer product,
const size_t digits) const nothrow @safe @nogc
const size_t digits) const @nogc nothrow pure @safe
{
Integer intermediate;
intermediate.grow(digits);
@ -1255,8 +1277,7 @@ struct Integer
private void divide(Q, ARGS...)(ref const Integer divisor,
auto ref Q quotient,
ref ARGS args)
const nothrow @safe @nogc
ref ARGS args) const
if ((is(Q : typeof(null))
|| (is(Q : Integer) && __traits(isRef, quotient)))
&& (ARGS.length == 0 || (ARGS.length == 1 && is(ARGS[0] : Integer))))
@ -1389,7 +1410,7 @@ struct Integer
}
}
private Integer square() nothrow @safe @nogc
private Integer square() @nogc nothrow pure @safe
{
Integer result;
const resultSize = 2 * this.size + 1;
@ -1429,7 +1450,7 @@ struct Integer
}
// Returns 2^^n.
private Integer exp2(size_t n) const nothrow @safe @nogc
private Integer exp2(size_t n) const @nogc nothrow pure @safe
{
auto ret = Integer(allocator);
const bytes = n / digitBitCount;
@ -1444,7 +1465,7 @@ struct Integer
/**
* Returns: Two's complement representation of the integer.
*/
Array!ubyte toArray() const nothrow @safe @nogc
Array!ubyte toArray() const @nogc nothrow pure @safe
out (array)
{
assert(array.length == length);
@ -1497,7 +1518,7 @@ struct Integer
}
///
nothrow @safe @nogc unittest
@nogc nothrow pure @safe unittest
{
{
auto integer = Integer(0x66778899aabbddee);
@ -1506,6 +1527,14 @@ struct Integer
auto array = integer.toArray();
assert(equal(array[], expected[]));
}
}
@nogc nothrow pure @safe unittest
{
{
Integer integer;
assert(integer.toArray().length == 0);
}
{
auto integer = Integer(0x03);
ubyte[1] expected = [ 0x03 ];

165
source/tanya/math/nbtheory.d Normal file
View File

@ -0,0 +1,165 @@
/* 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/. */
/**
* Number theory.
*
* Copyright: Eugene Wissner 2017.
* 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/math/nbtheory.d,
* tanya/math/nbtheory.d)
*/
module tanya.math.nbtheory;
import tanya.math.mp;
import tanya.meta.trait;
version (TanyaNative)
{
}
else
{
import core.math : fabs;
import std.math : log;
}
/**
* Calculates the absolute value of a number.
*
* Params:
* I = Value type.
* x = Value.
*
* Returns: Absolute value of $(D_PARAM x).
*/
I abs(I)(I x)
if (isIntegral!I)
{
static if (isSigned!I)
{
return x >= 0 ? x : -x;
}
else
{
return x;
}
}
///
pure nothrow @safe @nogc unittest
{
int i = -1;
assert(i.abs == 1);
static assert(is(typeof(i.abs) == int));
uint u = 1;
assert(u.abs == 1);
static assert(is(typeof(u.abs) == uint));
}
version (D_Ddoc)
{
/// ditto
I abs(I)(I x)
if (isFloatingPoint!I);
}
else version (TanyaNative)
{
extern I abs(I)(I number) pure nothrow @safe @nogc
if (isFloatingPoint!I);
}
else
{
I abs(I)(I x)
if (isFloatingPoint!I)
{
return fabs(cast(real) x);
}
}
///
pure nothrow @safe @nogc unittest
{
float f = -1.64;
assert(f.abs == 1.64F);
static assert(is(typeof(f.abs) == float));
double d = -1.64;
assert(d.abs == 1.64);
static assert(is(typeof(d.abs) == double));
real r = -1.64;
assert(r.abs == 1.64L);
static assert(is(typeof(r.abs) == real));
}
/// ditto
I abs(I : Integer)(const auto ref I x)
{
auto result = Integer(x, x.allocator);
result.sign = Sign.positive;
return result;
}
/// ditto
I abs(I : Integer)(I x)
{
x.sign = Sign.positive;
return x;
}
version (D_Ddoc)
{
/**
* Calculates natural logarithm of $(D_PARAM x).
*
* Params:
* x = Argument.
*
* Returns: Natural logarithm of $(D_PARAM x).
*/
float ln(float x) pure nothrow @safe @nogc;
/// ditto
double ln(double x) pure nothrow @safe @nogc;
/// ditto
real ln(real x) pure nothrow @safe @nogc;
}
else version (TanyaNative)
{
extern float ln(float x) pure nothrow @safe @nogc;
extern double ln(double x) pure nothrow @safe @nogc;
extern real ln(real x) pure nothrow @safe @nogc;
}
else
{
float ln(float x) pure nothrow @safe @nogc
{
return log(x);
}
double ln(double x) pure nothrow @safe @nogc
{
return log(x);
}
alias ln = log;
}
///
pure nothrow @safe @nogc unittest
{
import tanya.math;
assert(isNaN(ln(-7.389f)));
assert(isNaN(ln(-7.389)));
assert(isNaN(ln(-7.389L)));
assert(isInfinity(ln(0.0f)));
assert(isInfinity(ln(0.0)));
assert(isInfinity(ln(0.0L)));
assert(ln(1.0f) == 0.0f);
assert(ln(1.0) == 0.0);
assert(ln(1.0L) == 0.0L);
}

760
source/tanya/math/package.d
View File

@ -5,20 +5,560 @@
/**
* This package provides mathematical functions.
*
* The $(D_PSYMBOL tanya.math) package itself provides only representation
* functions for built-in types, such as functions that provide information
* about internal representation of floating-point numbers and low-level
* operatons on these. Actual mathematical functions and additional types can
* be found in its submodules. $(D_PSYMBOL tanya.math) doesn't import any
* submodules publically, they should be imported explicitly.
*
* Copyright: Eugene Wissner 2016-2017.
* 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/math/package.d,
* tanya/math/package.d)
*/
module tanya.math;
import std.traits;
public import tanya.math.mp;
public import tanya.math.random;
import tanya.algorithm.mutation;
import tanya.math.mp;
import tanya.math.nbtheory;
import tanya.meta.trait;
import tanya.meta.transform;
version (unittest)
/// Floating-point number precisions according to IEEE-754.
enum IEEEPrecision : ubyte
{
import std.algorithm.iteration;
single = 4, /// Single precision: 64-bit.
double_ = 8, /// Single precision: 64-bit.
doubleExtended = 10, /// Double extended precision: 80-bit.
}
/**
* Tests the precision of floating-point type $(D_PARAM F).
*
* For $(D_KEYWORD float), $(D_PSYMBOL ieeePrecision) always evaluates to
* $(D_INLINECODE IEEEPrecision.single); for $(D_KEYWORD double) - to
* $(D_INLINECODE IEEEPrecision.double). It returns different values only
* for $(D_KEYWORD real), since $(D_KEYWORD real) is a platform-dependent type.
*
* If $(D_PARAM F) is a $(D_KEYWORD real) and the target platform isn't
* currently supported, static assertion error will be raised (you can use
* $(D_INLINECODE is(typeof(ieeePrecision!F))) for testing the platform support
* without a compilation error).
*
* Params:
* F = Type to be tested.
*
* Returns: Precision according to IEEE-754.
*
* See_Also: $(D_PSYMBOL IEEEPrecision).
*/
template ieeePrecision(F)
if (isFloatingPoint!F)
{
static if (F.sizeof == float.sizeof)
{
enum IEEEPrecision ieeePrecision = IEEEPrecision.single;
}
else static if (F.sizeof == double.sizeof)
{
enum IEEEPrecision ieeePrecision = IEEEPrecision.double_;
}
else version (X86)
{
enum IEEEPrecision ieeePrecision = IEEEPrecision.doubleExtended;
}
else version (X86_64)
{
enum IEEEPrecision ieeePrecision = IEEEPrecision.doubleExtended;
}
else
{
static assert(false, "Unsupported IEEE 754 floating point precision");
}
}
///
@nogc nothrow pure @safe unittest
{
static assert(ieeePrecision!float == IEEEPrecision.single);
static assert(ieeePrecision!double == IEEEPrecision.double_);
}
private union FloatBits(F)
{
F floating;
static if (ieeePrecision!F == IEEEPrecision.single)
{
uint integral;
enum uint expMask = 0x7f800000;
}
else static if (ieeePrecision!F == IEEEPrecision.double_)
{
ulong integral;
enum ulong expMask = 0x7ff0000000000000;
}
else static if (ieeePrecision!F == IEEEPrecision.doubleExtended)
{
struct // Little-endian.
{
ulong mantissa;
ushort exp;
}
enum ulong mantissaMask = 0x7fffffffffffffff;
enum uint expMask = 0x7fff;
}
else
{
static assert(false, "Unsupported IEEE 754 floating point precision");
}
}
/**
* Floating-point number classifications.
*/
enum FloatingPointClass : ubyte
{
/**
* Not a Number.
*
* See_Also: $(D_PSYMBOL isNaN).
*/
nan,
/// Zero.
zero,
/**
* Infinity.
*
* See_Also: $(D_PSYMBOL isInfinity).
*/
infinite,
/**
* Denormalized number.
*
* See_Also: $(D_PSYMBOL isSubnormal).
*/
subnormal,
/**
* Normalized number.
*
* See_Also: $(D_PSYMBOL isNormal).
*/
normal,
}
/**
* Returns whether $(D_PARAM x) is a NaN, zero, infinity, subnormal or
* normalized number.
*
* This function doesn't distinguish between negative and positive infinity,
* negative and positive NaN or negative and positive zero.
*
* Params:
* F = Type of the floating point number.
* x = Floating point number.
*
* Returns: Classification of $(D_PARAM x).
*/
FloatingPointClass classify(F)(F x)
if (isFloatingPoint!F)
{
if (x == 0)
{
return FloatingPointClass.zero;
}
FloatBits!F bits;
bits.floating = abs(x);
static if (ieeePrecision!F == IEEEPrecision.single)
{
if (bits.integral > bits.expMask)
{
return FloatingPointClass.nan;
}
else if (bits.integral == bits.expMask)
{
return FloatingPointClass.infinite;
}
else if (bits.integral < (1 << 23))
{
return FloatingPointClass.subnormal;
}
}
else static if (ieeePrecision!F == IEEEPrecision.double_)
{
if (bits.integral > bits.expMask)
{
return FloatingPointClass.nan;
}
else if (bits.integral == bits.expMask)
{
return FloatingPointClass.infinite;
}
else if (bits.integral < (1L << 52))
{
return FloatingPointClass.subnormal;
}
}
else static if (ieeePrecision!F == IEEEPrecision.doubleExtended)
{
if (bits.exp == bits.expMask)
{
if ((bits.mantissa & bits.mantissaMask) == 0)
{
return FloatingPointClass.infinite;
}
else
{
return FloatingPointClass.nan;
}
}
else if (bits.exp == 0)
{
return FloatingPointClass.subnormal;
}
else if (bits.mantissa < (1L << 63)) // "Unnormal".
{
return FloatingPointClass.nan;
}
}
return FloatingPointClass.normal;
}
///
@nogc nothrow pure @safe unittest
{
assert(classify(0.0) == FloatingPointClass.zero);
assert(classify(double.nan) == FloatingPointClass.nan);
assert(classify(double.infinity) == FloatingPointClass.infinite);
assert(classify(-double.infinity) == FloatingPointClass.infinite);
assert(classify(1.4) == FloatingPointClass.normal);
assert(classify(1.11254e-307 / 10) == FloatingPointClass.subnormal);
assert(classify(0.0f) == FloatingPointClass.zero);
assert(classify(float.nan) == FloatingPointClass.nan);
assert(classify(float.infinity) == FloatingPointClass.infinite);
assert(classify(-float.infinity) == FloatingPointClass.infinite);
assert(classify(0.3) == FloatingPointClass.normal);
assert(classify(5.87747e-38f / 10) == FloatingPointClass.subnormal);
assert(classify(0.0L) == FloatingPointClass.zero);
assert(classify(real.nan) == FloatingPointClass.nan);
assert(classify(real.infinity) == FloatingPointClass.infinite);
assert(classify(-real.infinity) == FloatingPointClass.infinite);
}
@nogc nothrow pure @safe unittest
{
static if (ieeePrecision!float == IEEEPrecision.doubleExtended)
{
assert(classify(1.68105e-10) == FloatingPointClass.normal);
assert(classify(1.68105e-4932L) == FloatingPointClass.subnormal);
// Emulate unnormals, because they aren't generated anymore since i386
FloatBits!real unnormal;
unnormal.exp = 0x123;
unnormal.mantissa = 0x1;
assert(classify(unnormal) == FloatingPointClass.subnormal);
}
}
/**
* Determines whether $(D_PARAM x) is a finite number.
*
* Params:
* F = Type of the floating point number.
* x = Floating point number.
*
* Returns: $(D_KEYWORD true) if $(D_PARAM x) is a finite number,
* $(D_KEYWORD false) otherwise.
*
* See_Also: $(D_PSYMBOL isInfinity).
*/
bool isFinite(F)(F x)
if (isFloatingPoint!F)
{
FloatBits!F bits;
static if (ieeePrecision!F == IEEEPrecision.single
|| ieeePrecision!F == IEEEPrecision.double_)
{
bits.floating = x;
bits.integral &= bits.expMask;
return bits.integral != bits.expMask;
}
else static if (ieeePrecision!F == IEEEPrecision.doubleExtended)
{
bits.floating = abs(x);
return (bits.exp != bits.expMask)
&& (bits.exp == 0 || bits.mantissa >= (1L << 63));
}
}
///
@nogc nothrow pure @safe unittest
{
assert(!isFinite(float.infinity));
assert(!isFinite(-double.infinity));
assert(isFinite(0.0));
assert(!isFinite(float.nan));
assert(isFinite(5.87747e-38f / 10));
assert(isFinite(1.11254e-307 / 10));
assert(isFinite(0.5));
}
/**
* Determines whether $(D_PARAM x) is $(B n)ot $(B a) $(B n)umber (NaN).
*
* Params:
* F = Type of the floating point number.
* x = Floating point number.
*
* Returns: $(D_KEYWORD true) if $(D_PARAM x) is not a number,
* $(D_KEYWORD false) otherwise.
*/
bool isNaN(F)(F x)
if (isFloatingPoint!F)
{
FloatBits!F bits;
bits.floating = abs(x);
static if (ieeePrecision!F == IEEEPrecision.single
|| ieeePrecision!F == IEEEPrecision.double_)
{
return bits.integral > bits.expMask;
}
else static if (ieeePrecision!F == IEEEPrecision.doubleExtended)
{
const maskedMantissa = bits.mantissa & bits.mantissaMask;
if ((bits.exp == bits.expMask && maskedMantissa != 0)
|| ((bits.exp != 0) && (bits.mantissa < (1L << 63))))
{
return true;
}
return false;
}
}
///
@nogc nothrow pure @safe unittest
{
assert(isNaN(float.init));
assert(isNaN(double.init));
assert(isNaN(real.init));
}
/**
* Determines whether $(D_PARAM x) is a positive or negative infinity.
*
* Params:
* F = Type of the floating point number.
* x = Floating point number.
*
* Returns: $(D_KEYWORD true) if $(D_PARAM x) is infinity, $(D_KEYWORD false)
* otherwise.
*
* See_Also: $(D_PSYMBOL isFinite).
*/
bool isInfinity(F)(F x)
if (isFloatingPoint!F)
{
FloatBits!F bits;
bits.floating = abs(x);
static if (ieeePrecision!F == IEEEPrecision.single
|| ieeePrecision!F == IEEEPrecision.double_)
{
return bits.integral == bits.expMask;
}
else static if (ieeePrecision!F == IEEEPrecision.doubleExtended)
{
return (bits.exp == bits.expMask)
&& ((bits.mantissa & bits.mantissaMask) == 0);
}
}
///
@nogc nothrow pure @safe unittest
{
assert(isInfinity(float.infinity));
assert(isInfinity(-float.infinity));
assert(isInfinity(double.infinity));
assert(isInfinity(-double.infinity));
assert(isInfinity(real.infinity));
assert(isInfinity(-real.infinity));
}
/**
* Determines whether $(D_PARAM x) is a denormilized number or not.
* Denormalized number is a number between `0` and `1` that cannot be
* represented as
*
* <pre>
* m*2<sup>e</sup>
* </pre>
*
* where $(I m) is the mantissa and $(I e) is an exponent that fits into the
* exponent field of the type $(D_PARAM F).
*
* `0` is neither normalized nor denormalized.
*
* Params:
* F = Type of the floating point number.
* x = Floating point number.
*
* Returns: $(D_KEYWORD true) if $(D_PARAM x) is a denormilized number,
* $(D_KEYWORD false) otherwise.
*
* See_Also: $(D_PSYMBOL isNormal).
*/
bool isSubnormal(F)(F x)
if (isFloatingPoint!F)
{
FloatBits!F bits;
bits.floating = abs(x);
static if (ieeePrecision!F == IEEEPrecision.single)
{
return bits.integral < (1 << 23) && bits.integral > 0;
}
else static if (ieeePrecision!F == IEEEPrecision.double_)
{
return bits.integral < (1L << 52) && bits.integral > 0;
}
else static if (ieeePrecision!F == IEEEPrecision.doubleExtended)
{
return bits.exp == 0 && bits.mantissa != 0;
}
}
///
@nogc nothrow pure @safe unittest
{
assert(!isSubnormal(0.0f));
assert(!isSubnormal(float.nan));
assert(!isSubnormal(float.infinity));
assert(!isSubnormal(0.3f));
assert(isSubnormal(5.87747e-38f / 10));
assert(!isSubnormal(0.0));
assert(!isSubnormal(double.nan));
assert(!isSubnormal(double.infinity));
assert(!isSubnormal(1.4));
assert(isSubnormal(1.11254e-307 / 10));
assert(!isSubnormal(0.0L));
assert(!isSubnormal(real.nan));
assert(!isSubnormal(real.infinity));
}
/**
* Determines whether $(D_PARAM x) is a normilized number or not.
* Normalized number is a number that can be represented as
*
* <pre>
* m*2<sup>e</sup>
* </pre>
*
* where $(I m) is the mantissa and $(I e) is an exponent that fits into the
* exponent field of the type $(D_PARAM F).
*
* `0` is neither normalized nor denormalized.
*
* Params:
* F = Type of the floating point number.
* x = Floating point number.
*
* Returns: $(D_KEYWORD true) if $(D_PARAM x) is a normilized number,
* $(D_KEYWORD false) otherwise.
*
* See_Also: $(D_PSYMBOL isSubnormal).
*/
bool isNormal(F)(F x)
if (isFloatingPoint!F)
{
static if (ieeePrecision!F == IEEEPrecision.single
|| ieeePrecision!F == IEEEPrecision.double_)
{
FloatBits!F bits;
bits.floating = x;
bits.integral &= bits.expMask;
return bits.integral != 0 && bits.integral != bits.expMask;
}
else static if (ieeePrecision!F == IEEEPrecision.doubleExtended)
{
return classify(x) == FloatingPointClass.normal;
}
}
///
@nogc nothrow pure @safe unittest
{
assert(!isNormal(0.0f));
assert(!isNormal(float.nan));
assert(!isNormal(float.infinity));
assert(isNormal(0.3f));
assert(!isNormal(5.87747e-38f / 10));
assert(!isNormal(0.0));
assert(!isNormal(double.nan));
assert(!isNormal(double.infinity));
assert(isNormal(1.4));
assert(!isNormal(1.11254e-307 / 10));
assert(!isNormal(0.0L));
assert(!isNormal(real.nan));
assert(!isNormal(real.infinity));
}
/**
* Determines whether the sign bit of $(D_PARAM x) is set or not.
*
* If the sign bit, $(D_PARAM x) is a negative number, otherwise positive.
*
* Params:
* F = Type of the floating point number.
* x = Floating point number.
*
* Returns: $(D_KEYWORD true) if the sign bit of $(D_PARAM x) is set,
* $(D_KEYWORD false) otherwise.
*/
bool signBit(F)(F x)
if (isFloatingPoint!F)
{
FloatBits!F bits;
bits.floating = x;
static if (ieeePrecision!F == IEEEPrecision.single)
{
return (bits.integral & (1 << 31)) != 0;
}
else static if (ieeePrecision!F == IEEEPrecision.double_)
{
return (bits.integral & (1L << 63)) != 0;
}
else static if (ieeePrecision!F == IEEEPrecision.doubleExtended)
{
return (bits.exp & (1 << 15)) != 0;
}
}
///
@nogc nothrow pure @safe unittest
{
assert(signBit(-1.0f));
assert(!signBit(1.0f));
assert(signBit(-1.0));
assert(!signBit(1.0));
assert(signBit(-1.0L));
assert(!signBit(1.0L));
}
/**
@ -80,7 +620,7 @@ body
return result;
}
/// Ditto.
/// ditto
I pow(I)(const auto ref I x, const auto ref I y, const auto ref I z)
if (is(I == Integer))
in
@ -121,7 +661,7 @@ body
}
///
pure nothrow @safe @nogc unittest
@nogc nothrow pure @safe unittest
{
assert(pow(3, 5, 7) == 5);
assert(pow(2, 2, 1) == 0);
@ -135,7 +675,7 @@ pure nothrow @safe @nogc unittest
}
///
unittest
@nogc nothrow pure @safe unittest
{
assert(pow(Integer(3), Integer(5), Integer(7)) == 5);
assert(pow(Integer(2), Integer(2), Integer(1)) == 0);
@ -157,47 +697,201 @@ unittest
* Returns: $(D_KEYWORD true) if $(D_PARAM x) is a prime number,
* $(D_KEYWORD false) otherwise.
*/
bool isPseudoprime(ulong x) nothrow pure @safe @nogc
bool isPseudoprime(ulong x) @nogc nothrow pure @safe
{
return pow(2, x - 1, x) == 1;
}
///
unittest
@nogc nothrow pure @safe unittest
{
uint[30] known = [74623, 74653, 74687, 74699, 74707, 74713, 74717, 74719,
74843, 74747, 74759, 74761, 74771, 74779, 74797, 74821,
74827, 9973, 104729, 15485867, 49979693, 104395303,
593441861, 104729, 15485867, 49979693, 104395303,
593441861, 899809363, 982451653];
assert(74623.isPseudoprime);
assert(104729.isPseudoprime);
assert(15485867.isPseudoprime);
assert(!15485868.isPseudoprime);
}
known.each!((ref x) => assert(isPseudoprime(x)));
@nogc nothrow pure @safe unittest
{
assert(74653.isPseudoprime);
assert(74687.isPseudoprime);
assert(74699.isPseudoprime);
assert(74707.isPseudoprime);
assert(74713.isPseudoprime);
assert(74717.isPseudoprime);
assert(74719.isPseudoprime);
assert(74747.isPseudoprime);
assert(74759.isPseudoprime);
assert(74761.isPseudoprime);
assert(74771.isPseudoprime);
assert(74779.isPseudoprime);
assert(74797.isPseudoprime);
assert(74821.isPseudoprime);
assert(74827.isPseudoprime);
assert(9973.isPseudoprime);
assert(49979693.isPseudoprime);
assert(104395303.isPseudoprime);
assert(593441861.isPseudoprime);
assert(104729.isPseudoprime);
assert(15485867.isPseudoprime);
assert(49979693.isPseudoprime);
assert(104395303.isPseudoprime);
assert(593441861.isPseudoprime);
assert(899809363.isPseudoprime);
assert(982451653.isPseudoprime);
}
/**
* Params:
* I = Value type.
* x = Value.
* Determines minimum of two numbers.
*
* Returns: The absolute value of a number.
* Params:
* x = First number.
* y = Second number.
*
* Returns: $(D_PARAM x) if $(D_PARAM x) is smaller than $(D_PSYMBOL y),
* $(D_PARAM y) otherwise.
*
* See_Also: $(D_PSYMBOL max).
*/
I abs(I : Integer)(const auto ref I x)
T min(T)(T x, T y)
if (isIntegral!T)
{
auto result = Integer(x, x.allocator);
result.sign = Sign.positive;
return result;
return x < y ? x : y;
}
/// Ditto.
I abs(I : Integer)(I x)
///
@nogc nothrow pure @safe unittest
{
assert(min(5, 3) == 3);
assert(min(4, 4) == 4);
}
/// ditto
T min(T)(T x, T y)
if (isFloatingPoint!T)
{
if (isNaN(x))
{
return y;
}
if (isNaN(y))
{
x.sign = Sign.positive;
return x;
}
/// Ditto.
I abs(I)(const I x)
if (isIntegral!I)
{
return x >= 0 ? x : -x;
return x < y ? x : y;
}
///
@nogc nothrow pure @safe unittest
{
assert(min(5.2, 3.0) == 3.0);
assert(min(5.2, double.nan) == 5.2);
assert(min(double.nan, 3.0) == 3.0);
assert(isNaN(min(double.nan, double.nan)));
}
/// ditto
ref T min(T)(ref T x, ref T y)
if (is(Unqual!T == Integer))
{
return x < y ? x : y;
}
/// ditto
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);
}
/**
* Determines maximum of two numbers.
*
* Params:
* x = First number.
* y = Second number.
*
* Returns: $(D_PARAM x) if $(D_PARAM x) is larger than $(D_PSYMBOL y),
* $(D_PARAM y) otherwise.
*
* See_Also: $(D_PSYMBOL min).
*/
T max(T)(T x, T y)
if (isIntegral!T)
{
return x > y ? x : y;
}
///
@nogc nothrow pure @safe unittest
{
assert(max(5, 3) == 5);
assert(max(4, 4) == 4);
}
/// ditto
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;
}
///
@nogc nothrow pure @safe unittest
{
assert(max(5.2, 3.0) == 5.2);
assert(max(5.2, double.nan) == 5.2);
assert(max(double.nan, 3.0) == 3.0);
assert(isNaN(max(double.nan, double.nan)));
}
/// ditto
ref T max(T)(ref T x, ref T y)
if (is(Unqual!T == Integer))
{
return x > y ? x : y;
}
/// ditto
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);
}
}

9
source/tanya/math/random.d
View File

@ -9,6 +9,8 @@
* 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/math/random.d,
* tanya/math/random.d)
*/
module tanya.math.random;
@ -225,8 +227,9 @@ class Entropy
* See_Also:
* $(D_PSYMBOL EntropySource)
*/
Entropy opOpAssign(string Op)(EntropySource source) pure nothrow @safe @nogc
if (Op == "~")
Entropy opOpAssign(string op)(EntropySource source)
pure nothrow @safe @nogc
if (op == "~")
in
{
assert(sourceCount_ <= sources.length);
@ -297,7 +300,7 @@ class Entropy
// Perform second SHA-512 on entropy
output = sha512Of(output);
for (ubyte i = 0; i < sourceCount; ++i)
for (ubyte i; i < sourceCount; ++i)
{
sources[i].size = 0;
}

16
source/tanya/memory/allocator.d
View File

@ -12,6 +12,8 @@
* License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
* Mozilla Public License, v. 2.0).
* Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
* Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/memory/allocator.d,
* tanya/memory/allocator.d)
*/
module tanya.memory.allocator;
@ -33,7 +35,7 @@ interface Allocator
*
* Returns: Pointer to the new allocated memory.
*/
void[] allocate(const size_t size) shared nothrow @nogc;
void[] allocate(const size_t size) shared pure nothrow @nogc;
/**
* Deallocates a memory block.
@ -43,7 +45,7 @@ interface Allocator
*
* Returns: Whether the deallocation was successful.
*/
bool deallocate(void[] p) shared nothrow @nogc;
bool deallocate(void[] p) shared pure nothrow @nogc;
/**
* Increases or decreases the size of a memory block.
@ -54,7 +56,7 @@ interface Allocator
*
* Returns: Pointer to the allocated memory.
*/
bool reallocate(ref void[] p, const size_t size) shared nothrow @nogc;
bool reallocate(ref void[] p, const size_t size) shared pure nothrow @nogc;
/**
* Reallocates a memory block in place if possible or returns
@ -69,5 +71,11 @@ interface Allocator
* Returns: $(D_KEYWORD true) if successful, $(D_KEYWORD false) otherwise.
*/
bool reallocateInPlace(ref void[] p, const size_t size)
shared nothrow @nogc;
shared pure nothrow @nogc;
}
package template GetPureInstance(T : Allocator)
{
alias GetPureInstance = shared(T) function()
pure nothrow @nogc;
}

43
source/tanya/memory/mallocator.d
View File

@ -9,9 +9,13 @@
* License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
* Mozilla Public License, v. 2.0).
* Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
* Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/memory/mallocator.d,
* tanya/memory/mallocator.d)
*/
module tanya.memory.mallocator;
version (TanyaPhobos):
import core.stdc.stdlib;
import tanya.memory.allocator;
@ -21,6 +25,13 @@ import tanya.memory.allocator;
*/
final class Mallocator : Allocator
{
private alias MallocType = extern (C) void* function(size_t)
pure nothrow @system @nogc;
private alias FreeType = extern (C) void function(void*)
pure nothrow @system @nogc;
private alias ReallocType = extern (C) void* function(void*, size_t)
pure nothrow @system @nogc;
/**
* Allocates $(D_PARAM size) bytes of memory.
*
@ -29,13 +40,13 @@ final class Mallocator : Allocator
*
* Returns: The pointer to the new allocated memory.
*/
void[] allocate(const size_t size) shared nothrow @nogc
void[] allocate(const size_t size) shared pure nothrow @nogc
{
if (size == 0)
{
return null;
}
auto p = malloc(size + psize);
auto p = (cast(MallocType) &malloc)(size + psize);
return p is null ? null : p[psize .. psize + size];
}
@ -59,11 +70,11 @@ final class Mallocator : Allocator
*
* Returns: Whether the deallocation was successful.
*/
bool deallocate(void[] p) shared nothrow @nogc
bool deallocate(void[] p) shared pure nothrow @nogc
{
if (p !is null)
{
free(p.ptr - psize);
(cast(FreeType) &free)(p.ptr - psize);
}
return true;
}
@ -87,7 +98,8 @@ final class Mallocator : Allocator
*
* Returns: $(D_KEYWORD false).
*/
bool reallocateInPlace(ref void[] p, const size_t size) shared nothrow @nogc
bool reallocateInPlace(ref void[] p, const size_t size)
shared pure nothrow @nogc
{
return false;
}
@ -108,7 +120,7 @@ final class Mallocator : Allocator
*
* Returns: Whether the reallocation was successful.
*/
bool reallocate(ref void[] p, const size_t size) shared nothrow @nogc
bool reallocate(ref void[] p, const size_t size) shared pure nothrow @nogc
{
if (size == 0)
{
@ -125,7 +137,7 @@ final class Mallocator : Allocator
}
else
{
auto r = realloc(p.ptr - psize, size + psize);
auto r = (cast(ReallocType) &realloc)(p.ptr - psize, size + psize);
if (r !is null)
{
@ -177,12 +189,7 @@ final class Mallocator : Allocator
assert(Mallocator.instance.alignment == (void*).alignof);
}
/**
* Static allocator instance and initializer.
*
* Returns: The global $(D_PSYMBOL Allocator) instance.
*/
static @property ref shared(Mallocator) instance() @nogc nothrow
static private shared(Mallocator) instantiate() nothrow @nogc
{
if (instance_ is null)
{
@ -198,6 +205,16 @@ final class Mallocator : Allocator
return instance_;
}
/**
* Static allocator instance and initializer.
*
* Returns: The global $(D_PSYMBOL Allocator) instance.
*/
static @property shared(Mallocator) instance() pure nothrow @nogc
{
return (cast(GetPureInstance!Mallocator) &instantiate)();
}
///
@nogc nothrow unittest
{

218
source/tanya/memory/mmappool.d
View File

@ -9,23 +9,77 @@
* License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
* Mozilla Public License, v. 2.0).
* Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
* Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/memory/mmappool.d,
* tanya/memory/mmappool.d)
*/
module tanya.memory.mmappool;
import core.stdc.string;
import std.algorithm.comparison;
import tanya.memory.allocator;
import tanya.memory.op;
version (Posix)
{
import core.stdc.errno;
import core.sys.posix.sys.mman;
import core.sys.posix.sys.mman : MAP_ANON,
MAP_FAILED,
MAP_PRIVATE,
PROT_READ,
PROT_WRITE;
import core.sys.posix.unistd;
extern(C)
private void* mmap(void* addr,
size_t len,
int prot,
int flags,
int fd,
off_t offset) pure nothrow @system @nogc;
extern(C)
private int munmap(void* addr, size_t len) pure nothrow @system @nogc;
private void* mapMemory(const size_t len) pure nothrow @system @nogc
{
void* p = mmap(null,
len,
PROT_READ | PROT_WRITE,
MAP_PRIVATE | MAP_ANON,
-1,
0);
return p is MAP_FAILED ? null : p;
}
private bool unmapMemory(shared void* addr, const size_t len)
pure nothrow @system @nogc
{
return munmap(cast(void*) addr, len) == 0;
}
}
else version (Windows)
{
import core.sys.windows.winbase;
import core.sys.windows.windows;
import core.sys.windows.winbase : GetSystemInfo, SYSTEM_INFO;
extern(Windows)
private void* VirtualAlloc(void*, size_t, uint, uint)
pure nothrow @system @nogc;
extern(Windows)
private int VirtualFree(void* addr, size_t len, uint)
pure nothrow @system @nogc;
private void* mapMemory(const size_t len) pure nothrow @system @nogc
{
return VirtualAlloc(null,
len,
0x00001000, // MEM_COMMIT
0x04); // PAGE_READWRITE
}
private bool unmapMemory(shared void* addr, const size_t len)
pure nothrow @system @nogc
{
return VirtualFree(cast(void*) addr, 0, 0x8000) == 0;
}
}
/**
@ -38,6 +92,7 @@ else version (Windows)
* block as free and only if all blocks in the region are free, the complete
* region is deallocated.
*
* <pre>
* ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
* | | | | | || | | |
* | |prev <----------- | || | | |
@ -49,10 +104,13 @@ else version (Windows)
* | N | -----------> next| || N | | |
* | | | | | || | | |
* ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
* </pre>
*/
final class MmapPool : Allocator
{
invariant
version (none)
{
pure nothrow @nogc invariant
{
for (auto r = &head; *r !is null; r = &((*r).next))
{
@ -66,6 +124,7 @@ final class MmapPool : Allocator
while ((block = block.next) !is null);
}
}
}
/**
* Allocates $(D_PARAM size) bytes of memory.
@ -75,13 +134,17 @@ final class MmapPool : Allocator
*
* Returns: Pointer to the new allocated memory.
*/
void[] allocate(const size_t size) shared nothrow @nogc
void[] allocate(const size_t size) shared pure nothrow @nogc
{
if (!size)
if (size == 0)
{
return null;
}
const dataSize = addAlignment(size);
if (dataSize < size)
{
return null;
}
void* data = findBlock(dataSize);
if (data is null)
@ -103,6 +166,24 @@ final class MmapPool : Allocator
assert(p.length == 0);
}
// Issue 245: https://issues.caraus.io/issues/245.
private @nogc unittest
{
// allocate() check.
size_t tooMuchMemory = size_t.max
- MmapPool.alignment_
- BlockEntry.sizeof * 2
- RegionEntry.sizeof
- MmapPool.instance.pageSize;
assert(MmapPool.instance.allocate(tooMuchMemory) is null);
assert(MmapPool.instance.allocate(size_t.max) is null);
// initializeRegion() check.
tooMuchMemory = size_t.max - MmapPool.alignment_;
assert(MmapPool.instance.allocate(tooMuchMemory) is null);
}
/*
* Search for a block large enough to keep $(D_PARAM size) and split it
* into two blocks if the block is too large.
@ -112,7 +193,7 @@ final class MmapPool : Allocator
*
* Returns: Data the block points to or $(D_KEYWORD null).
*/
private void* findBlock(const ref size_t size) shared nothrow @nogc
private void* findBlock(const ref size_t size) shared pure nothrow @nogc
{
Block block1;
RegionLoop: for (auto r = head; r !is null; r = r.next)
@ -172,7 +253,7 @@ final class MmapPool : Allocator
*
* Returns: Whether the deallocation was successful.
*/
bool deallocate(void[] p) shared nothrow @nogc
bool deallocate(void[] p) shared pure nothrow @nogc
{
if (p.ptr is null)
{
@ -194,14 +275,7 @@ final class MmapPool : Allocator
{
block.region.next.prev = block.region.prev;
}
version (Posix)
{
return munmap(cast(void*) block.region, block.region.size) == 0;
}
version (Windows)
{
return VirtualFree(cast(void*) block.region, 0, MEM_RELEASE) == 0;
}
return unmapMemory(block.region, block.region.size);
}
// Merge blocks if neigbours are free.
if (block.next !is null && block.next.free)
@ -246,7 +320,7 @@ final class MmapPool : Allocator
* Returns: $(D_KEYWORD true) if successful, $(D_KEYWORD false) otherwise.
*/
bool reallocateInPlace(ref void[] p, const size_t size)
shared nothrow @nogc
shared pure nothrow @nogc
{
if (p is null || size == 0)
{
@ -262,19 +336,25 @@ final class MmapPool : Allocator
if (block1.size >= size)
{
// Enough space in the current block. Can happen because of the alignment.
// Enough space in the current block.
p = p.ptr[0 .. size];
return true;
}
const dataSize = addAlignment(size);
const delta = dataSize - addAlignment(p.length);
const pAlignment = addAlignment(p.length);
assert(pAlignment >= p.length, "Invalid memory chunk length");
const delta = dataSize - pAlignment;
if (block1.next is null
|| !block1.next.free
|| dataSize < size
|| block1.next.size + BlockEntry.sizeof < delta)
{
// It is the last block in the region or the next block is too small or not
// free.
/* - It is the last block in the region
* - The next block isn't free
* - The next block is too small
* - Requested size is too large
*/
return false;
}
if (block1.next.size >= delta + alignment_)
@ -288,8 +368,8 @@ final class MmapPool : Allocator
{
block1.next.next.prev = block2;
}
// block1.next and block2 can overlap.
memmove(cast(void*) block2, cast(void*) block1.next, BlockEntry.sizeof);
copyBackward((cast(void*) block1.next)[0 .. BlockEntry.sizeof],
(cast(void*) block2)[0 .. BlockEntry.sizeof]);
block1.next = block2;
}
else
@ -337,7 +417,7 @@ final class MmapPool : Allocator
*
* Returns: Whether the reallocation was successful.
*/
bool reallocate(ref void[] p, const size_t size) shared nothrow @nogc
bool reallocate(ref void[] p, const size_t size) shared pure nothrow @nogc
{
if (size == 0)
{
@ -361,7 +441,7 @@ final class MmapPool : Allocator
}
if (p !is null)
{
memcpy(reallocP.ptr, p.ptr, min(p.length, size));
copy(p[0 .. min(p.length, size)], reallocP);
deallocate(p);
}
p = reallocP;
@ -398,19 +478,14 @@ final class MmapPool : Allocator
MmapPool.instance.deallocate(p);
}
/**
* Static allocator instance and initializer.
*
* Returns: Global $(D_PSYMBOL MmapPool) instance.
*/
static @property ref shared(MmapPool) instance() nothrow @nogc
static private shared(MmapPool) instantiate() nothrow @nogc
{
if (instance_ is null)
{
// Get system dependend page size.
version (Posix)
{
pageSize = sysconf(_SC_PAGE_SIZE);
size_t pageSize = sysconf(_SC_PAGE_SIZE);
if (pageSize < 65536)
{
pageSize = pageSize * 65536 / pageSize;
@ -420,24 +495,35 @@ final class MmapPool : Allocator
{
SYSTEM_INFO si;
GetSystemInfo(&si);
pageSize = si.dwPageSize;
size_t pageSize = si.dwPageSize;
}
const instanceSize = addAlignment(__traits(classInstanceSize,
MmapPool));
Region head; // Will become soon our region list head
void* data = initializeRegion(instanceSize, head);
void* data = initializeRegion(instanceSize, head, pageSize);
if (data !is null)
{
memcpy(data, typeid(MmapPool).initializer.ptr, instanceSize);
copy(typeid(MmapPool).initializer, data[0 .. instanceSize]);
instance_ = cast(shared MmapPool) data;
instance_.head = head;
instance_.pageSize = pageSize;
}
}
return instance_;
}
/**
* Static allocator instance and initializer.
*
* Returns: Global $(D_PSYMBOL MmapPool) instance.
*/
static @property shared(MmapPool) instance() pure nothrow @nogc
{
return (cast(GetPureInstance!MmapPool) &instantiate)();
}
///
nothrow unittest
{
@ -453,35 +539,22 @@ final class MmapPool : Allocator
*
* Returns: A pointer to the data.
*/
private static void* initializeRegion(size_t size, ref Region head)
nothrow @nogc
private static void* initializeRegion(const size_t size,
ref Region head,
const size_t pageSize)
pure nothrow @nogc
{
const regionSize = calculateRegionSize(size);
version (Posix)
{
void* p = mmap(null,
regionSize,
PROT_READ | PROT_WRITE,
MAP_PRIVATE | MAP_ANON,
-1,
0);
if (p is MAP_FAILED)
const regionSize = calculateRegionSize(size, pageSize);
if (regionSize < size)
{
return null;
}
}
else version (Windows)
{
void* p = VirtualAlloc(null,
regionSize,
MEM_COMMIT,
PAGE_READWRITE);
void* p = mapMemory(regionSize);
if (p is null)
{
return null;
}
}
Region region = cast(Region) p;
region.blocks = 1;
@ -518,9 +591,9 @@ final class MmapPool : Allocator
return data;
}
private void* initializeRegion(size_t size) shared nothrow @nogc
private void* initializeRegion(const size_t size) shared pure nothrow @nogc
{
return initializeRegion(size, head);
return initializeRegion(size, this.head, this.pageSize);
}
/*
@ -529,12 +602,7 @@ final class MmapPool : Allocator
*
* Returns: Aligned size of $(D_PARAM x).
*/
private static size_t addAlignment(size_t x) pure nothrow @safe @nogc
out (result)
{
assert(result > 0);
}
body
private static size_t addAlignment(const size_t x) pure nothrow @safe @nogc
{
return (x - 1) / alignment_ * alignment_ + alignment_;
}
@ -542,18 +610,16 @@ final class MmapPool : Allocator
/*
* Params:
* x = Required space.
* pageSize = Page size.
*
* Returns: Minimum region size (a multiple of $(D_PSYMBOL pageSize)).
*/
private static size_t calculateRegionSize(size_t x) nothrow @safe @nogc
out (result)
private static size_t calculateRegionSize(ref const size_t x,
ref const size_t pageSize)
pure nothrow @safe @nogc
{
assert(result > 0);
}
body
{
x += RegionEntry.sizeof + BlockEntry.sizeof * 2;
return x / pageSize * pageSize + pageSize;
return (x + RegionEntry.sizeof + BlockEntry.sizeof * 2)
/ pageSize * pageSize + pageSize;
}
/**
@ -572,7 +638,7 @@ final class MmapPool : Allocator
private enum uint alignment_ = 8;
private shared static MmapPool instance_;
private shared static size_t pageSize;
private shared size_t pageSize;
private shared struct RegionEntry
{
@ -597,7 +663,7 @@ final class MmapPool : Allocator
// A lot of allocations/deallocations, but it is the minimum caused a
// segmentation fault because MmapPool reallocateInPlace moves a block wrong.
unittest
private @nogc unittest
{
auto a = MmapPool.instance.allocate(16);
auto d = MmapPool.instance.allocate(16);

385
source/tanya/memory/op.d Normal file
View File

@ -0,0 +1,385 @@
/* 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/. */
/**
* Set of operations on memory blocks.
*
* Copyright: Eugene Wissner 2017.
* License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
* Mozilla Public License, v. 2.0).
* Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
* Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/memory/op.d,
* tanya/memory/op.d)
*/
module tanya.memory.op;
version (TanyaNative)
{
extern private void fillMemory(void[], size_t) pure nothrow @system @nogc;
extern private void copyMemory(const void[], void[])
pure nothrow @system @nogc;
extern private void moveMemory(const void[], void[])
pure nothrow @system @nogc;
extern private int cmpMemory(const void[], const void[])
pure nothrow @system @nogc;
}
else
{
import core.stdc.string;
}
private enum alignMask = size_t.sizeof - 1;
/**
* Copies $(D_PARAM source) into $(D_PARAM target).
*
* $(D_PARAM source) and $(D_PARAM target) shall not overlap so that
* $(D_PARAM source) points ahead of $(D_PARAM target).
*
* $(D_PARAM target) shall have enough space for $(D_INLINECODE source.length)
* elements.
*
* Params:
* source = Memory to copy from.
* target = Destination memory.
*
* See_Also: $(D_PSYMBOL copyBackward).
*
* Precondition: $(D_INLINECODE source.length <= target.length).
*/
void copy(const void[] source, void[] target) @nogc nothrow pure @trusted
in
{
assert(source.length <= target.length);
assert(source.length == 0 || source.ptr !is null);
assert(target.length == 0 || target.ptr !is null);
}
body
{
version (TanyaNative)
{
copyMemory(source, target);
}
else
{
memcpy(target.ptr, source.ptr, source.length);
}
}
///
@nogc nothrow pure @safe unittest
{
ubyte[9] source = [1, 2, 3, 4, 5, 6, 7, 8, 9];
ubyte[9] target;
source.copy(target);
assert(cmp(source, target) == 0);
}
@nogc nothrow pure @safe unittest
{
{
ubyte[0] source, target;
source.copy(target);
}
{
ubyte[1] source = [1];
ubyte[1] target;
source.copy(target);
assert(target[0] == 1);
}
{
ubyte[8] source = [1, 2, 3, 4, 5, 6, 7, 8];
ubyte[8] target;
source.copy(target);
assert(cmp(source, target) == 0);
}
}
/*
* size_t value each of which bytes is set to `Byte`.
*/
private template filledBytes(ubyte Byte, ubyte I = 0)
{
static if (I == size_t.sizeof)
{
enum size_t filledBytes = Byte;
}
else
{
enum size_t filledBytes = (filledBytes!(Byte, I + 1) << 8) | Byte;
}
}
/**
* Fills $(D_PARAM memory) with the single byte $(D_PARAM c).
*
* Param:
* c = The value to fill $(D_PARAM memory) with.
* memory = Memory block.
*/
void fill(ubyte c = 0)(void[] memory) @trusted
in
{
assert(memory.length == 0 || memory.ptr !is null);
}
body
{
version (TanyaNative)
{
fillMemory(memory, filledBytes!c);
}
else
{
memset(memory.ptr, c, memory.length);
}
}
///
@nogc nothrow pure @safe unittest
{
ubyte[9] memory = [1, 2, 3, 4, 5, 6, 7, 8, 9];
memory.fill!0();
foreach (ubyte v; memory)
{
assert(v == 0);
}
}
// Stress test. Checks that `fill` can handle unaligned pointers and different
// lengths.
@nogc nothrow pure @safe unittest
{
ubyte[192] memory;
foreach (j; 0 .. 192)
{
foreach (ubyte i, ref ubyte v; memory[j .. $])
{
v = i;
}
fill(memory[j .. $]);
foreach (ubyte v; memory[j .. $])
{
assert(v == 0);
}
fill!1(memory[j .. $]);
foreach (ubyte v; memory[j .. $])
{
assert(v == 1);
}
}
}
/**
* Copies starting from the end of $(D_PARAM source) into the end of
* $(D_PARAM target).
*
* $(D_PSYMBOL copyBackward) copies the elements in reverse order, but the
* order of elements in the $(D_PARAM target) is exactly the same as in the
* $(D_PARAM source).
*
* $(D_PARAM source) and $(D_PARAM target) shall not overlap so that
* $(D_PARAM target) points ahead of $(D_PARAM source).
*
* $(D_PARAM target) shall have enough space for $(D_INLINECODE source.length)
* elements.
*
* Params:
* source = Memory to copy from.
* target = Destination memory.
*
* See_Also: $(D_PSYMBOL copy).
*
* Precondition: $(D_INLINECODE source.length <= target.length).
*/
void copyBackward(const void[] source, void[] target) @nogc nothrow pure @trusted
in
{
assert(source.length <= target.length);
assert(source.length == 0 || source.ptr !is null);
assert(target.length == 0 || target.ptr !is null);
}
body
{
version (TanyaNative)
{
moveMemory(source, target);
}
else
{
memmove(target.ptr, source.ptr, source.length);
}
}
///
@nogc nothrow pure @safe unittest
{
ubyte[6] mem = [ 'a', 'a', 'b', 'b', 'c', 'c' ];
ubyte[6] expected = [ 'a', 'a', 'a', 'a', 'b', 'b' ];
copyBackward(mem[0 .. 4], mem[2 .. $]);
assert(cmp(expected, mem) == 0);
}
@nogc nothrow pure @safe unittest
{
ubyte[9] r1 = [ 'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i' ];
ubyte[9] r2;
copyBackward(r1, r2);
assert(cmp(r1, r2) == 0);
}
/**
* Compares two memory areas $(D_PARAM r1) and $(D_PARAM r2).
*
* $(D_PSYMBOL cmp) returns a positive integer if
* $(D_INLINECODE r1.length > r2.length) or the first `n` compared bytes of
* $(D_PARAM r1) found to be greater than the first `n` bytes of $(D_PARAM r2),
*
* $(D_PSYMBOL cmp) returns a negative integer if
* $(D_INLINECODE r2.length > r1.length) or the first `n` compared bytes of
* $(D_PARAM r1) found to be less than the first `n` bytes of $(D_PARAM r2),
*
* `0` is returned otherwise.
*
* Returns: Positive integer if $(D_INLINECODE r1 > r2),
* negative integer if $(D_INLINECODE r2 > r1),
* `0` if $(D_INLINECODE r1 == r2).
*/
int cmp(const void[] r1, const void[] r2) @nogc nothrow pure @trusted
in
{
assert(r1.length == 0 || r1.ptr !is null);
assert(r2.length == 0 || r2.ptr !is null);
}
body
{
version (TanyaNative)
{
return cmpMemory(r1, r2);
}
else
{
if (r1.length > r2.length)
{
return 1;
}
return r1.length < r2.length ? -1 : memcmp(r1.ptr, r2.ptr, r1.length);
}
}
///
@nogc nothrow pure @safe unittest
{
ubyte[4] r1 = [ 'a', 'b', 'c', 'd' ];
ubyte[3] r2 = [ 'c', 'a', 'b' ];
assert(cmp(r1[0 .. 3], r2[]) < 0);
assert(cmp(r2[], r1[0 .. 3]) > 0);
assert(cmp(r1, r2) > 0);
assert(cmp(r2, r1) < 0);
}
@nogc nothrow pure @safe unittest
{
ubyte[16] r1 = [
'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h',
'i', 'j', 'k', 'l', 'm', 'n', 'o', 'p',
];
ubyte[16] r2 = [
'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h',
'i', 'j', 'k', 'l', 'm', 'n', 'o', 'p',
];
assert(cmp(r1, r2) == 0);
assert(cmp(r1[1 .. $], r2[1 .. $]) == 0);
assert(cmp(r1[0 .. $ - 1], r2[0 .. $ - 1]) == 0);
assert(cmp(r1[0 .. 8], r2[0 .. 8]) == 0);
}
/**
* Finds the first occurrence of $(D_PARAM needle) in $(D_PARAM haystack) if
* any.
*
* Params:
* haystack = Memory block.
* needle = A byte.
*
* Returns: The subrange of $(D_PARAM haystack) whose first element is the
* first occurrence of $(D_PARAM needle). If $(D_PARAM needle)
* couldn't be found, an empty `inout void[]` is returned.
*/
inout(void[]) find(return inout void[] haystack, const ubyte needle)
@nogc nothrow pure @trusted
in
{
assert(haystack.length == 0 || haystack.ptr !is null);
}
body
{
auto length = haystack.length;
const size_t needleWord = size_t.max * needle;
enum size_t highBits = filledBytes!(0x01, 0);
enum size_t mask = filledBytes!(0x80, 0);
// Align
auto bytes = cast(inout(ubyte)*) haystack;
while (length > 0 && ((cast(size_t) bytes) & 3) != 0)
{
if (*bytes == needle)
{
return bytes[0 .. length];
}
bytes++;
length--;
}
// Check if some of the words has the needle
auto words = cast(inout(size_t)*) bytes;
while (length >= size_t.sizeof)
{
if (((*words ^ needleWord) - highBits) & (~*words) & mask)
{
break;
}
words++;
length -= size_t.sizeof;
}
// Find the exact needle position in the word
bytes = cast(inout(ubyte)*) words;
while (length > 0)
{
if (*bytes == needle)
{
return bytes[0 .. length];
}
bytes++;
length--;
}
return haystack[$ .. $];
}
///
@nogc nothrow pure @safe unittest
{
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(find(haystack, 'i').length == 0);
assert(find(null, 'a').length == 0);
}

223
source/tanya/memory/package.d
View File

@ -9,15 +9,19 @@
* License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
* Mozilla Public License, v. 2.0).
* Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
* Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/memory/package.d,
* tanya/memory/package.d)
*/
module tanya.memory;
import core.exception;
import std.algorithm.iteration;
public import std.experimental.allocator : make;
import std.traits;
import std.algorithm.mutation;
import tanya.conv;
import tanya.exception;
public import tanya.memory.allocator;
import tanya.memory.mmappool;
import tanya.meta.trait;
import tanya.range.primitive;
/**
* The mixin generates common methods for classes and structs using
@ -36,7 +40,7 @@ mixin template DefaultAllocator()
*
* Precondition: $(D_INLINECODE allocator_ !is null)
*/
this(shared Allocator allocator)
this(shared Allocator allocator) pure nothrow @safe @nogc
in
{
assert(allocator !is null);
@ -54,7 +58,7 @@ mixin template DefaultAllocator()
*
* Postcondition: $(D_INLINECODE allocator !is null)
*/
protected @property shared(Allocator) allocator() nothrow @safe @nogc
protected @property shared(Allocator) allocator() pure nothrow @safe @nogc
out (allocator)
{
assert(allocator !is null);
@ -68,8 +72,8 @@ mixin template DefaultAllocator()
return allocator_;
}
/// Ditto.
@property shared(Allocator) allocator() const nothrow @trusted @nogc
/// ditto
@property shared(Allocator) allocator() const pure nothrow @trusted @nogc
out (allocator)
{
assert(allocator !is null);
@ -85,25 +89,44 @@ mixin template DefaultAllocator()
}
// From druntime
private extern (C) void _d_monitordelete(Object h, bool det) nothrow @nogc;
extern (C)
private void _d_monitordelete(Object h, bool det) pure nothrow @nogc;
shared Allocator allocator;
shared static this() nothrow @trusted @nogc
shared static this() nothrow @nogc
{
allocator = MmapPool.instance;
}
@property ref shared(Allocator) defaultAllocator() nothrow @safe @nogc
private shared(Allocator) getAllocatorInstance() nothrow @nogc
{
return allocator;
}
/**
* Returns: Default allocator.
*
* Postcondition: $(D_INLINECODE allocator !is null).
*/
@property shared(Allocator) defaultAllocator() pure nothrow @trusted @nogc
out (allocator)
{
assert(allocator !is null);
}
body
{
return allocator;
return (cast(GetPureInstance!Allocator) &getAllocatorInstance)();
}
/**
* Sets the default allocator.
*
* Params:
* allocator = $(D_PSYMBOL Allocator) instance.
*
* Precondition: $(D_INLINECODE allocator !is null).
*/
@property void defaultAllocator(shared(Allocator) allocator) nothrow @safe @nogc
in
{
@ -114,36 +137,58 @@ body
.allocator = allocator;
}
private nothrow @nogc unittest
{
import tanya.memory.mallocator;
auto oldAllocator = defaultAllocator;
defaultAllocator = Mallocator.instance;
assert(defaultAllocator is Mallocator.instance);
defaultAllocator = oldAllocator;
}
/**
* Returns the size in bytes of the state that needs to be allocated to hold an
* object of type $(D_PARAM T).
*
* There is a difference between the `.sizeof`-property and
* $(D_PSYMBOL stateSize) if $(D_PARAM T) is a class or an interface.
* `T.sizeof` is constant on the given architecture then and is the same as
* `size_t.sizeof` and `ptrdiff_t.sizeof`. This is because classes and
* interfaces are reference types and `.sizeof` returns the size of the
* reference which is the same as the size of a pointer. $(D_PSYMBOL stateSize)
* returns the size of the instance itself.
*
* The size of a dynamic array is `size_t.sizeof * 2` since a dynamic array
* stores its length and a data pointer. The size of the static arrays is
* calculated differently since they are value types. It is the array length
* multiplied by the element size.
*
* `stateSize!void` is `1` since $(D_KEYWORD void) is mostly used as a synonym
* for $(D_KEYWORD byte)/$(D_KEYWORD ubyte) in `void*`.
*
* Params:
* T = Object type.
*
* Returns: Size of an instance of type $(D_PARAM T).
*/
template stateSize(T)
{
static if (is(T == class) || is(T == interface))
static if (isPolymorphicType!T)
{
enum stateSize = __traits(classInstanceSize, T);
enum size_t stateSize = __traits(classInstanceSize, T);
}
else
{
enum stateSize = T.sizeof;
enum size_t stateSize = T.sizeof;
}
}
///
@nogc nothrow pure @safe unittest
{
static assert(stateSize!int == 4);
static assert(stateSize!bool == 1);
static assert(stateSize!(int[]) == (size_t.sizeof * 2));
static assert(stateSize!(short[3]) == 6);
static struct Empty
{
}
static assert(stateSize!Empty == 1);
static assert(stateSize!void == 1);
}
/**
* Params:
* size = Raw size.
@ -157,7 +202,7 @@ pure nothrow @safe @nogc
return (size - 1) / alignment * alignment + alignment;
}
/**
/*
* Internal function used to create, resize or destroy a dynamic array. It
* may throw $(D_PSYMBOL OutOfMemoryError). The new
* allocated part of the array isn't initialized. This function can be trusted
@ -184,14 +229,14 @@ package(tanya) T[] resize(T)(shared Allocator allocator,
}
else
{
onOutOfMemoryErrorNoGC();
onOutOfMemoryError();
}
}
void[] buf = array;
if (!allocator.reallocate(buf, length * T.sizeof))
{
onOutOfMemoryErrorNoGC();
onOutOfMemoryError();
}
// Casting from void[] is unsafe, but we know we cast to the original type.
array = cast(T[]) buf;
@ -271,7 +316,8 @@ package(tanya) void[] finalize(T)(ref T p)
// shouldn't throw and if it does, it is an error anyway.
if (c.destructor)
{
(cast(void function (Object) nothrow @safe @nogc) c.destructor)(ob);
alias DtorType = void function(Object) pure nothrow @safe @nogc;
(cast(DtorType) c.destructor)(ob);
}
}
while ((c = c.base) !is null);
@ -322,7 +368,7 @@ private unittest
}
// Works with interfaces.
private unittest
private pure unittest
{
interface I
{
@ -336,3 +382,120 @@ private unittest
defaultAllocator.dispose(i);
defaultAllocator.dispose(i);
}
/**
* Constructs a new class instance of type $(D_PARAM T) using $(D_PARAM args)
* as the parameter list for the constructor of $(D_PARAM T).
*
* Params:
* T = Class type.
* A = Types of the arguments to the constructor of $(D_PARAM T).
* allocator = Allocator.
* args = Constructor arguments of $(D_PARAM T).
*
* Returns: Newly created $(D_PSYMBOL T).
*
* Precondition: $(D_INLINECODE allocator !is null)
*/
T make(T, A...)(shared Allocator allocator, auto ref A args)
if (is(T == class))
in
{
assert(allocator !is null);
}
body
{
auto mem = (() @trusted => allocator.allocate(stateSize!T))();
if (mem is null)
{
onOutOfMemoryError();
}
scope (failure)
{
() @trusted { allocator.deallocate(mem); }();
}
return emplace!T(mem[0 .. stateSize!T], args);
}
/**
* Constructs a value object of type $(D_PARAM T) using $(D_PARAM args)
* as the parameter list for the constructor of $(D_PARAM T) and returns a
* pointer to the new object.
*
* Params:
* T = Object type.
* A = Types of the arguments to the constructor of $(D_PARAM T).
* allocator = Allocator.
* args = Constructor arguments of $(D_PARAM T).
*
* Returns: Pointer to the created object.
*
* Precondition: $(D_INLINECODE allocator !is null)
*/
T* make(T, A...)(shared Allocator allocator, auto ref A args)
if (!is(T == interface)
&& !is(T == class)
&& !isAssociativeArray!T
&& !isArray!T)
in
{
assert(allocator !is null);
}
body
{
auto mem = (() @trusted => allocator.allocate(stateSize!T))();
if (mem is null)
{
onOutOfMemoryError();
}
scope (failure)
{
() @trusted { allocator.deallocate(mem); }();
}
return emplace!T(mem[0 .. stateSize!T], args);
}
///
unittest
{
int* i = defaultAllocator.make!int(5);
assert(*i == 5);
defaultAllocator.dispose(i);
}
/**
* Constructs a new array with $(D_PARAM n) elements.
*
* Params:
* T = Array type.
* allocator = Allocator.
* n = Array size.
*
* Returns: Newly created array.
*
* Precondition: $(D_INLINECODE allocator !is null
* && n <= size_t.max / ElementType!T.sizeof)
*/
T make(T)(shared Allocator allocator, const size_t n)
if (isArray!T)
in
{
assert(allocator !is null);
assert(n <= size_t.max / ElementType!T.sizeof);
}
body
{
auto ret = allocator.resize!(ElementType!T)(null, n);
ret.uninitializedFill(ElementType!T.init);
return ret;
}
///
unittest
{
int[] i = defaultAllocator.make!(int[])(2);
assert(i.length == 2);
assert(i[0] == int.init && i[1] == int.init);
defaultAllocator.dispose(i);
}

151
source/tanya/memory/smartref.d
View File

@ -6,26 +6,34 @@
* Smart pointers.
*
* A smart pointer is an object that wraps a raw pointer or a reference
* (class, array) to manage its lifetime.
* (class, dynamic array) to manage its lifetime.
*
* This module provides two kinds of lifetime management strategies:
* $(UL
* $(LI Reference counting)
* $(LI Unique ownership)
* )
*
* Copyright: Eugene Wissner 2016-2017.
* License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
* Mozilla Public License, v. 2.0).
* Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
* Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/memory/smartref.d,
* tanya/memory/smartref.d)
*/
module tanya.memory.smartref;
import core.exception;
import std.algorithm.comparison;
import std.algorithm.mutation;
import std.conv;
import std.range;
import std.traits;
import tanya.algorithm.mutation;
import tanya.conv;
import tanya.exception;
import tanya.memory;
import tanya.meta.trait;
import tanya.range.primitive;
package template Payload(T)
private template Payload(T)
{
static if (is(T == class) || is(T == interface) || isArray!T)
static if (isPolymorphicType!T || isArray!T)
{
alias Payload = T;
}
@ -35,7 +43,7 @@ package template Payload(T)
}
}
package final class RefCountedStore(T)
private final class RefCountedStore(T)
{
T payload;
size_t counter = 1;
@ -68,14 +76,14 @@ package final class RefCountedStore(T)
}
}
package void separateDeleter(T)(RefCountedStore!T storage,
private void separateDeleter(T)(RefCountedStore!T storage,
shared Allocator allocator)
{
allocator.dispose(storage.payload);
allocator.dispose(storage);
}
package void unifiedDeleter(T)(RefCountedStore!T storage,
private void unifiedDeleter(T)(RefCountedStore!T storage,
shared Allocator allocator)
{
auto ptr1 = finalize(storage);
@ -125,7 +133,7 @@ struct RefCounted(T)
this.storage.payload = value;
}
/// Ditto.
/// ditto
this(shared Allocator allocator)
in
{
@ -200,14 +208,7 @@ struct RefCounted(T)
return this;
}
private @nogc unittest
{
auto rc = defaultAllocator.refCounted!int(5);
rc = defaultAllocator.make!int(7);
assert(*rc == 7);
}
/// Ditto.
/// ditto
ref typeof(this) opAssign(typeof(null))
{
if (this.storage is null)
@ -227,15 +228,7 @@ struct RefCounted(T)
return this;
}
private @nogc unittest
{
RefCounted!int rc;
assert(!rc.isInitialized);
rc = null;
assert(!rc.isInitialized);
}
/// Ditto.
/// ditto
ref typeof(this) opAssign(typeof(this) rhs)
{
swap(this.allocator_, rhs.allocator_);
@ -306,7 +299,7 @@ struct RefCounted(T)
}
///
unittest
@nogc @system unittest
{
auto rc = RefCounted!int(defaultAllocator.make!int(5), defaultAllocator);
auto val = rc.get();
@ -322,7 +315,22 @@ unittest
assert(*rc.storage.payload == 9);
}
private @nogc unittest
@nogc @system unittest
{
auto rc = defaultAllocator.refCounted!int(5);
rc = defaultAllocator.make!int(7);
assert(*rc == 7);
}
@nogc @system unittest
{
RefCounted!int rc;
assert(!rc.isInitialized);
rc = null;
assert(!rc.isInitialized);
}
@nogc @system unittest
{
auto rc = defaultAllocator.refCounted!int(5);
@ -338,7 +346,7 @@ private @nogc unittest
assert(*rc == 5);
}
private @nogc unittest
@nogc @system unittest
{
RefCounted!int rc;
@ -353,7 +361,7 @@ private @nogc unittest
assert(rc.count == 0);
}
private unittest
@nogc @system unittest
{
RefCounted!int rc1, rc2;
static assert(is(typeof(rc1 = rc2)));
@ -387,7 +395,7 @@ version (unittest)
}
}
private @nogc unittest
@nogc @system unittest
{
uint destroyed;
auto a = defaultAllocator.make!A(destroyed);
@ -397,7 +405,7 @@ private @nogc unittest
auto rc = RefCounted!A(a, defaultAllocator);
assert(rc.count == 1);
void func(RefCounted!A rc) @nogc
void func(RefCounted!A rc) @nogc @system
{
assert(rc.count == 2);
}
@ -413,14 +421,14 @@ private @nogc unittest
assert(rc.count == 1);
}
private @nogc unittest
@nogc @system unittest
{
auto rc = RefCounted!int(defaultAllocator);
assert(!rc.isInitialized);
assert(rc.allocator is defaultAllocator);
}
private @nogc unittest
@nogc @system unittest
{
auto rc = defaultAllocator.refCounted!int(5);
assert(rc.count == 1);
@ -442,7 +450,7 @@ private @nogc unittest
assert(rc.count == 0);
}
private unittest
@nogc @system unittest
{
auto rc = defaultAllocator.refCounted!int(5);
assert(*rc == 5);
@ -458,7 +466,7 @@ private unittest
assert(*rc == 5);
}
private unittest
@nogc nothrow pure @safe unittest
{
static assert(is(typeof(RefCounted!int.storage.payload) == int*));
static assert(is(typeof(RefCounted!A.storage.payload) == A));
@ -509,17 +517,9 @@ body
{
() @trusted { allocator.deallocate(mem); }();
}
rc.storage = emplace!((RefCounted!T.Storage))(mem[0 .. storageSize]);
static if (is(T == class))
{
rc.storage = emplace!(RefCounted!T.Storage)(mem[0 .. storageSize]);
rc.storage.payload = emplace!T(mem[storageSize .. $], args);
}
else
{
auto ptr = (() @trusted => (cast(T*) mem[storageSize .. $].ptr))();
rc.storage.payload = emplace!T(ptr, args);
}
rc.deleter = &unifiedDeleter!(Payload!T);
return rc;
}
@ -548,12 +548,11 @@ in
}
body
{
auto payload = allocator.resize!(ElementType!T)(null, size);
return RefCounted!T(payload, allocator);
return RefCounted!T(allocator.make!T(size), allocator);
}
///
unittest
@nogc @system unittest
{
auto rc = defaultAllocator.refCounted!int(5);
assert(rc.count == 1);
@ -574,7 +573,7 @@ unittest
assert(rc.count == 1);
}
private @nogc unittest
@nogc @system unittest
{
struct E
{
@ -596,13 +595,13 @@ private @nogc unittest
}
}
private @nogc unittest
@nogc @system unittest
{
auto rc = defaultAllocator.refCounted!(int[])(5);
assert(rc.length == 5);
}
private @nogc unittest
@nogc @system unittest
{
auto p1 = defaultAllocator.make!int(5);
auto p2 = p1;
@ -610,13 +609,13 @@ private @nogc unittest
assert(rc.get() is p2);
}
private @nogc unittest
@nogc @system unittest
{
static bool destroyed = false;
static bool destroyed;
struct F
static struct F
{
~this() @nogc
~this() @nogc nothrow @safe
{
destroyed = true;
}
@ -659,7 +658,7 @@ struct Unique(T)
this.payload = value;
}
/// Ditto.
/// ditto
this(shared Allocator allocator)
in
{
@ -705,14 +704,14 @@ struct Unique(T)
return this;
}
/// Ditto.
/// ditto
ref typeof(this) opAssign(typeof(null))
{
allocator.dispose(this.payload);
return this;
}
/// Ditto.
/// ditto
ref typeof(this) opAssign(typeof(this) rhs)
{
swap(this.allocator_, rhs.allocator_);
@ -722,7 +721,7 @@ struct Unique(T)
}
///
@nogc unittest
@nogc nothrow pure @system unittest
{
auto rc = defaultAllocator.unique!int(5);
rc = defaultAllocator.make!int(7);
@ -769,7 +768,7 @@ struct Unique(T)
}
///
@nogc unittest
@nogc nothrow pure @system unittest
{
Unique!int u;
assert(!u.isInitialized);
@ -788,7 +787,7 @@ struct Unique(T)
}
///
@nogc unittest
@nogc nothrow pure @system unittest
{
auto u = defaultAllocator.unique!int(5);
assert(u.isInitialized);
@ -803,7 +802,7 @@ struct Unique(T)
}
///
@nogc unittest
@nogc nothrow pure @system unittest
{
auto p = defaultAllocator.make!int(5);
auto s = Unique!int(p, defaultAllocator);
@ -811,13 +810,13 @@ struct Unique(T)
}
///
@nogc unittest
@nogc nothrow @system unittest
{
static bool destroyed = false;
static bool destroyed;
struct F
static struct F
{
~this() @nogc
~this() @nogc nothrow @safe
{
destroyed = true;
}
@ -852,7 +851,7 @@ in
}
body
{
auto payload = allocator.make!(T, shared Allocator, A)(args);
auto payload = allocator.make!(T, A)(args);
return Unique!T(payload, allocator);
}
@ -884,13 +883,13 @@ body
return Unique!T(payload, allocator);
}
private unittest
@nogc nothrow pure @safe unittest
{
static assert(is(typeof(defaultAllocator.unique!B(5))));
static assert(is(typeof(defaultAllocator.unique!(int[])(5))));
}
private unittest
@nogc nothrow pure @system unittest
{
auto s = defaultAllocator.unique!int(5);
assert(*s == 5);
@ -899,7 +898,7 @@ private unittest
assert(s is null);
}
private unittest
@nogc nothrow pure @system unittest
{
auto s = defaultAllocator.unique!int(5);
assert(*s == 5);
@ -908,7 +907,7 @@ private unittest
assert(*s == 4);
}
private @nogc unittest
@nogc nothrow pure @system unittest
{
auto p1 = defaultAllocator.make!int(5);
auto p2 = p1;
@ -917,7 +916,7 @@ private @nogc unittest
assert(rc.get() is p2);
}
private @nogc unittest
@nogc nothrow pure @system unittest
{
auto rc = Unique!int(defaultAllocator);
assert(rc.allocator is defaultAllocator);

301
source/tanya/memory/types.d
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@ -1,301 +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/. */
/**
* Smart pointers.
*
* $(RED Deprecated. Use $(D_PSYMBOL tanya.memory.smartref) instead.
* This module will be removed in 0.8.0.)
*
* Copyright: Eugene Wissner 2016-2017.
* 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)
*/
deprecated("Use tanya.memory.smartref instead")
module tanya.memory.types;
import core.exception;
import std.algorithm.comparison;
import std.algorithm.mutation;
import std.conv;
import std.range;
import std.traits;
import tanya.memory;
public import tanya.memory.smartref : RefCounted, Payload;
version (unittest)
{
private struct B
{
int prop;
@disable this();
this(int param1) @nogc
{
prop = param1;
}
}
}
/**
* $(D_PSYMBOL Scoped) stores an object that gets destroyed at the end of its scope.
*
* Params:
* T = Value type.
*/
struct Scoped(T)
{
private Payload!T payload;
invariant
{
assert(payload is null || allocator_ !is null);
}
/**
* Takes ownership over $(D_PARAM value), setting the counter to 1.
* $(D_PARAM value) may be a pointer, an object or a dynamic array.
*
* Params:
* value = Value whose ownership is taken over.
* allocator = Allocator used to destroy the $(D_PARAM value) and to
* allocate/deallocate internal storage.
*
* Precondition: $(D_INLINECODE allocator !is null)
*/
this()(auto ref Payload!T value,
shared Allocator allocator = defaultAllocator)
{
this(allocator);
move(value, this.payload);
static if (__traits(isRef, value))
{
value = null;
}
}
/// Ditto.
this(shared Allocator allocator)
in
{
assert(allocator !is null);
}
body
{
this.allocator_ = allocator;
}
/**
* $(D_PSYMBOL Scoped) is noncopyable.
*/
@disable this(this);
/**
* Destroys the owned object.
*/
~this()
{
if (this.payload !is null)
{
allocator.dispose(this.payload);
}
}
/**
* Initialized this $(D_PARAM Scoped) and takes ownership over
* $(D_PARAM rhs).
*
* To reset $(D_PSYMBOL Scoped) assign $(D_KEYWORD null).
*
* If the allocator wasn't set before, $(D_PSYMBOL defaultAllocator) will
* be used. If you need a different allocator, create a new
* $(D_PSYMBOL Scoped) and assign it.
*
* Params:
* rhs = New object.
*
* Returns: $(D_KEYWORD this).
*/
ref typeof(this) opAssign()(auto ref Payload!T rhs)
{
allocator.dispose(this.payload);
move(rhs, this.payload);
return this;
}
/// Ditto.
ref typeof(this) opAssign(typeof(null))
{
allocator.dispose(this.payload);
return this;
}
/// Ditto.
ref typeof(this) opAssign(typeof(this) rhs)
{
swap(this.allocator_, rhs.allocator_);
swap(this.payload, rhs.payload);
return this;
}
/**
* Returns: Reference to the owned object.
*/
Payload!T get() pure nothrow @safe @nogc
{
return payload;
}
version (D_Ddoc)
{
/**
* Params:
* op = Operation.
*
* Dereferences the pointer. It is defined only for pointers, not for
* reference types like classes, that can be accessed directly.
*
* Returns: Reference to the pointed value.
*/
ref T opUnary(string op)()
if (op == "*");
}
else static if (isPointer!(Payload!T))
{
ref T opUnary(string op)()
if (op == "*")
{
return *payload;
}
}
mixin DefaultAllocator;
alias get this;
}
///
@nogc unittest
{
auto p = defaultAllocator.make!int(5);
auto s = Scoped!int(p, defaultAllocator);
assert(p is null);
assert(*s == 5);
}
///
@nogc unittest
{
static bool destroyed = false;
struct F
{
~this() @nogc
{
destroyed = true;
}
}
{
auto s = Scoped!F(defaultAllocator.make!F(), defaultAllocator);
}
assert(destroyed);
}
/**
* Constructs a new object of type $(D_PARAM T) and wraps it in a
* $(D_PSYMBOL Scoped) using $(D_PARAM args) as the parameter list for
* the constructor of $(D_PARAM T).
*
* Params:
* T = Type of the constructed object.
* A = Types of the arguments to the constructor of $(D_PARAM T).
* allocator = Allocator.
* args = Constructor arguments of $(D_PARAM T).
*
* Returns: Newly created $(D_PSYMBOL Scoped!T).
*
* Precondition: $(D_INLINECODE allocator !is null)
*/
Scoped!T scoped(T, A...)(shared Allocator allocator, auto ref A args)
if (!is(T == interface) && !isAbstractClass!T
&& !isAssociativeArray!T && !isArray!T)
in
{
assert(allocator !is null);
}
body
{
auto payload = allocator.make!(T, shared Allocator, A)(args);
return Scoped!T(payload, allocator);
}
/**
* Constructs a new array with $(D_PARAM size) elements and wraps it in a
* $(D_PSYMBOL Scoped).
*
* Params:
* T = Array type.
* size = Array size.
* allocator = Allocator.
*
* Returns: Newly created $(D_PSYMBOL Scoped!T).
*
* Precondition: $(D_INLINECODE allocator !is null
* && size <= size_t.max / ElementType!T.sizeof)
*/
Scoped!T scoped(T)(shared Allocator allocator, const size_t size)
@trusted
if (isArray!T)
in
{
assert(allocator !is null);
assert(size <= size_t.max / ElementType!T.sizeof);
}
body
{
auto payload = allocator.resize!(ElementType!T)(null, size);
return Scoped!T(payload, allocator);
}
private unittest
{
static assert(is(typeof(defaultAllocator.scoped!B(5))));
static assert(is(typeof(defaultAllocator.scoped!(int[])(5))));
}
private unittest
{
auto s = defaultAllocator.scoped!int(5);
assert(*s == 5);
s = null;
assert(s is null);
}
private unittest
{
auto s = defaultAllocator.scoped!int(5);
assert(*s == 5);
s = defaultAllocator.scoped!int(4);
assert(*s == 4);
}
private @nogc unittest
{
auto p1 = defaultAllocator.make!int(5);
auto p2 = p1;
auto rc = Scoped!int(p1, defaultAllocator);
assert(p1 is null);
assert(rc.get() is p2);
}
private @nogc unittest
{
auto rc = Scoped!int(defaultAllocator);
assert(rc.allocator is defaultAllocator);
}

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@ -0,0 +1,23 @@
/* 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/. */
/**
* Template metaprogramming.
*
* This package contains utilities to acquire type information at compile-time,
* to transform from one type to another. It has also different algorithms for
* iterating, searching and modifying template arguments.
*
* Copyright: Eugene Wissner 2017.
* License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
* Mozilla Public License, v. 2.0).
* Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
* Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/meta/package.d,
* tanya/meta/package.d)
*/
module tanya.meta;
public import tanya.meta.metafunction;
public import tanya.meta.trait;
public import tanya.meta.transform;

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@ -0,0 +1,719 @@
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
/**
* Type transformations.
*
* Templates in this module can be used to modify type qualifiers or transform
* types. They take some type as argument and return a different type after
* perfoming the specified transformation.
*
* Copyright: Eugene Wissner 2017.
* License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
* Mozilla Public License, v. 2.0).
* Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
* Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/meta/transform.d,
* tanya/meta/transform.d)
*/
module tanya.meta.transform;
import tanya.meta.trait;
/**
* Removes any type qualifiers from $(D_PARAM T).
*
* Removed qualifiers are:
* $(UL
* $(LI const)
* $(LI immutable)
* $(LI inout)
* $(LI shared)
* )
* and combinations of these.
*
* If the type $(D_PARAM T) doesn't have any qualifieres,
* $(D_INLINECODE Unqual!T) becomes an alias for $(D_PARAM T).
*
* Params:
* T = A type.
*
* Returns: $(D_PARAM T) without any type qualifiers.
*/
template Unqual(T)
{
static if (is(T U == const U)
|| is(T U == immutable U)
|| is(T U == inout U)
|| is(T U == inout const U)
|| is(T U == shared U)
|| is(T U == shared const U)
|| is(T U == shared inout U)
|| is(T U == shared inout const U))
{
alias Unqual = U;
}
else
{
alias Unqual = T;
}
}
///
@nogc nothrow pure @safe unittest
{
static assert(is(Unqual!bool == bool));
static assert(is(Unqual!(immutable bool) == bool));
static assert(is(Unqual!(inout bool) == bool));
static assert(is(Unqual!(inout const bool) == bool));
static assert(is(Unqual!(shared bool) == bool));
static assert(is(Unqual!(shared const bool) == bool));
static assert(is(Unqual!(shared inout const bool) == bool));
}
/**
* If $(D_PARAM T) is an $(D_KEYWORD enum), $(D_INLINECODE OriginalType!T)
* evaluates to the most base type of that $(D_KEYWORD enum) and to
* $(D_PARAM T) otherwise.
*
* Params:
* T = A type.
*
* Returns: Base type of the $(D_KEYWORD enum) $(D_PARAM T) or $(D_PARAM T)
* itself.
*/
template OriginalType(T)
{
static if (is(T U == enum))
{
alias OriginalType = OriginalType!U;
}
else
{
alias OriginalType = T;
}
}
///
@nogc nothrow pure @safe unittest
{
enum E1 : const(int)
{
n = 0,
}
enum E2 : bool
{
t = true,
}
enum E3 : E2
{
t = E2.t,
}
enum E4 : const(E2)
{
t = E2.t,
}
static assert(is(OriginalType!E1 == const int));
static assert(is(OriginalType!E2 == bool));
static assert(is(OriginalType!E3 == bool));
static assert(is(OriginalType!E4 == bool));
static assert(is(OriginalType!(const E4) == bool));
}
/**
* Copies constness of $(D_PARAM From) to $(D_PARAM To).
*
* The following type qualifiers affect the constness and hence are copied:
* $(UL
* $(LI const)
* $(LI immutable)
* $(LI inout)
* $(LI inout const)
* )
*
* Params:
* From = Source type.
* To = Target type.
*
* Returns: $(D_PARAM To) with the constness of $(D_PARAM From).
*
* See_Also: $(D_PSYMBOL CopyTypeQualifiers).
*/
template CopyConstness(From, To)
{
static if (is(From T == immutable T))
{
alias CopyConstness = immutable To;
}
else static if (is(From T == const T) || is(From T == shared const T))
{
alias CopyConstness = const To;
}
else static if (is(From T == inout T) || is(From T == shared inout T))
{
alias CopyConstness = inout To;
}
else static if (is(From T == inout const T)
|| is(From T == shared inout const T))
{
alias CopyConstness = inout const To;
}
else
{
alias CopyConstness = To;
}
}
///
@nogc nothrow pure @safe unittest
{
static assert(is(CopyConstness!(int, char) == char));
static assert(is(CopyConstness!(const int, char) == const char));
static assert(is(CopyConstness!(immutable int, char) == immutable char));
static assert(is(CopyConstness!(inout int, char) == inout char));
static assert(is(CopyConstness!(inout const int, char) == inout const char));
static assert(is(CopyConstness!(shared int, char) == char));
static assert(is(CopyConstness!(shared const int, char) == const char));
static assert(is(CopyConstness!(shared inout int, char) == inout char));
static assert(is(CopyConstness!(shared inout const int, char) == inout const char));
static assert(is(CopyConstness!(const int, shared char) == shared const char));
static assert(is(CopyConstness!(const int, immutable char) == immutable char));
static assert(is(CopyConstness!(immutable int, const char) == immutable char));
}
/**
* Copies type qualifiers of $(D_PARAM From) to $(D_PARAM To).
*
* Type qualifiers copied are:
* $(UL
* $(LI const)
* $(LI immutable)
* $(LI inout)
* $(LI shared)
* )
* and combinations of these.
*
* Params:
* From = Source type.
* To = Target type.
*
* Returns: $(D_PARAM To) with the type qualifiers of $(D_PARAM From).
*
* See_Also: $(D_PSYMBOL CopyConstness).
*/
template CopyTypeQualifiers(From, To)
{
static if (is(From T == immutable T))
{
alias CopyTypeQualifiers = immutable To;
}
else static if (is(From T == const T))
{
alias CopyTypeQualifiers = const To;
}
else static if (is(From T == shared T))
{
alias CopyTypeQualifiers = shared To;
}
else static if (is(From T == shared const T))
{
alias CopyTypeQualifiers = shared const To;
}
else static if (is(From T == inout T))
{
alias CopyTypeQualifiers = inout To;
}
else static if (is(From T == shared inout T))
{
alias CopyTypeQualifiers = shared inout To;
}
else static if (is(From T == inout const T))
{
alias CopyTypeQualifiers = inout const To;
}
else static if (is(From T == shared inout const T))
{
alias CopyTypeQualifiers = shared inout const To;
}
else
{
alias CopyTypeQualifiers = To;
}
}
///
@nogc nothrow pure @safe unittest
{
static assert(is(CopyTypeQualifiers!(int, char) == char));
static assert(is(CopyTypeQualifiers!(const int, char) == const char));
static assert(is(CopyTypeQualifiers!(immutable int, char) == immutable char));
static assert(is(CopyTypeQualifiers!(inout int, char) == inout char));
static assert(is(CopyTypeQualifiers!(inout const int, char) == inout const char));
static assert(is(CopyTypeQualifiers!(shared int, char) == shared char));
static assert(is(CopyTypeQualifiers!(shared const int, char) == shared const char));
static assert(is(CopyTypeQualifiers!(shared inout int, char) == shared inout char));
static assert(is(CopyTypeQualifiers!(shared inout const int, char) == shared inout const char));
}
/**
* Evaluates to the unsigned counterpart of the integral type $(D_PARAM T) preserving all type qualifiers.
* If $(D_PARAM T) is already unsigned, $(D_INLINECODE Unsigned!T) aliases $(D_PARAM T).
*
* Params:
* T = A type.
*
* Returns: Unsigned counterpart of $(D_PARAM T).
*
* See_Also: $(D_PSYMBOL isSigned).
*/
template Unsigned(T)
if (isIntegral!T)
{
alias UnqualedType = Unqual!(OriginalType!T);
static if (is(UnqualedType == byte))
{
alias Unsigned = CopyTypeQualifiers!(T, ubyte);
}
else static if (is(UnqualedType == short))
{
alias Unsigned = CopyTypeQualifiers!(T, ushort);
}
else static if (is(UnqualedType == int))
{
alias Unsigned = CopyTypeQualifiers!(T, uint);
}
else static if (is(UnqualedType == long))
{
alias Unsigned = CopyTypeQualifiers!(T, ulong);
}
else
{
alias Unsigned = T;
}
}
///
@nogc nothrow pure @safe unittest
{
static assert(is(Unsigned!byte == ubyte));
static assert(is(Unsigned!short == ushort));
static assert(is(Unsigned!int == uint));
static assert(is(Unsigned!long == ulong));
static assert(is(Unsigned!(const byte) == const ubyte));
static assert(is(Unsigned!(shared byte) == shared ubyte));
static assert(is(Unsigned!(shared const byte) == shared const ubyte));
static assert(!is(Unsigned!float));
static assert(is(Unsigned!ubyte == ubyte));
}
/**
* Evaluates to the signed counterpart of the integral type $(D_PARAM T) preserving all type qualifiers.
* If $(D_PARAM T) is already signed, $(D_INLINECODE Signed!T) aliases $(D_PARAM T).
*
* Params:
* T = A type.
*
* Returns: Signed counterpart of $(D_PARAM T).
*
* See_Also: $(D_PSYMBOL isUnsigned).
*/
template Signed(T)
if (isIntegral!T)
{
alias UnqualedType = Unqual!(OriginalType!T);
static if (is(UnqualedType == ubyte))
{
alias Signed = CopyTypeQualifiers!(T, byte);
}
else static if (is(UnqualedType == ushort))
{
alias Signed = CopyTypeQualifiers!(T, short);
}
else static if (is(UnqualedType == uint))
{
alias Signed = CopyTypeQualifiers!(T, int);
}
else static if (is(UnqualedType == ulong))
{
alias Signed = CopyTypeQualifiers!(T, long);
}
else
{
alias Signed = T;
}
}
///
@nogc nothrow pure @safe unittest
{
static assert(is(Signed!ubyte == byte));
static assert(is(Signed!ushort == short));
static assert(is(Signed!uint == int));
static assert(is(Signed!ulong == long));
static assert(is(Signed!(const ubyte) == const byte));
static assert(is(Signed!(shared ubyte) == shared byte));
static assert(is(Signed!(shared const ubyte) == shared const byte));
static assert(!is(Signed!float));
static assert(is(Signed!byte == byte));
}
/**
* Retrieves the target type `U` of a pointer `U*`.
*
* Params:
* T = Pointer type.
*
* Returns: Pointer target type.
*/
template PointerTarget(T)
{
static if (is(T U : U*))
{
alias PointerTarget = U;
}
else
{
static assert(T.stringof ~ " isn't a pointer type");
}
}
///
@nogc nothrow pure @safe unittest
{
static assert(is(PointerTarget!(bool*) == bool));
static assert(is(PointerTarget!(const bool*) == const bool));
static assert(is(PointerTarget!(const shared bool*) == const shared bool));
static assert(!is(PointerTarget!bool));
}
/**
* Params:
* T = The type of the associative array.
*
* Returns: The key type of the associative array $(D_PARAM T).
*/
template KeyType(T)
{
static if (is(T V : V[K], K))
{
alias KeyType = K;
}
else
{
static assert(false, T.stringof ~ " isn't an associative array");
}
}
///
@nogc nothrow pure @safe unittest
{
static assert(is(KeyType!(int[string]) == string));
static assert(!is(KeyType!(int[15])));
}
/**
* Params:
* T = The type of the associative array.
*
* Returns: The value type of the associative array $(D_PARAM T).
*/
template ValueType(T)
{
static if (is(T V : V[K], K))
{
alias ValueType = V;
}
else
{
static assert(false, T.stringof ~ " isn't an associative array");
}
}
///
@nogc nothrow pure @safe unittest
{
static assert(is(ValueType!(int[string]) == int));
static assert(!is(ValueType!(int[15])));
}
/**
* Params:
* T = Scalar type.
*
* Returns: The type $(D_PARAM T) will promote to.
*
* See_Also: $(LINK2 https://dlang.org/spec/type.html#integer-promotions,
* Integer Promotions).
*/
template Promoted(T)
if (isScalarType!T)
{
alias Promoted = CopyTypeQualifiers!(T, typeof(T.init + T.init));
}
///
@nogc nothrow pure @safe unittest
{
static assert(is(Promoted!bool == int));
static assert(is(Promoted!byte == int));
static assert(is(Promoted!ubyte == int));
static assert(is(Promoted!short == int));
static assert(is(Promoted!ushort == int));
static assert(is(Promoted!char == int));
static assert(is(Promoted!wchar == int));
static assert(is(Promoted!dchar == uint));
static assert(is(Promoted!(const bool) == const int));
static assert(is(Promoted!(shared bool) == shared int));
}
/**
* Adds $(D_KEYWORD inout) qualifier to the type $(D_PARAM T).
*
* Params:
* T = A type.
*
* Returns: $(D_INLINECODE inout(T)).
*/
alias InoutOf(T) = inout(T);
///
@nogc nothrow pure @safe unittest
{
static assert(is(InoutOf!int == inout int));
}
/**
* Adds $(D_KEYWORD inout) qualifier to the type $(D_PARAM T).
*
* Params:
* T = A type.
*
* Returns: $(D_INLINECODE inout(T)).
*/
alias ConstOf(T) = const(T);
///
@nogc nothrow pure @safe unittest
{
static assert(is(ConstOf!int == const int));
}
/**
* Adds $(D_KEYWORD inout) qualifier to the type $(D_PARAM T).
*
* Params:
* T = A type.
*
* Returns: $(D_INLINECODE inout(T)).
*/
alias SharedOf(T) = shared(T);
///
@nogc nothrow pure @safe unittest
{
static assert(is(SharedOf!int == shared int));
}
/**
* Adds $(D_KEYWORD inout) qualifier to the type $(D_PARAM T).
*
* Params:
* T = A type.
*
* Returns: $(D_INLINECODE inout(T)).
*/
alias SharedInoutOf(T) = shared(inout T);
///
@nogc nothrow pure @safe unittest
{
static assert(is(SharedInoutOf!int == shared inout int));
}
/**
* Adds $(D_KEYWORD shared const) qualifier to the type $(D_PARAM T).
*
* Params:
* T = A type.
*
* Returns: $(D_INLINECODE shared(const T)).
*/
alias SharedConstOf(T) = shared(const T);
///
@nogc nothrow pure @safe unittest
{
static assert(is(SharedConstOf!int == shared const int));
}
/**
* Adds $(D_KEYWORD immutable) qualifier to the type $(D_PARAM T).
*
* Params:
* T = A type.
*
* Returns: $(D_INLINECODE immutable(T)).
*/
alias ImmutableOf(T) = immutable(T);
///
@nogc nothrow pure @safe unittest
{
static assert(is(ImmutableOf!int == immutable int));
}
/**
* Adds $(D_KEYWORD inout const) qualifier to the type $(D_PARAM T).
*
* Params:
* T = A type.
*
* Returns: $(D_INLINECODE inout(const T)).
*/
alias InoutConstOf(T) = inout(const T);
///
@nogc nothrow pure @safe unittest
{
static assert(is(InoutConstOf!int == inout const int));
}
/**
* Adds $(D_KEYWORD shared inout const) qualifier to the type $(D_PARAM T).
*
* Params:
* T = A type.
*
* Returns: $(D_INLINECODE shared(inout const T)).
*/
alias SharedInoutConstOf(T) = shared(inout const T);
///
@nogc nothrow pure @safe unittest
{
static assert(is(SharedInoutConstOf!int == shared inout const int));
}
/**
* Returns a template with one argument which applies all qualifiers of
* $(D_PARAM T) on its argument if instantiated.
*
* Params:
* T = A type.
*
* Returns: $(D_INLINECODE shared(inout const T)).
*/
template QualifierOf(T)
{
static if (is(T U == const U))
{
alias QualifierOf = ConstOf;
}
else static if (is(T U == immutable U))
{
alias QualifierOf = ImmutableOf;
}
else static if (is(T U == inout U))
{
alias QualifierOf = InoutOf;
}
else static if (is(T U == inout const U))
{
alias QualifierOf = InoutConstOf;
}
else static if (is(T U == shared U))
{
alias QualifierOf = SharedOf;
}
else static if (is(T U == shared const U))
{
alias QualifierOf = SharedConstOf;
}
else static if (is(T U == shared inout U))
{
alias QualifierOf = SharedInoutOf;
}
else static if (is(T U == shared inout const U))
{
alias QualifierOf = SharedInoutConstOf;
}
else
{
alias QualifierOf(T) = T;
}
}
///
@nogc nothrow pure @safe unittest
{
alias MutableOf = QualifierOf!int;
static assert(is(MutableOf!uint == uint));
alias ConstOf = QualifierOf!(const int);
static assert(is(ConstOf!uint == const uint));
alias InoutOf = QualifierOf!(inout int);
static assert(is(InoutOf!uint == inout uint));
alias InoutConstOf = QualifierOf!(inout const int);
static assert(is(InoutConstOf!uint == inout const uint));
alias ImmutableOf = QualifierOf!(immutable int);
static assert(is(ImmutableOf!uint == immutable uint));
alias SharedOf = QualifierOf!(shared int);
static assert(is(SharedOf!uint == shared uint));
alias SharedConstOf = QualifierOf!(shared const int);
static assert(is(SharedConstOf!uint == shared const uint));
alias SharedInoutOf = QualifierOf!(shared inout int);
static assert(is(SharedInoutOf!uint == shared inout uint));
alias SharedInoutConstOf = QualifierOf!(shared inout const int);
static assert(is(SharedInoutConstOf!uint == shared inout const uint));
}
/**
* Determines the type of $(D_PARAM T). If $(D_PARAM T) is already a type,
* $(D_PSYMBOL TypeOf) aliases itself to $(D_PARAM T).
*
* $(D_PSYMBOL TypeOf) evaluates to $(D_KEYWORD void) for template arguments.
*
* The symbols that don't have a type and aren't types cannot be used as
* arguments to $(D_PSYMBOL TypeOf).
*
* Params:
* T = Expression, type or template.
*
* Returns: The type of $(D_PARAM T).
*/
alias TypeOf(T) = T;
/// ditto
template TypeOf(alias T)
if (isExpressions!T || isTemplate!T)
{
alias TypeOf = typeof(T);
}
///
@nogc nothrow pure @safe unittest
{
struct S(T)
{
}
static assert(is(TypeOf!S == void));
static assert(is(TypeOf!int == int));
static assert(is(TypeOf!true == bool));
static assert(!is(TypeOf!(tanya.meta)));
}

120
source/tanya/net/inet.d
View File

@ -9,26 +9,15 @@
* 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/inet.d,
* tanya/net/inet.d)
*/
module tanya.net.inet;
import std.math;
import std.range.primitives;
import std.traits;
version (unittest)
{
version (Windows)
{
import core.sys.windows.winsock2;
version = PlattformUnittest;
}
else version (Posix)
{
import core.sys.posix.arpa.inet;
version = PlattformUnittest;
}
}
import tanya.meta.trait;
import tanya.meta.transform;
import tanya.range.primitive;
/**
* Represents an unsigned integer as an $(D_KEYWORD ubyte) range.
@ -210,79 +199,6 @@ private unittest
static assert(!is(NetworkOrder!1));
}
// Tests against the system's htonl, htons.
version (PlattformUnittest)
{
private unittest
{
for (uint counter; counter <= 8 * uint.sizeof; ++counter)
{
const value = pow(2, counter) - 1;
const inNetworkOrder = htonl(value);
const p = cast(ubyte*) &inNetworkOrder;
auto networkOrder = NetworkOrder!4(value);
assert(networkOrder.length == 4);
assert(!networkOrder.empty);
assert(networkOrder.front == *p);
assert(networkOrder.back == *(p + 3));
networkOrder.popBack();
assert(networkOrder.length == 3);
assert(networkOrder.front == *p);
assert(networkOrder.back == *(p + 2));
networkOrder.popFront();
assert(networkOrder.length == 2);
assert(networkOrder.front == *(p + 1));
assert(networkOrder.back == *(p + 2));
networkOrder.popFront();
assert(networkOrder.length == 1);
assert(networkOrder.front == *(p + 2));
assert(networkOrder.back == *(p + 2));
networkOrder.popBack();
assert(networkOrder.length == 0);
assert(networkOrder.empty);
}
for (ushort counter; counter <= 8 * ushort.sizeof; ++counter)
{
const value = cast(ushort) (pow(2, counter) - 1);
const inNetworkOrder = htons(value);
const p = cast(ubyte*) &inNetworkOrder;
auto networkOrder = NetworkOrder!2(value);
assert(networkOrder.length == 2);
assert(!networkOrder.empty);
assert(networkOrder.front == *p);
assert(networkOrder.back == *(p + 1));
networkOrder.popBack();
assert(networkOrder.length == 1);
assert(networkOrder.front == *p);
assert(networkOrder.back == *p);
networkOrder.popBack();
assert(networkOrder.length == 0);
assert(networkOrder.empty);
networkOrder = NetworkOrder!2(value);
networkOrder.popFront();
assert(networkOrder.length == 1);
assert(networkOrder.front == *(p + 1));
assert(networkOrder.back == *(p + 1));
networkOrder.popFront();
assert(networkOrder.length == 0);
assert(networkOrder.empty);
}
}
}
/**
* Converts the $(D_KEYWORD ubyte) input range $(D_PARAM range) to
* $(D_PARAM T).
@ -328,29 +244,3 @@ pure nothrow @safe @nogc unittest
auto networkOrder = NetworkOrder!4(value);
assert(networkOrder.toHostOrder() == value);
}
// Tests against the system's htonl, htons.
version (PlattformUnittest)
{
private unittest
{
for (uint counter; counter <= 8 * uint.sizeof; ++counter)
{
const value = pow(2, counter) - 1;
const inNetworkOrder = htonl(value);
const p = cast(ubyte*) &inNetworkOrder;
auto networkOrder = NetworkOrder!4(value);
assert(p[0 .. uint.sizeof].toHostOrder() == value);
}
for (ushort counter; counter <= 8 * ushort.sizeof; ++counter)
{
const value = cast(ushort) (pow(2, counter) - 1);
const inNetworkOrder = htons(value);
const p = cast(ubyte*) &inNetworkOrder;
auto networkOrder = NetworkOrder!2(value);
assert(p[0 .. ushort.sizeof].toHostOrder() == value);
}
}
}

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

@ -9,6 +9,8 @@
* 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/package.d,
* tanya/net/package.d)
*/
module tanya.net;

255
source/tanya/net/uri.d
View File

@ -9,14 +9,19 @@
* 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/uri.d,
* tanya/net/uri.d)
*/
module tanya.net.uri;
import std.ascii : isAlphaNum, isDigit;
import std.traits : isSomeString;
import std.uni : isAlpha, isNumber;
import tanya.encoding.ascii;
import tanya.memory;
version (unittest)
{
import tanya.test.assertion;
}
/**
* Thrown if an invalid URI was specified.
*/
@ -70,17 +75,16 @@ struct URL
/**
* Attempts to parse an URL from a string.
* Output string data (scheme, user, etc.) are just slices of input string
* (e.g., no memory allocation and copying).
* (i.e., no memory allocation and copying).
*
* Params:
* source = The string containing the URL.
*
* Throws: $(D_PSYMBOL URIException) if the URL is malformed.
*/
this(const char[] source) @nogc
this(const char[] source) pure @nogc
{
auto value = source;
ptrdiff_t pos = -1, endPos = value.length, start;
ptrdiff_t pos = -1, endPos = source.length, start;
foreach (i, ref c; source)
{
@ -88,57 +92,54 @@ struct URL
{
pos = i;
}
if (endPos == value.length && (c == '?' || c == '#'))
if (endPos == source.length && (c == '?' || c == '#'))
{
endPos = i;
}
}
// Check if the colon is a part of the scheme or the port and parse
// the appropriate part
if (value.length > 1 && value[0] == '/' && value[1] == '/')
// the appropriate part.
if (source.length > 1 && source[0] == '/' && source[1] == '/')
{
// Relative scheme
// Relative scheme.
start = 2;
}
else if (pos > 0)
{
// Validate scheme
// Validate scheme:
// [ toLower(alpha) | digit | "+" | "-" | "." ]
foreach (ref c; value[0 .. pos])
foreach (ref c; source[0 .. pos])
{
if (!c.isAlphaNum && c != '+' && c != '-' && c != '.')
{
if (endPos > pos)
{
if (!parsePort(value[pos .. $]))
{
throw make!URIException(defaultAllocator,
"Failed to parse port");
}
}
goto ParsePath;
}
}
if (value.length == pos + 1) // only scheme is available
if (source.length == pos + 1) // only "scheme:" is available.
{
this.scheme = value[0 .. $ - 1];
this.scheme = source[0 .. $ - 1];
return;
}
else if (value.length > pos + 1 && value[pos + 1] == '/')
else if (source.length > pos + 1 && source[pos + 1] == '/')
{
this.scheme = value[0 .. pos];
this.scheme = source[0 .. pos];
if (value.length > pos + 2 && value[pos + 2] == '/')
if (source.length > pos + 2 && source[pos + 2] == '/')
{
start = pos + 3;
if (this.scheme == "file"
&& value.length > start
&& value[start] == '/')
if (source.length <= start)
{
// Windows drive letters
if (value.length - start > 2 && value[start + 2] == ':')
// Only "scheme://" is available.
return;
}
if (this.scheme == "file" && source[start] == '/')
{
// Windows drive letters.
if (source.length - start > 2
&& source[start + 2] == ':')
{
++start;
}
@ -151,20 +152,21 @@ struct URL
goto ParsePath;
}
}
else // certain schemas like mailto: and zlib: may not have any / after them
else
{
if (!parsePort(value[pos .. $]))
// Schemas like mailto: and zlib: may not have any slash after
// them.
if (!parsePort(source[pos .. $]))
{
this.scheme = value[0 .. pos];
this.scheme = source[0 .. pos];
start = pos + 1;
goto ParsePath;
}
}
}
else if (pos == 0 && parsePort(value[pos .. $]))
else if (pos == 0 && parsePort(source[pos .. $]))
{
// An URL shouldn't begin with a port number
// An URL shouldn't begin with a port number.
throw defaultAllocator.make!URIException("URL begins with port");
}
else
@ -172,37 +174,37 @@ struct URL
goto ParsePath;
}
// Parse host
// Parse host.
pos = -1;
for (ptrdiff_t i = start; i < value.length; ++i)
for (ptrdiff_t i = start; i < source.length; ++i)
{
if (value[i] == '@')
if (source[i] == '@')
{
pos = i;
}
else if (value[i] == '/')
else if (source[i] == '/')
{
endPos = i;
break;
}
}
// Check for login and password
// Check for login and password.
if (pos != -1)
{
// *( unreserved / pct-encoded / sub-delims / ":" )
foreach (i, c; value[start .. pos])
foreach (i, c; source[start .. pos])
{
if (c == ':')
{
if (this.user is null)
{
this.user = value[start .. start + i];
this.pass = value[start + i + 1 .. pos];
this.user = source[start .. start + i];
this.pass = source[start + i + 1 .. pos];
}
}
else if (!c.isAlpha &&
!c.isNumber &&
else if (!c.isAlpha() &&
!c.isDigit() &&
c != '!' &&
c != ';' &&
c != '=' &&
@ -217,23 +219,23 @@ struct URL
}
if (this.user is null)
{
this.user = value[start .. pos];
this.user = source[start .. pos];
}
start = ++pos;
}
pos = endPos;
if (endPos <= 1 || value[start] != '[' || value[endPos - 1] != ']')
if (endPos <= 1 || source[start] != '[' || source[endPos - 1] != ']')
{
// Short circuit portscan
// IPv6 embedded address
// Short circuit portscan.
// IPv6 embedded address.
for (ptrdiff_t i = endPos - 1; i >= start; --i)
{
if (value[i] == ':')
if (source[i] == ':')
{
pos = i;
if (this.port == 0 && !parsePort(value[i .. endPos]))
if (this.port == 0 && !parsePort(source[i .. endPos]))
{
this.scheme = this.user = this.pass = null;
throw defaultAllocator.make!URIException("Invalid port");
@ -243,16 +245,16 @@ struct URL
}
}
// Check if we have a valid host, if we don't reject the string as url
// Check if we have a valid host, if we don't reject the string as URL.
if (pos <= start)
{
this.scheme = this.user = this.pass = null;
throw defaultAllocator.make!URIException("Invalid host");
}
this.host = value[start .. pos];
this.host = source[start .. pos];
if (endPos == value.length)
if (endPos == source.length)
{
return;
}
@ -260,9 +262,9 @@ struct URL
start = endPos;
ParsePath:
endPos = value.length;
endPos = source.length;
pos = -1;
foreach (i, ref c; value[start .. $])
foreach (i, ref c; source[start .. $])
{
if (c == '?' && pos == -1)
{
@ -281,15 +283,15 @@ struct URL
if (pos > start)
{
this.path = value[start .. pos];
this.path = source[start .. pos];
}
if (endPos >= ++pos)
{
this.query = value[pos .. endPos];
this.query = source[pos .. endPos];
}
if (++endPos <= value.length)
if (++endPos <= source.length)
{
this.fragment = value[endPos .. $];
this.fragment = source[endPos .. $];
}
}
@ -312,11 +314,7 @@ struct URL
{
lPort += (port[i] - '0') / cast(float) (10 ^^ (i - 1));
}
if (i == 1 && (i == port.length || port[i] == '/'))
{
return true;
}
else if (i == port.length || port[i] == '/')
if (i != 1 && (i == port.length || port[i] == '/'))
{
lPort *= 10 ^^ (i - 2);
if (lPort > ushort.max)
@ -331,7 +329,7 @@ struct URL
}
///
@nogc unittest
@nogc pure @system unittest
{
auto u = URL("example.org");
assert(u.path == "example.org");
@ -384,7 +382,7 @@ struct URL
assert(u.fragment == "fragment");
}
private unittest
@nogc pure @system unittest
{
auto u = URL("127.0.0.1");
assert(u.path == "127.0.0.1");
@ -398,6 +396,11 @@ private unittest
assert(u.host == "127.0.0.1");
assert(u.port == 9000);
u = URL("127.0.0.1:80");
assert(u.host == "127.0.0.1");
assert(u.port == 80);
assert(u.path is null);
u = URL("//example.net");
assert(u.host == "example.net");
assert(u.scheme is null);
@ -409,6 +412,7 @@ private unittest
u = URL("localhost:8080");
assert(u.host == "localhost");
assert(u.port == 8080);
assert(u.path is null);
u = URL("ftp:");
assert(u.scheme == "ftp");
@ -442,96 +446,25 @@ private unittest
u = URL("zlib:/home/user/file.gz");
assert(u.scheme == "zlib");
assert(u.path == "/home/user/file.gz");
u = URL("h_tp:asdf");
assert(u.path == "h_tp:asdf");
}
private @nogc unittest
@nogc pure @system unittest
{
URIException exception;
try
{
auto u = URL("h_tp:asdf");
}
catch (URIException e)
{
exception = e;
}
assert(exception !is null);
defaultAllocator.dispose(exception);
assertThrown!URIException(() => URL("http://:80"));
assertThrown!URIException(() => URL(":80"));
assertThrown!URIException(() => URL("http://u1:p1@u2:p2@example.org"));
assertThrown!URIException(() => URL("http://blah.com:port"));
assertThrown!URIException(() => URL("http://blah.com:66000"));
}
private @nogc unittest
// Issue 254: https://issues.caraus.io/issues/254.
@nogc pure @system unittest
{
URIException exception;
try
{
auto u = URL("http://:80");
}
catch (URIException e)
{
exception = e;
}
assert(exception !is null);
defaultAllocator.dispose(exception);
}
private @nogc unittest
{
URIException exception;
try
{
auto u = URL(":80");
}
catch (URIException e)
{
exception = e;
}
assert(exception !is null);
defaultAllocator.dispose(exception);
}
private @nogc unittest
{
URIException exception;
try
{
auto u = URL("http://user1:pass1@user2:pass2@example.org");
}
catch (URIException e)
{
exception = e;
}
assert(exception !is null);
defaultAllocator.dispose(exception);
}
private @nogc unittest
{
URIException exception;
try
{
auto u = URL("http://blah.com:port");
}
catch (URIException e)
{
exception = e;
}
assert(exception !is null);
defaultAllocator.dispose(exception);
}
private @nogc unittest
{
URIException exception;
try
{
auto u = URL(":/");
}
catch (URIException e)
{
exception = e;
}
assert(exception !is null);
defaultAllocator.dispose(exception);
auto u = URL("ftp://");
assert(u.scheme == "ftp");
}
/**
@ -540,17 +473,11 @@ private @nogc unittest
*
* Params:
* T = "scheme", "host", "port", "user", "pass", "path", "query",
* "fragment" or $(D_KEYWORD null) for a struct with all components.
* "fragment".
* source = The string containing the URL.
*
* Returns: Requested URL component.
*/
URL parseURL(const char[] source) @nogc
{
return URL(source);
}
/// Ditto.
auto parseURL(string T)(const char[] source)
if (T == "scheme"
|| T == "host"
@ -565,8 +492,14 @@ if (T == "scheme"
return mixin("ret." ~ T);
}
/// ditto
URL parseURL(const char[] source) @nogc pure
{
return URL(source);
}
///
@nogc unittest
@nogc pure @system unittest
{
auto u = parseURL("http://example.org:5326");
assert(u.scheme == parseURL!"scheme"("http://example.org:5326"));

4
source/tanya/network/package.d
View File

@ -9,9 +9,9 @@
* 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/network/package.d,
* tanya/network/package.d)
*/
module tanya.network;
public import tanya.network.inet;
public import tanya.network.socket;
public import tanya.network.url;

461
source/tanya/network/socket.d
View File

@ -9,13 +9,15 @@
* 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/network/socket.d,
* tanya/network/socket.d)
*/
module tanya.network.socket;
import core.stdc.errno;
import core.time;
import std.algorithm.comparison;
public import std.socket : SocketOptionLevel, SocketOption;
public import std.socket : SocketOption, SocketOptionLevel;
import std.traits;
import std.typecons;
import tanya.memory;
@ -42,12 +44,52 @@ version (Posix)
}
else version (Windows)
{
import core.sys.windows.winbase : ERROR_IO_INCOMPLETE,
ERROR_IO_PENDING,
GetModuleHandle,
GetProcAddress;
import core.sys.windows.winsock2 : accept,
addrinfo,
bind,
closesocket,
FIONBIO,
freeaddrinfo,
getaddrinfo,
getsockopt,
ioctlsocket,
listen,
MSG_DONTROUTE,
MSG_OOB,
MSG_PEEK,
recv,
SD_BOTH,
SD_RECEIVE,
SD_SEND,
send,
setsockopt,
shutdown,
SOCKADDR,
sockaddr,
sockaddr_in,
sockaddr_in6,
SOCKADDR_STORAGE,
socket,
socklen_t,
SOL_SOCKET,
SO_TYPE,
WSAGetLastError;
import tanya.async.iocp;
import core.sys.windows.basetyps;
import core.sys.windows.mswsock;
import core.sys.windows.winbase;
import core.sys.windows.windef;
import core.sys.windows.winsock2;
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;
enum SocketType : size_t
{
@ -56,177 +98,6 @@ else version (Windows)
private alias LingerField = ushort;
enum : uint
{
IOC_UNIX = 0x00000000,
IOC_WS2 = 0x08000000,
IOC_PROTOCOL = 0x10000000,
IOC_VOID = 0x20000000, // No parameters.
IOC_OUT = 0x40000000, // Copy parameters back.
IOC_IN = 0x80000000, // Copy parameters into.
IOC_VENDOR = 0x18000000,
IOC_INOUT = (IOC_IN | IOC_OUT), // Copy parameter into and get back.
}
template _WSAIO(int x, int y)
{
enum _WSAIO = IOC_VOID | x | y;
}
template _WSAIOR(int x, int y)
{
enum _WSAIOR = IOC_OUT | x | y;
}
template _WSAIOW(int x, int y)
{
enum _WSAIOW = IOC_IN | x | y;
}
template _WSAIORW(int x, int y)
{
enum _WSAIORW = IOC_INOUT | x | y;
}
alias SIO_ASSOCIATE_HANDLE = _WSAIOW!(IOC_WS2, 1);
alias SIO_ENABLE_CIRCULAR_QUEUEING = _WSAIO!(IOC_WS2, 2);
alias SIO_FIND_ROUTE = _WSAIOR!(IOC_WS2, 3);
alias SIO_FLUSH = _WSAIO!(IOC_WS2, 4);
alias SIO_GET_BROADCAST_ADDRESS = _WSAIOR!(IOC_WS2, 5);
alias SIO_GET_EXTENSION_FUNCTION_POINTER = _WSAIORW!(IOC_WS2, 6);
alias SIO_GET_QOS = _WSAIORW!(IOC_WS2, 7);
alias SIO_GET_GROUP_QOS = _WSAIORW!(IOC_WS2, 8);
alias SIO_MULTIPOINT_LOOPBACK = _WSAIOW!(IOC_WS2, 9);
alias SIO_MULTICAST_SCOPE = _WSAIOW!(IOC_WS2, 10);
alias SIO_SET_QOS = _WSAIOW!(IOC_WS2, 11);
alias SIO_SET_GROUP_QOS = _WSAIOW!(IOC_WS2, 12);
alias SIO_TRANSLATE_HANDLE = _WSAIORW!(IOC_WS2, 13);
alias SIO_ROUTING_INTERFACE_QUERY = _WSAIORW!(IOC_WS2, 20);
alias SIO_ROUTING_INTERFACE_CHANGE = _WSAIOW!(IOC_WS2, 21);
alias SIO_ADDRESS_LIST_QUERY = _WSAIOR!(IOC_WS2, 22);
alias SIO_ADDRESS_LIST_CHANGE = _WSAIO!(IOC_WS2, 23);
alias SIO_QUERY_TARGET_PNP_HANDLE = _WSAIOR!(IOC_WS2, 24);
alias SIO_NSP_NOTIFY_CHANGE = _WSAIOW!(IOC_WS2, 25);
private alias GROUP = uint;
enum
{
WSA_FLAG_OVERLAPPED = 0x01,
MAX_PROTOCOL_CHAIN = 7,
WSAPROTOCOL_LEN = 255,
}
struct WSAPROTOCOLCHAIN
{
int ChainLen;
DWORD[MAX_PROTOCOL_CHAIN] ChainEntries;
}
alias LPWSAPROTOCOLCHAIN = WSAPROTOCOLCHAIN*;
struct WSAPROTOCOL_INFO
{
DWORD dwServiceFlags1;
DWORD dwServiceFlags2;
DWORD dwServiceFlags3;
DWORD dwServiceFlags4;
DWORD dwProviderFlags;
GUID ProviderId;
DWORD dwCatalogEntryId;
WSAPROTOCOLCHAIN ProtocolChain;
int iVersion;
int iAddressFamily;
int iMaxSockAddr;
int iMinSockAddr;
int iSocketType;
int iProtocol;
int iProtocolMaxOffset;
int iNetworkByteOrder;
int iSecurityScheme;
DWORD dwMessageSize;
DWORD dwProviderReserved;
TCHAR[WSAPROTOCOL_LEN + 1] szProtocol;
}
alias LPWSAPROTOCOL_INFO = WSAPROTOCOL_INFO*;
extern (Windows) @nogc nothrow
{
private SOCKET WSASocketW(int af,
int type,
int protocol,
LPWSAPROTOCOL_INFO lpProtocolInfo,
GROUP g,
DWORD dwFlags);
int WSARecv(SOCKET s,
LPWSABUF lpBuffers,
DWORD dwBufferCount,
LPDWORD lpNumberOfBytesRecvd,
LPDWORD lpFlags,
LPOVERLAPPED lpOverlapped,
LPWSAOVERLAPPED_COMPLETION_ROUTINE lpCompletionRoutine);
int WSASend(SOCKET s,
LPWSABUF lpBuffers,
DWORD dwBufferCount,
LPDWORD lpNumberOfBytesRecvd,
DWORD lpFlags,
LPOVERLAPPED lpOverlapped,
LPWSAOVERLAPPED_COMPLETION_ROUTINE lpCompletionRoutine);
int WSAIoctl(SOCKET s,
uint dwIoControlCode,
void* lpvInBuffer,
uint cbInBuffer,
void* lpvOutBuffer,
uint cbOutBuffer,
uint* lpcbBytesReturned,
LPWSAOVERLAPPED lpOverlapped,
LPWSAOVERLAPPED_COMPLETION_ROUTINE lpCompletionRoutine);
alias LPFN_ACCEPTEX = BOOL function(SOCKET,
SOCKET,
PVOID,
DWORD,
DWORD,
DWORD,
LPDWORD,
LPOVERLAPPED);
}
alias WSASocket = WSASocketW;
alias LPFN_GETACCEPTEXSOCKADDRS = VOID function(PVOID,
DWORD,
DWORD,
DWORD,
SOCKADDR**,
LPINT,
SOCKADDR**,
LPINT);
const GUID WSAID_GETACCEPTEXSOCKADDRS = {
0xb5367df2, 0xcbac, 0x11cf,
[ 0x95, 0xca, 0x00, 0x80, 0x5f, 0x48, 0xa1, 0x92 ],
};
struct WSABUF
{
ULONG len;
CHAR* buf;
}
alias WSABUF* LPWSABUF;
struct WSAOVERLAPPED
{
ULONG_PTR Internal;
ULONG_PTR InternalHigh;
union
{
struct
{
DWORD Offset;
DWORD OffsetHigh;
}
PVOID Pointer;
}
HANDLE hEvent;
}
alias LPWSAOVERLAPPED = WSAOVERLAPPED*;
enum SO_UPDATE_ACCEPT_CONTEXT = 0x700B;
enum OverlappedSocketEvent
{
accept = 1,
@ -239,13 +110,38 @@ else version (Windows)
private WSABUF buffer;
}
/**
* Socket returned if a connection has been established.
*
* Note: Available only on Windows.
*/
class OverlappedConnectedSocket : ConnectedSocket
{
/**
* Create a socket.
*
* Params:
* handle = Socket handle.
* af = Address family.
*/
this(SocketType handle, AddressFamily af) @nogc
{
super(handle, af);
}
/**
* Begins to asynchronously receive data from a connected socket.
*
* Params:
* buffer = Storage location for the received data.
* flags = Flags.
* overlapped = Unique operation identifier.
*
* Returns: $(D_KEYWORD true) if the operation could be finished synchronously.
* $(D_KEYWORD false) otherwise.
*
* Throws: $(D_PSYMBOL SocketException) if unable to receive.
*/
bool beginReceive(ubyte[] buffer,
SocketState overlapped,
Flags flags = Flags(Flag.none)) @nogc @trusted
@ -258,12 +154,12 @@ else version (Windows)
overlapped.buffer.buf = cast(char*) buffer.ptr;
auto result = WSARecv(handle_,
&overlapped.buffer,
cast(WSABUF*) &overlapped.buffer,
1u,
NULL,
null,
&receiveFlags,
&overlapped.overlapped,
NULL);
null);
if (result == socketError && !wouldHaveBlocked)
{
@ -272,6 +168,18 @@ else version (Windows)
return result == 0;
}
/**
* Ends a pending asynchronous read.
*
* Params:
* overlapped = Unique operation identifier.
*
* Returns: Number of bytes received.
*
* Throws: $(D_PSYMBOL SocketException) if unable to receive.
*
* Postcondition: $(D_INLINECODE result >= 0).
*/
int endReceive(SocketState overlapped) @nogc @trusted
out (count)
{
@ -296,6 +204,19 @@ else version (Windows)
return lpNumber;
}
/**
* Sends data asynchronously to a connected socket.
*
* Params:
* buffer = Data to be sent.
* flags = Flags.
* overlapped = Unique operation identifier.
*
* Returns: $(D_KEYWORD true) if the operation could be finished synchronously.
* $(D_KEYWORD false) otherwise.
*
* Throws: $(D_PSYMBOL SocketException) if unable to send.
*/
bool beginSend(ubyte[] buffer,
SocketState overlapped,
Flags flags = Flags(Flag.none)) @nogc @trusted
@ -308,10 +229,10 @@ else version (Windows)
auto result = WSASend(handle_,
&overlapped.buffer,
1u,
NULL,
null,
cast(DWORD) flags,
&overlapped.overlapped,
NULL);
null);
if (result == socketError && !wouldHaveBlocked)
{
@ -321,6 +242,18 @@ else version (Windows)
return result == 0;
}
/**
* Ends a pending asynchronous send.
*
* Params:
* overlapped = Unique operation identifier.
*
* Returns: Number of bytes sent.
*
* Throws: $(D_PSYMBOL SocketException) if unable to receive.
*
* Postcondition: $(D_INLINECODE result >= 0).
*/
int endSend(SocketState overlapped) @nogc @trusted
out (count)
{
@ -342,11 +275,22 @@ else version (Windows)
}
}
/**
* Windows stream socket overlapped I/O.
*/
class OverlappedStreamSocket : StreamSocket
{
// Accept extension function pointer.
package LPFN_ACCEPTEX acceptExtension;
/**
* Create a socket.
*
* Params:
* af = Address family.
*
* Throws: $(D_PSYMBOL SocketException) on errors.
*/
this(AddressFamily af) @nogc @trusted
{
super(af);
@ -366,8 +310,8 @@ else version (Windows)
&acceptExtension,
acceptExtension.sizeof,
&dwBytes,
NULL,
NULL);
null,
null);
if (!result == socketError)
{
throw make!SocketException(defaultAllocator,
@ -375,6 +319,17 @@ else version (Windows)
}
}
/**
* Begins an asynchronous operation to accept an incoming connection attempt.
*
* Params:
* overlapped = Unique operation identifier.
*
* Returns: $(D_KEYWORD true) if the operation could be finished synchronously.
* $(D_KEYWORD false) otherwise.
*
* Throws: $(D_PSYMBOL SocketException) on accept errors.
*/
bool beginAccept(SocketState overlapped) @nogc @trusted
{
auto socket = cast(SocketType) socket(addressFamily, 1, 0);
@ -410,6 +365,17 @@ else version (Windows)
return result == TRUE;
}
/**
* Asynchronously accepts an incoming connection attempt and creates a
* new socket to handle remote host communication.
*
* Params:
* overlapped = Unique operation identifier.
*
* Returns: Connected socket.
*
* Throws: $(D_PSYMBOL SocketException) if unable to accept.
*/
OverlappedConnectedSocket endAccept(SocketState overlapped)
@nogc @trusted
{
@ -431,133 +397,6 @@ else version (Windows)
}
}
}
else version (D_Ddoc)
{
/// Native socket representation type.
enum SocketType;
/**
* Socket returned if a connection has been established.
*
* Note: Available only on Windows.
*/
class OverlappedConnectedSocket : ConnectedSocket
{
/**
* Create a socket.
*
* Params:
* handle = Socket handle.
* af = Address family.
*/
this(SocketType handle, AddressFamily af) @nogc;
/**
* Begins to asynchronously receive data from a connected socket.
*
* Params:
* buffer = Storage location for the received data.
* flags = Flags.
* overlapped = Unique operation identifier.
*
* Returns: $(D_KEYWORD true) if the operation could be finished synchronously.
* $(D_KEYWORD false) otherwise.
*
* Throws: $(D_PSYMBOL SocketException) if unable to receive.
*/
bool beginReceive(ubyte[] buffer,
SocketState overlapped,
Flags flags = Flags(Flag.none)) @nogc @trusted;
/**
* Ends a pending asynchronous read.
*
* Params:
* overlapped = Unique operation identifier.
*
* Returns: Number of bytes received.
*
* Throws: $(D_PSYMBOL SocketException) if unable to receive.
*
* Postcondition: $(D_INLINECODE result >= 0).
*/
int endReceive(SocketState overlapped) @nogc @trusted;
/**
* Sends data asynchronously to a connected socket.
*
* Params:
* buffer = Data to be sent.
* flags = Flags.
* overlapped = Unique operation identifier.
*
* Returns: $(D_KEYWORD true) if the operation could be finished synchronously.
* $(D_KEYWORD false) otherwise.
*
* Throws: $(D_PSYMBOL SocketException) if unable to send.
*/
bool beginSend(ubyte[] buffer,
SocketState overlapped,
Flags flags = Flags(Flag.none)) @nogc @trusted;
/**
* Ends a pending asynchronous send.
*
* Params:
* overlapped = Unique operation identifier.
*
* Returns: Number of bytes sent.
*
* Throws: $(D_PSYMBOL SocketException) if unable to receive.
*
* Postcondition: $(D_INLINECODE result >= 0).
*/
int endSend(SocketState overlapped) @nogc @trusted;
}
/**
* Windows stream socket overlapped I/O.
*/
class OverlappedStreamSocket : StreamSocket
{
/**
* Create a socket.
*
* Params:
* af = Address family.
*
* Throws: $(D_PSYMBOL SocketException) on errors.
*/
this(AddressFamily af) @nogc @trusted;
/**
* Begins an asynchronous operation to accept an incoming connection attempt.
*
* Params:
* overlapped = Unique operation identifier.
*
* Returns: $(D_KEYWORD true) if the operation could be finished synchronously.
* $(D_KEYWORD false) otherwise.
*
* Throws: $(D_PSYMBOL SocketException) on accept errors.
*/
bool beginAccept(SocketState overlapped) @nogc @trusted;
/**
* Asynchronously accepts an incoming connection attempt and creates a
* new socket to handle remote host communication.
*
* Params:
* overlapped = Unique operation identifier.
*
* Returns: Connected socket.
*
* Throws: $(D_PSYMBOL SocketException) if unable to accept.
*/
OverlappedConnectedSocket endAccept(SocketState overlapped)
@nogc @trusted;
}
}
/**
* Socket option that specifies what should happen when the socket that

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@ -9,6 +9,8 @@
* License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
* Mozilla Public License, v. 2.0).
* Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
* Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/os/error.d,
* tanya/os/error.d)
*/
module tanya.os.error;
@ -232,7 +234,7 @@ struct ErrorCode
return this.value_;
}
/// Ditto.
/// ditto
ErrorNo opCast(T : int)() const
{
return this.value_;
@ -262,7 +264,7 @@ struct ErrorCode
return this;
}
/// Ditto.
/// ditto
ref ErrorCode opAssign()(auto ref const ErrorCode that)
pure nothrow @safe @nogc
{
@ -303,7 +305,7 @@ struct ErrorCode
return this.value_ == that;
}
/// Ditto.
/// ditto
bool opEquals()(auto ref const ErrorCode that)
const pure nothrow @safe @nogc
{

2
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@ -10,6 +10,8 @@
* License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
* Mozilla Public License, v. 2.0).
* Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
* Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/os/package.d,
* tanya/os/package.d)
*/
module tanya.os;

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@ -0,0 +1,220 @@
/* 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/. */
/**
* $(D_PSYMBOL tanya.range.array) implements range primitives for built-in arrays.
*
* This module is a submodule of
* $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/range/package.d, tanya.range).
*
* After importing of
* $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/range/array.d, tanya/range/array.d)
* built-in arrays can act as bidirectional ranges. For that to work the module
* defines a set of functions that accept a built-in array of any type as their
* first argument, so thanks to UFCS (Uniform Function Call Syntax) they can be
* called as if they were array member functions. For example the arrays the
* `.length`-property, but no `.empty` property. So here can be find the
* $(D_PSYMBOL empty) function. Since $(D_INLINECODE empty(array)) and
* $(D_INLINECODE array.empty) are equal for the arrays, arrays get a faked
* property `empty`.
*
* The functions in this module don't change array elements or its underlying
* storage, but some functions alter the slice. Each array maintains a pointer
* to its data and the length and there can be several pointers which point to
* the same data. Array pointer can be advanced and the length can be reduced
* without changing the underlying storage. So slices offer the possibility to
* have multiple views into the same array, point to different positions inside
* it.
*
* Strings ($(D_INLINECODE char[]), (D_INLINECODE wchar[]) and
* (D_INLINECODE dchar[])) are treated as any other normal array, they aren't
* auto-decoded.
*
* Copyright: Eugene Wissner 2017.
* License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
* Mozilla Public License, v. 2.0).
* Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
* Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/range/array.d,
* tanya/range/array.d)
*/
module tanya.range.array;
/**
* Returns the first element of the $(D_PARAM array).
*
* The element is returned by reference, so $(D_PSYMBOL front) can be also used
* to change the first element of $(D_PARAM array) if it is mutable.
*
* Params:
* T = Element type of $(D_PARAM array).
* array = Built-in array.
*
* Returns: First element.
*
* Precondition: $(D_INLINECODE array.length > 0).
*/
@property ref T front(T)(T[] array)
in
{
assert(array.length > 0);
}
body
{
return array[0];
}
///
@nogc nothrow pure @safe unittest
{
string s = "Wenn die Wunde nicht mehr wehtut, schmerzt die Narbe";
static assert(is(typeof(s.front) == immutable char));
assert(s.front == 'W');
wstring w = "Волны несутся, гремя и сверкая";
static assert(is(typeof(w.front) == immutable wchar));
assert(w.front == 'В');
dstring d = "Для писателя память - это почти все";
static assert(is(typeof(d.front) == immutable dchar));
assert(d.front == 'Д');
}
/**
* Returns the last element of the $(D_PARAM array).
*
* The element is returned by reference, so $(D_PSYMBOL back) can be also used
* to change the last element of $(D_PARAM array) if it is mutable.
*
* Params:
* T = Element type of $(D_PARAM array).
* array = Built-in array.
*
* Returns: Last element.
*
* Precondition: $(D_INLINECODE array.length > 0).
*/
@property ref T back(T)(T[] array)
in
{
assert(array.length > 0);
}
body
{
return array[$ - 1];
}
///
@nogc nothrow pure @safe unittest
{
string s = "Brecht";
static assert(is(typeof(s.back) == immutable char));
assert(s.back == 't');
wstring w = "Тютчев";
static assert(is(typeof(w.back) == immutable wchar));
assert(w.back == 'в');
dstring d = "Паустовский";
static assert(is(typeof(d.back) == immutable dchar));
assert(d.back == 'й');
}
/**
* $(D_PSYMBOL popFront) and $(D_PSYMBOL popBack) advance the $(D_PARAM array)
* and remove one element from its back, respectively.
*
* $(D_PSYMBOL popFront) and $(D_PSYMBOL popBack) don't alter the array
* storage, they only narrow the view into the array.
*
* Params:
* T = Element type of $(D_PARAM array).
* array = Built-in array.
*
* Precondition: $(D_INLINECODE array.length > 0).
*/
void popFront(T)(ref T[] array)
in
{
assert(array.length > 0);
}
body
{
array = array[1 .. $];
}
/// ditto
void popBack(T)(ref T[] array)
in
{
assert(array.length > 0);
}
body
{
array = array[0 .. $ - 1];
}
///
@nogc nothrow pure @safe unittest
{
wstring array = "Der finstere Ozean der Metaphysik. Nietzsche";
array.popFront();
assert(array.length == 43);
assert(array.front == 'e');
array.popBack();
assert(array.length == 42);
assert(array.back == 'h');
}
/**
* Tests whether $(D_PARAM array) is empty.
*
* Params:
* T = Element type of $(D_PARAM array).
* array = Built-in array.
*
* Returns: $(D_KEYWORD true) if $(D_PARAM array) has no elements,
* $(D_KEYWORD false) otherwise.
*/
@property bool empty(T)(const T[] array)
{
return array.length == 0;
}
///
@nogc nothrow pure @safe unittest
{
int[1] array;
assert(!array.empty);
assert(array[1 .. 1].empty);
}
/**
* Returns a copy of the slice $(D_PARAM array).
*
* $(D_PSYMBOL save) doesn't copy the array itself, but only the data pointer
* and the length.
*
* Params:
* T = Element type of $(D_PARAM array).
* array = Built-in array.
*
* Returns: A copy of the slice $(D_PARAM array).
*/
@property T[] save(T)(T[] array)
{
return array;
}
///
@nogc nothrow pure @safe unittest
{
ubyte[8] array;
auto slice = array.save;
assert(slice.length == array.length);
slice.popFront();
assert(slice.length < array.length);
}

19
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@ -0,0 +1,19 @@
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
/**
* This package contains generic functions and templates to be used with D
* ranges.
*
* Copyright: Eugene Wissner 2017.
* License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
* Mozilla Public License, v. 2.0).
* Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
* Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/range/package.d,
* tanya/range/package.d)
*/
module tanya.range;
public import tanya.range.array;
public import tanya.range.primitive;

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@ -0,0 +1,61 @@
/* 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/. */
/**
* Base type definitions and aliases.
*
* This module doesn't provide aliases for all types used by Windows, but only
* for types that can vary on different platforms. For example there is no
* need to define `INT32` alias for D, since $(D_KEYWORD int) is always a
* 32-bit signed integer. But `int` and its Windows alias `INT` is not the
* same on all platforms in C, so its size can be something differen than
* 32 bit, therefore an $(D_PSYMBOL INT) alias is available in this module.
* $(D_PARAM TCHAR) can be a $(D_KEYWORD char) if Unicode isn't supported or
* $(D_KEYWORD wchar) if Unicode is supported, so $(D_PSYMBOL TCHAR) is
* defined here.
* Also aliases for specific types like $(D_PSYMBOL SOCKET) are defined here.
*
* Copyright: Eugene Wissner 2017.
* License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
* Mozilla Public License, v. 2.0).
* Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
* Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/sys/windows/def.d,
* tanya/sys/windows/def.d)
*/
module tanya.sys.windows.def;
version (Windows):
alias BYTE = ubyte;
alias TBYTE = wchar; // If Unicode, otherwise char.
alias CHAR = char; // Signed or unsigned char.
alias TCHAR = wchar; // If Unicode, otherwise char.
alias SHORT = short;
alias USHORT = ushort;
alias WORD = ushort;
alias INT = int;
alias UINT = uint;
alias LONG = int;
alias ULONG = uint;
alias DWORD = uint;
alias LONGLONG = long; // Or double.
alias ULONGLONG = ulong; // Or double.
alias DWORDLONG = ulong;
alias FLOAT = float;
alias BOOL = int;
alias BOOLEAN = BYTE;
alias HANDLE = void*;
enum HANDLE INVALID_HANDLE_VALUE = cast(HANDLE) -1;
enum TRUE = 1;
enum FALSE = 0;
align(1) struct GUID
{
uint Data1;
ushort Data2;
ushort Data3;
char[8] Data4;
}

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@ -0,0 +1,114 @@
/* 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.
* 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)
*/
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,
}

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source/tanya/sys/windows/package.d Normal file
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/* 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.
* License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
* Mozilla Public License, v. 2.0).
* Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
* Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/sys/windows/package.d,
* tanya/sys/windows/package.d)
*/
module tanya.sys.windows;
version (Windows):
public import tanya.sys.windows.def;
public import tanya.sys.windows.error;
public import tanya.sys.windows.winbase;
public import tanya.sys.windows.winsock2;

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@ -0,0 +1,55 @@
/* 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/. */
/**
* Definitions from winbase.h.
*
* Copyright: Eugene Wissner 2017.
* License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
* Mozilla Public License, v. 2.0).
* Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
* Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/sys/windows/winbase.d,
* tanya/sys/windows/winbase.d)
*/
module tanya.sys.windows.winbase;
version (Windows):
public import tanya.sys.windows.def;
struct OVERLAPPED
{
size_t Internal;
size_t InternalHigh;
union
{
struct
{
DWORD Offset;
DWORD OffsetHigh;
}
void* Pointer;
}
HANDLE hEvent;
}
extern(Windows)
HANDLE CreateIoCompletionPort(HANDLE FileHandle,
HANDLE ExistingCompletionPort,
size_t CompletionKey,
DWORD NumberOfConcurrentThreads)
nothrow @system @nogc;
extern(Windows)
BOOL GetQueuedCompletionStatus(HANDLE CompletionPort,
DWORD* lpNumberOfBytes,
size_t* lpCompletionKey,
OVERLAPPED** lpOverlapped,
DWORD dwMilliseconds) nothrow @system @nogc;
extern(Windows)
BOOL GetOverlappedResult(HANDLE hFile,
OVERLAPPED* lpOverlapped,
DWORD* lpNumberOfBytesTransferred,
BOOL bWait) nothrow @system @nogc;

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source/tanya/sys/windows/winsock2.d Normal file
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/* 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/. */
/**
* Definitions from winsock2.h, ws2def.h and MSWSock.h.
*
* Copyright: Eugene Wissner 2017.
* License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
* Mozilla Public License, v. 2.0).
* Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
* Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/sys/windows/winsock2.d,
* tanya/sys/windows/winsock2.d)
*/
module tanya.sys.windows.winsock2;
version (Windows):
public import tanya.sys.windows.def;
public import tanya.sys.windows.winbase;
alias SOCKET = size_t;
enum SOCKET INVALID_SOCKET = ~0;
enum SOCKET_ERROR = -1;
enum
{
IOC_UNIX = 0x00000000,
IOC_WS2 = 0x08000000,
IOC_PROTOCOL = 0x10000000,
IOC_VOID = 0x20000000, // No parameters.
IOC_OUT = 0x40000000, // Copy parameters back.
IOC_IN = 0x80000000, // Copy parameters into.
IOC_VENDOR = 0x18000000,
IOC_WSK = (IOC_WS2 | 0x07000000), // _WIN32_WINNT >= 0x0600.
IOC_INOUT = (IOC_IN | IOC_OUT), // Copy parameter into and get back.
}
template _WSAIO(int x, int y)
{
enum _WSAIO = IOC_VOID | x | y;
}
template _WSAIOR(int x, int y)
{
enum _WSAIOR = IOC_OUT | x | y;
}
template _WSAIOW(int x, int y)
{
enum _WSAIOW = IOC_IN | x | y;
}
template _WSAIORW(int x, int y)
{
enum _WSAIORW = IOC_INOUT | x | y;
}
alias SIO_ASSOCIATE_HANDLE = _WSAIOW!(IOC_WS2, 1);
alias SIO_ENABLE_CIRCULAR_QUEUEING = _WSAIO!(IOC_WS2, 2);
alias SIO_FIND_ROUTE = _WSAIOR!(IOC_WS2, 3);
alias SIO_FLUSH = _WSAIO!(IOC_WS2, 4);
alias SIO_GET_BROADCAST_ADDRESS = _WSAIOR!(IOC_WS2, 5);
alias SIO_GET_EXTENSION_FUNCTION_POINTER = _WSAIORW!(IOC_WS2, 6);
alias SIO_GET_QOS = _WSAIORW!(IOC_WS2, 7);
alias SIO_GET_GROUP_QOS = _WSAIORW!(IOC_WS2, 8);
alias SIO_MULTIPOINT_LOOPBACK = _WSAIOW!(IOC_WS2, 9);
alias SIO_MULTICAST_SCOPE = _WSAIOW!(IOC_WS2, 10);
alias SIO_SET_QOS = _WSAIOW!(IOC_WS2, 11);
alias SIO_SET_GROUP_QOS = _WSAIOW!(IOC_WS2, 12);
alias SIO_TRANSLATE_HANDLE = _WSAIORW!(IOC_WS2, 13);
alias SIO_ROUTING_INTERFACE_QUERY = _WSAIORW!(IOC_WS2, 20);
alias SIO_ROUTING_INTERFACE_CHANGE = _WSAIOW!(IOC_WS2, 21);
alias SIO_ADDRESS_LIST_QUERY = _WSAIOR!(IOC_WS2, 22);
alias SIO_ADDRESS_LIST_CHANGE = _WSAIO!(IOC_WS2, 23);
alias SIO_QUERY_TARGET_PNP_HANDLE = _WSAIOR!(IOC_WS2, 24);
alias SIO_NSP_NOTIFY_CHANGE = _WSAIOW!(IOC_WS2, 25);
alias GROUP = uint;
enum
{
WSA_FLAG_OVERLAPPED = 0x01,
WSA_FLAG_MULTIPOINT_C_ROOT = 0x02,
WSA_FLAG_MULTIPOINT_C_LEAF = 0x04,
WSA_FLAG_MULTIPOINT_D_ROOT = 0x08,
WSA_FLAG_MULTIPOINT_D_LEAF = 0x10,
WSA_FLAG_ACCESS_SYSTEM_SECURITY = 0x40,
WSA_FLAG_NO_HANDLE_INHERIT = 0x80,
WSA_FLAG_REGISTERED_IO = 0x100,
}
enum MAX_PROTOCOL_CHAIN = 7;
enum BASE_PROTOCOL = 1;
enum LAYERED_PROTOCOL = 0;
enum WSAPROTOCOL_LEN = 255;
struct WSAPROTOCOLCHAIN
{
int ChainLen;
DWORD[MAX_PROTOCOL_CHAIN] ChainEntries;
}
struct WSABUF
{
ULONG len;
CHAR* buf;
}
struct WSAPROTOCOL_INFO
{
DWORD dwServiceFlags1;
DWORD dwServiceFlags2;
DWORD dwServiceFlags3;
DWORD dwServiceFlags4;
DWORD dwProviderFlags;
GUID ProviderId;
DWORD dwCatalogEntryId;
WSAPROTOCOLCHAIN ProtocolChain;
int iVersion;
int iAddressFamily;
int iMaxSockAddr;
int iMinSockAddr;
int iSocketType;
int iProtocol;
int iProtocolMaxOffset;
int iNetworkByteOrder;
int iSecurityScheme;
DWORD dwMessageSize;
DWORD dwProviderReserved;
TCHAR[WSAPROTOCOL_LEN + 1] szProtocol;
}
const GUID WSAID_GETACCEPTEXSOCKADDRS = {
0xb5367df2, 0xcbac, 0x11cf,
[0x95, 0xca, 0x00, 0x80, 0x5f, 0x48, 0xa1, 0x92],
};
const GUID WSAID_ACCEPTEX = {
0xb5367df1, 0xcbac, 0x11cf,
[0x95, 0xca, 0x00, 0x80, 0x5f, 0x48, 0xa1, 0x92],
};
alias LPWSAOVERLAPPED_COMPLETION_ROUTINE = void function(DWORD dwError,
DWORD cbTransferred,
OVERLAPPED* lpOverlapped,
DWORD dwFlags) nothrow @nogc;
extern(Windows)
SOCKET WSASocket(int af,
int type,
int protocol,
WSAPROTOCOL_INFO* lpProtocolInfo,
GROUP g,
DWORD dwFlags) nothrow @system @nogc;
extern(Windows)
int WSARecv(SOCKET s,
WSABUF* lpBuffers,
DWORD dwBufferCount,
DWORD* lpNumberOfBytesRecvd,
DWORD* lpFlags,
OVERLAPPED* lpOverlapped,
LPWSAOVERLAPPED_COMPLETION_ROUTINE lpCompletionRoutine)
nothrow @system @nogc;
extern(Windows)
int WSASend(SOCKET s,
WSABUF* lpBuffers,
DWORD dwBufferCount,
DWORD* lpNumberOfBytesRecvd,
DWORD lpFlags,
OVERLAPPED* lpOverlapped,
LPWSAOVERLAPPED_COMPLETION_ROUTINE lpCompletionRoutine)
nothrow @system @nogc;
extern(Windows)
int WSAIoctl(SOCKET s,
uint dwIoControlCode,
void* lpvInBuffer,
uint cbInBuffer,
void* lpvOutBuffer,
uint cbOutBuffer,
uint* lpcbBytesReturned,
OVERLAPPED* lpOverlapped,
LPWSAOVERLAPPED_COMPLETION_ROUTINE lpCompletionRoutine)
nothrow @system @nogc;
alias ADDRESS_FAMILY = USHORT;
struct SOCKADDR
{
ADDRESS_FAMILY sa_family; // Address family.
CHAR[14] sa_data; // Up to 14 bytes of direct address.
}
alias LPFN_GETACCEPTEXSOCKADDRS = void function(void*,
DWORD,
DWORD,
DWORD,
SOCKADDR**,
INT*,
SOCKADDR**,
INT*) nothrow @nogc;
alias LPFN_ACCEPTEX = extern(Windows) BOOL function(SOCKET,
SOCKET,
void*,
DWORD,
DWORD,
DWORD,
DWORD*,
OVERLAPPED*) @nogc nothrow;
enum
{
SO_MAXDG = 0x7009,
SO_MAXPATHDG = 0x700A,
SO_UPDATE_ACCEPT_CONTEXT = 0x700B,
SO_CONNECT_TIME = 0x700C,
SO_UPDATE_CONNECT_CONTEXT = 0x7010,
}

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@ -0,0 +1,105 @@
/* 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/. */
/**
* Additional assertions.
*
* This module provides functions that assert whether a given expression
* satisfies some complex condition, that can't be tested with
* $(D_KEYWORD assert) in a single line. Internally all the functions
* just evaluate the expression and call $(D_KEYWORD assert).
*
* The functions can cause segmentation fault if the module is compiled
* in production mode and the condition fails.
*
* Copyright: Eugene Wissner 2017.
* License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
* Mozilla Public License, v. 2.0).
* Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
* Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/test/assertion.d,
* tanya/test/assertion.d)
*/
module tanya.test.assertion;
import tanya.memory;
import tanya.meta.trait;
/**
* Asserts whether the function $(D_PARAM expr) throws an exception of type
* $(D_PARAM E). If it does, the exception is catched and properly destroyed.
* If it doesn't, an assertion error is thrown. If the exception doesn't match
* $(D_PARAM E) type, it isn't catched and escapes.
*
* Params:
* E = Expected exception type.
* T = Throwing function type.
* Args = Argument types of the throwing function.
* expr = Throwing function.
* args = Arguments for $(D_PARAM expr).
*/
void assertThrown(E : Exception, T, Args...)(T expr, auto ref Args args)
if (isSomeFunction!T)
{
try
{
cast(void) expr(args);
assert(false, "Expected exception not thrown");
}
catch (E exception)
{
defaultAllocator.dispose(exception);
}
}
///
@nogc nothrow pure @safe unittest
{
// If you want to test that an expression throws, you can wrap it into an
// arrow function.
static struct CtorThrows
{
this(int i) @nogc pure @safe
{
throw defaultAllocator.make!Exception();
}
}
assertThrown!Exception(() => CtorThrows(8));
}
/**
* Asserts that the function $(D_PARAM expr) doesn't throw.
*
* If it does, the thrown exception is catched, properly destroyed and an
* assertion error is thrown instead.
*
* Params:
* T = Tested function type.
* Args = Argument types of $(D_PARAM expr).
* expr = Tested function.
* args = Arguments for $(D_PARAM expr).
*/
void assertNotThrown(T, Args...)(T expr, auto ref Args args)
if (isSomeFunction!T)
{
try
{
cast(void) expr(args);
}
catch (Exception exception)
{
defaultAllocator.dispose(exception);
assert(false, "Unexpected exception thrown");
}
}
///
@nogc nothrow pure @safe unittest
{
// If you want to test that an expression doesn't throw, you can wrap it
// into an arrow function.
static struct S
{
}
assertNotThrown(() => S());
}

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source/tanya/network/inet.d → source/tanya/test/package.d
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@ -3,17 +3,15 @@
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
/**
* Internet utilities.
*
* $(RED Deprecated. Use $(D_PSYMBOL tanya.net.inet) instead.
* This module will be removed in 0.8.0.)
* Test suite for $(D_KEYWORD unittest)-blocks.
*
* Copyright: Eugene Wissner 2017.
* License: $(LINK2 https://www.mozilla.org/en-US/MPL/2.0/,
* Mozilla Public License, v. 2.0).
* Authors: $(LINK2 mailto:info@caraus.de, Eugene Wissner)
* Source: $(LINK2 https://github.com/caraus-ecms/tanya/blob/master/source/tanya/test/package.d,
* tanya/test/package.d)
*/
deprecated("Use tanya.net.inet instead")
module tanya.network.inet;
module tanya.test;
public import tanya.net.inet;
public import tanya.test.assertion;

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source/tanya/typecons.d
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@ -12,10 +12,12 @@
* 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/typecons.d,
* tanya/typecons.d)
*/
module tanya.typecons;
import std.meta;
import tanya.meta.metafunction;
/**
* $(D_PSYMBOL Pair) can store two heterogeneous objects.