Minor changes

This commit is contained in:
Xieamoe 2024-02-14 04:17:31 -08:00
parent 224355f13d
commit 71da66e0f1
No known key found for this signature in database
GPG key ID: 5B82D290CCD94C6D
51 changed files with 150 additions and 8450 deletions

View file

@ -17,9 +17,23 @@ set(CMAKE_CXX_STANDARD 23)
set(CMAKE_CXX_STANDARD_REQUIRED ON) set(CMAKE_CXX_STANDARD_REQUIRED ON)
set(CMAKE_CXX_EXTENSIONS OFF) set(CMAKE_CXX_EXTENSIONS OFF)
if (APPLE)
message(STATUS "Building for Mac")
endif()
if (WIN32)
message(STATUS "Building for Widnows")
endif()
if(${GUIX})
message(STATUS "Building for GUIX")
endif()
if (NOT ${GUIX})
# ---- Non GUIX Platforms ---- # ---- Non GUIX Platforms ----
#[===[
# ---- Download Dependencies ---- # ---- Download Dependencies ----
include(FetchContent) include(FetchContent)
@ -34,8 +48,13 @@ set(CMAKE_CXX_EXTENSIONS OFF)
FetchContent_Declare(json URL https://github.com/nlohmann/json/releases/download/v3.11.3/json.tar.xz) FetchContent_Declare(json URL https://github.com/nlohmann/json/releases/download/v3.11.3/json.tar.xz)
FetchContent_MakeAvailable(json) FetchContent_MakeAvailable(json)
]===]
FetchContent_Declare(rdricpp URL https://codeberg.org/xieamoe/rdricpp/archive/main.tar.gz) #FIXME Use main repo
FetchContent_MakeAvailable(rdricpp)
endif()
# ---- Non GUIX Platforms With PKG manager ----
#[===[ Find Local Libs #[===[ Find Local Libs
add_subdirectory(json) add_subdirectory(json)
@ -49,9 +68,9 @@ set(CMAKE_CXX_EXTENSIONS OFF)
find_package(rdricpp REQUIRED) find_package(rdricpp REQUIRED)
find_package(nlohmann-json REQUIRED) find_package(nlohmann-json REQUIRED)
]===] ]===]
# ------------------ # ------------------
#Obsolete
#Guix/Unix/Mac/Windows #Guix/Unix/Mac/Windows
#add_subdirectory(rdricpp) #add_subdirectory(rdricpp)
@ -63,13 +82,16 @@ set(CMAKE_CXX_EXTENSIONS OFF)
# ---- Declare executable ---- # ---- Declare executable ----
#Windows #Windows
#set(SOURCES src/anki_search.cpp src/echo.cpp src/massif.cpp src/images.cpp src/marisa.cpp src/util.cpp src/kana_conv.cpp) if (WIN32)
#set(HEADERS src/anki_search.h src/unistd_win.h src/echo.h src/massif.h src/images.h src/marisa.h src/util.h src/kana_conv.h src/utf8.h) set(SOURCES src/anki_search.cpp src/echo.cpp src/massif.cpp src/images.cpp src/marisa.cpp src/util.cpp src/kana_conv.cpp)
set(HEADERS src/anki_search.h src/unistd_win.h src/echo.h src/massif.h src/images.h src/marisa.h src/util.h src/kana_conv.h)
endif()
#Guix/Unix #Guix/Unix
set(SOURCES src/anki_search.cpp src/echo.cpp src/massif.cpp src/images.cpp src/marisa.cpp src/util.cpp src/kana_conv.cpp) if (APPLE OR UNIX OR ${GUIX})
set(HEADERS src/anki_search.h src/echo.h src/massif.h src/images.h src/marisa.h src/util.h src/kana_conv.h) set(SOURCES src/anki_search.cpp src/echo.cpp src/massif.cpp src/images.cpp src/marisa.cpp src/util.cpp src/kana_conv.cpp)
set(HEADERS src/anki_search.h src/echo.h src/massif.h src/images.h src/marisa.h src/util.h src/kana_conv.h)
endif()
add_executable(gd-tools_exe src/main.cpp ${SOURCES} ${HEADERS}) add_executable(gd-tools_exe src/main.cpp ${SOURCES} ${HEADERS})
add_executable(gd-tools::exe ALIAS gd-tools_exe) add_executable(gd-tools::exe ALIAS gd-tools_exe)
@ -81,11 +103,19 @@ set_property(TARGET gd-tools_exe PROPERTY OUTPUT_NAME gd-tools)
target_compile_features(gd-tools_exe PRIVATE cxx_std_23) target_compile_features(gd-tools_exe PRIVATE cxx_std_23)
#Guix #Guix
if (${GUIX})
target_link_libraries(gd-tools_exe PRIVATE cpr marisa rdricpp) target_link_libraries(gd-tools_exe PRIVATE cpr marisa rdricpp)
endif()
#Windows #Windows
#target_link_libraries(gd-tools_exe PRIVATE libmarisa.a cpr::cpr nlohmann_json::nlohmann_json rdricpp) #if (WIN32)
# target_link_libraries(gd-tools_exe PRIVATE libmarisa.a cpr::cpr nlohmann_json::nlohmann_json rdricpp::rdricpp)
#endif()
#Apple and other
if (NOT ${GUIX})
target_link_libraries(gd-tools_exe PRIVATE marisa cpr::cpr nlohmann_json::nlohmann_json rdricpp::rdricpp)
endif()
# ---- Install rules ---- # ---- Install rules ----
@ -94,6 +124,7 @@ if(NOT CMAKE_SKIP_INSTALL_RULES)
endif() endif()
include(cmake/dev-mode.cmake) include(cmake/dev-mode.cmake)
# ---- Developer mode ---- # ---- Developer mode ----
option(gd-tools_DEVELOPER_MODE "Test gd-tools" ON) option(gd-tools_DEVELOPER_MODE "Test gd-tools" ON)
@ -101,11 +132,8 @@ option(gd-tools_DEVELOPER_MODE "Test gd-tools" ON)
if(NOT gd-tools_DEVELOPER_MODE) if(NOT gd-tools_DEVELOPER_MODE)
return() return()
elseif(NOT PROJECT_IS_TOP_LEVEL) elseif(NOT PROJECT_IS_TOP_LEVEL)
message( message(AUTHOR_WARNING "Developer mode enabled")
AUTHOR_WARNING target_link_libraries(gd-tools_exe PRIVATE -lasan -lubsan)
"Developer mode is intended for developers of gd-tools"
)
endif() endif()
#target_link_libraries(gd-tools_exe PRIVATE -lasan -lubsan)

View file

@ -1,34 +1,32 @@
# Testing library # Testing library
#FetchContent_Declare( if ( (NOT ${GUIX}) )
# catch include(FetchContent)
# GIT_REPOSITORY https://github.com/catchorg/Catch2.git FetchContent_Declare(
# GIT_TAG v3.5.2) catch
#FetchContent_MakeAvailable(catch) GIT_REPOSITORY https://github.com/catchorg/Catch2.git
# Adds Catch2::Catch2 GIT_TAG v3.5.2)
FetchContent_MakeAvailable(catch)
#find_package(Catch2 REQUIRED) endif() #Adds Catch2::Catch2
include(CTest)
include(cmake/folders.cmake) include(cmake/folders.cmake)
#FIXME Later use tests dir to do testing: guix refuses to build tests
#add_subdirectory(Catch2-3.5.2)
include(CTest)
include(tests/Catch.cmake)
#include(cmake/catch.cmake)
#include(${CATCH_MODULE_PATH}/Catch.cmake)
#if(BUILD_TESTING) #if(BUILD_TESTING)
# add_subdirectory(tests) # add_subdirectory(tests)
#endif() #endif()
#set(HEADERS src/anki_search.h src/echo.h src/massif.h src/images.h src/marisa.h src/util.h src/kana_conv.h)
add_executable(tests src/tests_main_guix.cpp src/kana_conv.h src/util.h ) add_executable(tests src/tests_main_guix.cpp src/kana_conv.h src/util.h )
target_compile_features(tests PRIVATE cxx_std_23) target_compile_features(tests PRIVATE cxx_std_23)
# Should be linked to the rdricpp library, as well as the Catch2 testing library # Should be linked to the rdricpp library, as well as the Catch2 testing library
#target_link_libraries(tests PRIVATE cpr::cpr fmt::fmt nlohmann_json::nlohmann_json marisa rdricpp Catch2::Catch2WithMain) if( ${GUIX} )
target_link_libraries(tests PRIVATE cpr marisa rdricpp Catch2Main Catch2) include(tests/Catch.cmake)
target_link_libraries(tests PRIVATE cpr marisa rdricpp Catch2Main Catch2)
else()
target_link_libraries(tests PRIVATE cpr::cpr fmt::fmt nlohmann_json::nlohmann_json marisa rdricpp Catch2::Catch2WithMain)
endif()

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@ -1,6 +1,9 @@
#Works fine on Guix and most Unix systems
install(TARGETS gd-tools_exe DESTINATION bin) install(TARGETS gd-tools_exe DESTINATION bin)
install(FILES res/marisa_words.dic res/user_dic.dic DESTINATION share/gd-tools) install(FILES res/marisa_words.dic res/user_dic.dic DESTINATION share/gd-tools)
if(PROJECT_IS_TOP_LEVEL) if(PROJECT_IS_TOP_LEVEL)
include(CPack) include(CPack)
endif() endif()
#FIXME on Windows and Apple platforms

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@ -1,69 +0,0 @@
diff -crB --recursive cpr-1.10.5/cmake/zlib_external.cmake cpr-1.10.5_vanilla/cmake/zlib_external.cmake
*** cpr-1.10.5/cmake/zlib_external.cmake 2024-02-05 14:59:45.999602174 -0800
--- cpr-1.10.5_vanilla/cmake/zlib_external.cmake 2023-10-14 05:45:47.000000000 -0700
***************
*** 8,14 ****
set(ZLIB_COMPAT ON CACHE INTERNAL "" FORCE)
set(ZLIB_ENABLE_TESTS OFF CACHE INTERNAL "" FORCE)
! #FetchContent Zlib
# Fix Windows zlib dll names from "zlibd1.dll" to "zlib.dll":
if(WIN32)
--- 8,18 ----
set(ZLIB_COMPAT ON CACHE INTERNAL "" FORCE)
set(ZLIB_ENABLE_TESTS OFF CACHE INTERNAL "" FORCE)
! FetchContent_Declare(zlib
! GIT_REPOSITORY https://github.com/zlib-ng/zlib-ng
! GIT_TAG 2.0.6
! USES_TERMINAL_DOWNLOAD TRUE)
! FetchContent_MakeAvailable(zlib)
# Fix Windows zlib dll names from "zlibd1.dll" to "zlib.dll":
if(WIN32)
diff -crB --recursive cpr-1.10.5/CMakeLists.txt cpr-1.10.5_vanilla/CMakeLists.txt
*** cpr-1.10.5/CMakeLists.txt 2024-02-05 14:27:13.419578081 -0800
--- cpr-1.10.5_vanilla/CMakeLists.txt 2023-10-14 05:45:47.000000000 -0700
***************
*** 277,284 ****
if (CMAKE_VERSION VERSION_GREATER_EQUAL "3.24.0")
cmake_policy(SET CMP0135 NEW)
endif()
!
! #FetchContent
restore_variable(DESTINATION CMAKE_CXX_CLANG_TIDY BACKUP CMAKE_CXX_CLANG_TIDY_BKP)
endif()
--- 277,287 ----
if (CMAKE_VERSION VERSION_GREATER_EQUAL "3.24.0")
cmake_policy(SET CMP0135 NEW)
endif()
! FetchContent_Declare(curl
! URL https://github.com/curl/curl/releases/download/curl-8_4_0/curl-8.4.0.tar.xz
! URL_HASH SHA256=16c62a9c4af0f703d28bda6d7bbf37ba47055ad3414d70dec63e2e6336f2a82d # the file hash for curl-8.4.0.tar.xz
! USES_TERMINAL_DOWNLOAD TRUE) # <---- This is needed only for Ninja to show download progress
! FetchContent_MakeAvailable(curl)
restore_variable(DESTINATION CMAKE_CXX_CLANG_TIDY BACKUP CMAKE_CXX_CLANG_TIDY_BKP)
endif()
diff -crB --recursive cpr-1.10.5/cpr/CMakeLists.txt cpr-1.10.5_vanilla/cpr/CMakeLists.txt
*** cpr-1.10.5/cpr/CMakeLists.txt 2024-02-05 15:52:49.719516303 -0800
--- cpr-1.10.5_vanilla/cpr/CMakeLists.txt 2023-10-14 05:45:47.000000000 -0700
***************
*** 32,38 ****
add_library(cpr::cpr ALIAS cpr)
! target_link_libraries(cpr PUBLIC -lcurl) # todo should be private, but first dependencies in ssl_options need to be removed
# Fix missing OpenSSL includes for Windows since in 'ssl_ctx.cpp' we include OpenSSL directly
if(SSL_BACKEND_USED STREQUAL "OpenSSL")
--- 32,38 ----
add_library(cpr::cpr ALIAS cpr)
! target_link_libraries(cpr PUBLIC CURL::libcurl) # todo should be private, but first dependencies in ssl_options need to be removed
# Fix missing OpenSSL includes for Windows since in 'ssl_ctx.cpp' we include OpenSSL directly
if(SSL_BACKEND_USED STREQUAL "OpenSSL")

View file

@ -31,22 +31,17 @@
(package (package
(name "Catch2") (name "Catch2")
(version "3.5.2") (version "3.5.2")
(source (local-file "./Catch2-3.5.2" "guile-checkout" (source (origin
#:recursive? #t)) (method url-fetch)
(uri "https://github.com/catchorg/Catch2/archive/refs/tags/v3.5.2.tar.gz")
(sha256 (base32 "0vhc8zg69idw8lp7vr4hdkhsf9scqba33wizz6rl0vxpksj47596"))))
(build-system cmake-build-system) (build-system cmake-build-system)
(arguments (arguments ( list #:cmake cmake #:tests? #f))
( list #:cmake cmake
#:tests? #f
)
)
(native-inputs (native-inputs
(list (list gcc-13 pkg-config))
gcc-13
pkg-config
))
(synopsis "C++ Requests: Curl for People ") (synopsis "Catch2 testing for C++")
(description (description
"Catch2 is mainly a unit testing framework for C++, but it also "Catch2 is mainly a unit testing framework for C++, but it also
provides basic micro-benchmarking features, and simple BDD macros. provides basic micro-benchmarking features, and simple BDD macros.
@ -67,10 +62,8 @@
#:recursive? #t)) #:recursive? #t))
(build-system cmake-build-system) (build-system cmake-build-system)
(arguments (arguments
( list #:cmake cmake ( list #:cmake cmake #:tests? #f
#:tests? #f ))
)
)
(native-inputs (native-inputs
@ -79,8 +72,8 @@
gcc-13 gcc-13
curl curl
pkg-config pkg-config
)) ))
(inputs (inputs
(list (list
curl curl
@ -103,26 +96,28 @@
(package (package
(name "rdricpp") (name "rdricpp")
(version "1.5") (version "1.5")
(source (local-file "./rdricpp" "guile-checkout" (source
#:recursive? #t)) (origin
(method git-fetch)
(uri
(git-reference
(url "https://codeberg.org/xieamoe/rdricpp.git")
(commit "26b4b518d6")))
(sha256
(base32 "0c62g68gp0ya2v9rfszrm7mxsn0anj53sfcvwav88gbws6hxriih"))))
(build-system cmake-build-system) (build-system cmake-build-system)
(arguments (arguments
( list #:cmake cmake ( list #:cmake cmake
;;#:tests? #f #:tests? #f
) #:configure-flags
) #~(list "-DGUIX=1") ))
(native-inputs (native-inputs
(list (list gcc-13 pkg-config))
gcc-13
pkg-config
))
(inputs (inputs
(list (list catch2-full))
catch2-full
))
(synopsis "Rikaitan Deinflector Reference Implementation in C++.") (synopsis "Rikaitan Deinflector Reference Implementation in C++.")
(description (description
@ -143,6 +138,8 @@
(arguments (arguments
( list #:cmake cmake ( list #:cmake cmake
;;#:tests? #f ;;#:tests? #f
#:configure-flags
#~(list "-DGUIX=1")
) )
) )

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@ -1,104 +0,0 @@
BasedOnStyle: LLVM
AccessModifierOffset: -2
AlignAfterOpenBracket: BlockIndent
AlignConsecutiveAssignments: false
AlignConsecutiveDeclarations: false
AlignEscapedNewlines: Left
AlignOperands: true
AlignTrailingComments: false
AllowAllParametersOfDeclarationOnNextLine: false
AllowAllArgumentsOnNextLine: false
AllowShortBlocksOnASingleLine: true
AllowShortCaseLabelsOnASingleLine: false
AllowShortFunctionsOnASingleLine: Empty
AllowShortIfStatementsOnASingleLine: false
AllowShortLoopsOnASingleLine: false
AllowShortLambdasOnASingleLine: All
AlwaysBreakAfterDefinitionReturnType: None
AlwaysBreakAfterReturnType: None
AlwaysBreakBeforeMultilineStrings: true
AlwaysBreakTemplateDeclarations: Yes
BinPackArguments: false
BinPackParameters: false
BreakBeforeBraces: Custom
BraceWrapping:
AfterClass: true
AfterControlStatement: false
AfterEnum: false
AfterFunction: true
AfterNamespace: false
AfterObjCDeclaration: false
AfterStruct: true
AfterUnion: false
BeforeCatch: false
BeforeElse: false
IndentBraces: false
SplitEmptyFunction: false
SplitEmptyNamespace: true
SplitEmptyRecord: true
BreakAfterJavaFieldAnnotations: true
BreakBeforeBinaryOperators: NonAssignment
BreakBeforeInheritanceComma: true
BreakBeforeTernaryOperators: true
BreakConstructorInitializers: AfterColon
BreakConstructorInitializersBeforeComma: false
BreakStringLiterals: true
ColumnLimit: 120
CommentPragmas: '^ IWYU pragma:'
CompactNamespaces: false
ConstructorInitializerAllOnOneLineOrOnePerLine: false
ConstructorInitializerIndentWidth: 2
ContinuationIndentWidth: 2
Cpp11BracedListStyle: false
DerivePointerAlignment: false
DisableFormat: false
ExperimentalAutoDetectBinPacking: true
FixNamespaceComments: true
ForEachMacros:
- foreach
- Q_FOREACH
- BOOST_FOREACH
IncludeCategories:
- Priority: 2
Regex: ^"(llvm|llvm-c|clang|clang-c)/
- Priority: 3
Regex: ^(<|"(gtest|gmock|isl|json)/)
- Priority: 1
Regex: .*
IncludeIsMainRegex: (Test)?$
IndentCaseLabels: false
IndentWidth: 2
IndentWrappedFunctionNames: true
JavaScriptQuotes: Leave
JavaScriptWrapImports: true
KeepEmptyLinesAtTheStartOfBlocks: true
Language: Cpp
MacroBlockBegin: ''
MacroBlockEnd: ''
MaxEmptyLinesToKeep: 1
NamespaceIndentation: Inner
ObjCBlockIndentWidth: 7
ObjCSpaceAfterProperty: true
ObjCSpaceBeforeProtocolList: false
PointerAlignment: Left
ReflowComments: true
SortIncludes: true
SortUsingDeclarations: false
SpaceAfterCStyleCast: false
SpaceAfterTemplateKeyword: false
SpaceBeforeAssignmentOperators: true
SpaceBeforeParens: ControlStatements
SpaceInEmptyParentheses: false
SpacesBeforeTrailingComments: 1
SpacesInAngles: false
SpacesInCStyleCastParentheses: false
SpacesInContainerLiterals: true
SpacesInParentheses: false
SpacesInSquareBrackets: false
Standard: c++20
TabWidth: 8
UseTab: Never
SpaceBeforeRangeBasedForLoopColon: false
QualifierAlignment: Right
AllowShortEnumsOnASingleLine: false
InsertTrailingCommas: Wrapped

View file

@ -1,37 +0,0 @@
---
Checks: "*,
cppcoreguidelines-*,
modernize-*,
clang-*,
clang-analyzer-*,
readability-*,
-abseil-*,
-altera-*,
-android-*,
-fuchsia-*,
-google-*,
-llvm*,
-zircon-*,
-misc-non-private-member-variables-in-classes,
-modernize-use-trailing-return-type,
-readability-else-after-return,
-readability-static-accessed-through-instance,
-readability-avoid-const-params-in-decls,
-readability-identifier-length,
-cppcoreguidelines-non-private-member-variables-in-classes,
-cppcoreguidelines-pro-bounds-constant-array-index,
-bugprone-easily-swappable-parameters,
-google-readability-todo,
-google-readability-casting
"
WarningsAsErrors: ''
HeaderFilterRegex: ''
FormatStyle: none
CheckOptions:
- key: readability-identifier-length.IgnoredVariableNames
value: 'x|y|z'
- key: readability-identifier-length.IgnoredParameterNames
value: 'x|y|z'
- key: readability-identifier-length.MinimumParameterNameLength
value: '2'

4
rdricpp/.gitignore vendored
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@ -1,4 +0,0 @@
.xmake/
build/
/.cache
.DS_Store

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@ -1,36 +0,0 @@
# Works with 3.14 and tested through 3.28
cmake_minimum_required(VERSION 3.14...3.28)
project(Rdricpp
VERSION 0.2
DESCRIPTION "Rikaitan Deinflector Reference Implementation in C++."
LANGUAGES CXX)
# Only do these if this is the main project
# Testing only available if this is the main program
if(CMAKE_PROJECT_NAME STREQUAL PROJECT_NAME)
set(CMAKE_CXX_EXTENSIONS OFF)
set_property(GLOBAL PROPERTY USE_FOLDERS ON)
include(CTest)
endif()
# The compiled library code is here
add_subdirectory(src)
# The executable code is here
add_subdirectory(bin)
# Run tests with make test
if((CMAKE_PROJECT_NAME STREQUAL PROJECT_NAME OR RDRICPP_TESTING)
AND BUILD_TESTING)
add_subdirectory(tests)
endif()

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@ -1,674 +0,0 @@
GNU GENERAL PUBLIC LICENSE
Version 3, 29 June 2007
Copyright (C) 2007 Free Software Foundation, Inc. <https://fsf.org/>
Everyone is permitted to copy and distribute verbatim copies
of this license document, but changing it is not allowed.
Preamble
The GNU General Public License is a free, copyleft license for
software and other kinds of works.
The licenses for most software and other practical works are designed
to take away your freedom to share and change the works. By contrast,
the GNU General Public License is intended to guarantee your freedom to
share and change all versions of a program--to make sure it remains free
software for all its users. We, the Free Software Foundation, use the
GNU General Public License for most of our software; it applies also to
any other work released this way by its authors. You can apply it to
your programs, too.
When we speak of free software, we are referring to freedom, not
price. Our General Public Licenses are designed to make sure that you
have the freedom to distribute copies of free software (and charge for
them if you wish), that you receive source code or can get it if you
want it, that you can change the software or use pieces of it in new
free programs, and that you know you can do these things.
To protect your rights, we need to prevent others from denying you
these rights or asking you to surrender the rights. Therefore, you have
certain responsibilities if you distribute copies of the software, or if
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For example, if you distribute copies of such a program, whether
gratis or for a fee, you must pass on to the recipients the same
freedoms that you received. You must make sure that they, too, receive
or can get the source code. And you must show them these terms so they
know their rights.
Developers that use the GNU GPL protect your rights with two steps:
(1) assert copyright on the software, and (2) offer you this License
giving you legal permission to copy, distribute and/or modify it.
For the developers' and authors' protection, the GPL clearly explains
that there is no warranty for this free software. For both users' and
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Some devices are designed to deny users access to install or run
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protecting users' freedom to change the software. The systematic
pattern of such abuse occurs in the area of products for individuals to
use, which is precisely where it is most unacceptable. Therefore, we
have designed this version of the GPL to prohibit the practice for those
products. If such problems arise substantially in other domains, we
stand ready to extend this provision to those domains in future versions
of the GPL, as needed to protect the freedom of users.
Finally, every program is threatened constantly by software patents.
States should not allow patents to restrict development and use of
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avoid the special danger that patents applied to a free program could
make it effectively proprietary. To prevent this, the GPL assures that
patents cannot be used to render the program non-free.
The precise terms and conditions for copying, distribution and
modification follow.
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A "covered work" means either the unmodified Program or a work based
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To "propagate" a work means to do anything with it that, without
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<https://www.gnu.org/licenses/why-not-lgpl.html>.

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# rdricpp
Rikaitan Deinflector Reference Implementation in C++.

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add_executable(rdricpp-exec main.cpp)
target_compile_features(rdricpp PRIVATE cxx_std_23)
target_link_libraries(rdricpp-exec PRIVATE rdricpp)

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@ -1,31 +0,0 @@
/*
* Rikaitan Deinflector Reference Implementation
*
* Copyright (C) 2023 Ajatt-Tools and contributors
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, visit the http://fsf.org website.
*/
#include "rdricpp/ostream.h"
#include "rdricpp/rdricpp.h"
#include <iostream>
#include <ranges>
int main(int const argc, char const* const* const argv)
{
for (auto const idx: std::views::iota(1, argc)) {
std::cout << ajt::rdricpp::deinflect(*std::next(argv, idx));
}
return 0;
}

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/*
* Rikaitan Deinflector Reference Implementation
*
* Copyright (C) 2023 Ajatt-Tools and contributors
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, visit the http://fsf.org website.
*/
#pragma once
#include "types.h"
#include <array>
#include <iostream>
#include <string_view>
#include <vector>
namespace ajt::rdricpp {
template<typename Stored, size_t Size>
auto& operator<<(std::ostream& os, std::array<Stored, Size> const& array)
{
for (auto const& item: array) {
os << item << ' ';
}
os << '\n';
return os;
}
template<typename Stored>
auto& operator<<(std::ostream& os, std::vector<Stored> const& array)
{
os << "[";
for (auto const& item: array) {
os << item << ", ";
}
os << "]";
return os;
}
inline auto& operator<<(std::ostream& os, Reason const& reason)
{
os << "{ .kana_in=" << reason.kana_in << ", .kana_out=" << reason.kana_out << ", .rules_in=" << reason.rules_in
<< ", .rules_out=" << reason.rules_out << " }\n";
return os;
}
inline auto& operator<<(std::ostream& os, RuleSet const& ruleset)
{
os << "{ .name=\"" << ruleset.name << "\", .rules=" << ruleset.rules << " }\n";
return os;
}
inline auto& operator<<(std::ostream& os, Deinflection const& deinflection)
{
os << "{.term=" << deinflection.term //
<< ", .rules=" << deinflection.rules //
<< ", .reasons=" << deinflection.reasons //
<< "}";
return os;
}
inline auto& operator<<(std::ostream& os, std::vector<Deinflection> const& deinflections)
{
for (auto const& deinflection: deinflections) {
os << deinflection << '\n';
}
os << '\n';
return os;
}
} // namespace ajt::rdricpp

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@ -1,30 +0,0 @@
/*
* Rikaitan Deinflector Reference Implementation
*
* Copyright (C) 2023 Ajatt-Tools and contributors
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, visit the http://fsf.org website.
*/
#pragma once
#include "types.h"
#include <string_view>
#include <vector>
namespace ajt::rdricpp {
auto deinflect(std::string_view const source) -> std::vector<Deinflection>;
}

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@ -1,69 +0,0 @@
/*
* Rikaitan Deinflector Reference Implementation
*
* Copyright (C) 2023 Ajatt-Tools and contributors
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, visit the http://fsf.org website.
*/
#pragma once
#include <array>
#include <cstdint>
#include <string>
#include <string_view>
#include <vector>
namespace ajt::rdricpp {
enum RuleType : uint32_t {
none = 0U,
v1 = 1U, // Verb ichidan
v5 = 2U, // Verb godan
vs = 4U, // Verb suru
vk = 8U, // Verb kuru
vz = 16U, // Verb zuru
adj_i = 32U, // Adjective i
iru = 64U // Intermediate -iru endings for progressive or perfect tense
};
struct Reason
{
std::string_view kana_in{};
std::string_view kana_out{};
RuleType rules_in{};
RuleType rules_out{};
[[nodiscard]] bool empty() const noexcept
{
return rules_in == RuleType::none and rules_out == RuleType::none and kana_in.empty() and kana_out.empty();
}
};
static constexpr size_t arr_max_size{ 50 };
struct RuleSet
{
std::string_view name{};
std::array<Reason, arr_max_size> rules{};
};
struct Deinflection
{
std::string term{};
RuleType rules{};
std::vector<std::string> reasons{};
};
} // namespace ajt::rdricpp

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@ -1,21 +0,0 @@
set(HEADER_LIST "${Rdricpp_SOURCE_DIR}/include/rdricpp/rdricpp.h")
add_library(rdricpp STATIC rdricpp.cpp ${HEADER_LIST})
#Expose include dir
target_include_directories(rdricpp PUBLIC ../include)
target_compile_features(rdricpp PUBLIC cxx_std_23)
source_group(
TREE "${PROJECT_SOURCE_DIR}/include"
PREFIX "Header Files"
FILES ${HEADER_LIST})
#Installation
install(TARGETS rdricpp DESTINATION lib/)
install(DIRECTORY ${Rdricpp_SOURCE_DIR}/include/rdricpp DESTINATION include/)

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@ -1,85 +0,0 @@
/*
* Rikaitan Deinflector Reference Implementation
*
* Copyright (C) 2023 Ajatt-Tools and contributors
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, visit the http://fsf.org website.
*/
#include "rdricpp/rdricpp.h"
#include "rdricpp/rule_sets.h"
#include "rdricpp/types.h"
#include <array>
#include <iostream>
#include <string_view>
#include <vector>
namespace ajt::rdricpp {
template<typename Stored>
auto copy_and_prepend(std::vector<Stored> const& first, Stored&& value) -> std::vector<Stored>
{
std::vector<Stored> joined = { value };
joined.insert(joined.cend(), first.cbegin(), first.cend());
return joined;
}
auto rule_applies(Deinflection const& result, Reason const& rule) -> bool
{
if (result.rules != RuleType::none and (rule.rules_in & result.rules) == RuleType::none) {
return false;
}
if (not result.term.ends_with(rule.kana_in)) {
return false;
}
if (result.term.size() + rule.kana_out.size() <= rule.kana_in.size()) {
return false;
}
return true;
}
auto deinflect(std::string_view const source) -> std::vector<Deinflection>
{
std::vector<Deinflection> results{
Deinflection{
.term = std::string{ source },
.rules = RuleType::none,
.reasons = {},
},
};
for (size_t idx = 0; idx < results.size(); ++idx) {
for (RuleSet const& ruleset: rulesets) {
for (Reason const& rule: ruleset.rules) {
if (rule.empty()) {
// reached the end of ruleset
break;
}
if (Deinflection const& result = results.at(idx); rule_applies(result, rule)) {
results.push_back(Deinflection{
.term = (result.term.substr(0, result.term.size() - rule.kana_in.size()).append(rule.kana_out)),
.rules = rule.rules_out,
.reasons = copy_and_prepend(result.reasons, std::string(ruleset.name)),
});
}
}
}
}
return results;
}
} // namespace ajt::rdricpp

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@ -1,25 +0,0 @@
# Testing library
#FetchContent_Declare(
# catch
# GIT_REPOSITORY https://github.com/catchorg/Catch2.git
# GIT_TAG v3.5.2)
#FetchContent_MakeAvailable(catch)
# Adds Catch2::Catch2
#add_subdirectory(Catch2-3.5.2)
include(CTest)
#include(Catch)
include(Catch.cmake)
add_executable(tests tests.cpp test_cases.cpp test_cases.h)
target_compile_features(tests PRIVATE cxx_std_23)
# Should be linked to the rdricpp library, as well as the Catch2 testing library
target_link_libraries(tests PRIVATE rdricpp Catch2Main Catch2)
catch_discover_tests(tests)
add_test(NAME Test COMMAND tests)

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@ -1,304 +0,0 @@
# Distributed under the OSI-approved BSD 3-Clause License. See accompanying
# file Copyright.txt or https://cmake.org/licensing for details.
#[=======================================================================[.rst:
Catch
-----
This module defines a function to help use the Catch test framework.
The :command:`catch_discover_tests` discovers tests by asking the compiled test
executable to enumerate its tests. This does not require CMake to be re-run
when tests change. However, it may not work in a cross-compiling environment,
and setting test properties is less convenient.
This command is intended to replace use of :command:`add_test` to register
tests, and will create a separate CTest test for each Catch test case. Note
that this is in some cases less efficient, as common set-up and tear-down logic
cannot be shared by multiple test cases executing in the same instance.
However, it provides more fine-grained pass/fail information to CTest, which is
usually considered as more beneficial. By default, the CTest test name is the
same as the Catch name; see also ``TEST_PREFIX`` and ``TEST_SUFFIX``.
.. command:: catch_discover_tests
Automatically add tests with CTest by querying the compiled test executable
for available tests::
catch_discover_tests(target
[TEST_SPEC arg1...]
[EXTRA_ARGS arg1...]
[WORKING_DIRECTORY dir]
[TEST_PREFIX prefix]
[TEST_SUFFIX suffix]
[PROPERTIES name1 value1...]
[TEST_LIST var]
[REPORTER reporter]
[OUTPUT_DIR dir]
[OUTPUT_PREFIX prefix]
[OUTPUT_SUFFIX suffix]
[DISCOVERY_MODE <POST_BUILD|PRE_TEST>]
)
``catch_discover_tests`` sets up a post-build command on the test executable
that generates the list of tests by parsing the output from running the test
with the ``--list-test-names-only`` argument. This ensures that the full
list of tests is obtained. Since test discovery occurs at build time, it is
not necessary to re-run CMake when the list of tests changes.
However, it requires that :prop_tgt:`CROSSCOMPILING_EMULATOR` is properly set
in order to function in a cross-compiling environment.
Additionally, setting properties on tests is somewhat less convenient, since
the tests are not available at CMake time. Additional test properties may be
assigned to the set of tests as a whole using the ``PROPERTIES`` option. If
more fine-grained test control is needed, custom content may be provided
through an external CTest script using the :prop_dir:`TEST_INCLUDE_FILES`
directory property. The set of discovered tests is made accessible to such a
script via the ``<target>_TESTS`` variable.
The options are:
``target``
Specifies the Catch executable, which must be a known CMake executable
target. CMake will substitute the location of the built executable when
running the test.
``TEST_SPEC arg1...``
Specifies test cases, wildcarded test cases, tags and tag expressions to
pass to the Catch executable with the ``--list-test-names-only`` argument.
``EXTRA_ARGS arg1...``
Any extra arguments to pass on the command line to each test case.
``WORKING_DIRECTORY dir``
Specifies the directory in which to run the discovered test cases. If this
option is not provided, the current binary directory is used.
``TEST_PREFIX prefix``
Specifies a ``prefix`` to be prepended to the name of each discovered test
case. This can be useful when the same test executable is being used in
multiple calls to ``catch_discover_tests()`` but with different
``TEST_SPEC`` or ``EXTRA_ARGS``.
``TEST_SUFFIX suffix``
Similar to ``TEST_PREFIX`` except the ``suffix`` is appended to the name of
every discovered test case. Both ``TEST_PREFIX`` and ``TEST_SUFFIX`` may
be specified.
``PROPERTIES name1 value1...``
Specifies additional properties to be set on all tests discovered by this
invocation of ``catch_discover_tests``.
``TEST_LIST var``
Make the list of tests available in the variable ``var``, rather than the
default ``<target>_TESTS``. This can be useful when the same test
executable is being used in multiple calls to ``catch_discover_tests()``.
Note that this variable is only available in CTest.
``REPORTER reporter``
Use the specified reporter when running the test case. The reporter will
be passed to the Catch executable as ``--reporter reporter``.
``OUTPUT_DIR dir``
If specified, the parameter is passed along as
``--out dir/<test_name>`` to Catch executable. The actual file name is the
same as the test name. This should be used instead of
``EXTRA_ARGS --out foo`` to avoid race conditions writing the result output
when using parallel test execution.
``OUTPUT_PREFIX prefix``
May be used in conjunction with ``OUTPUT_DIR``.
If specified, ``prefix`` is added to each output file name, like so
``--out dir/prefix<test_name>``.
``OUTPUT_SUFFIX suffix``
May be used in conjunction with ``OUTPUT_DIR``.
If specified, ``suffix`` is added to each output file name, like so
``--out dir/<test_name>suffix``. This can be used to add a file extension to
the output e.g. ".xml".
``DL_PATHS path...``
Specifies paths that need to be set for the dynamic linker to find shared
libraries/DLLs when running the test executable (PATH/LD_LIBRARY_PATH respectively).
These paths will both be set when retrieving the list of test cases from the
test executable and when the tests are executed themselves. This requires
cmake/ctest >= 3.22.
`DISCOVERY_MODE mode``
Provides control over when ``catch_discover_tests`` performs test discovery.
By default, ``POST_BUILD`` sets up a post-build command to perform test discovery
at build time. In certain scenarios, like cross-compiling, this ``POST_BUILD``
behavior is not desirable. By contrast, ``PRE_TEST`` delays test discovery until
just prior to test execution. This way test discovery occurs in the target environment
where the test has a better chance at finding appropriate runtime dependencies.
``DISCOVERY_MODE`` defaults to the value of the
``CMAKE_CATCH_DISCOVER_TESTS_DISCOVERY_MODE`` variable if it is not passed when
calling ``catch_discover_tests``. This provides a mechanism for globally selecting
a preferred test discovery behavior without having to modify each call site.
#]=======================================================================]
#------------------------------------------------------------------------------
function(catch_discover_tests TARGET)
cmake_parse_arguments(
""
""
"TEST_PREFIX;TEST_SUFFIX;WORKING_DIRECTORY;TEST_LIST;REPORTER;OUTPUT_DIR;OUTPUT_PREFIX;OUTPUT_SUFFIX;DISCOVERY_MODE"
"TEST_SPEC;EXTRA_ARGS;PROPERTIES;DL_PATHS"
${ARGN}
)
if(NOT _WORKING_DIRECTORY)
set(_WORKING_DIRECTORY "${CMAKE_CURRENT_BINARY_DIR}")
endif()
if(NOT _TEST_LIST)
set(_TEST_LIST ${TARGET}_TESTS)
endif()
if (_DL_PATHS)
if(${CMAKE_VERSION} VERSION_LESS "3.22.0")
message(FATAL_ERROR "The DL_PATHS option requires at least cmake 3.22")
endif()
endif()
if(NOT _DISCOVERY_MODE)
if(NOT CMAKE_CATCH_DISCOVER_TESTS_DISCOVERY_MODE)
set(CMAKE_CATCH_DISCOVER_TESTS_DISCOVERY_MODE "POST_BUILD")
endif()
set(_DISCOVERY_MODE ${CMAKE_CATCH_DISCOVER_TESTS_DISCOVERY_MODE})
endif()
if (NOT _DISCOVERY_MODE MATCHES "^(POST_BUILD|PRE_TEST)$")
message(FATAL_ERROR "Unknown DISCOVERY_MODE: ${_DISCOVERY_MODE}")
endif()
## Generate a unique name based on the extra arguments
string(SHA1 args_hash "${_TEST_SPEC} ${_EXTRA_ARGS} ${_REPORTER} ${_OUTPUT_DIR} ${_OUTPUT_PREFIX} ${_OUTPUT_SUFFIX}")
string(SUBSTRING ${args_hash} 0 7 args_hash)
# Define rule to generate test list for aforementioned test executable
set(ctest_file_base "${CMAKE_CURRENT_BINARY_DIR}/${TARGET}-${args_hash}")
set(ctest_include_file "${ctest_file_base}_include.cmake")
set(ctest_tests_file "${ctest_file_base}_tests.cmake")
get_property(crosscompiling_emulator
TARGET ${TARGET}
PROPERTY CROSSCOMPILING_EMULATOR
)
if(_DISCOVERY_MODE STREQUAL "POST_BUILD")
add_custom_command(
TARGET ${TARGET} POST_BUILD
BYPRODUCTS "${ctest_tests_file}"
COMMAND "${CMAKE_COMMAND}"
-D "TEST_TARGET=${TARGET}"
-D "TEST_EXECUTABLE=$<TARGET_FILE:${TARGET}>"
-D "TEST_EXECUTOR=${crosscompiling_emulator}"
-D "TEST_WORKING_DIR=${_WORKING_DIRECTORY}"
-D "TEST_SPEC=${_TEST_SPEC}"
-D "TEST_EXTRA_ARGS=${_EXTRA_ARGS}"
-D "TEST_PROPERTIES=${_PROPERTIES}"
-D "TEST_PREFIX=${_TEST_PREFIX}"
-D "TEST_SUFFIX=${_TEST_SUFFIX}"
-D "TEST_LIST=${_TEST_LIST}"
-D "TEST_REPORTER=${_REPORTER}"
-D "TEST_OUTPUT_DIR=${_OUTPUT_DIR}"
-D "TEST_OUTPUT_PREFIX=${_OUTPUT_PREFIX}"
-D "TEST_OUTPUT_SUFFIX=${_OUTPUT_SUFFIX}"
-D "TEST_DL_PATHS=${_DL_PATHS}"
-D "CTEST_FILE=${ctest_tests_file}"
-P "${_CATCH_DISCOVER_TESTS_SCRIPT}"
VERBATIM
)
file(WRITE "${ctest_include_file}"
"if(EXISTS \"${ctest_tests_file}\")\n"
" include(\"${ctest_tests_file}\")\n"
"else()\n"
" add_test(${TARGET}_NOT_BUILT-${args_hash} ${TARGET}_NOT_BUILT-${args_hash})\n"
"endif()\n"
)
elseif(_DISCOVERY_MODE STREQUAL "PRE_TEST")
get_property(GENERATOR_IS_MULTI_CONFIG GLOBAL
PROPERTY GENERATOR_IS_MULTI_CONFIG
)
if(GENERATOR_IS_MULTI_CONFIG)
set(ctest_tests_file "${ctest_file_base}_tests-$<CONFIG>.cmake")
endif()
string(CONCAT ctest_include_content
"if(EXISTS \"$<TARGET_FILE:${TARGET}>\")" "\n"
" if(NOT EXISTS \"${ctest_tests_file}\" OR" "\n"
" NOT \"${ctest_tests_file}\" IS_NEWER_THAN \"$<TARGET_FILE:${TARGET}>\" OR\n"
" NOT \"${ctest_tests_file}\" IS_NEWER_THAN \"\${CMAKE_CURRENT_LIST_FILE}\")\n"
" include(\"${_CATCH_DISCOVER_TESTS_SCRIPT}\")" "\n"
" catch_discover_tests_impl(" "\n"
" TEST_EXECUTABLE" " [==[" "$<TARGET_FILE:${TARGET}>" "]==]" "\n"
" TEST_EXECUTOR" " [==[" "${crosscompiling_emulator}" "]==]" "\n"
" TEST_WORKING_DIR" " [==[" "${_WORKING_DIRECTORY}" "]==]" "\n"
" TEST_SPEC" " [==[" "${_TEST_SPEC}" "]==]" "\n"
" TEST_EXTRA_ARGS" " [==[" "${_EXTRA_ARGS}" "]==]" "\n"
" TEST_PROPERTIES" " [==[" "${_PROPERTIES}" "]==]" "\n"
" TEST_PREFIX" " [==[" "${_TEST_PREFIX}" "]==]" "\n"
" TEST_SUFFIX" " [==[" "${_TEST_SUFFIX}" "]==]" "\n"
" TEST_LIST" " [==[" "${_TEST_LIST}" "]==]" "\n"
" TEST_REPORTER" " [==[" "${_REPORTER}" "]==]" "\n"
" TEST_OUTPUT_DIR" " [==[" "${_OUTPUT_DIR}" "]==]" "\n"
" TEST_OUTPUT_PREFIX" " [==[" "${_OUTPUT_PREFIX}" "]==]" "\n"
" TEST_OUTPUT_SUFFIX" " [==[" "${_OUTPUT_SUFFIX}" "]==]" "\n"
" CTEST_FILE" " [==[" "${ctest_tests_file}" "]==]" "\n"
" TEST_DL_PATHS" " [==[" "${_DL_PATHS}" "]==]" "\n"
" CTEST_FILE" " [==[" "${CTEST_FILE}" "]==]" "\n"
" )" "\n"
" endif()" "\n"
" include(\"${ctest_tests_file}\")" "\n"
"else()" "\n"
" add_test(${TARGET}_NOT_BUILT ${TARGET}_NOT_BUILT)" "\n"
"endif()" "\n"
)
if(GENERATOR_IS_MULTI_CONFIG)
foreach(_config ${CMAKE_CONFIGURATION_TYPES})
file(GENERATE OUTPUT "${ctest_file_base}_include-${_config}.cmake" CONTENT "${ctest_include_content}" CONDITION $<CONFIG:${_config}>)
endforeach()
string(CONCAT ctest_include_multi_content
"if(NOT CTEST_CONFIGURATION_TYPE)" "\n"
" message(\"No configuration for testing specified, use '-C <cfg>'.\")" "\n"
"else()" "\n"
" include(\"${ctest_file_base}_include-\${CTEST_CONFIGURATION_TYPE}.cmake\")" "\n"
"endif()" "\n"
)
file(GENERATE OUTPUT "${ctest_include_file}" CONTENT "${ctest_include_multi_content}")
else()
file(GENERATE OUTPUT "${ctest_file_base}_include.cmake" CONTENT "${ctest_include_content}")
file(WRITE "${ctest_include_file}" "include(\"${ctest_file_base}_include.cmake\")")
endif()
endif()
if(NOT ${CMAKE_VERSION} VERSION_LESS "3.10.0")
# Add discovered tests to directory TEST_INCLUDE_FILES
set_property(DIRECTORY
APPEND PROPERTY TEST_INCLUDE_FILES "${ctest_include_file}"
)
else()
# Add discovered tests as directory TEST_INCLUDE_FILE if possible
get_property(test_include_file_set DIRECTORY PROPERTY TEST_INCLUDE_FILE SET)
if (NOT ${test_include_file_set})
set_property(DIRECTORY
PROPERTY TEST_INCLUDE_FILE "${ctest_include_file}"
)
else()
message(FATAL_ERROR "Cannot set more than one TEST_INCLUDE_FILE")
endif()
endif()
endfunction()
###############################################################################
set(_CATCH_DISCOVER_TESTS_SCRIPT
${CMAKE_CURRENT_LIST_DIR}/CatchAddTests.cmake
CACHE INTERNAL "Catch2 full path to CatchAddTests.cmake helper file"
)

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@ -1,192 +0,0 @@
# Distributed under the OSI-approved BSD 3-Clause License. See accompanying
# file Copyright.txt or https://cmake.org/licensing for details.
function(add_command NAME)
set(_args "")
# use ARGV* instead of ARGN, because ARGN splits arrays into multiple arguments
math(EXPR _last_arg ${ARGC}-1)
foreach(_n RANGE 1 ${_last_arg})
set(_arg "${ARGV${_n}}")
if(_arg MATCHES "[^-./:a-zA-Z0-9_]")
set(_args "${_args} [==[${_arg}]==]") # form a bracket_argument
else()
set(_args "${_args} ${_arg}")
endif()
endforeach()
set(script "${script}${NAME}(${_args})\n" PARENT_SCOPE)
endfunction()
function(catch_discover_tests_impl)
cmake_parse_arguments(
""
""
"TEST_EXECUTABLE;TEST_WORKING_DIR;TEST_DL_PATHS;TEST_OUTPUT_DIR;TEST_OUTPUT_PREFIX;TEST_OUTPUT_SUFFIX;TEST_PREFIX;TEST_REPORTER;TEST_SPEC;TEST_SUFFIX;TEST_LIST;CTEST_FILE"
"TEST_EXTRA_ARGS;TEST_PROPERTIES;TEST_EXECUTOR"
${ARGN}
)
set(prefix "${_TEST_PREFIX}")
set(suffix "${_TEST_SUFFIX}")
set(spec ${_TEST_SPEC})
set(extra_args ${_TEST_EXTRA_ARGS})
set(properties ${_TEST_PROPERTIES})
set(reporter ${_TEST_REPORTER})
set(output_dir ${_TEST_OUTPUT_DIR})
set(output_prefix ${_TEST_OUTPUT_PREFIX})
set(output_suffix ${_TEST_OUTPUT_SUFFIX})
set(dl_paths ${_TEST_DL_PATHS})
set(script)
set(suite)
set(tests)
if(WIN32)
set(dl_paths_variable_name PATH)
elseif(APPLE)
set(dl_paths_variable_name DYLD_LIBRARY_PATH)
else()
set(dl_paths_variable_name LD_LIBRARY_PATH)
endif()
# Run test executable to get list of available tests
if(NOT EXISTS "${_TEST_EXECUTABLE}")
message(FATAL_ERROR
"Specified test executable '${_TEST_EXECUTABLE}' does not exist"
)
endif()
if(dl_paths)
cmake_path(CONVERT "${dl_paths}" TO_NATIVE_PATH_LIST paths)
set(ENV{${dl_paths_variable_name}} "${paths}")
endif()
execute_process(
COMMAND ${_TEST_EXECUTOR} "${_TEST_EXECUTABLE}" ${spec} --list-tests --verbosity quiet
OUTPUT_VARIABLE output
RESULT_VARIABLE result
WORKING_DIRECTORY "${_TEST_WORKING_DIR}"
)
if(NOT ${result} EQUAL 0)
message(FATAL_ERROR
"Error running test executable '${_TEST_EXECUTABLE}':\n"
" Result: ${result}\n"
" Output: ${output}\n"
)
endif()
# Make sure to escape ; (semicolons) in test names first, because
# that'd break the foreach loop for "Parse output" later and create
# wrongly splitted and thus failing test cases (false positives)
string(REPLACE ";" "\;" output "${output}")
string(REPLACE "\n" ";" output "${output}")
# Prepare reporter
if(reporter)
set(reporter_arg "--reporter ${reporter}")
# Run test executable to check whether reporter is available
# note that the use of --list-reporters is not the important part,
# we only want to check whether the execution succeeds with ${reporter_arg}
execute_process(
COMMAND ${_TEST_EXECUTOR} "${_TEST_EXECUTABLE}" ${spec} ${reporter_arg} --list-reporters
OUTPUT_VARIABLE reporter_check_output
RESULT_VARIABLE reporter_check_result
WORKING_DIRECTORY "${_TEST_WORKING_DIR}"
)
if(${reporter_check_result} EQUAL 255)
message(FATAL_ERROR
"\"${reporter}\" is not a valid reporter!\n"
)
elseif(NOT ${reporter_check_result} EQUAL 0)
message(FATAL_ERROR
"Error running test executable '${_TEST_EXECUTABLE}':\n"
" Result: ${reporter_check_result}\n"
" Output: ${reporter_check_output}\n"
)
endif()
endif()
# Prepare output dir
if(output_dir AND NOT IS_ABSOLUTE ${output_dir})
set(output_dir "${_TEST_WORKING_DIR}/${output_dir}")
if(NOT EXISTS ${output_dir})
file(MAKE_DIRECTORY ${output_dir})
endif()
endif()
if(dl_paths)
foreach(path ${dl_paths})
cmake_path(NATIVE_PATH path native_path)
list(APPEND environment_modifications "${dl_paths_variable_name}=path_list_prepend:${native_path}")
endforeach()
endif()
# Parse output
foreach(line ${output})
set(test "${line}")
# Escape characters in test case names that would be parsed by Catch2
# Note that the \ escaping must happen FIRST! Do not change the order.
set(test_name "${test}")
foreach(char \\ , [ ])
string(REPLACE ${char} "\\${char}" test_name "${test_name}")
endforeach(char)
# ...add output dir
if(output_dir)
string(REGEX REPLACE "[^A-Za-z0-9_]" "_" test_name_clean "${test_name}")
set(output_dir_arg "--out ${output_dir}/${output_prefix}${test_name_clean}${output_suffix}")
endif()
# ...and add to script
add_command(add_test
"${prefix}${test}${suffix}"
${_TEST_EXECUTOR}
"${_TEST_EXECUTABLE}"
"${test_name}"
${extra_args}
"${reporter_arg}"
"${output_dir_arg}"
)
add_command(set_tests_properties
"${prefix}${test}${suffix}"
PROPERTIES
WORKING_DIRECTORY "${_TEST_WORKING_DIR}"
${properties}
)
if(environment_modifications)
add_command(set_tests_properties
"${prefix}${test}${suffix}"
PROPERTIES
ENVIRONMENT_MODIFICATION "${environment_modifications}")
endif()
list(APPEND tests "${prefix}${test}${suffix}")
endforeach()
# Create a list of all discovered tests, which users may use to e.g. set
# properties on the tests
add_command(set ${_TEST_LIST} ${tests})
# Write CTest script
file(WRITE "${_CTEST_FILE}" "${script}")
endfunction()
if(CMAKE_SCRIPT_MODE_FILE)
catch_discover_tests_impl(
TEST_EXECUTABLE ${TEST_EXECUTABLE}
TEST_EXECUTOR ${TEST_EXECUTOR}
TEST_WORKING_DIR ${TEST_WORKING_DIR}
TEST_SPEC ${TEST_SPEC}
TEST_EXTRA_ARGS ${TEST_EXTRA_ARGS}
TEST_PROPERTIES ${TEST_PROPERTIES}
TEST_PREFIX ${TEST_PREFIX}
TEST_SUFFIX ${TEST_SUFFIX}
TEST_LIST ${TEST_LIST}
TEST_REPORTER ${TEST_REPORTER}
TEST_OUTPUT_DIR ${TEST_OUTPUT_DIR}
TEST_OUTPUT_PREFIX ${TEST_OUTPUT_PREFIX}
TEST_OUTPUT_SUFFIX ${TEST_OUTPUT_SUFFIX}
TEST_DL_PATHS ${TEST_DL_PATHS}
CTEST_FILE ${CTEST_FILE}
)
endif()

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@ -1,74 +0,0 @@
# Copyright Catch2 Authors
# Distributed under the Boost Software License, Version 1.0.
# (See accompanying file LICENSE.txt or copy at
# https://www.boost.org/LICENSE_1_0.txt)
# SPDX-License-Identifier: BSL-1.0
# Supported optional args:
# * SHARD_COUNT - number of shards to split target's tests into
# * REPORTER - reporter spec to use for tests
# * TEST_SPEC - test spec used for filtering tests
function(catch_add_sharded_tests TARGET)
if (${CMAKE_VERSION} VERSION_LESS "3.10.0")
message(FATAL_ERROR "add_sharded_catch_tests only supports CMake versions 3.10.0 and up")
endif()
cmake_parse_arguments(
""
""
"SHARD_COUNT;REPORTER;TEST_SPEC"
""
${ARGN}
)
if (NOT DEFINED _SHARD_COUNT)
set(_SHARD_COUNT 2)
endif()
# Generate a unique name based on the extra arguments
string(SHA1 args_hash "${_TEST_SPEC} ${_EXTRA_ARGS} ${_REPORTER} ${_OUTPUT_DIR} ${_OUTPUT_PREFIX} ${_OUTPUT_SUFFIX} ${_SHARD_COUNT}")
string(SUBSTRING ${args_hash} 0 7 args_hash)
set(ctest_include_file "${CMAKE_CURRENT_BINARY_DIR}/${TARGET}-sharded-tests-include-${args_hash}.cmake")
set(ctest_tests_file "${CMAKE_CURRENT_BINARY_DIR}/${TARGET}-sharded-tests-impl-${args_hash}.cmake")
file(WRITE "${ctest_include_file}"
"if(EXISTS \"${ctest_tests_file}\")\n"
" include(\"${ctest_tests_file}\")\n"
"else()\n"
" add_test(${TARGET}_NOT_BUILT-${args_hash} ${TARGET}_NOT_BUILT-${args_hash})\n"
"endif()\n"
)
set_property(DIRECTORY
APPEND PROPERTY TEST_INCLUDE_FILES "${ctest_include_file}"
)
set(shard_impl_script_file "${_CATCH_DISCOVER_SHARD_TESTS_IMPL_SCRIPT}")
add_custom_command(
TARGET ${TARGET} POST_BUILD
BYPRODUCTS "${ctest_tests_file}"
COMMAND "${CMAKE_COMMAND}"
-D "TARGET_NAME=${TARGET}"
-D "TEST_BINARY=$<TARGET_FILE:${TARGET}>"
-D "CTEST_FILE=${ctest_tests_file}"
-D "SHARD_COUNT=${_SHARD_COUNT}"
-D "REPORTER_SPEC=${_REPORTER}"
-D "TEST_SPEC=${_TEST_SPEC}"
-P "${shard_impl_script_file}"
VERBATIM
)
endfunction()
###############################################################################
set(_CATCH_DISCOVER_SHARD_TESTS_IMPL_SCRIPT
${CMAKE_CURRENT_LIST_DIR}/CatchShardTestsImpl.cmake
CACHE INTERNAL "Catch2 full path to CatchShardTestsImpl.cmake helper file"
)

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@ -1,52 +0,0 @@
# Copyright Catch2 Authors
# Distributed under the Boost Software License, Version 1.0.
# (See accompanying file LICENSE.txt or copy at
# https://www.boost.org/LICENSE_1_0.txt)
# SPDX-License-Identifier: BSL-1.0
# Indirection for CatchShardTests that allows us to delay the script
# file generation until build time.
# Expected args:
# * TEST_BINARY - full path to the test binary to run sharded
# * CTEST_FILE - full path to ctest script file to write to
# * TARGET_NAME - name of the target to shard (used for test names)
# * SHARD_COUNT - number of shards to split the binary into
# Optional args:
# * REPORTER_SPEC - reporter specs to be passed down to the binary
# * TEST_SPEC - test spec to pass down to the test binary
if(NOT EXISTS "${TEST_BINARY}")
message(FATAL_ERROR
"Specified test binary '${TEST_BINARY}' does not exist"
)
endif()
set(other_args "")
if (TEST_SPEC)
set(other_args "${other_args} ${TEST_SPEC}")
endif()
if (REPORTER_SPEC)
set(other_args "${other_args} --reporter ${REPORTER_SPEC}")
endif()
# foreach RANGE in cmake is inclusive of the end, so we have to adjust it
math(EXPR adjusted_shard_count "${SHARD_COUNT} - 1")
file(WRITE "${CTEST_FILE}"
"string(RANDOM LENGTH 8 ALPHABET \"0123456789abcdef\" rng_seed)\n"
"\n"
"foreach(shard_idx RANGE ${adjusted_shard_count})\n"
" add_test(${TARGET_NAME}-shard-" [[${shard_idx}]] "/${adjusted_shard_count}\n"
" ${TEST_BINARY}"
" --shard-index " [[${shard_idx}]]
" --shard-count ${SHARD_COUNT}"
" --rng-seed " [[0x${rng_seed}]]
" --order rand"
"${other_args}"
"\n"
" )\n"
"endforeach()\n"
)

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@ -1,973 +0,0 @@
/*
* Rikaitan Deinflector Reference Implementation
*
* Copyright (C) 2023 Ajatt-Tools and contributors
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, visit the http://fsf.org website.
*/
#include "test_cases.h"
namespace ajt::rdricpp {
std::vector<TestGroup> test_groups()
{
return {
TestGroup{
.valid= true,
.tests= {
// Adjective
TestCase{ .term = "愛しい", .source = "愛しい", .rule = RuleType::adj_i, .reasons = {} },
TestCase{ .term = "愛しい", .source = "愛しそう", .rule = RuleType::adj_i, .reasons = { "-sou" } },
TestCase{ .term = "愛しい", .source = "愛しすぎる", .rule = RuleType::adj_i, .reasons = { "-sugiru" } },
TestCase{ .term = "愛しい", .source = "愛しかったら", .rule = RuleType::adj_i, .reasons = { "-tara" } },
TestCase{ .term = "愛しい", .source = "愛しかったり", .rule = RuleType::adj_i, .reasons = { "-tari" } },
TestCase{ .term = "愛しい", .source = "愛しくて", .rule = RuleType::adj_i, .reasons = { "-te" } },
TestCase{ .term = "愛しい", .source = "愛しく", .rule = RuleType::adj_i, .reasons = { "adv" } },
TestCase{ .term = "愛しい", .source = "愛しくない", .rule = RuleType::adj_i, .reasons = { "negative" } },
TestCase{ .term = "愛しい", .source = "愛しさ", .rule = RuleType::adj_i, .reasons = { "noun" } },
TestCase{ .term = "愛しい", .source = "愛しかった", .rule = RuleType::adj_i, .reasons = { "past" } },
TestCase{ .term = "愛しい", .source = "愛しくありません", .rule = RuleType::adj_i, .reasons = { "polite negative" } },
TestCase{ .term = "愛しい",
.source = "愛しくありませんでした",
.rule = RuleType::adj_i,
.reasons = { "polite past negative" } },
TestCase{ .term = "愛しい", .source = "愛しき", .rule = RuleType::adj_i, .reasons = { "-ki" } },
TestCase{ .term = "愛しい", .source = "愛しげ", .rule = RuleType::adj_i, .reasons = { "-ge" } },
// Common verbs
TestCase{ .term = "食べる", .source = "食べる", .rule = RuleType::v1, .reasons = {} },
TestCase{ .term = "食べる", .source = "食べます", .rule = RuleType::v1, .reasons = { "polite" } },
TestCase{ .term = "食べる", .source = "食べた", .rule = RuleType::v1, .reasons = { "past" } },
TestCase{ .term = "食べる", .source = "食べました", .rule = RuleType::v1, .reasons = { "polite past" } },
TestCase{ .term = "食べる", .source = "食べて", .rule = RuleType::v1, .reasons = { "-te" } },
TestCase{ .term = "食べる", .source = "食べられる", .rule = RuleType::v1, .reasons = { "potential or passive" } },
TestCase{ .term = "食べる", .source = "食べられる", .rule = RuleType::v1, .reasons = { "potential or passive" } },
TestCase{ .term = "食べる", .source = "食べさせる", .rule = RuleType::v1, .reasons = { "causative" } },
TestCase{ .term = "食べる",
.source = "食べさせられる",
.rule = RuleType::v1,
.reasons = { "causative", "potential or passive" } },
TestCase{ .term = "食べる", .source = "食べろ", .rule = RuleType::v1, .reasons = { "imperative" } },
TestCase{ .term = "食べる", .source = "食べない", .rule = RuleType::v1, .reasons = { "negative" } },
TestCase{ .term = "食べる", .source = "食べません", .rule = RuleType::v1, .reasons = { "polite negative" } },
TestCase{ .term = "食べる", .source = "食べなかった", .rule = RuleType::v1, .reasons = { "negative", "past" } },
TestCase{ .term = "食べる", .source = "食べませんでした", .rule = RuleType::v1, .reasons = { "polite past negative" } },
TestCase{ .term = "食べる", .source = "食べなくて", .rule = RuleType::v1, .reasons = { "negative", "-te" } },
TestCase{ .term = "食べる", .source = "食べられない", .rule = RuleType::v1, .reasons = { "potential or passive", "negative" } },
TestCase{ .term = "食べる", .source = "食べられない", .rule = RuleType::v1, .reasons = { "potential or passive", "negative" } },
TestCase{ .term = "食べる", .source = "食べさせない", .rule = RuleType::v1, .reasons = { "causative", "negative" } },
TestCase{ .term = "食べる",
.source = "食べさせられない",
.rule = RuleType::v1,
.reasons = { "causative", "potential or passive", "negative" } },
TestCase{ .term = "食べる", .source = "食べるな", .rule = RuleType::v1, .reasons = { "imperative negative" } },
TestCase{ .term = "食べる", .source = "食べれば", .rule = RuleType::v1, .reasons = { "-ba" } },
TestCase{ .term = "食べる", .source = "食べちゃう", .rule = RuleType::v1, .reasons = { "-chau" } },
TestCase{ .term = "食べる", .source = "食べちまう", .rule = RuleType::v1, .reasons = { "-chimau" } },
TestCase{ .term = "食べる", .source = "食べなさい", .rule = RuleType::v1, .reasons = { "-nasai" } },
TestCase{ .term = "食べる", .source = "食べそう", .rule = RuleType::v1, .reasons = { "-sou" } },
TestCase{ .term = "食べる", .source = "食べすぎる", .rule = RuleType::v1, .reasons = { "-sugiru" } },
TestCase{ .term = "食べる", .source = "食べたい", .rule = RuleType::v1, .reasons = { "-tai" } },
TestCase{ .term = "食べる", .source = "食べたら", .rule = RuleType::v1, .reasons = { "-tara" } },
TestCase{ .term = "食べる", .source = "食べたり", .rule = RuleType::v1, .reasons = { "-tari" } },
TestCase{ .term = "食べる", .source = "食べず", .rule = RuleType::v1, .reasons = { "-zu" } },
TestCase{ .term = "食べる", .source = "食べぬ", .rule = RuleType::v1, .reasons = { "-nu" } },
TestCase{ .term = "食べる", .source = "食べ", .rule = RuleType::v1, .reasons = { "masu stem" } },
TestCase{ .term = "食べる", .source = "食べましょう", .rule = RuleType::v1, .reasons = { "polite volitional" } },
TestCase{ .term = "食べる", .source = "食べよう", .rule = RuleType::v1, .reasons = { "volitional" } },
// {"causative passive"}
TestCase{ .term = "食べる", .source = "食べとく", .rule = RuleType::v1, .reasons = { "-toku" } },
TestCase{ .term = "食べる", .source = "食べている", .rule = RuleType::v1, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "食べる", .source = "食べておる", .rule = RuleType::v1, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "食べる", .source = "食べてる", .rule = RuleType::v1, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "食べる", .source = "食べとる", .rule = RuleType::v1, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "食べる", .source = "食べてしまう", .rule = RuleType::v1, .reasons = { "-te", "-shimau" } },
TestCase{ .term = "買う", .source = "買う", .rule = RuleType::v5, .reasons = {} },
TestCase{ .term = "買う", .source = "買います", .rule = RuleType::v5, .reasons = { "polite" } },
TestCase{ .term = "買う", .source = "買った", .rule = RuleType::v5, .reasons = { "past" } },
TestCase{ .term = "買う", .source = "買いました", .rule = RuleType::v5, .reasons = { "polite past" } },
TestCase{ .term = "買う", .source = "買って", .rule = RuleType::v5, .reasons = { "-te" } },
TestCase{ .term = "買う", .source = "買える", .rule = RuleType::v5, .reasons = { "potential" } },
TestCase{ .term = "買う", .source = "買われる", .rule = RuleType::v5, .reasons = { "passive" } },
TestCase{ .term = "買う", .source = "買わせる", .rule = RuleType::v5, .reasons = { "causative" } },
TestCase{ .term = "買う", .source = "買わせられる", .rule = RuleType::v5, .reasons = { "causative", "potential or passive" } },
TestCase{ .term = "買う", .source = "買え", .rule = RuleType::v5, .reasons = { "imperative" } },
TestCase{ .term = "買う", .source = "買わない", .rule = RuleType::v5, .reasons = { "negative" } },
TestCase{ .term = "買う", .source = "買いません", .rule = RuleType::v5, .reasons = { "polite negative" } },
TestCase{ .term = "買う", .source = "買わなかった", .rule = RuleType::v5, .reasons = { "negative", "past" } },
TestCase{ .term = "買う", .source = "買いませんでした", .rule = RuleType::v5, .reasons = { "polite past negative" } },
TestCase{ .term = "買う", .source = "買わなくて", .rule = RuleType::v5, .reasons = { "negative", "-te" } },
TestCase{ .term = "買う", .source = "買えない", .rule = RuleType::v5, .reasons = { "potential", "negative" } },
TestCase{ .term = "買う", .source = "買われない", .rule = RuleType::v5, .reasons = { "passive", "negative" } },
TestCase{ .term = "買う", .source = "買わせない", .rule = RuleType::v5, .reasons = { "causative", "negative" } },
TestCase{ .term = "買う",
.source = "買わせられない",
.rule = RuleType::v5,
.reasons = { "causative", "potential or passive", "negative" } },
TestCase{ .term = "買う", .source = "買うな", .rule = RuleType::v5, .reasons = { "imperative negative" } },
TestCase{ .term = "買う", .source = "買えば", .rule = RuleType::v5, .reasons = { "-ba" } },
TestCase{ .term = "買う", .source = "買っちゃう", .rule = RuleType::v5, .reasons = { "-chau" } },
TestCase{ .term = "買う", .source = "買っちまう", .rule = RuleType::v5, .reasons = { "-chimau" } },
TestCase{ .term = "買う", .source = "買いなさい", .rule = RuleType::v5, .reasons = { "-nasai" } },
TestCase{ .term = "買う", .source = "買いそう", .rule = RuleType::v5, .reasons = { "-sou" } },
TestCase{ .term = "買う", .source = "買いすぎる", .rule = RuleType::v5, .reasons = { "-sugiru" } },
TestCase{ .term = "買う", .source = "買いたい", .rule = RuleType::v5, .reasons = { "-tai" } },
TestCase{ .term = "買う", .source = "買ったら", .rule = RuleType::v5, .reasons = { "-tara" } },
TestCase{ .term = "買う", .source = "買ったり", .rule = RuleType::v5, .reasons = { "-tari" } },
TestCase{ .term = "買う", .source = "買わず", .rule = RuleType::v5, .reasons = { "-zu" } },
TestCase{ .term = "買う", .source = "買わぬ", .rule = RuleType::v5, .reasons = { "-nu" } },
TestCase{ .term = "買う", .source = "買い", .rule = RuleType::v5, .reasons = { "masu stem" } },
TestCase{ .term = "買う", .source = "買いましょう", .rule = RuleType::v5, .reasons = { "polite volitional" } },
TestCase{ .term = "買う", .source = "買おう", .rule = RuleType::v5, .reasons = { "volitional" } },
TestCase{ .term = "買う", .source = "買わされる", .rule = RuleType::v5, .reasons = { "causative passive" } },
TestCase{ .term = "買う", .source = "買っとく", .rule = RuleType::v5, .reasons = { "-toku" } },
TestCase{ .term = "買う", .source = "買っている", .rule = RuleType::v5, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "買う", .source = "買っておる", .rule = RuleType::v5, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "買う", .source = "買ってる", .rule = RuleType::v5, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "買う", .source = "買っとる", .rule = RuleType::v5, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "買う", .source = "買ってしまう", .rule = RuleType::v5, .reasons = { "-te", "-shimau" } },
TestCase{ .term = "行く", .source = "行く", .rule = RuleType::v5, .reasons = {} },
TestCase{ .term = "行く", .source = "行きます", .rule = RuleType::v5, .reasons = { "polite" } },
TestCase{ .term = "行く", .source = "行った", .rule = RuleType::v5, .reasons = { "past" } },
TestCase{ .term = "行く", .source = "行きました", .rule = RuleType::v5, .reasons = { "polite past" } },
TestCase{ .term = "行く", .source = "行って", .rule = RuleType::v5, .reasons = { "-te" } },
TestCase{ .term = "行く", .source = "行ける", .rule = RuleType::v5, .reasons = { "potential" } },
TestCase{ .term = "行く", .source = "行かれる", .rule = RuleType::v5, .reasons = { "passive" } },
TestCase{ .term = "行く", .source = "行かせる", .rule = RuleType::v5, .reasons = { "causative" } },
TestCase{ .term = "行く", .source = "行かせられる", .rule = RuleType::v5, .reasons = { "causative", "potential or passive" } },
TestCase{ .term = "行く", .source = "行け", .rule = RuleType::v5, .reasons = { "imperative" } },
TestCase{ .term = "行く", .source = "行かない", .rule = RuleType::v5, .reasons = { "negative" } },
TestCase{ .term = "行く", .source = "行きません", .rule = RuleType::v5, .reasons = { "polite negative" } },
TestCase{ .term = "行く", .source = "行かなかった", .rule = RuleType::v5, .reasons = { "negative", "past" } },
TestCase{ .term = "行く", .source = "行きませんでした", .rule = RuleType::v5, .reasons = { "polite past negative" } },
TestCase{ .term = "行く", .source = "行かなくて", .rule = RuleType::v5, .reasons = { "negative", "-te" } },
TestCase{ .term = "行く", .source = "行けない", .rule = RuleType::v5, .reasons = { "potential", "negative" } },
TestCase{ .term = "行く", .source = "行かれない", .rule = RuleType::v5, .reasons = { "passive", "negative" } },
TestCase{ .term = "行く", .source = "行かせない", .rule = RuleType::v5, .reasons = { "causative", "negative" } },
TestCase{ .term = "行く",
.source = "行かせられない",
.rule = RuleType::v5,
.reasons = { "causative", "potential or passive", "negative" } },
TestCase{ .term = "行く", .source = "行くな", .rule = RuleType::v5, .reasons = { "imperative negative" } },
TestCase{ .term = "行く", .source = "行けば", .rule = RuleType::v5, .reasons = { "-ba" } },
TestCase{ .term = "行く", .source = "行っちゃう", .rule = RuleType::v5, .reasons = { "-chau" } },
TestCase{ .term = "行く", .source = "行っちまう", .rule = RuleType::v5, .reasons = { "-chimau" } },
TestCase{ .term = "行く", .source = "行きなさい", .rule = RuleType::v5, .reasons = { "-nasai" } },
TestCase{ .term = "行く", .source = "行きそう", .rule = RuleType::v5, .reasons = { "-sou" } },
TestCase{ .term = "行く", .source = "行きすぎる", .rule = RuleType::v5, .reasons = { "-sugiru" } },
TestCase{ .term = "行く", .source = "行きたい", .rule = RuleType::v5, .reasons = { "-tai" } },
TestCase{ .term = "行く", .source = "行いたら", .rule = RuleType::v5, .reasons = { "-tara" } },
TestCase{ .term = "行く", .source = "行いたり", .rule = RuleType::v5, .reasons = { "-tari" } },
TestCase{ .term = "行く", .source = "行かず", .rule = RuleType::v5, .reasons = { "-zu" } },
TestCase{ .term = "行く", .source = "行かぬ", .rule = RuleType::v5, .reasons = { "-nu" } },
TestCase{ .term = "行く", .source = "行き", .rule = RuleType::v5, .reasons = { "masu stem" } },
TestCase{ .term = "行く", .source = "行きましょう", .rule = RuleType::v5, .reasons = { "polite volitional" } },
TestCase{ .term = "行く", .source = "行こう", .rule = RuleType::v5, .reasons = { "volitional" } },
TestCase{ .term = "行く", .source = "行かされる", .rule = RuleType::v5, .reasons = { "causative passive" } },
TestCase{ .term = "行く", .source = "行いとく", .rule = RuleType::v5, .reasons = { "-toku" } },
TestCase{ .term = "行く", .source = "行っている", .rule = RuleType::v5, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "行く", .source = "行っておる", .rule = RuleType::v5, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "行く", .source = "行ってる", .rule = RuleType::v5, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "行く", .source = "行っとる", .rule = RuleType::v5, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "行く", .source = "行ってしまう", .rule = RuleType::v5, .reasons = { "-te", "-shimau" } },
TestCase{ .term = "泳ぐ", .source = "泳ぐ", .rule = RuleType::v5, .reasons = {} },
TestCase{ .term = "泳ぐ", .source = "泳ぎます", .rule = RuleType::v5, .reasons = { "polite" } },
TestCase{ .term = "泳ぐ", .source = "泳いだ", .rule = RuleType::v5, .reasons = { "past" } },
TestCase{ .term = "泳ぐ", .source = "泳ぎました", .rule = RuleType::v5, .reasons = { "polite past" } },
TestCase{ .term = "泳ぐ", .source = "泳いで", .rule = RuleType::v5, .reasons = { "-te" } },
TestCase{ .term = "泳ぐ", .source = "泳げる", .rule = RuleType::v5, .reasons = { "potential" } },
TestCase{ .term = "泳ぐ", .source = "泳がれる", .rule = RuleType::v5, .reasons = { "passive" } },
TestCase{ .term = "泳ぐ", .source = "泳がせる", .rule = RuleType::v5, .reasons = { "causative" } },
TestCase{ .term = "泳ぐ", .source = "泳がせられる", .rule = RuleType::v5, .reasons = { "causative", "potential or passive" } },
TestCase{ .term = "泳ぐ", .source = "泳げ", .rule = RuleType::v5, .reasons = { "imperative" } },
TestCase{ .term = "泳ぐ", .source = "泳がない", .rule = RuleType::v5, .reasons = { "negative" } },
TestCase{ .term = "泳ぐ", .source = "泳ぎません", .rule = RuleType::v5, .reasons = { "polite negative" } },
TestCase{ .term = "泳ぐ", .source = "泳がなかった", .rule = RuleType::v5, .reasons = { "negative", "past" } },
TestCase{ .term = "泳ぐ", .source = "泳ぎませんでした", .rule = RuleType::v5, .reasons = { "polite past negative" } },
TestCase{ .term = "泳ぐ", .source = "泳がなくて", .rule = RuleType::v5, .reasons = { "negative", "-te" } },
TestCase{ .term = "泳ぐ", .source = "泳げない", .rule = RuleType::v5, .reasons = { "potential", "negative" } },
TestCase{ .term = "泳ぐ", .source = "泳がれない", .rule = RuleType::v5, .reasons = { "passive", "negative" } },
TestCase{ .term = "泳ぐ", .source = "泳がせない", .rule = RuleType::v5, .reasons = { "causative", "negative" } },
TestCase{ .term = "泳ぐ",
.source = "泳がせられない",
.rule = RuleType::v5,
.reasons = { "causative", "potential or passive", "negative" } },
TestCase{ .term = "泳ぐ", .source = "泳ぐな", .rule = RuleType::v5, .reasons = { "imperative negative" } },
TestCase{ .term = "泳ぐ", .source = "泳げば", .rule = RuleType::v5, .reasons = { "-ba" } },
TestCase{ .term = "泳ぐ", .source = "泳いじゃう", .rule = RuleType::v5, .reasons = { "-chau" } },
TestCase{ .term = "泳ぐ", .source = "泳いじまう", .rule = RuleType::v5, .reasons = { "-chimau" } },
TestCase{ .term = "泳ぐ", .source = "泳ぎなさい", .rule = RuleType::v5, .reasons = { "-nasai" } },
TestCase{ .term = "泳ぐ", .source = "泳ぎそう", .rule = RuleType::v5, .reasons = { "-sou" } },
TestCase{ .term = "泳ぐ", .source = "泳ぎすぎる", .rule = RuleType::v5, .reasons = { "-sugiru" } },
TestCase{ .term = "泳ぐ", .source = "泳ぎたい", .rule = RuleType::v5, .reasons = { "-tai" } },
TestCase{ .term = "泳ぐ", .source = "泳いだら", .rule = RuleType::v5, .reasons = { "-tara" } },
TestCase{ .term = "泳ぐ", .source = "泳いだり", .rule = RuleType::v5, .reasons = { "-tari" } },
TestCase{ .term = "泳ぐ", .source = "泳がず", .rule = RuleType::v5, .reasons = { "-zu" } },
TestCase{ .term = "泳ぐ", .source = "泳がぬ", .rule = RuleType::v5, .reasons = { "-nu" } },
TestCase{ .term = "泳ぐ", .source = "泳ぎ", .rule = RuleType::v5, .reasons = { "masu stem" } },
TestCase{ .term = "泳ぐ", .source = "泳ぎましょう", .rule = RuleType::v5, .reasons = { "polite volitional" } },
TestCase{ .term = "泳ぐ", .source = "泳ごう", .rule = RuleType::v5, .reasons = { "volitional" } },
TestCase{ .term = "泳ぐ", .source = "泳がされる", .rule = RuleType::v5, .reasons = { "causative passive" } },
TestCase{ .term = "泳ぐ", .source = "泳いどく", .rule = RuleType::v5, .reasons = { "-toku" } },
TestCase{ .term = "泳ぐ", .source = "泳いでいる", .rule = RuleType::v5, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "泳ぐ", .source = "泳いでおる", .rule = RuleType::v5, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "泳ぐ", .source = "泳いでる", .rule = RuleType::v5, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "泳ぐ", .source = "泳いでしまう", .rule = RuleType::v5, .reasons = { "-te", "-shimau" } },
TestCase{ .term = "話す", .source = "話す", .rule = RuleType::v5, .reasons = {} },
TestCase{ .term = "話す", .source = "話します", .rule = RuleType::v5, .reasons = { "polite" } },
TestCase{ .term = "話す", .source = "話した", .rule = RuleType::v5, .reasons = { "past" } },
TestCase{ .term = "話す", .source = "話しました", .rule = RuleType::v5, .reasons = { "polite past" } },
TestCase{ .term = "話す", .source = "話して", .rule = RuleType::v5, .reasons = { "-te" } },
TestCase{ .term = "話す", .source = "話せる", .rule = RuleType::v5, .reasons = { "potential" } },
TestCase{ .term = "話す", .source = "話される", .rule = RuleType::v5, .reasons = { "passive" } },
TestCase{ .term = "話す", .source = "話させる", .rule = RuleType::v5, .reasons = { "causative" } },
TestCase{ .term = "話す", .source = "話させられる", .rule = RuleType::v5, .reasons = { "causative", "potential or passive" } },
TestCase{ .term = "話す", .source = "話せ", .rule = RuleType::v5, .reasons = { "imperative" } },
TestCase{ .term = "話す", .source = "話さない", .rule = RuleType::v5, .reasons = { "negative" } },
TestCase{ .term = "話す", .source = "話しません", .rule = RuleType::v5, .reasons = { "polite negative" } },
TestCase{ .term = "話す", .source = "話さなかった", .rule = RuleType::v5, .reasons = { "negative", "past" } },
TestCase{ .term = "話す", .source = "話しませんでした", .rule = RuleType::v5, .reasons = { "polite past negative" } },
TestCase{ .term = "話す", .source = "話さなくて", .rule = RuleType::v5, .reasons = { "negative", "-te" } },
TestCase{ .term = "話す", .source = "話せない", .rule = RuleType::v5, .reasons = { "potential", "negative" } },
TestCase{ .term = "話す", .source = "話されない", .rule = RuleType::v5, .reasons = { "passive", "negative" } },
TestCase{ .term = "話す", .source = "話させない", .rule = RuleType::v5, .reasons = { "causative", "negative" } },
TestCase{ .term = "話す",
.source = "話させられない",
.rule = RuleType::v5,
.reasons = { "causative", "potential or passive", "negative" } },
TestCase{ .term = "話す", .source = "話すな", .rule = RuleType::v5, .reasons = { "imperative negative" } },
TestCase{ .term = "話す", .source = "話せば", .rule = RuleType::v5, .reasons = { "-ba" } },
TestCase{ .term = "話す", .source = "話しちゃう", .rule = RuleType::v5, .reasons = { "-chau" } },
TestCase{ .term = "話す", .source = "話しちまう", .rule = RuleType::v5, .reasons = { "-chimau" } },
TestCase{ .term = "話す", .source = "話しなさい", .rule = RuleType::v5, .reasons = { "-nasai" } },
TestCase{ .term = "話す", .source = "話しそう", .rule = RuleType::v5, .reasons = { "-sou" } },
TestCase{ .term = "話す", .source = "話しすぎる", .rule = RuleType::v5, .reasons = { "-sugiru" } },
TestCase{ .term = "話す", .source = "話したい", .rule = RuleType::v5, .reasons = { "-tai" } },
TestCase{ .term = "話す", .source = "話したら", .rule = RuleType::v5, .reasons = { "-tara" } },
TestCase{ .term = "話す", .source = "話したり", .rule = RuleType::v5, .reasons = { "-tari" } },
TestCase{ .term = "話す", .source = "話さず", .rule = RuleType::v5, .reasons = { "-zu" } },
TestCase{ .term = "話す", .source = "話さぬ", .rule = RuleType::v5, .reasons = { "-nu" } },
TestCase{ .term = "話す", .source = "話し", .rule = RuleType::v5, .reasons = { "masu stem" } },
TestCase{ .term = "話す", .source = "話しましょう", .rule = RuleType::v5, .reasons = { "polite volitional" } },
TestCase{ .term = "話す", .source = "話そう", .rule = RuleType::v5, .reasons = { "volitional" } },
// {"causative passive"}
TestCase{ .term = "話す", .source = "話しとく", .rule = RuleType::v5, .reasons = { "-toku" } },
TestCase{ .term = "話す", .source = "話している", .rule = RuleType::v5, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "話す", .source = "話しておる", .rule = RuleType::v5, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "話す", .source = "話してる", .rule = RuleType::v5, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "話す", .source = "話しとる", .rule = RuleType::v5, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "話す", .source = "話してしまう", .rule = RuleType::v5, .reasons = { "-te", "-shimau" } },
TestCase{ .term = "待つ", .source = "待つ", .rule = RuleType::v5, .reasons = {} },
TestCase{ .term = "待つ", .source = "待ちます", .rule = RuleType::v5, .reasons = { "polite" } },
TestCase{ .term = "待つ", .source = "待った", .rule = RuleType::v5, .reasons = { "past" } },
TestCase{ .term = "待つ", .source = "待ちました", .rule = RuleType::v5, .reasons = { "polite past" } },
TestCase{ .term = "待つ", .source = "待って", .rule = RuleType::v5, .reasons = { "-te" } },
TestCase{ .term = "待つ", .source = "待てる", .rule = RuleType::v5, .reasons = { "potential" } },
TestCase{ .term = "待つ", .source = "待たれる", .rule = RuleType::v5, .reasons = { "passive" } },
TestCase{ .term = "待つ", .source = "待たせる", .rule = RuleType::v5, .reasons = { "causative" } },
TestCase{ .term = "待つ", .source = "待たせられる", .rule = RuleType::v5, .reasons = { "causative", "potential or passive" } },
TestCase{ .term = "待つ", .source = "待て", .rule = RuleType::v5, .reasons = { "imperative" } },
TestCase{ .term = "待つ", .source = "待たない", .rule = RuleType::v5, .reasons = { "negative" } },
TestCase{ .term = "待つ", .source = "待ちません", .rule = RuleType::v5, .reasons = { "polite negative" } },
TestCase{ .term = "待つ", .source = "待たなかった", .rule = RuleType::v5, .reasons = { "negative", "past" } },
TestCase{ .term = "待つ", .source = "待ちませんでした", .rule = RuleType::v5, .reasons = { "polite past negative" } },
TestCase{ .term = "待つ", .source = "待たなくて", .rule = RuleType::v5, .reasons = { "negative", "-te" } },
TestCase{ .term = "待つ", .source = "待てない", .rule = RuleType::v5, .reasons = { "potential", "negative" } },
TestCase{ .term = "待つ", .source = "待たれない", .rule = RuleType::v5, .reasons = { "passive", "negative" } },
TestCase{ .term = "待つ", .source = "待たせない", .rule = RuleType::v5, .reasons = { "causative", "negative" } },
TestCase{ .term = "待つ",
.source = "待たせられない",
.rule = RuleType::v5,
.reasons = { "causative", "potential or passive", "negative" } },
TestCase{ .term = "待つ", .source = "待つな", .rule = RuleType::v5, .reasons = { "imperative negative" } },
TestCase{ .term = "待つ", .source = "待てば", .rule = RuleType::v5, .reasons = { "-ba" } },
TestCase{ .term = "待つ", .source = "待っちゃう", .rule = RuleType::v5, .reasons = { "-chau" } },
TestCase{ .term = "待つ", .source = "待っちまう", .rule = RuleType::v5, .reasons = { "-chimau" } },
TestCase{ .term = "待つ", .source = "待ちなさい", .rule = RuleType::v5, .reasons = { "-nasai" } },
TestCase{ .term = "待つ", .source = "待ちそう", .rule = RuleType::v5, .reasons = { "-sou" } },
TestCase{ .term = "待つ", .source = "待ちすぎる", .rule = RuleType::v5, .reasons = { "-sugiru" } },
TestCase{ .term = "待つ", .source = "待ちたい", .rule = RuleType::v5, .reasons = { "-tai" } },
TestCase{ .term = "待つ", .source = "待ったら", .rule = RuleType::v5, .reasons = { "-tara" } },
TestCase{ .term = "待つ", .source = "待ったり", .rule = RuleType::v5, .reasons = { "-tari" } },
TestCase{ .term = "待つ", .source = "待たず", .rule = RuleType::v5, .reasons = { "-zu" } },
TestCase{ .term = "待つ", .source = "待たぬ", .rule = RuleType::v5, .reasons = { "-nu" } },
TestCase{ .term = "待つ", .source = "待ち", .rule = RuleType::v5, .reasons = { "masu stem" } },
TestCase{ .term = "待つ", .source = "待ちましょう", .rule = RuleType::v5, .reasons = { "polite volitional" } },
TestCase{ .term = "待つ", .source = "待とう", .rule = RuleType::v5, .reasons = { "volitional" } },
TestCase{ .term = "待つ", .source = "待たされる", .rule = RuleType::v5, .reasons = { "causative passive" } },
TestCase{ .term = "待つ", .source = "待っとく", .rule = RuleType::v5, .reasons = { "-toku" } },
TestCase{ .term = "待つ", .source = "待っている", .rule = RuleType::v5, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "待つ", .source = "待っておる", .rule = RuleType::v5, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "待つ", .source = "待ってる", .rule = RuleType::v5, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "待つ", .source = "待っとる", .rule = RuleType::v5, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "待つ", .source = "待ってしまう", .rule = RuleType::v5, .reasons = { "-te", "-shimau" } },
TestCase{ .term = "死ぬ", .source = "死ぬ", .rule = RuleType::v5, .reasons = {} },
TestCase{ .term = "死ぬ", .source = "死にます", .rule = RuleType::v5, .reasons = { "polite" } },
TestCase{ .term = "死ぬ", .source = "死んだ", .rule = RuleType::v5, .reasons = { "past" } },
TestCase{ .term = "死ぬ", .source = "死にました", .rule = RuleType::v5, .reasons = { "polite past" } },
TestCase{ .term = "死ぬ", .source = "死んで", .rule = RuleType::v5, .reasons = { "-te" } },
TestCase{ .term = "死ぬ", .source = "死ねる", .rule = RuleType::v5, .reasons = { "potential" } },
TestCase{ .term = "死ぬ", .source = "死なれる", .rule = RuleType::v5, .reasons = { "passive" } },
TestCase{ .term = "死ぬ", .source = "死なせる", .rule = RuleType::v5, .reasons = { "causative" } },
TestCase{ .term = "死ぬ", .source = "死なせられる", .rule = RuleType::v5, .reasons = { "causative", "potential or passive" } },
TestCase{ .term = "死ぬ", .source = "死ね", .rule = RuleType::v5, .reasons = { "imperative" } },
TestCase{ .term = "死ぬ", .source = "死なない", .rule = RuleType::v5, .reasons = { "negative" } },
TestCase{ .term = "死ぬ", .source = "死にません", .rule = RuleType::v5, .reasons = { "polite negative" } },
TestCase{ .term = "死ぬ", .source = "死ななかった", .rule = RuleType::v5, .reasons = { "negative", "past" } },
TestCase{ .term = "死ぬ", .source = "死にませんでした", .rule = RuleType::v5, .reasons = { "polite past negative" } },
TestCase{ .term = "死ぬ", .source = "死ななくて", .rule = RuleType::v5, .reasons = { "negative", "-te" } },
TestCase{ .term = "死ぬ", .source = "死ねない", .rule = RuleType::v5, .reasons = { "potential", "negative" } },
TestCase{ .term = "死ぬ", .source = "死なれない", .rule = RuleType::v5, .reasons = { "passive", "negative" } },
TestCase{ .term = "死ぬ", .source = "死なせない", .rule = RuleType::v5, .reasons = { "causative", "negative" } },
TestCase{ .term = "死ぬ",
.source = "死なせられない",
.rule = RuleType::v5,
.reasons = { "causative", "potential or passive", "negative" } },
TestCase{ .term = "死ぬ", .source = "死ぬな", .rule = RuleType::v5, .reasons = { "imperative negative" } },
TestCase{ .term = "死ぬ", .source = "死ねば", .rule = RuleType::v5, .reasons = { "-ba" } },
TestCase{ .term = "死ぬ", .source = "死んじゃう", .rule = RuleType::v5, .reasons = { "-chau" } },
TestCase{ .term = "死ぬ", .source = "死んじまう", .rule = RuleType::v5, .reasons = { "-chimau" } },
TestCase{ .term = "死ぬ", .source = "死になさい", .rule = RuleType::v5, .reasons = { "-nasai" } },
TestCase{ .term = "死ぬ", .source = "死にそう", .rule = RuleType::v5, .reasons = { "-sou" } },
TestCase{ .term = "死ぬ", .source = "死にすぎる", .rule = RuleType::v5, .reasons = { "-sugiru" } },
TestCase{ .term = "死ぬ", .source = "死にたい", .rule = RuleType::v5, .reasons = { "-tai" } },
TestCase{ .term = "死ぬ", .source = "死んだら", .rule = RuleType::v5, .reasons = { "-tara" } },
TestCase{ .term = "死ぬ", .source = "死んだり", .rule = RuleType::v5, .reasons = { "-tari" } },
TestCase{ .term = "死ぬ", .source = "死なず", .rule = RuleType::v5, .reasons = { "-zu" } },
TestCase{ .term = "死ぬ", .source = "死なぬ", .rule = RuleType::v5, .reasons = { "-nu" } },
TestCase{ .term = "死ぬ", .source = "死に", .rule = RuleType::v5, .reasons = { "masu stem" } },
TestCase{ .term = "死ぬ", .source = "死にましょう", .rule = RuleType::v5, .reasons = { "polite volitional" } },
TestCase{ .term = "死ぬ", .source = "死のう", .rule = RuleType::v5, .reasons = { "volitional" } },
TestCase{ .term = "死ぬ", .source = "死なされる", .rule = RuleType::v5, .reasons = { "causative passive" } },
TestCase{ .term = "死ぬ", .source = "死んどく", .rule = RuleType::v5, .reasons = { "-toku" } },
TestCase{ .term = "死ぬ", .source = "死んでいる", .rule = RuleType::v5, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "死ぬ", .source = "死んでおる", .rule = RuleType::v5, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "死ぬ", .source = "死んでる", .rule = RuleType::v5, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "死ぬ", .source = "死んでしまう", .rule = RuleType::v5, .reasons = { "-te", "-shimau" } },
TestCase{ .term = "遊ぶ", .source = "遊ぶ", .rule = RuleType::v5, .reasons = {} },
TestCase{ .term = "遊ぶ", .source = "遊びます", .rule = RuleType::v5, .reasons = { "polite" } },
TestCase{ .term = "遊ぶ", .source = "遊んだ", .rule = RuleType::v5, .reasons = { "past" } },
TestCase{ .term = "遊ぶ", .source = "遊びました", .rule = RuleType::v5, .reasons = { "polite past" } },
TestCase{ .term = "遊ぶ", .source = "遊んで", .rule = RuleType::v5, .reasons = { "-te" } },
TestCase{ .term = "遊ぶ", .source = "遊べる", .rule = RuleType::v5, .reasons = { "potential" } },
TestCase{ .term = "遊ぶ", .source = "遊ばれる", .rule = RuleType::v5, .reasons = { "passive" } },
TestCase{ .term = "遊ぶ", .source = "遊ばせる", .rule = RuleType::v5, .reasons = { "causative" } },
TestCase{ .term = "遊ぶ", .source = "遊ばせられる", .rule = RuleType::v5, .reasons = { "causative", "potential or passive" } },
TestCase{ .term = "遊ぶ", .source = "遊べ", .rule = RuleType::v5, .reasons = { "imperative" } },
TestCase{ .term = "遊ぶ", .source = "遊ばない", .rule = RuleType::v5, .reasons = { "negative" } },
TestCase{ .term = "遊ぶ", .source = "遊びません", .rule = RuleType::v5, .reasons = { "polite negative" } },
TestCase{ .term = "遊ぶ", .source = "遊ばなかった", .rule = RuleType::v5, .reasons = { "negative", "past" } },
TestCase{ .term = "遊ぶ", .source = "遊びませんでした", .rule = RuleType::v5, .reasons = { "polite past negative" } },
TestCase{ .term = "遊ぶ", .source = "遊ばなくて", .rule = RuleType::v5, .reasons = { "negative", "-te" } },
TestCase{ .term = "遊ぶ", .source = "遊べない", .rule = RuleType::v5, .reasons = { "potential", "negative" } },
TestCase{ .term = "遊ぶ", .source = "遊ばれない", .rule = RuleType::v5, .reasons = { "passive", "negative" } },
TestCase{ .term = "遊ぶ", .source = "遊ばせない", .rule = RuleType::v5, .reasons = { "causative", "negative" } },
TestCase{ .term = "遊ぶ",
.source = "遊ばせられない",
.rule = RuleType::v5,
.reasons = { "causative", "potential or passive", "negative" } },
TestCase{ .term = "遊ぶ", .source = "遊ぶな", .rule = RuleType::v5, .reasons = { "imperative negative" } },
TestCase{ .term = "遊ぶ", .source = "遊べば", .rule = RuleType::v5, .reasons = { "-ba" } },
TestCase{ .term = "遊ぶ", .source = "遊んじゃう", .rule = RuleType::v5, .reasons = { "-chau" } },
TestCase{ .term = "遊ぶ", .source = "遊んじまう", .rule = RuleType::v5, .reasons = { "-chimau" } },
TestCase{ .term = "遊ぶ", .source = "遊びなさい", .rule = RuleType::v5, .reasons = { "-nasai" } },
TestCase{ .term = "遊ぶ", .source = "遊びそう", .rule = RuleType::v5, .reasons = { "-sou" } },
TestCase{ .term = "遊ぶ", .source = "遊びすぎる", .rule = RuleType::v5, .reasons = { "-sugiru" } },
TestCase{ .term = "遊ぶ", .source = "遊びたい", .rule = RuleType::v5, .reasons = { "-tai" } },
TestCase{ .term = "遊ぶ", .source = "遊んだら", .rule = RuleType::v5, .reasons = { "-tara" } },
TestCase{ .term = "遊ぶ", .source = "遊んだり", .rule = RuleType::v5, .reasons = { "-tari" } },
TestCase{ .term = "遊ぶ", .source = "遊ばず", .rule = RuleType::v5, .reasons = { "-zu" } },
TestCase{ .term = "遊ぶ", .source = "遊ばぬ", .rule = RuleType::v5, .reasons = { "-nu" } },
TestCase{ .term = "遊ぶ", .source = "遊び", .rule = RuleType::v5, .reasons = { "masu stem" } },
TestCase{ .term = "遊ぶ", .source = "遊びましょう", .rule = RuleType::v5, .reasons = { "polite volitional" } },
TestCase{ .term = "遊ぶ", .source = "遊ぼう", .rule = RuleType::v5, .reasons = { "volitional" } },
TestCase{ .term = "遊ぶ", .source = "遊ばされる", .rule = RuleType::v5, .reasons = { "causative passive" } },
TestCase{ .term = "遊ぶ", .source = "遊んどく", .rule = RuleType::v5, .reasons = { "-toku" } },
TestCase{ .term = "遊ぶ", .source = "遊んでいる", .rule = RuleType::v5, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "遊ぶ", .source = "遊んでおる", .rule = RuleType::v5, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "遊ぶ", .source = "遊んでる", .rule = RuleType::v5, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "遊ぶ", .source = "遊んでしまう", .rule = RuleType::v5, .reasons = { "-te", "-shimau" } },
TestCase{ .term = "飲む", .source = "飲む", .rule = RuleType::v5, .reasons = {} },
TestCase{ .term = "飲む", .source = "飲みます", .rule = RuleType::v5, .reasons = { "polite" } },
TestCase{ .term = "飲む", .source = "飲んだ", .rule = RuleType::v5, .reasons = { "past" } },
TestCase{ .term = "飲む", .source = "飲みました", .rule = RuleType::v5, .reasons = { "polite past" } },
TestCase{ .term = "飲む", .source = "飲んで", .rule = RuleType::v5, .reasons = { "-te" } },
TestCase{ .term = "飲む", .source = "飲める", .rule = RuleType::v5, .reasons = { "potential" } },
TestCase{ .term = "飲む", .source = "飲まれる", .rule = RuleType::v5, .reasons = { "passive" } },
TestCase{ .term = "飲む", .source = "飲ませる", .rule = RuleType::v5, .reasons = { "causative" } },
TestCase{ .term = "飲む", .source = "飲ませられる", .rule = RuleType::v5, .reasons = { "causative", "potential or passive" } },
TestCase{ .term = "飲む", .source = "飲め", .rule = RuleType::v5, .reasons = { "imperative" } },
TestCase{ .term = "飲む", .source = "飲まない", .rule = RuleType::v5, .reasons = { "negative" } },
TestCase{ .term = "飲む", .source = "飲みません", .rule = RuleType::v5, .reasons = { "polite negative" } },
TestCase{ .term = "飲む", .source = "飲まなかった", .rule = RuleType::v5, .reasons = { "negative", "past" } },
TestCase{ .term = "飲む", .source = "飲みませんでした", .rule = RuleType::v5, .reasons = { "polite past negative" } },
TestCase{ .term = "飲む", .source = "飲まなくて", .rule = RuleType::v5, .reasons = { "negative", "-te" } },
TestCase{ .term = "飲む", .source = "飲めない", .rule = RuleType::v5, .reasons = { "potential", "negative" } },
TestCase{ .term = "飲む", .source = "飲まれない", .rule = RuleType::v5, .reasons = { "passive", "negative" } },
TestCase{ .term = "飲む", .source = "飲ませない", .rule = RuleType::v5, .reasons = { "causative", "negative" } },
TestCase{ .term = "飲む",
.source = "飲ませられない",
.rule = RuleType::v5,
.reasons = { "causative", "potential or passive", "negative" } },
TestCase{ .term = "飲む", .source = "飲むな", .rule = RuleType::v5, .reasons = { "imperative negative" } },
TestCase{ .term = "飲む", .source = "飲めば", .rule = RuleType::v5, .reasons = { "-ba" } },
TestCase{ .term = "飲む", .source = "飲んじゃう", .rule = RuleType::v5, .reasons = { "-chau" } },
TestCase{ .term = "飲む", .source = "飲んじまう", .rule = RuleType::v5, .reasons = { "-chimau" } },
TestCase{ .term = "飲む", .source = "飲みなさい", .rule = RuleType::v5, .reasons = { "-nasai" } },
TestCase{ .term = "飲む", .source = "飲みそう", .rule = RuleType::v5, .reasons = { "-sou" } },
TestCase{ .term = "飲む", .source = "飲みすぎる", .rule = RuleType::v5, .reasons = { "-sugiru" } },
TestCase{ .term = "飲む", .source = "飲みたい", .rule = RuleType::v5, .reasons = { "-tai" } },
TestCase{ .term = "飲む", .source = "飲んだら", .rule = RuleType::v5, .reasons = { "-tara" } },
TestCase{ .term = "飲む", .source = "飲んだり", .rule = RuleType::v5, .reasons = { "-tari" } },
TestCase{ .term = "飲む", .source = "飲まず", .rule = RuleType::v5, .reasons = { "-zu" } },
TestCase{ .term = "飲む", .source = "飲まぬ", .rule = RuleType::v5, .reasons = { "-nu" } },
TestCase{ .term = "飲む", .source = "飲み", .rule = RuleType::v5, .reasons = { "masu stem" } },
TestCase{ .term = "飲む", .source = "飲みましょう", .rule = RuleType::v5, .reasons = { "polite volitional" } },
TestCase{ .term = "飲む", .source = "飲もう", .rule = RuleType::v5, .reasons = { "volitional" } },
TestCase{ .term = "飲む", .source = "飲まされる", .rule = RuleType::v5, .reasons = { "causative passive" } },
TestCase{ .term = "飲む", .source = "飲んどく", .rule = RuleType::v5, .reasons = { "-toku" } },
TestCase{ .term = "飲む", .source = "飲んでいる", .rule = RuleType::v5, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "飲む", .source = "飲んでおる", .rule = RuleType::v5, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "飲む", .source = "飲んでる", .rule = RuleType::v5, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "飲む", .source = "飲んでしまう", .rule = RuleType::v5, .reasons = { "-te", "-shimau" } },
TestCase{ .term = "作る", .source = "作る", .rule = RuleType::v5, .reasons = {} },
TestCase{ .term = "作る", .source = "作ります", .rule = RuleType::v5, .reasons = { "polite" } },
TestCase{ .term = "作る", .source = "作った", .rule = RuleType::v5, .reasons = { "past" } },
TestCase{ .term = "作る", .source = "作りました", .rule = RuleType::v5, .reasons = { "polite past" } },
TestCase{ .term = "作る", .source = "作って", .rule = RuleType::v5, .reasons = { "-te" } },
TestCase{ .term = "作る", .source = "作れる", .rule = RuleType::v5, .reasons = { "potential" } },
TestCase{ .term = "作る", .source = "作られる", .rule = RuleType::v5, .reasons = { "passive" } },
TestCase{ .term = "作る", .source = "作らせる", .rule = RuleType::v5, .reasons = { "causative" } },
TestCase{ .term = "作る", .source = "作らせられる", .rule = RuleType::v5, .reasons = { "causative", "potential or passive" } },
TestCase{ .term = "作る", .source = "作れ", .rule = RuleType::v5, .reasons = { "imperative" } },
TestCase{ .term = "作る", .source = "作らない", .rule = RuleType::v5, .reasons = { "negative" } },
TestCase{ .term = "作る", .source = "作りません", .rule = RuleType::v5, .reasons = { "polite negative" } },
TestCase{ .term = "作る", .source = "作らなかった", .rule = RuleType::v5, .reasons = { "negative", "past" } },
TestCase{ .term = "作る", .source = "作りませんでした", .rule = RuleType::v5, .reasons = { "polite past negative" } },
TestCase{ .term = "作る", .source = "作らなくて", .rule = RuleType::v5, .reasons = { "negative", "-te" } },
TestCase{ .term = "作る", .source = "作れない", .rule = RuleType::v5, .reasons = { "potential", "negative" } },
TestCase{ .term = "作る", .source = "作られない", .rule = RuleType::v5, .reasons = { "passive", "negative" } },
TestCase{ .term = "作る", .source = "作らせない", .rule = RuleType::v5, .reasons = { "causative", "negative" } },
TestCase{ .term = "作る",
.source = "作らせられない",
.rule = RuleType::v5,
.reasons = { "causative", "potential or passive", "negative" } },
TestCase{ .term = "作る", .source = "作るな", .rule = RuleType::v5, .reasons = { "imperative negative" } },
TestCase{ .term = "作る", .source = "作れば", .rule = RuleType::v5, .reasons = { "-ba" } },
TestCase{ .term = "作る", .source = "作っちゃう", .rule = RuleType::v5, .reasons = { "-chau" } },
TestCase{ .term = "作る", .source = "作っちまう", .rule = RuleType::v5, .reasons = { "-chimau" } },
TestCase{ .term = "作る", .source = "作りなさい", .rule = RuleType::v5, .reasons = { "-nasai" } },
TestCase{ .term = "作る", .source = "作りそう", .rule = RuleType::v5, .reasons = { "-sou" } },
TestCase{ .term = "作る", .source = "作りすぎる", .rule = RuleType::v5, .reasons = { "-sugiru" } },
TestCase{ .term = "作る", .source = "作りたい", .rule = RuleType::v5, .reasons = { "-tai" } },
TestCase{ .term = "作る", .source = "作ったら", .rule = RuleType::v5, .reasons = { "-tara" } },
TestCase{ .term = "作る", .source = "作ったり", .rule = RuleType::v5, .reasons = { "-tari" } },
TestCase{ .term = "作る", .source = "作らず", .rule = RuleType::v5, .reasons = { "-zu" } },
TestCase{ .term = "作る", .source = "作らぬ", .rule = RuleType::v5, .reasons = { "-nu" } },
TestCase{ .term = "作る", .source = "作り", .rule = RuleType::v5, .reasons = { "masu stem" } },
TestCase{ .term = "作る", .source = "作りましょう", .rule = RuleType::v5, .reasons = { "polite volitional" } },
TestCase{ .term = "作る", .source = "作ろう", .rule = RuleType::v5, .reasons = { "volitional" } },
TestCase{ .term = "作る", .source = "作らされる", .rule = RuleType::v5, .reasons = { "causative passive" } },
TestCase{ .term = "作る", .source = "作っとく", .rule = RuleType::v5, .reasons = { "-toku" } },
TestCase{ .term = "作る", .source = "作っている", .rule = RuleType::v5, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "作る", .source = "作っておる", .rule = RuleType::v5, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "作る", .source = "作ってる", .rule = RuleType::v5, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "作る", .source = "作っとる", .rule = RuleType::v5, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "作る", .source = "作ってしまう", .rule = RuleType::v5, .reasons = { "-te", "-shimau" } },
// Irregular verbs
TestCase{ .term = "為る", .source = "為る", .rule = RuleType::vs, .reasons = {} },
TestCase{ .term = "為る", .source = "為ます", .rule = RuleType::vs, .reasons = { "polite" } },
TestCase{ .term = "為る", .source = "為た", .rule = RuleType::vs, .reasons = { "past" } },
TestCase{ .term = "為る", .source = "為ました", .rule = RuleType::vs, .reasons = { "polite past" } },
TestCase{ .term = "為る", .source = "為て", .rule = RuleType::vs, .reasons = { "-te" } },
TestCase{ .term = "為る", .source = "為られる", .rule = RuleType::vs, .reasons = { "potential or passive" } },
TestCase{ .term = "為る", .source = "為れる", .rule = RuleType::vs, .reasons = { "passive" } },
TestCase{ .term = "為る", .source = "為せる", .rule = RuleType::vs, .reasons = { "causative" } },
TestCase{ .term = "為る", .source = "為させる", .rule = RuleType::vs, .reasons = { "causative" } },
TestCase{ .term = "為る", .source = "為せられる", .rule = RuleType::vs, .reasons = { "causative", "potential or passive" } },
TestCase{ .term = "為る", .source = "為させられる", .rule = RuleType::vs, .reasons = { "causative", "potential or passive" } },
TestCase{ .term = "為る", .source = "為ろ", .rule = RuleType::vs, .reasons = { "imperative" } },
TestCase{ .term = "為る", .source = "為ない", .rule = RuleType::vs, .reasons = { "negative" } },
TestCase{ .term = "為る", .source = "為ません", .rule = RuleType::vs, .reasons = { "polite negative" } },
TestCase{ .term = "為る", .source = "為なかった", .rule = RuleType::vs, .reasons = { "negative", "past" } },
TestCase{ .term = "為る", .source = "為ませんでした", .rule = RuleType::vs, .reasons = { "polite past negative" } },
TestCase{ .term = "為る", .source = "為なくて", .rule = RuleType::vs, .reasons = { "negative", "-te" } },
TestCase{ .term = "為る", .source = "為られない", .rule = RuleType::vs, .reasons = { "potential or passive", "negative" } },
TestCase{ .term = "為る", .source = "為れない", .rule = RuleType::vs, .reasons = { "passive", "negative" } },
TestCase{ .term = "為る", .source = "為せない", .rule = RuleType::vs, .reasons = { "causative", "negative" } },
TestCase{ .term = "為る", .source = "為させない", .rule = RuleType::vs, .reasons = { "causative", "negative" } },
TestCase{ .term = "為る",
.source = "為せられない",
.rule = RuleType::vs,
.reasons = { "causative", "potential or passive", "negative" } },
TestCase{ .term = "為る",
.source = "為させられない",
.rule = RuleType::vs,
.reasons = { "causative", "potential or passive", "negative" } },
TestCase{ .term = "為る", .source = "為るな", .rule = RuleType::vs, .reasons = { "imperative negative" } },
TestCase{ .term = "為る", .source = "為れば", .rule = RuleType::vs, .reasons = { "-ba" } },
TestCase{ .term = "為る", .source = "為ちゃう", .rule = RuleType::vs, .reasons = { "-chau" } },
TestCase{ .term = "為る", .source = "為ちまう", .rule = RuleType::vs, .reasons = { "-chimau" } },
TestCase{ .term = "為る", .source = "為なさい", .rule = RuleType::vs, .reasons = { "-nasai" } },
TestCase{ .term = "為る", .source = "為そう", .rule = RuleType::vs, .reasons = { "-sou" } },
TestCase{ .term = "為る", .source = "為すぎる", .rule = RuleType::vs, .reasons = { "-sugiru" } },
TestCase{ .term = "為る", .source = "為たい", .rule = RuleType::vs, .reasons = { "-tai" } },
TestCase{ .term = "為る", .source = "為たら", .rule = RuleType::vs, .reasons = { "-tara" } },
TestCase{ .term = "為る", .source = "為たり", .rule = RuleType::vs, .reasons = { "-tari" } },
TestCase{ .term = "為る", .source = "為ず", .rule = RuleType::vs, .reasons = { "-zu" } },
TestCase{ .term = "為る", .source = "為ぬ", .rule = RuleType::vs, .reasons = { "-nu" } },
// {"masu stem"}
TestCase{ .term = "為る", .source = "為ましょう", .rule = RuleType::vs, .reasons = { "polite volitional" } },
TestCase{ .term = "為る", .source = "為よう", .rule = RuleType::vs, .reasons = { "volitional" } },
// {"causative passive"}
TestCase{ .term = "為る", .source = "為とく", .rule = RuleType::vs, .reasons = { "-toku" } },
TestCase{ .term = "為る", .source = "為ている", .rule = RuleType::vs, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "為る", .source = "為ておる", .rule = RuleType::vs, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "為る", .source = "為てる", .rule = RuleType::vs, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "為る", .source = "為とる", .rule = RuleType::vs, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "為る", .source = "為てしまう", .rule = RuleType::vs, .reasons = { "-te", "-shimau" } },
TestCase{ .term = "する", .source = "する", .rule = RuleType::vs, .reasons = {} },
TestCase{ .term = "する", .source = "します", .rule = RuleType::vs, .reasons = { "polite" } },
TestCase{ .term = "する", .source = "した", .rule = RuleType::vs, .reasons = { "past" } },
TestCase{ .term = "する", .source = "しました", .rule = RuleType::vs, .reasons = { "polite past" } },
TestCase{ .term = "する", .source = "して", .rule = RuleType::vs, .reasons = { "-te" } },
TestCase{ .term = "する", .source = "できる", .rule = RuleType::vs, .reasons = { "potential" } },
TestCase{ .term = "する", .source = "出来る", .rule = RuleType::vs, .reasons = { "potential" } },
TestCase{ .term = "する", .source = "せられる", .rule = RuleType::vs, .reasons = { "potential or passive" } },
TestCase{ .term = "する", .source = "される", .rule = RuleType::vs, .reasons = { "passive" } },
TestCase{ .term = "する", .source = "させる", .rule = RuleType::vs, .reasons = { "causative" } },
TestCase{ .term = "する", .source = "せさせる", .rule = RuleType::vs, .reasons = { "causative" } },
TestCase{ .term = "する", .source = "させられる", .rule = RuleType::vs, .reasons = { "causative", "potential or passive" } },
TestCase{ .term = "する", .source = "せさせられる", .rule = RuleType::vs, .reasons = { "causative", "potential or passive" } },
TestCase{ .term = "する", .source = "しろ", .rule = RuleType::vs, .reasons = { "imperative" } },
TestCase{ .term = "する", .source = "しない", .rule = RuleType::vs, .reasons = { "negative" } },
TestCase{ .term = "する", .source = "しません", .rule = RuleType::vs, .reasons = { "polite negative" } },
TestCase{ .term = "する", .source = "しなかった", .rule = RuleType::vs, .reasons = { "negative", "past" } },
TestCase{ .term = "する", .source = "しませんでした", .rule = RuleType::vs, .reasons = { "polite past negative" } },
TestCase{ .term = "する", .source = "しなくて", .rule = RuleType::vs, .reasons = { "negative", "-te" } },
TestCase{ .term = "する", .source = "せられない", .rule = RuleType::vs, .reasons = { "potential or passive", "negative" } },
TestCase{ .term = "する", .source = "されない", .rule = RuleType::vs, .reasons = { "passive", "negative" } },
TestCase{ .term = "する", .source = "させない", .rule = RuleType::vs, .reasons = { "causative", "negative" } },
TestCase{ .term = "する", .source = "せさせない", .rule = RuleType::vs, .reasons = { "causative", "negative" } },
TestCase{ .term = "する",
.source = "させられない",
.rule = RuleType::vs,
.reasons = { "causative", "potential or passive", "negative" } },
TestCase{ .term = "する",
.source = "せさせられない",
.rule = RuleType::vs,
.reasons = { "causative", "potential or passive", "negative" } },
TestCase{ .term = "する", .source = "するな", .rule = RuleType::vs, .reasons = { "imperative negative" } },
TestCase{ .term = "する", .source = "すれば", .rule = RuleType::vs, .reasons = { "-ba" } },
TestCase{ .term = "する", .source = "しちゃう", .rule = RuleType::vs, .reasons = { "-chau" } },
TestCase{ .term = "する", .source = "しちまう", .rule = RuleType::vs, .reasons = { "-chimau" } },
TestCase{ .term = "する", .source = "しなさい", .rule = RuleType::vs, .reasons = { "-nasai" } },
TestCase{ .term = "する", .source = "しそう", .rule = RuleType::vs, .reasons = { "-sou" } },
TestCase{ .term = "する", .source = "しすぎる", .rule = RuleType::vs, .reasons = { "-sugiru" } },
TestCase{ .term = "する", .source = "したい", .rule = RuleType::vs, .reasons = { "-tai" } },
TestCase{ .term = "する", .source = "したら", .rule = RuleType::vs, .reasons = { "-tara" } },
TestCase{ .term = "する", .source = "したり", .rule = RuleType::vs, .reasons = { "-tari" } },
TestCase{ .term = "する", .source = "せず", .rule = RuleType::vs, .reasons = { "-zu" } },
TestCase{ .term = "する", .source = "せぬ", .rule = RuleType::vs, .reasons = { "-nu" } },
// {"masu stem"}
TestCase{ .term = "する", .source = "しましょう", .rule = RuleType::vs, .reasons = { "polite volitional" } },
TestCase{ .term = "する", .source = "しよう", .rule = RuleType::vs, .reasons = { "volitional" } },
// {"causative passive"}
TestCase{ .term = "する", .source = "しとく", .rule = RuleType::vs, .reasons = { "-toku" } },
TestCase{ .term = "する", .source = "している", .rule = RuleType::vs, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "する", .source = "しておる", .rule = RuleType::vs, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "する", .source = "してる", .rule = RuleType::vs, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "する", .source = "しとる", .rule = RuleType::vs, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "する", .source = "してしまう", .rule = RuleType::vs, .reasons = { "-te", "-shimau" } },
TestCase{ .term = "来る", .source = "来る", .rule = RuleType::vk, .reasons = {} },
TestCase{ .term = "来る", .source = "来ます", .rule = RuleType::vk, .reasons = { "polite" } },
TestCase{ .term = "来る", .source = "来た", .rule = RuleType::vk, .reasons = { "past" } },
TestCase{ .term = "来る", .source = "来ました", .rule = RuleType::vk, .reasons = { "polite past" } },
TestCase{ .term = "来る", .source = "来て", .rule = RuleType::vk, .reasons = { "-te" } },
TestCase{ .term = "来る", .source = "来られる", .rule = RuleType::vk, .reasons = { "potential or passive" } },
TestCase{ .term = "来る", .source = "来られる", .rule = RuleType::vk, .reasons = { "potential or passive" } },
TestCase{ .term = "来る", .source = "来させる", .rule = RuleType::vk, .reasons = { "causative" } },
TestCase{ .term = "来る", .source = "来させられる", .rule = RuleType::vk, .reasons = { "causative", "potential or passive" } },
TestCase{ .term = "来る", .source = "来い", .rule = RuleType::vk, .reasons = { "imperative" } },
TestCase{ .term = "来る", .source = "来ない", .rule = RuleType::vk, .reasons = { "negative" } },
TestCase{ .term = "来る", .source = "来ません", .rule = RuleType::vk, .reasons = { "polite negative" } },
TestCase{ .term = "来る", .source = "来なかった", .rule = RuleType::vk, .reasons = { "negative", "past" } },
TestCase{ .term = "来る", .source = "来ませんでした", .rule = RuleType::vk, .reasons = { "polite past negative" } },
TestCase{ .term = "来る", .source = "来なくて", .rule = RuleType::vk, .reasons = { "negative", "-te" } },
TestCase{ .term = "来る", .source = "来られない", .rule = RuleType::vk, .reasons = { "potential or passive", "negative" } },
TestCase{ .term = "来る", .source = "来られない", .rule = RuleType::vk, .reasons = { "potential or passive", "negative" } },
TestCase{ .term = "来る", .source = "来させない", .rule = RuleType::vk, .reasons = { "causative", "negative" } },
TestCase{ .term = "来る",
.source = "来させられない",
.rule = RuleType::vk,
.reasons = { "causative", "potential or passive", "negative" } },
TestCase{ .term = "来る", .source = "来るな", .rule = RuleType::vk, .reasons = { "imperative negative" } },
TestCase{ .term = "来る", .source = "来れば", .rule = RuleType::vk, .reasons = { "-ba" } },
TestCase{ .term = "来る", .source = "来ちゃう", .rule = RuleType::vk, .reasons = { "-chau" } },
TestCase{ .term = "来る", .source = "来ちまう", .rule = RuleType::vk, .reasons = { "-chimau" } },
TestCase{ .term = "来る", .source = "来なさい", .rule = RuleType::vk, .reasons = { "-nasai" } },
TestCase{ .term = "来る", .source = "来そう", .rule = RuleType::vk, .reasons = { "-sou" } },
TestCase{ .term = "来る", .source = "来すぎる", .rule = RuleType::vk, .reasons = { "-sugiru" } },
TestCase{ .term = "来る", .source = "来たい", .rule = RuleType::vk, .reasons = { "-tai" } },
TestCase{ .term = "来る", .source = "来たら", .rule = RuleType::vk, .reasons = { "-tara" } },
TestCase{ .term = "来る", .source = "来たり", .rule = RuleType::vk, .reasons = { "-tari" } },
TestCase{ .term = "来る", .source = "来ず", .rule = RuleType::vk, .reasons = { "-zu" } },
TestCase{ .term = "来る", .source = "来ぬ", .rule = RuleType::vk, .reasons = { "-nu" } },
TestCase{ .term = "来る", .source = "", .rule = RuleType::vk, .reasons = { "masu stem" } },
TestCase{ .term = "来る", .source = "来ましょう", .rule = RuleType::vk, .reasons = { "polite volitional" } },
TestCase{ .term = "来る", .source = "来よう", .rule = RuleType::vk, .reasons = { "volitional" } },
// {"causative passive"}
TestCase{ .term = "来る", .source = "来とく", .rule = RuleType::vk, .reasons = { "-toku" } },
TestCase{ .term = "来る", .source = "来ている", .rule = RuleType::vk, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "来る", .source = "来ておる", .rule = RuleType::vk, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "来る", .source = "来てる", .rule = RuleType::vk, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "来る", .source = "来とる", .rule = RuleType::vk, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "来る", .source = "来てしまう", .rule = RuleType::vk, .reasons = { "-te", "-shimau" } },
TestCase{ .term = "來る", .source = "來る", .rule = RuleType::vk, .reasons = {} },
TestCase{ .term = "來る", .source = "來ます", .rule = RuleType::vk, .reasons = { "polite" } },
TestCase{ .term = "來る", .source = "來た", .rule = RuleType::vk, .reasons = { "past" } },
TestCase{ .term = "來る", .source = "來ました", .rule = RuleType::vk, .reasons = { "polite past" } },
TestCase{ .term = "來る", .source = "來て", .rule = RuleType::vk, .reasons = { "-te" } },
TestCase{ .term = "來る", .source = "來られる", .rule = RuleType::vk, .reasons = { "potential or passive" } },
TestCase{ .term = "來る", .source = "來られる", .rule = RuleType::vk, .reasons = { "potential or passive" } },
TestCase{ .term = "來る", .source = "來させる", .rule = RuleType::vk, .reasons = { "causative" } },
TestCase{ .term = "來る", .source = "來させられる", .rule = RuleType::vk, .reasons = { "causative", "potential or passive" } },
TestCase{ .term = "來る", .source = "來い", .rule = RuleType::vk, .reasons = { "imperative" } },
TestCase{ .term = "來る", .source = "來ない", .rule = RuleType::vk, .reasons = { "negative" } },
TestCase{ .term = "來る", .source = "來ません", .rule = RuleType::vk, .reasons = { "polite negative" } },
TestCase{ .term = "來る", .source = "來なかった", .rule = RuleType::vk, .reasons = { "negative", "past" } },
TestCase{ .term = "來る", .source = "來ませんでした", .rule = RuleType::vk, .reasons = { "polite past negative" } },
TestCase{ .term = "來る", .source = "來なくて", .rule = RuleType::vk, .reasons = { "negative", "-te" } },
TestCase{ .term = "來る", .source = "來られない", .rule = RuleType::vk, .reasons = { "potential or passive", "negative" } },
TestCase{ .term = "來る", .source = "來られない", .rule = RuleType::vk, .reasons = { "potential or passive", "negative" } },
TestCase{ .term = "來る", .source = "來させない", .rule = RuleType::vk, .reasons = { "causative", "negative" } },
TestCase{ .term = "來る",
.source = "來させられない",
.rule = RuleType::vk,
.reasons = { "causative", "potential or passive", "negative" } },
TestCase{ .term = "來る", .source = "來るな", .rule = RuleType::vk, .reasons = { "imperative negative" } },
TestCase{ .term = "來る", .source = "來れば", .rule = RuleType::vk, .reasons = { "-ba" } },
TestCase{ .term = "來る", .source = "來ちゃう", .rule = RuleType::vk, .reasons = { "-chau" } },
TestCase{ .term = "來る", .source = "來ちまう", .rule = RuleType::vk, .reasons = { "-chimau" } },
TestCase{ .term = "來る", .source = "來なさい", .rule = RuleType::vk, .reasons = { "-nasai" } },
TestCase{ .term = "來る", .source = "來そう", .rule = RuleType::vk, .reasons = { "-sou" } },
TestCase{ .term = "來る", .source = "來すぎる", .rule = RuleType::vk, .reasons = { "-sugiru" } },
TestCase{ .term = "來る", .source = "來たい", .rule = RuleType::vk, .reasons = { "-tai" } },
TestCase{ .term = "來る", .source = "來たら", .rule = RuleType::vk, .reasons = { "-tara" } },
TestCase{ .term = "來る", .source = "來たり", .rule = RuleType::vk, .reasons = { "-tari" } },
TestCase{ .term = "來る", .source = "來ず", .rule = RuleType::vk, .reasons = { "-zu" } },
TestCase{ .term = "來る", .source = "來ぬ", .rule = RuleType::vk, .reasons = { "-nu" } },
TestCase{ .term = "來る", .source = "", .rule = RuleType::vk, .reasons = { "masu stem" } },
TestCase{ .term = "來る", .source = "來ましょう", .rule = RuleType::vk, .reasons = { "polite volitional" } },
TestCase{ .term = "來る", .source = "來よう", .rule = RuleType::vk, .reasons = { "volitional" } },
// {"causative passive"}
TestCase{ .term = "來る", .source = "來とく", .rule = RuleType::vk, .reasons = { "-toku" } },
TestCase{ .term = "來る", .source = "來ている", .rule = RuleType::vk, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "來る", .source = "來ておる", .rule = RuleType::vk, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "來る", .source = "來てる", .rule = RuleType::vk, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "來る", .source = "來とる", .rule = RuleType::vk, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "來る", .source = "來てしまう", .rule = RuleType::vk, .reasons = { "-te", "-shimau" } },
TestCase{ .term = "くる", .source = "くる", .rule = RuleType::vk, .reasons = {} },
TestCase{ .term = "くる", .source = "きます", .rule = RuleType::vk, .reasons = { "polite" } },
TestCase{ .term = "くる", .source = "きた", .rule = RuleType::vk, .reasons = { "past" } },
TestCase{ .term = "くる", .source = "きました", .rule = RuleType::vk, .reasons = { "polite past" } },
TestCase{ .term = "くる", .source = "きて", .rule = RuleType::vk, .reasons = { "-te" } },
TestCase{ .term = "くる", .source = "こられる", .rule = RuleType::vk, .reasons = { "potential or passive" } },
TestCase{ .term = "くる", .source = "こられる", .rule = RuleType::vk, .reasons = { "potential or passive" } },
TestCase{ .term = "くる", .source = "こさせる", .rule = RuleType::vk, .reasons = { "causative" } },
TestCase{ .term = "くる", .source = "こさせられる", .rule = RuleType::vk, .reasons = { "causative", "potential or passive" } },
TestCase{ .term = "くる", .source = "こい", .rule = RuleType::vk, .reasons = { "imperative" } },
TestCase{ .term = "くる", .source = "こない", .rule = RuleType::vk, .reasons = { "negative" } },
TestCase{ .term = "くる", .source = "きません", .rule = RuleType::vk, .reasons = { "polite negative" } },
TestCase{ .term = "くる", .source = "こなかった", .rule = RuleType::vk, .reasons = { "negative", "past" } },
TestCase{ .term = "くる", .source = "きませんでした", .rule = RuleType::vk, .reasons = { "polite past negative" } },
TestCase{ .term = "くる", .source = "こなくて", .rule = RuleType::vk, .reasons = { "negative", "-te" } },
TestCase{ .term = "くる", .source = "こられない", .rule = RuleType::vk, .reasons = { "potential or passive", "negative" } },
TestCase{ .term = "くる", .source = "こられない", .rule = RuleType::vk, .reasons = { "potential or passive", "negative" } },
TestCase{ .term = "くる", .source = "こさせない", .rule = RuleType::vk, .reasons = { "causative", "negative" } },
TestCase{ .term = "くる",
.source = "こさせられない",
.rule = RuleType::vk,
.reasons = { "causative", "potential or passive", "negative" } },
TestCase{ .term = "くる", .source = "くるな", .rule = RuleType::vk, .reasons = { "imperative negative" } },
TestCase{ .term = "くる", .source = "くれば", .rule = RuleType::vk, .reasons = { "-ba" } },
TestCase{ .term = "くる", .source = "きちゃう", .rule = RuleType::vk, .reasons = { "-chau" } },
TestCase{ .term = "くる", .source = "きちまう", .rule = RuleType::vk, .reasons = { "-chimau" } },
TestCase{ .term = "くる", .source = "きなさい", .rule = RuleType::vk, .reasons = { "-nasai" } },
TestCase{ .term = "くる", .source = "きそう", .rule = RuleType::vk, .reasons = { "-sou" } },
TestCase{ .term = "くる", .source = "きすぎる", .rule = RuleType::vk, .reasons = { "-sugiru" } },
TestCase{ .term = "くる", .source = "きたい", .rule = RuleType::vk, .reasons = { "-tai" } },
TestCase{ .term = "くる", .source = "きたら", .rule = RuleType::vk, .reasons = { "-tara" } },
TestCase{ .term = "くる", .source = "きたり", .rule = RuleType::vk, .reasons = { "-tari" } },
TestCase{ .term = "くる", .source = "こず", .rule = RuleType::vk, .reasons = { "-zu" } },
TestCase{ .term = "くる", .source = "こぬ", .rule = RuleType::vk, .reasons = { "-nu" } },
TestCase{ .term = "くる", .source = "", .rule = RuleType::vk, .reasons = { "masu stem" } },
TestCase{ .term = "くる", .source = "きましょう", .rule = RuleType::vk, .reasons = { "polite volitional" } },
TestCase{ .term = "くる", .source = "こよう", .rule = RuleType::vk, .reasons = { "volitional" } },
// {"causative passive"}
TestCase{ .term = "くる", .source = "きとく", .rule = RuleType::vk, .reasons = { "-toku" } },
TestCase{ .term = "くる", .source = "きている", .rule = RuleType::vk, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "くる", .source = "きておる", .rule = RuleType::vk, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "くる", .source = "きてる", .rule = RuleType::vk, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "くる", .source = "きとる", .rule = RuleType::vk, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "くる", .source = "きてしまう", .rule = RuleType::vk, .reasons = { "-te", "-shimau" } },
// Zuru verbs
TestCase{ .term = "論ずる", .source = "論ずる", .rule = RuleType::vz, .reasons = {} },
TestCase{ .term = "論ずる", .source = "論じます", .rule = RuleType::vz, .reasons = { "polite" } },
TestCase{ .term = "論ずる", .source = "論じた", .rule = RuleType::vz, .reasons = { "past" } },
TestCase{ .term = "論ずる", .source = "論じました", .rule = RuleType::vz, .reasons = { "polite past" } },
TestCase{ .term = "論ずる", .source = "論じて", .rule = RuleType::vz, .reasons = { "-te" } },
TestCase{ .term = "論ずる", .source = "論ぜられる", .rule = RuleType::vz, .reasons = { "potential or passive" } },
TestCase{ .term = "論ずる", .source = "論ざれる", .rule = RuleType::vz, .reasons = { "potential or passive" } },
TestCase{ .term = "論ずる", .source = "論じされる", .rule = RuleType::vz, .reasons = { "passive" } },
TestCase{ .term = "論ずる", .source = "論ぜされる", .rule = RuleType::vz, .reasons = { "passive" } },
TestCase{ .term = "論ずる", .source = "論じさせる", .rule = RuleType::vz, .reasons = { "causative" } },
TestCase{ .term = "論ずる", .source = "論ぜさせる", .rule = RuleType::vz, .reasons = { "causative" } },
TestCase{ .term = "論ずる",
.source = "論じさせられる",
.rule = RuleType::vz,
.reasons = { "causative", "potential or passive" } },
TestCase{ .term = "論ずる",
.source = "論ぜさせられる",
.rule = RuleType::vz,
.reasons = { "causative", "potential or passive" } },
TestCase{ .term = "論ずる", .source = "論じろ", .rule = RuleType::vz, .reasons = { "imperative" } },
TestCase{ .term = "論ずる", .source = "論じない", .rule = RuleType::vz, .reasons = { "negative" } },
TestCase{ .term = "論ずる", .source = "論じません", .rule = RuleType::vz, .reasons = { "polite negative" } },
TestCase{ .term = "論ずる", .source = "論じなかった", .rule = RuleType::vz, .reasons = { "negative", "past" } },
TestCase{ .term = "論ずる", .source = "論じませんでした", .rule = RuleType::vz, .reasons = { "polite past negative" } },
TestCase{ .term = "論ずる", .source = "論じなくて", .rule = RuleType::vz, .reasons = { "negative", "-te" } },
TestCase{ .term = "論ずる", .source = "論ぜられない", .rule = RuleType::vz, .reasons = { "potential or passive", "negative" } },
TestCase{ .term = "論ずる", .source = "論じされない", .rule = RuleType::vz, .reasons = { "passive", "negative" } },
TestCase{ .term = "論ずる", .source = "論ぜされない", .rule = RuleType::vz, .reasons = { "passive", "negative" } },
TestCase{ .term = "論ずる", .source = "論じさせない", .rule = RuleType::vz, .reasons = { "causative", "negative" } },
TestCase{ .term = "論ずる", .source = "論ぜさせない", .rule = RuleType::vz, .reasons = { "causative", "negative" } },
TestCase{ .term = "論ずる",
.source = "論じさせられない",
.rule = RuleType::vz,
.reasons = { "causative", "potential or passive", "negative" } },
TestCase{ .term = "論ずる",
.source = "論ぜさせられない",
.rule = RuleType::vz,
.reasons = { "causative", "potential or passive", "negative" } },
TestCase{ .term = "論ずる", .source = "論ずるな", .rule = RuleType::vz, .reasons = { "imperative negative" } },
TestCase{ .term = "論ずる", .source = "論ずれば", .rule = RuleType::vz, .reasons = { "-ba" } },
TestCase{ .term = "論ずる", .source = "論じちゃう", .rule = RuleType::vz, .reasons = { "-chau" } },
TestCase{ .term = "論ずる", .source = "論じちまう", .rule = RuleType::vz, .reasons = { "-chimau" } },
TestCase{ .term = "論ずる", .source = "論じなさい", .rule = RuleType::vz, .reasons = { "-nasai" } },
TestCase{ .term = "論ずる", .source = "論じそう", .rule = RuleType::vz, .reasons = { "-sou" } },
TestCase{ .term = "論ずる", .source = "論じすぎる", .rule = RuleType::vz, .reasons = { "-sugiru" } },
TestCase{ .term = "論ずる", .source = "論じたい", .rule = RuleType::vz, .reasons = { "-tai" } },
TestCase{ .term = "論ずる", .source = "論じたら", .rule = RuleType::vz, .reasons = { "-tara" } },
TestCase{ .term = "論ずる", .source = "論じたり", .rule = RuleType::vz, .reasons = { "-tari" } },
TestCase{ .term = "論ずる", .source = "論ぜず", .rule = RuleType::vz, .reasons = { "-zu" } },
TestCase{ .term = "論ずる", .source = "論ぜぬ", .rule = RuleType::vz, .reasons = { "-nu" } },
// {"masu stem"}
TestCase{ .term = "論ずる", .source = "論じましょう", .rule = RuleType::vz, .reasons = { "polite volitional" } },
TestCase{ .term = "論ずる", .source = "論じよう", .rule = RuleType::vz, .reasons = { "volitional" } },
// {"causative passive"}
TestCase{ .term = "論ずる", .source = "論じとく", .rule = RuleType::vz, .reasons = { "-toku" } },
TestCase{ .term = "論ずる", .source = "論じている", .rule = RuleType::vz, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "論ずる", .source = "論じておる", .rule = RuleType::vz, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "論ずる", .source = "論じてる", .rule = RuleType::vz, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "論ずる", .source = "論じとる", .rule = RuleType::vz, .reasons = { "-te", "progressive or perfect" } },
TestCase{ .term = "論ずる", .source = "論じてしまう", .rule = RuleType::vz, .reasons = { "-te", "-shimau" } },
// Uncommon irregular verbs
TestCase{ .term = "のたまう", .source = "のたもうて", .rule = RuleType::v5, .reasons = { "-te" } },
TestCase{ .term = "のたまう", .source = "のたもうた", .rule = RuleType::v5, .reasons = { "past" } },
TestCase{ .term = "のたまう", .source = "のたもうたら", .rule = RuleType::v5, .reasons = { "-tara" } },
TestCase{ .term = "のたまう", .source = "のたもうたり", .rule = RuleType::v5, .reasons = { "-tari" } },
TestCase{ .term = "おう", .source = "おうて", .rule = RuleType::v5, .reasons = { "-te" } },
TestCase{ .term = "こう", .source = "こうて", .rule = RuleType::v5, .reasons = { "-te" } },
TestCase{ .term = "そう", .source = "そうて", .rule = RuleType::v5, .reasons = { "-te" } },
TestCase{ .term = "とう", .source = "とうて", .rule = RuleType::v5, .reasons = { "-te" } },
TestCase{ .term = "請う", .source = "請うて", .rule = RuleType::v5, .reasons = { "-te" } },
TestCase{ .term = "乞う", .source = "乞うて", .rule = RuleType::v5, .reasons = { "-te" } },
TestCase{ .term = "恋う", .source = "恋うて", .rule = RuleType::v5, .reasons = { "-te" } },
TestCase{ .term = "問う", .source = "問うて", .rule = RuleType::v5, .reasons = { "-te" } },
TestCase{ .term = "負う", .source = "負うて", .rule = RuleType::v5, .reasons = { "-te" } },
TestCase{ .term = "沿う", .source = "沿うて", .rule = RuleType::v5, .reasons = { "-te" } },
TestCase{ .term = "添う", .source = "添うて", .rule = RuleType::v5, .reasons = { "-te" } },
TestCase{ .term = "副う", .source = "副うて", .rule = RuleType::v5, .reasons = { "-te" } },
TestCase{ .term = "厭う", .source = "厭うて", .rule = RuleType::v5, .reasons = { "-te" } },
TestCase{ .term = "おう", .source = "おうた", .rule = RuleType::v5, .reasons = { "past" } },
TestCase{ .term = "こう", .source = "こうた", .rule = RuleType::v5, .reasons = { "past" } },
TestCase{ .term = "そう", .source = "そうた", .rule = RuleType::v5, .reasons = { "past" } },
TestCase{ .term = "とう", .source = "とうた", .rule = RuleType::v5, .reasons = { "past" } },
TestCase{ .term = "請う", .source = "請うた", .rule = RuleType::v5, .reasons = { "past" } },
TestCase{ .term = "乞う", .source = "乞うた", .rule = RuleType::v5, .reasons = { "past" } },
TestCase{ .term = "恋う", .source = "恋うた", .rule = RuleType::v5, .reasons = { "past" } },
TestCase{ .term = "問う", .source = "問うた", .rule = RuleType::v5, .reasons = { "past" } },
TestCase{ .term = "負う", .source = "負うた", .rule = RuleType::v5, .reasons = { "past" } },
TestCase{ .term = "沿う", .source = "沿うた", .rule = RuleType::v5, .reasons = { "past" } },
TestCase{ .term = "添う", .source = "添うた", .rule = RuleType::v5, .reasons = { "past" } },
TestCase{ .term = "副う", .source = "副うた", .rule = RuleType::v5, .reasons = { "past" } },
TestCase{ .term = "厭う", .source = "厭うた", .rule = RuleType::v5, .reasons = { "past" } },
TestCase{ .term = "おう", .source = "おうたら", .rule = RuleType::v5, .reasons = { "-tara" } },
TestCase{ .term = "こう", .source = "こうたら", .rule = RuleType::v5, .reasons = { "-tara" } },
TestCase{ .term = "そう", .source = "そうたら", .rule = RuleType::v5, .reasons = { "-tara" } },
TestCase{ .term = "とう", .source = "とうたら", .rule = RuleType::v5, .reasons = { "-tara" } },
TestCase{ .term = "請う", .source = "請うたら", .rule = RuleType::v5, .reasons = { "-tara" } },
TestCase{ .term = "乞う", .source = "乞うたら", .rule = RuleType::v5, .reasons = { "-tara" } },
TestCase{ .term = "恋う", .source = "恋うたら", .rule = RuleType::v5, .reasons = { "-tara" } },
TestCase{ .term = "問う", .source = "問うたら", .rule = RuleType::v5, .reasons = { "-tara" } },
TestCase{ .term = "負う", .source = "負うたら", .rule = RuleType::v5, .reasons = { "-tara" } },
TestCase{ .term = "沿う", .source = "沿うたら", .rule = RuleType::v5, .reasons = { "-tara" } },
TestCase{ .term = "添う", .source = "添うたら", .rule = RuleType::v5, .reasons = { "-tara" } },
TestCase{ .term = "副う", .source = "副うたら", .rule = RuleType::v5, .reasons = { "-tara" } },
TestCase{ .term = "厭う", .source = "厭うたら", .rule = RuleType::v5, .reasons = { "-tara" } },
TestCase{ .term = "おう", .source = "おうたり", .rule = RuleType::v5, .reasons = { "-tari" } },
TestCase{ .term = "こう", .source = "こうたり", .rule = RuleType::v5, .reasons = { "-tari" } },
TestCase{ .term = "そう", .source = "そうたり", .rule = RuleType::v5, .reasons = { "-tari" } },
TestCase{ .term = "とう", .source = "とうたり", .rule = RuleType::v5, .reasons = { "-tari" } },
TestCase{ .term = "請う", .source = "請うたり", .rule = RuleType::v5, .reasons = { "-tari" } },
TestCase{ .term = "乞う", .source = "乞うたり", .rule = RuleType::v5, .reasons = { "-tari" } },
TestCase{ .term = "恋う", .source = "恋うたり", .rule = RuleType::v5, .reasons = { "-tari" } },
TestCase{ .term = "問う", .source = "問うたり", .rule = RuleType::v5, .reasons = { "-tari" } },
TestCase{ .term = "負う", .source = "負うたり", .rule = RuleType::v5, .reasons = { "-tari" } },
TestCase{ .term = "沿う", .source = "沿うたり", .rule = RuleType::v5, .reasons = { "-tari" } },
TestCase{ .term = "添う", .source = "添うたり", .rule = RuleType::v5, .reasons = { "-tari" } },
TestCase{ .term = "副う", .source = "副うたり", .rule = RuleType::v5, .reasons = { "-tari" } },
TestCase{ .term = "厭う", .source = "厭うたり", .rule = RuleType::v5, .reasons = { "-tari" } },
// Combinations
TestCase{ .term = "抱き抱える",
.source = "抱き抱えていなければ",
.rule = RuleType::v1,
.reasons = { "-te", "progressive or perfect", "negative", "-ba" } },
TestCase{ .term = "抱きかかえる",
.source = "抱きかかえていなければ",
.rule = RuleType::v1,
.reasons = { "-te", "progressive or perfect", "negative", "-ba" } },
TestCase{ .term = "打ち込む",
.source = "打ち込んでいませんでした",
.rule = RuleType::v5,
.reasons = { "-te", "progressive or perfect", "polite past negative" } },
TestCase{ .term = "食べる",
.source = "食べさせられたくなかった",
.rule = RuleType::v1,
.reasons = { "causative", "potential or passive", "-tai", "negative", "past" } } }
},
TestGroup{
.valid= false,
.tests= { { .term = "する", .source = "すます", .rule = RuleType::vs },
TestCase{ .term = "する", .source = "すた", .rule = RuleType::vs },
TestCase{ .term = "する", .source = "すました", .rule = RuleType::vs },
TestCase{ .term = "する", .source = "すて", .rule = RuleType::vs },
TestCase{ .term = "する", .source = "すれる", .rule = RuleType::vs },
TestCase{ .term = "する", .source = "すせる", .rule = RuleType::vs },
TestCase{ .term = "する", .source = "すせられる", .rule = RuleType::vs },
TestCase{ .term = "する", .source = "すろ", .rule = RuleType::vs },
TestCase{ .term = "する", .source = "すない", .rule = RuleType::vs },
TestCase{ .term = "する", .source = "すません", .rule = RuleType::vs },
TestCase{ .term = "する", .source = "すなかった", .rule = RuleType::vs },
TestCase{ .term = "する", .source = "すませんでした", .rule = RuleType::vs },
TestCase{ .term = "する", .source = "すなくて", .rule = RuleType::vs },
TestCase{ .term = "する", .source = "すれない", .rule = RuleType::vs },
TestCase{ .term = "する", .source = "すせない", .rule = RuleType::vs },
TestCase{ .term = "する", .source = "すせられない", .rule = RuleType::vs },
TestCase{ .term = "くる", .source = "くます", .rule = RuleType::vk },
TestCase{ .term = "くる", .source = "くた", .rule = RuleType::vk },
TestCase{ .term = "くる", .source = "くました", .rule = RuleType::vk },
TestCase{ .term = "くる", .source = "くて", .rule = RuleType::vk },
TestCase{ .term = "くる", .source = "くられる", .rule = RuleType::vk },
TestCase{ .term = "くる", .source = "くられる", .rule = RuleType::vk },
TestCase{ .term = "くる", .source = "くさせる", .rule = RuleType::vk },
TestCase{ .term = "くる", .source = "くさせられる", .rule = RuleType::vk },
TestCase{ .term = "くる", .source = "くい", .rule = RuleType::vk },
TestCase{ .term = "くる", .source = "くない", .rule = RuleType::vk },
TestCase{ .term = "くる", .source = "くません", .rule = RuleType::vk },
TestCase{ .term = "くる", .source = "くなかった", .rule = RuleType::vk },
TestCase{ .term = "くる", .source = "くませんでした", .rule = RuleType::vk },
TestCase{ .term = "くる", .source = "くなくて", .rule = RuleType::vk },
TestCase{ .term = "くる", .source = "くられない", .rule = RuleType::vk },
TestCase{ .term = "くる", .source = "くられない", .rule = RuleType::vk },
TestCase{ .term = "くる", .source = "くさせない", .rule = RuleType::vk },
TestCase{ .term = "くる", .source = "くさせられない", .rule = RuleType::vk },
TestCase{ .term = "かわいい", .source = "かわいげ", .rule = RuleType::adj_i, .reasons = { "-ge" } },
TestCase{ .term = "可愛い", .source = "かわいげ", .rule = RuleType::adj_i, .reasons = { "-ge" } } }
},
TestGroup{
.valid= true,
.tests= { // -e
TestCase{ .term = "すごい", .source = "すげえ", .rule = RuleType::adj_i, .reasons = { "-e" } },
TestCase{ .term = "やばい", .source = "やべえ", .rule = RuleType::adj_i, .reasons = { "-e" } },
TestCase{ .term = "うるさい", .source = "うるせえ", .rule = RuleType::adj_i, .reasons = { "-e" } },
TestCase{ .term = "ひどい", .source = "ひでえ", .rule = RuleType::adj_i, .reasons = { "-e" } },
TestCase{ .term = "ない", .source = "ねえ", .rule = RuleType::adj_i, .reasons = { "-e" } },
TestCase{ .term = "できる", .source = "できねえ", .rule = RuleType::v1, .reasons = { "negative", "-e" } },
TestCase{ .term = "しんじる", .source = "しんじねえ", .rule = RuleType::v1, .reasons = { "negative", "-e" } },
TestCase{ .term = "さむい", .source = "さめえ", .rule = RuleType::adj_i, .reasons = { "-e" } },
TestCase{ .term = "さむい", .source = "さみい", .rule = RuleType::adj_i, .reasons = { "-e" } },
TestCase{ .term = "あつい", .source = "あちぇえ", .rule = RuleType::adj_i, .reasons = { "-e" } },
TestCase{ .term = "あつい", .source = "あちい", .rule = RuleType::adj_i, .reasons = { "-e" } },
TestCase{ .term = "やすい", .source = "やせえ", .rule = RuleType::adj_i, .reasons = { "-e" } },
TestCase{ .term = "たかい", .source = "たけえ", .rule = RuleType::adj_i, .reasons = { "-e" } },
TestCase{ .term = "かわいい", .source = "かわええ", .rule = RuleType::adj_i, .reasons = { "-e" } },
TestCase{ .term = "つよい", .source = "ついぇえ", .rule = RuleType::adj_i, .reasons = { "-e" } },
TestCase{ .term = "こわい", .source = "こうぇえ", .rule = RuleType::adj_i, .reasons = { "-e" } },
TestCase{ .term = "みじかい", .source = "みじけえ", .rule = RuleType::adj_i, .reasons = { "-e" } },
TestCase{ .term = "ながい", .source = "なげえ", .rule = RuleType::adj_i, .reasons = { "-e" } },
TestCase{ .term = "くさい", .source = "くせえ", .rule = RuleType::adj_i, .reasons = { "-e" } },
TestCase{ .term = "うまい", .source = "うめえ", .rule = RuleType::adj_i, .reasons = { "-e" } },
TestCase{ .term = "でかい", .source = "でけえ", .rule = RuleType::adj_i, .reasons = { "-e" } },
TestCase{ .term = "まずい", .source = "まっぜえ", .rule = RuleType::adj_i, .reasons = { "-e" } },
TestCase{ .term = "ちっちゃい", .source = "ちっちぇえ", .rule = RuleType::adj_i, .reasons = { "-e" } },
TestCase{ .term = "あかい", .source = "あけえ", .rule = RuleType::adj_i, .reasons = { "-e" } },
TestCase{ .term = "こわい", .source = "こええ", .rule = RuleType::adj_i, .reasons = { "-e" } },
TestCase{ .term = "つよい", .source = "つええ", .rule = RuleType::adj_i, .reasons = { "-e" } } }
}
};
}
} // namespace ajt::rdricpp

View file

@ -1,56 +0,0 @@
/*
* Rikaitan Deinflector Reference Implementation
*
* Copyright (C) 2023 Ajatt-Tools and contributors
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, visit the http://fsf.org website.
*/
#pragma once
#include "rdricpp/ostream.h"
#include "rdricpp/types.h"
#include <ostream>
#include <string>
#include <vector>
namespace ajt::rdricpp {
struct TestCase
{
std::string term{};
std::string source{};
RuleType rule{};
std::vector<std::string> reasons{};
};
inline auto& operator<<(std::ostream& os, TestCase const& test_case)
{
os << "{.term=" << test_case.term //
<< ", .source=" << test_case.source //
<< ", .rule=" << test_case.rule //
<< ", .reasons=" << test_case.reasons //
<< "}";
return os;
}
struct TestGroup
{
bool valid{};
std::vector<TestCase> tests{};
};
std::vector<TestGroup> test_groups();
}

View file

@ -1,48 +0,0 @@
/*
* Rikaitan Deinflector Reference Implementation
*
* Copyright (C) 2023 Ajatt-Tools and contributors
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, visit the http://fsf.org website.
*/
#include "rdricpp/rdricpp.h"
#include "test_cases.h"
#include <algorithm>
#include <catch2/catch_test_macros.hpp>
#include <ranges>
namespace ajt::rdricpp {
bool is_result_included(std::vector<Deinflection> const& results, TestCase const& test_case)
{
return std::ranges::any_of(std::views::all(results), [&test_case](Deinflection const& result) {
return (
result.term == test_case.term
and (result.rules == RuleType::none or (test_case.rule & result.rules) == test_case.rule)
and test_case.reasons == result.reasons
);
});
}
TEST_CASE("Deinflect", "[deinflect]")
{
for (TestGroup const& group: test_groups()) {
for (TestCase const& test_case: group.tests) {
REQUIRE(group.valid == is_result_included(deinflect(test_case.source), test_case));
}
}
}
} // namespace ajt::rdricpp

View file

@ -23,11 +23,6 @@
#include "massif.h" #include "massif.h"
#include "precompiled.h" #include "precompiled.h"
//Testing
#include <ctime>
#include <chrono>
#include <ratio>
static constexpr std::string_view help_text = R"EOF(usage: {} ACTION [OPTIONS] static constexpr std::string_view help_text = R"EOF(usage: {} ACTION [OPTIONS]
A set of helpful programs to enhance GoldenDict for immersion learning. A set of helpful programs to enhance GoldenDict for immersion learning.
@ -124,7 +119,6 @@ auto take_action(std::span<std::string_view const> const args) -> void
auto main(/*int const argc, char const* const* const argv*/) -> int auto main(/*int const argc, char const* const* const argv*/) -> int
{ {
//utf8:: //utf8::
auto start = std::chrono::system_clock::now();
LPWSTR *szArglist; LPWSTR *szArglist;
int argc; int argc;
szArglist = CommandLineToArgvW(GetCommandLineW(),&argc); szArglist = CommandLineToArgvW(GetCommandLineW(),&argc);
@ -139,22 +133,14 @@ auto main(/*int const argc, char const* const* const argv*/) -> int
for(int i{0}; i < argc; i++){ for(int i{0}; i < argc; i++){
std::string test_str = convert.to_bytes(szArglist[i]); std::string test_str = convert.to_bytes(szArglist[i]);
if (utf8::is_valid(test_str.begin(), test_str.end()))
ajt::println(" Debug info: Valid utf-8 string: [{}]", test_str);
else
ajt::println(" Debug info: INVALID utf-8 string: [{}]", test_str);
args_utf8.push_back(test_str); args_utf8.push_back(test_str);
} }
for (const std::string& arg : args_utf8) for (const std::string& arg : args_utf8)
args.push_back(arg); args.push_back(arg);
take_action(args); take_action(args);
#ifdef GD_TOOLS_DBG //Debug gd-tools
auto duration = std::chrono::duration_cast<std::chrono::microseconds>(std::chrono::system_clock::now() - start);
std::cout << " \nExecution time: " << duration.count() << "μs" << '\n';
#endif //Debug gd-tools
return 0; return 0;
} }
#endif //ifndef WIN32 #endif //ifndef WIN32
@ -163,15 +149,7 @@ auto main(/*int const argc, char const* const* const argv*/) -> int
#ifndef WIN32 //General Main #ifndef WIN32 //General Main
auto main(int const argc, char const* const* const argv) -> int auto main(int const argc, char const* const* const argv) -> int
{ {
auto start = std::chrono::system_clock::now();
take_action(std::vector<std::string_view>{ argv, std::next(argv, argc) }); take_action(std::vector<std::string_view>{ argv, std::next(argv, argc) });
#ifdef GD_TOOLS_DBG //Debug gd-tools
auto duration = std::chrono::duration_cast<std::chrono::microseconds>(std::chrono::system_clock::now() - start);
std::cout << " \nExecution time: " << duration.count() << "μs" << '\n';
#endif //Debug gd-tools
return 0; return 0;
} }
#endif //ifndef WIN32 #endif //General Main

View file

@ -34,7 +34,6 @@
#ifdef WIN32 //Windows Headers #ifdef WIN32 //Windows Headers
#include "utf8.h"
#include "unistd_win.h" #include "unistd_win.h"
#endif //ifndef #endif //ifndef

View file

@ -1,4 +1,5 @@
//Some issue with this file and cmake testing //Some issue with this file and cmake testing
//Still an issue on guix -> Issue: Check2 not working on guix
#include "kana_conv.h" #include "kana_conv.h"
#include "util.h" #include "util.h"

57
src/unistd_win.h Normal file
View file

@ -0,0 +1,57 @@
#ifndef _UNISTD_H
#define _UNISTD_H 1
/* This is intended as a drop-in replacement for unistd.h on Windows.
* Please add functionality as needed.
* https://stackoverflow.com/a/826027/1202830
*/
#include <stdlib.h>
#include <io.h>
//#include <getopt.h> /* getopt at: https://gist.github.com/ashelly/7776712 */
#include <process.h> /* for getpid() and the exec..() family */
#include <direct.h> /* for _getcwd() and _chdir() */
#define srandom srand
#define random rand
/* Values for the second argument to access.
These may be OR'd together. */
#define R_OK 4 /* Test for read permission. */
#define W_OK 2 /* Test for write permission. */
//#define X_OK 1 /* execute permission - unsupported in windows*/
#define F_OK 0 /* Test for existence. */
#define access _access
#define dup2 _dup2
#define execve _execve
#define ftruncate _chsize
#define unlink _unlink
#define fileno _fileno
#define getcwd _getcwd
#define chdir _chdir
#define isatty _isatty
#define lseek _lseek
/* read, write, and close are NOT being #defined here, because while there are file handle specific versions for Windows, they probably don't work for sockets. You need to look at your app and consider whether to call e.g. closesocket(). */
#ifdef _WIN64
#define ssize_t __int64
#else
#define ssize_t long
#endif
#define STDIN_FILENO 0
#define STDOUT_FILENO 1
#define STDERR_FILENO 2
/* should be in some equivalent to <sys/types.h> */
/*
typedef __int8 int8_t;
typedef __int16 int16_t;
typedef __int32 int32_t;
typedef __int64 int64_t;
typedef unsigned __int8 uint8_t;
typedef unsigned __int16 uint16_t;
typedef unsigned __int32 uint32_t;
typedef unsigned __int64 uint64_t;*/
#endif /* unistd.h */

View file

@ -1,310 +0,0 @@
/*
* gd-tools - a set of programs to enhance goldendict for immersion learning.
* Copyright (C) 2023 Ajatt-Tools
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>.
*/
#include "anki_search.h"
#include "precompiled.h"
#include "util.h"
// reference
// https://camo.githubusercontent.com/192ba92ba3971bbb9eecede21c5f8d3a0a1afd52516af28a199335813e75f243/68747470733a2f2f692e696d6775722e636f6d2f6958335648484f2e706e67
// todo print tags (with links)
using namespace std::string_view_literals;
using json = nlohmann::json;
static constexpr auto ankiconnect_addr{ "127.0.0.1:8765"sv };
static constexpr std::chrono::seconds timeout{ 3U };
static constexpr std::size_t expected_n_fields{ 10 };
static constexpr std::string_view help_text = R"EOF(usage: gd-ankisearch [OPTIONS]
Search your Anki collection and output Note Ids that match query.
OPTIONS
--field-name NAME optional field to limit search to.
--deck-name NAME optional deck to limit search to.
--show-fields F1,F2 optional comma-separated list of fields to show.
--word WORD required search term
EXAMPLES
gd-ankisearch --field-name VocabKanji --word %GDWORD%
gd-ankisearch --deck-name Mining --word %GDWORD%
)EOF";
static constexpr std::string_view css_style = R"EOF(<style>
.gd-ankisearch-table {
font-family: arial, sans-serif;
border-collapse: collapse;
border-spacing: 0;
max-width: 100%;
width: 100%;
display: block;
overflow-x: auto;
overscroll-behavior-inline: contain;
}
.gd-ankisearch-table td,
.gd-ankisearch-table th {
border: 1px solid #dddddd;
text-align: left;
padding: 4px;
}
.gd-ankisearch-table tr:nth-child(odd) {
background-color: #dddddd55;
}
.gd-ankisearch-table tr:first-child {
background-color: #00000011;
}
.gd-ankisearch-table tr.new {
border-bottom: 2px solid #3b82f6;
background-color: #3b82f611;
}
.gd-ankisearch-table tr.learning {
border-bottom: 2px solid #dc2626;
background-color: #dc262611;
}
.gd-ankisearch-table tr.review {
border-bottom: 2px solid #16a34a;
background-color: #16a34a11;
}
.gd-ankisearch-table tr.buried {
border-bottom: 2px solid #858585;
background-color: #85858511;
}
.gd-ankisearch-table tr.suspended {
border-bottom: 2px solid #ffe88d;
background-color: #ffe88d11;
}
.gd-ankisearch-table img {
max-height: 200px;
max-width: 200px;
}
.gd-ankisearch-table a {
color: #1b2c5d;
text-decoration: none;
}
.gd-ankisearch-table a:hover {
filter: hue-rotate(-20deg) brightness(120%);
}
</style>
)EOF";
using NameToValMap = std::unordered_map<std::string, std::string>;
struct card_info
{
uint64_t id;
int64_t queue;
int64_t type;
std::string deck_name;
NameToValMap fields;
};
auto split_anki_field_names(std::string_view const show_fields) -> std::vector<std::string>
{
// Expects a list of Anki fields separated by commas.
std::vector<std::string> parsed{};
parsed.reserve(expected_n_fields);
std::ranges::copy(
show_fields //
| std::views::split(',') //
| std::views::transform([](auto v) { return std::string(v.begin(), v.end()); }), //
std::back_inserter(parsed)
);
return parsed;
}
struct search_params
{
std::string_view gd_word{};
std::string_view field_name{};
std::string_view deck_name{};
std::vector<std::string> show_fields{};
void assign(std::string_view const key, std::string_view const value)
{
if (key == "--field-name") {
field_name = value;
} else if (key == "--deck-name") {
deck_name = value;
} else if (key == "--show-fields") {
show_fields = split_anki_field_names(value);
} else if (key == "--word") {
gd_word = value;
}
}
};
auto make_find_cards_request_str(search_params const& params) -> std::string
{
auto request = json::parse(R"EOF({
"action": "findCards",
"version": 6,
"params": {
"query": "deck:current"
}
})EOF");
std::string query{ params.gd_word };
if (not params.field_name.empty()) {
query = fmt::format("\"{}:*{}*\"", params.field_name, query);
}
if (not params.deck_name.empty()) {
query = fmt::format("\"deck:{}\" {}", params.deck_name, query);
}
request["params"]["query"] = query;
return request.dump();
}
auto make_get_media_dir_path_request_str() -> std::string
{
return R"EOF({
"action": "getMediaDirPath",
"version": 6
})EOF";
}
auto make_ankiconnect_request(std::string_view const request_str) -> cpr::Response
{
return cpr::Post(
cpr::Url{ ankiconnect_addr },
cpr::Body{ request_str },
cpr::Header{ { "Content-Type", "application/json" } },
cpr::Timeout{ timeout }
);
}
auto make_info_request_str(std::vector<uint64_t> const& cids)
{
auto request = json::parse(R"EOF({
"action": "cardsInfo",
"version": 6,
"params": {
"cards": []
}
})EOF");
request["params"]["cards"] = cids;
return request.dump();
}
auto get_cids_info(std::vector<uint64_t> const& cids) -> nlohmann::json
{
auto const request_str = make_info_request_str(cids);
cpr::Response const r = make_ankiconnect_request(request_str);
raise_if(r.status_code != cpr::status::HTTP_OK, "Couldn't connect to Anki.");
auto const obj = json::parse(r.text);
raise_if(not obj["error"].is_null(), "Error getting data from AnkiConnect.");
return obj["result"];
}
auto find_cids(search_params const& params) -> std::vector<uint64_t>
{
auto const request_str = make_find_cards_request_str(params);
cpr::Response const r = make_ankiconnect_request(request_str);
raise_if(r.status_code != cpr::status::HTTP_OK, "Couldn't connect to Anki.");
auto const obj = json::parse(r.text);
raise_if(not obj["error"].is_null(), "Error getting data from AnkiConnect.");
return obj["result"];
}
auto fetch_media_dir_path() -> std::string
{
auto const request_str = make_get_media_dir_path_request_str();
cpr::Response const r = make_ankiconnect_request(request_str);
raise_if(r.status_code != cpr::status::HTTP_OK, "Couldn't connect to Anki.");
auto const obj = json::parse(r.text);
raise_if(not obj["error"].is_null(), "Error getting data from AnkiConnect.");
return obj["result"];
}
void print_table_header(search_params const& params)
{
// Print the first row (header) that contains <th></th> tags, starting with Card ID.
fmt::print("<tr>");
fmt::print("<th>Card ID</th>");
fmt::print("<th>Deck name</th>");
for (auto const& field: params.show_fields) { fmt::print("<th>{}</th>", field); }
fmt::print("</tr>\n");
}
auto card_json_to_obj(nlohmann::json const& card_json) -> card_info
{
// https://github.com/FooSoft/anki-connect#cardsinfo
return {
.id = card_json["cardId"],
.queue = card_json["queue"],
.type = card_json["type"],
.deck_name = card_json["deckName"], //
.fields =
[&card_json]() {
NameToValMap result{};
for (auto const& element: card_json["fields"].items()) {
result.emplace(element.key(), element.value()["value"]);
}
return result;
}(), //
};
}
auto gd_format(std::string const& field_content, std::string const& media_dir_path) -> std::string
{
// Make sure GoldenDict displays images correctly by specifying the full path.
static std::regex const img_re{ "(<img[^<>]*src=\")" };
static std::regex const any_undesirables{ R"EOF(\[sound:|\]|<[^<>]+>|["'.,!?]+|||||| |||\(|\))EOF" };
auto const link_content = strtrim(std::regex_replace(field_content, any_undesirables, " "));
auto const link_text = std::regex_replace(field_content, img_re, fmt::format("$1file://{}/", media_dir_path));
return link_content.empty() ? link_text : fmt::format("<a href=\"ankisearch:{}\">{}</a>", link_content, link_text);
}
void print_cards_info(search_params const& params)
{
auto const cids = find_cids(params);
if (cids.empty()) {
return fmt::print("No cards found.\n");
}
auto const media_dir_path = fetch_media_dir_path();
fmt::print("<table class=\"gd-ankisearch-table\">\n");
print_table_header(params);
for (auto const& card: get_cids_info(cids) | std::views::transform(card_json_to_obj)) {
fmt::print("<tr class=\"{}\">", determine_card_class(card.queue, card.type));
fmt::print("<td><a href=\"ankisearch:cid:{}\">{}</a></td>", card.id, card.id);
fmt::print("<td>{}</td>", card.deck_name);
for (auto const& field_name: params.show_fields) {
fmt::print(
"<td>{}</td>",
(card.fields.contains(field_name) and not card.fields.at(field_name).empty()
? gd_format(card.fields.at(field_name), media_dir_path)
: "Not present")
);
}
fmt::print("</tr>\n");
}
fmt::print("</table>\n");
fmt::print("{}\n", css_style);
}
void search_anki_cards(std::span<std::string_view const> const args)
{
try {
print_cards_info(fill_args<search_params>(args));
} catch (gd::help_requested const& ex) {
fmt::print(help_text);
} catch (gd::runtime_error const& ex) {
fmt::print("{}\n", ex.what());
}
}

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@ -1,5 +0,0 @@
#pragma once
#include "precompiled.h"
auto search_anki_cards(std::span<std::string_view const> const args) -> void;

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@ -1,92 +0,0 @@
/*
* gd-tools - a set of programs to enhance goldendict for immersion learning.
* Copyright (C) 2023 Ajatt-Tools
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>.
*/
#include "kana_conv.h"
#include "precompiled.h"
#include "util.h"
using namespace std::string_view_literals;
static constexpr std::size_t default_len{ CharByteLen::THREE * 5UL };
static constexpr std::string_view help_text = R"EOF(usage: gd-echo [OPTIONS]
Echo input back to GoldenDict as HTML with the KanjiStrokeOrders font applied.
OPTIONS
--max-len NUMBER maximum length of the input string (bytes).
--font-size SIZE font size (with unit).
--font-family font family (name).
--word WORD text to print.
EXAMPLES
gd-echo --max-len 5 --font-size 10rem --word ""
gd-echo --max-len 3 --font-size 120px --word "薔薇"
)EOF";
struct stroke_order_params
{
std::string_view gd_word{};
std::string_view font_size{ "10rem" };
std::string_view font_family{ "KanjiStrokeOrders" };
std::size_t max_len{ default_len };
void assign(std::string_view const key, std::string_view const value)
{
if (key == "--max-len") {
max_len = parse_number<std::size_t>(value).value_or(default_len);
} else if (key == "--font-size") {
font_size = value;
} else if (key == "--font-family") {
font_family = value;
} else if (key == "--word") {
gd_word = value;
}
}
};
void print_css(stroke_order_params const& params)
{
static constexpr std::string_view css = R"EOF(
<style>
.gd_echo_{} {{
font-size: {};
font-family: "{}";
}}
</style>
)EOF";
fmt::print(css, this_pid, params.font_size, params.font_family);
}
void print_with_stroke_order(stroke_order_params const& params)
{
if (params.gd_word.length() <= params.max_len) {
fmt::print("<div class=\"gd_echo_{}\">{}</div>\n", this_pid, params.gd_word);
print_css(params);
}
}
void stroke_order(std::span<std::string_view const> const args)
{
try {
print_with_stroke_order(fill_args<stroke_order_params>(args));
} catch (gd::help_requested const& ex) {
fmt::print(help_text);
} catch (gd::runtime_error const& ex) {
fmt::print("{}\n", ex.what());
}
}

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@ -1,5 +0,0 @@
#pragma once
#include "precompiled.h"
void stroke_order(std::span<std::string_view const> const args);

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#!/bin/bash
gd-echo --font-family "ArmedLemon" "$@"

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@ -1,182 +0,0 @@
#!/bin/bash
#
# gd-tools - a set of programs to enhance goldendict for immersion learning.
# Copyright (C) 2023 Ajatt-Tools
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <https://www.gnu.org/licenses/>.
set -euo pipefail
# Requires installing mecab
# Open GoldenDict, press "Edit" > "Dictionaries" > "Programs" and add this script as type html.
TEMP_FILE=/tmp/gd-mandarin_cache
# Default path to user_dic.dic, assuming that the user ran `xmake install`.
USER_DICT=~/.local/gd-mandarin/user.dic
FONT_SIZE=2rem
GDWORD=""
GDSEARCH=""
sanitize_input() {
sed -E \
-e 's, +,,g' \
-e 's,[a-z]+, ,Ig' \
-e 's,\n, ,g'
}
usage() {
local -r bn=$(basename -- "$0")
cat <<-EOF
usage: $bn [OPTIONS] --word %GDWORD% --sentence %GDSEARCH%
echo input back to GoldenDict as HTML with sentence split into parts
OPTIONS
EOF
column -t -s'|' <<-EOF
--user-dict PATH|path to the user dictionary.
--font-size SIZE|font size. The default value is 30px
EOF
}
find_dicdir() {
dirname -- "$(
find \
~/.local/gd-mandarin \
/usr/lib/mecab/dic \
~/.local/share/Anki2/addons21 \
-type f -name dicrc -print -quit
)"
}
mecab_split() {
if ! command -v mecab &>/dev/null; then
echo "Error: MeCab is not installed. Please install MeCab and try again."
exit 1
fi
mecab -d . -Ogdmandarin --dicdir="$(find_dicdir)" --userdic="${USER_DICT}"
}
print_css() {
cat <<-EOF
<style>
.gd-mandarin {
font-size: ${FONT_SIZE:-2rem};
color: #1268c3;
font-weight: normal;
}
.gd-mandarin a {
display: inline-block;
font-weight: normal;
color: royalblue;
text-decoration: none;
}
.gd-mandarin a:not(:last-of-type)::after {
content: "";
display: inline-block;
background-color: #333;
margin: 4px;
width: 3px;
height: 3px;
border-radius: 100vmax;
vertical-align: middle;
cursor: text;
user-select: text;
}
.gd-mandarin a b {
background-color: #ddeeff;
border-radius: 0.2rem;
font-weight: 500;
}
</style>
EOF
}
highlight_word() {
local target_word=$* search=""
search=$(cat -- -)
search=${search//">$target_word<"/"><b>${target_word}</b><"}
echo "$search"
}
die() {
echo "$*" >&2
notify-send "$(basename -- "$0")" "$*" &
exit 1
}
main() {
if (($# == 0)) || [[ $* == --help ]] || [[ $* == -h ]]; then
usage
exit
fi
while (($# > 0)); do
case $1 in
--font-size)
shift
FONT_SIZE=$1
;;
--user-dict)
shift
USER_DICT=$1
;;
--word)
shift
GDWORD=$1
;;
--sentence)
shift
GDSEARCH=$1
;;
*)
die "Invalid argument passed."
;;
esac
shift
done
if ! [[ -f $USER_DICT ]]; then
die "Provided user dictionary doesn't exist or isn't a file."
fi
if [[ -z $GDSEARCH ]] || [[ -z $GDWORD ]]; then
die "Not enough parameters."
fi
local -r input=$(echo "$GDSEARCH" | sanitize_input)
local -r output=$(grep -Fxs -A1 "$input" -- "$TEMP_FILE")
echo '<div class="gd-mandarin">'
if [[ -n $output ]]; then
echo "$output" |
tail -1 |
highlight_word "$GDWORD"
else
echo "$input" |
tee -a "$TEMP_FILE" |
mecab_split |
tee -a "$TEMP_FILE" |
highlight_word "$GDWORD"
printf -- '\n\n' >>"$TEMP_FILE"
fi
echo '</div>'
print_css
}
main "$@"

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@ -1,205 +0,0 @@
#!/bin/bash
#
# gd-tools - a set of programs to enhance goldendict for immersion learning.
# Copyright (C) 2023 Ajatt-Tools
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <https://www.gnu.org/licenses/>.
set -euo pipefail
# Requires installing mecab
# Open GoldenDict, press "Edit" > "Dictionaries" > "Programs" and add this script as type html.
TEMP_FILE=/tmp/mecab-cache
# Default path to user_dic.dic, assuming that the user ran `xmake install`.
USER_DICT=""
FONT_SIZE=2rem
GDWORD=""
GDSEARCH=""
sanitize_input() {
sed -E \
-e 's, +,,g' \
-e 's,[a-z]+, ,Ig' \
-e 's,\n, ,g'
}
usage() {
local -r bn=$(basename -- "$0")
cat <<-EOF
usage: $bn [OPTIONS] --word %GDWORD% --sentence %GDSEARCH%
echo input back to GoldenDict as HTML with sentence split into parts
OPTIONS
EOF
column -t -s'|' <<-EOF
--user-dict PATH|path to the user dictionary.
--font-size SIZE|font size. The default value is 30px
EOF
}
find_user_dict() {
find \
"$USER_DICT" \
/usr/share/gd-tools/user_dic.dic \
~/.local/share/gd-tools/user_dic.dic \
-type f -print -quit 2>/dev/null
}
find_dicdir() {
dirname -- "$(
find \
/usr/lib/mecab/dic/mecab-ipadic-neologd \
/usr/lib/mecab/dic \
~/.local/share/Anki2/addons21 \
-type f -name dicrc -print -quit 2>/dev/null
)"
}
mecab_split() {
if ! command -v mecab &>/dev/null; then
echo "Error: MeCab is not installed. Please install MeCab and try again."
exit 1
fi
local -r user_dict=$(find_user_dict)
local -a args=(
mecab
--node-format='<a href="bword:%f[6]">%m</a>'
--unk-format='<a href="bword:%m">%m</a>'
--eos-format='<br>'
--dicdir="$(find_dicdir)"
--userdic="${USER_DICT}"
)
if [[ -n $user_dict ]]; then
args+=("$user_dict")
fi
"${args[@]}"
}
print_css() {
cat <<-EOF
<style>
* {
margin: 0;
padding: 0;
}
.gd-mecab {
font-size: ${FONT_SIZE:-2rem};
color: #1268c3;
font-weight: normal;
}
.gd-mecab a {
display: inline-block;
font-weight: normal;
color: royalblue;
text-decoration: none;
}
.gd-mecab a:not(:last-of-type)::after {
content: "";
display: inline-block;
background-color: #333;
margin: 4px;
width: 3px;
height: 3px;
border-radius: 100vmax;
vertical-align: middle;
cursor: text;
user-select: text;
}
.gd-mecab a b {
background-color: #ddeeff;
border-radius: 0.2rem;
font-weight: 500;
}
</style>
EOF
}
highlight_word() {
local target_word=$* search=""
search=$(cat -- -)
search=${search//">$target_word<"/"><b>${target_word}</b><"}
echo "$search"
}
die() {
echo "$*" >&2
notify-send "$(basename -- "$0")" "$*" &
exit 1
}
main() {
if (($# == 0)) || [[ $* == --help ]] || [[ $* == -h ]]; then
usage
exit
fi
while (($# > 0)); do
case $1 in
--font-size)
shift
FONT_SIZE=$1
;;
--user-dict)
shift
USER_DICT=$1
;;
--word)
shift
GDWORD=$1
;;
--sentence)
shift
GDSEARCH=$1
;;
*)
die "Invalid argument passed."
;;
esac
shift
done
if [[ -n $USER_DICT ]] && ! [[ -f $USER_DICT ]]; then
die "Provided user dictionary doesn't exist or isn't a file."
fi
if [[ -z $GDSEARCH ]] || [[ -z $GDWORD ]]; then
die "Not enough parameters."
fi
local -r input=$(echo "$GDSEARCH" | sanitize_input)
local -r output=$(grep -Fxs -A1 "$input" -- "$TEMP_FILE")
echo '<div class="gd-mecab">'
if [[ -n $output ]]; then
echo "$output" |
tail -1 |
highlight_word "$GDWORD"
else
echo "$input" |
tee -a "$TEMP_FILE" |
mecab_split |
tee -a "$TEMP_FILE" |
highlight_word "$GDWORD"
printf -- '\n\n' >>"$TEMP_FILE"
fi
echo '</div>'
print_css
}
main "$@"

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@ -1,3 +0,0 @@
#!/bin/bash
gd-echo --font-family "KanjiStrokeOrders" "$@"

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@ -1,104 +0,0 @@
/*
* gd-tools - a set of programs to enhance goldendict for immersion learning.
* Copyright (C) 2023 Ajatt-Tools
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>.
*/
#include "precompiled.h"
#include "util.h"
using namespace std::literals;
static constexpr std::size_t default_max_time_s{ 6 };
static constexpr std::string_view help_text = R"EOF(usage: gd-images [OPTIONS]
Get images from Bing.
OPTIONS
--max-time SECONDS maximum time in seconds to wait for response.
--word WORD search term.
EXAMPLES
gd-images --max-time 6 --word ""
gd-images --word
)EOF";
static constexpr std::string_view css_style = R"EOF(<style>
.gallery {
display: grid;
gap: 10px;
margin: 0;
justify-items: center;
align-items: start;
align-content: start;
justify-content: space-between;
grid-template-columns: repeat(auto-fit, minmax(250px, 1fr));
}
.gallery img {
margin: 0 auto;
max-width: 100%;
width: 100%;
border-radius: 5px;
display: block;
max-height: 95vh;
object-fit: contain;
}
</style>)EOF";
struct images_params
{
std::chrono::seconds max_time{ default_max_time_s };
std::string gd_word{};
void assign(std::string_view const key, std::string_view const value)
{
if (key == "--max-time") {
max_time = std::chrono::seconds{ parse_number<std::size_t>(value).value_or(default_max_time_s) };
} else if (key == "--word") {
gd_word = value;
}
}
};
void fetch_images(images_params const& params)
{
cpr::Response const r = cpr::Get(
cpr::Url{ "https://www.bing.com/images/search"sv },
cpr::Parameters{ { "q", params.gd_word }, { "mkt", "ja-JP" } },
cpr::Header{ { "User-Agent", "Mozilla/5.0" } },
cpr::VerifySsl{ false },
cpr::Timeout{ params.max_time }
);
raise_if(r.status_code != 200, "Couldn't connect to Bing.");
static std::regex const img_re("<img[^<>]*class=\"mimg[^<>]*>");
auto images_begin = std::sregex_iterator(std::begin(r.text), std::end(r.text), img_re);
auto images_end = std::sregex_iterator();
fmt::print("<div class=\"gallery\">\n");
for (auto const& match: std::ranges::subrange(images_begin, images_end) | std::views::take(5)) {
fmt::print("{}\n", match.str());
}
fmt::print("</div>\n");
fmt::print("{}\n", css_style);
}
void images(std::span<std::string_view const> const args)
{
try {
fetch_images(fill_args<images_params>(args));
} catch (gd::help_requested const& ex) {
fmt::print(help_text);
} catch (gd::runtime_error const& ex) {
fmt::print("{}\n", ex.what());
}
}

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#pragma once
#include "precompiled.h"
void images(std::span<std::string_view const> const args);

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@ -1,73 +0,0 @@
/*
* gd-tools - a set of programs to enhance goldendict for immersion learning.
* Copyright (C) 2023 Ajatt-Tools
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>.
*/
#include "kana_conv.h"
#include "precompiled.h"
#include "util.h"
auto unicode_char_byte_len(char const& ch) -> CharByteLen
{
// See `man charsets` -> Unicode for explanation of below
if ((ch & 0xC0) == 0x80) {
// intermediate unicode char
return CharByteLen::SKIP;
} else if ((ch & 0x80) == 0x00) {
// Start of ASCII character
return CharByteLen::ONE;
} else if ((ch & 0xE0) == 0xC0) {
// Cyrillic, etc.
return CharByteLen::TWO;
} else if ((ch & 0xF0) == 0xE0) {
// Start of 3 byte sequence (CJK)
return CharByteLen::THREE;
} else if ((ch & 0xF8) == 0xF0) {
// Other Unicode
return CharByteLen::FOUR;
}
throw gd::runtime_error{ fmt::format("Can't recognize byte: '{:x}'.", ch) };
}
auto create_map(std::string_view from, std::string_view to) -> KanaConvMap
{
KanaConvMap result{};
for (auto const [idx, uni_char]: enum_unicode_chars(from)) {
result.emplace(uni_char, to.substr(idx, uni_char.length()));
}
return result;
}
auto half_to_full(std::string& str) -> std::string&
{
static KanaConvMap const conv_map = {
{ "", "" }, { "", "" }, { "", "" }, { "", "" }, { "", "" }, { "", "" }, { "", "" },
{ "", "" }, { "", "" }, { "", "" }, { "", "" }, { "", "" }, { "", "" }, { "", "" },
{ "ソ", "" }, { "", "" }, { "", "" }, { "", "" }, { "", "" }, { "", "" }, { "", "" },
{ "", "" }, { "", "" }, { "", "" }, { "", "" }, { "", "" }, { "", "" }, { "", "" },
{ "", "" }, { "", "" }, { "", "" }, { "", "" }, { "", "" }, { "", "" }, { "", "" },
{ "", "" }, { "", "" }, { "", "" }, { "", "" }, { "", "" }, { "", "" }, { "", "" },
{ "", "" }, { "", "" }, { "", "" }, { "", "" }, { "", "" }, { "", "" }, { "", "" },
{ "", "" }, { "", "" }, { "", "" }, { "", "" }, { "", "" }, { "", "" }, { "", "" },
{ "", "" }, { "", "" }, { "", "" }, { "", "" }, { "", "" }, { "", "" }, { "", "" }
};
for (auto const [idx, uni_char]: enum_unicode_chars(str)) {
if (conv_map.contains(uni_char)) {
str.replace(idx, uni_char.length(), conv_map.at(uni_char));
}
}
return str;
}

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#pragma once
#include "precompiled.h"
using KanaConvMap = std::unordered_map<std::string_view, std::string_view>;
enum CharByteLen : std::size_t { SKIP = 0, ONE = 1, TWO = 2, THREE = 3, FOUR = 4 };
enum class Direction { kata_to_hira, hira_to_kata };
auto create_map(std::string_view from, std::string_view to) -> KanaConvMap;
auto unicode_char_byte_len(char const& ch) -> CharByteLen;
inline constexpr std::string_view hiragana_chars =
"ぁあぃいぅうぇえぉおかがか゚きぎき゚くぐく゚けげけ゚こごこ゚さざしじすずせぜそぞただちぢっつづてでとどなにぬねのはばぱひびぴふ"
"ぶぷへべぺほぼぽまみむめもゃやゅゆょよらりるれろゎわゐゑをんゔゕゖゝゞ";
inline constexpr std::string_view katakana_chars =
"ァアィイゥウェエォオカガカ゚キギキ゚クグク゚ケゲケ゚コゴコ゚サザシジスズセゼソゾタダチヂッツヅテデトドナニヌネノハバパヒビピフ"
"ブプヘベペホボポマミムメモャヤュユョヨラリルレロヮワヰヱヲンヴヵヶヽヾ";
struct Utf8CharView
{
std::size_t idx; // starting position of a char in string, counting by bytes
std::string_view ch; // the whole character, e.g. "あ" (len=3)
};
struct Utf8IdxLen
{
std::size_t idx; // starting position of a char in string, counting by bytes
std::size_t len; // length of the utf8 character in bytes.
static Utf8IdxLen from_tuple(std::tuple<std::size_t, char const> enumerated)
{
return Utf8IdxLen(
std::get<0>(enumerated), //
unicode_char_byte_len(std::get<1>(enumerated))
);
}
};
constexpr auto enum_unicode_chars(std::string_view str)
{
// return a sequence of Utf8CharView.
// e.g. [ (0, "あ"), (3, "い") ]
return std::views::enumerate(str) //
| std::views::transform(Utf8IdxLen::from_tuple)
| std::views::filter([](Utf8IdxLen const ch) { return (ch.len != CharByteLen::SKIP); })
| std::views::transform([str](Utf8IdxLen const ch) {
assert(ch.len > 0);
return Utf8CharView(ch.idx, str.substr(ch.idx, ch.len));
});
}
constexpr auto iter_unicode_chars(std::string_view str)
{
return enum_unicode_chars(str) | std::views::transform([](Utf8CharView const v) { return v.ch; });
}
template<Direction D>
auto convert_kana(std::string_view str) -> std::string
{
static auto const conv_map{ [] {
if constexpr (D == Direction::kata_to_hira) {
return create_map(katakana_chars, hiragana_chars);
} else {
return create_map(hiragana_chars, katakana_chars);
}
}() };
std::string result{};
result.reserve(str.length());
for (auto const [idx, uni_char]: enum_unicode_chars(str)) {
result.append(conv_map.contains(uni_char) ? conv_map.at(uni_char) : uni_char);
}
return result;
}
inline auto katakana_to_hiragana(std::string_view str) -> std::string
{
return convert_kana<Direction::kata_to_hira>(str);
}
inline auto hiragana_to_katakana(std::string_view str) -> std::string
{
return convert_kana<Direction::hira_to_kata>(str);
}
auto half_to_full(std::string& str) -> std::string&;
struct KanaInsensitiveMore
{
bool operator()(std::string const& lhs, std::string const& rhs) const
{
if (lhs.length() != rhs.length()) {
return lhs.length() > rhs.length();
} else {
return hiragana_to_katakana(lhs) > hiragana_to_katakana(rhs);
}
}
};
using JpSet = std::set<std::string, KanaInsensitiveMore>;

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/*
* gd-tools - a set of programs to enhance goldendict for immersion learning.
* Copyright (C) 2023 Ajatt-Tools
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>.
*/
#include "anki_search.h"
#include "echo.h"
#include "images.h"
#include "marisa.h"
#include "massif.h"
#include "precompiled.h"
static constexpr std::string_view help_text = R"EOF(usage: {} ACTION [OPTIONS]
A set of helpful programs to enhance GoldenDict for immersion learning.
ACTIONS
ankisearch Search word in Anki.
massif Search word on Massif.
images Search images on Bing.
marisa Split search string using MARISA.
strokeorder Show stroke order of a word.
handwritten Display the handwritten form of a word.
OPTIONS
-h,--help Print this help screen.
EXAMPLES
gd-tools ankisearch --field-name VocabKanji %GDWORD%
gd-ankisearch --field-name VocabKanji %GDWORD%
gd-ankisearch --deck-name Mining %GDWORD%
)EOF";
auto get_help_str(std::string_view program_name) -> std::string
{
return fmt::format(help_text, program_name);
}
auto print_help(std::string_view const program_name) -> void
{
fmt::print("{}", get_help_str(program_name));
}
auto base_name(auto file_path) -> std::string
{
return std::filesystem::path(file_path).filename();
}
template<std::integral Ret = uint64_t>
constexpr auto djbx33a(std::string_view const s) -> Ret
{
Ret acc = 5381;
for (auto const ch: s) { acc = (acc * 33) + static_cast<Ret>(ch); }
return acc;
}
constexpr auto operator""_h(char const* s, [[maybe_unused]] size_t const size)
{
return djbx33a(std::string_view(s, size));
}
auto take_action(std::span<std::string_view const> const args) -> void
{
auto const program_name = base_name(args.front());
// Command passed as program name (first arg).
std::span rest = args.subspan(1);
switch (djbx33a(program_name)) {
case "gd-ankisearch"_h:
return search_anki_cards(rest);
case "gd-echo"_h:
return stroke_order(rest);
case "gd-massif"_h:
return massif(rest);
case "gd-images"_h:
return images(rest);
case "gd-marisa"_h:
return marisa_split(rest);
}
// Help requested explicitly.
if (std::size(args) < 2 or args[1] == "-h" or args[1] == "--help") {
return print_help(program_name);
}
// Command passed as second arg (first is "gd-tools").
rest = rest.subspan(1);
switch (djbx33a(args[1])) {
case "ankisearch"_h:
return search_anki_cards(rest);
case "echo"_h:
return stroke_order(rest);
case "massif"_h:
return massif(rest);
case "images"_h:
return images(rest);
case "marisa"_h:
return marisa_split(rest);
}
// Couldn't determine command.
return print_help(program_name);
}
auto main(int const argc, char const* const* const argv) -> int
{
take_action(std::vector<std::string_view>{ argv, std::next(argv, argc) });
return 0;
}

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/*
* gd-tools - a set of programs to enhance goldendict for immersion learning.
* Copyright (C) 2023 Ajatt-Tools
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>.
*/
#include "kana_conv.h"
#include "precompiled.h"
#include "util.h"
using namespace std::string_literals;
using namespace ajt::rdricpp;
static constexpr std::string_view help_text = R"EOF(usage: gd-marisa [OPTIONS]
Split sentence using MARISA and print links to each word.
OPTIONS
--word WORD required word
--sentence SENTENCE required sentence
--path-to-dic optional path to words.dic
EXAMPLES
gd-marisa --word %GDWORD% --sentence %GDSEARCH%
)EOF";
static constexpr std::string_view css_style = R"EOF(
<style>
.gd-marisa {
font-size: 2rem;
margin-bottom: 0.05em;
margin-top: -0.2em;
color: #1268c3;
font-weight: normal;
}
.gd-marisa a {
display: inline-block;
font-weight: normal;
color: royalblue;
text-decoration: none;
border-bottom: dashed max(1px, calc(1em / 16)) currentColor;
}
.gd-marisa a.gd-headword {
background-color: #ddeeff;
border-radius: 0.2rem;
font-weight: 500;
}
.gd-marisa > ul {
--size: 1rem;
font-size: var(--size);
padding-inline-start: var(--size);
margin-block: 2px;
}
.gd-marisa .alternatives {
--size: 1rem;
display: grid;
font-size: var(--size);
gap: calc( var(--size) / 4);
max-width: 100%;
margin: 0 auto;
grid-template-columns: repeat(auto-fill, minmax(150px, 1fr));
align-content: start;
justify-content: space-around;
text-align: left;
padding: 5px 0px;
}
.gd-marisa .alternatives > ul {
list-style-type: none;
margin: 0;
padding: calc( var(--size) / 4);
background-color: hsl(150deg 30% 60% / 10%);
}
</style>
)EOF";
static constexpr std::size_t max_forward_search_len_bytes{ CharByteLen::THREE * 20UL };
auto find_dic_file() -> std::filesystem::path
{
static auto const locations = {
// possible .dic locations
std::filesystem::path("/usr/share/gd-tools/marisa_words.dic"),
std::filesystem::path(std::getenv("HOME")) / ".local/share/gd-tools/marisa_words.dic"
};
for (auto const& location: locations) {
if (std::filesystem::exists(location) and std::filesystem::is_regular_file(location)) {
return location;
}
}
throw gd::runtime_error("Couldn't find the word list.");
}
struct marisa_params
{
std::string gd_word{};
std::string gd_sentence{};
std::string path_to_dic{ find_dic_file() };
auto assign(std::string_view const key, std::string_view const value) -> void
{
if (key == "--word") {
gd_word = value;
} else if (key == "--sentence") {
gd_sentence = value;
} else if (key == "--path-to-dic") {
path_to_dic = value;
}
}
};
auto cmp_len(std::string_view a, std::string_view b) -> bool
{
return a.length() < b.length();
}
struct Deinflected
{
std::string_view from;
std::vector<Deinflection> to;
};
auto find_deinflections_starting_with(std::string_view const search_str) -> std::vector<Deinflected>
{
std::vector<Deinflected> hits;
// loop from larger towards shorter substrings
for (std::string_view substr: enum_unicode_chars(search_str) //
| std::views::reverse
| std::views::transform( //
[&search_str](Utf8CharView const ch) { //
return search_str.substr(0UL, ch.idx + ch.ch.size());
}
)) {
hits.emplace_back(substr, deinflect(substr));
}
return hits;
}
auto find_keywords_starting_with(marisa::Agent& agent, marisa::Trie const& trie, std::string const& search_str) -> JpSet
{
JpSet results{};
auto const variants = { search_str, hiragana_to_katakana(search_str), katakana_to_hiragana(search_str) };
auto deinflections = std::views::all(variants) //
| std::views::transform(find_deinflections_starting_with) //
| std::views::join //
| std::views::transform([](Deinflected const& group) { return group.to; }) //
| std::views::join;
for (auto const& deinflection: deinflections) {
agent.set_query(deinflection.term.c_str());
while (trie.common_prefix_search(agent)) { //
results.emplace(agent.key().ptr(), agent.key().length());
}
}
return results;
}
void lookup_words(marisa_params params)
{
half_to_full(params.gd_word);
std::erase_if(params.gd_word, is_space);
std::erase_if(params.gd_sentence, is_space);
if (params.gd_sentence.empty()) {
params.gd_sentence = params.gd_word;
} else {
half_to_full(params.gd_sentence);
}
marisa::Trie trie;
marisa::Agent agent;
std::ifstream file{ params.path_to_dic };
raise_if(not file.good(), fmt::format(R"(Error. The dictionary file "{}" does not exist.)", params.path_to_dic));
trie.load(params.path_to_dic.c_str());
fmt::println(R"(<div class="gd-marisa">)");
std::ptrdiff_t pos_in_gd_word{ 0 };
std::vector<JpSet> alternatives{};
alternatives.reserve(20);
// Link longest words starting with each position in sentence.
for (auto const [idx, uni_char]: enum_unicode_chars(params.gd_sentence)) {
auto const headwords{ find_keywords_starting_with(
agent,
trie, //
params.gd_sentence.substr(idx, max_forward_search_len_bytes)
) };
// set bword to the longest found key in the trie.
std::string const bword{ headwords.empty() ? std::string{ uni_char } : std::ranges::max(headwords, cmp_len) };
if (params.gd_word == bword) {
pos_in_gd_word = static_cast<std::ptrdiff_t>(bword.length());
} else {
pos_in_gd_word -= static_cast<std::ptrdiff_t>(uni_char.length());
}
fmt::print(
R"(<a class="{}" href="bword:{}">{}</a>)",
(pos_in_gd_word > 0 ? "gd-headword" : "gd-word"),
bword,
uni_char
);
alternatives.push_back(headwords);
}
// Show available entries for other substrings.
fmt::println(R"(<div class="alternatives">)");
for (auto const& group: alternatives | std::views::filter(&JpSet::size)) {
fmt::println("<ul>");
for (auto const& word: group) {
fmt::println(
R"(<li><a class="{}" href="bword:{}">{}</a></li>)",
(word == params.gd_word ? "gd-headword" : ""),
word,
word
);
}
fmt::println("</ul>"); // close ul
}
fmt::println("</div>"); // close div.alternatives
fmt::println("</div>"); // close div.gd-marisa
fmt::println("{}", css_style);
}
void marisa_split(std::span<std::string_view const> const args)
{
try {
lookup_words(fill_args<marisa_params>(args));
} catch (gd::help_requested const& ex) {
fmt::println(help_text);
} catch (gd::runtime_error const& ex) {
fmt::println("{}", ex.what());
}
}

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#pragma once
#include "precompiled.h"
auto marisa_split(std::span<std::string_view const> const args) -> void;

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/*
* gd-tools - a set of programs to enhance goldendict for immersion learning.
* Copyright (C) 2023 Ajatt-Tools
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>.
*/
#include "precompiled.h"
#include "util.h"
using namespace std::literals;
static constexpr std::size_t default_max_time_s{ 6 };
static constexpr std::string_view help_text = R"EOF(usage: gd-massif [OPTIONS]
Get example sentences from Massif.
OPTIONS
--max-time SECONDS maximum time in seconds to wait for response.
--word WORD search term.
EXAMPLES
gd-massif --max-time 6 --word "貴様"
gd-massif --word
)EOF";
static constexpr std::string_view css_style = R"EOF(<style>
.gd-massif {
padding-inline-start: 0;
margin-inline-start: 0;
}
.gd-massif li {
font-size: 1.5rem;
list-style: none;
}
.gd-massif .result-meta {
font-size: 12px;
}
.gd-massif a {
color: royalblue;
}
.gd-massif em {
font-style: normal;
background-color: #ddeeff;
border-radius: 0.2rem;
}
</style>)EOF";
struct massif_params
{
std::chrono::seconds max_time{ default_max_time_s };
std::string_view gd_word{};
void assign(std::string_view const key, std::string_view const value)
{
if (key == "--max-time") {
max_time = std::chrono::seconds{ parse_number<std::size_t>(value).value_or(default_max_time_s) };
} else if (key == "--word") {
gd_word = value;
}
}
};
void fetch_massif_examples(massif_params const& params)
{
cpr::Response const r = cpr::Get(
cpr::Url{ fmt::format("https://massif.la/ja/search?q={}", params.gd_word) },
cpr::Timeout{ params.max_time },
cpr::VerifySsl{ false }
);
raise_if(r.status_code != 200, "Couldn't connect to Massif.");
fmt::print("<ul class=\"gd-massif\">\n");
for (auto const& line:
r.text //
| std::views::split('\n') //
| std::views::transform([](auto const& sub_view) { return std::string_view{ sub_view }; })
| std::views::drop_while([](auto const str_view) {
return not str_view.contains("<li class=\"text-japanese\">");
})
| std::views::take_while([](auto const str_view) { return not str_view.contains("</ul>"); })) {
fmt::print("{}\n", line);
}
fmt::print("</ul>\n");
fmt::print("{}\n", css_style);
}
void massif(std::span<std::string_view const> const args)
{
try {
fetch_massif_examples(fill_args<massif_params>(args));
} catch (gd::help_requested const& ex) {
fmt::print(help_text);
} catch (gd::runtime_error const& ex) {
fmt::print("{}\n", ex.what());
}
}

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#pragma once
#include "precompiled.h"
void massif(std::span<std::string_view const> const args);

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// STL
#include <algorithm>
#include <cassert>
#include <charconv>
#include <chrono>
#include <concepts>
#include <filesystem>
#include <iomanip>
#include <iostream>
#include <iterator>
#include <optional>
#include <ranges>
#include <regex>
#include <span>
#include <stdexcept>
#include <string>
#include <string_view>
#include <system_error>
#include <vector>
// Glibc
#include <unistd.h>
// Other
#include <cpr/cpr.h>
#include <fmt/format.h>
#include <fmt/ranges.h>
#include <marisa/trie.h>
#include <nlohmann/json.hpp>
#include <rdricpp/rdricpp.h>

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/*
* gd-tools - a set of programs to enhance goldendict for immersion learning.
* Copyright (C) 2023 Ajatt-Tools
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>.
*/
#include "util.h"
#include "precompiled.h"
auto determine_card_class(int64_t const card_queue, int64_t const card_type) noexcept -> std::string_view
{
// determine card class to be used in CSS when printing
// https://github.com/ankidroid/Anki-Android/wiki/Database-Structure
switch (card_queue) {
case -3:
case -2:
return "buried";
case -1:
return "suspended";
case 0:
return "new";
case 1:
case 3:
return "learning";
case 2:
return "review";
default:
break;
}
switch (card_type) {
case 0:
return "new";
case 1:
case 3:
return "learning";
case 2:
return "review";
default:
break;
}
return "unknown";
}
auto is_space(char const ch) noexcept -> bool
{
return static_cast<bool>(std::isspace(static_cast<unsigned char>(ch)));
}
auto strtrim(std::string_view str) noexcept -> std::string
{
auto v = std::views::all(str) //
| std::views::reverse //
| std::views::drop_while(is_space) //
| std::views::reverse //
| std::views::drop_while(is_space);
return std::string{ v.begin(), v.end() };
}
void str_replace(std::string& str, std::string_view from, std::string_view to) noexcept
{
if (auto idx = str.find(from); idx != std::string::npos) {
str.replace(idx, from.length(), to);
}
}

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#pragma once
#include "precompiled.h"
namespace gd {
class help_requested : public std::invalid_argument
{
public:
help_requested() : std::invalid_argument("Help requested.") {}
};
class runtime_error : public std::runtime_error
{
public:
runtime_error(std::string_view const what) : std::runtime_error(std::string{ what }) {}
};
} // namespace gd
inline void raise_if(bool expr, std::string_view const message = "Invalid argument.")
{
if (expr) {
throw gd::runtime_error(message);
}
}
template<typename T>
concept PassedParamsStruct = requires(T params) {
{
params.gd_word
} -> std::convertible_to<std::string_view>;
params.assign("a", "b");
};
template<PassedParamsStruct T>
auto fill_args(std::span<std::string_view const> const args) -> T
{
auto params = T{};
for (auto it = std::begin(args); it != std::end(args);) {
if (*it == "--help" or *it == "-h") {
throw gd::help_requested();
}
std::ptrdiff_t advance = 1;
std::string_view value = (std::next(it) != std::end(args)) ? *std::next(it) : "";
if (it->starts_with("-")) {
// Expect next arg to be the value.
raise_if(value.empty() or value.starts_with("-"));
advance = 2;
}
params.assign(*it, value);
it += advance;
}
if (params.gd_word.empty()) {
throw gd::help_requested();
}
return params;
}
auto determine_card_class(int64_t const card_queue, int64_t const card_type) noexcept -> std::string_view;
template<std::integral Integral>
auto parse_number(std::string_view const s) -> std::optional<Integral>
{
if (Integral value{}; std::from_chars(s.begin(), s.end(), value).ec == std::errc{})
return value;
else
return std::nullopt;
};
auto is_space(char const ch) noexcept -> bool;
auto strtrim(std::string_view str) noexcept -> std::string;
void str_replace(std::string& str, std::string_view from, std::string_view to) noexcept;
inline std::string const this_pid{ std::to_string(getpid()) };