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# This file is part of the Luau programming language and is licensed under MIT License; see LICENSE.txt for details
if ( EXT_PLATFORM_STRING )
include ( EXTLuau.cmake )
return ( )
endif ( )
cmake_minimum_required ( VERSION 3.0 )
option ( LUAU_BUILD_CLI "Build CLI" ON )
option ( LUAU_BUILD_TESTS "Build tests" ON )
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option ( LUAU_BUILD_WEB "Build Web module" OFF )
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option ( LUAU_WERROR "Warnings as errors" OFF )
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option ( LUAU_STATIC_CRT "Link with the static CRT (/MT)" OFF )
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option ( LUAU_EXTERN_C "Use extern C for all APIs" OFF )
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cmake_policy ( SET CMP0054 NEW )
cmake_policy ( SET CMP0091 NEW )
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if ( LUAU_STATIC_CRT )
cmake_minimum_required ( VERSION 3.15 )
set ( CMAKE_MSVC_RUNTIME_LIBRARY "MultiThreaded$<$<CONFIG:Debug>:Debug>" )
endif ( )
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project ( Luau LANGUAGES CXX C )
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add_library ( Luau.Common INTERFACE )
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add_library ( Luau.CLI.lib STATIC )
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add_library ( Luau.Ast STATIC )
add_library ( Luau.Compiler STATIC )
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add_library ( Luau.Config STATIC )
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add_library ( Luau.Analysis STATIC )
Equality graphs (#1285)
Working towards a full e-graph implementation as described by the [egg
paper](https://arxiv.org/pdf/2004.03082).
The type system has a couple of places where e-graphs would've been
useful and solved some classes of problems trivially. For example:
1. Normalization and simplification cannot handle cyclic types due to
the nature of their implementation.
2. Normalization can't tell when two tables or functions are equivalent,
but simplification theoretically can albeit not implemented.
3. Normalization requires deep normalization for inhabitance check,
whereas simplification would've returned the `never` type itself
indicating uninhabited.
4. Simplification requires constraint ordering to have perfect timing to
simplify.
5. Adding a rewrite rule requires implementing it twice, once in
simplification and once again in normalization with completely different
code design making it hard to verify that their behavior is materially
equivalent.
6. In cases where we must cache for performance, two different types
that are isomorphic have different cache entries resulting in cache
misses.
7. Type family reduction can handle cyclic type families, but only if
the cycle is not obscured by a different type family instance. (`t1
where t1 = union<number, add<t1, number>>` is irreducible)
I think we're getting the point!
---
Currently the implementation is missing a few features that makes
e-graphs actually useful. Those will be coming in a future PR.
1. Pattern matching,
6. Applying rewrites,
7. Rewrite until saturation, and
8. Extracting the best e-node according to some cost function.
2024-07-17 01:35:20 +08:00
add_library ( Luau.EqSat STATIC )
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add_library ( Luau.CodeGen STATIC )
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add_library ( Luau.VM STATIC )
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add_library ( isocline STATIC )
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if ( LUAU_BUILD_CLI )
add_executable ( Luau.Repl.CLI )
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add_executable ( Luau.Analyze.CLI )
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add_executable ( Luau.Ast.CLI )
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add_executable ( Luau.Reduce.CLI )
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add_executable ( Luau.Compile.CLI )
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add_executable ( Luau.Bytecode.CLI )
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# This also adds target `name` on Linux/macOS and `name.exe` on Windows
set_target_properties ( Luau.Repl.CLI PROPERTIES OUTPUT_NAME luau )
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set_target_properties ( Luau.Analyze.CLI PROPERTIES OUTPUT_NAME luau-analyze )
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set_target_properties ( Luau.Ast.CLI PROPERTIES OUTPUT_NAME luau-ast )
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set_target_properties ( Luau.Reduce.CLI PROPERTIES OUTPUT_NAME luau-reduce )
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set_target_properties ( Luau.Compile.CLI PROPERTIES OUTPUT_NAME luau-compile )
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set_target_properties ( Luau.Bytecode.CLI PROPERTIES OUTPUT_NAME luau-bytecode )
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endif ( )
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if ( LUAU_BUILD_TESTS )
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add_executable ( Luau.UnitTest )
add_executable ( Luau.Conformance )
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add_executable ( Luau.CLI.Test )
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endif ( )
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if ( LUAU_BUILD_WEB )
add_executable ( Luau.Web )
endif ( )
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# Proxy target to make it possible to depend on private VM headers
add_library ( Luau.VM.Internals INTERFACE )
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include ( Sources.cmake )
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target_include_directories ( Luau.Common INTERFACE Common/include )
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target_compile_features ( Luau.CLI.lib PUBLIC cxx_std_17 )
target_link_libraries ( Luau.CLI.lib PRIVATE Luau.Common )
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target_compile_features ( Luau.Ast PUBLIC cxx_std_17 )
target_include_directories ( Luau.Ast PUBLIC Ast/include )
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target_link_libraries ( Luau.Ast PUBLIC Luau.Common Luau.CLI.lib )
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target_compile_features ( Luau.Compiler PUBLIC cxx_std_17 )
target_include_directories ( Luau.Compiler PUBLIC Compiler/include )
target_link_libraries ( Luau.Compiler PUBLIC Luau.Ast )
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target_compile_features ( Luau.Config PUBLIC cxx_std_17 )
target_include_directories ( Luau.Config PUBLIC Config/include )
target_link_libraries ( Luau.Config PUBLIC Luau.Ast )
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target_compile_features ( Luau.Analysis PUBLIC cxx_std_17 )
target_include_directories ( Luau.Analysis PUBLIC Analysis/include )
Equality graphs (#1285)
Working towards a full e-graph implementation as described by the [egg
paper](https://arxiv.org/pdf/2004.03082).
The type system has a couple of places where e-graphs would've been
useful and solved some classes of problems trivially. For example:
1. Normalization and simplification cannot handle cyclic types due to
the nature of their implementation.
2. Normalization can't tell when two tables or functions are equivalent,
but simplification theoretically can albeit not implemented.
3. Normalization requires deep normalization for inhabitance check,
whereas simplification would've returned the `never` type itself
indicating uninhabited.
4. Simplification requires constraint ordering to have perfect timing to
simplify.
5. Adding a rewrite rule requires implementing it twice, once in
simplification and once again in normalization with completely different
code design making it hard to verify that their behavior is materially
equivalent.
6. In cases where we must cache for performance, two different types
that are isomorphic have different cache entries resulting in cache
misses.
7. Type family reduction can handle cyclic type families, but only if
the cycle is not obscured by a different type family instance. (`t1
where t1 = union<number, add<t1, number>>` is irreducible)
I think we're getting the point!
---
Currently the implementation is missing a few features that makes
e-graphs actually useful. Those will be coming in a future PR.
1. Pattern matching,
6. Applying rewrites,
7. Rewrite until saturation, and
8. Extracting the best e-node according to some cost function.
2024-07-17 01:35:20 +08:00
target_link_libraries ( Luau.Analysis PUBLIC Luau.Ast Luau.EqSat Luau.Config )
target_compile_features ( Luau.EqSat PUBLIC cxx_std_17 )
target_include_directories ( Luau.EqSat PUBLIC EqSat/include )
target_link_libraries ( Luau.EqSat PUBLIC Luau.Common )
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target_compile_features ( Luau.CodeGen PRIVATE cxx_std_17 )
target_include_directories ( Luau.CodeGen PUBLIC CodeGen/include )
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target_link_libraries ( Luau.CodeGen PRIVATE Luau.VM Luau.VM.Internals ) # Code generation needs VM internals
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target_link_libraries ( Luau.CodeGen PUBLIC Luau.Common )
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target_compile_features ( Luau.VM PRIVATE cxx_std_11 )
target_include_directories ( Luau.VM PUBLIC VM/include )
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target_link_libraries ( Luau.VM PUBLIC Luau.Common )
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target_include_directories ( isocline PUBLIC extern/isocline/include )
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target_include_directories ( Luau.VM.Internals INTERFACE VM/src )
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set ( LUAU_OPTIONS )
if ( MSVC )
list ( APPEND LUAU_OPTIONS /D_CRT_SECURE_NO_WARNINGS ) # We need to use the portable CRT functions.
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list ( APPEND LUAU_OPTIONS "/we4018" ) # Signed/unsigned mismatch
list ( APPEND LUAU_OPTIONS "/we4388" ) # Also signed/unsigned mismatch
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else ( )
list ( APPEND LUAU_OPTIONS -Wall ) # All warnings
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list ( APPEND LUAU_OPTIONS -Wsign-compare ) # This looks to be included in -Wall for GCC but not clang
endif ( )
if ( CMAKE_CXX_COMPILER_ID STREQUAL "MSVC" )
list ( APPEND LUAU_OPTIONS /MP ) # Distribute single project compilation across multiple cores
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endif ( )
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if ( CMAKE_CXX_COMPILER_ID STREQUAL "GNU" )
# Some gcc versions treat var in `if (type var = val)` as unused
# Some gcc versions treat variables used in constexpr if blocks as unused
list ( APPEND LUAU_OPTIONS -Wno-unused )
endif ( )
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# Enabled in CI; we should be warning free on our main compiler versions but don't guarantee being warning free everywhere
if ( LUAU_WERROR )
if ( MSVC )
list ( APPEND LUAU_OPTIONS /WX ) # Warnings are errors
else ( )
list ( APPEND LUAU_OPTIONS -Werror ) # Warnings are errors
endif ( )
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endif ( )
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if ( LUAU_BUILD_WEB )
# add -fexceptions for emscripten to allow exceptions to be caught in C++
list ( APPEND LUAU_OPTIONS -fexceptions )
endif ( )
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set ( ISOCLINE_OPTIONS )
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if ( NOT CMAKE_CXX_COMPILER_ID STREQUAL "MSVC" )
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list ( APPEND ISOCLINE_OPTIONS -Wno-unused-function )
endif ( )
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target_compile_options ( Luau.Ast PRIVATE ${ LUAU_OPTIONS } )
target_compile_options ( Luau.Analysis PRIVATE ${ LUAU_OPTIONS } )
Equality graphs (#1285)
Working towards a full e-graph implementation as described by the [egg
paper](https://arxiv.org/pdf/2004.03082).
The type system has a couple of places where e-graphs would've been
useful and solved some classes of problems trivially. For example:
1. Normalization and simplification cannot handle cyclic types due to
the nature of their implementation.
2. Normalization can't tell when two tables or functions are equivalent,
but simplification theoretically can albeit not implemented.
3. Normalization requires deep normalization for inhabitance check,
whereas simplification would've returned the `never` type itself
indicating uninhabited.
4. Simplification requires constraint ordering to have perfect timing to
simplify.
5. Adding a rewrite rule requires implementing it twice, once in
simplification and once again in normalization with completely different
code design making it hard to verify that their behavior is materially
equivalent.
6. In cases where we must cache for performance, two different types
that are isomorphic have different cache entries resulting in cache
misses.
7. Type family reduction can handle cyclic type families, but only if
the cycle is not obscured by a different type family instance. (`t1
where t1 = union<number, add<t1, number>>` is irreducible)
I think we're getting the point!
---
Currently the implementation is missing a few features that makes
e-graphs actually useful. Those will be coming in a future PR.
1. Pattern matching,
6. Applying rewrites,
7. Rewrite until saturation, and
8. Extracting the best e-node according to some cost function.
2024-07-17 01:35:20 +08:00
target_compile_options ( Luau.EqSat PRIVATE ${ LUAU_OPTIONS } )
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target_compile_options ( Luau.CLI.lib PRIVATE ${ LUAU_OPTIONS } )
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target_compile_options ( Luau.CodeGen PRIVATE ${ LUAU_OPTIONS } )
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target_compile_options ( Luau.VM PRIVATE ${ LUAU_OPTIONS } )
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target_compile_options ( isocline PRIVATE ${ LUAU_OPTIONS } ${ ISOCLINE_OPTIONS } )
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if ( LUAU_EXTERN_C )
# enable extern "C" for VM (lua.h, lualib.h) and Compiler (luacode.h) to make Luau friendlier to use from non-C++ languages
# note that we enable LUA_USE_LONGJMP=1 as well; otherwise functions like luaL_error will throw C++ exceptions, which can't be done from extern "C" functions
target_compile_definitions ( Luau.VM PUBLIC LUA_USE_LONGJMP=1 )
target_compile_definitions ( Luau.VM PUBLIC LUA_API=extern\ "C\" )
target_compile_definitions ( Luau.Compiler PUBLIC LUACODE_API=extern\ "C\" )
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target_compile_definitions ( Luau.CodeGen PUBLIC LUACODEGEN_API=extern\ "C\" )
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endif ( )
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if ( CMAKE_CXX_COMPILER_ID STREQUAL "MSVC" AND MSVC_VERSION GREATER_EQUAL 1924 )
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# disable partial redundancy elimination which regresses interpreter codegen substantially in VS2022:
# https://developercommunity.visualstudio.com/t/performance-regression-on-a-complex-interpreter-lo/1631863
set_source_files_properties ( VM/src/lvmexecute.cpp PROPERTIES COMPILE_FLAGS /d2ssa-pre- )
endif ( )
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if ( NOT MSVC )
# disable support for math_errno which allows compilers to lower sqrt() into a single CPU instruction
target_compile_options ( Luau.VM PRIVATE -fno-math-errno )
endif ( )
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if ( MSVC AND LUAU_BUILD_CLI )
# the default stack size that MSVC linker uses is 1 MB; we need more stack space in Debug because stack frames are larger
set_target_properties ( Luau.Analyze.CLI PROPERTIES LINK_FLAGS_DEBUG /STACK:2097152 )
set_target_properties ( Luau.Repl.CLI PROPERTIES LINK_FLAGS_DEBUG /STACK:2097152 )
endif ( )
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# embed .natvis inside the library debug information
if ( MSVC )
target_link_options ( Luau.Ast INTERFACE /NATVIS: ${ CMAKE_CURRENT_SOURCE_DIR } /tools/natvis/Ast.natvis )
target_link_options ( Luau.Analysis INTERFACE /NATVIS: ${ CMAKE_CURRENT_SOURCE_DIR } /tools/natvis/Analysis.natvis )
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target_link_options ( Luau.CodeGen INTERFACE /NATVIS: ${ CMAKE_CURRENT_SOURCE_DIR } /tools/natvis/CodeGen.natvis )
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target_link_options ( Luau.VM INTERFACE /NATVIS: ${ CMAKE_CURRENT_SOURCE_DIR } /tools/natvis/VM.natvis )
endif ( )
# make .natvis visible inside the solution
if ( MSVC_IDE )
target_sources ( Luau.Ast PRIVATE tools/natvis/Ast.natvis )
target_sources ( Luau.Analysis PRIVATE tools/natvis/Analysis.natvis )
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target_sources ( Luau.CodeGen PRIVATE tools/natvis/CodeGen.natvis )
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target_sources ( Luau.VM PRIVATE tools/natvis/VM.natvis )
endif ( )
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# On Windows and Android threads are provided, on Linux/Mac/iOS we use pthreads
add_library ( osthreads INTERFACE )
if ( CMAKE_SYSTEM_NAME MATCHES "Linux|Darwin|iOS" )
target_link_libraries ( osthreads INTERFACE "-lpthread" )
endif ( )
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if ( LUAU_BUILD_CLI )
target_compile_options ( Luau.Repl.CLI PRIVATE ${ LUAU_OPTIONS } )
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target_compile_options ( Luau.Reduce.CLI PRIVATE ${ LUAU_OPTIONS } )
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target_compile_options ( Luau.Analyze.CLI PRIVATE ${ LUAU_OPTIONS } )
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target_compile_options ( Luau.Ast.CLI PRIVATE ${ LUAU_OPTIONS } )
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target_compile_options ( Luau.Compile.CLI PRIVATE ${ LUAU_OPTIONS } )
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target_compile_options ( Luau.Bytecode.CLI PRIVATE ${ LUAU_OPTIONS } )
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target_include_directories ( Luau.Repl.CLI PRIVATE extern extern/isocline/include )
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target_link_libraries ( Luau.Repl.CLI PRIVATE Luau.Compiler Luau.Config Luau.CodeGen Luau.VM Luau.CLI.lib isocline )
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target_link_libraries ( Luau.Repl.CLI PRIVATE osthreads )
target_link_libraries ( Luau.Analyze.CLI PRIVATE osthreads )
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target_link_libraries ( Luau.Analyze.CLI PRIVATE Luau.Analysis Luau.CLI.lib )
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target_link_libraries ( Luau.Ast.CLI PRIVATE Luau.Ast Luau.Analysis Luau.CLI.lib )
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target_compile_features ( Luau.Reduce.CLI PRIVATE cxx_std_17 )
target_include_directories ( Luau.Reduce.CLI PUBLIC Reduce/include )
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target_link_libraries ( Luau.Reduce.CLI PRIVATE Luau.Common Luau.Ast Luau.Analysis Luau.CLI.lib )
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target_link_libraries ( Luau.Compile.CLI PRIVATE Luau.Compiler Luau.VM Luau.CodeGen Luau.CLI.lib )
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target_link_libraries ( Luau.Bytecode.CLI PRIVATE Luau.Compiler Luau.VM Luau.CodeGen Luau.CLI.lib )
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endif ( )
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if ( LUAU_BUILD_TESTS )
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target_compile_options ( Luau.UnitTest PRIVATE ${ LUAU_OPTIONS } )
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target_compile_definitions ( Luau.UnitTest PRIVATE DOCTEST_CONFIG_DOUBLE_STRINGIFY )
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target_include_directories ( Luau.UnitTest PRIVATE extern )
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target_link_libraries ( Luau.UnitTest PRIVATE Luau.Analysis Luau.Compiler Luau.CodeGen )
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target_compile_options ( Luau.Conformance PRIVATE ${ LUAU_OPTIONS } )
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target_compile_definitions ( Luau.Conformance PRIVATE DOCTEST_CONFIG_DOUBLE_STRINGIFY )
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target_include_directories ( Luau.Conformance PRIVATE extern )
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target_link_libraries ( Luau.Conformance PRIVATE Luau.Analysis Luau.Compiler Luau.CodeGen Luau.VM )
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if ( CMAKE_SYSTEM_NAME MATCHES "Android|iOS" )
set ( LUAU_CONFORMANCE_SOURCE_DIR "Client/Luau/tests/conformance" )
else ( )
file ( REAL_PATH "tests/conformance" LUAU_CONFORMANCE_SOURCE_DIR )
endif ( )
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target_compile_definitions ( Luau.Conformance PRIVATE LUAU_CONFORMANCE_SOURCE_DIR= "${LUAU_CONFORMANCE_SOURCE_DIR}" )
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target_compile_options ( Luau.CLI.Test PRIVATE ${ LUAU_OPTIONS } )
target_include_directories ( Luau.CLI.Test PRIVATE extern CLI )
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target_link_libraries ( Luau.CLI.Test PRIVATE Luau.Compiler Luau.Config Luau.CodeGen Luau.VM Luau.CLI.lib isocline )
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target_link_libraries ( Luau.CLI.Test PRIVATE osthreads )
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endif ( )
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if ( LUAU_BUILD_WEB )
target_compile_options ( Luau.Web PRIVATE ${ LUAU_OPTIONS } )
target_link_libraries ( Luau.Web PRIVATE Luau.Compiler Luau.VM )
# declare exported functions to emscripten
target_link_options ( Luau.Web PRIVATE -sEXPORTED_FUNCTIONS=['_executeScript'] -sEXPORTED_RUNTIME_METHODS=['ccall','cwrap'] )
# add -fexceptions for emscripten to allow exceptions to be caught in C++
target_link_options ( Luau.Web PRIVATE -fexceptions )
# the output is a single .js file with an embedded wasm blob
target_link_options ( Luau.Web PRIVATE -sSINGLE_FILE=1 )
endif ( )
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add_subdirectory ( fuzz )
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# validate dependencies for internal libraries
Equality graphs (#1285)
Working towards a full e-graph implementation as described by the [egg
paper](https://arxiv.org/pdf/2004.03082).
The type system has a couple of places where e-graphs would've been
useful and solved some classes of problems trivially. For example:
1. Normalization and simplification cannot handle cyclic types due to
the nature of their implementation.
2. Normalization can't tell when two tables or functions are equivalent,
but simplification theoretically can albeit not implemented.
3. Normalization requires deep normalization for inhabitance check,
whereas simplification would've returned the `never` type itself
indicating uninhabited.
4. Simplification requires constraint ordering to have perfect timing to
simplify.
5. Adding a rewrite rule requires implementing it twice, once in
simplification and once again in normalization with completely different
code design making it hard to verify that their behavior is materially
equivalent.
6. In cases where we must cache for performance, two different types
that are isomorphic have different cache entries resulting in cache
misses.
7. Type family reduction can handle cyclic type families, but only if
the cycle is not obscured by a different type family instance. (`t1
where t1 = union<number, add<t1, number>>` is irreducible)
I think we're getting the point!
---
Currently the implementation is missing a few features that makes
e-graphs actually useful. Those will be coming in a future PR.
1. Pattern matching,
6. Applying rewrites,
7. Rewrite until saturation, and
8. Extracting the best e-node according to some cost function.
2024-07-17 01:35:20 +08:00
foreach ( LIB Luau.Ast Luau.Compiler Luau.Config Luau.Analysis Luau.EqSat Luau.CodeGen Luau.VM )
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if ( TARGET ${ LIB } )
get_target_property ( DEPENDS ${ LIB } LINK_LIBRARIES )
if ( LIB MATCHES "CodeGen|VM" AND DEPENDS MATCHES "Ast|Analysis|Config|Compiler" )
message ( FATAL_ERROR ${ LIB } " is a runtime component but it depends on one of the offline components" )
endif ( )
Equality graphs (#1285)
Working towards a full e-graph implementation as described by the [egg
paper](https://arxiv.org/pdf/2004.03082).
The type system has a couple of places where e-graphs would've been
useful and solved some classes of problems trivially. For example:
1. Normalization and simplification cannot handle cyclic types due to
the nature of their implementation.
2. Normalization can't tell when two tables or functions are equivalent,
but simplification theoretically can albeit not implemented.
3. Normalization requires deep normalization for inhabitance check,
whereas simplification would've returned the `never` type itself
indicating uninhabited.
4. Simplification requires constraint ordering to have perfect timing to
simplify.
5. Adding a rewrite rule requires implementing it twice, once in
simplification and once again in normalization with completely different
code design making it hard to verify that their behavior is materially
equivalent.
6. In cases where we must cache for performance, two different types
that are isomorphic have different cache entries resulting in cache
misses.
7. Type family reduction can handle cyclic type families, but only if
the cycle is not obscured by a different type family instance. (`t1
where t1 = union<number, add<t1, number>>` is irreducible)
I think we're getting the point!
---
Currently the implementation is missing a few features that makes
e-graphs actually useful. Those will be coming in a future PR.
1. Pattern matching,
6. Applying rewrites,
7. Rewrite until saturation, and
8. Extracting the best e-node according to some cost function.
2024-07-17 01:35:20 +08:00
if ( LIB MATCHES "Ast|Analysis|EqSat|Compiler" AND DEPENDS MATCHES "CodeGen|VM" )
2023-10-28 05:18:41 +08:00
message ( FATAL_ERROR ${ LIB } " is an offline component but it depends on one of the runtime components" )
endif ( )
if ( LIB MATCHES "Ast|Compiler" AND DEPENDS MATCHES "Analysis|Config" )
message ( FATAL_ERROR ${ LIB } " is a compiler component but it depends on one of the analysis components" )
endif ( )
endif ( )
endforeach ( )