libc/src/math/docs/add_math_function.md - rust-lang/llvm-project - Git at Google

 # How to add a new math function to LLVM-libc

 This document is to serve as a cookbook for adding a new math function
 implementation to LLVM libc.  To add a new function, apart from the actual
 implementation, one has to follow a few other steps to setup proper registration
 and shipping of the new function.  Each of these steps will be described in
 detail below.

 ## Registration

 To register the function's entry points for supported OSes and architectures,
 together with its specifications:

 - Add entry points `libc.src.math.func` to the following files:
 ```
   libc/config/linux/<arch>/entrypoints.txt
   libc/config/windows/entrypoints.txt
 ```
 - Add function specs to the file:
 ```
   libc/spec/stdc.td
 ```

 ## Implementation

 The function's actual implementation and its corresponding header should be
 added to the following locations:

 - Add `add_math_entrypoint_object(<func>)` to:
 ```
   libc/src/math/CMakeLists.txt
 ```
 - Add function declaration (under `__llvm_libc` namespace) to:
 ```
   libc/src/math/<func>.h
 ```
 - Add function definition to:
 ```
   libc/src/math/generic/<func>.cpp
 ```
 - Add the corresponding `add_entrypoint_object` to:
 ```
   libc/src/math/generic/CMakeLists.txt
 ```
 - Add architectural specific implementations to:
 ```
   libc/src/math/<arch>/<func>.cpp
 ```

 ### Floating point utility

 - Floating point utilities and math functions that are also used internally are
 located at:
 ```
   libc/src/__support/FPUtils
 ```
 - These are preferred to be included as header-only.
 - To manipulate bits of floating point numbers, use the template class
 `__llvm_libc::fputil::FPBits<>` in the header file:
 ```
   libc/src/__support/FPUtils/FPBits.h
 ```

 ## Testing

 ### MPFR utility

 In addition to the normal testing macros such as `EXPECT_EQ, ASSERT_THAT, ...`
 there are two special macros `ASSERT_MPFR_MATCH` and `EXPECT_MPFR_MATCH` to
 compare your outputs with the corresponding MPFR function.  In
 order for your new function to be supported by these two macros,
 the following files will need to be updated:

 - Add the function enum to `__llvm_libc::testing::mpfr::Operation` in the
 header file:
 ```
   libc/utils/MPFRWrapper/MPFRUtils.h
 ```
 - Add support for `func` in the `MPFRNumber` class and the corresponding link
 between the enum and its call to the file:
 ```
   libc/utils/MPFRWrapper/MPFRUtils.cpp
 ```

 ### Unit tests

 Besides the usual testing macros like `EXPECT_EQ, ASSERT_TRUE, ...` there are
 testing macros specifically used for floating point values, such as
 `EXPECT_FP_EQ, ASSERT_FP_LE, ...`

 - Add unit test to:
 ```
   libc/test/src/math/<func>_test.cpp
 ```
 - Add the corresponding entry point to:
 ```
   libc/test/src/math/CMakeLists.txt
 ```

 ### Exhaustive tests

 Exhaustive tests are long-running tests that are not included when you run
 `ninja check-libc`.  These exhaustive tests are added and manually run in
 order to find exceptional cases for your function's implementation.

 - Add an exhaustive test to:
 ```
   libc/test/src/math/exhaustive/<func>_test.cpp
 ```
 - Add the corresponding entry point to:
 ```
   libc/test/src/math/exhaustive/CMakeLists.txt
 ```
 - The template class `LlvmLibcExhaustiveMathTest` located at:
 ```
   libc/test/src/math/exhaustive/exhaustive_test.h
 ```
 can be used for conveniently parallelizing the exhaustive tests.

 ### Performance tests

 Performance tests compare your function's implementation with the system libc
 implementation (which is very often glibc).

 - Add a performance test to:
 ```
   libc/test/src/math/differential_testing/<func>_perf.cpp
 ```
 - Add the corresponding entry point to:
 ```
   libc/test/src/math/differential_testing/CMakeLists.txt
 ```

 ## Build and Run

 - Check out the LLVM source tree:
 ```
   $ git clone https://github.com/llvm/llvm-project.git
 ```

 - Setup projects with CMake:
 ```
   $ cd llvm-project
   $ mkdir build
   $ cd build
   $ cmake ../llvm -G Ninja \
   -DLLVM_ENABLE_PROJECTS="llvm;libc" \
   -DCMAKE_BUILD_TYPE=Debug \
   -DCMAKE_C_COMPILER=clang \
   -DCMAKE_CXX_COMPILER=clang++
 ```

 - Build the whole `libc`:
 ```
   $ ninja libc
 ```

 - Run all unit tests:
 ```
   $ ninja check-libc
 ```

 - Build and Run a specific unit test:
 ```
   $ ninja libc.test.src.math.<func>_test
   $ projects/libc/test/src/math/libc.test.src.math.<func>_test
 ```

 - Build and Run exhaustive test (might take hours to run):
 ```
   $ ninja libc.test.src.math.exhaustive.<func>_test
   $ projects/libc/test/src/math/exhaustive/libc.test.src.math.exhaustive.<func>_test
 ```

 - Build and Run performance test:
 ```
   $ ninja libc.test.src.math.differential_testing.<func>_perf
   $ projects/libc/test/src/math/differential_testing/libc.test.src.math.differential_testing.<func>_perf
   $ cat <func>_perf.log
 ```

 ## Code reviews

 We follow the code review process of LLVM with Phabricator:
 ```
   https://llvm.org/docs/Phabricator.html
 ```
	# How to add a new math function to LLVM-libc

	This document is to serve as a cookbook for adding a new math function
	implementation to LLVM libc. To add a new function, apart from the actual
	implementation, one has to follow a few other steps to setup proper registration
	and shipping of the new function. Each of these steps will be described in
	detail below.

	## Registration

	To register the function's entry points for supported OSes and architectures,
	together with its specifications:

	- Add entry points `libc.src.math.func` to the following files:
	```
	libc/config/linux/<arch>/entrypoints.txt
	libc/config/windows/entrypoints.txt
	```
	- Add function specs to the file:
	```
	libc/spec/stdc.td
	```

	## Implementation

	The function's actual implementation and its corresponding header should be
	added to the following locations:

	- Add `add_math_entrypoint_object(<func>)` to:
	```
	libc/src/math/CMakeLists.txt
	```
	- Add function declaration (under `__llvm_libc` namespace) to:
	```
	libc/src/math/<func>.h
	```
	- Add function definition to:
	```
	libc/src/math/generic/<func>.cpp
	```
	- Add the corresponding `add_entrypoint_object` to:
	```
	libc/src/math/generic/CMakeLists.txt
	```
	- Add architectural specific implementations to:
	```
	libc/src/math/<arch>/<func>.cpp
	```

	### Floating point utility

	- Floating point utilities and math functions that are also used internally are
	located at:
	```
	libc/src/__support/FPUtils
	```
	- These are preferred to be included as header-only.
	- To manipulate bits of floating point numbers, use the template class
	`__llvm_libc::fputil::FPBits<>` in the header file:
	```
	libc/src/__support/FPUtils/FPBits.h
	```

	## Testing

	### MPFR utility

	In addition to the normal testing macros such as `EXPECT_EQ, ASSERT_THAT, ...`
	there are two special macros `ASSERT_MPFR_MATCH` and `EXPECT_MPFR_MATCH` to
	compare your outputs with the corresponding MPFR function. In
	order for your new function to be supported by these two macros,
	the following files will need to be updated:

	- Add the function enum to `__llvm_libc::testing::mpfr::Operation` in the
	header file:
	```
	libc/utils/MPFRWrapper/MPFRUtils.h
	```
	- Add support for `func` in the `MPFRNumber` class and the corresponding link
	between the enum and its call to the file:
	```
	libc/utils/MPFRWrapper/MPFRUtils.cpp
	```

	### Unit tests

	Besides the usual testing macros like `EXPECT_EQ, ASSERT_TRUE, ...` there are
	testing macros specifically used for floating point values, such as
	`EXPECT_FP_EQ, ASSERT_FP_LE, ...`

	- Add unit test to:
	```
	libc/test/src/math/<func>_test.cpp
	```
	- Add the corresponding entry point to:
	```
	libc/test/src/math/CMakeLists.txt
	```

	### Exhaustive tests

	Exhaustive tests are long-running tests that are not included when you run
	`ninja check-libc`. These exhaustive tests are added and manually run in
	order to find exceptional cases for your function's implementation.

	- Add an exhaustive test to:
	```
	libc/test/src/math/exhaustive/<func>_test.cpp
	```
	- Add the corresponding entry point to:
	```
	libc/test/src/math/exhaustive/CMakeLists.txt
	```
	- The template class `LlvmLibcExhaustiveMathTest` located at:
	```
	libc/test/src/math/exhaustive/exhaustive_test.h
	```
	can be used for conveniently parallelizing the exhaustive tests.

	### Performance tests

	Performance tests compare your function's implementation with the system libc
	implementation (which is very often glibc).

	- Add a performance test to:
	```
	libc/test/src/math/differential_testing/<func>_perf.cpp
	```
	- Add the corresponding entry point to:
	```
	libc/test/src/math/differential_testing/CMakeLists.txt
	```

	## Build and Run

	- Check out the LLVM source tree:
	```
	$ git clone https://github.com/llvm/llvm-project.git
	```

	- Setup projects with CMake:
	```
	$ cd llvm-project
	$ mkdir build
	$ cd build
	$ cmake ../llvm -G Ninja \
	-DLLVM_ENABLE_PROJECTS="llvm;libc" \
	-DCMAKE_BUILD_TYPE=Debug \
	-DCMAKE_C_COMPILER=clang \
	-DCMAKE_CXX_COMPILER=clang++
	```

	- Build the whole `libc`:
	```
	$ ninja libc
	```

	- Run all unit tests:
	```
	$ ninja check-libc
	```

	- Build and Run a specific unit test:
	```
	$ ninja libc.test.src.math.<func>_test
	$ projects/libc/test/src/math/libc.test.src.math.<func>_test
	```

	- Build and Run exhaustive test (might take hours to run):
	```
	$ ninja libc.test.src.math.exhaustive.<func>_test
	$ projects/libc/test/src/math/exhaustive/libc.test.src.math.exhaustive.<func>_test
	```

	- Build and Run performance test:
	```
	$ ninja libc.test.src.math.differential_testing.<func>_perf
	$ projects/libc/test/src/math/differential_testing/libc.test.src.math.differential_testing.<func>_perf
	$ cat <func>_perf.log
	```

	## Code reviews

	We follow the code review process of LLVM with Phabricator:
	```
	https://llvm.org/docs/Phabricator.html
	```