# Build System Description

The project uses CMake* build configuration.

The following controls are available during the configure stage:
```
TBB_TEST:BOOL - Enable testing (ON by default)
TBB_STRICT:BOOL - Treat compiler warnings as errors (ON by default)
TBB_SANITIZE:STRING - Sanitizer parameter, passed to compiler/linker
TBB_SIGNTOOL:FILEPATH - Tool for digital signing, used in post-install step for libraries if provided.
TBB_SIGNTOOL_ARGS:STRING - Additional arguments for TBB_SIGNTOOL, used if TBB_SIGNTOOL is set.
TBB_BUILD:BOOL - Enable Intel(R) oneAPI Threading Building Blocks (oneTBB) build (ON by default)
TBBMALLOC_BUILD:BOOL - Enable Intel(R) oneAPI Threading Building Blocks (oneTBB) memory allocator build (ON by default)
TBBMALLOC_PROXY_BUILD:BOOL - Enable Intel(R) oneAPI Threading Building Blocks (oneTBB) memory allocator proxy build (requires TBBMALLOC_BUILD. ON by default)
TBB4PY_BUILD:BOOL - Enable Intel(R) oneAPI Threading Building Blocks (oneTBB) Python module build (OFF by default)
TBB_CPF:BOOL - Enable preview features of the library (OFF by default)
TBB_INSTALL:BOOL - Enable installation (ON by default)
TBB_INSTALL_VARS:BOOL - Enable auto-generated vars installation(packages generated by `cpack` and `make install` will also include the vars script)(OFF by default)
TBB_VALGRIND_MEMCHECK:BOOL - Enable scan for memory leaks using Valgrind (OFF by default)
TBB_DISABLE_HWLOC_AUTOMATIC_SEARCH - Disable HWLOC automatic search by pkg-config tool (OFF by default)
TBB_ENABLE_IPO - Enable Interprocedural Optimization (IPO) during the compilation (ON by default)
TBB_BUILD_APPLE_FRAMEWORKS - Enable the Apple* frameworks instead of dylibs, only available on the Apple platform. (OFF by default)
```

## Configure, Build, and Test

### Preparation

To perform an out-of-source build, create a build directory and go there:

```bash
mkdir /tmp/my-build
cd /tmp/my-build
```

### Configure

```bash
cmake <options> <repo_root>
```

Some useful options:
- `-G <generator>` - specify particular project generator. See `cmake --help` for details.
- `-DCMAKE_BUILD_TYPE=Debug` - specify for Debug build. It is not applicable for multi-config generators, e.g., Microsoft* Visual Studio* generator.

#### TBBBind Library Configuration

> **_TIP:_** It is recommended to install the HWLOC* library. See [oneTBB documentation](https://oneapi-src.github.io/oneTBB/GSG/next_steps.html#hybrid-cpu-and-numa-support) for details.

The TBBbind library has three versions: `tbbbind`, `tbbbind_2_0`, and `tbbbind_2_5`. Each of these versions is linked with the corresponding HWLOC* library version: 
- `tbbbind` links with `HWLOC 1.11.x`
- `tbbbind_2_0` links with `HWLOC 2.1–2.4`
- `tbbbind_2_5` links with `HWLOC 2.5` and later

The search for a suitable version of the HWLOC library is enabled by default. If you want to use a specific version of the library, you can specify the path to it manually using the following CMake variables:

 - `CMAKE_HWLOC_<HWLOC_VER>_LIBRARY_PATH` - path to the corresponding HWLOC version shared library on Linux* OS or path to `.lib` file on Windows* OS
 - `CMAKE_HWLOC_<HWLOC_VER>_INCLUDE_PATH` - path to the corresponding HWLOC version including directory


---
**NOTE:** Automatic HWLOC searching requires CMake version 3.6 or higher.

---


Windows* OS requires an additional variable for correct TBBBind library building:
 - `CMAKE_HWLOC_<HWLOC_VER>_DLL_PATH` - path to the corresponding HWLOC version `.dll` file.

The `HWLOC_VER` substring used earlier can be replaced with one of the three values:
- `1_11` for the `tbbbind` library configuration
- `2` for the `tbbbind_2_0` library configuration
- `2_5` for the `tbbbind_2_5` library configuration

If you specify variables for several TBBBind versions, the building process for all of these versions is performed during a single build session.

---
**TIP**

Specify the `TBB_DISABLE_HWLOC_AUTOMATIC_SEARCH` to turn off the HWLOC library's automatic search.

---


### Build

```bash
cmake --build . <options>
```

Some useful options:
- `--target <target>` - specific target, "all" is the default.
- `--config <Release|Debug>` - build configuration, applicable only for multi-config generators, e.g., Visual Studio* generator.

The binaries are placed to `./<compiler-id>_<compiler-ver>_cxx<stdver>_<build-type>`. For example, `./gnu_4.8_cxx11_release`.

#### Build For 32-bit

* **Intel(R) Compiler**. Source Intel(R) C++ Compiler with `ia32` and build as usual.
* **MSVC**. Use switch for [generator](https://cmake.org/cmake/help/latest/manual/cmake-generators.7.html) (e.g., `-A Win32` for [VS2019](https://cmake.org/cmake/help/latest/generator/Visual%20Studio%2016%202019.html)) during the configuration stage and then build as usual.
* **GCC/Clang**. Specify `-m32` during the configuration. It can be `CXXFLAGS=-m32 cmake ..` or `cmake -DCMAKE_CXX_FLAGS=-m32 ..`
* For any other compiler, which builds for 64-bit by default, specify a 32-bit compiler key during the configuration as above.

#### Windows* OS-Specific Builds

---
**NOTE**

The following builds require CMake version 3.15 or higher. 

---

* **Dynamic linkage with C Runtime Library (CRT)**. The default behavior can be explicitly specified by setting `CMAKE_MSVC_RUNTIME_LIBRARY` to `MultiThreadedDLL` or `MultiThreadedDebugDLL`.
```bash
cmake ..  # dynamic linkage is used by default
```
```bash
cmake -DCMAKE_MSVC_RUNTIME_LIBRARY=MultiThreadedDLL ..
```
```bash
cmake -DCMAKE_MSVC_RUNTIME_LIBRARY=MultiThreadedDebugDLL -DCMAKE_BUILD_TYPE=Debug ..
```
* **Static linkage with CRT**. Set `CMAKE_MSVC_RUNTIME_LIBRARY` to `MultiThreaded` or `MultiThreadedDebug`.
```bash
cmake -DCMAKE_MSVC_RUNTIME_LIBRARY=MultiThreaded ..
```
```bash
cmake -DCMAKE_MSVC_RUNTIME_LIBRARY=MultiThreadedDebug -DCMAKE_BUILD_TYPE=Debug ..
```
* **Windows OS 10 Universal Windows application build**. Set `CMAKE_SYSTEM_NAME` to `WindowsStore` and `CMAKE_SYSTEM_VERSION` to `10.0`.

---
**NOTE**

Set `TBB_NO_APPCONTAINER` to `ON` to apply the `/APPCONTAINER:NO` option during the compilation (used for testing).

---

```bash
cmake -DCMAKE_SYSTEM_NAME:STRING=WindowsStore -DCMAKE_SYSTEM_VERSION:STRING=10.0 ..
```

* **Universal Windows OS Driver build**. Set `TBB_WINDOWS_DRIVER` to `ON` and use static linkage with CRT.

```bash
cmake -DTBB_WINDOWS_DRIVER=ON -DCMAKE_MSVC_RUNTIME_LIBRARY=MultiThreaded ..
```

#### Example

```bash
cmake -DCMAKE_CXX_COMPILER=icpc -DCMAKE_C_COMPILER=icc -DTBB_TEST=off -DCMAKE_HWLOC_1_11_LIBRARY_PATH=<path_to_hwloc_library_file>/libhwloc.so.15
-DCMAKE_HWLOC_1_11_INCLUDE_PATH=<path_to_hwloc_header_directory> -DCMAKE_INSTALL_PREFIX=<path_to_install_oneTBB>/oneTBB_install ..
make -j8 && make install
```

---
**NOTE**

The library path points to a file, while the include path points to a directory and not to ``hwloc.h``.

---

### Test

#### Build test
To build a test, use the default target ``all``:
```
cmake --build .
```

Or use a specific test target:
```
cmake --build . --target <test> # e.g. test_version
```

#### Run Test

You can run a test by using CTest:
```bash
ctest
```

Or by using the ``test`` target:
```bash
cmake --build . --target test # currently does not work on Windows* OS
```

## Installation
See [Installation from Sources](../INSTALL.md) to learn how to install oneTBB. 

## Sanitizers - Configure, Build, and Run

```bash
mkdir build
cd build
cmake -DTBB_SANITIZE=thread ..  # or -DTBB_SANITIZE=memory or any other sanitizer
make -j
ctest -V
```

## Valgrind Memcheck - Configure, Build, and Run

### Prerequisites
* Valgrind tool executable
### Example
```bash
mkdir build
cd build
cmake -DTBB_VALGRIND_MEMCHECK=ON ..
make -j memcheck-<test name> # or memcheck-all to scan all tests 
```

## Test Specification

Use Doxygen* to generate oneTBB test specification:

```bash
mkdir build
cd build
cmake -DTBB_TEST_SPEC=ON ..
make test_spec
```

## TBBConfig - Integration of Binary Packages

It is a configuration module that is used for the integration of prebuilt oneTBB. It consists of two files (``TBBConfig.cmake`` and ``TBBConfigVersion.cmake``) and can be used via the [find_package](https://cmake.org/cmake/help/latest/command/find_package.html) function.

To use this module in your CMake project:
 1. Let CMake know where to search for TBBConfig, e.g. specify the location of ``TBBConfig.cmake`` in `TBB_DIR` (for more details about search paths, see [find_package](https://cmake.org/cmake/help/latest/command/find_package.html)).
 2. Use [find_package](https://cmake.org/cmake/help/latest/command/find_package.html) to find oneTBB.
 3. Use provided variables and/or imported targets (described below) to work with the found oneTBB.

Example:

```cmake
add_executable(foo foo.cpp)
find_package(TBB)
target_link_libraries(foo TBB::tbb)
```

oneTBB components can be passed to [find_package](https://cmake.org/cmake/help/latest/command/find_package.html) after keyword ``COMPONENTS`` or ``REQUIRED``.
Use basic names of components (`tbb`, `tbbmalloc`, etc.).

If components are not specified, then the default set is used: `tbb`, `tbbmalloc`, and ``tbbmalloc_proxy``.

If `tbbmalloc_proxy` is requested, the `tbbmalloc` component is also added and set as a dependency for `tbbmalloc_proxy`.

TBBConfig creates [imported targets](https://cmake.org/cmake/help/latest/manual/cmake-buildsystem.7.html#imported-targets>) as
shared libraries using the following format: `TBB::<component>`. For example, `TBB::tbb` or `TBB::tbbmalloc`.

To search only for release oneTBB version, set `TBB_FIND_RELEASE_ONLY` to `TRUE` before calling `find_package`. This variable helps to avoid simultaneous linkage of release and debug oneTBB versions when CMake configuration is `Debug,` but a third-party component depends on the release oneTBB version.

Variables set during TBB configuration:

Variable | Description
--- | ---
`TBB_FOUND`             | oneTBB is found
`TBB_<component>_FOUND` | Specific oneTBB component is found
`TBB_VERSION`           | oneTBB version (format: `<major>.<minor>.<patch>.<tweak>`)
`TBB_IMPORTED_TARGETS`  | All created oneTBB imported targets (not supported for builds from source code)

Starting from [oneTBB 2021.1](https://github.com/oneapi-src/oneTBB/releases/tag/v2021.1), GitHub* release TBBConfig files in the binary packages are located under `<tbb-root>/lib/cmake/TBB`.
For example, `TBB_DIR` should be set to `<tbb-root>/lib/cmake/TBB`.

TBBConfig files are automatically created during the build from source code and can be installed together with the library.
Also, oneTBB provides a helper function that creates TBBConfig files from predefined templates. See `tbb_generate_config` in `cmake/config_generation.cmake`.

## oneTBB Python Module Support
The `TBB4PY_BUILD` Cmake option provides the ability to build a Python module for oneTBB.

### Targets:
 - `irml` - build IPC RML server
 - `python_build` - build oneTBB module for Python

`python_build` target requirements:
 - Python version 3.5 or newer
 - SWIG version 3.0.6 or newer

## CMake Files

### Compile and Link Options

Compile and link options may be specific for certain compilers. This part is handled in `cmake/compilers/*` files.

Options in TBB CMake are handled via variables in two ways for convenience:

*  by options group
*  by the specific option

#### Options Group

Naming convention is the following: `TBB_<SCOPE>_<STAGE>_<CATEGORY>`, where:

*  `<SCOPE>` can be:
    *  `LIB` - options applied during libraries build.
    *  `TEST` - options applied during test build.
    *  `BENCH` - options applied during benchmarks build.
    *  `COMMON` - options applied during all (libraries, test, benchmarks) builds.
*  `<STAGE>` can be:
    *  `COMPILE` - options applied during the compilation.
    *  `LINK` - options applied during the linkage.
*  `<CATEGORY>` can be:
    *  `FLAGS` - list of flags
    *  `LIBS` - list of libraries

*Examples*

Variable | Description
--- | ---
`TBB_COMMON_COMPILE_FLAGS` | Applied to libraries, tests, and benchmarks as compile options
`TBB_LIB_LINK_FLAGS`       | Applied to libraries as link options
`TBB_LIB_LINK_LIBS `       | Applied to libraries as link libraries
`TBB_TEST_COMPILE_FLAGS`   | Applied to tests as compile options

Specify the `LINK` options prefixed with a dash(-) for MSVC(Visual Studio) compiler with CMake < 3.13 to avoid issues caused by `target_link_libraries` CMake command usage.

#### Specific Options

If the option is used only in part of the places (library, tests, benchmarks) and adding this option to the group of other options is not possible,
then the option must be named using common sense.

Warning suppressions should be added to the `TBB_WARNING_SUPPRESS` variable, which is applied during the compilation of libraries, tests, and benchmarks.
Additional warnings should be added to the `TBB_WARNING_TEST_FLAGS` variable, which is applied during the compilation of tests.