CMake/Modules/FindCUDAToolkit.cmake
2020-03-10 13:27:16 -04:00

871 lines
28 KiB
CMake

# Distributed under the OSI-approved BSD 3-Clause License. See accompanying
# file Copyright.txt or https://cmake.org/licensing for details.
#[=======================================================================[.rst:
FindCUDAToolkit
---------------
This script locates the NVIDIA CUDA toolkit and the associated libraries, but
does not require the ``CUDA`` language be enabled for a given project. This
module does not search for the NVIDIA CUDA Samples.
Search Behavior
^^^^^^^^^^^^^^^
Finding the CUDA Toolkit requires finding the ``nvcc`` executable, which is
searched for in the following order:
1. If the ``CUDA`` language has been enabled we will use the directory
containing the compiler as the first search location for ``nvcc``.
2. If the ``CUDAToolkit_ROOT`` cmake configuration variable (e.g.,
``-DCUDAToolkit_ROOT=/some/path``) *or* environment variable is defined, it
will be searched. If both an environment variable **and** a
configuration variable are specified, the *configuration* variable takes
precedence.
The directory specified here must be such that the executable ``nvcc`` can be
found underneath the directory specified by ``CUDAToolkit_ROOT``. If
``CUDAToolkit_ROOT`` is specified, but no ``nvcc`` is found underneath, this
package is marked as **not** found. No subsequent search attempts are
performed.
3. If the CUDA_PATH environment variable is defined, it will be searched.
4. The user's path is searched for ``nvcc`` using :command:`find_program`. If
this is found, no subsequent search attempts are performed. Users are
responsible for ensuring that the first ``nvcc`` to show up in the path is
the desired path in the event that multiple CUDA Toolkits are installed.
5. On Unix systems, if the symbolic link ``/usr/local/cuda`` exists, this is
used. No subsequent search attempts are performed. No default symbolic link
location exists for the Windows platform.
6. The platform specific default install locations are searched. If exactly one
candidate is found, this is used. The default CUDA Toolkit install locations
searched are:
+-------------+-------------------------------------------------------------+
| Platform | Search Pattern |
+=============+=============================================================+
| macOS | ``/Developer/NVIDIA/CUDA-X.Y`` |
+-------------+-------------------------------------------------------------+
| Other Unix | ``/usr/local/cuda-X.Y`` |
+-------------+-------------------------------------------------------------+
| Windows | ``C:\Program Files\NVIDIA GPU Computing Toolkit\CUDA\vX.Y`` |
+-------------+-------------------------------------------------------------+
Where ``X.Y`` would be a specific version of the CUDA Toolkit, such as
``/usr/local/cuda-9.0`` or
``C:\Program Files\NVIDIA GPU Computing Toolkit\CUDA\v9.0``
.. note::
When multiple CUDA Toolkits are installed in the default location of a
system (e.g., both ``/usr/local/cuda-9.0`` and ``/usr/local/cuda-10.0``
exist but the ``/usr/local/cuda`` symbolic link does **not** exist), this
package is marked as **not** found.
There are too many factors involved in making an automatic decision in
the presence of multiple CUDA Toolkits being installed. In this
situation, users are encouraged to either (1) set ``CUDAToolkit_ROOT`` or
(2) ensure that the correct ``nvcc`` executable shows up in ``$PATH`` for
:command:`find_program` to find.
Options
^^^^^^^
``VERSION``
If specified, describes the version of the CUDA Toolkit to search for.
``REQUIRED``
If specified, configuration will error if a suitable CUDA Toolkit is not
found.
``QUIET``
If specified, the search for a suitable CUDA Toolkit will not produce any
messages.
``EXACT``
If specified, the CUDA Toolkit is considered found only if the exact
``VERSION`` specified is recovered.
Imported targets
^^^^^^^^^^^^^^^^
An :ref:`imported target <Imported targets>` named ``CUDA::toolkit`` is provided.
This module defines :prop_tgt:`IMPORTED` targets for each
of the following libraries that are part of the CUDAToolkit:
- :ref:`CUDA Runtime Library<cuda_toolkit_rt_lib>`
- :ref:`CUDA Driver Library<cuda_toolkit_driver_lib>`
- :ref:`cuBLAS<cuda_toolkit_cuBLAS>`
- :ref:`cuFFT<cuda_toolkit_cuFFT>`
- :ref:`cuRAND<cuda_toolkit_cuRAND>`
- :ref:`cuSOLVER<cuda_toolkit_cuSOLVER>`
- :ref:`cuSPARSE<cuda_toolkit_cuSPARSE>`
- :ref:`cuPTI<cuda_toolkit_cupti>`
- :ref:`NPP<cuda_toolkit_NPP>`
- :ref:`nvBLAS<cuda_toolkit_nvBLAS>`
- :ref:`nvGRAPH<cuda_toolkit_nvGRAPH>`
- :ref:`nvJPEG<cuda_toolkit_nvJPEG>`
- :ref:`nvidia-ML<cuda_toolkit_nvML>`
- :ref:`nvRTC<cuda_toolkit_nvRTC>`
- :ref:`nvToolsExt<cuda_toolkit_nvToolsExt>`
- :ref:`OpenCL<cuda_toolkit_opencl>`
- :ref:`cuLIBOS<cuda_toolkit_cuLIBOS>`
.. _`cuda_toolkit_rt_lib`:
CUDA Runtime Library
""""""""""""""""""""
The CUDA Runtime library (cudart) are what most applications will typically
need to link against to make any calls such as `cudaMalloc`, and `cudaFree`.
Targets Created:
- ``CUDA::cudart``
- ``CUDA::cudart_static``
.. _`cuda_toolkit_driver_lib`:
CUDA Driver Library
""""""""""""""""""""
The CUDA Driver library (cuda) are used by applications that use calls
such as `cuMemAlloc`, and `cuMemFree`. This is generally used by advanced
Targets Created:
- ``CUDA::cuda_driver``
- ``CUDA::cuda_driver``
.. _`cuda_toolkit_cuBLAS`:
cuBLAS
""""""
The `cuBLAS <https://docs.nvidia.com/cuda/cublas/index.html>`_ library.
Targets Created:
- ``CUDA::cublas``
- ``CUDA::cublas_static``
.. _`cuda_toolkit_cuFFT`:
cuFFT
"""""
The `cuFFT <https://docs.nvidia.com/cuda/cufft/index.html>`_ library.
Targets Created:
- ``CUDA::cufft``
- ``CUDA::cufftw``
- ``CUDA::cufft_static``
- ``CUDA::cufftw_static``
cuRAND
""""""
The `cuRAND <https://docs.nvidia.com/cuda/curand/index.html>`_ library.
Targets Created:
- ``CUDA::curand``
- ``CUDA::curand_static``
.. _`cuda_toolkit_cuSOLVER`:
cuSOLVER
""""""""
The `cuSOLVER <https://docs.nvidia.com/cuda/cusolver/index.html>`_ library.
Targets Created:
- ``CUDA::cusolver``
- ``CUDA::cusolver_static``
.. _`cuda_toolkit_cuSPARSE`:
cuSPARSE
""""""""
The `cuSPARSE <https://docs.nvidia.com/cuda/cusparse/index.html>`_ library.
Targets Created:
- ``CUDA::cusparse``
- ``CUDA::cusparse_static``
.. _`cuda_toolkit_cupti`:
cupti
"""""
The `NVIDIA CUDA Profiling Tools Interface <https://developer.nvidia.com/CUPTI>`_.
Targets Created:
- ``CUDA::cupti``
- ``CUDA::cupti_static``
.. _`cuda_toolkit_NPP`:
NPP
"""
The `NPP <https://docs.nvidia.com/cuda/npp/index.html>`_ libraries.
Targets Created:
- `nppc`:
- ``CUDA::nppc``
- ``CUDA::nppc_static``
- `nppial`: Arithmetic and logical operation functions in `nppi_arithmetic_and_logical_operations.h`
- ``CUDA::nppial``
- ``CUDA::nppial_static``
- `nppicc`: Color conversion and sampling functions in `nppi_color_conversion.h`
- ``CUDA::nppicc``
- ``CUDA::nppicc_static``
- `nppicom`: JPEG compression and decompression functions in `nppi_compression_functions.h`
- ``CUDA::nppicom``
- ``CUDA::nppicom_static``
- `nppidei`: Data exchange and initialization functions in `nppi_data_exchange_and_initialization.h`
- ``CUDA::nppidei``
- ``CUDA::nppidei_static``
- `nppif`: Filtering and computer vision functions in `nppi_filter_functions.h`
- ``CUDA::nppif``
- ``CUDA::nppif_static``
- `nppig`: Geometry transformation functions found in `nppi_geometry_transforms.h`
- ``CUDA::nppig``
- ``CUDA::nppig_static``
- `nppim`: Morphological operation functions found in `nppi_morphological_operations.h`
- ``CUDA::nppim``
- ``CUDA::nppim_static``
- `nppist`: Statistics and linear transform in `nppi_statistics_functions.h` and `nppi_linear_transforms.h`
- ``CUDA::nppist``
- ``CUDA::nppist_static``
- `nppisu`: Memory support functions in `nppi_support_functions.h`
- ``CUDA::nppisu``
- ``CUDA::nppisu_static``
- `nppitc`: Threshold and compare operation functions in `nppi_threshold_and_compare_operations.h`
- ``CUDA::nppitc``
- ``CUDA::nppitc_static``
- `npps`:
- ``CUDA::npps``
- ``CUDA::npps_static``
.. _`cuda_toolkit_nvBLAS`:
nvBLAS
""""""
The `nvBLAS <https://docs.nvidia.com/cuda/nvblas/index.html>`_ libraries.
This is a shared library only.
Targets Created:
- ``CUDA::nvblas``
.. _`cuda_toolkit_nvGRAPH`:
nvGRAPH
"""""""
The `nvGRAPH <https://docs.nvidia.com/cuda/nvgraph/index.html>`_ library.
Targets Created:
- ``CUDA::nvgraph``
- ``CUDA::nvgraph_static``
.. _`cuda_toolkit_nvJPEG`:
nvJPEG
""""""
The `nvJPEG <https://docs.nvidia.com/cuda/nvjpeg/index.html>`_ library.
Introduced in CUDA 10.
Targets Created:
- ``CUDA::nvjpeg``
- ``CUDA::nvjpeg_static``
.. _`cuda_toolkit_nvRTC`:
nvRTC
"""""
The `nvRTC <https://docs.nvidia.com/cuda/nvrtc/index.html>`_ (Runtime Compilation) library.
This is a shared library only.
Targets Created:
- ``CUDA::nvrtc``
.. _`cuda_toolkit_nvml`:
nvidia-ML
"""""""""
The `NVIDIA Management Library <https://developer.nvidia.com/nvidia-management-library-nvml>`_.
This is a shared library only.
Targets Created:
- ``CUDA::nvml``
.. _`cuda_toolkit_nvToolsExt`:
nvToolsExt
""""""""""
The `NVIDIA Tools Extension <https://docs.nvidia.com/gameworks/content/gameworkslibrary/nvtx/nvidia_tools_extension_library_nvtx.htm>`_.
This is a shared library only.
Targets Created:
- ``CUDA::nvToolsExt``
.. _`cuda_toolkit_opencl`:
OpenCL
""""""
The `NVIDIA OpenCL Library <https://developer.nvidia.com/opencl>`_.
This is a shared library only.
Targets Created:
- ``CUDA::OpenCL``
.. _`cuda_toolkit_cuLIBOS`:
cuLIBOS
"""""""
The cuLIBOS library is a backend thread abstraction layer library which is
static only. The ``CUDA::cublas_static``, ``CUDA::cusparse_static``,
``CUDA::cufft_static``, ``CUDA::curand_static``, and (when implemented) NPP
libraries all automatically have this dependency linked.
Target Created:
- ``CUDA::culibos``
**Note**: direct usage of this target by consumers should not be necessary.
.. _`cuda_toolkit_cuRAND`:
Result variables
^^^^^^^^^^^^^^^^
``CUDAToolkit_FOUND``
A boolean specifying whether or not the CUDA Toolkit was found.
``CUDAToolkit_VERSION``
The exact version of the CUDA Toolkit found (as reported by
``nvcc --version``).
``CUDAToolkit_VERSION_MAJOR``
The major version of the CUDA Toolkit.
``CUDAToolkit_VERSION_MAJOR``
The minor version of the CUDA Toolkit.
``CUDAToolkit_VERSION_PATCH``
The patch version of the CUDA Toolkit.
``CUDAToolkit_BIN_DIR``
The path to the CUDA Toolkit library directory that contains the CUDA
executable ``nvcc``.
``CUDAToolkit_INCLUDE_DIRS``
The path to the CUDA Toolkit ``include`` folder containing the header files
required to compile a project linking against CUDA.
``CUDAToolkit_LIBRARY_DIR``
The path to the CUDA Toolkit library directory that contains the CUDA
Runtime library ``cudart``.
``CUDAToolkit_TARGET_DIR``
The path to the CUDA Toolkit directory including the target architecture
when cross-compiling. When not cross-compiling this will be equivalant to
``CUDAToolkit_ROOT_DIR``.
``CUDAToolkit_NVCC_EXECUTABLE``
The path to the NVIDIA CUDA compiler ``nvcc``. Note that this path may
**not** be the same as
:variable:`CMAKE_CUDA_COMPILER <CMAKE_<LANG>_COMPILER>`. ``nvcc`` must be
found to determine the CUDA Toolkit version as well as determining other
features of the Toolkit. This variable is set for the convenience of
modules that depend on this one.
#]=======================================================================]
# NOTE: much of this was simply extracted from FindCUDA.cmake.
# James Bigler, NVIDIA Corp (nvidia.com - jbigler)
# Abe Stephens, SCI Institute -- http://www.sci.utah.edu/~abe/FindCuda.html
#
# Copyright (c) 2008 - 2009 NVIDIA Corporation. All rights reserved.
#
# Copyright (c) 2007-2009
# Scientific Computing and Imaging Institute, University of Utah
#
# This code is licensed under the MIT License. See the FindCUDA.cmake script
# for the text of the license.
# The MIT License
#
# License for the specific language governing rights and limitations under
# Permission is hereby granted, free of charge, to any person obtaining a
# copy of this software and associated documentation files (the "Software"),
# to deal in the Software without restriction, including without limitation
# the rights to use, copy, modify, merge, publish, distribute, sublicense,
# and/or sell copies of the Software, and to permit persons to whom the
# Software is furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included
# in all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
# OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
# THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
# FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
# DEALINGS IN THE SOFTWARE.
#
###############################################################################
if(CMAKE_CUDA_COMPILER_LOADED AND NOT CUDAToolkit_BIN_DIR)
get_filename_component(cuda_dir "${CMAKE_CUDA_COMPILER}" DIRECTORY)
# use the already detected cuda compiler
set(CUDAToolkit_BIN_DIR "${cuda_dir}" CACHE PATH "")
mark_as_advanced(CUDAToolkit_BIN_DIR)
unset(cuda_dir)
endif()
# Try language- or user-provided path first.
if(CUDAToolkit_BIN_DIR)
find_program(CUDAToolkit_NVCC_EXECUTABLE
NAMES nvcc nvcc.exe
PATHS ${CUDAToolkit_BIN_DIR}
NO_DEFAULT_PATH
)
endif()
# Search using CUDAToolkit_ROOT
find_program(CUDAToolkit_NVCC_EXECUTABLE
NAMES nvcc nvcc.exe
PATHS ENV CUDA_PATH
PATH_SUFFIXES bin
)
# If the user specified CUDAToolkit_ROOT but nvcc could not be found, this is an error.
if (NOT CUDAToolkit_NVCC_EXECUTABLE AND (DEFINED CUDAToolkit_ROOT OR DEFINED ENV{CUDAToolkit_ROOT}))
# Declare error messages now, print later depending on find_package args.
set(fail_base "Could not find nvcc executable in path specified by")
set(cuda_root_fail "${fail_base} CUDAToolkit_ROOT=${CUDAToolkit_ROOT}")
set(env_cuda_root_fail "${fail_base} environment variable CUDAToolkit_ROOT=$ENV{CUDAToolkit_ROOT}")
if (CUDAToolkit_FIND_REQUIRED)
if (DEFINED CUDAToolkit_ROOT)
message(FATAL_ERROR ${cuda_root_fail})
elseif (DEFINED ENV{CUDAToolkit_ROOT})
message(FATAL_ERROR ${env_cuda_root_fail})
endif()
else()
if (NOT CUDAToolkit_FIND_QUIETLY)
if (DEFINED CUDAToolkit_ROOT)
message(STATUS ${cuda_root_fail})
elseif (DEFINED ENV{CUDAToolkit_ROOT})
message(STATUS ${env_cuda_root_fail})
endif()
endif()
set(CUDAToolkit_FOUND FALSE)
unset(fail_base)
unset(cuda_root_fail)
unset(env_cuda_root_fail)
return()
endif()
endif()
# CUDAToolkit_ROOT cmake / env variable not specified, try platform defaults.
#
# - Linux: /usr/local/cuda-X.Y
# - macOS: /Developer/NVIDIA/CUDA-X.Y
# - Windows: C:\Program Files\NVIDIA GPU Computing Toolkit\CUDA\vX.Y
#
# We will also search the default symlink location /usr/local/cuda first since
# if CUDAToolkit_ROOT is not specified, it is assumed that the symlinked
# directory is the desired location.
if (NOT CUDAToolkit_NVCC_EXECUTABLE)
if (UNIX)
if (NOT APPLE)
set(platform_base "/usr/local/cuda-")
else()
set(platform_base "/Developer/NVIDIA/CUDA-")
endif()
else()
set(platform_base "C:\\Program Files\\NVIDIA GPU Computing Toolkit\\CUDA\\v")
endif()
# Build out a descending list of possible cuda installations, e.g.
file(GLOB possible_paths "${platform_base}*")
# Iterate the glob results and create a descending list.
set(possible_versions)
foreach (p ${possible_paths})
# Extract version number from end of string
string(REGEX MATCH "[0-9][0-9]?\\.[0-9]$" p_version ${p})
if (IS_DIRECTORY ${p} AND p_version)
list(APPEND possible_versions ${p_version})
endif()
endforeach()
# Cannot use list(SORT) because that is alphabetical, we need numerical.
# NOTE: this is not an efficient sorting strategy. But even if a user had
# every possible version of CUDA installed, this wouldn't create any
# significant overhead.
set(versions)
foreach (v ${possible_versions})
list(LENGTH versions num_versions)
# First version, nothing to compare with so just append.
if (num_versions EQUAL 0)
list(APPEND versions ${v})
else()
# Loop through list. Insert at an index when comparison is
# VERSION_GREATER since we want a descending list. Duplicates will not
# happen since this came from a glob list of directories.
set(i 0)
set(early_terminate FALSE)
while (i LESS num_versions)
list(GET versions ${i} curr)
if (v VERSION_GREATER curr)
list(INSERT versions ${i} ${v})
set(early_terminate TRUE)
break()
endif()
math(EXPR i "${i} + 1")
endwhile()
# If it did not get inserted, place it at the end.
if (NOT early_terminate)
list(APPEND versions ${v})
endif()
endif()
endforeach()
# With a descending list of versions, populate possible paths to search.
set(search_paths)
foreach (v ${versions})
list(APPEND search_paths "${platform_base}${v}")
endforeach()
# Force the global default /usr/local/cuda to the front on Unix.
if (UNIX)
list(INSERT search_paths 0 "/usr/local/cuda")
endif()
# Now search for nvcc again using the platform default search paths.
find_program(CUDAToolkit_NVCC_EXECUTABLE
NAMES nvcc nvcc.exe
PATHS ${search_paths}
PATH_SUFFIXES bin
)
# We are done with these variables now, cleanup for caller.
unset(platform_base)
unset(possible_paths)
unset(possible_versions)
unset(versions)
unset(i)
unset(early_terminate)
unset(search_paths)
if (NOT CUDAToolkit_NVCC_EXECUTABLE)
if (CUDAToolkit_FIND_REQUIRED)
message(FATAL_ERROR "Could not find nvcc, please set CUDAToolkit_ROOT.")
elseif(NOT CUDAToolkit_FIND_QUIETLY)
message(STATUS "Could not find nvcc, please set CUDAToolkit_ROOT.")
endif()
set(CUDAToolkit_FOUND FALSE)
return()
endif()
endif()
if(NOT CUDAToolkit_BIN_DIR AND CUDAToolkit_NVCC_EXECUTABLE)
get_filename_component(cuda_dir "${CUDAToolkit_NVCC_EXECUTABLE}" DIRECTORY)
set(CUDAToolkit_BIN_DIR "${cuda_dir}" CACHE PATH "" FORCE)
mark_as_advanced(CUDAToolkit_BIN_DIR)
unset(cuda_dir)
endif()
if(CUDAToolkit_NVCC_EXECUTABLE AND
CUDAToolkit_NVCC_EXECUTABLE STREQUAL CMAKE_CUDA_COMPILER)
# Need to set these based off the already computed CMAKE_CUDA_COMPILER_VERSION value
# This if statement will always match, but is used to provide variables for MATCH 1,2,3...
if(CMAKE_CUDA_COMPILER_VERSION MATCHES [=[([0-9]+)\.([0-9]+)\.([0-9]+)]=])
set(CUDAToolkit_VERSION_MAJOR "${CMAKE_MATCH_1}")
set(CUDAToolkit_VERSION_MINOR "${CMAKE_MATCH_2}")
set(CUDAToolkit_VERSION_PATCH "${CMAKE_MATCH_3}")
set(CUDAToolkit_VERSION "${CMAKE_CUDA_COMPILER_VERSION}")
endif()
else()
# Compute the version by invoking nvcc
execute_process (COMMAND ${CUDAToolkit_NVCC_EXECUTABLE} "--version" OUTPUT_VARIABLE NVCC_OUT)
if(NVCC_OUT MATCHES [=[ V([0-9]+)\.([0-9]+)\.([0-9]+)]=])
set(CUDAToolkit_VERSION_MAJOR "${CMAKE_MATCH_1}")
set(CUDAToolkit_VERSION_MINOR "${CMAKE_MATCH_2}")
set(CUDAToolkit_VERSION_PATCH "${CMAKE_MATCH_3}")
set(CUDAToolkit_VERSION "${CMAKE_MATCH_1}.${CMAKE_MATCH_2}.${CMAKE_MATCH_3}")
endif()
unset(NVCC_OUT)
endif()
get_filename_component(CUDAToolkit_ROOT_DIR ${CUDAToolkit_BIN_DIR} DIRECTORY ABSOLUTE)
# Handle cross compilation
if(CMAKE_CROSSCOMPILING)
if(CMAKE_SYSTEM_PROCESSOR STREQUAL "armv7-a")
# Support for NVPACK
set (CUDAToolkit_TARGET_NAME "armv7-linux-androideabi")
elseif(CMAKE_SYSTEM_PROCESSOR MATCHES "arm")
# Support for arm cross compilation
set(CUDAToolkit_TARGET_NAME "armv7-linux-gnueabihf")
elseif(CMAKE_SYSTEM_PROCESSOR MATCHES "aarch64")
# Support for aarch64 cross compilation
if (ANDROID_ARCH_NAME STREQUAL "arm64")
set(CUDAToolkit_TARGET_NAME "aarch64-linux-androideabi")
else()
set(CUDAToolkit_TARGET_NAME "aarch64-linux")
endif (ANDROID_ARCH_NAME STREQUAL "arm64")
elseif(CMAKE_SYSTEM_PROCESSOR STREQUAL "x86_64")
set(CUDAToolkit_TARGET_NAME "x86_64-linux")
endif()
if (EXISTS "${CUDAToolkit_ROOT_DIR}/targets/${CUDAToolkit_TARGET_NAME}")
set(CUDAToolkit_TARGET_DIR "${CUDAToolkit_ROOT_DIR}/targets/${CUDAToolkit_TARGET_NAME}")
# add known CUDA target root path to the set of directories we search for programs, libraries and headers
list(PREPEND CMAKE_FIND_ROOT_PATH "${CUDAToolkit_TARGET_DIR}")
# Mark that we need to pop the root search path changes after we have
# found all cuda libraries so that searches for our cross-compilation
# libraries work when another cuda sdk is in CMAKE_PREFIX_PATH or
# PATh
set(_CUDAToolkit_Pop_ROOT_PATH True)
endif()
else()
# Not cross compiling
set(CUDAToolkit_TARGET_DIR "${CUDAToolkit_ROOT_DIR}")
# Now that we have the real ROOT_DIR, find components inside it.
list(APPEND CMAKE_PREFIX_PATH ${CUDAToolkit_ROOT_DIR})
# Mark that we need to pop the prefix path changes after we have
# found the cudart library.
set(_CUDAToolkit_Pop_Prefix True)
endif()
# Find the include/ directory
find_path(CUDAToolkit_INCLUDE_DIR
NAMES cuda_runtime.h
)
# And find the CUDA Runtime Library libcudart
find_library(CUDA_CUDART
NAMES cudart
PATH_SUFFIXES lib64 lib64/stubs lib/x64
)
if (NOT CUDA_CUDART AND NOT CUDAToolkit_FIND_QUIETLY)
message(STATUS "Unable to find cudart library.")
endif()
unset(CUDAToolkit_ROOT_DIR)
if(_CUDAToolkit_Pop_Prefix)
list(REMOVE_AT CMAKE_PREFIX_PATH -1)
unset(_CUDAToolkit_Pop_Prefix)
endif()
#-----------------------------------------------------------------------------
# Perform version comparison and validate all required variables are set.
include(${CMAKE_CURRENT_LIST_DIR}/FindPackageHandleStandardArgs.cmake)
find_package_handle_standard_args(CUDAToolkit
REQUIRED_VARS
CUDAToolkit_INCLUDE_DIR
CUDA_CUDART
CUDAToolkit_NVCC_EXECUTABLE
VERSION_VAR
CUDAToolkit_VERSION
)
mark_as_advanced(CUDA_CUDART
CUDAToolkit_INCLUDE_DIR
CUDAToolkit_NVCC_EXECUTABLE
)
#-----------------------------------------------------------------------------
# Construct result variables
if(CUDAToolkit_FOUND)
set(CUDAToolkit_INCLUDE_DIRS ${CUDAToolkit_INCLUDE_DIR})
get_filename_component(CUDAToolkit_LIBRARY_DIR ${CUDA_CUDART} DIRECTORY ABSOLUTE)
endif()
#-----------------------------------------------------------------------------
# Construct import targets
if(CUDAToolkit_FOUND)
function(_CUDAToolkit_find_and_add_import_lib lib_name)
cmake_parse_arguments(arg "" "" "ALT;DEPS;EXTRA_PATH_SUFFIXES" ${ARGN})
set(search_names ${lib_name} ${arg_ALT})
find_library(CUDA_${lib_name}_LIBRARY
NAMES ${search_names}
HINTS ${CUDAToolkit_LIBRARY_DIR}
ENV CUDA_PATH
PATH_SUFFIXES nvidia/current lib64 lib64/stubs lib/x64 lib lib/stubs
${arg_EXTRA_PATH_SUFFIXES}
)
mark_as_advanced(CUDA_${lib_name}_LIBRARY)
if (NOT TARGET CUDA::${lib_name} AND CUDA_${lib_name}_LIBRARY)
add_library(CUDA::${lib_name} IMPORTED INTERFACE)
target_include_directories(CUDA::${lib_name} SYSTEM INTERFACE "${CUDAToolkit_INCLUDE_DIRS}")
target_link_libraries(CUDA::${lib_name} INTERFACE "${CUDA_${lib_name}_LIBRARY}")
foreach(dep ${arg_DEPS})
if(TARGET CUDA::${dep})
target_link_libraries(CUDA::${lib_name} INTERFACE CUDA::${dep})
endif()
endforeach()
endif()
endfunction()
if(NOT TARGET CUDA::toolkit)
add_library(CUDA::toolkit IMPORTED INTERFACE)
target_include_directories(CUDA::toolkit SYSTEM INTERFACE "${CUDAToolkit_INCLUDE_DIRS}")
target_link_directories(CUDA::toolkit INTERFACE "${CUDAToolkit_LIBRARY_DIR}")
endif()
_CUDAToolkit_find_and_add_import_lib(cuda_driver ALT cuda)
_CUDAToolkit_find_and_add_import_lib(cudart)
_CUDAToolkit_find_and_add_import_lib(cudart_static)
# setup dependencies that are required for cudart_static when building
# on linux. These are generally only required when using the CUDA toolkit
# when CUDA language is disabled
if(NOT TARGET CUDA::cudart_static_deps
AND TARGET CUDA::cudart_static)
add_library(CUDA::cudart_static_deps IMPORTED INTERFACE)
target_link_libraries(CUDA::cudart_static INTERFACE CUDA::cudart_static_deps)
if(UNIX AND (CMAKE_C_COMPILER OR CMAKE_CXX_COMPILER))
find_package(Threads REQUIRED)
target_link_libraries(CUDA::cudart_static_deps INTERFACE Threads::Threads ${CMAKE_DL_LIBS})
endif()
if(UNIX AND NOT APPLE)
# On Linux, you must link against librt when using the static cuda runtime.
find_library(CUDAToolkit_rt_LIBRARY rt)
mark_as_advanced(CUDAToolkit_rt_LIBRARY)
if(NOT CUDAToolkit_rt_LIBRARY)
message(WARNING "Could not find librt library, needed by CUDA::cudart_static")
else()
target_link_libraries(CUDA::cudart_static_deps INTERFACE ${CUDAToolkit_rt_LIBRARY})
endif()
endif()
endif()
_CUDAToolkit_find_and_add_import_lib(culibos) # it's a static library
foreach (cuda_lib cublas cufft curand cusparse nppc nvjpeg)
_CUDAToolkit_find_and_add_import_lib(${cuda_lib})
_CUDAToolkit_find_and_add_import_lib(${cuda_lib}_static DEPS culibos)
endforeach()
# cuFFTW depends on cuFFT
_CUDAToolkit_find_and_add_import_lib(cufftw DEPS cufft)
_CUDAToolkit_find_and_add_import_lib(cufftw DEPS cufft_static)
# cuSOLVER depends on cuBLAS, and cuSPARSE
_CUDAToolkit_find_and_add_import_lib(cusolver DEPS cublas cusparse)
_CUDAToolkit_find_and_add_import_lib(cusolver_static DEPS cublas_static cusparse_static culibos)
# nvGRAPH depends on cuRAND, and cuSOLVER.
_CUDAToolkit_find_and_add_import_lib(nvgraph DEPS curand cusolver)
_CUDAToolkit_find_and_add_import_lib(nvgraph_static DEPS curand_static cusolver_static)
# Process the majority of the NPP libraries.
foreach (cuda_lib nppial nppicc nppidei nppif nppig nppim nppist nppitc npps nppicom nppisu)
_CUDAToolkit_find_and_add_import_lib(${cuda_lib} DEPS nppc)
_CUDAToolkit_find_and_add_import_lib(${cuda_lib}_static DEPS nppc_static)
endforeach()
_CUDAToolkit_find_and_add_import_lib(cupti
EXTRA_PATH_SUFFIXES ../extras/CUPTI/lib64/
../extras/CUPTI/lib/)
_CUDAToolkit_find_and_add_import_lib(cupti_static
EXTRA_PATH_SUFFIXES ../extras/CUPTI/lib64/
../extras/CUPTI/lib/)
_CUDAToolkit_find_and_add_import_lib(nvrtc DEPS cuda_driver)
_CUDAToolkit_find_and_add_import_lib(nvml ALT nvidia-ml nvml)
if(WIN32)
# nvtools can be installed outside the CUDA toolkit directory
# so prefer the NVTOOLSEXT_PATH windows only environment variable
# In addition on windows the most common name is nvToolsExt64_1
find_library(CUDA_nvToolsExt_LIBRARY
NAMES nvToolsExt64_1 nvToolsExt64 nvToolsExt
PATHS ENV NVTOOLSEXT_PATH
ENV CUDA_PATH
PATH_SUFFIXES lib/x64 lib
)
endif()
_CUDAToolkit_find_and_add_import_lib(nvToolsExt ALT nvToolsExt64)
_CUDAToolkit_find_and_add_import_lib(OpenCL)
endif()
if(_CUDAToolkit_Pop_ROOT_PATH)
list(REMOVE_AT CMAKE_FIND_ROOT_PATH 0)
unset(_CUDAToolkit_Pop_ROOT_PATH)
endif()