# CMake file `unity_build` is used to handle Unity Build compilation. include(unity_build) set(PART_CUDA_KERNEL_FILES) function(op_library TARGET) # op_library is a function to create op library. The interface is same as # cc_library. But it handle split GPU/CPU code and link some common library # for ops. set(cc_srcs) set(cu_srcs) set(hip_srcs) set(cu_cc_srcs) set(hip_cc_srcs) set(xpu_cc_srcs) set(npu_cc_srcs) set(cudnn_cu_cc_srcs) set(miopen_cu_cc_srcs) set(cudnn_cu_srcs) set(miopen_cu_srcs) set(CUDNN_FILE) set(MIOPEN_FILE) set(mkldnn_cc_srcs) set(MKLDNN_FILE) set(op_common_deps operator op_registry math_function layer common_infer_shape_functions) if (WITH_ASCEND_CL) set(op_common_deps ${op_common_deps} npu_op_runner) endif() # Option `UNITY` is used to specify that operator `TARGET` will compiles with Unity Build. set(options UNITY) set(oneValueArgs "") set(multiValueArgs SRCS DEPS) set(pybind_flag 0) cmake_parse_arguments(op_library "${options}" "${oneValueArgs}" "${multiValueArgs}" ${ARGN}) list(LENGTH op_library_SRCS op_library_SRCS_len) if (${op_library_SRCS_len} EQUAL 0) if (EXISTS ${CMAKE_CURRENT_SOURCE_DIR}/${TARGET}.cc) list(APPEND cc_srcs ${TARGET}.cc) endif() if(WITH_GPU) if (EXISTS ${CMAKE_CURRENT_SOURCE_DIR}/${TARGET}.cu.cc) list(APPEND cu_cc_srcs ${TARGET}.cu.cc) endif() if (EXISTS ${CMAKE_CURRENT_SOURCE_DIR}/${TARGET}.cu) list(APPEND cu_srcs ${TARGET}.cu) endif() if (WITH_NV_JETSON) list(REMOVE_ITEM cu_srcs "decode_jpeg_op.cu") endif() if (EXISTS ${CMAKE_CURRENT_SOURCE_DIR}/${TARGET}.part.cu) set(PART_CUDA_KERNEL_FILES ${CMAKE_CURRENT_SOURCE_DIR}/${TARGET}.part.cu ${PART_CUDA_KERNEL_FILES} PARENT_SCOPE) list(APPEND cu_srcs ${CMAKE_CURRENT_SOURCE_DIR}/${TARGET}.part.cu) endif() string(REPLACE "_op" "_cudnn_op" CUDNN_FILE "${TARGET}") if (EXISTS ${CMAKE_CURRENT_SOURCE_DIR}/${CUDNN_FILE}.cu.cc) list(APPEND cudnn_cu_cc_srcs ${CUDNN_FILE}.cu.cc) endif() if (EXISTS ${CMAKE_CURRENT_SOURCE_DIR}/${CUDNN_FILE}.cu) list(APPEND cudnn_cu_srcs ${CUDNN_FILE}.cu) endif() endif() if(WITH_ROCM) if (EXISTS ${CMAKE_CURRENT_SOURCE_DIR}/${TARGET}.cu.cc) list(APPEND hip_cc_srcs ${TARGET}.cu.cc) endif() if (EXISTS ${CMAKE_CURRENT_SOURCE_DIR}/${TARGET}.cu) list(APPEND hip_srcs ${TARGET}.cu) endif() if (EXISTS ${CMAKE_CURRENT_SOURCE_DIR}/${TARGET}.part.cu) set(PART_CUDA_KERNEL_FILES ${CMAKE_CURRENT_SOURCE_DIR}/${TARGET}.part.cu ${PART_CUDA_KERNEL_FILES} PARENT_SCOPE) list(APPEND hip_srcs ${CMAKE_CURRENT_SOURCE_DIR}/${TARGET}.part.cu) endif() string(REPLACE "_op" "_cudnn_op" MIOPEN_FILE "${TARGET}") if (EXISTS ${CMAKE_CURRENT_SOURCE_DIR}/${MIOPEN_FILE}.cu.cc) list(APPEND miopen_cu_cc_srcs ${MIOPEN_FILE}.cu.cc) endif() if (EXISTS ${CMAKE_CURRENT_SOURCE_DIR}/${MIOPEN_FILE}.cu) list(APPEND miopen_cu_srcs ${MIOPEN_FILE}.cu) endif() endif() if(WITH_MKLDNN) string(REPLACE "_op" "_mkldnn_op" MKLDNN_FILE "${TARGET}") if (EXISTS ${CMAKE_CURRENT_SOURCE_DIR}/mkldnn/${MKLDNN_FILE}.cc) list(APPEND mkldnn_cc_srcs mkldnn/${MKLDNN_FILE}.cc) endif() endif() if(WITH_XPU) string(REPLACE "_op" "_op_xpu" XPU_FILE "${TARGET}") if (EXISTS ${CMAKE_CURRENT_SOURCE_DIR}/${XPU_FILE}.cc) list(APPEND xpu_cc_srcs ${XPU_FILE}.cc) endif() endif() if(WITH_ASCEND_CL) string(REPLACE "_op" "_op_npu" NPU_FILE "${TARGET}") if (EXISTS ${CMAKE_CURRENT_SOURCE_DIR}/${NPU_FILE}.cc) list(APPEND npu_cc_srcs ${NPU_FILE}.cc) endif() endif() else() foreach(src ${op_library_SRCS}) if(WITH_ROCM AND ${src} MATCHES ".*_cudnn_op.cu$") list(APPEND miopen_cu_srcs ${src}) elseif(WITH_ROCM AND ${src} MATCHES ".*\\.cu$") list(APPEND hip_srcs ${src}) elseif(WITH_ROCM AND ${src} MATCHES ".*_cudnn_op.cu.cc$") list(APPEND miopen_cu_cc_srcs ${src}) elseif(WITH_ROCM AND ${src} MATCHES ".*\\.cu.cc$") list(APPEND hip_cc_srcs ${src}) elseif(${src} MATCHES ".*_cudnn_op.cu$") list(APPEND cudnn_cu_srcs ${src}) elseif (${src} MATCHES ".*\\.cu$") list(APPEND cu_srcs ${src}) elseif(${src} MATCHES ".*_cudnn_op.cu.cc$") list(APPEND cudnn_cu_cc_srcs ${src}) elseif(WITH_MKLDNN AND ${src} MATCHES ".*_mkldnn_op.cc$") list(APPEND mkldnn_cc_srcs ${src}) elseif(${src} MATCHES ".*\\.cu.cc$") list(APPEND cu_cc_srcs ${src}) elseif(WITH_XPU AND ${src} MATCHES ".*_op_xpu.cc$") list(APPEND xpu_cc_srcs ${src}) elseif(WITH_ASCEND_CL AND ${src} MATCHES ".*_op_npu.cc$") list(APPEND npu_cc_srcs ${src}) elseif(${src} MATCHES ".*\\.cc$") list(APPEND cc_srcs ${src}) else() message(FATAL_ERROR "${TARGET} Source file ${src} should only be .cc or .cu") endif() endforeach() endif() list(LENGTH cc_srcs cc_srcs_len) if (${cc_srcs_len} EQUAL 0) message(FATAL_ERROR "The op library ${TARGET} should contains at least one .cc file") endif() if (WIN32) # remove windows unsupported op, because windows has no nccl, no warpctc such ops. foreach(windows_unsupport_op "nccl_op" "gen_nccl_id_op") if ("${TARGET}" STREQUAL "${windows_unsupport_op}") return() endif() endforeach() endif(WIN32) # Unity Build relies on global option `WITH_UNITY_BUILD` and local option `UNITY`. if(WITH_UNITY_BUILD AND op_library_UNITY) # Generate the unity target name by the directory where source files located. string(REPLACE "${PADDLE_SOURCE_DIR}/paddle/fluid/" "" UNITY_TARGET ${CMAKE_CURRENT_SOURCE_DIR}) string(REPLACE "/" "_" UNITY_TARGET ${UNITY_TARGET}) set(UNITY_TARGET "paddle_${UNITY_TARGET}_unity") if(NOT ${UNITY_TARGET} IN_LIST OP_LIBRARY) set(OP_LIBRARY ${UNITY_TARGET} ${OP_LIBRARY} CACHE INTERNAL "op libs") endif() else() set(OP_LIBRARY ${TARGET} ${OP_LIBRARY} CACHE INTERNAL "op libs") endif() list(LENGTH op_library_DEPS op_library_DEPS_len) if (${op_library_DEPS_len} GREATER 0) set(DEPS_OPS ${TARGET} ${DEPS_OPS} PARENT_SCOPE) endif() if (WITH_GPU) # Unity Build relies on global option `WITH_UNITY_BUILD` and local option `UNITY`. if(WITH_UNITY_BUILD AND op_library_UNITY) # Combine the cc and cu source files. compose_unity_target_sources(${UNITY_TARGET} cc ${cc_srcs} ${cu_cc_srcs} ${cudnn_cu_cc_srcs} ${mkldnn_cc_srcs}) compose_unity_target_sources(${UNITY_TARGET} cu ${cudnn_cu_srcs} ${cu_srcs}) if(TARGET ${UNITY_TARGET}) # If `UNITY_TARGET` exists, add source files to `UNITY_TARGET`. target_sources(${UNITY_TARGET} PRIVATE ${unity_target_cc_sources} ${unity_target_cu_sources}) else() # If `UNITY_TARGET` does not exist, create `UNITY_TARGET` with source files. nv_library(${UNITY_TARGET} SRCS ${unity_target_cc_sources} ${unity_target_cu_sources} DEPS ${op_library_DEPS} ${op_common_deps}) endif() # Add alias library to handle dependencies. add_library(${TARGET} ALIAS ${UNITY_TARGET}) else() nv_library(${TARGET} SRCS ${cc_srcs} ${cu_cc_srcs} ${cudnn_cu_cc_srcs} ${cudnn_cu_srcs} ${mkldnn_cc_srcs} ${cu_srcs} DEPS ${op_library_DEPS} ${op_common_deps}) endif() elseif (WITH_ROCM) list(REMOVE_ITEM miopen_cu_cc_srcs "affine_grid_cudnn_op.cu.cc") list(REMOVE_ITEM miopen_cu_cc_srcs "grid_sampler_cudnn_op.cu.cc") list(REMOVE_ITEM hip_srcs "cholesky_op.cu") list(REMOVE_ITEM hip_srcs "correlation_op.cu") list(REMOVE_ITEM hip_srcs "multinomial_op.cu") list(REMOVE_ITEM hip_srcs "decode_jpeg_op.cu") hip_library(${TARGET} SRCS ${cc_srcs} ${hip_cc_srcs} ${miopen_cu_cc_srcs} ${miopen_cu_srcs} ${mkldnn_cc_srcs} ${hip_srcs} DEPS ${op_library_DEPS} ${op_common_deps}) else() # Unity Build relies on global option `WITH_UNITY_BUILD` and local option `UNITY`. if(WITH_UNITY_BUILD AND op_library_UNITY) # Combine the cc source files. compose_unity_target_sources(${UNITY_TARGET} cc ${cc_srcs} ${mkldnn_cc_srcs} ${xpu_cc_srcs} ${npu_cc_srcs}) if(TARGET ${UNITY_TARGET}) # If `UNITY_TARGET` exists, add source files to `UNITY_TARGET`. target_sources(${UNITY_TARGET} PRIVATE ${unity_target_cc_sources}) else() # If `UNITY_TARGET` does not exist, create `UNITY_TARGET` with source files. cc_library(${UNITY_TARGET} SRCS ${unity_target_cc_sources} DEPS ${op_library_DEPS} ${op_common_deps}) endif() # Add alias library to handle dependencies. add_library(${TARGET} ALIAS ${UNITY_TARGET}) else() cc_library(${TARGET} SRCS ${cc_srcs} ${mkldnn_cc_srcs} ${xpu_cc_srcs} ${npu_cc_srcs} DEPS ${op_library_DEPS} ${op_common_deps}) endif() endif() # Define operators that don't need pybind here. foreach(manual_pybind_op "compare_all_op" "compare_op" "logical_op" "nccl_op" "tensor_array_read_write_op" "tensorrt_engine_op" "conv_fusion_op" "fusion_transpose_flatten_concat_op" "fusion_conv_inception_op" "sync_batch_norm_op" "dgc_op" "fused_fc_elementwise_layernorm_op" "skip_layernorm_op" "multihead_matmul_op" "fusion_group_op" "fused_bn_activation_op" "fused_embedding_eltwise_layernorm_op" "fusion_gru_op" "fusion_lstm_op" "fused_bn_add_activation_op") if ("${TARGET}" STREQUAL "${manual_pybind_op}") set(pybind_flag 1) endif() endforeach() # The registration of USE_OP, please refer to paddle/fluid/framework/op_registry.h. # Note that it's enough to just adding one operator to pybind in a *_op.cc file. # And for detail pybind information, please see generated paddle/pybind/pybind.h. set(ORIGINAL_TARGET ${TARGET}) file(READ ${TARGET}.cc TARGET_CONTENT) string(REGEX MATCH "REGISTER_OPERATOR\\(.*REGISTER_OPERATOR\\(" multi_register "${TARGET_CONTENT}") # [ \t\r\n]* is used for blank characters string(REGEX MATCH "REGISTER_OPERATOR\\([ \t\r\n]*[a-z0-9_]*," one_register "${multi_register}") if (one_register STREQUAL "") string(REPLACE "_op" "" TARGET "${TARGET}") else () string(REPLACE "REGISTER_OPERATOR(" "" TARGET "${one_register}") string(REPLACE "," "" TARGET "${TARGET}") # [ \t\r\n]+ is used for blank characters. # Here we use '+' instead of '*' since it is a REPLACE operation. string(REGEX REPLACE "[ \t\r\n]+" "" TARGET "${TARGET}") endif() # pybind USE_NO_KERNEL_OP # HACK: if REGISTER_OP_CPU_KERNEL presents the operator must have kernel string(REGEX MATCH "REGISTER_OP_CPU_KERNEL" regex_result "${TARGET_CONTENT}") string(REPLACE "_op" "" TARGET "${TARGET}") if (${pybind_flag} EQUAL 0 AND regex_result STREQUAL "") file(APPEND ${pybind_file} "USE_NO_KERNEL_OP(${TARGET});\n") set(pybind_flag 1) endif() # pybind USE_CPU_ONLY_OP list(LENGTH cu_srcs cu_srcs_len) list(LENGTH hip_srcs hip_srcs_len) list(LENGTH cu_cc_srcs cu_cc_srcs_len) list(LENGTH hip_cc_srcs hip_cc_srcs_len) list(LENGTH mkldnn_cc_srcs mkldnn_cc_srcs_len) list(LENGTH xpu_cc_srcs xpu_cc_srcs_len) list(LENGTH miopen_cu_cc_srcs miopen_cu_cc_srcs_len) list(LENGTH npu_cc_srcs npu_cc_srcs_len) if (${pybind_flag} EQUAL 0 AND ${mkldnn_cc_srcs_len} EQUAL 0 AND ${cu_srcs_len} EQUAL 0 AND ${cu_cc_srcs_len} EQUAL 0 AND ${hip_srcs_len} EQUAL 0 AND ${hip_cc_srcs_len} EQUAL 0 AND ${miopen_cu_cc_srcs_len} EQUAL 0 AND ${xpu_cc_srcs_len} EQUAL 0 AND ${npu_cc_srcs_len} EQUAL 0) file(APPEND ${pybind_file} "USE_CPU_ONLY_OP(${TARGET});\n") set(pybind_flag 1) endif() # pybind USE_OP_DEVICE_KERNEL for CUDNN list(LENGTH cudnn_cu_cc_srcs cudnn_cu_cc_srcs_len) if (WITH_GPU AND ${cudnn_cu_cc_srcs_len} GREATER 0) if(${TARGET} STREQUAL "activation") file(APPEND ${pybind_file} "USE_OP_DEVICE_KERNEL(relu, CUDNN);\n") else() file(APPEND ${pybind_file} "USE_OP_DEVICE_KERNEL(${TARGET}, CUDNN);\n") endif() endif() # pybind USE_OP_DEVICE_KERNEL for MIOPEN list(LENGTH miopen_cu_cc_srcs miopen_cu_cc_srcs_len) if (WITH_ROCM AND ${miopen_cu_cc_srcs_len} GREATER 0) if(${TARGET} STREQUAL "activation") file(APPEND ${pybind_file} "USE_OP_DEVICE_KERNEL(relu, CUDNN);\n") else() file(APPEND ${pybind_file} "USE_OP_DEVICE_KERNEL(${TARGET}, CUDNN);\n") endif() endif() # pybind USE_OP_DEVICE_KERNEL for CUDNN list(LENGTH cudnn_cu_srcs cudnn_cu_srcs_len) if (WITH_GPU AND ${cudnn_cu_srcs_len} GREATER 0) file(APPEND ${pybind_file} "USE_OP_DEVICE_KERNEL(${TARGET}, CUDNN);\n") endif() # pybind USE_OP_DEVICE_KERNEL for MIOPEN list(LENGTH miopen_cu_srcs miopen_cu_srcs_len) if (WITH_ROCM AND ${miopen_cu_srcs_len} GREATER 0) file(APPEND ${pybind_file} "USE_OP_DEVICE_KERNEL(${TARGET}, CUDNN);\n") endif() if (WITH_XPU AND ${xpu_cc_srcs_len} GREATER 0) file(APPEND ${pybind_file} "USE_OP_DEVICE_KERNEL(${TARGET}, XPU);\n") endif() if (WITH_ASCEND_CL AND ${npu_cc_srcs_len} GREATER 0) file(READ ${ORIGINAL_TARGET}_npu.cc TARGET_NPU_CONTENT) # It is different from the logic above, becareful string(REGEX MATCH "REGISTER_OP_NPU_KERNEL\\(.*" multi_npu_register "${TARGET_NPU_CONTENT}") # [ \t\r\n]* is used for blank characters string(REGEX MATCH "REGISTER_OP_NPU_KERNEL\\([ \t\r\n]*[a-z0-9_]*," one_npu_register "${multi_npu_register}") if (one_npu_register STREQUAL "") string(REPLACE "_op" "" NPU_TARGET "${TARGET}") else () string(REPLACE "REGISTER_OP_NPU_KERNEL(" "" NPU_TARGET "${one_npu_register}") string(REPLACE "," "" NPU_TARGET "${NPU_TARGET}") # [ \t\r\n]+ is used for blank characters. # Here we use '+' instead of '*' since it is a REPLACE operation. string(REGEX REPLACE "[ \t\r\n]+" "" NPU_TARGET "${NPU_TARGET}") endif() file(APPEND ${pybind_file} "USE_OP_DEVICE_KERNEL(${NPU_TARGET}, NPU);\n") endif() # pybind USE_OP_DEVICE_KERNEL for MKLDNN if (WITH_MKLDNN AND ${mkldnn_cc_srcs_len} GREATER 0) # Append first implemented MKLDNN activation operator if (${MKLDNN_FILE} STREQUAL "activation_mkldnn_op") file(APPEND ${pybind_file} "USE_OP_DEVICE_KERNEL(relu, MKLDNN);\n") elseif(${MKLDNN_FILE} STREQUAL "conv_mkldnn_op") file(APPEND ${pybind_file} "USE_OP_DEVICE_KERNEL_WITH_CUSTOM_TYPE(conv2d, MKLDNN, FP32);\n") file(APPEND ${pybind_file} "USE_OP_DEVICE_KERNEL_WITH_CUSTOM_TYPE(conv2d, MKLDNN, S8);\n") file(APPEND ${pybind_file} "USE_OP_DEVICE_KERNEL_WITH_CUSTOM_TYPE(conv2d, MKLDNN, U8);\n") elseif(${MKLDNN_FILE} STREQUAL "transpose_mkldnn_op") file(APPEND ${pybind_file} "USE_OP_DEVICE_KERNEL_WITH_CUSTOM_TYPE(transpose2, MKLDNN, FP32);\n") file(APPEND ${pybind_file} "USE_OP_DEVICE_KERNEL_WITH_CUSTOM_TYPE(transpose2, MKLDNN, S8);\n") file(APPEND ${pybind_file} "USE_OP_DEVICE_KERNEL_WITH_CUSTOM_TYPE(transpose2, MKLDNN, U8);\n") elseif(${MKLDNN_FILE} STREQUAL "fc_mkldnn_op") file(APPEND ${pybind_file} "USE_OP_DEVICE_KERNEL_WITH_CUSTOM_TYPE(fc, MKLDNN, FP32);\n") file(APPEND ${pybind_file} "USE_OP_DEVICE_KERNEL_WITH_CUSTOM_TYPE(fc, MKLDNN, S8);\n") file(APPEND ${pybind_file} "USE_OP_DEVICE_KERNEL_WITH_CUSTOM_TYPE(fc, MKLDNN, U8);\n") else() file(APPEND ${pybind_file} "USE_OP_DEVICE_KERNEL(${TARGET}, MKLDNN);\n") endif() endif() # pybind USE_OP if (${pybind_flag} EQUAL 0) # NOTE(*): activation use macro to regist the kernels, set use_op manually. if(${TARGET} STREQUAL "activation") file(APPEND ${pybind_file} "USE_OP(relu);\n") elseif(${TARGET} STREQUAL "fake_dequantize") file(APPEND ${pybind_file} "USE_OP(fake_dequantize_max_abs);\n") elseif(${TARGET} STREQUAL "fake_quantize") file(APPEND ${pybind_file} "USE_OP(fake_quantize_abs_max);\n") elseif(${TARGET} STREQUAL "tensorrt_engine_op") message(STATUS "Pybind skips [tensorrt_engine_op], for this OP is only used in inference") else() file(APPEND ${pybind_file} "USE_OP(${TARGET});\n") endif() endif() endfunction() function(register_operators) set(options "") set(oneValueArgs "") set(multiValueArgs EXCLUDES DEPS) cmake_parse_arguments(register_operators "${options}" "${oneValueArgs}" "${multiValueArgs}" ${ARGN}) file(GLOB OPS RELATIVE "${CMAKE_CURRENT_SOURCE_DIR}" "*_op.cc") string(REPLACE "_mkldnn" "" OPS "${OPS}") string(REPLACE "_xpu" "" OPS "${OPS}") string(REPLACE "_npu" "" OPS "${OPS}") string(REPLACE ".cc" "" OPS "${OPS}") list(REMOVE_DUPLICATES OPS) list(LENGTH register_operators_DEPS register_operators_DEPS_len) foreach(src ${OPS}) list(FIND register_operators_EXCLUDES ${src} _index) if (${_index} EQUAL -1) if (${register_operators_DEPS_len} GREATER 0) op_library(${src} UNITY DEPS ${register_operators_DEPS}) else() op_library(${src} UNITY) endif() endif() endforeach() # Complete the processing of `UNITY_TARGET`. if(WITH_UNITY_BUILD) finish_unity_target(cc) if(WITH_GPU) finish_unity_target(cu) endif() endif() endfunction()