if(NOT (LITE_WITH_LIGHT_WEIGHT_FRAMEWORK AND LITE_WITH_ARM)) return() endif() message(STATUS "compile with lite ARM kernels") cc_library(fc_compute_arm SRCS fc_compute.cc DEPS ${lite_kernel_deps} math_arm) cc_library(relu_compute_arm SRCS relu_compute.cc DEPS ${lite_kernel_deps}) cc_library(mul_compute_arm SRCS mul_compute.cc DEPS ${lite_kernel_deps} eigen3) cc_library(scale_compute_arm SRCS scale_compute.cc DEPS ${lite_kernel_deps} math_arm) cc_library(softmax_compute_arm SRCS softmax_compute.cc DEPS ${lite_kernel_deps} math_arm) cc_library(conv_compute_arm SRCS conv_compute.cc DEPS ${lite_kernel_deps} math_arm) cc_library(elementwise_add_compute_arm SRCS elementwise_add_compute.cc DEPS ${lite_kernel_deps} math_arm) lite_cc_test(test_fc_compute_arm SRCS fc_compute_test.cc DEPS fc_compute_arm math_arm) lite_cc_test(test_scale_compute_arm SRCS scale_compute_test.cc DEPS scale_compute_arm) lite_cc_test(test_softmax_compute_arm SRCS softmax_compute_test.cc DEPS softmax_compute_arm) lite_cc_test(test_conv_compute_arm SRCS conv_compute_test.cc DEPS conv_compute_arm) lite_cc_test(test_elementwise_add_compute_arm SRCS elementwise_add_compute_test.cc DEPS elementwise_add_compute_arm) set(arm_kernels fc_compute_arm relu_compute_arm mul_compute_arm scale_compute_arm softmax_compute_arm conv_compute_arm elementwise_add_compute_arm ) set(arm_kernels "${arm_kernels}" CACHE INTERNAL "arm kernels")