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// Copyright 2022 Google LLC
//
// This source code is licensed under the BSD-style license found in the
// LICENSE file in the root directory of this source tree.
#include <assert.h>
#include <stddef.h>
#ifdef _WIN32
#include <windows.h>
#else
#include <pthread.h>
#endif
#include <xnnpack/common.h>
#include <xnnpack/config.h>
#include <xnnpack/microparams-init.h>
#include <xnnpack/transpose.h>
#include <xnnpack/vunary.h>
static struct xnn_transpose_config transpose_config = {0};
#if XNN_PLATFORM_WINDOWS
static INIT_ONCE init_guard = INIT_ONCE_STATIC_INIT;
#else
static pthread_once_t init_guard = PTHREAD_ONCE_INIT;
#endif
static void init_transpose_config(void) {
#if XNN_ARCH_ARM
const struct xnn_hardware_config* hardware_config = xnn_init_hardware_config();
assert(hardware_config != NULL);
if (hardware_config->use_arm_neon) {
transpose_config.copy = (xnn_vunary_ukernel_fn) xnn_xx_copy_ukernel__scalar_memcpy;
transpose_config.x8 = (struct xnn_transpose_subconfig) {
.const_size_ukernel = (xnn_transposec_ukernel_fn) xnn_x8_transposec_ukernel__16x16_reuse_dec_zip_neon,
.tile_size = 32,
};
transpose_config.x16 = (struct xnn_transpose_subconfig) {
.const_size_ukernel = (xnn_transposec_ukernel_fn) xnn_x16_transposec_ukernel__8x8_reuse_dec_zip_neon,
.tile_size = 32,
};
transpose_config.x24 = (struct xnn_transpose_subconfig) {
.const_size_ukernel = (xnn_transposec_ukernel_fn) xnn_x24_transposec_ukernel__2x2_neon_tbl64,
.init.x24 = (xnn_init_x24_transpose_params_fn) xnn_init_x24_transpose_neon_tbl64_params,
.tile_size = 32,
};
transpose_config.x32 = (struct xnn_transpose_subconfig) {
.const_size_ukernel = (xnn_transposec_ukernel_fn) xnn_x32_transposec_ukernel__4x4_reuse_dec_zip_neon,
.tile_size = 32,
};
transpose_config.xx = (struct xnn_transpose_subconfig) {
.variable_size_ukernel = xnn_xx_transposev_ukernel__1x1_scalar_memcpy,
.tile_size = 32,
};
} else if (!XNN_PLATFORM_MOBILE) {
transpose_config.copy = (xnn_vunary_ukernel_fn) xnn_xx_copy_ukernel__scalar_memcpy;
transpose_config.x8 = (struct xnn_transpose_subconfig) {
.const_size_ukernel = (xnn_transposec_ukernel_fn) xnn_x8_transposec_ukernel__2x4_scalar_int,
.tile_size = 32,
};
transpose_config.x16 = (struct xnn_transpose_subconfig) {
.const_size_ukernel = (xnn_transposec_ukernel_fn) xnn_x16_transposec_ukernel__2x4_scalar_int,
.tile_size = 32,
};
transpose_config.x24 = (struct xnn_transpose_subconfig) {
.const_size_ukernel = (xnn_transposec_ukernel_fn) xnn_x24_transposec_ukernel__1x2_scalar,
.tile_size = 32,
};
transpose_config.x32 = (struct xnn_transpose_subconfig) {
.const_size_ukernel = (xnn_transposec_ukernel_fn) xnn_x32_transposec_ukernel__2x4_scalar_int,
.tile_size = 32,
};
transpose_config.xx = (struct xnn_transpose_subconfig) {
.variable_size_ukernel = xnn_xx_transposev_ukernel__1x1_scalar_memcpy,
.tile_size = 32,
};
}
#elif XNN_ARCH_ARM64
transpose_config.copy = (xnn_vunary_ukernel_fn) xnn_xx_copy_ukernel__scalar_memcpy;
transpose_config.x8 = (struct xnn_transpose_subconfig) {
.const_size_ukernel = (xnn_transposec_ukernel_fn) xnn_x8_transposec_ukernel__16x16_reuse_dec_zip_neon,
.tile_size = 32,
};
transpose_config.x16 = (struct xnn_transpose_subconfig) {
.const_size_ukernel = (xnn_transposec_ukernel_fn) xnn_x16_transposec_ukernel__8x8_reuse_dec_zip_neon,
.tile_size = 32,
};
transpose_config.x24 = (struct xnn_transpose_subconfig) {
.const_size_ukernel = (xnn_transposec_ukernel_fn) xnn_x24_transposec_ukernel__4x4_aarch64_neon_tbl128,
.init.x24 = (xnn_init_x24_transpose_params_fn) xnn_init_x24_transpose_neon_tbl128_params,
.tile_size = 32,
};
transpose_config.x32 = (struct xnn_transpose_subconfig) {
.const_size_ukernel = (xnn_transposec_ukernel_fn) xnn_x32_transposec_ukernel__4x4_aarch64_neon_tbl128,
.tile_size = 32,
.init.x32 = (xnn_init_x32_transpose_params_fn) xnn_init_x32_transpose_neon_tbl128_params,
};
transpose_config.xx = (struct xnn_transpose_subconfig) {
.variable_size_ukernel = xnn_xx_transposev_ukernel__1x1_scalar_memcpy,
.tile_size = 32,
};
#elif XNN_ARCH_X86 || XNN_ARCH_X86_64
const struct xnn_hardware_config* hardware_config = xnn_init_hardware_config();
assert(hardware_config != NULL);
transpose_config.copy = (xnn_vunary_ukernel_fn) xnn_xx_copy_ukernel__scalar_memcpy;
transpose_config.xx = (struct xnn_transpose_subconfig) {
.variable_size_ukernel = xnn_xx_transposev_ukernel__1x1_scalar_memcpy,
.tile_size = 32,
};
transpose_config.x8 = (struct xnn_transpose_subconfig) {
.const_size_ukernel = (xnn_transposec_ukernel_fn) xnn_x8_transposec_ukernel__16x16_reuse_mov_sse2,
.tile_size = 32,
};
transpose_config.x16 = (struct xnn_transpose_subconfig) {
.const_size_ukernel = (xnn_transposec_ukernel_fn) xnn_x16_transposec_ukernel__8x8_reuse_multi_sse2,
.tile_size = 32,
};
transpose_config.x24 = (struct xnn_transpose_subconfig) {
.const_size_ukernel = (xnn_transposec_ukernel_fn) xnn_x24_transposec_ukernel__1x2_scalar,
.tile_size = 32,
};
transpose_config.x32 = (struct xnn_transpose_subconfig) {
.const_size_ukernel = (xnn_transposec_ukernel_fn) xnn_x32_transposec_ukernel__4x4_sse,
.tile_size = 32,
};
if (hardware_config->use_x86_ssse3) {
transpose_config.x24 = (struct xnn_transpose_subconfig) {
.const_size_ukernel = (xnn_transposec_ukernel_fn) xnn_x24_transposec_ukernel__4x4_ssse3,
.init.x24 = (xnn_init_x24_transpose_params_fn) xnn_init_x24_transpose_ssse3_params,
.tile_size = 32,
};
}
if (hardware_config->use_x86_avx) {
transpose_config.x32 = (struct xnn_transpose_subconfig) {
.const_size_ukernel = (xnn_transposec_ukernel_fn) xnn_x32_transposec_ukernel__8x8_reuse_multi_avx,
.init.x32 = (xnn_init_x32_transpose_params_fn) xnn_init_x32_transpose_avx_params,
.tile_size = 32,
};
}
if (hardware_config->use_x86_avx2) {
transpose_config.x8 = (struct xnn_transpose_subconfig) {
.const_size_ukernel = (xnn_transposec_ukernel_fn) xnn_x8_transposec_ukernel__32x32_reuse_switch_avx2,
.init.x8 = (xnn_init_x8_transpose_params_fn) xnn_init_x8_transpose_avx2_params,
.tile_size = 32,
};
transpose_config.x16 = (struct xnn_transpose_subconfig) {
.const_size_ukernel = (xnn_transposec_ukernel_fn) xnn_x16_transposec_ukernel__16x16_reuse_switch_avx2,
.init.x16 = (xnn_init_x16_transpose_params_fn) xnn_init_x16_transpose_avx2_params,
.tile_size = 32,
};
}
#elif XNN_ARCH_WASMSIMD || XNN_ARCH_WASMRELAXEDSIMD
transpose_config.copy = (xnn_vunary_ukernel_fn) xnn_xx_copy_ukernel__scalar_memcpy;
transpose_config.x8 = (struct xnn_transpose_subconfig) {
.const_size_ukernel = (xnn_transposec_ukernel_fn) xnn_x8_transposec_ukernel__16x16_reuse_mov_wasmsimd,
.tile_size = 32,
};
transpose_config.x16 = (struct xnn_transpose_subconfig) {
.const_size_ukernel = (xnn_transposec_ukernel_fn) xnn_x16_transposec_ukernel__8x8_reuse_mov_wasmsimd,
.tile_size = 32,
};
transpose_config.x24 = (struct xnn_transpose_subconfig) {
.const_size_ukernel = (xnn_transposec_ukernel_fn) xnn_x24_transposec_ukernel__1x2_scalar,
.tile_size = 32,
};
transpose_config.x32 = (struct xnn_transpose_subconfig) {
.const_size_ukernel = (xnn_transposec_ukernel_fn) xnn_x32_transposec_ukernel__4x4_reuse_mov_wasmsimd,
.tile_size = 32,
};
transpose_config.xx = (struct xnn_transpose_subconfig) {
.variable_size_ukernel = xnn_xx_transposev_ukernel__1x1_scalar_memcpy,
.tile_size = 32,
};
#elif XNN_ARCH_WASM
transpose_config.copy = (xnn_vunary_ukernel_fn) xnn_xx_copy_ukernel__scalar_memcpy;
transpose_config.x8 = (struct xnn_transpose_subconfig) {
.const_size_ukernel = (xnn_transposec_ukernel_fn) xnn_x8_transposec_ukernel__2x4_scalar_int,
.tile_size = 32,
};
transpose_config.x16 = (struct xnn_transpose_subconfig) {
.const_size_ukernel = (xnn_transposec_ukernel_fn) xnn_x16_transposec_ukernel__2x4_scalar_int,
.tile_size = 32,
};
transpose_config.x24 = (struct xnn_transpose_subconfig) {
.const_size_ukernel = (xnn_transposec_ukernel_fn) xnn_x24_transposec_ukernel__1x2_scalar,
.tile_size = 32,
};
transpose_config.x32 = (struct xnn_transpose_subconfig) {
.const_size_ukernel = (xnn_transposec_ukernel_fn) xnn_x32_transposec_ukernel__2x4_scalar_int,
.tile_size = 32,
};
transpose_config.xx = (struct xnn_transpose_subconfig) {
.variable_size_ukernel = xnn_xx_transposev_ukernel__1x1_scalar_memcpy,
.tile_size = 32,
};
#elif XNN_ARCH_RISCV
transpose_config.copy = (xnn_vunary_ukernel_fn) xnn_xx_copy_ukernel__scalar_memcpy;
transpose_config.x8 = (struct xnn_transpose_subconfig) {
.const_size_ukernel = (xnn_transposec_ukernel_fn) xnn_x8_transposec_ukernel__2x4_scalar_int,
.tile_size = 32,
};
transpose_config.x16 = (struct xnn_transpose_subconfig) {
.const_size_ukernel = (xnn_transposec_ukernel_fn) xnn_x16_transposec_ukernel__2x4_scalar_int,
.tile_size = 32,
};
transpose_config.x24 = (struct xnn_transpose_subconfig) {
.const_size_ukernel = (xnn_transposec_ukernel_fn) xnn_x24_transposec_ukernel__1x2_scalar,
.tile_size = 32,
};
transpose_config.x32 = (struct xnn_transpose_subconfig) {
.const_size_ukernel = (xnn_transposec_ukernel_fn) xnn_x32_transposec_ukernel__2x4_scalar_int,
.tile_size = 32,
};
transpose_config.xx = (struct xnn_transpose_subconfig) {
.variable_size_ukernel = xnn_xx_transposev_ukernel__1x1_scalar_memcpy,
.tile_size = 32,
};
#else
#error "Unsupported architecture"
#endif
}
#if XNN_PLATFORM_WINDOWS
static BOOL CALLBACK init_transpose_config_windows(PINIT_ONCE init_once, PVOID parameter, PVOID* context) {
init_transpose_config();
return TRUE;
}
#endif
const struct xnn_transpose_config* xnn_init_transpose_config() {
const struct xnn_hardware_config* hardware_config = xnn_init_hardware_config();
if (hardware_config == NULL) {
return NULL;
}
#if XNN_PLATFORM_WINDOWS
InitOnceExecuteOnce(&init_guard, &init_transpose_config_windows, NULL, NULL);
#else
pthread_once(&init_guard, &init_transpose_config);
#endif
return &transpose_config;
}