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android / platform / external / XNNPACK / 4ecae2e7b73de22f0c1f31c16b747de70177c91b / . / src / operators / unary-elementwise-nc.c
blob: 914b788677363090173269115374d58bb054d0a7 [file] [log] [blame]
// Copyright 2020 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 <math.h>
#include <stddef.h>
#include <stdint.h>
#include <stdlib.h>
#include <xnnpack.h>
#include <xnnpack/allocator.h>
#include <xnnpack/log.h>
#include <xnnpack/operator.h>
#include <xnnpack/params-init.h>
#include <xnnpack/params.h>
static enum xnn_status create_unary_elementwise_nc(
size_t channels,
size_t input_stride,
size_t output_stride,
uint32_t flags,
const void* params,
size_t params_size,
enum xnn_operator_type operator_type,
xnn_univector_ukernel_function ukernel,
xnn_operator_t* unary_elementwise_op_out)
{
xnn_operator_t unary_elementwise_op = NULL;
if ((xnn_params.init_flags & XNN_INIT_FLAG_XNNPACK) == 0) {
xnn_log_error("failed to create %s operator: XNNPACK is not initialized",
xnn_operator_type_to_string(operator_type));
return xnn_status_uninitialized;
}
if (channels == 0) {
xnn_log_error(
"failed to create %s operator with %zu channels: number of channels must be non-zero",
xnn_operator_type_to_string(xnn_operator_type_clamp_nc_f32), channels);
return xnn_status_invalid_parameter;
}
if (input_stride < channels) {
xnn_log_error(
"failed to create %s operator with input element stride of %zu: "
"stride must be at least as large as the number of channels (%zu)",
xnn_operator_type_to_string(xnn_operator_type_clamp_nc_f32), input_stride, channels);
return xnn_status_invalid_parameter;
}
if (output_stride < channels) {
xnn_log_error(
"failed to create %s operator with output element stride of %zu: "
"stride must be at least as large as the number of channels (%zu)",
xnn_operator_type_to_string(xnn_operator_type_clamp_nc_f32), output_stride, channels);
return xnn_status_invalid_parameter;
}
unary_elementwise_op = xnn_allocate_zero_simd_memory(sizeof(struct xnn_operator));
if (unary_elementwise_op == NULL) {
xnn_log_error(
"failed to allocate %zu bytes for %s operator descriptor",
sizeof(struct xnn_operator), xnn_operator_type_to_string(operator_type));
return xnn_status_out_of_memory;
}
unary_elementwise_op->channels = channels;
unary_elementwise_op->input_pixel_stride = input_stride;
unary_elementwise_op->output_pixel_stride = output_stride;
if (params_size != 0) {
memcpy(&unary_elementwise_op->params, params, params_size);
}
unary_elementwise_op->ukernel.vunary.function = ukernel;
unary_elementwise_op->type = operator_type;
unary_elementwise_op->state = xnn_run_state_invalid;
*unary_elementwise_op_out = unary_elementwise_op;
return xnn_status_success;
}
static enum xnn_status setup_unary_elementwise_nc(
xnn_operator_t unary_elementwise_op,
size_t batch_size,
const void* input,
void* output,
uint32_t log2_element_size,
const void* params,
size_t params_size)
{
if ((xnn_params.init_flags & XNN_INIT_FLAG_XNNPACK) == 0) {
xnn_log_error("failed to setup %s operator: XNNPACK is not initialized",
xnn_operator_type_to_string(unary_elementwise_op->type));
return xnn_status_uninitialized;
}
if (batch_size == 0) {
unary_elementwise_op->state = xnn_run_state_skip;
return xnn_status_success;
}
const size_t channels = unary_elementwise_op->channels;
const size_t input_stride = unary_elementwise_op->input_pixel_stride;
const size_t output_stride = unary_elementwise_op->output_pixel_stride;
xnn_univector_ukernel_function ukernel = unary_elementwise_op->ukernel.vunary.function;
if ((((input_stride ^ channels) | (output_stride ^ channels)) == 0) || batch_size == 1) {
const size_t block_size = 4096;
unary_elementwise_op->context.univector_contiguous = (struct univector_contiguous_context) {
.x = input,
.x_stride = input_stride << log2_element_size,
.y = output,
.y_stride = output_stride << log2_element_size,
.ukernel = ukernel,
};
if (params_size != 0) {
memcpy(&unary_elementwise_op->context.univector_contiguous.params, params, params_size);
}
unary_elementwise_op->compute.type = xnn_parallelization_type_1d_tile_1d;
unary_elementwise_op->compute.task_1d_tile_1d = (pthreadpool_task_1d_tile_1d_t) xnn_compute_univector_contiguous;
unary_elementwise_op->compute.range[0] = (batch_size * channels) << log2_element_size;
unary_elementwise_op->compute.tile[0] = block_size;
} else {
unary_elementwise_op->context.univector_strided = (struct univector_strided_context) {
.n = channels << log2_element_size,
.x = input,
.x_stride = input_stride << log2_element_size,
.y = output,
.y_stride = output_stride << log2_element_size,
.ukernel = ukernel,
};
if (params_size != 0) {
memcpy(&unary_elementwise_op->context.univector_strided.params, params, params_size);
}
unary_elementwise_op->compute.type = xnn_parallelization_type_1d_tile_1d;
unary_elementwise_op->compute.task_1d_tile_1d = (pthreadpool_task_1d_tile_1d_t) xnn_compute_univector_strided;
unary_elementwise_op->compute.range[0] = batch_size;
unary_elementwise_op->compute.tile[0] = 1;
}
unary_elementwise_op->state = xnn_run_state_ready;
return xnn_status_success;
}
enum xnn_status xnn_create_clamp_nc_u8(
size_t channels,
size_t input_stride,
size_t output_stride,
uint8_t output_min,
uint8_t output_max,
uint32_t flags,
xnn_operator_t* clamp_op_out)
{
if (output_min >= output_max) {
xnn_log_error(
"failed to create %s operator with [%" PRIu8 ", %" PRIu8 "] output range: range min must be below range max",
xnn_operator_type_to_string(xnn_operator_type_clamp_nc_u8), output_min, output_max);
return xnn_status_invalid_parameter;
}
const union xnn_u8_minmax_params params = xnn_init_u8_minmax_params(output_min, output_max);
return create_unary_elementwise_nc(
channels, input_stride, output_stride, flags,
&params, sizeof(params),
xnn_operator_type_clamp_nc_u8,
xnn_params.u8.clamp,
clamp_op_out);
}
enum xnn_status xnn_create_clamp_nc_f32(
size_t channels,
size_t input_stride,
size_t output_stride,
float output_min,
float output_max,
uint32_t flags,
xnn_operator_t* clamp_op_out)
{
if (isnan(output_min)) {
xnn_log_error(
"failed to create %s operator with NaN output lower bound: lower bound must be non-NaN",
xnn_operator_type_to_string(xnn_operator_type_clamp_nc_f32));
return xnn_status_invalid_parameter;
}
if (isnan(output_max)) {
xnn_log_error(
"failed to create %s operator with NaN output upper bound: upper bound must be non-NaN",
xnn_operator_type_to_string(xnn_operator_type_clamp_nc_f32));
return xnn_status_invalid_parameter;
}
if (output_min >= output_max) {
xnn_log_error(
"failed to create %s operator with [%.7g, %.7g] output range: lower bound must be below upper bound",
xnn_operator_type_to_string(xnn_operator_type_clamp_nc_f32), output_min, output_max);
return xnn_status_invalid_parameter;
}
const bool relu_activation = (output_max == INFINITY) && (output_min == 0.0f);
xnn_univector_ukernel_function clamp_ukernel = (relu_activation && (xnn_params.f32.relu != NULL)) ?
xnn_params.f32.relu : xnn_params.f32.clamp;
const union xnn_f32_minmax_params params = xnn_init_f32_minmax_params(output_min, output_max);
return create_unary_elementwise_nc(
channels, input_stride, output_stride, flags,
&params, sizeof(params),
xnn_operator_type_clamp_nc_f32,
clamp_ukernel,
clamp_op_out);
}
enum xnn_status xnn_create_abs_nc_f32(
size_t channels,
size_t input_stride,
size_t output_stride,
uint32_t flags,
xnn_operator_t* abs_op_out)
{
const union xnn_f32_abs_params params = xnn_init_f32_abs_params();
return create_unary_elementwise_nc(
channels, input_stride, output_stride, flags,
&params, sizeof(params),
xnn_operator_type_abs_nc_f32,
xnn_params.f32.abs,
abs_op_out);
}
enum xnn_status xnn_create_bankers_rounding_nc_f32(
size_t channels,
size_t input_stride,
size_t output_stride,
uint32_t flags,
xnn_operator_t* rounding_op_out)
{
const union xnn_f32_rnd_params params = xnn_init_f32_rnd_params();
return create_unary_elementwise_nc(
channels, input_stride, output_stride, flags,
&params, sizeof(params),
xnn_operator_type_bankers_rounding_nc_f32,
xnn_params.f32.rndne,
rounding_op_out);
}
enum xnn_status xnn_create_ceiling_nc_f32(
size_t channels,
size_t input_stride,
size_t output_stride,
uint32_t flags,
xnn_operator_t* ceiling_op_out)
{
const union xnn_f32_rnd_params params = xnn_init_f32_rnd_params();
return create_unary_elementwise_nc(
channels, input_stride, output_stride, flags,
&params, sizeof(params),
xnn_operator_type_ceiling_nc_f32,
xnn_params.f32.rndu,
ceiling_op_out);
}
enum xnn_status xnn_create_copy_nc_x32(
size_t channels,
size_t input_stride,
size_t output_stride,
uint32_t flags,
xnn_operator_t* copy_op_out)
{
return create_unary_elementwise_nc(
channels, input_stride, output_stride, flags,
NULL, 0,
xnn_operator_type_copy_nc_x32,
xnn_params.xx.copy,
copy_op_out);
}
enum xnn_status xnn_create_elu_nc_f32(
size_t channels,
size_t input_stride,
size_t output_stride,
float alpha,
uint32_t flags,
xnn_operator_t* elu_op_out)
{
if (alpha <= 0.0f || !isnormal(alpha)) {
xnn_log_error(
"failed to create %s operator with %.7g alpha parameter: alpha must be finite, normalized, and positive",
xnn_operator_type_to_string(xnn_operator_type_elu_nc_f32), alpha);
return xnn_status_invalid_parameter;
}
const union xnn_f32_elu_params params = xnn_init_f32_elu_params(1.0f /* prescale */, alpha, 1.0f /* beta */);
return create_unary_elementwise_nc(
channels, input_stride, output_stride, flags,
&params, sizeof(params),
xnn_operator_type_elu_nc_f32,
xnn_params.f32.elu,
elu_op_out);
}
enum xnn_status xnn_create_floor_nc_f32(
size_t channels,
size_t input_stride,
size_t output_stride,
uint32_t flags,
xnn_operator_t* floor_op_out)
{
const union xnn_f32_rnd_params params = xnn_init_f32_rnd_params();
return create_unary_elementwise_nc(
channels, input_stride, output_stride, flags,
&params, sizeof(params),
xnn_operator_type_floor_nc_f32,
xnn_params.f32.rndd,
floor_op_out);
}
enum xnn_status xnn_create_hardswish_nc_f16(
size_t channels,
size_t input_stride,
size_t output_stride,
uint32_t flags,
xnn_operator_t* hardswish_op_out)
{
if ((xnn_params.init_flags & XNN_INIT_FLAG_XNNPACK) == 0) {
xnn_log_error("failed to create %s operator: XNNPACK is not initialized",
xnn_operator_type_to_string(xnn_operator_type_hardswish_nc_f16));
return xnn_status_uninitialized;
}
if ((xnn_params.init_flags & XNN_INIT_FLAG_F16) != XNN_INIT_FLAG_F16) {
xnn_log_error("failed to create %s operator: operations on data type are not supported",
xnn_operator_type_to_string(xnn_operator_type_hardswish_nc_f16));
return xnn_status_unsupported_hardware;
}
const struct xnn_f16_hswish_params params = xnn_init_f16_hswish_params();
return create_unary_elementwise_nc(
channels, input_stride, output_stride, flags,
&params, sizeof(params),
xnn_operator_type_hardswish_nc_f16,
xnn_params.f16.hswish,
hardswish_op_out);
}
enum xnn_status xnn_create_hardswish_nc_f32(
size_t channels,
size_t input_stride,
size_t output_stride,
uint32_t flags,
xnn_operator_t* hardswish_op_out)
{
const union xnn_f32_hswish_params params = xnn_init_f32_hswish_params();
return create_unary_elementwise_nc(
channels, input_stride, output_stride, flags,
&params, sizeof(params),
xnn_operator_type_hardswish_nc_f32,
xnn_params.f32.hswish,
hardswish_op_out);
}
enum xnn_status xnn_create_leaky_relu_nc_f32(
size_t channels,
size_t input_stride,
size_t output_stride,
float negative_slope,
uint32_t flags,
xnn_operator_t* leaky_relu_op_out)
{
if (!isfinite(negative_slope)) {
xnn_log_error(
"failed to create %s operator with %f negative slope: finite number expected",
xnn_operator_type_to_string(xnn_operator_type_leaky_relu_nc_f32),
negative_slope);
return xnn_status_invalid_parameter;
}
const union xnn_f32_lrelu_params params = xnn_init_f32_lrelu_params(negative_slope);
return create_unary_elementwise_nc(
channels, input_stride, output_stride, flags,
&params, sizeof(params),
xnn_operator_type_leaky_relu_nc_f32,
xnn_params.f32.lrelu,
leaky_relu_op_out);
}
enum xnn_status xnn_create_negate_nc_f32(
size_t channels,
size_t input_stride,
size_t output_stride,
uint32_t flags,
xnn_operator_t* negate_op_out)
{
const union xnn_f32_neg_params params = xnn_init_f32_neg_params();
return create_unary_elementwise_nc(
channels, input_stride, output_stride, flags,
&params, sizeof(params),
xnn_operator_type_negate_nc_f32,
xnn_params.f32.neg,
negate_op_out);
}
enum xnn_status xnn_create_sigmoid_nc_f32(
size_t channels,
size_t input_stride,
size_t output_stride,
uint32_t flags,
xnn_operator_t* sigmoid_op_out)
{
return create_unary_elementwise_nc(
channels, input_stride, output_stride, flags,
NULL, 0,
xnn_operator_type_sigmoid_nc_f32,
xnn_params.f32.sigmoid,
sigmoid_op_out);
}
enum xnn_status xnn_create_square_nc_f32(
size_t channels,
size_t input_stride,
size_t output_stride,
uint32_t flags,
xnn_operator_t* square_op_out)
{
return create_unary_elementwise_nc(
channels, input_stride, output_stride, flags,
NULL, 0,
xnn_operator_type_square_nc_f32,
xnn_params.f32.sqr,
square_op_out);
}
enum xnn_status xnn_create_square_root_nc_f32(
size_t channels,
size_t input_stride,
size_t output_stride,
uint32_t flags,
xnn_operator_t* sqrt_op_out)
{
const union xnn_f32_sqrt_params params = xnn_init_f32_sqrt_params();
return create_unary_elementwise_nc(
channels, input_stride, output_stride, flags,
&params, sizeof(params),
xnn_operator_type_square_root_nc_f32,
xnn_params.f32.sqrt,
sqrt_op_out);
}
enum xnn_status xnn_create_truncation_nc_f32(
size_t channels,
size_t input_stride,
size_t output_stride,
uint32_t flags,
xnn_operator_t* truncation_op_out)
{
const union xnn_f32_rnd_params params = xnn_init_f32_rnd_params();
return create_unary_elementwise_nc(
channels, input_stride, output_stride, flags,
&params, sizeof(params),
xnn_operator_type_truncation_nc_f32,
xnn_params.f32.rndz,
truncation_op_out);
}
enum xnn_status xnn_setup_abs_nc_f32(
xnn_operator_t abs_op,
size_t batch_size,
const float* input,
float* output,
pthreadpool_t threadpool)
{
if (abs_op->type != xnn_operator_type_abs_nc_f32) {
xnn_log_error("failed to setup operator: operator type mismatch (expected %s, got %s)",
xnn_operator_type_to_string(xnn_operator_type_abs_nc_f32),
xnn_operator_type_to_string(abs_op->type));
return xnn_status_invalid_parameter;
}
abs_op->state = xnn_run_state_invalid;
return setup_unary_elementwise_nc(
abs_op,
batch_size, input, output,
2 /* log2(sizeof(float)) */,
&abs_op->params.f32_abs, sizeof(abs_op->params.f32_abs));
}
enum xnn_status xnn_setup_bankers_rounding_nc_f32(
xnn_operator_t rounding_op,
size_t batch_size,
const float* input,
float* output,
pthreadpool_t threadpool)
{
if (rounding_op->type != xnn_operator_type_bankers_rounding_nc_f32) {
xnn_log_error("failed to setup operator: operator type mismatch (expected %s, got %s)",
xnn_operator_type_to_string(xnn_operator_type_bankers_rounding_nc_f32),
xnn_operator_type_to_string(rounding_op->type));
return xnn_status_invalid_parameter;
}
rounding_op->state = xnn_run_state_invalid;
return setup_unary_elementwise_nc(
rounding_op,
batch_size, input, output,
2 /* log2(sizeof(float)) */,
&rounding_op->params.f32_rnd, sizeof(rounding_op->params.f32_rnd));
}
enum xnn_status xnn_setup_ceiling_nc_f32(
xnn_operator_t ceiling_op,
size_t batch_size,
const float* input,
float* output,
pthreadpool_t threadpool)
{
if (ceiling_op->type != xnn_operator_type_ceiling_nc_f32) {
xnn_log_error("failed to setup operator: operator type mismatch (expected %s, got %s)",
xnn_operator_type_to_string(xnn_operator_type_ceiling_nc_f32),
xnn_operator_type_to_string(ceiling_op->type));
return xnn_status_invalid_parameter;
}
ceiling_op->state = xnn_run_state_invalid;
return setup_unary_elementwise_nc(
ceiling_op,
batch_size, input, output,
2 /* log2(sizeof(float)) */,
&ceiling_op->params.f32_rnd, sizeof(ceiling_op->params.f32_rnd));
}
enum xnn_status xnn_setup_clamp_nc_u8(
xnn_operator_t clamp_op,
size_t batch_size,
const uint8_t* input,
uint8_t* output,
pthreadpool_t threadpool)
{
if (clamp_op->type != xnn_operator_type_clamp_nc_u8) {
xnn_log_error("failed to setup operator: operator type mismatch (expected %s, got %s)",
xnn_operator_type_to_string(xnn_operator_type_clamp_nc_u8),
xnn_operator_type_to_string(clamp_op->type));
return xnn_status_invalid_parameter;
}
clamp_op->state = xnn_run_state_invalid;
return setup_unary_elementwise_nc(
clamp_op,
batch_size, input, output,
0 /* log2(sizeof(uint8_t)) */,
&clamp_op->params.u8_minmax, sizeof(clamp_op->params.u8_minmax));
}
enum xnn_status xnn_setup_clamp_nc_f32(
xnn_operator_t clamp_op,
size_t batch_size,
const float* input,
float* output,
pthreadpool_t threadpool)
{
if (clamp_op->type != xnn_operator_type_clamp_nc_f32) {
xnn_log_error("failed to setup operator: operator type mismatch (expected %s, got %s)",
xnn_operator_type_to_string(xnn_operator_type_clamp_nc_f32),
xnn_operator_type_to_string(clamp_op->type));
return xnn_status_invalid_parameter;
}
clamp_op->state = xnn_run_state_invalid;
return setup_unary_elementwise_nc(
clamp_op,
batch_size, input, output,
2 /* log2(sizeof(float)) */,
&clamp_op->params.f32_minmax, sizeof(clamp_op->params.f32_minmax));
}
enum xnn_status xnn_setup_copy_nc_x32(
xnn_operator_t copy_op,
size_t batch_size,
const void* input,
void* output,
pthreadpool_t threadpool)
{
if (copy_op->type != xnn_operator_type_copy_nc_x32) {
xnn_log_error("failed to setup operator: operator type mismatch (expected %s, got %s)",
xnn_operator_type_to_string(xnn_operator_type_copy_nc_x32),
xnn_operator_type_to_string(copy_op->type));
return xnn_status_invalid_parameter;
}
copy_op->state = xnn_run_state_invalid;
return setup_unary_elementwise_nc(
copy_op,
batch_size, input, output,
2 /* log2(sizeof(uint32_t)) */,
NULL, 0);
}
enum xnn_status xnn_setup_elu_nc_f32(
xnn_operator_t elu_op,
size_t batch_size,
const float* input,
float* output,
pthreadpool_t threadpool)
{
if (elu_op->type != xnn_operator_type_elu_nc_f32) {
xnn_log_error("failed to setup operator: operator type mismatch (expected %s, got %s)",
xnn_operator_type_to_string(xnn_operator_type_elu_nc_f32),
xnn_operator_type_to_string(elu_op->type));
return xnn_status_invalid_parameter;
}
elu_op->state = xnn_run_state_invalid;
return setup_unary_elementwise_nc(
elu_op,
batch_size, input, output,
2 /* log2(sizeof(float)) */,
&elu_op->params.f32_elu, sizeof(elu_op->params.f32_elu));
}
enum xnn_status xnn_setup_floor_nc_f32(
xnn_operator_t floor_op,
size_t batch_size,
const float* input,
float* output,
pthreadpool_t threadpool)
{
if (floor_op->type != xnn_operator_type_floor_nc_f32) {
xnn_log_error("failed to setup operator: operator type mismatch (expected %s, got %s)",
xnn_operator_type_to_string(xnn_operator_type_floor_nc_f32),
xnn_operator_type_to_string(floor_op->type));
return xnn_status_invalid_parameter;
}
floor_op->state = xnn_run_state_invalid;
return setup_unary_elementwise_nc(
floor_op,
batch_size, input, output,
2 /* log2(sizeof(float)) */,
&floor_op->params.f32_rnd, sizeof(floor_op->params.f32_rnd));
}
enum xnn_status xnn_setup_hardswish_nc_f16(
xnn_operator_t hardswish_op,
size_t batch_size,
const void* input,
void* output,
pthreadpool_t threadpool)
{
if (hardswish_op->type != xnn_operator_type_hardswish_nc_f16) {
xnn_log_error("failed to setup operator: operator type mismatch (expected %s, got %s)",
xnn_operator_type_to_string(xnn_operator_type_hardswish_nc_f16),
xnn_operator_type_to_string(hardswish_op->type));
return xnn_status_invalid_parameter;
}
hardswish_op->state = xnn_run_state_invalid;
return setup_unary_elementwise_nc(
hardswish_op,
batch_size, input, output,
1 /* log2(sizeof(half)) */,
&hardswish_op->params.f16_hswish, sizeof(hardswish_op->params.f16_hswish));
}
enum xnn_status xnn_setup_hardswish_nc_f32(
xnn_operator_t hardswish_op,
size_t batch_size,
const float* input,
float* output,
pthreadpool_t threadpool)
{
if (hardswish_op->type != xnn_operator_type_hardswish_nc_f32) {
xnn_log_error("failed to setup operator: operator type mismatch (expected %s, got %s)",
xnn_operator_type_to_string(xnn_operator_type_hardswish_nc_f32),
xnn_operator_type_to_string(hardswish_op->type));
return xnn_status_invalid_parameter;
}
hardswish_op->state = xnn_run_state_invalid;
return setup_unary_elementwise_nc(
hardswish_op,
batch_size, input, output,
2 /* log2(sizeof(float)) */,
&hardswish_op->params.f32_hswish, sizeof(hardswish_op->params.f32_hswish));
}
enum xnn_status xnn_setup_leaky_relu_nc_f32(
xnn_operator_t leaky_relu_op,
size_t batch_size,
const float* input,
float* output,
pthreadpool_t threadpool)
{
if (leaky_relu_op->type != xnn_operator_type_leaky_relu_nc_f32) {
xnn_log_error("failed to setup operator: operator type mismatch (expected %s, got %s)",
xnn_operator_type_to_string(xnn_operator_type_leaky_relu_nc_f32),
xnn_operator_type_to_string(leaky_relu_op->type));
return xnn_status_invalid_parameter;
}
leaky_relu_op->state = xnn_run_state_invalid;
return setup_unary_elementwise_nc(
leaky_relu_op,
batch_size, input, output,
2 /* log2(sizeof(float)) */,
&leaky_relu_op->params.f32_lrelu, sizeof(leaky_relu_op->params.f32_lrelu));
}
enum xnn_status xnn_setup_negate_nc_f32(
xnn_operator_t negate_op,
size_t batch_size,
const float* input,
float* output,
pthreadpool_t threadpool)
{
if (negate_op->type != xnn_operator_type_negate_nc_f32) {
xnn_log_error("failed to setup operator: operator type mismatch (expected %s, got %s)",
xnn_operator_type_to_string(xnn_operator_type_negate_nc_f32),
xnn_operator_type_to_string(negate_op->type));
return xnn_status_invalid_parameter;
}
negate_op->state = xnn_run_state_invalid;
return setup_unary_elementwise_nc(
negate_op,
batch_size, input, output,
2 /* log2(sizeof(float)) */,
&negate_op->params.f32_neg, sizeof(negate_op->params.f32_neg));
}
enum xnn_status xnn_setup_sigmoid_nc_f32(
xnn_operator_t sigmoid_op,
size_t batch_size,
const float* input,
float* output,
pthreadpool_t threadpool)
{
if (sigmoid_op->type != xnn_operator_type_sigmoid_nc_f32) {
xnn_log_error("failed to setup operator: operator type mismatch (expected %s, got %s)",
xnn_operator_type_to_string(xnn_operator_type_sigmoid_nc_f32),
xnn_operator_type_to_string(sigmoid_op->type));
return xnn_status_invalid_parameter;
}
sigmoid_op->state = xnn_run_state_invalid;
return setup_unary_elementwise_nc(
sigmoid_op,
batch_size, input, output,
2 /* log2(sizeof(float)) */,
NULL, 0);
}
enum xnn_status xnn_setup_square_nc_f32(
xnn_operator_t square_op,
size_t batch_size,
const float* input,
float* output,
pthreadpool_t threadpool)
{
if (square_op->type != xnn_operator_type_square_nc_f32) {
xnn_log_error("failed to setup operator: operator type mismatch (expected %s, got %s)",
xnn_operator_type_to_string(xnn_operator_type_square_nc_f32),
xnn_operator_type_to_string(square_op->type));
return xnn_status_invalid_parameter;
}
square_op->state = xnn_run_state_invalid;
return setup_unary_elementwise_nc(
square_op,
batch_size, input, output,
2 /* log2(sizeof(float)) */,
NULL, 0);
}
enum xnn_status xnn_setup_square_root_nc_f32(
xnn_operator_t sqrt_op,
size_t batch_size,
const float* input,
float* output,
pthreadpool_t threadpool)
{
if (sqrt_op->type != xnn_operator_type_square_root_nc_f32) {
xnn_log_error("failed to setup operator: operator type mismatch (expected %s, got %s)",
xnn_operator_type_to_string(xnn_operator_type_square_root_nc_f32),
xnn_operator_type_to_string(sqrt_op->type));
return xnn_status_invalid_parameter;
}
sqrt_op->state = xnn_run_state_invalid;
return setup_unary_elementwise_nc(
sqrt_op,
batch_size, input, output,
2 /* log2(sizeof(float)) */,
NULL, 0);
}
enum xnn_status xnn_setup_truncation_nc_f32(
xnn_operator_t truncation_op,
size_t batch_size,
const float* input,
float* output,
pthreadpool_t threadpool)
{
if (truncation_op->type != xnn_operator_type_truncation_nc_f32) {
xnn_log_error("failed to setup operator: operator type mismatch (expected %s, got %s)",
xnn_operator_type_to_string(xnn_operator_type_truncation_nc_f32),
xnn_operator_type_to_string(truncation_op->type));
return xnn_status_invalid_parameter;
}
truncation_op->state = xnn_run_state_invalid;
return setup_unary_elementwise_nc(
truncation_op,
batch_size, input, output,
2 /* log2(sizeof(float)) */,
&truncation_op->params.f32_rnd, sizeof(truncation_op->params.f32_rnd));
}