test / src /f32-gavgpool /f32-gavgpool-7x-minmax-neon-c4.c
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// Copyright 2019 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 <arm_neon.h>
#include <xnnpack/gavgpool.h>
void xnn_f32_gavgpool_minmax_ukernel_7x__neon_c4(
size_t rows,
size_t channels,
const float* input,
size_t input_stride,
const float* zero,
float* output,
const union xnn_f32_scaleminmax_params params[restrict XNN_MIN_ELEMENTS(1)]) XNN_OOB_READS
{
assert(rows != 0);
assert(rows <= 7);
assert(channels != 0);
const float* i0 = input;
const float* i1 = (const float*) ((uintptr_t) i0 + input_stride);
if (rows < 2) {
i1 = zero;
}
const float* i2 = (const float*) ((uintptr_t) i1 + input_stride);
if (rows <= 2) {
i2 = zero;
}
const float* i3 = (const float*) ((uintptr_t) i2 + input_stride);
if (rows < 4) {
i3 = zero;
}
const float* i4 = (const float*) ((uintptr_t) i3 + input_stride);
if (rows <= 4) {
i4 = zero;
}
const float* i5 = (const float*) ((uintptr_t) i4 + input_stride);
if (rows < 6) {
i5 = zero;
}
const float* i6 = (const float*) ((uintptr_t) i5 + input_stride);
if (rows <= 6) {
i6 = zero;
}
const float32x4_t vscale = vld1q_dup_f32(&params->scalar.scale);
const float32x4_t vmin = vld1q_dup_f32(&params->scalar.min);
const float32x4_t vmax = vld1q_dup_f32(&params->scalar.max);
while (channels >= 4) {
const float32x4_t vi0 = vld1q_f32(i0); i0 += 4;
const float32x4_t vi1 = vld1q_f32(i1); i1 += 4;
const float32x4_t vi2 = vld1q_f32(i2); i2 += 4;
const float32x4_t vi3 = vld1q_f32(i3); i3 += 4;
const float32x4_t vi4 = vld1q_f32(i4); i4 += 4;
const float32x4_t vi5 = vld1q_f32(i5); i5 += 4;
const float32x4_t vi6 = vld1q_f32(i6); i6 += 4;
const float32x4_t vsum01 = vaddq_f32(vi0, vi1);
const float32x4_t vsum23 = vaddq_f32(vi2, vi3);
const float32x4_t vsum45 = vaddq_f32(vi4, vi5);
const float32x4_t vsum016 = vaddq_f32(vsum01, vi6);
const float32x4_t vsum2345 = vaddq_f32(vsum23, vsum45);
const float32x4_t vsum = vaddq_f32(vsum016, vsum2345);
float32x4_t vout = vmulq_f32(vsum, vscale);
vout = vmaxq_f32(vout, vmin);
vout = vminq_f32(vout, vmax);
vst1q_f32(output, vout); output += 4;
channels -= 4;
}
if (channels != 0) {
const float32x4_t vi0 = vld1q_f32(i0);
const float32x4_t vi1 = vld1q_f32(i1);
const float32x4_t vi2 = vld1q_f32(i2);
const float32x4_t vi3 = vld1q_f32(i3);
const float32x4_t vi4 = vld1q_f32(i4);
const float32x4_t vi5 = vld1q_f32(i5);
const float32x4_t vi6 = vld1q_f32(i6);
const float32x4_t vsum01 = vaddq_f32(vi0, vi1);
const float32x4_t vsum23 = vaddq_f32(vi2, vi3);
const float32x4_t vsum45 = vaddq_f32(vi4, vi5);
const float32x4_t vsum016 = vaddq_f32(vsum01, vi6);
const float32x4_t vsum2345 = vaddq_f32(vsum23, vsum45);
const float32x4_t vsum = vaddq_f32(vsum016, vsum2345);
float32x4_t vout = vmulq_f32(vsum, vscale);
vout = vmaxq_f32(vout, vmin);
vout = vminq_f32(vout, vmax);
float32x2_t vout_lo = vget_low_f32(vout);
if (channels & 2) {
vst1_f32(output, vout_lo); output += 2;
vout_lo = vget_high_f32(vout);
}
if (channels & 1) {
vst1_lane_f32(output, vout_lo, 0);
}
}
}