// Auto-generated file. Do not edit!
//   Template: src/f32-dwconv/up-wasmsimd.c.in
//   Generator: tools/xngen
//
// 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 <wasm_simd128.h>

#include <xnnpack/dwconv.h>


void xnn_f32_dwconv_ukernel_up8x4__wasmrelaxedsimd_fma(
    size_t channels,
    size_t output_width,
    const float** input,
    const float* weights,
    float* output,
    size_t input_stride,
    size_t output_increment,
    size_t input_offset,
    const float* zero,
    const union xnn_f32_default_params params[restrict XNN_MIN_ELEMENTS(1)]) XNN_OOB_READS
{
  assert(channels != 0);
  assert(output_width != 0);

  do {
    const float* i0 = input[0];
    assert(i0 != NULL);
    if XNN_UNPREDICTABLE(i0 != zero) {
      i0 = (const float*) ((uintptr_t) i0 + input_offset);
    }
    const float* i1 = input[1];
    assert(i1 != NULL);
    if XNN_UNPREDICTABLE(i1 != zero) {
      i1 = (const float*) ((uintptr_t) i1 + input_offset);
    }
    const float* i2 = input[2];
    assert(i2 != NULL);
    if XNN_UNPREDICTABLE(i2 != zero) {
      i2 = (const float*) ((uintptr_t) i2 + input_offset);
    }
    const float* i3 = input[3];
    assert(i3 != NULL);
    if XNN_UNPREDICTABLE(i3 != zero) {
      i3 = (const float*) ((uintptr_t) i3 + input_offset);
    }
    input = (const float**) ((uintptr_t) input + input_stride);

    size_t c = channels;
    const float* w = weights;
    for (; c >= 8; c -= 8) {
      v128_t vacc0123p0 = wasm_v128_load(w);
      v128_t vacc4567p0 = wasm_v128_load(w + 4);


      const v128_t vi0x0123 = wasm_v128_load(i0);
      const v128_t vi0x4567 = wasm_v128_load(i0 + 4);
      i0 += 8;

      const v128_t vk0x0123 = wasm_v128_load(w + 8);
      const v128_t vk0x4567 = wasm_v128_load(w + 12);
      vacc0123p0 = __builtin_wasm_fma_f32x4(vacc0123p0, vi0x0123, vk0x0123);
      vacc4567p0 = __builtin_wasm_fma_f32x4(vacc4567p0, vi0x4567, vk0x4567);

      const v128_t vi1x0123 = wasm_v128_load(i1);
      const v128_t vi1x4567 = wasm_v128_load(i1 + 4);
      i1 += 8;

      const v128_t vk1x0123 = wasm_v128_load(w + 16);
      const v128_t vk1x4567 = wasm_v128_load(w + 20);
      vacc0123p0 = __builtin_wasm_fma_f32x4(vacc0123p0, vi1x0123, vk1x0123);
      vacc4567p0 = __builtin_wasm_fma_f32x4(vacc4567p0, vi1x4567, vk1x4567);

      const v128_t vi2x0123 = wasm_v128_load(i2);
      const v128_t vi2x4567 = wasm_v128_load(i2 + 4);
      i2 += 8;

      const v128_t vk2x0123 = wasm_v128_load(w + 24);
      const v128_t vk2x4567 = wasm_v128_load(w + 28);
      vacc0123p0 = __builtin_wasm_fma_f32x4(vacc0123p0, vi2x0123, vk2x0123);
      vacc4567p0 = __builtin_wasm_fma_f32x4(vacc4567p0, vi2x4567, vk2x4567);

      const v128_t vi3x0123 = wasm_v128_load(i3);
      const v128_t vi3x4567 = wasm_v128_load(i3 + 4);
      i3 += 8;

      const v128_t vk3x0123 = wasm_v128_load(w + 32);
      const v128_t vk3x4567 = wasm_v128_load(w + 36);
      vacc0123p0 = __builtin_wasm_fma_f32x4(vacc0123p0, vi3x0123, vk3x0123);
      vacc4567p0 = __builtin_wasm_fma_f32x4(vacc4567p0, vi3x4567, vk3x4567);

      w += 40;


      const v128_t vacc0123 = vacc0123p0;
      const v128_t vacc4567 = vacc4567p0;

      wasm_v128_store(output, vacc0123);
      wasm_v128_store(output + 4, vacc4567);
      output += 8;
    }
    for (; c >= 4; c -= 4) {
      v128_t vacc0123p0 = wasm_v128_load(w);

      const v128_t vi0x0123 = wasm_v128_load(i0);
      i0 += 4;

      const v128_t vk0x0123 = wasm_v128_load(w + 8);
      vacc0123p0 = __builtin_wasm_fma_f32x4(vacc0123p0, vi0x0123, vk0x0123);

      const v128_t vi1x0123 = wasm_v128_load(i1);
      i1 += 4;

      const v128_t vk1x0123 = wasm_v128_load(w + 16);
      vacc0123p0 = __builtin_wasm_fma_f32x4(vacc0123p0, vi1x0123, vk1x0123);

      const v128_t vi2x0123 = wasm_v128_load(i2);
      i2 += 4;

      const v128_t vk2x0123 = wasm_v128_load(w + 24);
      vacc0123p0 = __builtin_wasm_fma_f32x4(vacc0123p0, vi2x0123, vk2x0123);

      const v128_t vi3x0123 = wasm_v128_load(i3);
      i3 += 4;

      const v128_t vk3x0123 = wasm_v128_load(w + 32);
      vacc0123p0 = __builtin_wasm_fma_f32x4(vacc0123p0, vi3x0123, vk3x0123);

      w += 4;


      const v128_t vacc0123 = vacc0123p0;

      wasm_v128_store(output, vacc0123);
      output += 4;
    }
    if XNN_UNLIKELY(c != 0) {
      v128_t vacc0123p0 = wasm_v128_load(w);

      const v128_t vi0x0123 = wasm_v128_load(i0);
      const v128_t vk0x0123 = wasm_v128_load(w + 8);
      vacc0123p0 = __builtin_wasm_fma_f32x4(vacc0123p0, vi0x0123, vk0x0123);

      const v128_t vi1x0123 = wasm_v128_load(i1);
      const v128_t vk1x0123 = wasm_v128_load(w + 16);
      vacc0123p0 = __builtin_wasm_fma_f32x4(vacc0123p0, vi1x0123, vk1x0123);

      const v128_t vi2x0123 = wasm_v128_load(i2);
      const v128_t vk2x0123 = wasm_v128_load(w + 24);
      vacc0123p0 = __builtin_wasm_fma_f32x4(vacc0123p0, vi2x0123, vk2x0123);

      const v128_t vi3x0123 = wasm_v128_load(i3);
      const v128_t vk3x0123 = wasm_v128_load(w + 32);
      vacc0123p0 = __builtin_wasm_fma_f32x4(vacc0123p0, vi3x0123, vk3x0123);


      v128_t vacc0123 = vacc0123p0;

      if (c & 2) {
        *((double*) output) = wasm_f64x2_extract_lane(vacc0123, 0);
        vacc0123 = wasm_v32x4_shuffle(vacc0123, vacc0123, 2, 3, 2, 3);
        output += 2;
      }
      if (c & 1) {
        *output = wasm_f32x4_extract_lane(vacc0123, 0);
        output += 1;
      }
    }

    output = (float*) ((uintptr_t) output + output_increment);
  } while (--output_width != 0);
}