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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=8 sts=2 et sw=2 tw=80: */
/* This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */

#define SIMD_COMPILE_SSE2

#include "FilterProcessingSIMD-inl.h"

#ifndef USE_SSE2
static_assert(
    false, "If this file is built, FilterProcessing.h should know about it!");
#endif

namespace mozilla {
namespace gfx {

void FilterProcessing::ExtractAlpha_SSE2(const IntSize& size,
                                         uint8_t* sourceData,
                                         int32_t sourceStride,
                                         uint8_t* alphaData,
                                         int32_t alphaStride) {
  ExtractAlpha_SIMD<__m128i>(size, sourceData, sourceStride, alphaData,
                             alphaStride);
}

already_AddRefed<DataSourceSurface> FilterProcessing::ConvertToB8G8R8A8_SSE2(
    SourceSurface* aSurface) {
  return ConvertToB8G8R8A8_SIMD<__m128i>(aSurface);
}

already_AddRefed<DataSourceSurface> FilterProcessing::ApplyBlending_SSE2(
    DataSourceSurface* aInput1, DataSourceSurface* aInput2,
    BlendMode aBlendMode) {
  return ApplyBlending_SIMD<__m128i, __m128i, __m128i>(aInput1, aInput2,
                                                       aBlendMode);
}

void FilterProcessing::ApplyMorphologyHorizontal_SSE2(
    uint8_t* aSourceData, int32_t aSourceStride, uint8_t* aDestData,
    int32_t aDestStride, const IntRect& aDestRect, int32_t aRadius,
    MorphologyOperator aOp) {
  ApplyMorphologyHorizontal_SIMD<__m128i, __m128i>(aSourceData, aSourceStride,
                                                   aDestData, aDestStride,
                                                   aDestRect, aRadius, aOp);
}

void FilterProcessing::ApplyMorphologyVertical_SSE2(
    uint8_t* aSourceData, int32_t aSourceStride, uint8_t* aDestData,
    int32_t aDestStride, const IntRect& aDestRect, int32_t aRadius,
    MorphologyOperator aOp) {
  ApplyMorphologyVertical_SIMD<__m128i, __m128i>(aSourceData, aSourceStride,
                                                 aDestData, aDestStride,
                                                 aDestRect, aRadius, aOp);
}

already_AddRefed<DataSourceSurface> FilterProcessing::ApplyColorMatrix_SSE2(
    DataSourceSurface* aInput, const Matrix5x4& aMatrix) {
  return ApplyColorMatrix_SIMD<__m128i, __m128i, __m128i>(aInput, aMatrix);
}

void FilterProcessing::ApplyComposition_SSE2(DataSourceSurface* aSource,
                                             DataSourceSurface* aDest,
                                             CompositeOperator aOperator) {
  return ApplyComposition_SIMD<__m128i, __m128i, __m128i>(aSource, aDest,
                                                          aOperator);
}

void FilterProcessing::SeparateColorChannels_SSE2(
    const IntSize& size, uint8_t* sourceData, int32_t sourceStride,
    uint8_t* channel0Data, uint8_t* channel1Data, uint8_t* channel2Data,
    uint8_t* channel3Data, int32_t channelStride) {
  SeparateColorChannels_SIMD<__m128i>(size, sourceData, sourceStride,
                                      channel0Data, channel1Data, channel2Data,
                                      channel3Data, channelStride);
}

void FilterProcessing::CombineColorChannels_SSE2(
    const IntSize& size, int32_t resultStride, uint8_t* resultData,
    int32_t channelStride, uint8_t* channel0Data, uint8_t* channel1Data,
    uint8_t* channel2Data, uint8_t* channel3Data) {
  CombineColorChannels_SIMD<__m128i>(size, resultStride, resultData,
                                     channelStride, channel0Data, channel1Data,
                                     channel2Data, channel3Data);
}

void FilterProcessing::DoPremultiplicationCalculation_SSE2(
    const IntSize& aSize, uint8_t* aTargetData, int32_t aTargetStride,
    uint8_t* aSourceData, int32_t aSourceStride) {
  DoPremultiplicationCalculation_SIMD<__m128i, __m128i, __m128i>(
      aSize, aTargetData, aTargetStride, aSourceData, aSourceStride);
}

void FilterProcessing::DoUnpremultiplicationCalculation_SSE2(
    const IntSize& aSize, uint8_t* aTargetData, int32_t aTargetStride,
    uint8_t* aSourceData, int32_t aSourceStride) {
  DoUnpremultiplicationCalculation_SIMD<__m128i, __m128i>(
      aSize, aTargetData, aTargetStride, aSourceData, aSourceStride);
}

void FilterProcessing::DoOpacityCalculation_SSE2(
    const IntSize& aSize, uint8_t* aTargetData, int32_t aTargetStride,
    uint8_t* aSourceData, int32_t aSourceStride, Float aValue) {
  DoOpacityCalculation_SIMD<__m128i, __m128i>(
      aSize, aTargetData, aTargetStride, aSourceData, aSourceStride, aValue);
}

already_AddRefed<DataSourceSurface> FilterProcessing::RenderTurbulence_SSE2(
    const IntSize& aSize, const Point& aOffset, const Size& aBaseFrequency,
    int32_t aSeed, int aNumOctaves, TurbulenceType aType, bool aStitch,
    const Rect& aTileRect) {
  return RenderTurbulence_SIMD<__m128, __m128i, __m128i>(
      aSize, aOffset, aBaseFrequency, aSeed, aNumOctaves, aType, aStitch,
      aTileRect);
}

already_AddRefed<DataSourceSurface>
FilterProcessing::ApplyArithmeticCombine_SSE2(DataSourceSurface* aInput1,
                                              DataSourceSurface* aInput2,
                                              Float aK1, Float aK2, Float aK3,
                                              Float aK4) {
  return ApplyArithmeticCombine_SIMD<__m128i, __m128i, __m128i>(
      aInput1, aInput2, aK1, aK2, aK3, aK4);
}

}  // namespace gfx
}  // namespace mozilla