/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* 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/. */

#include "SurfacePipe.h"

#include <utility>

#include "mozilla/ClearOnShutdown.h"
#include "mozilla/DebugOnly.h"
#include "Decoder.h"

namespace mozilla {
namespace image {

using namespace gfx;

using std::min;

/* static */ UniquePtr<NullSurfaceSink> NullSurfaceSink::sSingleton;

/* static */ NullSurfaceSink*
NullSurfaceSink::Singleton()
{
  if (!sSingleton) {
    MOZ_ASSERT(NS_IsMainThread());
    sSingleton = MakeUnique<NullSurfaceSink>();
    ClearOnShutdown(&sSingleton);

    DebugOnly<nsresult> rv = sSingleton->Configure(NullSurfaceConfig { });
    MOZ_ASSERT(NS_SUCCEEDED(rv), "Couldn't configure a NullSurfaceSink?");
  }

  return sSingleton.get();
}

nsresult
NullSurfaceSink::Configure(const NullSurfaceConfig& aConfig)
{
  // Note that the choice of uint32_t as the pixel size here is more or less
  // arbitrary, since you cannot write to a NullSurfaceSink anyway, but uint32_t
  // is a natural choice since most SurfacePipes will be for BGRA/BGRX surfaces.
  ConfigureFilter(IntSize(), sizeof(uint32_t));
  return NS_OK;
}

Maybe<SurfaceInvalidRect>
AbstractSurfaceSink::TakeInvalidRect()
{
  if (mInvalidRect.IsEmpty()) {
    return Nothing();
  }

  SurfaceInvalidRect invalidRect;
  invalidRect.mInputSpaceRect = invalidRect.mOutputSpaceRect = mInvalidRect;

  // Forget about the invalid rect we're returning.
  mInvalidRect = IntRect();

  return Some(invalidRect);
}

uint8_t*
AbstractSurfaceSink::DoResetToFirstRow()
{
  mRow = 0;
  return GetRowPointer();
}

uint8_t*
AbstractSurfaceSink::DoAdvanceRow()
{
  if (mRow >= uint32_t(InputSize().height)) {
    return nullptr;
  }

  // If we're vertically flipping the output, we need to flip the invalid rect. Since we're
  // dealing with an axis-aligned rect, only the y coordinate needs to change.
  int32_t invalidY = mFlipVertically
                   ? InputSize().height - (mRow + 1)
                   : mRow;
  mInvalidRect.UnionRect(mInvalidRect,
                         IntRect(0, invalidY, InputSize().width, 1));

  mRow = min(uint32_t(InputSize().height), mRow + 1);

  return mRow < uint32_t(InputSize().height) ? GetRowPointer()
                                             : nullptr;
}

nsresult
SurfaceSink::Configure(const SurfaceConfig& aConfig)
{
  // For non-paletted surfaces, the surface size is just the output size.
  IntSize surfaceSize = aConfig.mOutputSize;

  // Non-paletted surfaces should not have frame rects, so we just pass
  // AllocateFrame() a frame rect which covers the entire surface.
  IntRect frameRect(0, 0, surfaceSize.width, surfaceSize.height);

  // Allocate the frame.
  // XXX(seth): Once every Decoder subclass uses SurfacePipe, we probably want
  // to allocate the frame directly here and get rid of Decoder::AllocateFrame
  // altogether.
  nsresult rv = aConfig.mDecoder->AllocateFrame(surfaceSize,
                                                frameRect,
                                                aConfig.mFormat,
                                                /* aPaletteDepth */ 0,
                                                aConfig.mAnimParams);
  if (NS_FAILED(rv)) {
    return rv;
  }

  mImageData = aConfig.mDecoder->mImageData;
  mImageDataLength = aConfig.mDecoder->mImageDataLength;
  mFlipVertically = aConfig.mFlipVertically;

  MOZ_ASSERT(mImageData);
  MOZ_ASSERT(mImageDataLength ==
               uint32_t(surfaceSize.width * surfaceSize.height * sizeof(uint32_t)));

  ConfigureFilter(surfaceSize, sizeof(uint32_t));
  return NS_OK;
}

uint8_t*
SurfaceSink::GetRowPointer() const
{
  // If we're flipping vertically, reverse the order in which we traverse the
  // rows.
  uint32_t row = mFlipVertically
               ? InputSize().height - (mRow + 1)
               : mRow;

  uint8_t* rowPtr = mImageData + row * InputSize().width * sizeof(uint32_t);

  MOZ_ASSERT(rowPtr >= mImageData);
  MOZ_ASSERT(rowPtr < mImageData + mImageDataLength);
  MOZ_ASSERT(rowPtr + InputSize().width * sizeof(uint32_t) <=
               mImageData + mImageDataLength);

  return rowPtr;
}


nsresult
PalettedSurfaceSink::Configure(const PalettedSurfaceConfig& aConfig)
{
  // For paletted surfaces, the surface size is the size of the frame rect.
  IntSize surfaceSize = aConfig.mFrameRect.Size();

  // Allocate the frame.
  // XXX(seth): Once every Decoder subclass uses SurfacePipe, we probably want
  // to allocate the frame directly here and get rid of Decoder::AllocateFrame
  // altogether.
  nsresult rv = aConfig.mDecoder->AllocateFrame(aConfig.mOutputSize,
                                                aConfig.mFrameRect,
                                                aConfig.mFormat,
                                                aConfig.mPaletteDepth,
                                                aConfig.mAnimParams);
  if (NS_FAILED(rv)) {
    return rv;
  }

  mImageData = aConfig.mDecoder->mImageData;
  mImageDataLength = aConfig.mDecoder->mImageDataLength;
  mFlipVertically = aConfig.mFlipVertically;
  mFrameRect = aConfig.mFrameRect;

  MOZ_ASSERT(mImageData);
  MOZ_ASSERT(mImageDataLength ==
               uint32_t(mFrameRect.width * mFrameRect.height * sizeof(uint8_t)));

  ConfigureFilter(surfaceSize, sizeof(uint8_t));
  return NS_OK;
}

uint8_t*
PalettedSurfaceSink::GetRowPointer() const
{
  // If we're flipping vertically, reverse the order in which we traverse the
  // rows.
  uint32_t row = mFlipVertically
               ? InputSize().height - (mRow + 1)
               : mRow;

  uint8_t* rowPtr = mImageData + row * InputSize().width * sizeof(uint8_t);

  MOZ_ASSERT(rowPtr >= mImageData);
  MOZ_ASSERT(rowPtr < mImageData + mImageDataLength);
  MOZ_ASSERT(rowPtr + InputSize().width * sizeof(uint8_t) <=
               mImageData + mImageDataLength);

  return rowPtr;
}

} // namespace image
} // namespace mozilla