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/* -*- 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/. */

/**
 * A SurfacePipe is a pipeline that consists of a series of SurfaceFilters
 * terminating in a SurfaceSink. Each SurfaceFilter transforms the image data in
 * some way before the SurfaceSink ultimately writes it to the surface. This
 * design allows for each transformation to be tested independently, for the
 * transformations to be combined as needed to meet the needs of different
 * situations, and for all image decoders to share the same code for these
 * transformations.
 *
 * Writing to the SurfacePipe is done using lambdas that act as generator
 * functions. Because the SurfacePipe machinery controls where the writes take
 * place, a bug in an image decoder cannot cause a buffer overflow of the
 * underlying surface.
 */

#ifndef mozilla_image_SurfacePipe_h
#define mozilla_image_SurfacePipe_h

#include <stdint.h>

#include "nsDebug.h"

#include "mozilla/Likely.h"
#include "mozilla/Maybe.h"
#include "mozilla/Move.h"
#include "mozilla/UniquePtr.h"
#include "mozilla/Unused.h"
#include "mozilla/Variant.h"
#include "mozilla/gfx/2D.h"

#include "AnimationParams.h"

namespace mozilla {
namespace image {

class Decoder;

/**
 * An invalid rect for a surface. Results are given both in the space of the
 * input image (i.e., before any SurfaceFilters are applied) and in the space
 * of the output surface (after all SurfaceFilters).
 */
struct SurfaceInvalidRect
{
  gfx::IntRect mInputSpaceRect;   /// The invalid rect in pre-SurfacePipe space.
  gfx::IntRect mOutputSpaceRect;  /// The invalid rect in post-SurfacePipe space.
};

/**
 * An enum used to allow the lambdas passed to WritePixels() to communicate
 * their state to the caller.
 */
enum class WriteState : uint8_t
{
  NEED_MORE_DATA,  /// The lambda ran out of data.

  FINISHED,        /// The lambda is done writing to the surface; future writes
                   /// will fail.

  FAILURE          /// The lambda encountered an error. The caller may recover
                   /// if possible and continue to write. (This never indicates
                   /// an error in the SurfacePipe machinery itself; it's only
                   /// generated by the lambdas.)
};

/**
 * A template alias used to make the return value of WritePixels() lambdas
 * (which may return either a pixel value or a WriteState) easier to specify.
 */
template <typename PixelType>
using NextPixel = Variant<PixelType, WriteState>;

/**
 * SurfaceFilter is the abstract superclass of SurfacePipe pipeline stages.  It
 * implements the the code that actually writes to the surface - WritePixels()
 * and the other Write*() methods - which are non-virtual for efficiency.
 *
 * SurfaceFilter's API is nonpublic; only SurfacePipe and other SurfaceFilters
 * should use it. Non-SurfacePipe code should use the methods on SurfacePipe.
 *
 * To implement a SurfaceFilter, it's necessary to subclass SurfaceFilter and
 * implement, at a minimum, the pure virtual methods. It's also necessary to
 * define a Config struct with a Filter typedef member that identifies the
 * matching SurfaceFilter class, and a Configure() template method. See an
 * existing SurfaceFilter subclass, such as RemoveFrameRectFilter, for an
 * example of how the Configure() method must be implemented. It takes a list of
 * Config structs, passes the tail of the list to the next filter in the chain's
 * Configure() method, and then uses the head of the list to configure itself. A
 * SurfaceFilter's Configure() method must also call
 * SurfaceFilter::ConfigureFilter() to provide the Write*() methods with the
 * information they need to do their jobs.
 */
class SurfaceFilter
{
public:
  SurfaceFilter()
    : mRowPointer(nullptr)
    , mCol(0)
    , mPixelSize(0)
  { }

  virtual ~SurfaceFilter() { }

  /**
   * Reset this surface to the first row. It's legal for this filter to throw
   * away any previously written data at this point, as all rows must be written
   * to on every pass.
   *
   * @return a pointer to the buffer for the first row.
   */
  uint8_t* ResetToFirstRow()
  {
    mCol = 0;
    mRowPointer = DoResetToFirstRow();
    return mRowPointer;
  }

  /**
   * Called by WritePixels() to advance this filter to the next row.
   *
   * @return a pointer to the buffer for the next row, or nullptr to indicate
   *         that we've finished the entire surface.
   */
  uint8_t* AdvanceRow()
  {
    mCol = 0;
    mRowPointer = DoAdvanceRow();
    return mRowPointer;
  }

  /// @return a pointer to the buffer for the current row.
  uint8_t* CurrentRowPointer() const { return mRowPointer; }

  /// @return true if we've finished writing to the surface.
  bool IsSurfaceFinished() const { return mRowPointer == nullptr; }

  /// @return the input size this filter expects.
  gfx::IntSize InputSize() const { return mInputSize; }

  /**
   * Write pixels to the surface one at a time by repeatedly calling a lambda
   * that yields pixels. WritePixels() is completely memory safe.
   *
   * Writing continues until every pixel in the surface has been written to
   * (i.e., IsSurfaceFinished() returns true) or the lambda returns a WriteState
   * which WritePixels() will return to the caller.
   *
   * The template parameter PixelType must be uint8_t (for paletted surfaces) or
   * uint32_t (for BGRA/BGRX surfaces) and must be in agreement with the pixel
   * size passed to ConfigureFilter().
   *
   * XXX(seth): We'll remove all support for paletted surfaces in bug 1247520,
   * which means we can remove the PixelType template parameter from this
   * method.
   *
   * @param aFunc A lambda that functions as a generator, yielding the next
   *              pixel in the surface each time it's called. The lambda must
   *              return a NextPixel<PixelType> value.
   *
   * @return A WriteState value indicating the lambda generator's state.
   *         WritePixels() itself will return WriteState::FINISHED if writing
   *         has finished, regardless of the lambda's internal state.
   */
  template <typename PixelType, typename Func>
  WriteState WritePixels(Func aFunc)
  {
    Maybe<WriteState> result;
    while (!(result = DoWritePixelsToRow<PixelType>(Forward<Func>(aFunc)))) { }

    return *result;
  }

  /**
   * A variant of WritePixels() that writes a single row of pixels to the
   * surface one at a time by repeatedly calling a lambda that yields pixels.
   * WritePixelsToRow() is completely memory safe.
   *
   * Writing continues until every pixel in the row has been written to. If the
   * surface is complete at that pointer, WriteState::FINISHED is returned;
   * otherwise, WritePixelsToRow() returns WriteState::NEED_MORE_DATA. The
   * lambda can terminate writing early by returning a WriteState itself, which
   * WritePixelsToRow() will return to the caller.
   *
   * The template parameter PixelType must be uint8_t (for paletted surfaces) or
   * uint32_t (for BGRA/BGRX surfaces) and must be in agreement with the pixel
   * size passed to ConfigureFilter().
   *
   * XXX(seth): We'll remove all support for paletted surfaces in bug 1247520,
   * which means we can remove the PixelType template parameter from this
   * method.
   *
   * @param aFunc A lambda that functions as a generator, yielding the next
   *              pixel in the surface each time it's called. The lambda must
   *              return a NextPixel<PixelType> value.
   *
   * @return A WriteState value indicating the lambda generator's state.
   *         WritePixels() itself will return WriteState::FINISHED if writing
   *         the entire surface has finished, or WriteState::NEED_MORE_DATA if
   *         writing the row has finished, regardless of the lambda's internal
   *         state.
   */
  template <typename PixelType, typename Func>
  WriteState WritePixelsToRow(Func aFunc)
  {
    return DoWritePixelsToRow<PixelType>(Forward<Func>(aFunc))
           .valueOr(WriteState::NEED_MORE_DATA);
  }

  /**
   * Write a row to the surface by copying from a buffer. This is bounds checked
   * and memory safe with respect to the surface, but care must still be taken
   * by the caller not to overread the source buffer. This variant of
   * WriteBuffer() requires a source buffer which contains |mInputSize.width|
   * pixels.
   *
   * The template parameter PixelType must be uint8_t (for paletted surfaces) or
   * uint32_t (for BGRA/BGRX surfaces) and must be in agreement with the pixel
   * size passed to ConfigureFilter().
   *
   * XXX(seth): We'll remove all support for paletted surfaces in bug 1247520,
   * which means we can remove the PixelType template parameter from this
   * method.
   *
   * @param aSource A buffer to copy from. This buffer must be
   *                |mInputSize.width| pixels wide,  which means
   *                |mInputSize.width * sizeof(PixelType)| bytes. May not be
   *                null.
   *
   * @return WriteState::FINISHED if the entire surface has been written to.
   *         Otherwise, returns WriteState::NEED_MORE_DATA. If a null |aSource|
   *         value is passed, returns WriteState::FAILURE.
   */
  template <typename PixelType>
  WriteState WriteBuffer(const PixelType* aSource)
  {
    return WriteBuffer(aSource, 0, mInputSize.width);
  }

  /**
   * Write a row to the surface by copying from a buffer. This is bounds checked
   * and memory safe with respect to the surface, but care must still be taken
   * by the caller not to overread the source buffer. This variant of
   * WriteBuffer() reads at most @aLength pixels from the buffer and writes them
   * to the row starting at @aStartColumn. Any pixels in columns before
   * @aStartColumn or after the pixels copied from the buffer are cleared.
   *
   * Bounds checking failures produce warnings in debug builds because although
   * the bounds checking maintains safety, this kind of failure could indicate a
   * bug in the calling code.
   *
   * The template parameter PixelType must be uint8_t (for paletted surfaces) or
   * uint32_t (for BGRA/BGRX surfaces) and must be in agreement with the pixel
   * size passed to ConfigureFilter().
   *
   * XXX(seth): We'll remove all support for paletted surfaces in bug 1247520,
   * which means we can remove the PixelType template parameter from this
   * method.
   *
   * @param aSource A buffer to copy from. This buffer must be @aLength pixels
   *                wide, which means |aLength * sizeof(PixelType)| bytes. May
   *                not be null.
   * @param aStartColumn The column to start writing to in the row. Columns
   *                     before this are cleared.
   * @param aLength The number of bytes, at most, which may be copied from
   *                @aSource. Fewer bytes may be copied in practice due to
   *                bounds checking.
   *
   * @return WriteState::FINISHED if the entire surface has been written to.
   *         Otherwise, returns WriteState::NEED_MORE_DATA. If a null |aSource|
   *         value is passed, returns WriteState::FAILURE.
   */
  template <typename PixelType>
  WriteState WriteBuffer(const PixelType* aSource,
                         const size_t aStartColumn,
                         const size_t aLength)
  {
    MOZ_ASSERT(mPixelSize == 1 || mPixelSize == 4);
    MOZ_ASSERT_IF(mPixelSize == 1, sizeof(PixelType) == sizeof(uint8_t));
    MOZ_ASSERT_IF(mPixelSize == 4, sizeof(PixelType) == sizeof(uint32_t));

    if (IsSurfaceFinished()) {
      return WriteState::FINISHED;  // Already done.
    }

    if (MOZ_UNLIKELY(!aSource)) {
      NS_WARNING("Passed a null pointer to WriteBuffer");
      return WriteState::FAILURE;
    }

    PixelType* dest = reinterpret_cast<PixelType*>(mRowPointer);

    // Clear the area before |aStartColumn|.
    const size_t prefixLength = std::min<size_t>(mInputSize.width, aStartColumn);
    if (MOZ_UNLIKELY(prefixLength != aStartColumn)) {
      NS_WARNING("Provided starting column is out-of-bounds in WriteBuffer");
    }

    memset(dest, 0, mInputSize.width * sizeof(PixelType));
    dest += prefixLength;

    // Write |aLength| pixels from |aSource| into the row, with bounds checking.
    const size_t bufferLength =
      std::min<size_t>(mInputSize.width - prefixLength, aLength);
    if (MOZ_UNLIKELY(bufferLength != aLength)) {
      NS_WARNING("Provided buffer length is out-of-bounds in WriteBuffer");
    }

    memcpy(dest, aSource, bufferLength * sizeof(PixelType));
    dest += bufferLength;

    // Clear the rest of the row.
    const size_t suffixLength = mInputSize.width - (prefixLength + bufferLength);
    memset(dest, 0, suffixLength * sizeof(PixelType));

    AdvanceRow();

    return IsSurfaceFinished() ? WriteState::FINISHED
                               : WriteState::NEED_MORE_DATA;
  }

  /**
   * Write an empty row to the surface. If some pixels have already been written
   * to this row, they'll be discarded.
   *
   * @return WriteState::FINISHED if the entire surface has been written to.
   *         Otherwise, returns WriteState::NEED_MORE_DATA.
   */
  WriteState WriteEmptyRow()
  {
    if (IsSurfaceFinished()) {
      return WriteState::FINISHED;  // Already done.
    }

    memset(mRowPointer, 0, mInputSize.width * mPixelSize);
    AdvanceRow();

    return IsSurfaceFinished() ? WriteState::FINISHED
                               : WriteState::NEED_MORE_DATA;
  }

  /**
   * Write a row to the surface by calling a lambda that uses a pointer to
   * directly write to the row. This is unsafe because SurfaceFilter can't
   * provide any bounds checking; that's up to the lambda itself. For this
   * reason, the other Write*() methods should be preferred whenever it's
   * possible to use them; WriteUnsafeComputedRow() should be used only when
   * it's absolutely necessary to avoid extra copies or other performance
   * penalties.
   *
   * This method should never be exposed to SurfacePipe consumers; it's strictly
   * for use in SurfaceFilters. If external code needs this method, it should
   * probably be turned into a SurfaceFilter.
   *
   * The template parameter PixelType must be uint8_t (for paletted surfaces) or
   * uint32_t (for BGRA/BGRX surfaces) and must be in agreement with the pixel
   * size passed to ConfigureFilter().
   *
   * XXX(seth): We'll remove all support for paletted surfaces in bug 1247520,
   * which means we can remove the PixelType template parameter from this
   * method.
   *
   * @param aFunc A lambda that writes directly to the row.
   *
   * @return WriteState::FINISHED if the entire surface has been written to.
   *         Otherwise, returns WriteState::NEED_MORE_DATA.
   */
  template <typename PixelType, typename Func>
  WriteState WriteUnsafeComputedRow(Func aFunc)
  {
    MOZ_ASSERT(mPixelSize == 1 || mPixelSize == 4);
    MOZ_ASSERT_IF(mPixelSize == 1, sizeof(PixelType) == sizeof(uint8_t));
    MOZ_ASSERT_IF(mPixelSize == 4, sizeof(PixelType) == sizeof(uint32_t));

    if (IsSurfaceFinished()) {
      return WriteState::FINISHED;  // Already done.
    }

    // Call the provided lambda with a pointer to the buffer for the current
    // row. This is unsafe because we can't do any bounds checking; the lambda
    // itself has to be responsible for that.
    PixelType* rowPtr = reinterpret_cast<PixelType*>(mRowPointer);
    aFunc(rowPtr, mInputSize.width);
    AdvanceRow();

    return IsSurfaceFinished() ? WriteState::FINISHED
                               : WriteState::NEED_MORE_DATA;
  }

  //////////////////////////////////////////////////////////////////////////////
  // Methods Subclasses Should Override
  //////////////////////////////////////////////////////////////////////////////

  /// @return true if this SurfaceFilter can be used with paletted surfaces.
  virtual bool IsValidPalettedPipe() const { return false; }

  /**
   * @return a SurfaceInvalidRect representing the region of the surface that
   *         has been written to since the last time TakeInvalidRect() was
   *         called, or Nothing() if the region is empty (i.e. nothing has been
   *         written).
   */
  virtual Maybe<SurfaceInvalidRect> TakeInvalidRect() = 0;

protected:

  /**
   * Called by ResetToFirstRow() to actually perform the reset. It's legal to
   * throw away any previously written data at this point, as all rows must be
   * written to on every pass.
   */
  virtual uint8_t* DoResetToFirstRow() = 0;

  /**
   * Called by AdvanceRow() to actually advance this filter to the next row.
   *
   * @return a pointer to the buffer for the next row, or nullptr to indicate
   *         that we've finished the entire surface.
   */
  virtual uint8_t* DoAdvanceRow() = 0;


  //////////////////////////////////////////////////////////////////////////////
  // Methods For Internal Use By Subclasses
  //////////////////////////////////////////////////////////////////////////////

  /**
   * Called by subclasses' Configure() methods to initialize the configuration
   * of this filter. After the filter is configured, calls ResetToFirstRow().
   *
   * @param aInputSize The input size of this filter, in pixels. The previous
   *                   filter in the chain will expect to write into rows
   *                   |aInputSize.width| pixels wide.
   * @param aPixelSize How large, in bytes, each pixel in the surface is. This
   *                   should be either 1 for paletted images or 4 for BGRA/BGRX
   *                   images.
   */
  void ConfigureFilter(gfx::IntSize aInputSize, uint8_t aPixelSize)
  {
    mInputSize = aInputSize;
    mPixelSize = aPixelSize;

    ResetToFirstRow();
  }

private:

  /**
   * An internal method used to implement both WritePixels() and
   * WritePixelsToRow(). Those methods differ only in their behavior after a row
   * is successfully written - WritePixels() continues to write another row,
   * while WritePixelsToRow() returns to the caller. This method writes a single
   * row and returns Some() if we either finished the entire surface or the
   * lambda returned a WriteState indicating that we should return to the
   * caller. If the row was successfully written without either of those things
   * happening, it returns Nothing(), allowing WritePixels() and
   * WritePixelsToRow() to implement their respective behaviors.
   */
  template <typename PixelType, typename Func>
  Maybe<WriteState> DoWritePixelsToRow(Func aFunc)
  {
    MOZ_ASSERT(mPixelSize == 1 || mPixelSize == 4);
    MOZ_ASSERT_IF(mPixelSize == 1, sizeof(PixelType) == sizeof(uint8_t));
    MOZ_ASSERT_IF(mPixelSize == 4, sizeof(PixelType) == sizeof(uint32_t));

    if (IsSurfaceFinished()) {
      return Some(WriteState::FINISHED);  // We're already done.
    }

    PixelType* rowPtr = reinterpret_cast<PixelType*>(mRowPointer);

    for (; mCol < mInputSize.width; ++mCol) {
      NextPixel<PixelType> result = aFunc();
      if (result.template is<PixelType>()) {
        rowPtr[mCol] = result.template as<PixelType>();
        continue;
      }

      switch (result.template as<WriteState>()) {
        case WriteState::NEED_MORE_DATA:
          return Some(WriteState::NEED_MORE_DATA);

        case WriteState::FINISHED:
          ZeroOutRestOfSurface<PixelType>();
          return Some(WriteState::FINISHED);

        case WriteState::FAILURE:
          // Note that we don't need to record this anywhere, because this
          // indicates an error in aFunc, and there's nothing wrong with our
          // machinery. The caller can recover as needed and continue writing to
          // the row.
          return Some(WriteState::FAILURE);
      }
    }

    AdvanceRow();  // We've finished the row.

    return IsSurfaceFinished() ? Some(WriteState::FINISHED)
                               : Nothing();
  }

  template <typename PixelType>
  void ZeroOutRestOfSurface()
  {
    WritePixels<PixelType>([]{ return AsVariant(PixelType(0)); });
  }

  gfx::IntSize mInputSize;  /// The size of the input this filter expects.
  uint8_t* mRowPointer;     /// Pointer to the current row or null if finished.
  int32_t mCol;             /// The current column we're writing to. (0-indexed)
  uint8_t  mPixelSize;      /// How large each pixel in the surface is, in bytes.
};

class NullSurfaceSink;

/// A trivial configuration struct for NullSurfaceSink.
struct NullSurfaceConfig
{
  using Filter = NullSurfaceSink;
};

/**
 * NullSurfaceSink is a trivial SurfaceFilter implementation that behaves as if
 * it were a zero-size SurfaceSink. It's used as the default filter chain for an
 * uninitialized SurfacePipe.
 *
 * To avoid unnecessary allocations when creating SurfacePipe objects,
 * NullSurfaceSink is a singleton. (This implies that the implementation must be
 * stateless.)
 */
class NullSurfaceSink final : public SurfaceFilter
{
public:
  /// Returns the singleton instance of NullSurfaceSink.
  static NullSurfaceSink* Singleton();

  virtual ~NullSurfaceSink() { }

  nsresult Configure(const NullSurfaceConfig& aConfig);

  Maybe<SurfaceInvalidRect> TakeInvalidRect() override { return Nothing(); }

protected:
  uint8_t* DoResetToFirstRow() override { return nullptr; }
  uint8_t* DoAdvanceRow() override { return nullptr; }

private:
  static UniquePtr<NullSurfaceSink> sSingleton;  /// The singleton instance.
};


/**
 * SurfacePipe is the public API that decoders should use to interact with a
 * SurfaceFilter pipeline.
 */
class SurfacePipe
{
public:
  /// Initialize global state used by all SurfacePipes.
  static void Initialize() { NullSurfaceSink::Singleton(); }

  SurfacePipe()
    : mHead(NullSurfaceSink::Singleton())
  { }

  SurfacePipe(SurfacePipe&& aOther)
    : mHead(Move(aOther.mHead))
  { }

  ~SurfacePipe()
  {
    // Ensure that we don't free the NullSurfaceSink singleton.
    if (mHead.get() == NullSurfaceSink::Singleton()) {
      Unused << mHead.release();
    }
  }

  SurfacePipe& operator=(SurfacePipe&& aOther)
  {
    MOZ_ASSERT(this != &aOther);

    // Ensure that we don't free the NullSurfaceSink singleton.
    if (mHead.get() == NullSurfaceSink::Singleton()) {
      Unused << mHead.release();
    }

    mHead = Move(aOther.mHead);
    return *this;
  }

  /// Begins a new pass, seeking to the first row of the surface.
  void ResetToFirstRow() { mHead->ResetToFirstRow(); }

  /**
   * Write pixels to the surface one at a time by repeatedly calling a lambda
   * that yields pixels. WritePixels() is completely memory safe.
   *
   * @see SurfaceFilter::WritePixels() for the canonical documentation.
   */
  template <typename PixelType, typename Func>
  WriteState WritePixels(Func aFunc)
  {
    return mHead->WritePixels<PixelType>(Forward<Func>(aFunc));
  }

  /**
   * A variant of WritePixels() that writes a single row of pixels to the
   * surface one at a time by repeatedly calling a lambda that yields pixels.
   * WritePixelsToRow() is completely memory safe.
   *
   * @see SurfaceFilter::WritePixelsToRow() for the canonical documentation.
   */
  template <typename PixelType, typename Func>
  WriteState WritePixelsToRow(Func aFunc)
  {
    return mHead->WritePixelsToRow<PixelType>(Forward<Func>(aFunc));
  }

  /**
   * Write a row to the surface by copying from a buffer. This is bounds checked
   * and memory safe with respect to the surface, but care must still be taken
   * by the caller not to overread the source buffer. This variant of
   * WriteBuffer() requires a source buffer which contains |mInputSize.width|
   * pixels.
   *
   * @see SurfaceFilter::WriteBuffer() for the canonical documentation.
   */
  template <typename PixelType>
  WriteState WriteBuffer(const PixelType* aSource)
  {
    return mHead->WriteBuffer<PixelType>(aSource);
  }

  /**
   * Write a row to the surface by copying from a buffer. This is bounds checked
   * and memory safe with respect to the surface, but care must still be taken
   * by the caller not to overread the source buffer. This variant of
   * WriteBuffer() reads at most @aLength pixels from the buffer and writes them
   * to the row starting at @aStartColumn. Any pixels in columns before
   * @aStartColumn or after the pixels copied from the buffer are cleared.
   *
   * @see SurfaceFilter::WriteBuffer() for the canonical documentation.
   */
  template <typename PixelType>
  WriteState WriteBuffer(const PixelType* aSource,
                         const size_t aStartColumn,
                         const size_t aLength)
  {
    return mHead->WriteBuffer<PixelType>(aSource, aStartColumn, aLength);
  }

  /**
   * Write an empty row to the surface. If some pixels have already been written
   * to this row, they'll be discarded.
   *
   * @see SurfaceFilter::WriteEmptyRow() for the canonical documentation.
   */
  WriteState WriteEmptyRow()
  {
    return mHead->WriteEmptyRow();
  }

  /// @return true if we've finished writing to the surface.
  bool IsSurfaceFinished() const { return mHead->IsSurfaceFinished(); }

  /// @see SurfaceFilter::TakeInvalidRect() for the canonical documentation.
  Maybe<SurfaceInvalidRect> TakeInvalidRect() const
  {
    return mHead->TakeInvalidRect();
  }

private:
  friend class SurfacePipeFactory;
  friend class TestSurfacePipeFactory;

  explicit SurfacePipe(UniquePtr<SurfaceFilter>&& aHead)
    : mHead(Move(aHead))
  { }

  SurfacePipe(const SurfacePipe&) = delete;
  SurfacePipe& operator=(const SurfacePipe&) = delete;

  UniquePtr<SurfaceFilter> mHead;  /// The first filter in the chain.
};

/**
 * AbstractSurfaceSink contains shared implementation for both SurfaceSink and
 * PalettedSurfaceSink.
 */
class AbstractSurfaceSink : public SurfaceFilter
{
public:
  AbstractSurfaceSink()
    : mImageData(nullptr)
    , mImageDataLength(0)
    , mRow(0)
    , mFlipVertically(false)
  { }

  Maybe<SurfaceInvalidRect> TakeInvalidRect() override final;

protected:
  uint8_t* DoResetToFirstRow() override final;
  uint8_t* DoAdvanceRow() override final;
  virtual uint8_t* GetRowPointer() const = 0;

  gfx::IntRect mInvalidRect;  /// The region of the surface that has been written
                              /// to since the last call to TakeInvalidRect().
  uint8_t*  mImageData;       /// A pointer to the beginning of the surface data.
  uint32_t  mImageDataLength; /// The length of the surface data.
  uint32_t  mRow;             /// The row to which we're writing. (0-indexed)
  bool      mFlipVertically;  /// If true, write the rows from top to bottom.
};

class SurfaceSink;

/// A configuration struct for SurfaceSink.
struct SurfaceConfig
{
  using Filter = SurfaceSink;
  Decoder* mDecoder;           /// Which Decoder to use to allocate the surface.
  gfx::IntSize mOutputSize;    /// The size of the surface.
  gfx::SurfaceFormat mFormat;  /// The surface format (BGRA or BGRX).
  bool mFlipVertically;        /// If true, write the rows from bottom to top.
  Maybe<AnimationParams> mAnimParams; /// Given for animated images.
};

/**
 * A sink for normal (i.e., non-paletted) surfaces. It handles the allocation of
 * the surface and protects against buffer overflow. This sink should be used
 * for all non-animated images and for the first frame of animated images.
 *
 * Sinks must always be at the end of the SurfaceFilter chain.
 */
class SurfaceSink final : public AbstractSurfaceSink
{
public:
  nsresult Configure(const SurfaceConfig& aConfig);

protected:
  uint8_t* GetRowPointer() const override;
};

class PalettedSurfaceSink;

struct PalettedSurfaceConfig
{
  using Filter = PalettedSurfaceSink;
  Decoder* mDecoder;           /// Which Decoder to use to allocate the surface.
  gfx::IntSize mOutputSize;    /// The logical size of the surface.
  gfx::IntRect mFrameRect;     /// The surface subrect which contains data.
  gfx::SurfaceFormat mFormat;  /// The surface format (BGRA or BGRX).
  uint8_t mPaletteDepth;       /// The palette depth of this surface.
  bool mFlipVertically;        /// If true, write the rows from bottom to top.
  Maybe<AnimationParams> mAnimParams; /// Given for animated images.
};

/**
 * A sink for paletted surfaces. It handles the allocation of the surface and
 * protects against buffer overflow. This sink can be used for frames of
 * animated images except the first.
 *
 * Sinks must always be at the end of the SurfaceFilter chain.
 *
 * XXX(seth): We'll remove all support for paletted surfaces in bug 1247520,
 * which means we can remove PalettedSurfaceSink entirely.
 */
class PalettedSurfaceSink final : public AbstractSurfaceSink
{
public:
  bool IsValidPalettedPipe() const override { return true; }

  nsresult Configure(const PalettedSurfaceConfig& aConfig);

protected:
  uint8_t* GetRowPointer() const override;

private:
  /**
   * The surface subrect which contains data. Note that the surface size we
   * actually allocate is the size of the frame rect, not the logical size of
   * the surface.
   */
  gfx::IntRect mFrameRect;
};

} // namespace image
} // namespace mozilla

#endif // mozilla_image_SurfacePipe_h