gecko-dev/image/SurfacePipeFactory.h
Andrew Osmond 211e37f75c Bug 1732115 - Part 4. Add/use reorienting decoding pipeline. r=tnikkel
This part hooks up the swizzling code from earlier to the AVIF and JPEG
decoder pipelines.

Differential Revision: https://phabricator.services.mozilla.com/D126382
2021-10-06 14:41:18 +00:00

680 lines
31 KiB
C++

/* -*- 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/. */
#ifndef mozilla_image_SurfacePipeFactory_h
#define mozilla_image_SurfacePipeFactory_h
#include "SurfacePipe.h"
#include "SurfaceFilters.h"
namespace mozilla {
namespace image {
namespace detail {
/**
* FilterPipeline is a helper template for SurfacePipeFactory that determines
* the full type of the sequence of SurfaceFilters that a sequence of
* configuration structs corresponds to. To make this work, all configuration
* structs must include a typedef 'Filter' that identifies the SurfaceFilter
* they configure.
*/
template <typename... Configs>
struct FilterPipeline;
template <typename Config, typename... Configs>
struct FilterPipeline<Config, Configs...> {
typedef typename Config::template Filter<
typename FilterPipeline<Configs...>::Type>
Type;
};
template <typename Config>
struct FilterPipeline<Config> {
typedef typename Config::Filter Type;
};
} // namespace detail
/**
* Flags for SurfacePipeFactory, used in conjunction with the factory functions
* in SurfacePipeFactory to enable or disable various SurfacePipe
* functionality.
*/
enum class SurfacePipeFlags {
DEINTERLACE = 1 << 0, // If set, deinterlace the image.
ADAM7_INTERPOLATE =
1 << 1, // If set, the caller is deinterlacing the
// image using ADAM7, and we may want to
// interpolate it for better intermediate results.
FLIP_VERTICALLY = 1 << 2, // If set, flip the image vertically.
PROGRESSIVE_DISPLAY = 1 << 3, // If set, we expect the image to be displayed
// progressively. This enables features that
// result in a better user experience for
// progressive display but which may be more
// computationally expensive.
PREMULTIPLY_ALPHA = 1 << 4, // If set, we want to premultiply the alpha
// channel and the individual color channels.
};
MOZ_MAKE_ENUM_CLASS_BITWISE_OPERATORS(SurfacePipeFlags)
class SurfacePipeFactory {
public:
/**
* Creates and initializes a normal (i.e., non-paletted) SurfacePipe.
*
* @param aDecoder The decoder whose current frame the SurfacePipe will write
* to.
* @param aInputSize The original size of the image.
* @param aOutputSize The size the SurfacePipe should output. Must be the same
* as @aInputSize or smaller. If smaller, the image will be
* downscaled during decoding.
* @param aFrameRect The portion of the image that actually contains data.
* @param aFormat The surface format of the image; generally B8G8R8A8 or
* B8G8R8X8.
* @param aAnimParams Extra parameters used by animated images.
* @param aFlags Flags enabling or disabling various functionality for the
* SurfacePipe; see the SurfacePipeFlags documentation for more
* information.
*
* @return A SurfacePipe if the parameters allowed one to be created
* successfully, or Nothing() if the SurfacePipe could not be
* initialized.
*/
static Maybe<SurfacePipe> CreateSurfacePipe(
Decoder* aDecoder, const OrientedIntSize& aInputSize,
const OrientedIntSize& aOutputSize, const OrientedIntRect& aFrameRect,
gfx::SurfaceFormat aInFormat, gfx::SurfaceFormat aOutFormat,
const Maybe<AnimationParams>& aAnimParams, qcms_transform* aTransform,
SurfacePipeFlags aFlags) {
const bool deinterlace = bool(aFlags & SurfacePipeFlags::DEINTERLACE);
const bool flipVertically =
bool(aFlags & SurfacePipeFlags::FLIP_VERTICALLY);
const bool progressiveDisplay =
bool(aFlags & SurfacePipeFlags::PROGRESSIVE_DISPLAY);
const bool downscale = aInputSize != aOutputSize;
const bool removeFrameRect = !aFrameRect.IsEqualEdges(
OrientedIntRect(OrientedIntPoint(0, 0), aInputSize));
const bool blendAnimation = aAnimParams.isSome();
const bool colorManagement = aTransform != nullptr;
const bool premultiplyAlpha =
bool(aFlags & SurfacePipeFlags::PREMULTIPLY_ALPHA);
MOZ_ASSERT(aInFormat == gfx::SurfaceFormat::R8G8B8 ||
aInFormat == gfx::SurfaceFormat::R8G8B8A8 ||
aInFormat == gfx::SurfaceFormat::R8G8B8X8 ||
aInFormat == gfx::SurfaceFormat::OS_RGBA ||
aInFormat == gfx::SurfaceFormat::OS_RGBX);
MOZ_ASSERT(aOutFormat == gfx::SurfaceFormat::OS_RGBA ||
aOutFormat == gfx::SurfaceFormat::OS_RGBX);
MOZ_ASSERT(aDecoder->GetOrientation().IsIdentity());
const bool inFormatRgb = aInFormat == gfx::SurfaceFormat::R8G8B8;
const bool inFormatOpaque = aInFormat == gfx::SurfaceFormat::OS_RGBX ||
aInFormat == gfx::SurfaceFormat::R8G8B8X8 ||
inFormatRgb;
const bool outFormatOpaque = aOutFormat == gfx::SurfaceFormat::OS_RGBX;
const bool inFormatOrder = aInFormat == gfx::SurfaceFormat::R8G8B8A8 ||
aInFormat == gfx::SurfaceFormat::R8G8B8X8;
const bool outFormatOrder = aOutFormat == gfx::SurfaceFormat::R8G8B8A8 ||
aOutFormat == gfx::SurfaceFormat::R8G8B8X8;
// Early swizzles are for unpacking RGB or forcing RGBA/BGRA_U32 to
// RGBX/BGRX_U32. We should never want to premultiply in either case,
// because the image's alpha channel will always be opaque. This must be
// done before downscaling and color management.
bool unpackOrMaskSwizzle =
inFormatRgb ||
(!inFormatOpaque && outFormatOpaque && inFormatOrder == outFormatOrder);
// Late swizzles are for premultiplying RGBA/BGRA_U32 and/or possible
// converting between RGBA and BGRA_U32. It must happen after color
// management, and before downscaling.
bool swapOrAlphaSwizzle =
(!inFormatRgb && inFormatOrder != outFormatOrder) || premultiplyAlpha;
if (unpackOrMaskSwizzle && swapOrAlphaSwizzle) {
MOZ_ASSERT_UNREACHABLE("Early and late swizzles not supported");
return Nothing();
}
if (!unpackOrMaskSwizzle && !swapOrAlphaSwizzle &&
aInFormat != aOutFormat) {
MOZ_ASSERT_UNREACHABLE("Need to swizzle, but not configured to");
return Nothing();
}
// Don't interpolate if we're sure we won't show this surface to the user
// until it's completely decoded. The final pass of an ADAM7 image doesn't
// need interpolation, so we only need to interpolate if we'll be displaying
// the image while it's still being decoded.
const bool adam7Interpolate =
bool(aFlags & SurfacePipeFlags::ADAM7_INTERPOLATE) &&
progressiveDisplay;
if (deinterlace && adam7Interpolate) {
MOZ_ASSERT_UNREACHABLE("ADAM7 deinterlacing is handled by libpng");
return Nothing();
}
// Construct configurations for the SurfaceFilters. Note that the order of
// these filters is significant. We want to deinterlace or interpolate raw
// input rows, before any other transformations, and we want to remove the
// frame rect (which may involve adding blank rows or columns to the image)
// before any downscaling, so that the new rows and columns are taken into
// account.
DeinterlacingConfig<uint32_t> deinterlacingConfig{progressiveDisplay};
ADAM7InterpolatingConfig interpolatingConfig;
RemoveFrameRectConfig removeFrameRectConfig{aFrameRect.ToUnknownRect()};
BlendAnimationConfig blendAnimationConfig{aDecoder};
DownscalingConfig downscalingConfig{aInputSize.ToUnknownSize(), aOutFormat};
ColorManagementConfig colorManagementConfig{aTransform};
SwizzleConfig swizzleConfig{aInFormat, aOutFormat, premultiplyAlpha};
SurfaceConfig surfaceConfig{aDecoder, aOutputSize.ToUnknownSize(),
aOutFormat, flipVertically, aAnimParams};
Maybe<SurfacePipe> pipe;
if (unpackOrMaskSwizzle) {
if (colorManagement) {
if (downscale) {
MOZ_ASSERT(!blendAnimation);
if (removeFrameRect) {
if (deinterlace) {
pipe = MakePipe(swizzleConfig, deinterlacingConfig,
removeFrameRectConfig, downscalingConfig,
colorManagementConfig, surfaceConfig);
} else if (adam7Interpolate) {
pipe = MakePipe(swizzleConfig, interpolatingConfig,
removeFrameRectConfig, downscalingConfig,
colorManagementConfig, surfaceConfig);
} else { // (deinterlace and adam7Interpolate are false)
pipe = MakePipe(swizzleConfig, removeFrameRectConfig,
downscalingConfig, colorManagementConfig,
surfaceConfig);
}
} else { // (removeFrameRect is false)
if (deinterlace) {
pipe = MakePipe(swizzleConfig, deinterlacingConfig,
downscalingConfig, colorManagementConfig,
surfaceConfig);
} else if (adam7Interpolate) {
pipe = MakePipe(swizzleConfig, interpolatingConfig,
downscalingConfig, colorManagementConfig,
surfaceConfig);
} else { // (deinterlace and adam7Interpolate are false)
pipe = MakePipe(swizzleConfig, downscalingConfig,
colorManagementConfig, surfaceConfig);
}
}
} else { // (downscale is false)
if (blendAnimation) {
if (deinterlace) {
pipe = MakePipe(swizzleConfig, deinterlacingConfig,
colorManagementConfig, blendAnimationConfig,
surfaceConfig);
} else if (adam7Interpolate) {
pipe = MakePipe(swizzleConfig, interpolatingConfig,
colorManagementConfig, blendAnimationConfig,
surfaceConfig);
} else { // (deinterlace and adam7Interpolate are false)
pipe = MakePipe(swizzleConfig, colorManagementConfig,
blendAnimationConfig, surfaceConfig);
}
} else if (removeFrameRect) {
if (deinterlace) {
pipe = MakePipe(swizzleConfig, deinterlacingConfig,
colorManagementConfig, removeFrameRectConfig,
surfaceConfig);
} else if (adam7Interpolate) {
pipe = MakePipe(swizzleConfig, interpolatingConfig,
colorManagementConfig, removeFrameRectConfig,
surfaceConfig);
} else { // (deinterlace and adam7Interpolate are false)
pipe = MakePipe(swizzleConfig, colorManagementConfig,
removeFrameRectConfig, surfaceConfig);
}
} else { // (blendAnimation and removeFrameRect is false)
if (deinterlace) {
pipe = MakePipe(swizzleConfig, deinterlacingConfig,
colorManagementConfig, surfaceConfig);
} else if (adam7Interpolate) {
pipe = MakePipe(swizzleConfig, interpolatingConfig,
colorManagementConfig, surfaceConfig);
} else { // (deinterlace and adam7Interpolate are false)
pipe =
MakePipe(swizzleConfig, colorManagementConfig, surfaceConfig);
}
}
}
} else { // (colorManagement is false)
if (downscale) {
MOZ_ASSERT(!blendAnimation);
if (removeFrameRect) {
if (deinterlace) {
pipe = MakePipe(swizzleConfig, deinterlacingConfig,
removeFrameRectConfig, downscalingConfig,
surfaceConfig);
} else if (adam7Interpolate) {
pipe = MakePipe(swizzleConfig, interpolatingConfig,
removeFrameRectConfig, downscalingConfig,
surfaceConfig);
} else { // (deinterlace and adam7Interpolate are false)
pipe = MakePipe(swizzleConfig, removeFrameRectConfig,
downscalingConfig, surfaceConfig);
}
} else { // (removeFrameRect is false)
if (deinterlace) {
pipe = MakePipe(swizzleConfig, deinterlacingConfig,
downscalingConfig, surfaceConfig);
} else if (adam7Interpolate) {
pipe = MakePipe(swizzleConfig, interpolatingConfig,
downscalingConfig, surfaceConfig);
} else { // (deinterlace and adam7Interpolate are false)
pipe = MakePipe(swizzleConfig, downscalingConfig, surfaceConfig);
}
}
} else { // (downscale is false)
if (blendAnimation) {
if (deinterlace) {
pipe = MakePipe(swizzleConfig, deinterlacingConfig,
blendAnimationConfig, surfaceConfig);
} else if (adam7Interpolate) {
pipe = MakePipe(swizzleConfig, interpolatingConfig,
blendAnimationConfig, surfaceConfig);
} else { // (deinterlace and adam7Interpolate are false)
pipe =
MakePipe(swizzleConfig, blendAnimationConfig, surfaceConfig);
}
} else if (removeFrameRect) {
if (deinterlace) {
pipe = MakePipe(swizzleConfig, deinterlacingConfig,
removeFrameRectConfig, surfaceConfig);
} else if (adam7Interpolate) {
pipe = MakePipe(swizzleConfig, interpolatingConfig,
removeFrameRectConfig, surfaceConfig);
} else { // (deinterlace and adam7Interpolate are false)
pipe =
MakePipe(swizzleConfig, removeFrameRectConfig, surfaceConfig);
}
} else { // (blendAnimation and removeFrameRect is false)
if (deinterlace) {
pipe =
MakePipe(swizzleConfig, deinterlacingConfig, surfaceConfig);
} else if (adam7Interpolate) {
pipe =
MakePipe(swizzleConfig, interpolatingConfig, surfaceConfig);
} else { // (deinterlace and adam7Interpolate are false)
pipe = MakePipe(swizzleConfig, surfaceConfig);
}
}
}
}
} else if (swapOrAlphaSwizzle) {
if (colorManagement) {
if (downscale) {
MOZ_ASSERT(!blendAnimation);
if (removeFrameRect) {
if (deinterlace) {
pipe = MakePipe(colorManagementConfig, swizzleConfig,
deinterlacingConfig, removeFrameRectConfig,
downscalingConfig, surfaceConfig);
} else if (adam7Interpolate) {
pipe = MakePipe(colorManagementConfig, swizzleConfig,
interpolatingConfig, removeFrameRectConfig,
downscalingConfig, surfaceConfig);
} else { // (deinterlace and adam7Interpolate are false)
pipe = MakePipe(colorManagementConfig, swizzleConfig,
removeFrameRectConfig, downscalingConfig,
surfaceConfig);
}
} else { // (removeFrameRect is false)
if (deinterlace) {
pipe = MakePipe(colorManagementConfig, swizzleConfig,
deinterlacingConfig, downscalingConfig,
surfaceConfig);
} else if (adam7Interpolate) {
pipe = MakePipe(colorManagementConfig, swizzleConfig,
interpolatingConfig, downscalingConfig,
surfaceConfig);
} else { // (deinterlace and adam7Interpolate are false)
pipe = MakePipe(colorManagementConfig, swizzleConfig,
downscalingConfig, surfaceConfig);
}
}
} else { // (downscale is false)
if (blendAnimation) {
if (deinterlace) {
pipe = MakePipe(colorManagementConfig, swizzleConfig,
deinterlacingConfig, blendAnimationConfig,
surfaceConfig);
} else if (adam7Interpolate) {
pipe = MakePipe(colorManagementConfig, swizzleConfig,
interpolatingConfig, blendAnimationConfig,
surfaceConfig);
} else { // (deinterlace and adam7Interpolate are false)
pipe = MakePipe(colorManagementConfig, swizzleConfig,
blendAnimationConfig, surfaceConfig);
}
} else if (removeFrameRect) {
if (deinterlace) {
pipe = MakePipe(colorManagementConfig, swizzleConfig,
deinterlacingConfig, removeFrameRectConfig,
surfaceConfig);
} else if (adam7Interpolate) {
pipe = MakePipe(colorManagementConfig, swizzleConfig,
interpolatingConfig, removeFrameRectConfig,
surfaceConfig);
} else { // (deinterlace and adam7Interpolate are false)
pipe = MakePipe(colorManagementConfig, swizzleConfig,
removeFrameRectConfig, surfaceConfig);
}
} else { // (blendAnimation and removeFrameRect is false)
if (deinterlace) {
pipe = MakePipe(colorManagementConfig, swizzleConfig,
deinterlacingConfig, surfaceConfig);
} else if (adam7Interpolate) {
pipe = MakePipe(colorManagementConfig, swizzleConfig,
interpolatingConfig, surfaceConfig);
} else { // (deinterlace and adam7Interpolate are false)
pipe =
MakePipe(colorManagementConfig, swizzleConfig, surfaceConfig);
}
}
}
} else { // (colorManagement is false)
if (downscale) {
MOZ_ASSERT(!blendAnimation);
if (removeFrameRect) {
if (deinterlace) {
pipe = MakePipe(swizzleConfig, deinterlacingConfig,
removeFrameRectConfig, downscalingConfig,
surfaceConfig);
} else if (adam7Interpolate) {
pipe = MakePipe(swizzleConfig, interpolatingConfig,
removeFrameRectConfig, downscalingConfig,
surfaceConfig);
} else { // (deinterlace and adam7Interpolate are false)
pipe = MakePipe(swizzleConfig, removeFrameRectConfig,
downscalingConfig, surfaceConfig);
}
} else { // (removeFrameRect is false)
if (deinterlace) {
pipe = MakePipe(swizzleConfig, deinterlacingConfig,
downscalingConfig, surfaceConfig);
} else if (adam7Interpolate) {
pipe = MakePipe(swizzleConfig, interpolatingConfig,
downscalingConfig, surfaceConfig);
} else { // (deinterlace and adam7Interpolate are false)
pipe = MakePipe(swizzleConfig, downscalingConfig, surfaceConfig);
}
}
} else { // (downscale is false)
if (blendAnimation) {
if (deinterlace) {
pipe = MakePipe(swizzleConfig, deinterlacingConfig,
blendAnimationConfig, surfaceConfig);
} else if (adam7Interpolate) {
pipe = MakePipe(swizzleConfig, interpolatingConfig,
blendAnimationConfig, surfaceConfig);
} else { // (deinterlace and adam7Interpolate are false)
pipe =
MakePipe(swizzleConfig, blendAnimationConfig, surfaceConfig);
}
} else if (removeFrameRect) {
if (deinterlace) {
pipe = MakePipe(swizzleConfig, deinterlacingConfig,
removeFrameRectConfig, surfaceConfig);
} else if (adam7Interpolate) {
pipe = MakePipe(swizzleConfig, interpolatingConfig,
removeFrameRectConfig, surfaceConfig);
} else { // (deinterlace and adam7Interpolate are false)
pipe =
MakePipe(swizzleConfig, removeFrameRectConfig, surfaceConfig);
}
} else { // (blendAnimation and removeFrameRect is false)
if (deinterlace) {
pipe =
MakePipe(swizzleConfig, deinterlacingConfig, surfaceConfig);
} else if (adam7Interpolate) {
pipe =
MakePipe(swizzleConfig, interpolatingConfig, surfaceConfig);
} else { // (deinterlace and adam7Interpolate are false)
pipe = MakePipe(swizzleConfig, surfaceConfig);
}
}
}
}
} else { // (unpackOrMaskSwizzle and swapOrAlphaSwizzle are false)
if (colorManagement) {
if (downscale) {
MOZ_ASSERT(!blendAnimation);
if (removeFrameRect) {
if (deinterlace) {
pipe = MakePipe(deinterlacingConfig, removeFrameRectConfig,
downscalingConfig, colorManagementConfig,
surfaceConfig);
} else if (adam7Interpolate) {
pipe = MakePipe(interpolatingConfig, removeFrameRectConfig,
downscalingConfig, colorManagementConfig,
surfaceConfig);
} else { // (deinterlace and adam7Interpolate are false)
pipe = MakePipe(removeFrameRectConfig, downscalingConfig,
colorManagementConfig, surfaceConfig);
}
} else { // (removeFrameRect is false)
if (deinterlace) {
pipe = MakePipe(deinterlacingConfig, downscalingConfig,
colorManagementConfig, surfaceConfig);
} else if (adam7Interpolate) {
pipe = MakePipe(interpolatingConfig, downscalingConfig,
colorManagementConfig, surfaceConfig);
} else { // (deinterlace and adam7Interpolate are false)
pipe = MakePipe(downscalingConfig, colorManagementConfig,
surfaceConfig);
}
}
} else { // (downscale is false)
if (blendAnimation) {
if (deinterlace) {
pipe = MakePipe(deinterlacingConfig, colorManagementConfig,
blendAnimationConfig, surfaceConfig);
} else if (adam7Interpolate) {
pipe = MakePipe(interpolatingConfig, colorManagementConfig,
blendAnimationConfig, surfaceConfig);
} else { // (deinterlace and adam7Interpolate are false)
pipe = MakePipe(colorManagementConfig, blendAnimationConfig,
surfaceConfig);
}
} else if (removeFrameRect) {
if (deinterlace) {
pipe = MakePipe(deinterlacingConfig, colorManagementConfig,
removeFrameRectConfig, surfaceConfig);
} else if (adam7Interpolate) {
pipe = MakePipe(interpolatingConfig, colorManagementConfig,
removeFrameRectConfig, surfaceConfig);
} else { // (deinterlace and adam7Interpolate are false)
pipe = MakePipe(colorManagementConfig, removeFrameRectConfig,
surfaceConfig);
}
} else { // (blendAnimation and removeFrameRect is false)
if (deinterlace) {
pipe = MakePipe(deinterlacingConfig, colorManagementConfig,
surfaceConfig);
} else if (adam7Interpolate) {
pipe = MakePipe(interpolatingConfig, colorManagementConfig,
surfaceConfig);
} else { // (deinterlace and adam7Interpolate are false)
pipe = MakePipe(colorManagementConfig, surfaceConfig);
}
}
}
} else { // (colorManagement is false)
if (downscale) {
MOZ_ASSERT(!blendAnimation);
if (removeFrameRect) {
if (deinterlace) {
pipe = MakePipe(deinterlacingConfig, removeFrameRectConfig,
downscalingConfig, surfaceConfig);
} else if (adam7Interpolate) {
pipe = MakePipe(interpolatingConfig, removeFrameRectConfig,
downscalingConfig, surfaceConfig);
} else { // (deinterlace and adam7Interpolate are false)
pipe = MakePipe(removeFrameRectConfig, downscalingConfig,
surfaceConfig);
}
} else { // (removeFrameRect is false)
if (deinterlace) {
pipe = MakePipe(deinterlacingConfig, downscalingConfig,
surfaceConfig);
} else if (adam7Interpolate) {
pipe = MakePipe(interpolatingConfig, downscalingConfig,
surfaceConfig);
} else { // (deinterlace and adam7Interpolate are false)
pipe = MakePipe(downscalingConfig, surfaceConfig);
}
}
} else { // (downscale is false)
if (blendAnimation) {
if (deinterlace) {
pipe = MakePipe(deinterlacingConfig, blendAnimationConfig,
surfaceConfig);
} else if (adam7Interpolate) {
pipe = MakePipe(interpolatingConfig, blendAnimationConfig,
surfaceConfig);
} else { // (deinterlace and adam7Interpolate are false)
pipe = MakePipe(blendAnimationConfig, surfaceConfig);
}
} else if (removeFrameRect) {
if (deinterlace) {
pipe = MakePipe(deinterlacingConfig, removeFrameRectConfig,
surfaceConfig);
} else if (adam7Interpolate) {
pipe = MakePipe(interpolatingConfig, removeFrameRectConfig,
surfaceConfig);
} else { // (deinterlace and adam7Interpolate are false)
pipe = MakePipe(removeFrameRectConfig, surfaceConfig);
}
} else { // (blendAnimation and removeFrameRect is false)
if (deinterlace) {
pipe = MakePipe(deinterlacingConfig, surfaceConfig);
} else if (adam7Interpolate) {
pipe = MakePipe(interpolatingConfig, surfaceConfig);
} else { // (deinterlace and adam7Interpolate are false)
pipe = MakePipe(surfaceConfig);
}
}
}
}
}
return pipe;
}
/**
* Creates and initializes a reorienting SurfacePipe.
*
* @param aDecoder The decoder whose current frame the SurfacePipe will write
* to.
* @param aInputSize The original size of the image.
* @param aOutputSize The size the SurfacePipe should output. Must be the same
* as @aInputSize or smaller. If smaller, the image will be
* downscaled during decoding.
* @param aFormat The surface format of the image; generally B8G8R8A8 or
* B8G8R8X8.
* @param aOrientation The orientation of the image.
*
* @return A SurfacePipe if the parameters allowed one to be created
* successfully, or Nothing() if the SurfacePipe could not be
* initialized.
*/
static Maybe<SurfacePipe> CreateReorientSurfacePipe(
Decoder* aDecoder, const OrientedIntSize& aInputSize,
const OrientedIntSize& aOutputSize, gfx::SurfaceFormat aFormat,
qcms_transform* aTransform, const Orientation& aOrientation) {
const bool downscale = aInputSize != aOutputSize;
const bool colorManagement = aTransform != nullptr;
// Construct configurations for the SurfaceFilters. Note that the order of
// these filters is significant. We want to deinterlace or interpolate raw
// input rows, before any other transformations, and we want to remove the
// frame rect (which may involve adding blank rows or columns to the image)
// before any downscaling, so that the new rows and columns are taken into
// account.
DownscalingConfig downscalingConfig{
aOrientation.ToUnoriented(aInputSize).ToUnknownSize(), aFormat};
ColorManagementConfig colorManagementConfig{aTransform};
SurfaceConfig surfaceConfig{aDecoder, aOutputSize.ToUnknownSize(), aFormat,
/* mFlipVertically */ false,
/* mAnimParams */ Nothing()};
ReorientSurfaceConfig reorientSurfaceConfig{aDecoder, aOutputSize, aFormat,
aOrientation};
Maybe<SurfacePipe> pipe;
if (aOrientation.IsIdentity()) {
if (colorManagement) {
if (downscale) {
pipe =
MakePipe(downscalingConfig, colorManagementConfig, surfaceConfig);
} else { // (downscale is false)
pipe = MakePipe(colorManagementConfig, surfaceConfig);
}
} else { // (colorManagement is false)
if (downscale) {
pipe = MakePipe(downscalingConfig, surfaceConfig);
} else { // (downscale is false)
pipe = MakePipe(surfaceConfig);
}
}
} else { // (orientation is not identity)
if (colorManagement) {
if (downscale) {
pipe = MakePipe(downscalingConfig, colorManagementConfig,
reorientSurfaceConfig);
} else { // (downscale is false)
pipe = MakePipe(colorManagementConfig, reorientSurfaceConfig);
}
} else { // (colorManagement is false)
if (downscale) {
pipe = MakePipe(downscalingConfig, reorientSurfaceConfig);
} else { // (downscale is false)
pipe = MakePipe(reorientSurfaceConfig);
}
}
}
return pipe;
}
private:
template <typename... Configs>
static Maybe<SurfacePipe> MakePipe(const Configs&... aConfigs) {
auto pipe = MakeUnique<typename detail::FilterPipeline<Configs...>::Type>();
nsresult rv = pipe->Configure(aConfigs...);
if (NS_FAILED(rv)) {
return Nothing();
}
return Some(SurfacePipe{std::move(pipe)});
}
virtual ~SurfacePipeFactory() = 0;
};
} // namespace image
} // namespace mozilla
#endif // mozilla_image_SurfacePipeFactory_h