gecko-dev/gfx/layers/ipc/LayersMessages.ipdlh

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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*-
* vim: sw=2 ts=8 et :
*/
/* 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 LayersSurfaces;
include protocol PCompositable;
include protocol PCompositor;
include protocol PLayer;
include protocol PRenderFrame;
include protocol PTexture;
include "gfxipc/ShadowLayerUtils.h";
include "mozilla/GfxMessageUtils.h";
include "ImageLayers.h";
using mozilla::GraphicsFilterType from "mozilla/GfxMessageUtils.h";
using struct gfxRGBA from "gfxColor.h";
using struct mozilla::gfx::Point3D from "mozilla/gfx/Point.h";
using class mozilla::gfx::Matrix4x4 from "mozilla/gfx/Matrix.h";
using nscoord from "nsCoord.h";
using struct nsIntPoint from "nsPoint.h";
using struct nsRect from "nsRect.h";
using struct nsPoint from "nsPoint.h";
using class mozilla::TimeDuration from "mozilla/TimeStamp.h";
using class mozilla::TimeStamp from "mozilla/TimeStamp.h";
using mozilla::ScreenRotation from "mozilla/WidgetUtils.h";
using nsCSSProperty from "nsCSSProperty.h";
using mozilla::dom::ScreenOrientation from "mozilla/dom/ScreenOrientation.h";
using struct mozilla::layers::TextureInfo from "mozilla/layers/CompositorTypes.h";
using mozilla::LayerMargin from "Units.h";
using mozilla::LayerPoint from "Units.h";
using mozilla::LayerRect from "Units.h";
using mozilla::layers::ScaleMode from "mozilla/layers/LayersTypes.h";
using mozilla::layers::EventRegions from "mozilla/layers/LayersTypes.h";
using mozilla::layers::DiagnosticTypes from "mozilla/layers/CompositorTypes.h";
using struct mozilla::layers::FrameMetrics from "FrameMetrics.h";
using mozilla::layers::FrameMetrics::ViewID from "FrameMetrics.h";
using struct mozilla::layers::FenceHandle from "mozilla/layers/FenceUtils.h";
using struct mozilla::layers::FenceHandleFromChild from "mozilla/layers/FenceUtils.h";
using mozilla::layers::TextureIdentifier from "mozilla/layers/CompositorTypes.h";
using std::string from "string";
namespace mozilla {
namespace layers {
struct TargetConfig {
nsIntRect naturalBounds;
ScreenRotation rotation;
ScreenOrientation orientation;
nsIntRegion clearRegion;
};
// Create a shadow layer for |layer|
struct OpCreatePaintedLayer { PLayer layer; };
struct OpCreateContainerLayer { PLayer layer; };
struct OpCreateImageLayer { PLayer layer; };
struct OpCreateColorLayer { PLayer layer; };
struct OpCreateCanvasLayer { PLayer layer; };
struct OpCreateRefLayer { PLayer layer; };
struct OpAttachCompositable {
PLayer layer;
PCompositable compositable;
};
struct OpAttachAsyncCompositable {
PLayer layer;
uint64_t containerID;
};
struct ThebesBufferData {
nsIntRect rect;
nsIntPoint rotation;
};
struct CubicBezierFunction {
float x1;
float y1;
float x2;
float y2;
};
struct StepFunction {
int steps;
// 1 = nsTimingFunction::StepStart, 2 = nsTimingFunction::StepEnd
int type;
};
union TimingFunction {
CubicBezierFunction;
StepFunction;
};
struct LayerColor { gfxRGBA value; };
struct Perspective { float value; };
struct RotationX { float radians; };
struct RotationY { float radians; };
struct RotationZ { float radians; };
struct Rotation { float radians; };
struct Rotation3D {
float x;
float y;
float z;
float radians;
};
struct Scale {
float x;
float y;
float z;
};
struct Skew { float x; float y; };
struct SkewX { float x; };
struct SkewY { float y; };
struct TransformMatrix { Matrix4x4 value; };
struct Translation {
float x;
float y;
float z;
};
union TransformFunction {
Perspective;
RotationX;
RotationY;
RotationZ;
Rotation;
Rotation3D;
Scale;
Skew;
SkewX;
SkewY;
Translation;
TransformMatrix;
};
union Animatable {
float;
TransformFunction[];
};
struct AnimationSegment {
Animatable startState;
Animatable endState;
float startPortion;
float endPortion;
TimingFunction sampleFn;
};
// Transforms need extra information to correctly convert the list of transform
// functions to a Matrix4x4 that can be applied directly to the layer.
struct TransformData {
// the origin of the frame being transformed in app units
nsPoint origin;
// the transform-origin property for the transform in css pixels
Point3D transformOrigin;
// the perspective-origin property for the transform in css pixels
Point3D perspectiveOrigin;
nsRect bounds;
nscoord perspective;
int32_t appUnitsPerDevPixel;
};
union AnimationData {
null_t;
TransformData;
};
struct Animation {
// Unlike in nsAnimationManager, this start time is at the end of the
// delay. If the delay is changed dynamically, the layer's data will
// be updated.
TimeStamp startTime;
// The value of the animation's current time at the moment it was created.
// For animations that are waiting to start, their startTime will be null.
// Once the animation is ready to start, we calculate an appropriate value
// of startTime such that we begin playback from initialCurrentTime.
TimeDuration initialCurrentTime;
TimeDuration duration;
// For each frame, the interpolation point is computed based on the
// startTime, the direction, the duration, and the current time.
// The segments must uniquely cover the portion from 0.0 to 1.0
AnimationSegment[] segments;
// Number of times to repeat the animation, including positive infinity.
// Values <= 0 mean the animation will not play (although events are still
// dispatched on the main thread).
float iterationCount;
// This uses the NS_STYLE_ANIMATION_DIRECTION_* constants.
int32_t direction;
nsCSSProperty property;
AnimationData data;
};
// Change a layer's attributes
struct CommonLayerAttributes {
nsIntRect layerBounds;
nsIntRegion visibleRegion;
EventRegions eventRegions;
TransformMatrix transform;
float postXScale;
float postYScale;
uint32_t contentFlags;
float opacity;
bool useClipRect;
nsIntRect clipRect;
bool isFixedPosition;
LayerPoint fixedPositionAnchor;
LayerMargin fixedPositionMargin;
bool isStickyPosition;
uint64_t stickyScrollContainerId;
LayerRect stickyScrollRangeOuter;
LayerRect stickyScrollRangeInner;
uint64_t scrollbarTargetContainerId;
uint32_t scrollbarDirection;
int8_t mixBlendMode;
bool forceIsolatedGroup;
nullable PLayer maskLayer;
// Animated colors will only honored for ColorLayers.
Animation[] animations;
nsIntRegion invalidRegion;
FrameMetrics[] metrics;
string contentDescription;
};
struct PaintedLayerAttributes {
nsIntRegion validRegion;
};
struct ContainerLayerAttributes {
float preXScale;
float preYScale;
float inheritedXScale;
float inheritedYScale;
float presShellResolution;
bool scaleToResolution;
// This is a bare pointer; LayerTransactionParent::RecvUpdate prevents this
// from being used when !IsSameProcess(), but we should make this truly
// cross process at some point by passing the HMDConfig
uint64_t hmdInfo;
};
struct ColorLayerAttributes { LayerColor color; nsIntRect bounds; };
struct CanvasLayerAttributes { GraphicsFilterType filter; nsIntRect bounds; };
struct RefLayerAttributes { int64_t id; };
struct ImageLayerAttributes { GraphicsFilterType filter; IntSize scaleToSize; ScaleMode scaleMode; };
union SpecificLayerAttributes {
null_t;
PaintedLayerAttributes;
ContainerLayerAttributes;
ColorLayerAttributes;
CanvasLayerAttributes;
RefLayerAttributes;
ImageLayerAttributes;
};
struct LayerAttributes {
CommonLayerAttributes common;
SpecificLayerAttributes specific;
};
struct OpSetLayerAttributes {
PLayer layer;
LayerAttributes attrs;
};
// Monkey with the tree structure
struct OpSetRoot { PLayer root; };
struct OpInsertAfter { PLayer container; PLayer childLayer; PLayer after; };
struct OpPrependChild { PLayer container; PLayer childLayer; };
struct OpRemoveChild { PLayer container; PLayer childLayer; };
struct OpRepositionChild { PLayer container; PLayer childLayer; PLayer after; };
struct OpRaiseToTopChild { PLayer container; PLayer childLayer; };
struct OpSetDiagnosticTypes { DiagnosticTypes diagnostics; };
struct ShmemSection {
Shmem shmem;
uint32_t offset;
size_t size;
};
union TileLock {
ShmemSection;
uintptr_t;
};
union MaybeTexture {
PTexture;
null_t;
};
struct TexturedTileDescriptor {
PTexture texture;
MaybeTexture textureOnWhite;
TileLock sharedLock;
};
struct PlaceholderTileDescriptor {
};
union TileDescriptor {
TexturedTileDescriptor;
PlaceholderTileDescriptor;
};
struct SurfaceDescriptorTiles {
nsIntRegion validRegion;
nsIntRegion paintedRegion;
TileDescriptor[] tiles;
int retainedWidth;
int retainedHeight;
float resolution;
float frameResolution;
};
struct OpUseTiledLayerBuffer {
PCompositable compositable;
SurfaceDescriptorTiles tileLayerDescriptor;
};
struct OpUseOverlaySource {
PCompositable compositable;
OverlaySource overlay;
};
struct OpCreatedIncrementalTexture {
PCompositable compositable;
TextureInfo textureInfo;
nsIntRect bufferRect;
};
struct OpPaintTextureRegion {
PCompositable compositable;
ThebesBufferData bufferData;
nsIntRegion updatedRegion;
};
struct OpPaintTextureIncremental {
PCompositable compositable;
TextureIdentifier textureId;
SurfaceDescriptor image;
nsIntRegion updatedRegion;
nsIntRect bufferRect;
nsIntPoint bufferRotation;
};
struct OpUpdatePictureRect {
PCompositable compositable;
nsIntRect picture;
};
/**
* Tells the CompositableHost to remove the corresponding TextureHost
*/
struct OpRemoveTexture {
PCompositable compositable;
PTexture texture;
};
struct OpRemoveTextureAsync {
uint64_t holderId;
uint64_t transactionId;
PCompositable compositable;
PTexture texture;
};
struct OpReplyRemoveTexture {
bool isMain;
uint64_t holderId;
uint64_t transactionId;
};
/**
* Tells the compositor-side which texture to use (for example, as front buffer
* if there is several textures for double buffering)
*/
struct OpUseTexture {
PCompositable compositable;
PTexture texture;
};
struct OpUseComponentAlphaTextures {
PCompositable compositable;
PTexture textureOnBlack;
PTexture textureOnWhite;
};
union MaybeRegion {
nsIntRegion;
null_t;
};
struct OpUpdateTexture {
PCompositable compositable;
PTexture texture;
MaybeRegion region;
};
struct OpDeliverFence {
uint64_t transactionId;
PTexture texture;
FenceHandle fence;
};
struct OpDeliverFenceToTracker {
uint64_t transactionId;
uint64_t destHolderId;
uint64_t destTransactionId;
FenceHandle fence;
};
struct OpDeliverFenceFromChild {
uint64_t transactionId;
PTexture texture;
FenceHandleFromChild fence;
};
struct OpReplyDeliverFence {
uint64_t transactionId;
};
union CompositableOperation {
OpUpdatePictureRect;
OpCreatedIncrementalTexture;
OpPaintTextureRegion;
OpPaintTextureIncremental;
OpUseTiledLayerBuffer;
OpRemoveTexture;
OpRemoveTextureAsync;
OpUpdateTexture;
OpUseTexture;
OpUseComponentAlphaTextures;
OpUseOverlaySource;
};
// A unit of a changeset; a set of these comprise a changeset
union Edit {
OpCreatePaintedLayer;
OpCreateContainerLayer;
OpCreateImageLayer;
OpCreateColorLayer;
OpCreateCanvasLayer;
OpCreateRefLayer;
OpSetLayerAttributes;
OpSetDiagnosticTypes;
OpSetRoot;
OpInsertAfter;
OpPrependChild;
OpRemoveChild;
OpRepositionChild;
OpRaiseToTopChild;
OpAttachCompositable;
OpAttachAsyncCompositable;
CompositableOperation;
};
// Replies to operations
struct OpContentBufferSwap {
PCompositable compositable;
nsIntRegion frontUpdatedRegion;
};
struct OpTextureSwap {
PCompositable compositable;
TextureIdentifier textureId;
SurfaceDescriptor image;
};
struct ReturnReleaseFence {
PCompositable compositable;
PTexture texture;
FenceHandle fence;
};
// Unit of a "changeset reply". This is a weird abstraction, probably
// only to be used for buffer swapping.
union EditReply {
OpContentBufferSwap;
OpTextureSwap;
ReturnReleaseFence;
};
union AsyncParentMessageData {
OpDeliverFence;
OpDeliverFenceToTracker;
OpReplyDeliverFence;
OpReplyRemoveTexture;
};
union AsyncChildMessageData {
OpDeliverFenceFromChild;
OpReplyDeliverFence;
OpRemoveTextureAsync;
};
} // namespace
} // namespace