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skia / skia / 4c8c87e815767dfe268f7517c0ab63874935a33b / . / modules / canvaskit / npm_build / types / index.d.ts
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// Minimum TypeScript Version: 3.7
export function CanvasKitInit(opts: CanvasKitInitOptions): Promise<CanvasKit>;
export interface CanvasKitInitOptions {
/**
* This callback will be invoked when the CanvasKit loader needs to fetch a file (e.g.
* the blob of WASM code). The correct url prefix should be applied.
* @param file - the name of the file that is about to be loaded.
*/
locateFile(file: string): string;
}
export interface CanvasKit {
// Helpers
/**
* Constructs a Color with the same API as CSS's rgba(), that is
* Internally, Colors are four unpremultiplied 32-bit floats: r, g, b, a.
* In order to construct one with more precision or in a wider gamut,
* use CanvasKit.Color4f().
*
* @param r - red value, clamped to [0, 255].
* @param g - green value, clamped to [0, 255].
* @param b - blue value, clamped to [0, 255].
* @param a - alpha value, from 0 to 1.0. By default is 1.0 (opaque).
*/
Color(r: number, g: number, b: number, a?: number): Color;
/**
* Construct a 4-float color. Float values are typically between 0.0 and 1.0.
* @param r - red value.
* @param g - green value.
* @param b - blue value.
* @param a - alpha value. By default is 1.0 (opaque).
*/
Color4f(r: number, g: number, b: number, a?: number): Color;
/**
* Constructs a Color as a 32 bit unsigned integer, with 8 bits assigned to each channel.
* Channels are expected to be between 0 and 255 and will be clamped as such.
* If a is omitted, it will be 255 (opaque).
*
* This is not the preferred way to use colors in Skia APIs, use Color or Color4f.
* @param r - red value, clamped to [0, 255].
* @param g - green value, clamped to [0, 255].
* @param b - blue value, clamped to [0, 255].
* @param a - alpha value, from 0 to 1.0. By default is 1.0 (opaque).
*/
ColorAsInt(r: number, g: number, b: number, a?: number): ColorInt;
/**
* Returns a css style [r, g, b, a] where r, g, b are returned as
* ints in the range [0, 255] and where a is scaled between 0 and 1.0.
* [Deprecated] - this is trivial now that Color is 4 floats.
*/
getColorComponents(c: Color): number[];
/**
* Takes in a CSS color value and returns a CanvasKit.Color
* (which is an array of 4 floats in RGBA order). An optional colorMap
* may be provided which maps custom strings to values.
* In the CanvasKit canvas2d shim layer, we provide this map for processing
* canvas2d calls, but not here for code size reasons.
*/
parseColorString(color: string, colorMap?: object): Color;
/**
* Returns a copy of the passed in color with a new alpha value applied.
* [Deprecated] - this is trivial now that Color is 4 floats.
*/
multiplyByAlpha(c: Color, alpha: number): Color;
/**
* Computes color values for one-pass tonal alpha.
* Note, if malloced colors are passed in, the memory pointed at by the MallocObj
* will be overwritten with the computed tonal colors (and thus the return val can be
* ignored).
* @param colors
*/
computeTonalColors(colors: TonalColorsInput): TonalColorsOutput;
/**
* Returns a rectangle with the given paramaters. See Rect.h for more.
* @param left - The x coordinate of the upper-left corner.
* @param top - The y coordinate of the upper-left corner.
* @param right - The x coordinate of the lower-right corner.
* @param bottom - The y coordinate of the lower-right corner.
*/
LTRBRect(left: number, top: number, right: number, bottom: number): Rect;
/**
* Returns a rectangle with the given paramaters. See Rect.h for more.
* @param x - The x coordinate of the upper-left corner.
* @param y - The y coordinate of the upper-left corner.
* @param width - The width of the rectangle.
* @param height - The height of the rectangle.
*/
XYWHRect(x: number, y: number, width: number, height: number): Rect;
/**
* Returns a rectangle with the given integer paramaters. See Rect.h for more.
* @param left - The x coordinate of the upper-left corner.
* @param top - The y coordinate of the upper-left corner.
* @param right - The x coordinate of the lower-right corner.
* @param bottom - The y coordinate of the lower-right corner.
*/
LTRBiRect(left: number, top: number, right: number, bottom: number): IRect;
/**
* Returns a rectangle with the given paramaters. See Rect.h for more.
* @param x - The x coordinate of the upper-left corner.
* @param y - The y coordinate of the upper-left corner.
* @param width - The width of the rectangle.
* @param height - The height of the rectangle.
*/
XYWHiRect(x: number, y: number, width: number, height: number): IRect;
/**
* Returns a rectangle with rounded corners consisting of the given rectangle and
* the same radiusX and radiusY for all four corners.
* @param rect - The base rectangle.
* @param rx - The radius of the corners in the x direction.
* @param ry - The radius of the corners in the y direction.
*/
RRectXY(rect: InputRect, rx: number, ry: number): RRect;
/**
* Generate bounding box for shadows relative to path. Includes both the ambient and spot
* shadow bounds. This pairs with Canvas.drawShadow().
* See SkShadowUtils.h for more details.
* @param ctm - Current transformation matrix to device space.
* @param path - The occluder used to generate the shadows.
* @param zPlaneParams - Values for the plane function which returns the Z offset of the
* occluder from the canvas based on local x and y values (the current
* matrix is not applied).
* @param lightPos - The 3D position of the light relative to the canvas plane. This is
* independent of the canvas's current matrix.
* @param lightRadius - The radius of the disc light.
* @param flags - See SkShadowFlags.h; 0 means use default options.
* @param dstRect - if provided, the bounds will be copied into this rect instead of allocating
* a new one.
* @returns The bounding rectangle or null if it could not be computed.
*/
getShadowLocalBounds(ctm: InputMatrix, path: Path, zPlaneParams: InputVector3,
lightPos: InputVector3, lightRadius: number, flags: number,
dstRect?: Rect): Rect | null;
/**
* Malloc returns a TypedArray backed by the C++ memory of the
* given length. It should only be used by advanced users who
* can manage memory and initialize values properly. When used
* correctly, it can save copying of data between JS and C++.
* When used incorrectly, it can lead to memory leaks.
* Any memory allocated by CanvasKit.Malloc needs to be released with CanvasKit.Free.
*
* const mObj = CanvasKit.Malloc(Float32Array, 20);
* Get a TypedArray view around the malloc'd memory (this does not copy anything).
* const ta = mObj.toTypedArray();
* // store data into ta
* const cf = CanvasKit.ColorFilter.MakeMatrix(ta); // mObj could also be used.
*
* // eventually...
* CanvasKit.Free(mObj);
*
* @param typedArray - constructor for the typedArray.
* @param len - number of *elements* to store.
*/
Malloc(typedArray: TypedArrayConstructor, len: number): MallocObj;
/**
* As Malloc but for GlyphIDs. This helper exists to make sure the JS side and the C++ side
* stay in agreement with how wide GlyphIDs are.
* @param len - number of GlyphIDs to make space for.
*/
MallocGlyphIDs(len: number): MallocObj;
/**
* Free frees the memory returned by Malloc.
* Any memory allocated by CanvasKit.Malloc needs to be released with CanvasKit.Free.
*/
Free(m: MallocObj): void;
// Surface related functions
/**
* Creates a Surface on a given canvas. If both GPU and CPU modes have been compiled in, this
* will first try to create a GPU surface and then fallback to a CPU one if that fails. If just
* the CPU mode has been compiled in, a CPU surface will be created.
* @param canvas - either the canvas element itself or a string with the DOM id of it.
*/
MakeCanvasSurface(canvas: HTMLCanvasElement | string): Surface | null;
/**
* Creates a Raster (CPU) Surface that will draw into the provided Malloc'd buffer. This allows
* clients to efficiently be able to read the current pixels w/o having to copy.
* The length of pixels must be at least height * bytesPerRow bytes big.
* @param ii
* @param pixels
* @param bytesPerRow - How many bytes are per row. This is at least width * bytesPerColorType. For example,
* an 8888 ColorType has 4 bytes per pixel, so a 5 pixel wide 8888 surface needs at least
* 5 * 4 = 20 bytesPerRow. Some clients may have more than the usual to make the data line
* up with a particular multiple.
*/
MakeRasterDirectSurface(ii: ImageInfo, pixels: MallocObj, bytesPerRow: number): Surface | null;
/**
* Creates a CPU backed (aka raster) surface.
* @param canvas - either the canvas element itself or a string with the DOM id of it.
*/
MakeSWCanvasSurface(canvas: HTMLCanvasElement | string): Surface | null;
/**
* A helper for creating a WebGL backed (aka GPU) surface and falling back to a CPU surface if
* the GPU one cannot be created. This works for both WebGL 1 and WebGL 2.
* @param canvas - Either the canvas element itself or a string with the DOM id of it.
* @param colorSpace - One of the supported color spaces. Default is SRGB.
* @param opts - Options that will get passed to the creation of the WebGL context.
*/
MakeWebGLCanvasSurface(canvas: HTMLCanvasElement | string, colorSpace?: ColorSpace,
opts?: WebGLOptions): Surface | null;
/**
* Returns a CPU backed surface with the given dimensions, an SRGB colorspace, Unpremul
* alphaType and 8888 color type. The pixels belonging to this surface will be in memory and
* not visible.
* @param width - number of pixels of the width of the drawable area.
* @param height - number of pixels of the height of the drawable area.
*/
MakeSurface(width: number, height: number): Surface | null;
/**
* Creates a WebGL Context from the given canvas with the given options. If options are omitted,
* sensible defaults will be used.
* @param canvas
* @param opts
*/
GetWebGLContext(canvas: HTMLCanvasElement, opts?: WebGLOptions): WebGLContextHandle;
/**
* Creates a GrDirectContext from the given WebGL Context.
* @param ctx
*/
MakeGrContext(ctx: WebGLContextHandle): GrDirectContext;
/**
* Creates a Surface that will be drawn to the given GrDirectContext (and show up on screen).
* @param ctx
* @param width - number of pixels of the width of the visible area.
* @param height - number of pixels of the height of the visible area.
* @param colorSpace
*/
MakeOnScreenGLSurface(ctx: GrDirectContext, width: number, height: number,
colorSpace: ColorSpace): Surface | null;
/**
* Returns a (non-visible) Surface on the GPU. It has the given dimensions and uses 8888
* color depth and premultiplied alpha. See Surface.h for more details.
* @param ctx
* @param width
* @param height
*/
MakeRenderTarget(ctx: GrDirectContext, width: number, height: number): Surface | null;
/**
* Returns a (non-visible) Surface on the GPU. It has the settings provided by image info.
* See Surface.h for more details.
* @param ctx
* @param info
*/
MakeRenderTarget(ctx: GrDirectContext, info: ImageInfo): Surface | null;
/**
* Returns the current WebGLContext that the wasm code is configured to draw to. It is
* recommended to capture this value after creating a new WebGL surface if there are multiple
* surfaces on the screen.
*/
currentContext(): WebGLContextHandle;
/**
* Sets the WebGLContext that the wasm code will draw to.
*
* When a WebGL call is made on the C++ side, it is routed to the JS side to target a specific
* WebGL context. WebGL calls are methods on a WebGL context, so CanvasKit needs to know which
* context to send the calls to.
* @param ctx
*/
setCurrentContext(ctx: WebGLContextHandle): void;
/**
* Deletes the associated WebGLContext. Function not available on the CPU version.
* @param ctx
*/
deleteContext(ctx: WebGLContextHandle): void;
/**
* Returns the max size of the global cache for bitmaps used by CanvasKit.
*/
getDecodeCacheLimitBytes(): number;
/**
* Returns the current size of the global cache for bitmaps used by CanvasKit.
*/
getDecodeCacheUsedBytes(): number;
/**
* Sets the max size of the global cache for bitmaps used by CanvasKit.
* @param size - number of bytes that can be used to cache bitmaps.
*/
setDecodeCacheLimitBytes(size: number): void;
/**
* Decodes the given bytes into an animated image. Returns null if the bytes were invalid.
* The passed in bytes will be copied into the WASM heap, so the caller can dispose of them.
* @param bytes
*/
MakeAnimatedImageFromEncoded(bytes: Uint8Array | ArrayBuffer): AnimatedImage | null;
/**
* Returns an emulated Canvas2D of the given size.
* @param width
* @param height
*/
MakeCanvas(width: number, height: number): EmulatedCanvas2D;
/**
* Returns an image with the given pixel data and format.
* Note that we will always make a copy of the pixel data, because of inconsistencies in
* behavior between GPU and CPU (i.e. the pixel data will be turned into a GPU texture and
* not modifiable after creation).
*
* @param info
* @param bytes - bytes representing the pixel data.
* @param bytesPerRow
*/
MakeImage(info: ImageInfo, bytes: number[] | Uint8Array | Uint8ClampedArray,
bytesPerRow: number): Image | null;
/**
* Return an Image backed by the encoded data, but attempt to defer decoding until the image
* is actually used/drawn. This deferral allows the system to cache the result, either on the
* CPU or on the GPU, depending on where the image is drawn.
* This decoding uses the codecs that have been compiled into CanvasKit. If the bytes are
* invalid (or an unrecognized codec), null will be returned. See Image.h for more details.
* @param bytes
*/
MakeImageFromEncoded(bytes: Uint8Array | ArrayBuffer): Image | null;
/**
* Returns an Image with the data from the provided CanvasImageSource (e.g. <img>). This will
* use the browser's built in codecs, in that src will be drawn to a canvas and then readback
* and placed into an Image.
* @param src
*/
MakeImageFromCanvasImageSource(src: CanvasImageSource): Image;
/**
* Returns an SkPicture which has been serialized previously to the given bytes.
* @param bytes
*/
MakePicture(bytes: Uint8Array | ArrayBuffer): SkPicture | null;
/**
* Returns an Vertices based on the given positions and optional parameters.
* See SkVertices.h (especially the Builder) for more details.
* @param mode
* @param positions
* @param textureCoordinates
* @param colors - either a list of int colors or a flattened color array.
* @param indices
* @param isVolatile
*/
MakeVertices(mode: VertexMode, positions: InputFlattenedPointArray,
textureCoordinates?: InputFlattenedPointArray | null,
colors?: Float32Array | ColorIntArray | null, indices?: number[] | null,
isVolatile?: boolean): Vertices;
/**
* Returns a Skottie animation built from the provided json string.
* Requires that Skottie be compiled into CanvasKit.
* @param json
*/
MakeAnimation(json: string): SkottieAnimation;
/**
* Returns a managed Skottie animation built from the provided json string and assets.
* Requires that Skottie be compiled into CanvasKit.
* @param json
* @param assets - a dictionary of named blobs: { key: ArrayBuffer, ... }
* @param filterPrefix - an optional string acting as a name filter for selecting "interesting"
* Lottie properties (surfaced in the embedded player controls)
* @param soundMap - an optional mapping of sound identifiers (strings) to AudioPlayers.
* Only needed if the animation supports sound.
*/
MakeManagedAnimation(json: string, assets?: Record<string, ArrayBuffer>,
filterPrefix?: string, soundMap?: SoundMap): ManagedSkottieAnimation;
/**
* Returns a Particles effect built from the provided json string and assets.
* Requires that Particles be compiled into CanvasKit
* @param json
* @param assets
*/
MakeParticles(json: string, assets?: Record<string, ArrayBuffer>): Particles;
// Constructors, i.e. things made with `new CanvasKit.Foo()`;
readonly ImageData: ImageDataConstructor;
readonly ParagraphStyle: ParagraphStyleConstructor;
readonly ContourMeasureIter: ContourMeasureIterConstructor;
readonly Font: FontConstructor;
readonly Paint: DefaultConstructor<Paint>;
readonly Path: PathConstructorAndFactory;
readonly PictureRecorder: DefaultConstructor<PictureRecorder>;
readonly TextStyle: TextStyleConstructor;
// Factories, i.e. things made with CanvasKit.Foo.MakeTurboEncapsulator()
readonly ParagraphBuilder: ParagraphBuilderFactory;
readonly ColorFilter: ColorFilterFactory;
readonly FontMgr: FontMgrFactory;
readonly ImageFilter: ImageFilterFactory;
readonly MaskFilter: MaskFilterFactory;
readonly PathEffect: PathEffectFactory;
readonly RuntimeEffect: RuntimeEffectFactory;
readonly Shader: ShaderFactory;
readonly TextBlob: TextBlobFactory;
readonly TypefaceFontProvider: TypefaceFontProviderFactory;
// Misc
readonly ColorMatrix: ColorMatrixHelpers;
readonly Matrix: Matrix3x3Helpers;
readonly M44: Matrix4x4Helpers;
readonly Vector: VectorHelpers;
// Core Enums
readonly AlphaType: AlphaTypeEnumValues;
readonly BlendMode: BlendModeEnumValues;
readonly BlurStyle: BlurStyleEnumValues;
readonly ClipOp: ClipOpEnumValues;
readonly ColorType: ColorTypeEnumValues;
readonly FillType: FillTypeEnumValues;
readonly FilterMode: FilterModeEnumValues;
readonly FilterQuality: FilterQualityEnumValues;
readonly FontEdging: FontEdgingEnumValues;
readonly FontHinting: FontHintingEnumValues;
readonly ImageFormat: ImageFormatEnumValues;
readonly MipmapMode: MipmapModeEnumValues;
readonly PaintStyle: PaintStyleEnumValues;
readonly PathOp: PathOpEnumValues;
readonly PointMode: PointModeEnumValues;
readonly ColorSpace: ColorSpaceEnumValues;
readonly StrokeCap: StrokeCapEnumValues;
readonly StrokeJoin: StrokeJoinEnumValues;
readonly TileMode: TileModeEnumValues;
readonly VertexMode: VertexModeEnumValues;
// Core Constants
readonly TRANSPARENT: Color;
readonly BLACK: Color;
readonly WHITE: Color;
readonly RED: Color;
readonly GREEN: Color;
readonly BLUE: Color;
readonly YELLOW: Color;
readonly CYAN: Color;
readonly MAGENTA: Color;
readonly MOVE_VERB: number;
readonly LINE_VERB: number;
readonly QUAD_VERB: number;
readonly CONIC_VERB: number;
readonly CUBIC_VERB: number;
readonly CLOSE_VERB: number;
readonly SaveLayerInitWithPrevious: SaveLayerFlag;
readonly SaveLayerF16ColorType: SaveLayerFlag;
/**
* Use this shadow flag to indicate the occluding object is not opaque. Knowing that the
* occluder is opaque allows us to cull shadow geometry behind it and improve performance.
*/
readonly ShadowTransparentOccluder: number;
/**
* Use this shadow flag to not use analytic shadows.
*/
readonly ShadowGeometricOnly: number;
/**
* Use this shadow flag to indicate the light position represents a direction and light radius
* is blur radius at elevation 1.
*/
readonly ShadowDirectionalLight: number;
readonly gpu?: boolean; // true if GPU code was compiled in
readonly managed_skottie?: boolean; // true if advanced (managed) Skottie code was compiled in
readonly particles?: boolean; // true if Particles code was compiled in
readonly rt_effect?: boolean; // true if RuntimeEffect was compiled in
readonly skottie?: boolean; // true if base Skottie code was compiled in
// Paragraph Enums
readonly Affinity: AffinityEnumValues;
readonly DecorationStyle: DecorationStyleEnumValues;
readonly FontSlant: FontSlantEnumValues;
readonly FontWeight: FontWeightEnumValues;
readonly FontWidth: FontWidthEnumValues;
readonly PlaceholderAlignment: PlaceholderAlignmentEnumValues;
readonly RectHeightStyle: RectHeightStyleEnumValues;
readonly RectWidthStyle: RectWidthStyleEnumValues;
readonly TextAlign: TextAlignEnumValues;
readonly TextBaseline: TextBaselineEnumValues;
readonly TextDirection: TextDirectionEnumValues;
// Paragraph Constants
readonly NoDecoration: number;
readonly UnderlineDecoration: number;
readonly OverlineDecoration: number;
readonly LineThroughDecoration: number;
}
export interface Camera {
/** a 3d point locating the camera. */
eye: Vector3;
/** center of attention - the 3d point the camera is looking at. */
coa: Vector3;
/**
* A unit vector pointing the cameras up direction. Note that using only eye and coa
* would leave the roll of the camera unspecified.
*/
up: Vector3;
/** near clipping plane distance */
near: number;
/** far clipping plane distance */
far: number;
/** field of view in radians */
angle: AngleInRadians;
}
/**
* CanvasKit is built with Emscripten and Embind. Embind adds the following methods to all objects
* that are exposed with it.
*/
export interface EmbindObject<T extends EmbindObject<T>> {
clone(): T;
delete(): void;
deleteAfter(): void;
isAliasOf(other: any): boolean;
isDeleted(): boolean;
}
/**
* Represents the set of enum values.
*/
export interface EmbindEnum {
readonly values: number[];
}
/**
* Represents a single member of an enum.
*/
export interface EmbindEnumEntity {
readonly value: number;
}
export interface EmulatedCanvas2D {
/**
* Cleans up all resources associated with this emulated canvas.
*/
dispose(): void;
/**
* Decodes an image with the given bytes.
* @param bytes
*/
decodeImage(bytes: ArrayBuffer | Uint8Array): Image;
/**
* Returns an emulated canvas2d context if type == '2d', null otherwise.
* @param type
*/
getContext(type: string): EmulatedCanvas2DContext | null;
/**
* Loads the given font with the given descriptors. Emulates new FontFace().
* @param bytes
* @param descriptors
*/
loadFont(bytes: ArrayBuffer | Uint8Array, descriptors: object): void;
/**
* Returns an new emulated Path2D object.
* @param str - an SVG string representing a path.
*/
makePath2D(str?: string): EmulatedPath2D;
/**
* Returns the current canvas as a base64 encoded image string.
* @param codec - image/png by default; image/jpeg also supported.
* @param quality
*/
toDataURL(codec?: string, quality?: number): string;
}
/** Part of the Canvas2D emulation code */
export type EmulatedCanvas2DContext = CanvasRenderingContext2D;
export type EmulatedImageData = ImageData;
export type EmulatedPath2D = Path2D;
export interface FontStyle {
weight?: FontWeight;
width?: FontWidth;
slant?: FontSlant;
}
/**
* See GrDirectContext.h for more on this class.
*/
export interface GrDirectContext extends EmbindObject<GrDirectContext> {
getResourceCacheLimitBytes(): number;
getResourceCacheUsageBytes(): number;
releaseResourcesAndAbandonContext(): void;
setResourceCacheLimitBytes(bytes: number): void;
}
/**
* See Metrics.h for more on this struct.
*/
export interface LineMetrics {
/** The index in the text buffer the line begins. */
startIndex: number;
/** The index in the text buffer the line ends. */
endIndex: number;
endExcludingWhitespaces: number;
endIncludingNewline: number;
/** True if the line ends in a hard break (e.g. newline) */
isHardBreak: boolean;
/**
* The final computed ascent for the line. This can be impacted by
* the strut, height, scaling, as well as outlying runs that are very tall.
*/
ascent: number;
/**
* The final computed descent for the line. This can be impacted by
* the strut, height, scaling, as well as outlying runs that are very tall.
*/
descent: number;
/** round(ascent + descent) */
height: number;
/** width of the line */
width: number;
/** The left edge of the line. The right edge can be obtained with `left + width` */
left: number;
/** The y position of the baseline for this line from the top of the paragraph. */
baseline: number;
/** Zero indexed line number. */
lineNumber: number;
}
export interface GlyphRun {
glyphs: Uint16Array;
positions: Float32Array; // alternating x0, y0, x1, y1, ...
offsets: Uint32Array;
origin_x: number;
origin_y: number;
}
/**
* This object is a wrapper around a pointer to some memory on the WASM heap. The type of the
* pointer was determined at creation time.
*/
export interface MallocObj {
/**
* The number of objects this pointer refers to.
*/
readonly length: number;
/**
* The "pointer" into the WASM memory. Should be fixed over the lifetime of the object.
*/
readonly byteOffset: number;
/**
* Return a read/write view into a subset of the memory. Do not cache the TypedArray this
* returns, it may be invalidated if the WASM heap is resized. This is the same as calling
* .toTypedArray().subarray() except the returned TypedArray can also be passed into an API
* and not cause an additional copy.
*/
subarray(start: number, end: number): TypedArray;
/**
* Return a read/write view of the memory. Do not cache the TypedArray this returns, it may be
* invalidated if the WASM heap is resized. If this TypedArray is passed into a CanvasKit API,
* it will not be copied again, only the pointer will be re-used.
*/
toTypedArray(): TypedArray;
}
/**
* This object maintains a single audio layer during skottie playback
*/
export interface AudioPlayer {
/**
* Playback control callback, emitted for each corresponding Animation::seek().
*
* Will seek to time t (seconds) relative to the layer's timeline origin.
* Negative t values are used to signal off state (stop playback outside layer span).
*/
seek(t: number): void;
}
/**
* Mapping of sound names (strings) to AudioPlayers
*/
export interface SoundMap {
/**
* Returns AudioPlayer for a certain audio layer
* @param key string identifier, name of audio file the desired AudioPlayer manages
*/
getPlayer(key: string): AudioPlayer;
}
/**
* Named color property.
*/
export interface ColorProperty {
/**
* Property identifier, usually the node name.
*/
key: string;
/**
* Property value (RGBA, 255-based).
*/
value: ColorInt;
}
/**
* Named opacity property.
*/
export interface OpacityProperty {
/**
* Property identifier, usually the node name.
*/
key: string;
/**
* Property value (0..100).
*/
value: number;
}
/**
* Text property value.
*/
export interface TextValue {
/**
* The text string payload.
*/
text: string;
/**
* Font size.
*/
size: number;
}
/**
* Named text property.
*/
export interface TextProperty {
/**
* Property identifier, usually the node name.
*/
key: string;
/**
* Property value.
*/
value: TextValue;
}
export interface ManagedSkottieAnimation extends SkottieAnimation {
setColor(key: string, color: InputColor): boolean;
setOpacity(key: string, opacity: number): boolean;
setText(key: string, text: string, size: number): boolean;
getMarkers(): object[];
getColorProps(): ColorProperty[];
getOpacityProps(): OpacityProperty[];
getTextProps(): TextProperty[];
}
/**
* See Paragraph.h for more information on this class. This is only available if Paragraph has
* been compiled in.
*/
export interface Paragraph extends EmbindObject<Paragraph> {
didExceedMaxLines(): boolean;
getAlphabeticBaseline(): number;
/**
* Returns the index of the glyph that corresponds to the provided coordinate,
* with the top left corner as the origin, and +y direction as down.
*/
getGlyphPositionAtCoordinate(dx: number, dy: number): PositionWithAffinity;
getHeight(): number;
getIdeographicBaseline(): number;
getLineMetrics(): LineMetrics[];
getLongestLine(): number;
getMaxIntrinsicWidth(): number;
getMaxWidth(): number;
getMinIntrinsicWidth(): number;
getRectsForPlaceholders(): FlattenedRectangleArray;
/**
* Returns bounding boxes that enclose all text in the range of glpyh indexes [start, end).
* @param start
* @param end
* @param hStyle
* @param wStyle
*/
getRectsForRange(start: number, end: number, hStyle: RectHeightStyle,
wStyle: RectWidthStyle): FlattenedRectangleArray;
/**
* Finds the first and last glyphs that define a word containing the glyph at index offset.
* @param offset
*/
getWordBoundary(offset: number): URange;
getShapedRuns(): GlyphRun[];
/**
* Lays out the text in the paragraph so it is wrapped to the given width.
* @param width
*/
layout(width: number): void;
}
export interface ParagraphBuilder extends EmbindObject<ParagraphBuilder> {
/**
* Pushes the information required to leave an open space.
* @param width
* @param height
* @param alignment
* @param baseline
* @param offset
*/
addPlaceholder(width?: number, height?: number, alignment?: PlaceholderAlignment,
baseline?: TextBaseline, offset?: number): void;
/**
* Adds text to the builder. Forms the proper runs to use the upper-most style
* on the style_stack.
* @param str
*/
addText(str: string): void;
/**
* Returns a Paragraph object that can be used to be layout and paint the text to an
* Canvas.
*/
build(): Paragraph;
/**
* Remove a style from the stack. Useful to apply different styles to chunks
* of text such as bolding.
*/
pop(): void;
/**
* Push a style to the stack. The corresponding text added with addText will
* use the top-most style.
* @param text
*/
pushStyle(text: TextStyle): void;
/**
* Pushes a TextStyle using paints instead of colors for foreground and background.
* @param textStyle
* @param fg
* @param bg
*/
pushPaintStyle(textStyle: TextStyle, fg: Paint, bg: Paint): void;
}
export interface ParagraphStyle {
disableHinting?: boolean;
ellipsis?: string;
heightMultiplier?: number;
maxLines?: number;
strutStyle?: StrutStyle;
textAlign?: TextAlign;
textDirection?: TextDirection;
textStyle?: TextStyle;
}
export interface PositionWithAffinity {
pos: number;
affinity: Affinity;
}
/**
* See SkParticleEffect.h for more details.
*/
export interface Particles extends EmbindObject<Particles> {
/**
* Draws the current state of the particles on the given canvas.
* @param canvas
*/
draw(canvas: Canvas): void;
/**
* Returns a Float32Array bound to the WASM memory of these uniforms. Changing these
* floats will change the corresponding uniforms instantly.
*/
uniforms(): Float32Array;
/**
* Returns the nth uniform from the effect.
* @param index
*/
getUniform(index: number): SkSLUniform;
/**
* Returns the number of uniforms on the effect.
*/
getUniformCount(): number;
/**
* Returns the total number of floats across all uniforms on the effect. This is the length
* of the array returned by `uniforms()`. For example, an effect with a single float3 uniform,
* would return 1 from `getUniformCount()`, but 3 from `getUniformFloatCount()`.
*/
getUniformFloatCount(): number;
/**
* Returns the name of the nth effect uniform.
* @param index
*/
getUniformName(index: number): string;
/**
* Sets the base position of the effect.
* @param point
*/
setPosition(point: InputPoint): void;
/**
* Sets the base rate of the effect.
* @param rate
*/
setRate(rate: number): void;
/**
* Starts playing the effect.
* @param now
* @param looping
*/
start(now: number, looping: boolean): void;
/**
* Updates the effect using the new time.
* @param now
*/
update(now: number): void;
}
export interface SkSLUniform {
columns: number;
rows: number;
/** The index into the uniforms array that this uniform begins. */
slot: number;
}
/**
* See SkAnimatedImage.h for more information on this class.
*/
export interface AnimatedImage extends EmbindObject<AnimatedImage> {
/**
* Decodes the next frame. Returns -1 when the animation is on the last frame.
*/
decodeNextFrame(): number;
/**
* Return the total number of frames in the animation.
*/
getFrameCount(): number;
/**
* Return the repetition count for this animation.
*/
getRepetitionCount(): number;
/**
* Returns the possibly scaled height of the image.
*/
height(): number;
/**
* Returns a still image of the current frame or null if there is no current frame.
*/
makeImageAtCurrentFrame(): Image | null;
/**
* Reset the animation to the beginning.
*/
reset(): void;
/**
* Returns the possibly scaled width of the image.
*/
width(): number;
}
/**
* See SkCanvas.h for more information on this class.
*/
export interface Canvas extends EmbindObject<Canvas> {
/**
* Fills the current clip with the given color using Src BlendMode.
* This has the effect of replacing all pixels contained by clip with color.
* @param color
*/
clear(color: InputColor): void;
/**
* Replaces clip with the intersection or difference of the current clip and path,
* with an aliased or anti-aliased clip edge.
* @param path
* @param op
* @param doAntiAlias
*/
clipPath(path: Path, op: ClipOp, doAntiAlias: boolean): void;
/**
* Replaces clip with the intersection or difference of the current clip and rect,
* with an aliased or anti-aliased clip edge.
* @param rect
* @param op
* @param doAntiAlias
*/
clipRect(rect: InputRect, op: ClipOp, doAntiAlias: boolean): void;
/**
* Replaces clip with the intersection or difference of the current clip and rrect,
* with an aliased or anti-aliased clip edge.
* @param rrect
* @param op
* @param doAntiAlias
*/
clipRRect(rrect: InputRRect, op: ClipOp, doAntiAlias: boolean): void;
/**
* Replaces current matrix with m premultiplied with the existing matrix.
* @param m
*/
concat(m: InputMatrix): void;
/**
* Draws arc using clip, Matrix, and Paint paint.
*
* Arc is part of oval bounded by oval, sweeping from startAngle to startAngle plus
* sweepAngle. startAngle and sweepAngle are in degrees.
* @param oval - bounds of oval containing arc to draw
* @param startAngle - angle in degrees where arc begins
* @param sweepAngle - sweep angle in degrees; positive is clockwise
* @param useCenter - if true, include the center of the oval
* @param paint
*/
drawArc(oval: InputRect, startAngle: AngleInDegrees, sweepAngle: AngleInDegrees,
useCenter: boolean, paint: Paint): void;
/**
* Draws a set of sprites from atlas, using clip, Matrix, and optional Paint paint.
* @param atlas - Image containing sprites
* @param srcRects - Rect locations of sprites in atlas
* @param dstXforms - RSXform mappings for sprites in atlas
* @param paint
* @param blendMode - BlendMode combining colors and sprites
* @param colors - If provided, will be blended with sprite using blendMode.
* @param sampling - Specifies sampling options. If null, bilinear is used.
*/
drawAtlas(atlas: Image, srcRects: InputFlattenedRectangleArray,
dstXforms: InputFlattenedRSXFormArray, paint: Paint,
blendMode?: BlendMode | null, colors?: ColorIntArray | null,
sampling?: CubicResampler | FilterOptions): void;
/**
* Draws a circle at (cx, cy) with the given radius.
* @param cx
* @param cy
* @param radius
* @param paint
*/
drawCircle(cx: number, cy: number, radius: number, paint: Paint): void;
/**
* Fills clip with the given color.
* @param color
* @param blendMode - defaults to SrcOver.
*/
drawColor(color: InputColor, blendMode?: BlendMode): void;
/**
* Fills clip with the given color.
* @param r - red value (typically from 0 to 1.0).
* @param g - green value (typically from 0 to 1.0).
* @param b - blue value (typically from 0 to 1.0).
* @param a - alpha value, range 0 to 1.0 (1.0 is opaque).
* @param blendMode - defaults to SrcOver.
*/
drawColorComponents(r: number, g: number, b: number, a: number, blendMode?: BlendMode): void;
/**
* Fills clip with the given color.
* @param color
* @param blendMode - defaults to SrcOver.
*/
drawColorInt(color: ColorInt, blendMode?: BlendMode): void;
/**
* Draws RRect outer and inner using clip, Matrix, and Paint paint.
* outer must contain inner or the drawing is undefined.
* @param outer
* @param inner
* @param paint
*/
drawDRRect(outer: InputRRect, inner: InputRRect, paint: Paint): void;
/**
* Draws a run of glyphs, at corresponding positions, in a given font.
* @param glyphs the array of glyph IDs (Uint16TypedArray)
* @param positions the array of x,y floats to position each glyph
* @param x x-coordinate of the origin of the entire run
* @param x y-coordinate of the origin of the entire run
* @param font the font that contains the glyphs
* @param paint
*/
drawGlyphs(glyphs: InputGlyphIDArray,
positions: InputFlattenedPointArray,
x: number, y: number,
font: Font, paint: Paint): void;
/**
* Draws the given image with its top-left corner at (left, top) using the current clip,
* the current matrix, and optionally-provided paint.
* @param img
* @param left
* @param top
* @param paint
*/
drawImage(img: Image, left: number, top: number, paint?: Paint): void;
/**
* Draws the given image with its top-left corner at (left, top) using the current clip,
* the current matrix. It will use the cubic sampling options B and C if necessary.
* @param img
* @param left
* @param top
* @param B - See CubicResampler in SkSamplingOptions.h for more information
* @param C - See CubicResampler in SkSamplingOptions.h for more information
* @param paint
*/
drawImageCubic(img: Image, left: number, top: number, B: number, C: number,
paint: Paint | null): void;
/**
* Draws the given image with its top-left corner at (left, top) using the current clip,
* the current matrix. It will use the provided sampling options if necessary.
* @param img
* @param left
* @param top
* @param fm - The filter mode.
* @param mm - The mipmap mode. Note: for settings other than None, the image must have mipmaps
* calculated with makeCopyWithDefaultMipmaps;
* @param paint
*/
drawImageOptions(img: Image, left: number, top: number, fm: FilterMode,
mm: MipmapMode, paint: Paint | null): void;
/**
* Draws the current frame of the given animated image with its top-left corner at
* (left, top) using the current clip, the current matrix, and optionally-provided paint.
* @param aImg
* @param left
* @param top
* @param paint
*/
drawImageAtCurrentFrame(aImg: AnimatedImage, left: number, top: number,
paint?: Paint): void;
/**
* Draws the provided image stretched proportionally to fit into dst rectangle.
* The center rectangle divides the image into nine sections: four sides, four corners, and
* the center.
* @param img
* @param center
* @param dest
* @param filter - what technique to use when sampling the image
* @param paint
*/
drawImageNine(img: Image, center: InputIRect, dest: InputRect, filter: FilterMode,
paint?: Paint): void;
/**
* Draws sub-rectangle src from provided image, scaled and translated to fill dst rectangle.
* @param img
* @param src
* @param dest
* @param paint
* @param fastSample - if false, will filter strictly within src.
*/
drawImageRect(img: Image, src: InputRect, dest: InputRect, paint: Paint,
fastSample?: boolean): void;
/**
* Draws sub-rectangle src from provided image, scaled and translated to fill dst rectangle.
* It will use the cubic sampling options B and C if necessary.
* @param img
* @param src
* @param dest
* @param B - See CubicResampler in SkSamplingOptions.h for more information
* @param C - See CubicResampler in SkSamplingOptions.h for more information
* @param paint
*/
drawImageRectCubic(img: Image, src: InputRect, dest: InputRect,
B: number, C: number, paint?: Paint): void;
/**
* Draws sub-rectangle src from provided image, scaled and translated to fill dst rectangle.
* It will use the provided sampling options if necessary.
* @param img
* @param src
* @param dest
* @param fm - The filter mode.
* @param mm - The mipmap mode. Note: for settings other than None, the image must have mipmaps
* calculated with makeCopyWithDefaultMipmaps;
* @param paint
*/
drawImageRectOptions(img: Image, src: InputRect, dest: InputRect, fm: FilterMode,
mm: MipmapMode, paint?: Paint): void;
/**
* Draws line segment from (x0, y0) to (x1, y1) using the current clip, current matrix,
* and the provided paint.
* @param x0
* @param y0
* @param x1
* @param y1
* @param paint
*/
drawLine(x0: number, y0: number, x1: number, y1: number, paint: Paint): void;
/**
* Draws an oval bounded by the given rectangle using the current clip, current matrix,
* and the provided paint.
* @param oval
* @param paint
*/
drawOval(oval: InputRect, paint: Paint): void;
/**
* Fills clip with the given paint.
* @param paint
*/
drawPaint(paint: Paint): void;
/**
* Draws the given Paragraph at the provided coordinates.
* Requires the Paragraph code to be compiled in.
* @param p
* @param x
* @param y
*/
drawParagraph(p: Paragraph, x: number, y: number): void;
/**
* Draws the given path using the current clip, current matrix, and the provided paint.
* @param path
* @param paint
*/
drawPath(path: Path, paint: Paint): void;
/**
* Draws a cubic patch defined by 12 control points [top, right, bottom, left] with optional
* colors and shader-coordinates [4] specifed for each corner [top-left, top-right, bottom-right, bottom-left]
* @param cubics 12 points : 4 connected cubics specifying the boundary of the patch
* @param colors optional colors interpolated across the patch
* @param texs optional shader coordinates interpolated across the patch
* @param mode Specifies how shader and colors blend (if both are specified)
* @param paint
*/
drawPatch(cubics: InputFlattenedPointArray,
colors?: ColorIntArray | Color[] | null,
texs?: InputFlattenedPointArray | null,
mode?: BlendMode | null,
paint?: Paint): void;
/**
* Draws the given picture using the current clip, current matrix, and the provided paint.
* @param skp
*/
drawPicture(skp: SkPicture): void;
/**
* Draws the given points using the current clip, current matrix, and the provided paint.
*
* See Canvas.h for more on the mode and its interaction with paint.
* @param mode
* @param points
* @param paint
*/
drawPoints(mode: PointMode, points: InputFlattenedPointArray, paint: Paint): void;
/**
* Draws the given rectangle using the current clip, current matrix, and the provided paint.
* @param rect
* @param paint
*/
drawRect(rect: InputRect, paint: Paint): void;
/**
* Draws the given rectangle using the current clip, current matrix, and the provided paint.
* @param left
* @param top
* @param right
* @param bottom
* @param paint
*/
drawRect4f(left: number, top: number, right: number, bottom: number, paint: Paint): void;
/**
* Draws the given rectangle with rounded corners using the current clip, current matrix,
* and the provided paint.
* @param rrect
* @param paint
*/
drawRRect(rrect: InputRRect, paint: Paint): void;
/**
* Draw an offset spot shadow and outlining ambient shadow for the given path using a disc
* light. See SkShadowUtils.h for more details
* @param path - The occluder used to generate the shadows.
* @param zPlaneParams - Values for the plane function which returns the Z offset of the
* occluder from the canvas based on local x and y values (the current
* matrix is not applied).
* @param lightPos - The 3D position of the light relative to the canvas plane. This is
* independent of the canvas's current matrix.
* @param lightRadius - The radius of the disc light.
* @param ambientColor - The color of the ambient shadow.
* @param spotColor - The color of the spot shadow.
* @param flags - See SkShadowFlags.h; 0 means use default options.
*/
drawShadow(path: Path, zPlaneParams: InputVector3, lightPos: InputVector3, lightRadius: number,
ambientColor: InputColor, spotColor: InputColor, flags: number): void;
/**
* Draw the given text at the location (x, y) using the provided paint and font. The text will
* be drawn as is; no shaping, left-to-right, etc.
* @param str
* @param x
* @param y
* @param paint
* @param font
*/
drawText(str: string, x: number, y: number, paint: Paint, font: Font): void;
/**
* Draws the given TextBlob at (x, y) using the current clip, current matrix, and the
* provided paint. Reminder that the fonts used to draw TextBlob are part of the blob.
* @param blob
* @param x
* @param y
* @param paint
*/
drawTextBlob(blob: TextBlob, x: number, y: number, paint: Paint): void;
/**
* Draws the given vertices (a triangle mesh) using the current clip, current matrix, and the
* provided paint.
* If paint contains an Shader and vertices does not contain texCoords, the shader
* is mapped using the vertices' positions.
* If vertices colors are defined in vertices, and Paint paint contains Shader,
* BlendMode mode combines vertices colors with Shader.
* @param verts
* @param mode
* @param paint
*/
drawVertices(verts: Vertices, mode: BlendMode, paint: Paint): void;
/**
* Returns the 4x4 matrix matching the given marker or null if there was none.
* See also markCTM.
* @param marker
*/
findMarkedCTM(marker: string): Matrix4x4 | null;
/**
* Returns the current transform from local coordinates to the 'device', which for most
* purposes means pixels.
*/
getLocalToDevice(): Matrix4x4;
/**
* Returns the number of saved states, each containing: Matrix and clip.
* Equals the number of save() calls less the number of restore() calls plus one.
* The save count of a new canvas is one.
*/
getSaveCount(): number;
/**
* Legacy version of getLocalToDevice(), which strips away any Z information, and
* just returns a 3x3 version.
*/
getTotalMatrix(): number[];
/**
* Creates Surface matching info and props, and associates it with Canvas.
* Returns null if no match found.
* @param info
*/
makeSurface(info: ImageInfo): Surface | null;
/**
* Record a marker (provided by caller) for the current CTM. This does not change anything
* about the ctm or clip, but does "name" this matrix value, so it can be referenced by
* custom effects (who access it by specifying the same name).
* See also findMarkedCTM.
* @param marker
*/
markCTM(marker: string): void;
/**
* Returns a TypedArray containing the pixels reading starting at (srcX, srcY) and does not
* exceed the size indicated by imageInfo. See SkCanvas.h for more on the caveats.
*
* If dest is not provided, we allocate memory equal to the provided height * the provided
* bytesPerRow to fill the data with.
*
* This is generally a very expensive call for the GPU backend.
*
* @param srcX
* @param srcY
* @param imageInfo - describes the destination format of the pixels.
* @param dest - If provided, the pixels will be copied into the allocated buffer allowing
* access to the pixels without allocating a new TypedArray.
* @param bytesPerRow - number of bytes per row. Must be provided if dest is set. This
* depends on destination ColorType. For example, it must be at least 4 * width for
* the 8888 color type.
* @returns a TypedArray appropriate for the specified ColorType. Note that 16 bit floats are
* not supported in JS, so that colorType corresponds to raw bytes Uint8Array.
*/
readPixels(srcX: number, srcY: number, imageInfo: ImageInfo, dest?: MallocObj,
bytesPerRow?: number): Uint8Array | Float32Array | null;
/**
* Removes changes to the current matrix and clip since Canvas state was
* last saved. The state is removed from the stack.
* Does nothing if the stack is empty.
*/
restore(): void;
/**
* Restores state to a previous stack value.
* @param saveCount
*/
restoreToCount(saveCount: number): void;
/**
* Rotates the current matrix by the number of degrees.
* @param rot - angle of rotation in degrees.
* @param rx
* @param ry
*/
rotate(rot: AngleInDegrees, rx: number, ry: number): void;
/**
* Saves the current matrix and clip and returns current height of the stack.
*/
save(): number;
/**
* Saves Matrix and clip, and allocates a SkBitmap for subsequent drawing.
* Calling restore() discards changes to Matrix and clip, and draws the SkBitmap.
* It returns the height of the stack.
* See Canvas.h for more.
* @param paint
* @param bounds
* @param backdrop
* @param flags
*/
saveLayer(paint?: Paint, bounds?: InputRect | null, backdrop?: ImageFilter | null,
flags?: SaveLayerFlag): number;
/**
* Scales the current matrix by sx on the x-axis and sy on the y-axis.
* @param sx
* @param sy
*/
scale(sx: number, sy: number): void;
/**
* Skews Matrix by sx on the x-axis and sy on the y-axis. A positive value of sx
* skews the drawing right as y-axis values increase; a positive value of sy skews
* the drawing down as x-axis values increase.
* @param sx
* @param sy
*/
skew(sx: number, sy: number): void;
/**
* Translates Matrix by dx along the x-axis and dy along the y-axis.
* @param dx
* @param dy
*/
translate(dx: number, dy: number): void;
/**
* Writes the given rectangle of pixels to the provided coordinates. The source pixels
* will be converted to the canvas's alphaType and colorType if they do not match.
* @param pixels
* @param srcWidth
* @param srcHeight
* @param destX
* @param destY
* @param alphaType - defaults to Unpremul
* @param colorType - defaults to RGBA_8888
* @param colorSpace - defaults to SRGB
*/
writePixels(pixels: Uint8Array | number[], srcWidth: number, srcHeight: number,
destX: number, destY: number, alphaType?: AlphaType, colorType?: ColorType,
colorSpace?: ColorSpace): boolean;
}
/**
* See SkColorFilter.h for more on this class. The objects are opaque.
*/
export type ColorFilter = EmbindObject<ColorFilter>;
export interface ContourMeasureIter extends EmbindObject<ContourMeasureIter> {
/**
* Iterates through contours in path, returning a contour-measure object for each contour
* in the path. Returns null when it is done.
*
* See SkContourMeasure.h for more details.
*/
next(): ContourMeasure | null;
}
export interface ContourMeasure extends EmbindObject<ContourMeasure> {
/**
* Returns the given position and tangent line for the distance on the given contour.
* The return value is 4 floats in this order: posX, posY, vecX, vecY.
* @param distance - will be pinned between 0 and length().
* @param output - if provided, the four floats of the PosTan will be copied into this array
* instead of allocating a new one.
*/
getPosTan(distance: number, output?: PosTan): PosTan;
/**
* Returns an Path representing the segement of this contour.
* @param startD - will be pinned between 0 and length()
* @param stopD - will be pinned between 0 and length()
* @param startWithMoveTo
*/
getSegment(startD: number, stopD: number, startWithMoveTo: boolean): Path;
/**
* Returns true if the contour is closed.
*/
isClosed(): boolean;
/**
* Returns the length of this contour.
*/
length(): number;
}
export interface FontMetrics {
ascent: number, // suggested space above the baseline. < 0
descent: number, // suggested space below the baseline. > 0
leading: number, // suggested spacing between descent of previous line and ascent of next line.
bounds?: Rect, // smallest rect containing all glyphs (relative to 0,0)
}
/**
* See SkFont.h for more on this class.
*/
export interface Font extends EmbindObject<Font> {
/**
* Returns the FontMetrics for this font.
*/
getMetrics(): FontMetrics;
/**
* Retrieves the bounds for each glyph in glyphs.
* If paint is not null, its stroking, PathEffect, and MaskFilter fields are respected.
* These are returned as flattened rectangles. For each glyph, there will be 4 floats for
* left, top, right, bottom (relative to 0, 0) for that glyph.
* @param glyphs
* @param paint
* @param output - if provided, the results will be copied into this array.
*/
getGlyphBounds(glyphs: InputGlyphIDArray, paint?: Paint | null,
output?: Float32Array): Float32Array;
/**
* Retrieves the glyph ids for each code point in the provided string. Note that glyph IDs
* are font-dependent; different fonts may have different ids for the same code point.
* @param str
* @param numCodePoints - the number of code points in the string. Defaults to str.length.
* @param output - if provided, the results will be copied into this array.
*/
getGlyphIDs(str: string, numCodePoints?: number,
output?: TypedArray): GlyphIDArray;
/**
* Retrieves the advanceX measurements for each glyph.
* If paint is not null, its stroking, PathEffect, and MaskFilter fields are respected.
* One width per glyph is returned in the returned array.
* @param glyphs
* @param paint
* @param output - if provided, the results will be copied into this array.
*/
getGlyphWidths(glyphs: InputGlyphIDArray, paint?: Paint | null,
output?: Float32Array): Float32Array;
/**
* Returns text scale on x-axis. Default value is 1.
*/
getScaleX(): number;
/**
* Returns text size in points.
*/
getSize(): number;
/**
* Returns text skew on x-axis. Default value is zero.
*/
getSkewX(): number;
/**
* Returns the Typeface set for this font.
*/
getTypeface(): Typeface | null;
/**
* Requests, but does not require, that edge pixels draw opaque or with partial transparency.
* @param edging
*/
setEdging(edging: FontEdging): void;
/**
* Requests, but does not require, to use bitmaps in fonts instead of outlines.
* @param embeddedBitmaps
*/
setEmbeddedBitmaps(embeddedBitmaps: boolean): void;
/**
* Sets level of glyph outline adjustment.
* @param hinting
*/
setHinting(hinting: FontHinting): void;
/**
* Requests, but does not require, linearly scalable font and glyph metrics.
*
* For outline fonts 'true' means font and glyph metrics should ignore hinting and rounding.
* Note that some bitmap formats may not be able to scale linearly and will ignore this flag.
* @param linearMetrics
*/
setLinearMetrics(linearMetrics: boolean): void;
/**
* Sets the text scale on the x-axis.
* @param sx
*/
setScaleX(sx: number): void;
/**
* Sets the text size in points on this font.
* @param points
*/
setSize(points: number): void;
/**
* Sets the text-skew on the x axis for this font.
* @param sx
*/
setSkewX(sx: number): void;
/**
* Requests, but does not require, that glyphs respect sub-pixel positioning.
* @param subpixel
*/
setSubpixel(subpixel: boolean): void;
/**
* Sets the typeface to use with this font. null means to clear the typeface and use the
* default one.
* @param face
*/
setTypeface(face: Typeface | null): void;
}
/**
* See SkFontMgr.h for more details
*/
export interface FontMgr extends EmbindObject<FontMgr> {
/**
* Return the number of font families loaded in this manager. Useful for debugging.
*/
countFamilies(): number;
/**
* Return the nth family name. Useful for debugging.
* @param index
*/
getFamilyName(index: number): string;
/**
* Create a typeface for the specified bytes and return it.
* @param fontData
*/
makeTypefaceFromData(fontData: ArrayBuffer): Typeface;
}
/**
* See SkImage.h for more information on this class.
*/
export interface Image extends EmbindObject<Image> {
/**
* Encodes this image's pixels to the specified format and returns them. Must be built with
* the specified codec. If the options are unspecified, sensible defaults will be
* chosen.
* @param fmt - PNG is the default value.
* @param quality - a value from 0 to 100; 100 is the least lossy. May be ignored.
*/
encodeToBytes(fmt?: EncodedImageFormat, quality?: number): Uint8Array | null;
/**
* Returns the color space associated with this object.
* It is the user's responsibility to call delete() on this after it has been used.
*/
getColorSpace(): ColorSpace;
/**
* Returns the width, height, colorType and alphaType associated with this image.
* Colorspace is separate so as to not accidentally leak that memory.
*/
getImageInfo(): PartialImageInfo;
/**
* Return the height in pixels of the image.
*/
height(): number;
/**
* Returns an Image with the same "base" pixels as the this image, but with mipmap levels
* automatically generated and attached.
*/
makeCopyWithDefaultMipmaps(): Image;
/**
* Returns this image as a shader with the specified tiling. It will use cubic sampling.
* @param tx - tile mode in the x direction.
* @param ty - tile mode in the y direction.
* @param B - See CubicResampler in SkSamplingOptions.h for more information
* @param C - See CubicResampler in SkSamplingOptions.h for more information
* @param localMatrix
*/
makeShaderCubic(tx: TileMode, ty: TileMode, B: number, C: number,
localMatrix?: InputMatrix): Shader;
/**
* Returns this image as a shader with the specified tiling. It will use cubic sampling.
* @param tx - tile mode in the x direction.
* @param ty - tile mode in the y direction.
* @param fm - The filter mode.
* @param mm - The mipmap mode. Note: for settings other than None, the image must have mipmaps
* calculated with makeCopyWithDefaultMipmaps;
* @param localMatrix
*/
makeShaderOptions(tx: TileMode, ty: TileMode, fm: FilterMode, mm: MipmapMode,
localMatrix?: InputMatrix): Shader;
/**
* Returns a TypedArray containing the pixels reading starting at (srcX, srcY) and does not
* exceed the size indicated by imageInfo. See SkImage.h for more on the caveats.
*
* If dest is not provided, we allocate memory equal to the provided height * the provided
* bytesPerRow to fill the data with.
*
* @param srcX
* @param srcY
* @param imageInfo - describes the destination format of the pixels.
* @param dest - If provided, the pixels will be copied into the allocated buffer allowing
* access to the pixels without allocating a new TypedArray.
* @param bytesPerRow - number of bytes per row. Must be provided if dest is set. This
* depends on destination ColorType. For example, it must be at least 4 * width for
* the 8888 color type.
* @returns a TypedArray appropriate for the specified ColorType. Note that 16 bit floats are
* not supported in JS, so that colorType corresponds to raw bytes Uint8Array.
*/
readPixels(srcX: number, srcY: number, imageInfo: ImageInfo, dest?: MallocObj,
bytesPerRow?: number): Uint8Array | Float32Array | null;
/**
* Return the width in pixels of the image.
*/
width(): number;
}
/**
* See ImageFilter.h for more on this class. The objects are opaque.
*/
export type ImageFilter = EmbindObject<ImageFilter>;
export interface ImageInfo {
alphaType: AlphaType;
colorSpace: ColorSpace;
colorType: ColorType;
height: number;
width: number;
}
export interface PartialImageInfo {
alphaType: AlphaType;
colorType: ColorType;
height: number;
width: number;
}
/*
* Specifies sampling with bicubic coefficients
*/
export interface CubicResampler {
B: number; // 0..1
C: number; // 0..1
}
/**
* Specifies sampling using filter and mipmap options
*/
export interface FilterOptions {
filter: FilterMode;
mipmap?: MipmapMode; // defaults to None if not specified
}
/**
* See SkMaskFilter.h for more on this class. The objects are opaque.
*/
export type MaskFilter = EmbindObject<MaskFilter>;
/**
* See SkPaint.h for more information on this class.
*/
export interface Paint extends EmbindObject<Paint> {
/**
* Returns a copy of this paint.
*/
copy(): Paint;
/**
* Returns the blend mode, that is, the mode used to combine source color
* with destination color.
*/
getBlendMode(): BlendMode;
/**
* Retrieves the alpha and RGB unpremultiplied. RGB are extended sRGB values
* (sRGB gamut, and encoded with the sRGB transfer function).
*/
getColor(): Color;
/**
* Returns the geometry drawn at the beginning and end of strokes.
*/
getStrokeCap(): StrokeCap;
/**
* Returns the geometry drawn at the corners of strokes.
*/
getStrokeJoin(): StrokeJoin;
/**
* Returns the limit at which a sharp corner is drawn beveled.
*/
getStrokeMiter(): number;
/**
* Returns the thickness of the pen used to outline the shape.
*/
getStrokeWidth(): number;
/**
* Replaces alpha, leaving RGBA unchanged. 0 means fully transparent, 1.0 means opaque.
* @param alpha
*/
setAlphaf(alpha: number): void;
/**
* Requests, but does not require, that edge pixels draw opaque or with
* partial transparency.
* @param aa
*/
setAntiAlias(aa: boolean): void;
/**
* Sets the blend mode that is, the mode used to combine source color
* with destination color.
* @param mode
*/
setBlendMode(mode: BlendMode): void;
/**
* Sets alpha and RGB used when stroking and filling. The color is four floating
* point values, unpremultiplied. The color values are interpreted as being in
* the provided colorSpace.
* @param color
* @param colorSpace - defaults to sRGB
*/
setColor(color: InputColor, colorSpace?: ColorSpace): void;
/**
* Sets alpha and RGB used when stroking and filling. The color is four floating
* point values, unpremultiplied. The color values are interpreted as being in
* the provided colorSpace.
* @param r
* @param g
* @param b
* @param a
* @param colorSpace - defaults to sRGB
*/
setColorComponents(r: number, g: number, b: number, a: number, colorSpace?: ColorSpace): void;
/**
* Sets the current color filter, replacing the existing one if there was one.
* @param filter
*/
setColorFilter(filter: ColorFilter): void;
/**
* Sets the color used when stroking and filling. The color values are interpreted as being in
* the provided colorSpace.
* @param color
* @param colorSpace - defaults to sRGB.
*/
setColorInt(color: ColorInt, colorSpace?: ColorSpace): void;
/**
* Sets the current image filter, replacing the existing one if there was one.
* @param filter
*/
setImageFilter(filter: ImageFilter): void;
/**
* Sets the current mask filter, replacing the existing one if there was one.
* @param filter
*/
setMaskFilter(filter: MaskFilter): void;
/**
* Sets the current path effect, replacing the existing one if there was one.
* @param effect
*/
setPathEffect(effect: PathEffect): void;
/**
* Sets the current shader, replacing the existing one if there was one.
* @param shader
*/
setShader(shader: Shader): void;
/**
* Sets the geometry drawn at the beginning and end of strokes.
* @param cap
*/
setStrokeCap(cap: StrokeCap): void;
/**
* Sets the geometry drawn at the corners of strokes.
* @param join
*/
setStrokeJoin(join: StrokeJoin): void;
/**
* Sets the limit at which a sharp corner is drawn beveled.
* @param limit
*/
setStrokeMiter(limit: number): void;
/**
* Sets the thickness of the pen used to outline the shape.
* @param width
*/
setStrokeWidth(width: number): void;
/**
* Sets whether the geometry is filled or stroked.
* @param style
*/
setStyle(style: PaintStyle): void;
}
/**
* See SkPath.h for more information on this class.
*/
export interface Path extends EmbindObject<Path> {
/**
* Appends arc to Path, as the start of new contour. Arc added is part of ellipse
* bounded by oval, from startAngle through sweepAngle. Both startAngle and
* sweepAngle are measured in degrees, where zero degrees is aligned with the
* positive x-axis, and positive sweeps extends arc clockwise.
* Returns the modified path for easier chaining.
* @param oval
* @param startAngle
* @param sweepAngle
*/
addArc(oval: InputRect, startAngle: AngleInDegrees, sweepAngle: AngleInDegrees): Path;
/**
* Adds oval to Path, appending kMove_Verb, four kConic_Verb, and kClose_Verb.
* Oval is upright ellipse bounded by Rect oval with radii equal to half oval width
* and half oval height. Oval begins at start and continues clockwise by default.
* Returns the modified path for easier chaining.
* @param oval
* @param isCCW - if the path should be drawn counter-clockwise or not
* @param startIndex - index of initial point of ellipse
*/
addOval(oval: InputRect, isCCW?: boolean, startIndex?: number): Path;
/**
* Takes 1, 2, 7, or 10 required args, where the first arg is always the path.
* The last arg is an optional boolean and chooses between add or extend mode.
* The options for the remaining args are:
* - an array of 6 or 9 parameters (perspective is optional)
* - the 9 parameters of a full matrix or
* the 6 non-perspective params of a matrix.
* Returns the modified path for easier chaining (or null if params were incorrect).
* @param args
*/
addPath(...args: any[]): Path | null;
/**
* Adds contour created from array of n points, adding (count - 1) line segments.
* Contour added starts at pts[0], then adds a line for every additional point
* in pts array. If close is true, appends kClose_Verb to Path, connecting
* pts[count - 1] and pts[0].
* Returns the modified path for easier chaining.
* @param points
* @param close - if true, will add a line connecting last point to the first point.
*/
addPoly(points: InputFlattenedPointArray, close: boolean): Path;
/**
* Adds Rect to Path, appending kMove_Verb, three kLine_Verb, and kClose_Verb,
* starting with top-left corner of Rect; followed by top-right, bottom-right,
* and bottom-left if isCCW is false; or followed by bottom-left,
* bottom-right, and top-right if isCCW is true.
* Returns the modified path for easier chaining.
* @param rect
* @param isCCW
*/
addRect(rect: InputRect, isCCW?: boolean): Path;
/**
* Adds rrect to Path, creating a new closed contour.
* Returns the modified path for easier chaining.
* @param rrect
* @param isCCW
*/
addRRect(rrect: InputRRect, isCCW?: boolean): Path;
/**
* Adds the given verbs and associated points/weights to the path. The process
* reads the first verb from verbs and then the appropriate number of points from the
* FlattenedPointArray (e.g. 2 points for moveTo, 4 points for quadTo, etc). If the verb is
* a conic, a weight will be read from the WeightList.
* Returns the modified path for easier chaining
* @param verbs - the verbs that create this path, in the order of being drawn.
* @param points - represents n points with 2n floats.
* @param weights - used if any of the verbs are conics, can be omitted otherwise.
*/
addVerbsPointsWeights(verbs: VerbList, points: InputFlattenedPointArray,
weights?: WeightList): Path;
/**
* Adds an arc to this path, emulating the Canvas2D behavior.
* Returns the modified path for easier chaining.
* @param x
* @param y
* @param radius
* @param startAngle
* @param endAngle
* @param isCCW
*/
arc(x: number, y: number, radius: number, startAngle: AngleInRadians, endAngle: AngleInRadians,
isCCW?: boolean): Path;
/**
* Appends arc to Path. Arc added is part of ellipse
* bounded by oval, from startAngle through sweepAngle. Both startAngle and
* sweepAngle are measured in degrees, where zero degrees is aligned with the
* positive x-axis, and positive sweeps extends arc clockwise.
* Returns the modified path for easier chaining.
* @param oval
* @param startAngle
* @param endAngle
* @param forceMoveTo
*/
arcToOval(oval: InputRect, startAngle: AngleInDegrees, endAngle: AngleInDegrees,
forceMoveTo: boolean): Path;
/**
* Appends arc to Path. Arc is implemented by one or more conics weighted to
* describe part of oval with radii (rx, ry) rotated by xAxisRotate degrees. Arc
* curves from last Path Point to (x, y), choosing one of four possible routes:
* clockwise or counterclockwise, and smaller or larger. See SkPath.h for more details.
* Returns the modified path for easier chaining.
* @param rx
* @param ry
* @param xAxisRotate
* @param useSmallArc
* @param isCCW
* @param x
* @param y
*/
arcToRotated(rx: number, ry: number, xAxisRotate: AngleInDegrees, useSmallArc: boolean,
isCCW: boolean, x: number, y: number): Path;
/**
* Appends arc to Path, after appending line if needed. Arc is implemented by conic
* weighted to describe part of circle. Arc is contained by tangent from
* last Path point to (x1, y1), and tangent from (x1, y1) to (x2, y2). Arc
* is part of circle sized to radius, positioned so it touches both tangent lines.
* Returns the modified path for easier chaining.
* @param x1
* @param y1
* @param x2
* @param y2
* @param radius
*/
arcToTangent(x1: number, y1: number, x2: number, y2: number, radius: number): Path;
/**
* Appends CLOSE_VERB to Path. A closed contour connects the first and last point
* with a line, forming a continuous loop.
* Returns the modified path for easier chaining.
*/
close(): Path;
/**
* Returns minimum and maximum axes values of the lines and curves in Path.
* Returns (0, 0, 0, 0) if Path contains no points.
* Returned bounds width and height may be larger or smaller than area affected
* when Path is drawn.
*
* Behaves identically to getBounds() when Path contains
* only lines. If Path contains curves, computed bounds includes
* the maximum extent of the quad, conic, or cubic; is slower than getBounds();
* and unlike getBounds(), does not cache the result.
* @param outputArray - if provided, the bounding box will be copied into this array instead of
* allocating a new one.
*/
computeTightBounds(outputArray?: Rect): Rect;
/**
* Adds conic from last point towards (x1, y1), to (x2, y2), weighted by w.
* If Path is empty, or path is closed, the last point is set to (0, 0)
* before adding conic.
* Returns the modified path for easier chaining.
* @param x1
* @param y1
* @param x2
* @param y2
* @param w
*/
conicTo(x1: number, y1: number, x2: number, y2: number, w: number): Path;
/**
* Returns true if the point (x, y) is contained by Path, taking into
* account FillType.
* @param x
* @param y
*/
contains(x: number, y: number): boolean;
/**
* Returns a copy of this Path.
*/
copy(): Path;
/**
* Returns the number of points in this path. Initially zero.
*/
countPoints(): number;
/**
* Adds cubic from last point towards (x1, y1), then towards (x2, y2), ending at
* (x3, y3). If Path is empty, or path is closed, the last point is set to
* (0, 0) before adding cubic.
* @param cpx1
* @param cpy1
* @param cpx2
* @param cpy2
* @param x
* @param y
*/
cubicTo(cpx1: number, cpy1: number, cpx2: number, cpy2: number, x: number, y: number): Path;
/**
* Changes this path to be the dashed version of itself. This is the same effect as creating
* a DashPathEffect and calling filterPath on this path.
* @param on
* @param off
* @param phase
*/
dash(on: number, off: number, phase: number): boolean;
/**
* Returns true if other path is equal to this path.
* @param other
*/
equals(other: Path): boolean;
/**
* Returns minimum and maximum axes values of Point array.
* Returns (0, 0, 0, 0) if Path contains no points. Returned bounds width and height may
* be larger or smaller than area affected when Path is drawn.
* @param outputArray - if provided, the bounding box will be copied into this array instead of
* allocating a new one.
*/
getBounds(outputArray?: Rect): Rect;
/**
* Return the FillType for this path.
*/
getFillType(): FillType;
/**
* Returns the Point at index in Point array. Valid range for index is
* 0 to countPoints() - 1.
* @param index
* @param outputArray - if provided, the point will be copied into this array instead of
* allocating a new one.
*/
getPoint(index: number, outputArray?: Point): Point;
/**
* Returns true if there are no verbs in the path.
*/
isEmpty(): boolean;
/**
* Returns true if the path is volatile; it will not be altered or discarded
* by the caller after it is drawn. Path by default have volatile set false, allowing
* Surface to attach a cache of data which speeds repeated drawing. If true, Surface
* may not speed repeated drawing.
*/
isVolatile(): boolean;
/**
* Adds line from last point to (x, y). If Path is empty, or last path is closed,
* last point is set to (0, 0) before adding line.
* Returns the modified path for easier chaining.
* @param x
* @param y
*/
lineTo(x: number, y: number): Path;
/**
* Adds begininning of contour at the given point.
* Returns the modified path for easier chaining.
* @param x
* @param y
*/
moveTo(x: number, y: number): Path;
/**
* Translates all the points in the path by dx, dy.
* Returns the modified path for easier chaining.
* @param dx
* @param dy
*/
offset(dx: number, dy: number): Path;
/**
* Combines this path with the other path using the given PathOp. Returns false if the operation
* fails.
* @param other
* @param op
*/
op(other: Path, op: PathOp): boolean;
/**
* Adds quad from last point towards (x1, y1), to (x2, y2).
* If Path is empty, or path is closed, last point is set to (0, 0) before adding quad.
* Returns the modified path for easier chaining.
* @param x1
* @param y1
* @param x2
* @param y2
*/
quadTo(x1: number, y1: number, x2: number, y2: number): Path;
/**
* Relative version of arcToRotated.
* @param rx
* @param ry
* @param xAxisRotate
* @param useSmallArc
* @param isCCW
* @param dx
* @param dy
*/
rArcTo(rx: number, ry: number, xAxisRotate: AngleInDegrees, useSmallArc: boolean,
isCCW: boolean, dx: number, dy: number): Path;
/**
* Relative version of conicTo.
* @param dx1
* @param dy1
* @param dx2
* @param dy2
* @param w
*/
rConicTo(dx1: number, dy1: number, dx2: number, dy2: number, w: number): Path;
/**
* Relative version of cubicTo.
* @param cpx1
* @param cpy1
* @param cpx2
* @param cpy2
* @param x
* @param y
*/
rCubicTo(cpx1: number, cpy1: number, cpx2: number, cpy2: number, x: number, y: number): Path;
/**
* Sets Path to its initial state.
* Removes verb array, point array, and weights, and sets FillType to Winding.
* Internal storage associated with Path is released
*/
reset(): void;
/**
* Sets Path to its initial state.
* Removes verb array, point array, and weights, and sets FillType to Winding.
* Internal storage associated with Path is *not* released.
* Use rewind() instead of reset() if Path storage will be reused and performance
* is critical.
*/
rewind(): void;
/**
* Relative version of lineTo.
* @param x
* @param y
*/
rLineTo(x: number, y: number): Path;
/**
* Relative version of moveTo.
* @param x
* @param y
*/
rMoveTo(x: number, y: number): Path;
/**
* Relative version of quadTo.
* @param x1
* @param y1
* @param x2
* @param y2
*/
rQuadTo(x1: number, y1: number, x2: number, y2: number): Path;
/**
* Sets FillType, the rule used to fill Path.
* @param fill
*/
setFillType(fill: FillType): void;
/**
* Specifies whether Path is volatile; whether it will be altered or discarded
* by the caller after it is drawn. Path by default have volatile set false.
*
* Mark animating or temporary paths as volatile to improve performance.
* Mark unchanging Path non-volatile to improve repeated rendering.
* @param volatile
*/
setIsVolatile(volatile: boolean): void;
/**
* Set this path to a set of non-overlapping contours that describe the
* same area as the original path.
* The curve order is reduced where possible so that cubics may
* be turned into quadratics, and quadratics maybe turned into lines.
*
* Returns true if operation was able to produce a result.
*/
simplify(): boolean;
/**
* Turns this path into the filled equivalent of the stroked path. Returns null if the operation
* fails (e.g. the path is a hairline).
* @param opts - describe how stroked path should look.
*/
stroke(opts?: StrokeOpts): Path | null;
/**
* Serializes the contents of this path as a series of commands.
*/
toCmds(): PathCommand[];
/**
* Returns this path as an SVG string.
*/
toSVGString(): string;
/**
* Takes a 3x3 matrix as either an array or as 9 individual params.
* @param args
*/
transform(...args: any[]): Path;
/**
* Take start and stop "t" values (values between 0...1), and modify this path such that
* it is a subset of the original path.
* The trim values apply to the entire path, so if it contains several contours, all of them
* are including in the calculation.
* Null is returned if either input value is NaN.
* @param startT - a value in the range [0.0, 1.0]. 0.0 is the beginning of the path.
* @param stopT - a value in the range [0.0, 1.0]. 1.0 is the end of the path.
* @param isComplement
*/
trim(startT: number, stopT: number, isComplement: boolean): Path | null;
}
/**
* See SkPathEffect.h for more on this class. The objects are opaque.
*/
export type PathEffect = EmbindObject<PathEffect>;
/**
* See SkPicture.h for more information on this class.
*
* Of note, SkPicture is *not* what is colloquially thought of as a "picture" (what we
* call a bitmap). An SkPicture is a series of draw commands.
*/
export interface SkPicture extends EmbindObject<SkPicture> {
/**
* Returns the serialized format of this SkPicture. The format may change at anytime and
* no promises are made for backwards or forward compatibility.
*/
serialize(): Uint8Array | null;
}
export interface PictureRecorder extends EmbindObject<PictureRecorder> {
/**
* Returns a canvas on which to draw. When done drawing, call finishRecordingAsPicture()
*
* @param bounds - a rect to cull the results.
*/
beginRecording(bounds: InputRect): Canvas;
/**
* Returns the captured draw commands as a picture and invalidates the canvas returned earlier.
*/
finishRecordingAsPicture(): SkPicture;
}
/**
* See SkRuntimeEffect.h for more details.
*/
export interface RuntimeEffect extends EmbindObject<RuntimeEffect> {
/**
* Returns a shader executed using the given uniform data.
* @param uniforms
* @param isOpaque
* @param localMatrix
*/
makeShader(uniforms: Float32Array | number[], isOpaque?: boolean,
localMatrix?: InputMatrix): Shader;
/**
* Returns a shader executed using the given uniform data and the children as inputs.
* @param uniforms
* @param isOpaque
* @param children
* @param localMatrix
*/
makeShaderWithChildren(uniforms: Float32Array | number[], isOpaque?: boolean,
children?: Shader[], localMatrix?: InputMatrix): Shader;
/**
* Returns the nth uniform from the effect.
* @param index
*/
getUniform(index: number): SkSLUniform;
/**
* Returns the number of uniforms on the effect.
*/
getUniformCount(): number;
/**
* Returns the total number of floats across all uniforms on the effect. This is the length
* of the uniforms array expected by makeShader. For example, an effect with a single float3
* uniform, would return 1 from `getUniformCount()`, but 3 from `getUniformFloatCount()`.
*/
getUniformFloatCount(): number;
/**
* Returns the name of the nth effect uniform.
* @param index
*/
getUniformName(index: number): string;
}
/**
* See SkShader.h for more on this class. The objects are opaque.
*/
export type Shader = EmbindObject<Shader>;
export interface Surface extends EmbindObject<Surface> {
/**
* Clean up the surface and any extra memory.
* [Deprecated]: In the future, calls to delete() will be sufficient to clean up the memory.
*/
dispose(): void;
/**
* Make sure any queued draws are sent to the screen or the GPU.
*/
flush(): void;
/**
* Return a canvas that is backed by this surface. Any draws to the canvas will (eventually)
* show up on the surface. The returned canvas is owned by the surface and does NOT need to
* be cleaned up by the client.
*/
getCanvas(): Canvas;
/**
* Returns the height of this surface in pixels.
*/
height(): number;
/**
* Returns the ImageInfo associated with this surface.
*/
imageInfo(): ImageInfo;
/**
* Returns current contents of the surface as an Image. This image will be optimized to be
* drawn to another surface of the same type. For example, if this surface is backed by the
* GPU, the returned Image will be backed by a GPU texture.
*/
makeImageSnapshot(bounds?: InputIRect): Image;
/**
* Returns a compatible Surface, haring the same raster or GPU properties of the original.
* The pixels are not shared.
* @param info - width, height, etc of the Surface.
*/
makeSurface(info: ImageInfo): Surface;
/**
* Returns if this Surface is a GPU-backed surface or not.
*/
reportBackendTypeIsGPU(): boolean;
/**
* If this surface is GPU-backed, return the sample count of the surface.
*/
sampleCnt(): number;
/**
* Returns the width of this surface in pixels.
*/
width(): number;
}
/**
* See SkTextBlob.h for more on this class. The objects are opaque.
*/
export type TextBlob = EmbindObject<TextBlob>;
/**
* See SkTypeface.h for more on this class. The objects are opaque.
*/
export type Typeface = EmbindObject<Typeface>;
/**
* See SkVertices.h for more on this class.
*/
export interface Vertices extends EmbindObject<Vertices> {
/**
* Return the bounding area for the vertices.
* @param outputArray - if provided, the bounding box will be copied into this array instead of
* allocating a new one.
*/
bounds(outputArray?: Rect): Rect;
/**
* Return a unique ID for this vertices object.
*/
uniqueID(): number;
}
export interface SkottieAnimation extends EmbindObject<SkottieAnimation> {
/**
* Returns the animation duration in seconds.
*/
duration(): number;
/**
* Returns the animation frame rate (frames / second).
*/
fps(): number;
/**
* Draws current animation frame. Must call seek or seekFrame first.
* @param canvas
* @param dstRect
*/
render(canvas: Canvas, dstRect?: InputRect): void;
/**
* [deprecated] - use seekFrame
* @param t - value from [0.0, 1.0]; 0 is first frame, 1 is final frame.
* @param damageRect - will copy damage frame into this if provided.
*/
seek(t: number, damageRect?: Rect): Rect;
/**
* Update the animation state to match |t|, specified as a frame index
* i.e. relative to duration() * fps().
*
* Returns the rectangle that was affected by this animation.
*
* @param frame - Fractional values are allowed and meaningful - e.g.
* 0.0 -> first frame
* 1.0 -> second frame
* 0.5 -> halfway between first and second frame
* @param damageRect - will copy damage frame into this if provided.
*/
seekFrame(frame: number, damageRect?: Rect): Rect;
/**
* Return the size of this animation.
* @param outputSize - If provided, the size will be copied into here as width, height.
*/
size(outputSize?: Point): Point;
version(): string;
}
/**
* Options used for Path.stroke(). If an option is omitted, a sensible default will be used.
*/
export interface StrokeOpts {
/** The width of the stroked lines. */
width?: number;
miter_limit?: number;
/**
* if > 1, increase precision, else if (0 < resScale < 1) reduce precision to
* favor speed and size
*/
precision?: number;
join?: StrokeJoin;
cap?: StrokeCap;
}
export interface StrutStyle {
strutEnabled?: boolean;
fontFamilies?: string[];
fontStyle?: FontStyle;
fontSize?: number;
heightMultiplier?: number;
leading?: number;
forceStrutHeight?: boolean;
}
export interface TextFontFeatures {
name: string;
value: number;
}
export interface TextShadow {
color?: InputColor;
/**
* 2d array for x and y offset. Defaults to [0, 0]
*/
offset?: number[];
blurRadius?: number;
}
export interface TextStyle {
backgroundColor?: InputColor;
color?: InputColor;
decoration?: number;
decorationColor?: InputColor;
decorationThickness?: number;
decrationStyle?: DecorationStyle;
fontFamilies?: string[];
fontFeatures?: TextFontFeatures[];
fontSize?: number;
fontStyle?: FontStyle;
foregroundColor?: InputColor;
heightMultiplier?: number;
letterSpacing?: number;
locale?: string;
shadows?: TextShadow[];
textBaseline?: TextBaseline;
wordSpacing?: number;
}
export interface TonalColorsInput {
ambient: InputColor;
spot: InputColor;
}
export interface TonalColorsOutput {
ambient: Color;
spot: Color;
}
export interface TypefaceFontProvider extends EmbindObject<TypefaceFontProvider> {
/**
* Registers a given typeface with the given family name (ignoring whatever name the
* typface has for itself).
* @param bytes - the raw bytes for a typeface.
* @param family
*/
registerFont(bytes: ArrayBuffer | Uint8Array, family: string): void;
}
export interface URange {
start: number;
end: number;
}
/**
* Options for configuring a WebGL context. If an option is omitted, a sensible default will
* be used. These are defined by the WebGL standards.
*/
export interface WebGLOptions {
alpha?: number;
antialias?: number;
depth?: number;
enableExtensionsByDefault?: number;
explicitSwapControl?: number;
failIfMajorPerformanceCaveat?: number;
majorVersion?: number;
minorVersion?: number;
preferLowPowerToHighPerformance?: number;
premultipliedAlpha?: number;
preserveDrawingBuffer?: number;
renderViaOffscreenBackBuffer?: number;
stencil?: number;
}
export interface DefaultConstructor<T> {
new (): T;
}
export interface ColorMatrixHelpers {
/**
* Returns a new ColorMatrix that is the result of multiplying outer*inner
* @param outer
* @param inner
*/
concat(outer: ColorMatrix, inner: ColorMatrix): ColorMatrix;
/**
* Returns an identity ColorMatrix.
*/
identity(): ColorMatrix;
/**
* Sets the 4 "special" params that will translate the colors after they are multiplied
* by the 4x4 matrix.
* @param m
* @param dr - delta red
* @param dg - delta green
* @param db - delta blue
* @param da - delta alpha
*/
postTranslate(m: ColorMatrix, dr: number, dg: number, db: number, da: number): ColorMatrix;
/**
* Returns a new ColorMatrix that is rotated around a given axis.
* @param axis - 0 for red, 1 for green, 2 for blue
* @param sine - sin(angle)
* @param cosine - cos(angle)
*/
rotated(axis: number, sine: number, cosine: number): ColorMatrix;
/**
* Returns a new ColorMatrix that scales the colors as specified.
* @param redScale
* @param greenScale
* @param blueScale
* @param alphaScale
*/
scaled(redScale: number, greenScale: number, blueScale: number,
alphaScale: number): ColorMatrix;
}
/**
* A constructor for making an ImageData that is compatible with the Canvas2D emulation code.
*/
export interface ImageDataConstructor {
new (width: number, height: number): EmulatedImageData;
new (pixels: Uint8ClampedArray, width: number, height: number): EmulatedImageData;
}
/**
* TODO(kjlubick) Make this API return Float32Arrays
*/
export interface Matrix3x3Helpers {
/**
* Returns a new identity 3x3 matrix.
*/
identity(): number[];
/**
* Returns the inverse of the given 3x3 matrix or null if it is not invertible.
* @param m
*/
invert(m: Matrix3x3 | number[]): number[] | null;
/**
* Maps the given 2d points according to the given 3x3 matrix.
* @param m
* @param points - the flattened points to map; the results are computed in place on this array.
*/
mapPoints(m: Matrix3x3 | number[], points: number[]): number[];
/**
* Multiplies the provided 3x3 matrices together from left to right.
* @param matrices
*/
multiply(...matrices: Array<(Matrix3x3 | number[])>): number[];
/**
* Returns a new 3x3 matrix representing a rotation by n radians.
* @param radians
* @param px - the X value to rotate around, defaults to 0.
* @param py - the Y value to rotate around, defaults to 0.
*/
rotated(radians: AngleInRadians, px?: number, py?: number): number[];
/**
* Returns a new 3x3 matrix representing a scale in the x and y directions.
* @param sx - the scale in the X direction.
* @param sy - the scale in the Y direction.
* @param px - the X value to scale from, defaults to 0.
* @param py - the Y value to scale from, defaults to 0.
*/
scaled(sx: number, sy: number, px?: number, py?: number): number[];
/**
* Returns a new 3x3 matrix representing a scale in the x and y directions.
* @param kx - the kurtosis in the X direction.
* @param ky - the kurtosis in the Y direction.
* @param px - the X value to skew from, defaults to 0.
* @param py - the Y value to skew from, defaults to 0.
*/
skewed(kx: number, ky: number, px?: number, py?: number): number[];
/**
* Returns a new 3x3 matrix representing a translation in the x and y directions.
* @param dx
* @param dy
*/
translated(dx: number, dy: number): number[];
}
/**
* See SkM44.h for more details.
*/
export interface Matrix4x4Helpers {
/**
* Returns a new identity 4x4 matrix.
*/
identity(): number[];
/**
* Returns the inverse of the given 4x4 matrix or null if it is not invertible.
* @param matrix
*/
invert(matrix: Matrix4x4 | number[]): number[] | null;
/**
* Return a new 4x4 matrix representing a camera at eyeVec, pointed at centerVec.
* @param eyeVec
* @param centerVec
* @param upVec
*/
lookat(eyeVec: Vector3, centerVec: Vector3, upVec: Vector3): number[];
/**
* Multiplies the provided 4x4 matrices together from left to right.
* @param matrices
*/
multiply(...matrices: Array<(Matrix4x4 | number[])>): number[];
/**
* Returns the inverse of the given 4x4 matrix or throws if it is not invertible.
* @param matrix
*/
mustInvert(matrix: Matrix4x4 | number[]): number[];
/**
* Returns a new 4x4 matrix representing a perspective.
* @param near
* @param far
* @param radians
*/
perspective(near: number, far: number, radians: AngleInRadians): number[];
/**
* Returns the value at the specified row and column of the given 4x4 matrix.
* @param matrix
* @param row
* @param col
*/
rc(matrix: Matrix4x4 | number[], row: number, col: number): number;
/**
* Returns a new 4x4 matrix representing a rotation around the provided vector.
* @param axis
* @param radians
*/
rotated(axis: Vector3, radians: AngleInRadians): number[];
/**
* Returns a new 4x4 matrix representing a rotation around the provided vector.
* Rotation is provided redundantly as both sin and cos values.
* This rotate can be used when you already have the cosAngle and sinAngle values
* so you don't have to atan(cos/sin) to call roatated() which expects an angle in radians.
* This does no checking! Behavior for invalid sin or cos values or non-normalized axis vectors
* is incorrect. Prefer rotated().
* @param axis
* @param sinAngle
* @param cosAngle
*/
rotatedUnitSinCos(axis: Vector3, sinAngle: number, cosAngle: number): number[];
/**
* Returns a new 4x4 matrix representing a scale by the provided vector.
* @param vec
*/
scaled(vec: Vector3): number[];
/**
* Returns a new 4x4 matrix that sets up a 3D perspective view from a given camera.
* @param area - describes the viewport. (0, 0, canvas_width, canvas_height) suggested.
* @param zScale - describes the scale of the z axis. min(width, height)/2 suggested
* @param cam
*/
setupCamera(area: InputRect, zScale: number, cam: Camera): number[];
/**
* Returns a new 4x4 matrix representing a translation by the provided vector.
* @param vec
*/
translated(vec: Vector3): number[];
/**
* Returns a new 4x4 matrix that is the transpose of this 4x4 matrix.
* @param matrix
*/
transpose(matrix: Matrix4x4 | number[]): number[];
}
export interface ParagraphBuilderFactory {
/**
* Creates a ParagraphBuilder using the fonts available from the given font manager.
* @param style
* @param fontManager
*/
Make(style: ParagraphStyle, fontManager: FontMgr): ParagraphBuilder;
/**
* Creates a ParagraphBuilder using the fonts available from the given font provider.
* @param style
* @param fontSrc
*/
MakeFromFontProvider(style: ParagraphStyle, fontSrc: TypefaceFontProvider): ParagraphBuilder;
}
export interface ParagraphStyleConstructor {
/**
* Fills out all optional fields with defaults. The emscripten bindings complain if there
* is a field undefined and it was expecting a float (for example).
* @param ps
*/
new(ps: ParagraphStyle): ParagraphStyle;
}
/**
* See SkColorFilter.h for more.
*/
export interface ColorFilterFactory {
/**
* Makes a color filter with the given color and blend mode.
* @param color
* @param mode
*/
MakeBlend(color: InputColor, mode: BlendMode): ColorFilter;
/**
* Makes a color filter composing two color filters.
* @param outer
* @param inner
*/
MakeCompose(outer: ColorFilter, inner: ColorFilter): ColorFilter;
/**
* Makes a color filter that is linearly interpolated between two other color filters.
* @param t - a float in the range of 0.0 to 1.0.
* @param dst
* @param src
*/
MakeLerp(t: number, dst: ColorFilter, src: ColorFilter): ColorFilter;
/**
* Makes a color filter that converts between linear colors and sRGB colors.
*/
MakeLinearToSRGBGamma(): ColorFilter;
/**
* Creates a color filter using the provided color matrix.
* @param cMatrix
*/
MakeMatrix(cMatrix: InputColorMatrix): ColorFilter;
/**
* Makes a color filter that converts between sRGB colors and linear colors.
*/
MakeSRGBToLinearGamma(): ColorFilter;
}
export interface ContourMeasureIterConstructor {
/**
* Creates an ContourMeasureIter with the given path.
* @param path
* @param forceClosed - if path should be forced close before measuring it.
* @param resScale - controls the precision of the measure. values > 1 increase the
* precision (and possibly slow down the computation).
*/
new (path: Path, forceClosed: boolean, resScale: number): ContourMeasureIter;
}
/**
* See SkFont.h for more.
*/
export interface FontConstructor extends DefaultConstructor<Font> {
/**
* Constructs Font with default values with Typeface.
* @param face
* @param size - font size in points. If not specified, uses a default value.
*/
new (face: Typeface | null, size?: number): Font;
/**
* Constructs Font with default values with Typeface and size in points,
* horizontal scale, and horizontal skew. Horizontal scale emulates condensed
* and expanded fonts. Horizontal skew emulates oblique fonts.
* @param face
* @param size
* @param scaleX
* @param skewX
*/
new (face: Typeface | null, size: number, scaleX: number, skewX: number): Font;
}
export interface FontMgrFactory {
/**
* Create an FontMgr with the created font data. Returns null if buffers was empty.
* @param buffers
*/
FromData(...buffers: ArrayBuffer[]): FontMgr | null;
/**
* Return the default FontMgr. This will generally have 0 or 1 fonts in it, depending on if
* the demo monospace font was compiled in.
*/
RefDefault(): FontMgr;
}
/**
* See effects/ImageFilters.h for more.
*/
export interface ImageFilterFactory {
/**
* Create a filter that blurs its input by the separate X and Y sigmas. The provided tile mode
* is used when the blur kernel goes outside the input image.
*
* @param sigmaX - The Gaussian sigma value for blurring along the X axis.
* @param sigmaY - The Gaussian sigma value for blurring along the Y axis.
* @param mode
* @param input - if null, it will use the dynamic source image (e.g. a saved layer)
*/
MakeBlur(sigmaX: number, sigmaY: number, mode: TileMode,
input: ImageFilter | null): ImageFilter;
/**
* Create a filter that applies the color filter to the input filter results.
* @param cf
* @param input - if null, it will use the dynamic source image (e.g. a saved layer)
*/
MakeColorFilter(cf: ColorFilter, input: ImageFilter | null): ImageFilter;
/**
* Create a filter that composes 'inner' with 'outer', such that the results of 'inner' are
* treated as the source bitmap passed to 'outer'.
* If either param is null, the other param will be returned.
* @param outer
* @param inner - if null, it will use the dynamic source image (e.g. a saved layer)
*/
MakeCompose(outer: ImageFilter | null, inner: ImageFilter | null): ImageFilter;
/**
* Create a filter that transforms the input image by 'matrix'. This matrix transforms the
* local space, which means it effectively happens prior to any transformation coming from the
* Canvas initiating the filtering.
* @param matr
* @param fq
* @param input - if null, it will use the dynamic source image (e.g. a saved layer)
*/
MakeMatrixTransform(matr: InputMatrix, fq: FilterQuality,
input: ImageFilter | null): ImageFilter;
}
/**
* See SkMaskFilter.h for more details.
*/
export interface MaskFilterFactory {
/**
* Create a blur maskfilter
* @param style
* @param sigma - Standard deviation of the Gaussian blur to apply. Must be > 0.
* @param respectCTM - if true the blur's sigma is modified by the CTM.
*/
MakeBlur(style: BlurStyle, sigma: number, respectCTM: boolean): MaskFilter;
}
/**
* Contains the ways to create an Path.
*/
export interface PathConstructorAndFactory extends DefaultConstructor<Path> {
/**
* Creates a new path from the given list of path commands. If this fails, null will be
* returned instead.
* @param cmds
*/
MakeFromCmds(cmds: PathCommand[]): Path | null;
/**
* Creates a new path by combining the given paths according to op. If this fails, null will
* be returned instead.
* @param one
* @param two
* @param op
*/
MakeFromOp(one: Path, two: Path, op: PathOp): Path | null;
/**
* Creates a new path from the provided SVG string. If this fails, null will be
* returned instead.
* @param str
*/
MakeFromSVGString(str: string): Path | null;
/**
* Creates a new path using the provided verbs and associated points and weights. The process
* reads the first verb from verbs and then the appropriate number of points from the
* FlattenedPointArray (e.g. 2 points for moveTo, 4 points for quadTo, etc). If the verb is
* a conic, a weight will be read from the WeightList.
* If the data is malformed (e.g. not enough points), the resulting path will be incomplete.
* @param verbs - the verbs that create this path, in the order of being drawn.
* @param points - represents n points with 2n floats.
* @param weights - used if any of the verbs are conics, can be omitted otherwise.
*/
MakeFromVerbsPointsWeights(verbs: VerbList, points: InputFlattenedPointArray,
weights?: WeightList): Path;
}
/**
* See SkPathEffect.h for more details.
*/
export interface PathEffectFactory {
/**
* Returns a PathEffect that can turn sharp corners into rounded corners.
* @param radius - if <=0, returns null
*/
MakeCorner(radius: number): PathEffect | null;
/**
* Returns a PathEffect that add dashes to the path.
*
* See SkDashPathEffect.h for more details.
*
* @param intervals - even number of entries with even indicies specifying the length of
* the "on" intervals, and the odd indices specifying the length of "off".
* @param phase - offset length into the intervals array. Defaults to 0.
*/
MakeDash(intervals: number[], phase?: number): PathEffect;
/**
* Returns a PathEffect that breaks path into segments of segLength length, and randomly move
* the endpoints away from the original path by a maximum of deviation.
* @param segLength - length of the subsegments.
* @param dev - limit of the movement of the endpoints.
* @param seedAssist - modifies the randomness. See SkDiscretePathEffect.h for more.
*/
MakeDiscrete(segLength: number, dev: number, seedAssist: number): PathEffect;
}
/**
* See RuntimeEffect.h for more details.
*/
export interface RuntimeEffectFactory {
/**
* Compiles a RuntimeEffect from the given shader code.
* @param sksl - Source code for a shader written in SkSL
* @param callback - will be called with any compilation error. If not provided, errors will
* be printed to console.log().
*/
Make(sksl: string, callback?: (err: string) => void): RuntimeEffect | null;
}
/**
* For more information, see SkShaders.h.
*/
export interface ShaderFactory {
/**
* Returns a shader that combines the given shaders with a BlendMode.
* @param mode
* @param one
* @param two
*/
MakeBlend(mode: BlendMode, one: Shader, two: Shader): Shader;
/**
* Returns a shader with a given color and colorspace.
* @param color
* @param space
*/
MakeColor(color: InputColor, space: ColorSpace): Shader;
/**
* Returns a shader with Perlin Fractal Noise.
* See SkPerlinNoiseShader.h for more details
* @param baseFreqX - base frequency in the X direction; range [0.0, 1.0]
* @param baseFreqY - base frequency in the Y direction; range [0.0, 1.0]
* @param octaves
* @param seed
* @param tileW - if this and tileH are non-zero, the frequencies will be modified so that the
* noise will be tileable for the given size.
* @param tileH - if this and tileW are non-zero, the frequencies will be modified so that the
* noise will be tileable for the given size.
*/
MakeFractalNoise(baseFreqX: number, baseFreqY: number, octaves: number, seed: number,
tileW: number, tileH: number): Shader;
/**
* Returns a shader is a linear interpolation combines the given shaders with a BlendMode.
* @param t - range of [0.0, 1.0], indicating how far we should be between one and two.
* @param one
* @param two
*/
MakeLerp(t: number, one: Shader, two: Shader): Shader;
/**
* Returns a shader that generates a linear gradient between the two specified points.
* See SkGradientShader.h for more.
* @param start
* @param end
* @param colors - colors to be distributed between start and end.
* @param pos - May be null. The relative positions of colors. If supplied must be same length
* as colors.
* @param mode
* @param localMatrix
* @param flags - By default gradients will interpolate their colors in unpremul space
* and then premultiply each of the results. By setting this to 1, the
* gradients will premultiply their colors first, and then interpolate
* between them.
* @param colorSpace
*/
MakeLinearGradient(start: InputPoint, end: InputPoint, colors: InputFlexibleColorArray,
pos: number[] | null, mode: TileMode, localMatrix?: InputMatrix,
flags?: number, colorSpace?: ColorSpace): Shader;
/**
* Returns a shader that generates a radial gradient given the center and radius.
* See SkGradientShader.h for more.
* @param center
* @param radius
* @param colors - colors to be distributed between the center and edge.
* @param pos - May be null. The relative positions of colors. If supplied must be same length
* as colors. Range [0.0, 1.0]
* @param mode
* @param localMatrix
* @param flags - 0 to interpolate colors in unpremul, 1 to interpolate colors in premul.
* @param colorSpace
*/
MakeRadialGradient(center: InputPoint, radius: number, colors: InputFlexibleColorArray,
pos: number[] | null, mode: TileMode, localMatrix?: InputMatrix,
flags?: number, colorSpace?: ColorSpace): Shader;
/**
* Returns a shader that generates a sweep gradient given a center.
* See SkGradientShader.h for more.
* @param cx
* @param cy
* @param colors - colors to be distributed around the center, within the provided angles.
* @param pos - May be null. The relative positions of colors. If supplied must be same length
* as colors. Range [0.0, 1.0]
* @param mode
* @param localMatrix
* @param flags - 0 to interpolate colors in unpremul, 1 to interpolate colors in premul.
* @param startAngle - angle corresponding to 0.0. Defaults to 0 degrees.
* @param endAngle - angle corresponding to 1.0. Defaults to 360 degrees.
* @param colorSpace
*/
MakeSweepGradient(cx: number, cy: number, colors: InputFlexibleColorArray,
pos: number[] | null, mode: TileMode, localMatrix?: InputMatrix | null,
flags?: number, startAngle?: AngleInDegrees, endAngle?: AngleInDegrees,
colorSpace?: ColorSpace): Shader;
/**
* Returns a shader with Perlin Turbulence.
* See SkPerlinNoiseShader.h for more details
* @param baseFreqX - base frequency in the X direction; range [0.0, 1.0]
* @param baseFreqY - base frequency in the Y direction; range [0.0, 1.0]
* @param octaves
* @param seed
* @param tileW - if this and tileH are non-zero, the frequencies will be modified so that the
* noise will be tileable for the given size.
* @param tileH - if this and tileW are non-zero, the frequencies will be modified so that the
* noise will be tileable for the given size.
*/
MakeTurbulence(baseFreqX: number, baseFreqY: number, octaves: number, seed: number,
tileW: number, tileH: number): Shader;
/**
* Returns a shader that generates a conical gradient given two circles.
* See SkGradientShader.h for more.
* @param start
* @param startRadius
* @param end
* @param endRadius
* @param colors
* @param pos
* @param mode
* @param localMatrix
* @param flags
* @param colorSpace
*/
MakeTwoPointConicalGradient(start: InputPoint, startRadius: number, end: InputPoint,
endRadius: number, colors: InputFlexibleColorArray,
pos: number[] | null, mode: TileMode, localMatrix?: InputMatrix,
flags?: number, colorSpace?: ColorSpace): Shader;
}
/**
* See SkTextBlob.h for more details.
*/
export interface TextBlobFactory {
/**
* Return a TextBlob with a single run of text.
*
* It does not perform typeface fallback for characters not found in the Typeface.
* It does not perform kerning or other complex shaping; glyphs are positioned based on their
* default advances.
* @param glyphs - if using Malloc'd array, be sure to use CanvasKit.MallocGlyphIDs().
* @param font
*/
MakeFromGlyphs(glyphs: InputGlyphIDArray, font: Font): TextBlob;
/**
* Returns a TextBlob built from a single run of text with rotation, scale, and translations.
*
* It uses the default character-to-glyph mapping from the typeface in the font.
* @param str
* @param rsxforms
* @param font
*/
MakeFromRSXform(str: string, rsxforms: InputFlattenedRSXFormArray, font: Font): TextBlob;
/**
* Returns a TextBlob built from a single run of text with rotation, scale, and translations.
*
* @param glyphs - if using Malloc'd array, be sure to use CanvasKit.MallocGlyphIDs().
* @param rsxforms
* @param font
*/
MakeFromRSXformGlyphs(glyphs: InputGlyphIDArray, rsxforms: InputFlattenedRSXFormArray,
font: Font): TextBlob;
/**
* Return a TextBlob with a single run of text.
*
* It uses the default character-to-glyph mapping from the typeface in the font.
* It does not perform typeface fallback for characters not found in the Typeface.
* It does not perform kerning or other complex shaping; glyphs are positioned based on their
* default advances.
* @param str
* @param font
*/
MakeFromText(str: string, font: Font): TextBlob;
/**
* Returns a TextBlob that has the glyphs following the contours of the given path.
*
* It is a convenience wrapper around MakeFromRSXform and ContourMeasureIter.
* @param str
* @param path
* @param font
* @param initialOffset - the length in pixels to start along the path.
*/
MakeOnPath(str: string, path: Path, font: Font, initialOffset?: number): TextBlob;
}
export interface TextStyleConstructor {
/**
* Fills out all optional fields with defaults. The emscripten bindings complain if there
* is a field undefined and it was expecting a float (for example).
* @param ts
*/
new(ts: TextStyle): TextStyle;
}
export interface TypefaceFontProviderFactory {
/**
* Return an empty TypefaceFontProvider
*/
Make(): TypefaceFontProvider;
}
/**
* Functions for manipulating vectors. It is Loosely based off of SkV3 in SkM44.h but Skia
* also has SkVec2 and Skv4. This combines them and works on vectors of any length.
*/
export interface VectorHelpers {
/**
* Adds 2 vectors together, term by term, returning a new Vector.
* @param a
* @param b
*/
add(a: VectorN, b: VectorN): VectorN;
/**
* Returns the cross product of the two vectors. Only works for length 3.
* @param a
* @param b
*/
cross(a: Vector3, b: Vector3): Vector3;
/**
* Returns the length(sub(a, b))
* @param a
* @param b
*/
dist(a: VectorN, b: VectorN): number;
/**
* Returns the dot product of the two vectors.
* @param a
* @param b
*/
dot(a: VectorN, b: VectorN): number;
/**
* Returns the length of this vector, which is always positive.
* @param v
*/
length(v: VectorN): number;
/**
* Returns the length squared of this vector.
* @param v
*/
lengthSquared(v: VectorN): number;
/**
* Returns a new vector which is v multiplied by the scalar s.
* @param v
* @param s
*/
mulScalar(v: VectorN, s: number): VectorN;
/**
* Returns a normalized vector.
* @param v
*/
normalize(v: VectorN): VectorN;
/**
* Subtracts vector b from vector a (termwise).
* @param a
* @param b
*/
sub(a: VectorN, b: VectorN): VectorN;
}
/**
* A PosTan is a Float32Array of length 4, representing a position and a tangent vector. In order,
* the values are [px, py, tx, ty].
*/
export type PosTan = Float32Array;
/**
* An Color is represented by 4 floats, typically with values between 0 and 1.0. In order,
* the floats correspond to red, green, blue, alpha.
*/
export type Color = Float32Array;
export type ColorInt = number; // deprecated, prefer Color
/**
* An ColorMatrix is a 4x4 color matrix that transforms the 4 color channels
* with a 1x4 matrix that post-translates those 4 channels.
* For example, the following is the layout with the scale (S) and post-transform
* (PT) items indicated.
* RS, 0, 0, 0 | RPT
* 0, GS, 0, 0 | GPT
* 0, 0, BS, 0 | BPT
* 0, 0, 0, AS | APT
*/
export type ColorMatrix = Float32Array;
/**
* An IRect is represented by 4 ints. In order, the ints correspond to left, top,
* right, bottom. See Rect.h for more
*/
export type IRect = Int32Array;
/**
* An Point is represented by 2 floats: (x, y).
*/
export type Point = Float32Array;
/**
* An Rect is represented by 4 floats. In order, the floats correspond to left, top,
* right, bottom. See Rect.h for more
*/
export type Rect = Float32Array;
/**
* An RRect (rectangle with rounded corners) is represented by 12 floats. In order, the floats
* correspond to left, top, right, bottom and then in pairs, the radiusX, radiusY for upper-left,
* upper-right, lower-right, lower-left. See RRect.h for more.
*/
export type RRect = Float32Array;
export type WebGLContextHandle = number;
export type AngleInDegrees = number;
export type AngleInRadians = number;
export type SaveLayerFlag = number;
export type TypedArrayConstructor = Float32ArrayConstructor | Int32ArrayConstructor |
Int16ArrayConstructor | Int8ArrayConstructor | Uint32ArrayConstructor |
Uint16ArrayConstructor | Uint8ArrayConstructor;
export type TypedArray = Float32Array | Int32Array | Int16Array | Int8Array | Uint32Array |
Uint16Array | Uint8Array;
export type ColorIntArray = MallocObj | Uint32Array | number[];
/**
* FlattenedPointArray represents n points by 2*n float values. In order, the values should
* be the x, y for each point.
*/
export type FlattenedPointArray = Float32Array;
/**
* FlattenedRectangleArray represents n rectangles by 4*n float values. In order, the values should
* be the top, left, right, bottom point for each rectangle.
*/
export type FlattenedRectangleArray = Float32Array;
export type GlyphIDArray = Uint16Array;
/**
* PathCommand contains a verb and then any arguments needed to fulfill that path verb.
* Examples:
* [CanvasKit.MOVE_VERB, 0, 10]
* [CanvasKit.LINE_VERB, 30, 40]
* TODO(kjlubick) Make this not be a 2-d array and support typed arrays.
*/
export type PathCommand = number[];
/**
* VerbList holds verb constants like CanvasKit.MOVE_VERB, CanvasKit.CUBIC_VERB.
*/
export type VerbList = MallocObj | Uint8Array | number[];
/**
* WeightList holds weights for conics when making paths.
*/
export type WeightList = MallocObj | Float32Array | number[];
export type Matrix4x4 = Float32Array;
export type Matrix3x3 = Float32Array;
export type Matrix3x2 = Float32Array;
/**
* Vector3 represents an x, y, z coordinate or vector. It has length 3.
*/
export type Vector3 = number[];
/**
* VectorN represents a vector of length n.
*/
export type VectorN = number[];
/**
* CanvasKit APIs accept normal arrays, typed arrays, or Malloc'd memory as colors.
* Length 4.
*/
export type InputColor = MallocObj | Color | number[];
/**
* CanvasKit APIs accept normal arrays, typed arrays, or Malloc'd memory as color matrices.
* Length 20.
*/
export type InputColorMatrix = MallocObj | ColorMatrix | number[];
/**
* CanvasKit APIs accept normal arrays, typed arrays, or Malloc'd memory as glyph IDs.
* Length n for n glyph IDs.
*/
export type InputGlyphIDArray = MallocObj | GlyphIDArray | number[];
/**
* CanvasKit APIs accept normal arrays, typed arrays, or Malloc'd memory as flattened points.
* Length 2 * n for n points.
*/
export type InputFlattenedPointArray = MallocObj | FlattenedPointArray | number[];
/**
* CanvasKit APIs accept normal arrays, typed arrays, or Malloc'd memory as flattened rectangles.
* Length 4 * n for n rectangles.
*/
export type InputFlattenedRectangleArray = MallocObj | FlattenedRectangleArray | number[];
/**
* Some APIs accept a flattened array of colors in one of two ways - groups of 4 float values for
* r, g, b, a or just integers that have 8 bits for each these. CanvasKit will detect which one
* it is and act accordingly. Additionally, this can be an array of Float32Arrays of length 4
* (e.g. Color). This is convenient for things like gradients when matching up colors to stops.
*/
export type InputFlexibleColorArray = Float32Array | Uint32Array | Float32Array[];
/**
* CanvasKit APIs accept a Float32Array or a normal array (of length 2) as a Point.
*/
export type InputPoint = Point | number[];
/**
* CanvasKit APIs accept all of these matrix types. Under the hood, we generally use 4x4 matrices.
*/
export type InputMatrix = MallocObj | Matrix4x4 | Matrix3x3 | Matrix3x2 | DOMMatrix | number[];
/**
* CanvasKit APIs accept normal arrays, typed arrays, or Malloc'd memory as rectangles.
* Length 4.
*/
export type InputRect = MallocObj | Rect | number[];
/**
* CanvasKit APIs accept normal arrays, typed arrays, or Malloc'd memory as (int) rectangles.
* Length 4.
*/
export type InputIRect = MallocObj | IRect | number[];
/**
* CanvasKit APIs accept normal arrays, typed arrays, or Malloc'd memory as rectangles with
* rounded corners. Length 12.
*/
export type InputRRect = MallocObj | RRect | number[];
/**
* This represents n RSXforms by 4*n float values. In order, the values should
* be scos, ssin, tx, ty for each RSXForm. See RSXForm.h for more details.
*/
export type InputFlattenedRSXFormArray = MallocObj | Float32Array | number[];
/**
* CanvasKit APIs accept normal arrays, typed arrays, or Malloc'd memory as a vector of 3 floats.
* For example, this is the x, y, z coordinates.
*/
export type InputVector3 = MallocObj | Vector3 | Float32Array;
export type AlphaType = EmbindEnumEntity;
export type BlendMode = EmbindEnumEntity;
export type BlurStyle = EmbindEnumEntity;
export type ClipOp = EmbindEnumEntity;
export type ColorSpace = EmbindObject<ColorSpace>;
export type ColorType = EmbindEnumEntity;
export type EncodedImageFormat = EmbindEnumEntity;
export type FillType = EmbindEnumEntity;
export type FilterMode = EmbindEnumEntity;
export type FilterQuality = EmbindEnumEntity;
export type FontEdging = EmbindEnumEntity;
export type FontHinting = EmbindEnumEntity;
export type MipmapMode = EmbindEnumEntity;
export type PaintStyle = EmbindEnumEntity;
export type PathOp = EmbindEnumEntity;
export type PointMode = EmbindEnumEntity;
export type StrokeCap = EmbindEnumEntity;
export type StrokeJoin = EmbindEnumEntity;
export type TileMode = EmbindEnumEntity;
export type VertexMode = EmbindEnumEntity;
export type Affinity = EmbindEnumEntity;
export type DecorationStyle = EmbindEnumEntity;
export type FontSlant = EmbindEnumEntity;
export type FontWeight = EmbindEnumEntity;
export type FontWidth = EmbindEnumEntity;
export type PlaceholderAlignment = EmbindEnumEntity;
export type RectHeightStyle = EmbindEnumEntity;
export type RectWidthStyle = EmbindEnumEntity;
export type TextAlign = EmbindEnumEntity;
export type TextBaseline = EmbindEnumEntity;
export type TextDirection = EmbindEnumEntity;
export interface AffinityEnumValues extends EmbindEnum {
Upstream: Affinity;
Downstream: Affinity;
}
export interface AlphaTypeEnumValues extends EmbindEnum {
Opaque: AlphaType;
Premul: AlphaType;
Unpremul: AlphaType;
}
export interface BlendModeEnumValues extends EmbindEnum {
Clear: BlendMode;
Src: BlendMode;
Dst: BlendMode;
SrcOver: BlendMode;
DstOver: BlendMode;
SrcIn: BlendMode;
DstIn: BlendMode;
SrcOut: BlendMode;
DstOut: BlendMode;
SrcATop: BlendMode;
DstATop: BlendMode;
Xor: BlendMode;
Plus: BlendMode;
Modulate: BlendMode;
Screen: BlendMode;
Overlay: BlendMode;
Darken: BlendMode;
Lighten: BlendMode;
ColorDodge: BlendMode;
ColorBurn: BlendMode;
HardLight: BlendMode;
SoftLight: BlendMode;
Difference: BlendMode;
Exclusion: BlendMode;
Multiply: BlendMode;
Hue: BlendMode;
Saturation: BlendMode;
Color: BlendMode;
Luminosity: BlendMode;
}
export interface BlurStyleEnumValues extends EmbindEnum {
Normal: BlurStyle;
Solid: BlurStyle;
Outer: BlurStyle;
Inner: BlurStyle;
}
export interface ClipOpEnumValues extends EmbindEnum {
Difference: ClipOp;
Intersect: ClipOp;
}
/**
* The currently supported color spaces. These are all singleton values.
*/
export interface ColorSpaceEnumValues { // not a typical enum, but effectively like one.
// These are all singleton values - don't call delete on them.
readonly SRGB: ColorSpace;
readonly DISPLAY_P3: ColorSpace;
readonly ADOBE_RGB: ColorSpace;
/**
* Returns true if the two color spaces are equal.
* @param a
* @param b
*/
Equals(a: ColorSpace, b: ColorSpace): boolean;
}
export interface ColorTypeEnumValues extends EmbindEnum {
Alpha_8: ColorType;
RGB_565: ColorType;
RGBA_8888: ColorType;
BGRA_8888: ColorType;
RGBA_1010102: ColorType;
RGB_101010x: ColorType;
Gray_8: ColorType;
RGBA_F16: ColorType;
RGBA_F32: ColorType;
}
export interface DecorationStyleEnumValues extends EmbindEnum {
Solid: DecorationStyle;
Double: DecorationStyle;
Dotted: DecorationStyle;
Dashed: DecorationStyle;
Wavy: DecorationStyle;
}
export interface FillTypeEnumValues extends EmbindEnum {
Winding: FillType;
EvenOdd: FillType;
}
export interface FilterModeEnumValues extends EmbindEnum {
Linear: FilterMode;
Nearest: FilterMode;
}
export interface FilterQualityEnumValues extends EmbindEnum {
None: FilterQuality;
Low: FilterQuality;
Medium: FilterQuality;
High: FilterQuality;
}
export interface FontEdgingEnumValues extends EmbindEnum {
Alias: FontEdging;
AntiAlias: FontEdging;
SubpixelAntiAlias: FontEdging;
}
export interface FontHintingEnumValues extends EmbindEnum {
None: FontHinting;
Slight: FontHinting;
Normal: FontHinting;
Full: FontHinting;
}
export interface FontSlantEnumValues extends EmbindEnum {
Upright: FontSlant;
Italic: FontSlant;
Oblique: FontSlant;
}
export interface FontWeightEnumValues extends EmbindEnum {
Invisible: FontWeight;
Thin: FontWeight;
ExtraLight: FontWeight;
Light: FontWeight;
Normal: FontWeight;
Medium: FontWeight;
SemiBold: FontWeight;
Bold: FontWeight;
ExtraBold: FontWeight;
Black: FontWeight;
ExtraBlack: FontWeight;
}
export interface FontWidthEnumValues extends EmbindEnum {
UltraCondensed: FontWidth;
ExtraCondensed: FontWidth;
Condensed: FontWidth;
SemiCondensed: FontWidth;
Normal: FontWidth;
SemiExpanded: FontWidth;
Expanded: FontWidth;
ExtraExpanded: FontWidth;
UltraExpanded: FontWidth;
}
export interface ImageFormatEnumValues extends EmbindEnum {
// TODO(kjlubick) When these are compiled in depending on the availability of the codecs,
// be sure to make these nullable.
PNG: EncodedImageFormat;
JPEG: EncodedImageFormat;
WEBP: EncodedImageFormat;
}
export interface MipmapModeEnumValues extends EmbindEnum {
None: MipmapMode;
Nearest: MipmapMode;
Linear: MipmapMode;
}
export interface PaintStyleEnumValues extends EmbindEnum {
Fill: PaintStyle;
Stroke: PaintStyle;
}
export interface PathOpEnumValues extends EmbindEnum {
Difference: PathOp;
Intersect: PathOp;
Union: PathOp;
XOR: PathOp;
ReverseDifference: PathOp;
}
export interface PlaceholderAlignmentEnumValues extends EmbindEnum {
Baseline: PlaceholderAlignment;
AboveBaseline: PlaceholderAlignment;
BelowBaseline: PlaceholderAlignment;
Top: PlaceholderAlignment;
Bottom: PlaceholderAlignment;
Middle: PlaceholderAlignment;
}
export interface PointModeEnumValues extends EmbindEnum {
Points: PointMode;
Lines: PointMode;
Polygon: PointMode;
}
export interface RectHeightStyleEnumValues extends EmbindEnum {
Tight: RectHeightStyle;
Max: RectHeightStyle;
IncludeLineSpacingMiddle: RectHeightStyle;
IncludeLineSpacingTop: RectHeightStyle;
IncludeLineSpacingBottom: RectHeightStyle;
Strut: RectHeightStyle;
}
export interface RectWidthStyleEnumValues extends EmbindEnum {
Tight: RectWidthStyle;
Max: RectWidthStyle;
}
export interface StrokeCapEnumValues extends EmbindEnum {
Butt: StrokeCap;
Round: StrokeCap;
Square: StrokeCap;
}
export interface StrokeJoinEnumValues extends EmbindEnum {
Bevel: StrokeJoin;
Miter: StrokeJoin;
Round: StrokeJoin;
}
export interface TextAlignEnumValues extends EmbindEnum {
Left: TextAlign;
Right: TextAlign;
Center: TextAlign;
Justify: TextAlign;
Start: TextAlign;
End: TextAlign;
}
export interface TextBaselineEnumValues extends EmbindEnum {
Alphabetic: TextBaseline;
Ideographic: TextBaseline;
}
export interface TextDirectionEnumValues extends EmbindEnum {
LTR: TextDirection;
RTL: TextDirection;
}
export interface TileModeEnumValues extends EmbindEnum {
Clamp: TileMode;
Decal: TileMode;
Mirror: TileMode;
Repeat: TileMode;
}
export interface VertexModeEnumValues extends EmbindEnum {
Triangles: VertexMode;
TrianglesStrip: VertexMode;
TriangleFan: VertexMode;
}