import { MagickImage } from "https://deno.land/x/imagemagick_deno@0.0.19/mod.ts";
Methods
private
fromBool(value: boolean): numberprivate
privateSigmoidalContrast(sharpen: boolean,
contrast: number,
midpointOrPercentage?: number | Percentage,
channelsOrUndefined?: Channels,
private
readFromArray(array: Uint8Array | Uint8ClampedArray,
readSettings: MagickReadSettings,
exception: Exception,
private
readOrPing(ping: boolean,
fileNameOrArrayOrColor: string | Uint8Array | MagickColor,
settingsOrWidth?: MagickReadSettings | number,
heightOrUndefined?: number,
private
toBool(value: number): booleanprivate
valueOrDefault<TType>(value: TType | undefined, defaultValue: TType): TTypeprotected
_instanceNotInitialized(): void_getSettings(): MagickSettings
_use<TReturnType>(func: (image: IMagickImage) => TReturnType): TReturnType
_use<TReturnType>(func: (image: IMagickImage) => Promise<TReturnType>): Promise<TReturnType>
alpha(value: AlphaOption): void
autoOrient(): void
autoThreshold(method: AutoThresholdMethod): void
blur(): void
blur(channels: Channels): void
blur(radius: number, sigma: number): void
blur(): void
radius: number,
sigma: number,
channels: Channels,
border(size: number): void
border(width: number, height: number): void
brightnessContrast(brightness: Percentage, contrast: Percentage): void
brightnessContrast(): void
brightness: Percentage,
contrast: Percentage,
channels: Channels,
channelOffset(pixelChannel: PixelChannel): number
charcoal(): void
charcoal(radius: number, sigma: number): void
clahe(): void
xTiles: number,
yTiles: number,
numberBins: number,
clipLimit: number,
clahe(): void
xTiles: Percentage,
yTiles: Percentage,
numberBins: number,
clipLimit: number,
clone<TReturnType>(func: (image: IMagickImage) => TReturnType): TReturnType
clone<TReturnType>(func: (image: IMagickImage) => Promise<TReturnType>): Promise<TReturnType>
colorAlpha(color: MagickColor): void
compare(image: IMagickImage, metric: ErrorMetric): number
compare(): number
image: IMagickImage,
metric: ErrorMetric,
channels: Channels,
composite(image: IMagickImage): void
composite(image: IMagickImage, compose: CompositeOperator): void
composite(): void
image: IMagickImage,
compose: CompositeOperator,
channels: Channels,
composite(): void
image: IMagickImage,
compose: CompositeOperator,
args: string,
composite(): void
image: IMagickImage,
compose: CompositeOperator,
args: string,
channels: Channels,
composite(image: IMagickImage, point: Point): void
composite(): void
image: IMagickImage,
point: Point,
channels: Channels,
composite(): void
image: IMagickImage,
compose: CompositeOperator,
point: Point,
composite(): void
image: IMagickImage,
compose: CompositeOperator,
point: Point,
channels: Channels,
composite(): void
image: IMagickImage,
compose: CompositeOperator,
point: Point,
args: string,
composite(): void
image: IMagickImage,
compose: CompositeOperator,
point: Point,
args: string,
channels: Channels,
compositeGravity(image: IMagickImage, gravity: Gravity): void
compositeGravity(): void
image: IMagickImage,
gravity: Gravity,
compose: CompositeOperator,
compositeGravity(): void
image: IMagickImage,
gravity: Gravity,
compose: CompositeOperator,
channels: Channels,
compositeGravity(): void
image: IMagickImage,
gravity: Gravity,
compose: CompositeOperator,
args: string,
compositeGravity(): void
image: IMagickImage,
gravity: Gravity,
compose: CompositeOperator,
args: string,
channels: Channels,
compositeGravity(): void
image: IMagickImage,
gravity: Gravity,
point: Point,
compositeGravity(): void
image: IMagickImage,
gravity: Gravity,
point: Point,
channels: Channels,
compositeGravity(): void
image: IMagickImage,
gravity: Gravity,
compose: CompositeOperator,
point: Point,
compositeGravity(): void
image: IMagickImage,
gravity: Gravity,
compose: CompositeOperator,
point: Point,
channels: Channels,
compositeGravity(): void
image: IMagickImage,
gravity: Gravity,
compose: CompositeOperator,
point: Point,
args: string,
compositeGravity(): void
image: IMagickImage,
gravity: Gravity,
compose: CompositeOperator,
point: Point,
args: string,
channels: Channels,
contrast(): void
contrastStretch(blackPoint: Percentage): void
contrastStretch(blackPoint: Percentage, whitePoint: Percentage): void
crop(geometry: MagickGeometry): void
crop(geometry: MagickGeometry, gravity: Gravity): void
crop(width: number, height: number): void
crop(): void
width: number,
height: number,
gravity: Gravity,
cropToTiles(geometry: MagickGeometry): IMagickImageCollection
deskew(threshold: Percentage): number
distort(method: DistortMethod, params: number[]): void
distort(): void
method: DistortMethod,
settings: DistortSettings,
params: number[],
draw(drawables: IDrawable[]): void
draw(...drawables: IDrawable[]): void
evaluate(): void
channels: Channels,
operator: EvaluateOperator,
value: number,
evaluate(): void
channels: Channels,
operator: EvaluateOperator,
value: Percentage,
evaluate(): void
channels: Channels,
geometry: MagickGeometry,
operator: EvaluateOperator,
value: number,
evaluate(): void
channels: Channels,
geometry: MagickGeometry,
operator: EvaluateOperator,
value: Percentage,
extent(width: number, height: number): void
extent(): void
width: number,
height: number,
gravity: Gravity,
extent(): void
width: number,
height: number,
backgroundColor: MagickColor,
extent(geometry: MagickGeometry): void
extent(geometry: MagickGeometry, gravity: Gravity): void
extent(): void
geometry: MagickGeometry,
gravity: Gravity,
backgroundColor: MagickColor,
extent(geometry: MagickGeometry, backgroundColor: MagickColor): void
getArtifact(name: string): string | null
getAttribute(name: string): string | null
getPixels<TReturnType>(func: (pixels: IPixelCollection) => TReturnType): TReturnType
getPixels<TReturnType>(func: (pixels: IPixelCollection) => Promise<TReturnType>): Promise<TReturnType>
getProfile(name: string): IImageProfile | null
getWriteMask<TReturnType>(func: (mask: IMagickImage | null) => TReturnType): TReturnType
getWriteMask<TReturnType>(func: (mask: IMagickImage | null) => Promise<TReturnType>): Promise<TReturnType>
histogram(): Map<string, number>
inverseContrast(): void
inverseSigmoidalContrast(contrast: number): void
inverseSigmoidalContrast(contrast: number, midpointPercentage: Percentage): void
inverseSigmoidalContrast(contrast: number, midpoint: number): void
inverseSigmoidalContrast(): void
contrast: number,
midpoint: number,
channels: Channels,
inverseTransparent(color: MagickColor): void
level(blackPoint: Percentage, whitePoint: Percentage): void
level(): void
blackPoint: Percentage,
whitePoint: Percentage,
gamma: number,
level(): void
channels: Channels,
blackPoint: Percentage,
whitePoint: Percentage,
level(): void
channels: Channels,
blackPoint: Percentage,
whitePoint: Percentage,
gamma: number,
linearStretch(blackPoint: Percentage, whitePoint: Percentage): void
liquidRescale(geometry: MagickGeometry): void
liquidRescale(width: number, height: number): void
modulate(brightness: Percentage): void
modulate(brightness: Percentage, saturation: Percentage): void
modulate(): void
brightness: Percentage,
saturation: Percentage,
hue: Percentage,
negate(): void
negateGrayScale(): void
normalize(): void
oilPaint(): void
oilPaint(radius: number): void
ping(fileName: string, settings?: MagickReadSettings): void
ping(array: Uint8Array, settings?: MagickReadSettings): void
read(): void
color: MagickColor,
width: number,
height: number,
read(fileName: string, settings?: MagickReadSettings): void
read(array: Uint8Array, settings?: MagickReadSettings): void
readFromCanvas(canvas: HTMLCanvasElement): void
removeArtifact(name: string): void
removeAttribute(name: string): void
removeWriteMask(): void
repage(): void
resize(geometry: MagickGeometry): void
resize(width: number, height: number): void
rotate(degrees: number): void
separate<TReturnType>(func: (images: IMagickImageCollection) => TReturnType): TReturnType
separate<TReturnType>(func: (images: IMagickImageCollection) => Promise<TReturnType>): Promise<TReturnType>
separate<TReturnType>(func: (images: IMagickImageCollection) => TReturnType, channels: Channels): TReturnType
separate<TReturnType>(func: (images: IMagickImageCollection) => Promise<TReturnType>, channels: Channels): Promise<TReturnType>
setArtifact(name: string, value: string): void
setArtifact(name: string, value: boolean): void
setAttribute(name: string, value: string): void
setWriteMask(image: IMagickImage): void
sharpen(): void
sharpen(radius: number, sigma: number): void
sharpen(): void
radius: number,
sigma: number,
channels: Channels,
shave(leftRight: number, topBottom: number)
sigmoidalContrast(contrast: number): void
sigmoidalContrast(contrast: number, midpointPercentage: Percentage): void
sigmoidalContrast(contrast: number, midpoint: number): void
sigmoidalContrast(): void
contrast: number,
midpoint: number,
channels: Channels,
splice(geometry: MagickGeometry): void
statistics(): IStatistics
statistics(channels: Channels): IStatistics
strip(): void
transparent(color: MagickColor): void
trim(): void
trim(...edges: Gravity[]): void
trim(percentage: Percentage): void
vignette(): void
vignette(): void
radius: number,
sigma: number,
x: number,
y: number,
wave(): void
wave(): void
method: PixelInterpolateMethod,
amplitude: number,
length: number,
write<TReturnType>(func: (data: Uint8Array) => TReturnType, format?: MagickFormat): TReturnType
write<TReturnType>(func: (data: Uint8Array) => Promise<TReturnType>, format?: MagickFormat): Promise<TReturnType>
writeToCanvas(canvas: HTMLCanvasElement): void
Static Methods
private
createInstance(): number_createFromImage(instance: number, settings: MagickSettings): MagickImage
_use<TReturnType>(func: (image: IMagickImage) => TReturnType): TReturnType
_use<TReturnType>(func: (image: IMagickImage) => Promise<TReturnType>): Promise<TReturnType>
create(): IMagickImage