diff --git a/imagick/magick_wand_image.go b/imagick/magick_wand_image.go index 16cbd52..6962170 100644 --- a/imagick/magick_wand_image.go +++ b/imagick/magick_wand_image.go @@ -44,7 +44,6 @@ func (mw *MagickWand) GetImageFromMagickWand() *Image { // radius: the radius of the Gaussian, in pixels, not counting the center pixel // // sigma: the standard deviation of the Gaussian, in pixels -// func (mw *MagickWand) AdaptiveBlurImage(radius, sigma float64) error { ok := C.MagickAdaptiveBlurImage(mw.mw, C.double(radius), C.double(sigma)) return mw.getLastErrorIfFailed(ok) @@ -59,7 +58,6 @@ func (mw *MagickWand) AdaptiveBlurImage(radius, sigma float64) error { // radius: the radius of the Gaussian, in pixels, not counting the center pixel // // sigma: the standard deviation of the Gaussian, in pixels -// func (mw *MagickWand) AdaptiveBlurImageChannel(channel ChannelType, radius, sigma float64) error { ok := C.MagickAdaptiveBlurImageChannel(mw.mw, C.ChannelType(channel), C.double(radius), C.double(sigma)) return mw.getLastErrorIfFailed(ok) @@ -83,7 +81,6 @@ func (mw *MagickWand) AdaptiveResizeImage(cols, rows uint) error { // radius: the radius of the Gaussian, in pixels, not counting the center pixel // // sigma: the standard deviation of the Gaussian, in pixels. -// func (mw *MagickWand) AdaptiveSharpenImage(radius, sigma float64) error { ok := C.MagickAdaptiveSharpenImage(mw.mw, C.double(radius), C.double(sigma)) runtime.KeepAlive(mw) @@ -99,7 +96,6 @@ func (mw *MagickWand) AdaptiveSharpenImage(radius, sigma float64) error { // radius: the radius of the Gaussian, in pixels, not counting the center pixel // // sigma: the standard deviation of the Gaussian, in pixels. -// func (mw *MagickWand) AdaptiveSharpenImageChannel(channel ChannelType, radius, sigma float64) error { ok := C.MagickAdaptiveSharpenImageChannel(mw.mw, C.ChannelType(channel), C.double(radius), C.double(sigma)) return mw.getLastErrorIfFailed(ok) @@ -156,7 +152,6 @@ func (mw *MagickWand) AffineTransformImage(drawingWand *DrawingWand) error { // y: ordinate to text baseline // // angle: rotate text relative to this angle -// func (mw *MagickWand) AnnotateImage(drawingWand *DrawingWand, x, y, angle float64, text string) error { cstext := C.CString(text) defer C.free(unsafe.Pointer(cstext)) @@ -238,7 +233,6 @@ func (mw *MagickWand) BlueShiftImage(factor float64) error { // radius: the radius of the, in pixels, not counting the center pixel. // // sigma: the standard deviation of the, in pixels -// func (mw *MagickWand) BlurImage(radius, sigma float64) error { ok := C.MagickBlurImage(mw.mw, C.double(radius), C.double(sigma)) return mw.getLastErrorIfFailed(ok) @@ -252,7 +246,6 @@ func (mw *MagickWand) BlurImage(radius, sigma float64) error { // radius: the radius of the, in pixels, not counting the center pixel. // // sigma: the standard deviation of the, in pixels -// func (mw *MagickWand) BlurImageChannel(channel ChannelType, radius, sigma float64) error { ok := C.MagickBlurImageChannel(mw.mw, C.ChannelType(channel), C.double(radius), C.double(sigma)) return mw.getLastErrorIfFailed(ok) @@ -272,7 +265,6 @@ func (mw *MagickWand) BorderImage(borderColor *PixelWand, width, height uint) er // brighness: the brightness percent (-100 .. 100) // // contrast: the brightness percent (-100 .. 100) -// func (mw *MagickWand) BrightnessContrastImage(brightness, contrast float64) error { ok := C.MagickBrightnessContrastImage(mw.mw, C.double(brightness), C.double(contrast)) return mw.getLastErrorIfFailed(ok) @@ -284,7 +276,6 @@ func (mw *MagickWand) BrightnessContrastImage(brightness, contrast float64) erro // brighness: the brightness percent (-100 .. 100) // // contrast: the brightness percent (-100 .. 100) -// func (mw *MagickWand) BrightnessContrastImageChannel(channel ChannelType, brightness, contrast float64) error { ok := C.MagickBrightnessContrastImageChannel(mw.mw, C.ChannelType(channel), C.double(brightness), C.double(contrast)) return mw.getLastErrorIfFailed(ok) @@ -295,7 +286,6 @@ func (mw *MagickWand) BrightnessContrastImageChannel(channel ChannelType, bright // radius: the radius of the Gaussian, in pixels, not counting the center pixel // // sigma: the standard deviation of the Gaussian, in pixels -// func (mw *MagickWand) CharcoalImage(radius, sigma float64) error { ok := C.MagickCharcoalImage(mw.mw, C.double(radius), C.double(sigma)) return mw.getLastErrorIfFailed(ok) @@ -307,7 +297,6 @@ func (mw *MagickWand) CharcoalImage(radius, sigma float64) error { // width, height: the region width and height // // x, y: the region x and y offsets -// func (mw *MagickWand) ChopImage(width, height uint, x, y int) error { ok := C.MagickChopImage(mw.mw, C.size_t(width), C.size_t(height), C.ssize_t(x), C.ssize_t(y)) return mw.getLastErrorIfFailed(ok) @@ -374,19 +363,18 @@ func (mw *MagickWand) CoalesceImages() *MagickWand { // contains one or more color corrections and applies the color correction to // the image. Here is a sample CCC file content: // -// -// -// -// 0.9 1.2 0.5 -// 0.4 -0.5 0.6 -// 1.0 0.8 1.5 -// -// -// 0.85 -// -// -// -// +// +// +// +// 0.9 1.2 0.5 +// 0.4 -0.5 0.6 +// 1.0 0.8 1.5 +// +// +// 0.85 +// +// +// func (mw *MagickWand) ColorDecisionListImage(cccXML string) error { cscccXML := C.CString(cccXML) defer C.free(unsafe.Pointer(cscccXML)) @@ -466,7 +454,6 @@ func (mw *MagickWand) CompareImages(reference *MagickWand, metric MetricType) (w // x: the column offset of the composited image. // // y: the row offset of the composited image. -// func (mw *MagickWand) CompositeImage(source *MagickWand, compose CompositeOperator, x, y int) error { ok := C.MagickCompositeImage(mw.mw, source.mw, C.CompositeOperator(compose), C.ssize_t(x), C.ssize_t(y)) runtime.KeepAlive(source) @@ -481,7 +468,6 @@ func (mw *MagickWand) CompositeImage(source *MagickWand, compose CompositeOperat // x: the column offset of the composited image. // // y: the row offset of the composited image. -// func (mw *MagickWand) CompositeImageChannel(channel ChannelType, source *MagickWand, compose CompositeOperator, x, y int) error { ok := C.MagickCompositeImageChannel(mw.mw, C.ChannelType(channel), source.mw, C.CompositeOperator(compose), C.ssize_t(x), C.ssize_t(y)) runtime.KeepAlive(source) @@ -493,7 +479,6 @@ func (mw *MagickWand) CompositeImageChannel(channel ChannelType, source *MagickW // compose: This operator affects how the composite is applied to the image. // The default is Over. // gravity : positioning gravity. -// func (mw *MagickWand) CompositeImageGravity(source *MagickWand, compose CompositeOperator, gravity GravityType) error { ok := C.MagickCompositeImageGravity(mw.mw, source.mw, C.CompositeOperator(compose), C.GravityType(gravity)) runtime.KeepAlive(source) @@ -522,7 +507,6 @@ func (mw *MagickWand) CompositeImageGravity(source *MagickWand, compose Composit // source: the wand holding the source images // // compose, x, y: composition arguments -// func (mw *MagickWand) CompositeLayers(source *MagickWand, compose CompositeOperator, x, y int) error { ok := C.MagickCompositeLayers(mw.mw, source.mw, C.CompositeOperator(compose), C.ssize_t(x), C.ssize_t(y)) runtime.KeepAlive(source) @@ -534,7 +518,6 @@ func (mw *MagickWand) CompositeLayers(source *MagickWand, compose CompositeOpera // contrast otherwise the contrast is reduced. // // sharpen: increase or decrease image contrast -// func (mw *MagickWand) ContrastImage(sharpen bool) error { ok := C.MagickContrastImage(mw.mw, b2i(sharpen)) return mw.getLastErrorIfFailed(ok) @@ -561,7 +544,6 @@ func (mw *MagickWand) ContrastStretchImageChannel(channel ChannelType, blackPoin // order: the number of cols and rows in the filter kernel // // kernel: an array of doubles, representing the convolution kernel -// func (mw *MagickWand) ConvolveImage(order uint, kernel []float64) error { ok := C.MagickConvolveImage(mw.mw, C.size_t(order), (*C.double)(&kernel[0])) return mw.getLastErrorIfFailed(ok) @@ -572,7 +554,6 @@ func (mw *MagickWand) ConvolveImage(order uint, kernel []float64) error { // order: the number of cols and rows in the filter kernel // // kernel: an array of doubles, representing the convolution kernel -// func (mw *MagickWand) ConvolveImageChannel(channel ChannelType, order uint, kernel []float64) error { ok := C.MagickConvolveImageChannel(mw.mw, C.ChannelType(channel), C.size_t(order), (*C.double)(&kernel[0])) return mw.getLastErrorIfFailed(ok) @@ -604,7 +585,6 @@ func (mw *MagickWand) CycleColormapImage(displace int) error { // // pixels: This array of values contain the pixel components as defined by the // type. -// func (mw *MagickWand) ConstituteImage(cols, rows uint, pmap string, stype StorageType, pixels interface{}) error { if err := checkColsRows(cols, rows); err != nil { return err @@ -704,7 +684,6 @@ func (mw *MagickWand) DisplayImages(server string) error { // args: the arguments for this distortion method. // // bestfit: Attempt to resize destination to fit distorted source. -// func (mw *MagickWand) DistortImage(method DistortImageMethod, args []float64, bestfit bool) error { ok := C.MagickDistortImage(mw.mw, C.DistortImageMethod(method), C.size_t(len(args)), (*C.double)(&args[0]), b2i(bestfit)) return mw.getLastErrorIfFailed(ok) @@ -721,7 +700,6 @@ func (mw *MagickWand) DrawImage(drawingWand *DrawingWand) error { // radius. Use a radius of 0 and Edge() selects a suitable radius for you. // // radius: the radius of the pixel neighborhood -// func (mw *MagickWand) EdgeImage(radius float64) error { ok := C.MagickEdgeImage(mw.mw, C.double(radius)) return mw.getLastErrorIfFailed(ok) @@ -735,7 +713,6 @@ func (mw *MagickWand) EdgeImage(radius float64) error { // radius: the radius of the Gaussian, in pixels, not counting the center pixel // // sigma: the standard deviation of the Gaussian, in pixels -// func (mw *MagickWand) EmbossImage(radius, sigma float64) error { ok := C.MagickEmbossImage(mw.mw, C.double(radius), C.double(sigma)) return mw.getLastErrorIfFailed(ok) @@ -806,24 +783,23 @@ func (mw *MagickWand) EvaluateImageChannel(channel ChannelType, op EvaluateOpera // these types: CharPixel, DoublePixel, FloatPixel, IntegerPixel, LongPixel, // QuantumPixel, or ShortPixel. // -// // StorageType defines the underlying slice type of the returned interface{}: -// PIXEL_CHAR => []byte -// PIXEL_DOUBLE => []float64 -// PIXEL_FLOAT => []float32 -// PIXEL_SHORT => []int16 -// PIXEL_INTEGER => []int32 -// PIXEL_LONG => []int64 -// PIXEL_QUANTUM => []int64 // -// Example: +// PIXEL_CHAR => []byte +// PIXEL_DOUBLE => []float64 +// PIXEL_FLOAT => []float32 +// PIXEL_SHORT => []int16 +// PIXEL_INTEGER => []int32 +// PIXEL_LONG => []int64 +// PIXEL_QUANTUM => []int64 // -// val, err := wand.ExportImagePixels(0, 0, 512, 512, "RGB", PIXEL_FLOAT) -// if err != nil { -// panic(err.Error()) -// } -// floatPixels := val.([]float32) +// Example: // +// val, err := wand.ExportImagePixels(0, 0, 512, 512, "RGB", PIXEL_FLOAT) +// if err != nil { +// panic(err.Error()) +// } +// floatPixels := val.([]float32) func (mw *MagickWand) ExportImagePixels(x, y int, cols, rows uint, pmap string, stype StorageType) (interface{}, error) { if len(pmap) == 0 { @@ -908,7 +884,6 @@ func (mw *MagickWand) ExportImagePixels(x, y int, cols, rows uint, // x: the region x offset. // // y: the region y offset. -// func (mw *MagickWand) ExtentImage(width, height uint, x, y int) error { ok := C.MagickExtentImage(mw.mw, C.size_t(width), C.size_t(height), C.ssize_t(x), C.ssize_t(y)) return mw.getLastErrorIfFailed(ok) @@ -916,8 +891,7 @@ func (mw *MagickWand) ExtentImage(width, height uint, x, y int) error { // Applies a custom convolution kernel to the image. // -// kernel: An array of doubles representing the convolution kernel. -// +// kernel: An array of doubles representing the convolution kernel. func (mw *MagickWand) FilterImage(kernel *KernelInfo) error { ok := C.MagickFilterImage(mw.mw, kernel.info) return mw.getLastErrorIfFailed(ok) @@ -925,8 +899,7 @@ func (mw *MagickWand) FilterImage(kernel *KernelInfo) error { // Applies a custom convolution kernel to the image's channel. // -// kernel: An array of doubles representing the convolution kernel. -// +// kernel: An array of doubles representing the convolution kernel. func (mw *MagickWand) FilterImageChannel(channel ChannelType, kernel *KernelInfo) error { ok := C.MagickFilterImageChannel(mw.mw, C.ChannelType(channel), kernel.info) return mw.getLastErrorIfFailed(ok) @@ -959,7 +932,6 @@ func (mw *MagickWand) FlipImage() error { // x, y: the starting location of the operation. // // invert: paint any pixel that does not match the target color. -// func (mw *MagickWand) FloodfillPaintImage(channel ChannelType, fill *PixelWand, fuzz float64, borderColor *PixelWand, x, y int, invert bool) error { ok := C.MagickFloodfillPaintImage(mw.mw, C.ChannelType(channel), fill.pw, C.double(fuzz), borderColor.pw, C.ssize_t(x), C.ssize_t(y), b2i(invert)) runtime.KeepAlive(fill) @@ -999,7 +971,6 @@ func (mw *MagickWand) ForwardFourierTransformImage(magnitude bool) error { // innerBevel: the inner bevel width. // // outerBevel: the outer bevel width. -// func (mw *MagickWand) FrameImage(matteColor *PixelWand, width, height uint, innerBevel, outerBevel int) error { ok := C.MagickFrameImage(mw.mw, matteColor.pw, C.size_t(width), C.size_t(height), C.ssize_t(innerBevel), C.ssize_t(outerBevel)) runtime.KeepAlive(matteColor) @@ -1069,7 +1040,6 @@ func (mw *MagickWand) GammaImageChannel(channel ChannelType, gamma float64) erro // radius: the radius of the Gaussian, in pixels, not counting the center pixel. // // sigma: the standard deviation of the Gaussian, in pixels. -// func (mw *MagickWand) GaussianBlurImage(radius, sigma float64) error { ok := C.MagickGaussianBlurImage(mw.mw, C.double(radius), C.double(sigma)) return mw.getLastErrorIfFailed(ok) @@ -1083,7 +1053,6 @@ func (mw *MagickWand) GaussianBlurImage(radius, sigma float64) error { // radius: the radius of the Gaussian, in pixels, not counting the center pixel. // // sigma: the standard deviation of the Gaussian, in pixels. -// func (mw *MagickWand) GaussianBlurImageChannel(channel ChannelType, radius, sigma float64) error { ok := C.MagickGaussianBlurImageChannel(mw.mw, C.ChannelType(channel), C.double(radius), C.double(sigma)) return mw.getLastErrorIfFailed(ok) @@ -1126,6 +1095,7 @@ func (mw *MagickWand) GetImageBlob() []byte { csblob := C.MagickGetImageBlob(mw.mw, &clen) defer relinquishMemory(unsafe.Pointer(csblob)) if err := mw.GetLastError(); err != nil { + fmt.Println("DEBUG: GetImageBlob ERR:", err.Error()) return nil } ret := C.GoBytes(unsafe.Pointer(csblob), C.int(clen)) @@ -1155,7 +1125,6 @@ func (mw *MagickWand) GetImagesBlob() []byte { // x: the chromaticity blue primary x-point. // // y: the chromaticity blue primary y-point. -// func (mw *MagickWand) GetImageBluePrimary() (x, y float64, err error) { ok := C.MagickGetImageBluePrimary(mw.mw, (*C.double)(&x), (*C.double)(&y)) err = mw.getLastErrorIfFailed(ok) @@ -1198,8 +1167,9 @@ func (mw *MagickWand) GetImageChannelDistortions(reference *MagickWand, metric M // measures of correlation 1, information measures of correlation 2, and // maximum correlation coefficient. You can access the red channel contrast, // for example, like this: -// channelFeatures = GetImageChannelFeatures(1); -// contrast = channelFeatures[RedChannel].Contrast[0]; +// +// channelFeatures = GetImageChannelFeatures(1); +// contrast = channelFeatures[RedChannel].Contrast[0]; func (mw *MagickWand) GetImageChannelFeatures(distance uint) []ChannelFeatures { p := C.MagickGetImageChannelFeatures(mw.mw, C.size_t(distance)) defer relinquishMemory(unsafe.Pointer(p)) @@ -1241,8 +1211,9 @@ func (mw *MagickWand) GetImageChannelRange(channel ChannelType) (min, max float6 // the channel depth, its minima and maxima, the mean, the standard deviation, // the kurtosis and the skewness. You can access the red channel mean, for // example, like this: -// channelStatistics = wand.GetImageChannelStatistics() -// redMean = channelStatistics[RedChannel].mean +// +// channelStatistics = wand.GetImageChannelStatistics() +// redMean = channelStatistics[RedChannel].mean func (mw *MagickWand) GetImageChannelStatistics() []ChannelStatistics { p := C.MagickGetImageChannelStatistics(mw.mw) defer relinquishMemory(unsafe.Pointer(p)) @@ -1379,7 +1350,6 @@ func (mw *MagickWand) GetImageGravity() GravityType { // x: the chromaticity green primary x-point. // // y: the chromaticity green primary y-point. -// func (mw *MagickWand) GetImageGreenPrimary() (x, y float64, err error) { ok := C.MagickGetImageGreenPrimary(mw.mw, (*C.double)(&x), (*C.double)(&y)) err = mw.getLastErrorIfFailed(ok) @@ -1462,7 +1432,6 @@ func (mw *MagickWand) GetImageOrientation() OrientationType { // w, h: the page width and height // // x, h: the page x-offset and y-offset. -// func (mw *MagickWand) GetImagePage() (w, h uint, x, y int, err error) { var cw, ch C.size_t var cx, cy C.ssize_t @@ -1480,7 +1449,6 @@ func (mw *MagickWand) GetImagePixelColor(x, y int) (color *PixelWand, err error) // Returns the chromaticy red primary point. // // x, y: the chromaticity red primary x/y-point. -// func (mw *MagickWand) GetImageRedPrimary() (x, y float64, err error) { var cdx, cdy C.double ok := C.MagickGetImageRedPrimary(mw.mw, &cdx, &cdy) @@ -1556,7 +1524,6 @@ func (mw *MagickWand) GetImageVirtualPixelMethod() VirtualPixelMethod { // Returns the chromaticy white point. // // x, y: the chromaticity white x/y-point. -// func (mw *MagickWand) GetImageWhitePoint() (x, y float64, err error) { ok := C.MagickGetImageWhitePoint(mw.mw, (*C.double)(&x), (*C.double)(&y)) err = mw.getLastErrorIfFailed(ok) @@ -1701,7 +1668,7 @@ func pixelInterfaceToPtr(pixels interface{}) (unsafe.Pointer, StorageType, error // in the order specified by map. Suppose your want to upload the first // scanline of a 640x480 image from character data in red-green-blue order: // -// wand.ImportImagePixels(0, 0, 640, 1, "RGB", PIXEL_CHAR, pixels) +// wand.ImportImagePixels(0, 0, 640, 1, "RGB", PIXEL_CHAR, pixels) // // x, y, cols, rows: These values define the perimeter of a region of pixels // you want to define. @@ -1715,17 +1682,16 @@ func pixelInterfaceToPtr(pixels interface{}) (unsafe.Pointer, StorageType, error // expected to be normalized [0..1] otherwise [0..QuantumRange]. Choose from // these types: // -// PIXEL_CHAR -// PIXEL_SHORT -// PIXEL_INTEGER -// PIXEL_LONG -// PIXEL_FLOAT -// PIXEL_DOUBLE +// PIXEL_CHAR +// PIXEL_SHORT +// PIXEL_INTEGER +// PIXEL_LONG +// PIXEL_FLOAT +// PIXEL_DOUBLE // // pixels: This slice of values contain the pixel components as defined by map // and type. You must pre-allocate this slice where the expected length varies // depending on the values of width, height, map, and type. -// func (mw *MagickWand) ImportImagePixels(x, y int, cols, rows uint, pmap string, stype StorageType, pixels interface{}) error { @@ -1761,7 +1727,6 @@ func (mw *MagickWand) ImportImagePixels(x, y int, cols, rows uint, pmap string, // // magnitude: if true, return as magnitude/phase pair otherwise a // real/imaginary image pair. -// func (mw *MagickWand) InverseFourierTransformImage(phaseWand *MagickWand, magnitude bool) error { ok := C.MagickInverseFourierTransformImage(mw.mw, phaseWand.mw, b2i(magnitude)) return mw.getLastErrorIfFailed(ok) @@ -1813,7 +1778,6 @@ func (mw *MagickWand) LinearStretchImage(blackPoint, whitePoint float64) error { // deltaX: maximum seam transversal step (0 means straight seams). // // rigidity: introduce a bias for non-straight seams (typically 0). -// func (mw *MagickWand) LiquidRescaleImage(cols, rows uint, deltaX, rigidity float64) error { if err := checkColsRows(cols, rows); err != nil { return err @@ -1870,7 +1834,6 @@ func (mw *MagickWand) MinifyImage() error { // saturation: the percent change in saturation. // // hue: the percent change in hue. -// func (mw *MagickWand) ModulateImage(brightness, saturation, hue float64) error { ok := C.MagickModulateImage(mw.mw, C.double(brightness), C.double(saturation), C.double(hue)) return mw.getLastErrorIfFailed(ok) @@ -1892,7 +1855,6 @@ func (mw *MagickWand) ModulateImage(brightness, saturation, hue float64) error { // // frame: Surround the image with an ornamental border (e.g. 15x15+3+3). The // frame color is that of the thumbnail's matte color. -// func (mw *MagickWand) MontageImage(dw *DrawingWand, tileGeo string, thumbGeo string, mode MontageMode, frame string) *MagickWand { cstile := C.CString(tileGeo) defer C.free(unsafe.Pointer(cstile)) @@ -1963,7 +1925,6 @@ func (mw *MagickWand) MorphologyImageChannel(channel ChannelType, method Morphol // sigma: the standard deviation of the Gaussian, in pixels. // // angle: apply the effect along this angle. -// func (mw *MagickWand) MotionBlurImage(radius, sigma, angle float64) error { ok := C.MagickMotionBlurImage(mw.mw, C.double(radius), C.double(sigma), C.double(angle)) return mw.getLastErrorIfFailed(ok) @@ -1980,7 +1941,6 @@ func (mw *MagickWand) MotionBlurImage(radius, sigma, angle float64) error { // sigma: the standard deviation of the Gaussian, in pixels. // // angle: apply the effect along this angle. -// func (mw *MagickWand) MotionBlurImageChannel(channel ChannelType, radius, sigma, angle float64) error { ok := C.MagickMotionBlurImageChannel(mw.mw, C.ChannelType(channel), C.double(radius), C.double(sigma), C.double(angle)) return mw.getLastErrorIfFailed(ok) @@ -1991,7 +1951,6 @@ func (mw *MagickWand) MotionBlurImageChannel(channel ChannelType, radius, sigma, // influence of a particular channel with a gamma value of 0. // // gray: If true, only negate grayscale pixels within the image. -// func (mw *MagickWand) NegateImage(gray bool) error { ok := C.MagickNegateImage(mw.mw, b2i(gray)) return mw.getLastErrorIfFailed(ok) @@ -2002,7 +1961,6 @@ func (mw *MagickWand) NegateImage(gray bool) error { // influence of a particular channel with a gamma value of 0. // // gray: If true, only negate grayscale pixels within the image. -// func (mw *MagickWand) NegateImageChannel(channel ChannelType, gray bool) error { ok := C.MagickNegateImageChannel(mw.mw, C.ChannelType(channel), b2i(gray)) return mw.getLastErrorIfFailed(ok) @@ -2051,7 +2009,6 @@ func (mw *MagickWand) NormalizeImageChannel(channel ChannelType) error { // defined by radius. // // radius: the radius of the circular neighborhood. -// func (mw *MagickWand) OilPaintImage(radius float64) error { ok := C.MagickOilPaintImage(mw.mw, C.double(radius)) return mw.getLastErrorIfFailed(ok) @@ -2071,7 +2028,6 @@ func (mw *MagickWand) OilPaintImage(radius float64) error { // color for the purposes of the floodfill. // // invert: paint any pixel that does not match the target color. -// func (mw *MagickWand) OpaquePaintImage(target, fill *PixelWand, fuzz float64, invert bool) error { ok := C.MagickOpaquePaintImage(mw.mw, target.pw, fill.pw, C.double(fuzz), b2i(invert)) return mw.getLastErrorIfFailed(ok) @@ -2091,7 +2047,6 @@ func (mw *MagickWand) OpaquePaintImage(target, fill *PixelWand, fuzz float64, in // color for the purposes of the floodfill. // // invert: paint any pixel that does not match the target color. -// func (mw *MagickWand) OpaquePaintImageChannel(channel ChannelType, target, fill *PixelWand, fuzz float64, invert bool) error { ok := C.MagickOpaquePaintImageChannel(mw.mw, C.ChannelType(channel), target.pw, fill.pw, C.double(fuzz), b2i(invert)) return mw.getLastErrorIfFailed(ok) @@ -2207,7 +2162,6 @@ func (mw *MagickWand) PolaroidImage(dw *DrawingWand, angle float64) error { // // dither: Set this integer value to something other than zero to dither the // mapped image. -// func (mw *MagickWand) PosterizeImage(levels uint, dither bool) error { ok := C.MagickPosterizeImage(mw.mw, C.size_t(levels), b2i(dither)) return mw.getLastErrorIfFailed(ok) @@ -2265,7 +2219,6 @@ func (mw *MagickWand) PreviousImage() bool { // error. The error is computed by summing over all pixels in an image the // distance squared in RGB space between each reference pixel value and its // quantized value. -// func (mw *MagickWand) QuantizeImage(numColors uint, colorspace ColorspaceType, treedepth uint, dither bool, measureError bool) error { ok := C.MagickQuantizeImage(mw.mw, C.size_t(numColors), C.ColorspaceType(colorspace), C.size_t(treedepth), b2i(dither), b2i(measureError)) return mw.getLastErrorIfFailed(ok) @@ -2298,7 +2251,6 @@ func (mw *MagickWand) QuantizeImage(numColors uint, colorspace ColorspaceType, t // error. The error is computed by summing over all pixels in an image the // distance squared in RGB space between each reference pixel value and its // quantized value. -// func (mw *MagickWand) QuantizeImages(numColors uint, colorspace ColorspaceType, treedepth uint, dither bool, measureError bool) error { ok := C.MagickQuantizeImages(mw.mw, C.size_t(numColors), C.ColorspaceType(colorspace), C.size_t(treedepth), b2i(dither), b2i(measureError)) return mw.getLastErrorIfFailed(ok) @@ -2307,7 +2259,6 @@ func (mw *MagickWand) QuantizeImages(numColors uint, colorspace ColorspaceType, // Radial blurs an image. // // angle: the angle of the blur in degrees. -// func (mw *MagickWand) RadialBlurImage(angle float64) error { ok := C.MagickRotationalBlurImage(mw.mw, C.double(angle)) return mw.getLastErrorIfFailed(ok) @@ -2316,7 +2267,6 @@ func (mw *MagickWand) RadialBlurImage(angle float64) error { // Radial blurs an image's channel // // angle: the angle of the blur in degrees. -// func (mw *MagickWand) RadialBlurImageChannel(channel ChannelType, angle float64) error { ok := C.MagickRotationalBlurImageChannel(mw.mw, C.ChannelType(channel), C.double(angle)) return mw.getLastErrorIfFailed(ok) @@ -2330,7 +2280,6 @@ func (mw *MagickWand) RadialBlurImageChannel(channel ChannelType, angle float64) // // raise: A value other than zero creates a 3-D raise effect, otherwise it has // a lowered effect. -// func (mw *MagickWand) RaiseImage(width uint, height uint, x int, y int, raise bool) error { ok := C.MagickRaiseImage(mw.mw, C.size_t(width), C.size_t(height), C.ssize_t(x), C.ssize_t(y), b2i(raise)) return mw.getLastErrorIfFailed(ok) @@ -2341,7 +2290,6 @@ func (mw *MagickWand) RaiseImage(width uint, height uint, x int, y int, raise bo // // low, high: Specify the high and low thresholds. These values range from 0 // to QuantumRange. -// func (mw *MagickWand) RandomThresholdImage(low, high float64) error { ok := C.MagickRandomThresholdImage(mw.mw, C.double(low), C.double(high)) return mw.getLastErrorIfFailed(ok) @@ -2352,7 +2300,6 @@ func (mw *MagickWand) RandomThresholdImage(low, high float64) error { // // low, high: Specify the high and low thresholds. These values range from 0 // to QuantumRange. -// func (mw *MagickWand) RandomThresholdImageChannel(channel ChannelType, low, high float64) error { ok := C.MagickRandomThresholdImageChannel(mw.mw, C.ChannelType(channel), C.double(low), C.double(high)) return mw.getLastErrorIfFailed(ok) @@ -2392,7 +2339,6 @@ func (mw *MagickWand) ReadImageFile(img *os.File) error { // Replaces the colors of an image with the closest color from a reference image. // // method: choose from these dither methods: NoDitherMethod, RiemersmaDitherMethod, or FloydSteinbergDitherMethod. -// func (mw *MagickWand) RemapImage(remap *MagickWand, method DitherMethod) error { ok := C.MagickRemapImage(mw.mw, remap.mw, C.DitherMethod(method)) runtime.KeepAlive(remap) @@ -2412,7 +2358,6 @@ func (mw *MagickWand) RemoveImage() error { // filter: Image filter to use. // // blur: the blur factor where > 1 is blurry, < 1 is sharp. -// func (mw *MagickWand) ResampleImage(xRes, yRes float64, filter FilterType, blur float64) error { ok := C.MagickResampleImage(mw.mw, C.double(xRes), C.double(yRes), C.FilterTypes(filter), C.double(blur)) return mw.getLastErrorIfFailed(ok) @@ -2436,7 +2381,6 @@ func (mw *MagickWand) ResetImagePage(page string) error { // filter: Image filter to use. // // blur: the blur factor where > 1 is blurry, < 1 is sharp. -// func (mw *MagickWand) ResizeImage(cols, rows uint, filter FilterType, blur float64) error { if err := checkColsRows(cols, rows); err != nil { return err @@ -2450,7 +2394,6 @@ func (mw *MagickWand) ResizeImage(cols, rows uint, filter FilterType, blur float // x: the x offset. // // y: the y offset. -// func (mw *MagickWand) RollImage(x, y int) error { ok := C.MagickRollImage(mw.mw, C.ssize_t(x), C.ssize_t(y)) return mw.getLastErrorIfFailed(ok) @@ -2462,7 +2405,6 @@ func (mw *MagickWand) RollImage(x, y int) error { // background: the background pixel wand. // // degrees: the number of degrees to rotate the image. -// func (mw *MagickWand) RotateImage(background *PixelWand, degrees float64) error { ok := C.MagickRotateImage(mw.mw, background.pw, C.double(degrees)) runtime.KeepAlive(background) @@ -2501,7 +2443,6 @@ func (mw *MagickWand) ScaleImage(cols, rows uint) error { // smoothThreshold: the smoothing threshold eliminates noise in the second // derivative of the histogram. As the value is increased, you can expect a // smoother second derivative. -// func (mw *MagickWand) SegmentImage(colorspace ColorspaceType, verbose bool, clusterThreshold, smoothThreshold float64) error { ok := C.MagickSegmentImage(mw.mw, C.ColorspaceType(colorspace), b2i(verbose), C.double(clusterThreshold), C.double(smoothThreshold)) return mw.getLastErrorIfFailed(ok) @@ -2517,7 +2458,6 @@ func (mw *MagickWand) SegmentImage(colorspace ColorspaceType, verbose bool, clus // // threshold: only pixels within this contrast threshold are included in the // blur operation. -// func (mw *MagickWand) SelectiveBlurImage(radius, sigma, threshold float64) error { ok := C.MagickSelectiveBlurImage(mw.mw, C.double(radius), C.double(sigma), C.double(threshold)) return mw.getLastErrorIfFailed(ok) @@ -2533,7 +2473,6 @@ func (mw *MagickWand) SelectiveBlurImage(radius, sigma, threshold float64) error // // threshold: only pixels within this contrast threshold are included in the // blur operation. -// func (mw *MagickWand) SelectiveBlurImageChannel(channel ChannelType, radius, sigma, threshold float64) error { ok := C.MagickSelectiveBlurImageChannel(mw.mw, C.ChannelType(channel), C.double(radius), C.double(sigma), C.double(threshold)) return mw.getLastErrorIfFailed(ok) @@ -2552,7 +2491,6 @@ func (mw *MagickWand) SeparateImageChannel(channel ChannelType) error { // starting point for a reasonable tone. // // threshold: Define the extent of the sepia toning. -// func (mw *MagickWand) SepiaToneImage(threshold float64) error { ok := C.MagickSepiaToneImage(mw.mw, C.double(threshold)) return mw.getLastErrorIfFailed(ok) @@ -2602,7 +2540,6 @@ func (mw *MagickWand) SetImageBorderColor(border *PixelWand) error { // Sets the depth of a particular image channel. // // depth: the image depth in bits. -// func (mw *MagickWand) SetImageChannelDepth(channel ChannelType, depth uint) error { ok := C.MagickSetImageChannelDepth(mw.mw, C.ChannelType(channel), C.size_t(depth)) return mw.getLastErrorIfFailed(ok) @@ -2627,7 +2564,6 @@ func (mw *MagickWand) SetImageColor(color *PixelWand) error { // index: the offset into the image colormap. // // color: return the colormap color in this wand. -// func (mw *MagickWand) SetImageColormapColor(index uint, color *PixelWand) error { ok := C.MagickSetImageColormapColor(mw.mw, C.size_t(index), color.pw) return mw.getLastErrorIfFailed(ok) @@ -2640,7 +2576,7 @@ func (mw *MagickWand) SetImageColorspace(colorspace ColorspaceType) error { } // Sets the image composite operator, useful for specifying how to composite -/// the image thumbnail when using the MontageImage() method. +// / the image thumbnail when using the MontageImage() method. func (mw *MagickWand) SetImageCompose(compose CompositeOperator) error { ok := C.MagickSetImageCompose(mw.mw, C.CompositeOperator(compose)) return mw.getLastErrorIfFailed(ok) @@ -2661,7 +2597,6 @@ func (mw *MagickWand) SetImageCompressionQuality(quality uint) error { // Sets the image delay. // // delay: the image delay in ticks-per-second units. -// func (mw *MagickWand) SetImageDelay(delay uint) error { ok := C.MagickSetImageDelay(mw.mw, C.size_t(delay)) return mw.getLastErrorIfFailed(ok) @@ -2670,7 +2605,6 @@ func (mw *MagickWand) SetImageDelay(delay uint) error { // Sets the image depth. // // depth: the image depth in bits: 8, 16, or 32. -// func (mw *MagickWand) SetImageDepth(depth uint) error { ok := C.MagickSetImageDepth(mw.mw, C.size_t(depth)) return mw.getLastErrorIfFailed(ok) @@ -2693,7 +2627,6 @@ func (mw *MagickWand) SetImageEndian(endian EndianType) error { // cols: The image width in pixels. // // rows: The image height in pixels. -// func (mw *MagickWand) SetImageExtent(cols, rows uint) error { ok := C.MagickSetImageExtent(mw.mw, C.size_t(cols), C.size_t(rows)) return mw.getLastErrorIfFailed(ok) @@ -2710,7 +2643,6 @@ func (mw *MagickWand) SetImageFilename(filename string) error { // Sets the format of a particular image in a sequence. // // format: the image format. -// func (mw *MagickWand) SetImageFormat(format string) error { csformat := C.CString(format) defer C.free(unsafe.Pointer(csformat)) @@ -2776,7 +2708,6 @@ func (mw *MagickWand) SetImageMatteColor(matte *PixelWand) error { // // alpha: the level of transparency: 1.0 is fully opaque and 0.0 is fully // transparent. -// func (mw *MagickWand) SetImageOpacity(alpha float64) error { ok := C.MagickSetImageOpacity(mw.mw, C.double(alpha)) return mw.getLastErrorIfFailed(ok) @@ -2861,7 +2792,6 @@ func (mw *MagickWand) SetImageWhitePoint(x, y float64) error { // gray: if true, shades the intensity of each pixel. // // azimuth, elevation: define the light source direction. -// func (mw *MagickWand) ShadeImage(gray bool, azimuth, elevation float64) error { ok := C.MagickShadeImage(mw.mw, b2i(gray), C.double(azimuth), C.double(elevation)) return mw.getLastErrorIfFailed(ok) @@ -2876,7 +2806,6 @@ func (mw *MagickWand) ShadeImage(gray bool, azimuth, elevation float64) error { // x: the shadow x-offset. // // y: the shadow y-offset. -// func (mw *MagickWand) ShadowImage(opacity, sigma float64, x, y int) error { ok := C.MagickShadowImage(mw.mw, C.double(opacity), C.double(sigma), C.ssize_t(x), C.ssize_t(y)) return mw.getLastErrorIfFailed(ok) @@ -2890,7 +2819,6 @@ func (mw *MagickWand) ShadowImage(opacity, sigma float64, x, y int) error { // radius: the radius of the Gaussian, in pixels, not counting the center pixel. // // sigma: the standard deviation of the Gaussian, in pixels. -// func (mw *MagickWand) SharpenImage(radius, sigma float64) error { ok := C.MagickSharpenImage(mw.mw, C.double(radius), C.double(sigma)) return mw.getLastErrorIfFailed(ok) @@ -2904,7 +2832,6 @@ func (mw *MagickWand) SharpenImage(radius, sigma float64) error { // radius: the radius of the Gaussian, in pixels, not counting the center pixel. // // sigma: the standard deviation of the Gaussian, in pixels. -// func (mw *MagickWand) SharpenImageChannel(channel ChannelType, radius, sigma float64) error { ok := C.MagickSharpenImageChannel(mw.mw, C.ChannelType(channel), C.double(radius), C.double(sigma)) return mw.getLastErrorIfFailed(ok) @@ -2944,7 +2871,6 @@ func (mw *MagickWand) ShearImage(background *PixelWand, xShear, yShear float64) // 'threshold-like' it becomes. // // beta: midpoint of the function as a color value 0 to QuantumRange. -// func (mw *MagickWand) SigmoidalContrastImage(sharpen bool, alpha, beta float64) error { ok := C.MagickSigmoidalContrastImage(mw.mw, b2i(sharpen), C.double(alpha), C.double(beta)) return mw.getLastErrorIfFailed(ok) @@ -2964,7 +2890,6 @@ func (mw *MagickWand) SigmoidalContrastImage(sharpen bool, alpha, beta float64) // 'threshold-like' it becomes. // // beta: midpoint of the function as a color value 0 to QuantumRange. -// func (mw *MagickWand) SigmoidalContrastImageChannel(channel ChannelType, sharpen bool, alpha, beta float64) error { ok := C.MagickSigmoidalContrastImageChannel(mw.mw, C.ChannelType(channel), b2i(sharpen), C.double(alpha), C.double(beta)) return mw.getLastErrorIfFailed(ok) @@ -2980,7 +2905,6 @@ func (mw *MagickWand) SigmoidalContrastImageChannel(channel ChannelType, sharpen // offset: the best match offset of the reference image within the image. // // similarity: the computed similarity between the images. -// func (mw *MagickWand) SimilarityImage(reference *MagickWand) (offset *RectangleInfo, similarity float64, area *MagickWand) { var rectInfo C.RectangleInfo mwarea := C.MagickSimilarityImage(mw.mw, reference.mw, &rectInfo, (*C.double)(&similarity)) @@ -2999,7 +2923,6 @@ func (mw *MagickWand) SimilarityImage(reference *MagickWand) (offset *RectangleI // sigma: the standard deviation of the Gaussian, in pixels. // // angle: Apply the effect along this angle. -// func (mw *MagickWand) SketchImage(radius, sigma, angle float64) error { ok := C.MagickSketchImage(mw.mw, C.double(radius), C.double(sigma), C.double(angle)) return mw.getLastErrorIfFailed(ok) @@ -3013,7 +2936,6 @@ func (mw *MagickWand) SketchImage(radius, sigma, angle float64) error { // stack them top-to-bottom. // // offset: minimum distance in pixels between images. -// func (mw *MagickWand) SmushImages(stack bool, offset int) *MagickWand { ret := newMagickWand(C.MagickSmushImages(mw.mw, b2i(stack), C.ssize_t(offset))) runtime.KeepAlive(mw) @@ -3026,7 +2948,6 @@ func (mw *MagickWand) SmushImages(stack bool, offset int) *MagickWand { // extent of the solarization. // // threshold: define the extent of the solarization. -// func (mw *MagickWand) SolarizeImage(threshold float64) error { ok := C.MagickSolarizeImage(mw.mw, C.double(threshold)) return mw.getLastErrorIfFailed(ok) @@ -3061,7 +2982,6 @@ func (mw *MagickWand) SolarizeImage(threshold float64) error { // of control points will do a scale-rotate-translate, without any shearing. // // arguments: the arguments for this sparseion method. -// func (mw *MagickWand) SparseColorImage(channel ChannelType, method SparseColorMethod, arguments []float64) error { ok := C.MagickSparseColorImage(mw.mw, C.ChannelType(channel), C.SparseColorMethod(method), C.size_t(len(arguments)), (*C.double)(&arguments[0])) return mw.getLastErrorIfFailed(ok) @@ -3077,7 +2997,6 @@ func (mw *MagickWand) SpliceImage(width, height uint, x, y int) error { // defined by the radius parameter. // // radius: Choose a random pixel in a neighborhood of this extent. -// func (mw *MagickWand) SpreadImage(radius float64) error { ok := C.MagickSpreadImage(mw.mw, C.double(radius)) return mw.getLastErrorIfFailed(ok) @@ -3091,7 +3010,6 @@ func (mw *MagickWand) SpreadImage(radius float64) error { // width: the width of the pixel neighborhood. // // height: the height of the pixel neighborhood. -// func (mw *MagickWand) StatisticImage(stype StatisticType, width, height uint) error { ok := C.MagickStatisticImage(mw.mw, C.StatisticType(stype), C.size_t(width), C.size_t(height)) return mw.getLastErrorIfFailed(ok) @@ -3105,7 +3023,6 @@ func (mw *MagickWand) StatisticImage(stype StatisticType, width, height uint) er // width: the width of the pixel neighborhood. // // height: the height of the pixel neighborhood. -// func (mw *MagickWand) StatisticImageChannel(channel ChannelType, stype StatisticType, width, height uint) error { ok := C.MagickStatisticImageChannel(mw.mw, C.ChannelType(channel), C.StatisticType(stype), C.size_t(width), C.size_t(height)) return mw.getLastErrorIfFailed(ok) @@ -3116,7 +3033,6 @@ func (mw *MagickWand) StatisticImageChannel(channel ChannelType, stype Statistic // position within the image to hide the watermark. // // offset: start hiding at this offset into the image. -// func (mw *MagickWand) SteganoImage(watermark *MagickWand, offset int) *MagickWand { ret := newMagickWand(C.MagickSteganoImage(mw.mw, watermark.mw, C.ssize_t(offset))) runtime.KeepAlive(mw) @@ -3144,7 +3060,6 @@ func (mw *MagickWand) StripImage() error { // effect as the degrees move from 1 to 360. // // degrees: define the tightness of the swirling effect. -// func (mw *MagickWand) SwirlImage(degrees float64) error { ok := C.MagickSwirlImage(mw.mw, C.double(degrees)) return mw.getLastErrorIfFailed(ok) @@ -3162,7 +3077,6 @@ func (mw *MagickWand) TextureImage(texture *MagickWand) *MagickWand { // compared to threshold. The result is a high-contrast, two color image. // // threshold: define the threshold value. -// func (mw *MagickWand) ThresholdImage(threshold float64) error { ok := C.MagickThresholdImage(mw.mw, C.double(threshold)) return mw.getLastErrorIfFailed(ok) @@ -3172,7 +3086,6 @@ func (mw *MagickWand) ThresholdImage(threshold float64) error { // compared to threshold. The result is a high-contrast, two color image. // // threshold: define the threshold value. -// func (mw *MagickWand) ThresholdImageChannel(channel ChannelType, threshold float64) error { ok := C.MagickThresholdImageChannel(mw.mw, C.ChannelType(channel), C.double(threshold)) return mw.getLastErrorIfFailed(ok) @@ -3196,7 +3109,6 @@ func (mw *MagickWand) ThumbnailImage(cols, rows uint) error { // tint: the tint pixel wand. // // opacity: the opacity pixel wand. -// func (mw *MagickWand) TintImage(tint, opacity *PixelWand) error { ok := C.MagickTintImage(mw.mw, tint.pw, opacity.pw) runtime.KeepAlive(tint) @@ -3239,7 +3151,6 @@ func (mw *MagickWand) TransformImageColorspace(colorspace ColorspaceType) error // color for the purposes of the floodfill. // // invert: paint any pixel that does not match the target color. -// func (mw *MagickWand) TransparentPaintImage(target *PixelWand, alpha, fuzz float64, invert bool) error { ok := C.MagickTransparentPaintImage(mw.mw, target.pw, C.double(alpha), C.double(fuzz), b2i(invert)) runtime.KeepAlive(target) @@ -3292,7 +3203,6 @@ func (mw *MagickWand) UniqueImageColors() error { // image that is added back into the original. // // threshold: the threshold in pixels needed to apply the diffence amount. -// func (mw *MagickWand) UnsharpMaskImage(radius, sigma, amount, threshold float64) error { ok := C.MagickUnsharpMaskImage(mw.mw, C.double(radius), C.double(sigma), C.double(amount), C.double(threshold)) return mw.getLastErrorIfFailed(ok) @@ -3311,7 +3221,6 @@ func (mw *MagickWand) UnsharpMaskImage(radius, sigma, amount, threshold float64) // image that is added back into the original. // // threshold: the threshold in pixels needed to apply the diffence amount. -// func (mw *MagickWand) UnsharpMaskImageChannel(channel ChannelType, radius, sigma, amount, threshold float64) error { ok := C.MagickUnsharpMaskImageChannel(mw.mw, C.ChannelType(channel), C.double(radius), C.double(sigma), C.double(amount), C.double(threshold)) return mw.getLastErrorIfFailed(ok) @@ -3320,7 +3229,6 @@ func (mw *MagickWand) UnsharpMaskImageChannel(channel ChannelType, radius, sigma // Softens the edges of the image in vignette style. // // x, y: define the x and y ellipse offset. -// func (mw *MagickWand) VignetteImage(blackPoint, whitePoint float64, x, y int) error { ok := C.MagickVignetteImage(mw.mw, C.double(blackPoint), C.double(whitePoint), C.ssize_t(x), C.ssize_t(y)) return mw.getLastErrorIfFailed(ok) @@ -3331,7 +3239,6 @@ func (mw *MagickWand) VignetteImage(blackPoint, whitePoint float64, x, y int) er // parameters. // // amplitude, wavelength: Define the amplitude and wave length of the sine wave. -// func (mw *MagickWand) WaveImage(amplitude, wavelength float64) error { ok := C.MagickWaveImage(mw.mw, C.double(amplitude), C.double(wavelength)) return mw.getLastErrorIfFailed(ok)