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ChannelType is used as an argument when doing color separations. Use ChannelType when extracting a layer from an image. MatteChannel is useful for extracting the opacity values from an image. Note that an image may be represented in RGB, RGBA, CMYK, or CMYKA, pixel formats and a channel may only be extracted if it is valid for the current pixel format.
ChannelType
Enumeration |
Description |
UndefinedChannel |
Unset value. |
RedChannel |
Extract red channel (RGB images only) |
CyanChannel |
Extract cyan channel (CMYK images only) |
GreenChannel |
Extract green channel (RGB images only) |
MagentaChannel |
Extract magenta channel (CMYK images only) |
BlueChannel |
Extract blue channel (RGB images only) |
YellowChannel |
Extract yellow channel (CMYK images only) |
OpacityChannel |
Extract matte (opacity values) channel (CMYKA images only) |
BlackChannel |
Extract black channel (CMYK images only) |
MatteChannel |
Extract matte (opacity values) channel (RGB images only) |
ClassType specifies the image storage class.
ClassType
Enumeration |
Description |
UndefinedClass |
Unset value. |
DirectClass |
Image is composed of pixels which represent literal color values. |
PseudoClass |
Image is composed of pixels which specify an index in a color palette. |
The ColorspaceType enumeration is used to specify the colorspace that quantization (color reduction and mapping) is done under or to specify the colorspace when encoding an output image. Colorspaces are ways of describing colors to fit the requirements of a particular application (e.g. Television, offset printing, color monitors). Color reduction, by default, takes place in the RGBColorspace. Empirical evidence suggests that distances in color spaces such as YUVColorspace or YIQColorspace correspond to perceptual color differences more closely han do distances in RGB space. These color spaces may give better results when color reducing an image. Refer to quantize for more details.
When encoding an output image, the colorspaces RGBColorspace, CMYKColorspace, and GRAYColorspace may be specified. The CMYKColorspace option is only applicable when writing TIFF, JPEG, and Adobe Photoshop bitmap (PSD) files.
ColorspaceType
Enumeration |
Description |
UndefinedColorspace |
Unset value. |
CMYKColorspace |
Cyan-Magenta-Yellow-Black colorspace. CYMK is a subtractive color system used by printers and photographers for the rendering of colors with ink or emulsion, normally on a white surface. |
GRAYColorspace |
Grayscale colorspace |
HCLColorspace |
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LabColorspace |
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LCHabColorspace |
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LuvColorspace |
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OHTAColorspace |
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RGBColorspace |
Red-Green-Blue colorspace. |
sRGBColorspace |
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scRGBColorspace |
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TransparentColorspace |
The Transparent color space behaves uniquely in that it preserves the matte channel of the image if it exists. |
XYZColorspace |
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YCbCrColorspace |
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YCCColorspace |
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YIQColorspace |
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YPbPrColorspace |
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YUVColorspace |
Y-signal, U-signal, and V-signal colorspace. YUV is most widely used to encode color for use in television transmission. |
CompositeOperator is used to select the image composition algorithm used to compose a composite image with an image. By default, each of the composite image pixels are replaced by the corresponding image tile pixel. Specify CompositeOperator to select a different algorithm.
CompositeOperator
Enumeration |
Description |
UndefinedCompositeOp |
Unset value. |
OverCompositeOp |
The result is the union of the the two image shapes with the composite image obscuring image in the region of overlap. |
InCompositeOp |
The result is a simply composite image cut by the shape of image. None of the image data of image is included in the result. |
OutCompositeOp |
The resulting image is composite image with the shape of image cut out. |
AtopCompositeOp |
The result is the same shape as image image, with composite image obscuring image there the image shapes overlap. Note that this differs from OverCompositeOp because the portion of composite image outside of image's shape does not appear in the result. |
XorCompositeOp |
The result is the image data from both composite image and image that is outside the overlap region. The overlap region will be blank. |
PlusCompositeOp |
The result is just the sum of the image data. Output values are cropped to 255 (no overflow). This operation is independent of the matte channels. |
MinusCompositeOp |
The result of composite image - image, with overflow cropped to zero. The matte chanel is ignored (set to 255, full coverage). |
AddCompositeOp |
The result of composite image + image, with overflow wrapping around (mod 256). |
SubtractCompositeOp |
The result of composite image - image, with underflow wrapping around (mod 256). The add and subtract operators can be used to perform reverible transformations. |
DifferenceCompositeOp |
The result of abs(composite image - image). This is useful for comparing two very similar images. |
MultiplyCompositeOp |
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BumpmapCompositeOp |
The result image shaded by composite image. |
CopyCompositeOp |
The resulting image is image replaced with composite image. Here the matte information is ignored. |
CopyRedCompositeOp |
The resulting image is the red layer in image replaced with the red layer in composite image. The other layers are copied untouched. |
CopyGreenCompositeOp |
The resulting image is the green layer in image replaced with the green layer in composite image. The other layers are copied untouched. |
CopyBlueCompositeOp |
The resulting image is the blue layer in image replaced with the blue layer in composite image. The other layers are copied untouched. |
CopyOpacityCompositeOp |
The resulting image is the matte layer in image replaced with the matte layer in composite image. The other layers are copied untouched. The image compositor requires a matte, or alpha channel in the image for some operations. This extra channel usually defines a mask which represents a sort of a cookie-cutter for the image. This is the case when matte is 255 (full coverage) for pixels inside the shape, zero outside, and between zero and 255 on the boundary. For certain operations, if image does not have a matte channel, it is initialized with 0 for any pixel matching in color to pixel location (0,0), otherwise 255 (to work properly borderWidth must be 0). |
ClearCompositeOp |
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DissolveCompositeOp |
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DisplaceCompositeOp |
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ModulateCompositeOp |
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ThresholdCompositeOp |
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CompressionType is used to express the desired compression type when encoding an image. Be aware that most image types only support a sub-set of the available compression types. If the compression type specified is incompatable with the image, ImageMagick selects a compression type compatable with the image type.
CompressionType
Enumeration |
Description |
UndefinedCompression |
Unset value. |
NoCompression |
No compression |
BZipCompression |
BZip (Burrows-Wheeler block-sorting text compression algorithm and Huffman coding) as used by bzip2 utilities |
FaxCompression |
CCITT Group 3 FAX compression |
Group4Compression |
CCITT Group 4 FAX compression (used only for TIFF) |
JPEGCompression |
JPEG compression |
LZWCompression |
Lempel-Ziv-Welch (LZW) compression (caution, patented by Unisys) |
RunlengthEncodedCompression |
Run-Length encoded (RLE) compression |
ZipCompression |
Lempel-Ziv compression (LZ77) as used in PKZIP and GNU gzip. |
The DecorationType enumerations are used to specify line decorations of rendered text.
DecorationType
Enumeration |
Description |
NoDecoration |
No decoration |
UnderlineDecoration |
Underlined text |
OverlineDecoration |
Overlined text |
LineThroughDecoration |
Strike-through text |
The EndianType enumerations are used to specify the endian option for formats which support it (e.g. TIFF).
EndianType
Enumeration |
Description |
UndefinedEndian |
Not defined (default) |
LSBEndian |
Little endian (like Intel X86 and DEC Alpha) |
MSBEndian |
Big endian (like Motorola 68K, Mac PowerPC, & SPARC) |
FillRule specifies the algorithm which is to be used to determine what parts of the canvas are included inside the shape. See the documentation on SVG's fill-rule property for usage details.
FillRule
UndefinedRule |
Fill rule not specified |
EvenOddRule |
See SVG fill-rule evenodd rule. |
NonZeroRule |
See SVG fill-rule nonzero rule. |
FilterTypes is used to adjust the filter algorithm used when resizing images. Different filters experience varying degrees of success with various images and can take sipngicantly different amounts of processing time. ImageMagick uses the LanczosFilter by default since this filter has been shown to provide the best results for most images in a reasonable amount of time. Other filter types (e.g. TriangleFilter) may execute much faster but may show artifacts when the image is re-sized or around diagonal lines. The only way to be sure is to test the filter with sample images.
FilterTypes
Enumeration |
Description |
UndefinedFilter |
Unset value. |
PointFilter |
Point Filter |
BoxFilter |
Box Filter |
TriangleFilter |
Triangle Filter |
HermiteFilter |
Hermite Filter |
HanningFilter |
Hanning Filter |
HammingFilter |
Hamming Filter |
BlackmanFilter |
Blackman Filter |
GaussianFilter |
Gaussian Filter |
QuadraticFilter |
Quadratic Filter |
CubicFilter |
Cubic Filter |
CatromFilter |
Catrom Filter |
MitchellFilter |
Mitchell Filter |
LanczosFilter |
Lanczos Filter |
BesselFilter |
Bessel Filter |
SincFilter |
Sinc Filter |
GravityType specifies positioning of an object (e.g. text, image) within a bounding region (e.g. an image). Gravity provides a convenient way to locate objects irrespective of the size of the bounding region, in other words, you don't need to provide absolute coordinates in order to position an object. A common default for gravity is NorthWestGravity.
GravityType
Enumeration |
Description |
ForgetGravity |
Don't use gravity. |
NorthWestGravity |
Position object at top-left of region. |
NorthGravity |
Postiion object at top-center of region |
NorthEastGravity |
Position object at top-right of region |
WestGravity |
Position object at left-center of region |
CenterGravity |
Position object at center of region |
EastGravity |
Position object at right-center of region |
SouthWestGravity |
Position object at left-bottom of region |
SouthGravity |
Position object at bottom-center of region |
SouthEastGravity |
Position object at bottom-right of region |
ImageType indicates the type classification of the image.
ImageType
Enumeration |
Description |
UndefinedType |
Unset value. |
BilevelType |
Monochrome image |
GrayscaleType |
Grayscale image |
GrayscaleMatteType |
Grayscale image with opacity |
PaletteType |
Indexed color (palette) image |
PaletteMatteType |
Indexed color (palette) image with opacity |
TrueColorType |
Truecolor image |
TrueColorMatteType |
Truecolor image with opacity |
ColorSeparationType |
Cyan/Yellow/Magenta/Black (CYMK) image |
InterlaceType specifies the ordering of the red, green, and blue pixel information in the image. Interlacing is usually used to make image information available to the user faster by taking advantage of the space vs time tradeoff. For example, interlacing allows images on the Web to be recognizable sooner and satellite images to accumulate/render with image resolution increasing over time.
Use LineInterlace or PlaneInterlace to create an interlaced GIF or progressive JPEG image.
InterlaceType
Enumeration |
Description |
UndefinedInterlace |
Unset value. |
NoInterlace |
Don't interlace image (RGBRGBRGBRGBRGBRGB...) |
LineInterlace |
Use scanline interlacing (RRR...GGG...BBB...RRR...GGG...BBB...) |
PlaneInterlace |
Use plane interlacing (RRRRRR...GGGGGG...BBBBBB...) |
PartitionInterlace |
Similar to plane interlaing except that the different planes are saved to individual files (e.g. image.R, image.G, and image.B) |
ChannelType is used as an argument when doing color separations. Use ChannelType when extracting a layer from an image. MatteLayer is useful for extracting the opacity values from an image.
ChannelType
Enumeration |
Description |
UndefinedLayer |
Unset value. |
RedLayer |
Select red layer |
GreenLayer |
Select green layer |
BlueLayer |
Select blue layer |
MatteLayer |
Select matte (opacity values) layer |
The LineCap enumerations specify shape to be used at the end of open subpaths when they are stroked. See SVG's 'stroke-linecap' for examples.
LineCap
Enumeration |
Description |
UndefinedCap |
Unset value. |
ButtCap |
Square ending. |
RoundCap |
Rounded ending (half-circle end with radius of 1/2 stroke width). |
SquareCap |
Square ending, extended by 1/2 the stroke width at end. |
The LineJoin enumerations specify the shape to be used at the corners of paths or basic shapes when they are stroked. See SVG's 'stroke-linejoin' for examples.
ChannelType
Enumeration |
Description |
UndefinedJoin |
Unset value. |
MiterJoin |
Sharp-edged join |
RoundJoin |
Rounded-edged join |
BevelJoin |
Beveled-edged join |
NoiseType is used as an argument to select the type of noise to be added to the image.
NoiseType
Enumeration |
Description |
UniformNoise |
Uniform noise |
GaussianNoise |
Gaussian noise |
MultiplicativeGaussianNoise |
Multiplicative Gaussian noise |
ImpulseNoise |
Impulse noise |
LaplacianNoise |
Laplacian noise |
PoissonNoise |
Poisson noise |
OrientationType specifies the orientation of the image. Useful for when the image is produced via a different ordinate system, the camera was turned on its side, or the page was scanned sideways.
OrientationType
Enumeration |
Scanline Direction |
Frame Direction |
UndefinedOrientation |
Unknown |
Unknown |
TopLeftOrientation |
Left to right |
Top to bottom |
TopRightOrientation |
Right to left |
Top to bottom |
BottomRightOrientation |
Right to left |
Bottom to top |
BottomLeftOrientation |
Left to right |
Bottom to top |
LeftTopOrientation |
Top to bottom |
Left to right |
RightTopOrientation |
Top to bottom |
Right to left |
RightBottomOrientation |
Bottom to top |
Right to left |
LeftBottomOrientation |
Bottom to top |
Left to right |
PaintMethod specifies how pixel colors are to be replaced in the image. It is used to select the pixel-filling algorithm employed.
PaintMethod
Enumeration |
Description |
PointMethod |
Replace pixel color at point. |
ReplaceMethod |
Replace color for all image pixels matching color at point. |
FloodfillMethod |
Replace color for pixels surrounding point until encountering pixel that fails to match color at point. |
FillToBorderMethod |
Replace color for pixels surrounding point until encountering pixels matching border color. |
ResetMethod |
Replace colors for all pixels in image with pen color. |
QuantumTypes is used to indicate the source or destination format of entire pixels, or components of pixels ("Quantums") while they are being read, or written to, a pixel cache. The validity of these format specifications depends on whether the Image pixels are in RGB format, RGBA format, or CMYK format. The pixel Quantum size is determined by the Image depth (eight or sixteen bits).
RGB(A) Image Quantums
Enumeration |
Description |
IndexQuantum |
PseudoColor colormap indices (valid only for image with colormap) |
RedQuantum |
Red pixel Quantum |
GreenQuantum |
Green pixel Quantum |
BlueQuantum |
Blue pixel Quantum |
AlphaQuantum |
Alpha Quantum |
CMY(K)(A) Image Quantum
Enumeration |
Description |
CyanQuantum |
Cyan pixel Quantum |
MagentaQuantum |
Magenta pixel Quantum |
YellowQuantum |
Yellow pixel Quantum |
BlackQuantum |
Black pixel Quantum |
AlphaQuantum |
Alpha Quantum |
Grayscale Image Quantums
Enumeration |
Description |
GrayQuantum |
Gray pixel |
GrayOpacityQuantum |
Pixel opacity |
AlphaQuantum |
Alpha Quantum |
Entire Pixels (Expressed in Byte Order)
Enumeration |
Description |
RGBQuantum |
RGB pixel (24 or 48 bits) |
RGBAQuantum |
RGBA pixel (32 or 64 bits) |
CMYKQuantum |
CMYK pixel (32 or 64 bits) |
CMYKAQuantum |
CMYKA pixel (40 or 80 bits) |
Rendering intent is a concept defined by ICC Spec ICC.1:1998-09, "File Format for Color Profiles". ImageMagick uses RenderingIntent in order to support ICC Color Profiles.
From the specification: "Rendering intent specifies the style of reproduction to be used during the evaluation of this profile in a sequence of profiles. It applies specifically to that profile in the sequence and not to the entire sequence. Typically, the user or application will set the rendering intent dynamically at runtime or embedding time."
RenderingIntent
Enumeration |
Description |
UndefinedIntent |
Unset value. |
SaturationIntent |
A rendering intent that specifies the saturation of the pixels in the image is preserved perhaps at the expense of accuracy in hue and lightness. |
PerceptualIntent |
A rendering intent that specifies the full gamut of the image is compressed or expanded to fill the gamut of the destination device. Gray balance is preserved but colorimetric accuracy might not be preserved. |
AbsoluteIntent |
Absolute colorimetric |
RelativeIntent |
Relative colorimetric |
By default, ImageMagick defines resolutions in pixels per inch. ResolutionType provides a means to adjust this.
ResolutionType
Enumeration |
Description |
UndefinedResolution |
Unset value. |
PixelsPerInchResolution |
Density specifications are specified in units of pixels per inch (english units). |
PixelsPerCentimeterResolution |
Density specifications are specified in units of pixels per centimeter (metric units). |
The StorageType enumerations are used to specify the storage format of pixels in the source or destination pixel array.
StorageType
Enumeration |
Description |
CharPixel |
Character type |
ShortPixel |
Short type |
IntegerPixel |
Integer type |
FloatPixel |
Float type |
DoublePixel |
Double type |
The StretchType enumerations are used to specify the relative width of a font to the regular width for the font family. If the width is not important, the AnyStretch enumeration may be specified for a wildcard match.
StretchType
Enumeration |
Description |
AnyStretch |
Wildcard match for font stretch |
NormalStretch |
Normal width font |
UltraCondensedStretch |
Ultra-condensed (narrowest) font |
ExtraCondensedStretch |
Extra-condensed font |
CondensedStretch |
Condensed font |
SemiCondensedStretch |
Semi-Condensed font |
SemiExpandedStretch |
Semi-Expanded font |
ExpandedStretch |
Expanded font |
ExtraExpandedStretch |
Extra-Expanded font |
UltraExpandedStretch |
Ultra-expanded (widest) font |
The StyleType enumerations are used to specify the style (e.g. Italic) of a font. If the style is not important, the AnyStyle enumeration may be specified for a wildcard match.
StyleType
Enumeration |
Description |
AnyStyle |
Wildcard match for font style |
NormalStyle |
Normal font style |
ItalicStyle |
Italic font style |
ObliqueStyle |
Oblique font style |
The VirtualPixelMethod enumerations are used to specify the virtual pixel method.
VirtualPixelMethod
Enumeration |
Description |
UndefinedVirtualPixelMethod |
Not defined |
BackgroundVirtualPixelMethod |
the area surrounding the image is the background color |
BlackVirtualPixelMethod |
the area surrounding the image is black |
CheckerTileVirtualPixelMethod |
alternate squares with image and background color |
DitherVirtualPixelMethod |
non-random 32x32 dithered pattern |
EdgeVirtualPixelMethod |
extend the edge pixel toward infinity |
GrayVirtualPixelMethod |
the area surrounding the image is gray |
HorizontalTileVirtualPixelMethod |
horizontally tile the image, background color above/below |
HorizontalTileEdgeVirtualPixelMethod |
horizontally tile the image and replicate the side edge pixels |
MirrorVirtualPixelMethod |
mirror tile the image |
RandomVirtualPixelMethod |
choose a random pixel from the image |
TileVirtualPixelMethod |
tile the image (default) |
TransparentVirtualPixelMethod |
the area surrounding the image is transparent blackness |
VerticalTileVirtualPixelMethod |
vertically tile the image, sides are background color |
VerticalTileEdgeVirtualPixelMethod |
vertically tile the image and replicate the side edge pixels |
WhiteVirtualPixelMethod |
the area surrounding the image is white |