Class PdfShading.LatticeFormGouraudShadedTriangleMesh
java.lang.Object
com.itextpdf.kernel.pdf.PdfObjectWrapper<PdfDictionary>
com.itextpdf.kernel.pdf.colorspace.PdfShading
com.itextpdf.kernel.pdf.colorspace.PdfShading.LatticeFormGouraudShadedTriangleMesh
- Enclosing class:
- PdfShading
The class that extends
PdfShading
class and is in charge of Shading Dictionary with lattice-form Gouraud-shaded triangle mesh type. This type is similar to PdfShading.FreeFormGouraudShadedTriangleMesh
but instead of using free-form geometry, the vertices are arranged in a pseudorectangular lattice, which is topologically equivalent to a rectangular grid. The vertices are organized into rows, which need not be geometrically linear. The verticals data in stream is similar to PdfShading.FreeFormGouraudShadedTriangleMesh
, except there is no edge flag.
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Nested Class Summary
Nested classes/interfaces inherited from class com.itextpdf.kernel.pdf.colorspace.PdfShading
PdfShading.Axial, PdfShading.CoonsPatchMesh, PdfShading.FreeFormGouraudShadedTriangleMesh, PdfShading.FunctionBased, PdfShading.LatticeFormGouraudShadedTriangleMesh, PdfShading.Radial, PdfShading.TensorProductPatchMesh
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Constructor Summary
ModifierConstructorDescriptionLatticeFormGouraudShadedTriangleMesh
(PdfColorSpace cs, int bitsPerCoordinate, int bitsPerComponent, int verticesPerRow, float[] decode) Creates the new instance of the class.LatticeFormGouraudShadedTriangleMesh
(PdfColorSpace cs, int bitsPerCoordinate, int bitsPerComponent, int verticesPerRow, PdfArray decode) Creates the new instance of the class.protected
LatticeFormGouraudShadedTriangleMesh
(PdfStream pdfStream) Creates the new instance of the class from the existingPdfStream
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Method Summary
Modifier and TypeMethodDescriptionint
Gets the number of bits used to represent each colour component.int
Gets the number of bits used to represent each vertex coordinate.Gets thePdfArray
of numbers specifying how to map vertex coordinates and colour components into the appropriate ranges of values.int
Gets the number of vertices in each row of the lattice.void
setBitsPerComponent
(int bitsPerComponent) Sets the number of bits used to represent each colour component.void
setBitsPerCoordinate
(int bitsPerCoordinate) Sets the number of bits used to represent each vertex coordinate.void
setDecode
(float[] decode) Sets thefloat[]
of numbers specifying how to map vertex coordinates and colour components into the appropriate ranges of values.void
Sets thePdfArray
of numbers specifying how to map vertex coordinates and colour components into the appropriate ranges of values.void
setVerticesPerRow
(int verticesPerRow) Sets the number of vertices in each row of the lattice.Methods inherited from class com.itextpdf.kernel.pdf.colorspace.PdfShading
flush, getColorSpace, getFunction, getShadingType, isWrappedObjectMustBeIndirect, makeShading, setFunction, setFunction
Methods inherited from class com.itextpdf.kernel.pdf.PdfObjectWrapper
ensureObjectIsAddedToDocument, ensureUnderlyingObjectHasIndirectReference, getPdfObject, isFlushed, makeIndirect, makeIndirect, markObjectAsIndirect, setForbidRelease, setModified, setPdfObject, unsetForbidRelease
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Constructor Details
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LatticeFormGouraudShadedTriangleMesh
Creates the new instance of the class from the existingPdfStream
.- Parameters:
-
pdfStream
- from which thisPdfShading.LatticeFormGouraudShadedTriangleMesh
will be created
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LatticeFormGouraudShadedTriangleMesh
public LatticeFormGouraudShadedTriangleMesh(PdfColorSpace cs, int bitsPerCoordinate, int bitsPerComponent, int verticesPerRow, float[] decode) Creates the new instance of the class.- Parameters:
-
cs
- thePdfColorSpace
object in which colour values shall be expressed. The special Pattern space isn't excepted. -
bitsPerCoordinate
- the number of bits used to represent each vertex coordinate. The value shall be 1, 2, 4, 8, 12, 16, 24, or 32. -
bitsPerComponent
- the number of bits used to represent each colour component. The value shall be 1, 2, 4, 8, 12, or 16. -
verticesPerRow
- the number of vertices in each row of the lattice (shall be > 1). The number of rows need not be specified. -
decode
- theint[]
of numbers specifying how to map vertex coordinates and colour components into the appropriate ranges of values. The ranges shall be specified as follows: [x_min x_max y_min y_max c1_min c1_max … cn_min cn_max]. Only one pair of color values shall be specified if a Function entry is present.
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LatticeFormGouraudShadedTriangleMesh
public LatticeFormGouraudShadedTriangleMesh(PdfColorSpace cs, int bitsPerCoordinate, int bitsPerComponent, int verticesPerRow, PdfArray decode) Creates the new instance of the class.- Parameters:
-
cs
- thePdfColorSpace
object in which colour values shall be expressed. The special Pattern space isn't excepted. -
bitsPerCoordinate
- the number of bits used to represent each vertex coordinate. The value shall be 1, 2, 4, 8, 12, 16, 24, or 32. -
bitsPerComponent
- the number of bits used to represent each colour component. The value shall be 1, 2, 4, 8, 12, or 16. -
verticesPerRow
- the number of vertices in each row of the lattice (shall be > 1). The number of rows need not be specified. -
decode
- thePdfArray
of numbers specifying how to map vertex coordinates and colour components into the appropriate ranges of values. The ranges shall be specified as follows: [x_min x_max y_min y_max c1_min c1_max … cn_min cn_max]. Only one pair of color values shall be specified if a Function entry is present.
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Method Details
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getBitsPerCoordinate
public int getBitsPerCoordinate()Gets the number of bits used to represent each vertex coordinate.- Returns:
- the number of bits. Can be 1, 2, 4, 8, 12, 16, 24, or 32.
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setBitsPerCoordinate
public void setBitsPerCoordinate(int bitsPerCoordinate) Sets the number of bits used to represent each vertex coordinate.- Parameters:
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bitsPerCoordinate
- the number of bits to be set. Shall be 1, 2, 4, 8, 12, 16, 24, or 32.
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getBitsPerComponent
public int getBitsPerComponent()Gets the number of bits used to represent each colour component.- Returns:
- the number of bits. Can be 1, 2, 4, 8, 12, or 16.
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setBitsPerComponent
public void setBitsPerComponent(int bitsPerComponent) Sets the number of bits used to represent each colour component.- Parameters:
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bitsPerComponent
- the number of bits to be set. Shall be 1, 2, 4, 8, 12, or 16.
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getVerticesPerRow
public int getVerticesPerRow()Gets the number of vertices in each row of the lattice.- Returns:
- the number of vertices. Can only be greater than 1.
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setVerticesPerRow
public void setVerticesPerRow(int verticesPerRow) Sets the number of vertices in each row of the lattice. The number of rows need not be specified.- Parameters:
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verticesPerRow
- the number of vertices to be set. Shall be greater than 1.
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getDecode
Gets thePdfArray
of numbers specifying how to map vertex coordinates and colour components into the appropriate ranges of values. The ranges shall be specified as follows: [x_min x_max y_min y_max c1_min c1_max … cn_min cn_max]. Only one pair of color values shall be specified if a Function entry is present.- Returns:
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the
PdfArray
Decode object.
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setDecode
public void setDecode(float[] decode) Sets thefloat[]
of numbers specifying how to map vertex coordinates and colour components into the appropriate ranges of values. The ranges shall be specified as follows: [x_min x_max y_min y_max c1_min c1_max … cn_min cn_max]. Only one pair of color values shall be specified if a Function entry is present.- Parameters:
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decode
- thefloat[]
of Decode object to set.
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setDecode
Sets thePdfArray
of numbers specifying how to map vertex coordinates and colour components into the appropriate ranges of values. The ranges shall be specified as follows: [x_min x_max y_min y_max c1_min c1_max … cn_min cn_max]. Only one pair of color values shall be specified if a Function entry is present.- Parameters:
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decode
- thePdfArray
Decode object to set.
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