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/*
Copyright 2010 Google Inc.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
#ifndef GrSamplerState_DEFINED
#define GrSamplerState_DEFINED
#include "GrTypes.h"
#include "GrMatrix.h"
#define MAX_KERNEL_WIDTH 25
class GrSamplerState {
public:
enum Filter {
/**
* Read the closest src texel to the sample position
*/
kNearest_Filter,
/**
* Blend between closest 4 src texels to sample position (tent filter)
*/
kBilinear_Filter,
/**
* Average of 4 bilinear filterings spaced +/- 1 texel from sample
* position in x and y. Intended for averaging 16 texels in a downsample
* pass. (rasterizing such that texture samples fall exactly halfway
* between texels in x and y spaced 4 texels apart.)
*/
k4x4Downsample_Filter,
/**
* Apply a separable convolution kernel.
*/
kConvolution_Filter
};
/**
* The intepretation of the texture matrix depends on the sample mode. The
* texture matrix is applied both when the texture coordinates are explicit
* and when vertex positions are used as texture coordinates. In the latter
* case the texture matrix is applied to the pre-view-matrix position
* values.
*
* kNormal_SampleMode
* The post-matrix texture coordinates are in normalize space with (0,0) at
* the top-left and (1,1) at the bottom right.
* kRadial_SampleMode
* The matrix specifies the radial gradient parameters.
* (0,0) in the post-matrix space is center of the radial gradient.
* kRadial2_SampleMode
* Matrix transforms to space where first circle is centered at the
* origin. The second circle will be centered (x, 0) where x may be
* 0 and is provided by setRadial2Params. The post-matrix space is
* normalized such that 1 is the second radius - first radius.
* kSweepSampleMode
* The angle from the origin of texture coordinates in post-matrix space
* determines the gradient value.
*/
enum SampleMode {
kNormal_SampleMode, //!< sample color directly
kRadial_SampleMode, //!< treat as radial gradient
kRadial2_SampleMode, //!< treat as 2-point radial gradient
kSweep_SampleMode, //!< treat as sweep gradient
};
/**
* Describes how a texture is sampled when coordinates are outside the
* texture border
*/
enum WrapMode {
kClamp_WrapMode,
kRepeat_WrapMode,
kMirror_WrapMode
};
/**
* Default sampler state is set to clamp, use normal sampling mode, be
* unfiltered, and use identity matrix.
*/
GrSamplerState()
: fRadial2CenterX1()
, fRadial2Radius0()
, fRadial2PosRoot() {
this->setClampNoFilter();
}
explicit GrSamplerState(Filter filter)
: fRadial2CenterX1()
, fRadial2Radius0()
, fRadial2PosRoot() {
fWrapX = kClamp_WrapMode;
fWrapY = kClamp_WrapMode;
fSampleMode = kNormal_SampleMode;
fFilter = filter;
fMatrix.setIdentity();
fTextureDomain.setEmpty();
}
GrSamplerState(WrapMode wx, WrapMode wy, Filter filter)
: fRadial2CenterX1()
, fRadial2Radius0()
, fRadial2PosRoot() {
fWrapX = wx;
fWrapY = wy;
fSampleMode = kNormal_SampleMode;
fFilter = filter;
fMatrix.setIdentity();
fTextureDomain.setEmpty();
}
GrSamplerState(WrapMode wx, WrapMode wy,
const GrMatrix& matrix, Filter filter)
: fRadial2CenterX1()
, fRadial2Radius0()
, fRadial2PosRoot() {
fWrapX = wx;
fWrapY = wy;
fSampleMode = kNormal_SampleMode;
fFilter = filter;
fMatrix = matrix;
fTextureDomain.setEmpty();
}
GrSamplerState(WrapMode wx, WrapMode wy, SampleMode sample,
const GrMatrix& matrix, Filter filter)
: fRadial2CenterX1()
, fRadial2Radius0()
, fRadial2PosRoot() {
fWrapX = wx;
fWrapY = wy;
fSampleMode = sample;
fMatrix = matrix;
fFilter = filter;
fTextureDomain.setEmpty();
}
WrapMode getWrapX() const { return fWrapX; }
WrapMode getWrapY() const { return fWrapY; }
SampleMode getSampleMode() const { return fSampleMode; }
const GrMatrix& getMatrix() const { return fMatrix; }
const GrRect& getTextureDomain() const { return fTextureDomain; }
bool hasTextureDomain() const {return SkIntToScalar(0) != fTextureDomain.right();}
Filter getFilter() const { return fFilter; }
int getKernelWidth() const { return fKernelWidth; }
const float* getKernel() const { return fKernel; }
const float* getImageIncrement() const { return fImageIncrement; }
bool isGradient() const {
return kRadial_SampleMode == fSampleMode ||
kRadial2_SampleMode == fSampleMode ||
kSweep_SampleMode == fSampleMode;
}
void setWrapX(WrapMode mode) { fWrapX = mode; }
void setWrapY(WrapMode mode) { fWrapY = mode; }
void setSampleMode(SampleMode mode) { fSampleMode = mode; }
/**
* Sets the sampler's matrix. See SampleMode for explanation of
* relationship between the matrix and sample mode.
* @param matrix the matrix to set
*/
void setMatrix(const GrMatrix& matrix) { fMatrix = matrix; }
/**
* Sets the sampler's texture coordinate domain to a
* custom rectangle, rather than the default (0,1).
* This option is currently only supported with kClamp_WrapMode
*/
void setTextureDomain(const GrRect& textureDomain) { fTextureDomain = textureDomain; }
/**
* Multiplies the current sampler matrix a matrix
*
* After this call M' = M*m where M is the old matrix, m is the parameter
* to this function, and M' is the new matrix. (We consider points to
* be column vectors so tex cood vector t is transformed by matrix X as
* t' = X*t.)
*
* @param matrix the matrix used to modify the matrix.
*/
void preConcatMatrix(const GrMatrix& matrix) { fMatrix.preConcat(matrix); }
/**
* Sets filtering type.
* @param filter type of filtering to apply
*/
void setFilter(Filter filter) { fFilter = filter; }
void setClampNoFilter() {
fWrapX = kClamp_WrapMode;
fWrapY = kClamp_WrapMode;
fSampleMode = kNormal_SampleMode;
fFilter = kNearest_Filter;
fMatrix.setIdentity();
fTextureDomain.setEmpty();
}
GrScalar getRadial2CenterX1() const { return fRadial2CenterX1; }
GrScalar getRadial2Radius0() const { return fRadial2Radius0; }
bool isRadial2PosRoot() const { return fRadial2PosRoot; }
// do the radial gradient params lead to a linear (rather than quadratic)
// equation.
bool radial2IsDegenerate() const { return GR_Scalar1 == fRadial2CenterX1; }
/**
* Sets the parameters for kRadial2_SampleMode. The texture
* matrix must be set so that the first point is at (0,0) and the second
* point lies on the x-axis. The second radius minus the first is 1 unit.
* The additional parameters to define the gradient are specified by this
* function.
*/
void setRadial2Params(GrScalar centerX1, GrScalar radius0, bool posRoot) {
fRadial2CenterX1 = centerX1;
fRadial2Radius0 = radius0;
fRadial2PosRoot = posRoot;
}
void setConvolutionParams(int kernelWidth, const float* kernel, float imageIncrement[2]) {
GrAssert(kernelWidth >= 0 && kernelWidth <= MAX_KERNEL_WIDTH);
fKernelWidth = kernelWidth;
if (NULL != kernel) {
memcpy(fKernel, kernel, kernelWidth * sizeof(float));
}
if (NULL != imageIncrement) {
memcpy(fImageIncrement, imageIncrement, sizeof(fImageIncrement));
} else {
memset(fImageIncrement, 0, sizeof(fImageIncrement));
}
}
static const GrSamplerState& ClampNoFilter() {
return gClampNoFilter;
}
private:
WrapMode fWrapX;
WrapMode fWrapY;
SampleMode fSampleMode;
Filter fFilter;
GrMatrix fMatrix;
GrRect fTextureDomain;
// these are undefined unless fSampleMode == kRadial2_SampleMode
GrScalar fRadial2CenterX1;
GrScalar fRadial2Radius0;
bool fRadial2PosRoot;
// These are undefined unless fFilter == kConvolution_Filter
int fKernelWidth;
float fKernel[MAX_KERNEL_WIDTH];
float fImageIncrement[2];
static const GrSamplerState gClampNoFilter;
};
#endif
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