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A library jar that provides APIs for Applications written for the Google Android Platform.
/*
* Copyright (C) 2008 The Android Open Source Project
*
* 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.
*/
package android.renderscript;
/**
* Sampler object that defines how Allocations can be read as textures within a
* kernel. Samplers are used in conjunction with the {@code rsSample} runtime
* function to return values from normalized coordinates.
*
* Any Allocation used with a Sampler must have been created with {@link
* android.renderscript.Allocation#USAGE_GRAPHICS_TEXTURE}; using a Sampler on
* an {@link android.renderscript.Allocation} that was not created with {@link
* android.renderscript.Allocation#USAGE_GRAPHICS_TEXTURE} is undefined.
*
* @deprecated Renderscript has been deprecated in API level 31. Please refer to the migration
* guide for the proposed alternatives.
**/
@Deprecated
public class Sampler extends BaseObj {
public enum Value {
NEAREST (0),
LINEAR (1),
LINEAR_MIP_LINEAR (2),
LINEAR_MIP_NEAREST (5),
WRAP (3),
CLAMP (4),
MIRRORED_REPEAT (6);
int mID;
Value(int id) {
mID = id;
}
}
Value mMin;
Value mMag;
Value mWrapS;
Value mWrapT;
Value mWrapR;
float mAniso;
Sampler(long id, RenderScript rs) {
super(id, rs);
guard.open("destroy");
}
/**
* @return minification setting for the sampler
*/
public Value getMinification() {
return mMin;
}
/**
* @return magnification setting for the sampler
*/
public Value getMagnification() {
return mMag;
}
/**
* @return S wrapping mode for the sampler
*/
public Value getWrapS() {
return mWrapS;
}
/**
* @return T wrapping mode for the sampler
*/
public Value getWrapT() {
return mWrapT;
}
/**
* @return anisotropy setting for the sampler
*/
public float getAnisotropy() {
return mAniso;
}
/**
* Retrieve a sampler with min and mag set to nearest and wrap modes set to
* clamp.
*
* @param rs Context to which the sampler will belong.
*
* @return Sampler
*/
public static Sampler CLAMP_NEAREST(RenderScript rs) {
if (rs.mSampler_CLAMP_NEAREST == null) {
synchronized (rs) {
if (rs.mSampler_CLAMP_NEAREST == null) {
Builder b = new Builder(rs);
b.setMinification(Value.NEAREST);
b.setMagnification(Value.NEAREST);
b.setWrapS(Value.CLAMP);
b.setWrapT(Value.CLAMP);
rs.mSampler_CLAMP_NEAREST = b.create();
}
}
}
return rs.mSampler_CLAMP_NEAREST;
}
/**
* Retrieve a sampler with min and mag set to linear and wrap modes set to
* clamp.
*
* @param rs Context to which the sampler will belong.
*
* @return Sampler
*/
public static Sampler CLAMP_LINEAR(RenderScript rs) {
if (rs.mSampler_CLAMP_LINEAR == null) {
synchronized (rs) {
if (rs.mSampler_CLAMP_LINEAR == null) {
Builder b = new Builder(rs);
b.setMinification(Value.LINEAR);
b.setMagnification(Value.LINEAR);
b.setWrapS(Value.CLAMP);
b.setWrapT(Value.CLAMP);
rs.mSampler_CLAMP_LINEAR = b.create();
}
}
}
return rs.mSampler_CLAMP_LINEAR;
}
/**
* Retrieve a sampler with mag set to linear, min linear mipmap linear, and
* wrap modes set to clamp.
*
* @param rs Context to which the sampler will belong.
*
* @return Sampler
*/
public static Sampler CLAMP_LINEAR_MIP_LINEAR(RenderScript rs) {
if (rs.mSampler_CLAMP_LINEAR_MIP_LINEAR == null) {
synchronized (rs) {
if (rs.mSampler_CLAMP_LINEAR_MIP_LINEAR == null) {
Builder b = new Builder(rs);
b.setMinification(Value.LINEAR_MIP_LINEAR);
b.setMagnification(Value.LINEAR);
b.setWrapS(Value.CLAMP);
b.setWrapT(Value.CLAMP);
rs.mSampler_CLAMP_LINEAR_MIP_LINEAR = b.create();
}
}
}
return rs.mSampler_CLAMP_LINEAR_MIP_LINEAR;
}
/**
* Retrieve a sampler with min and mag set to nearest and wrap modes set to
* wrap.
*
* @param rs Context to which the sampler will belong.
*
* @return Sampler
*/
public static Sampler WRAP_NEAREST(RenderScript rs) {
if (rs.mSampler_WRAP_NEAREST == null) {
synchronized (rs) {
if (rs.mSampler_WRAP_NEAREST == null) {
Builder b = new Builder(rs);
b.setMinification(Value.NEAREST);
b.setMagnification(Value.NEAREST);
b.setWrapS(Value.WRAP);
b.setWrapT(Value.WRAP);
rs.mSampler_WRAP_NEAREST = b.create();
}
}
}
return rs.mSampler_WRAP_NEAREST;
}
/**
* Retrieve a sampler with min and mag set to linear and wrap modes set to
* wrap.
*
* @param rs Context to which the sampler will belong.
*
* @return Sampler
*/
public static Sampler WRAP_LINEAR(RenderScript rs) {
if (rs.mSampler_WRAP_LINEAR == null) {
synchronized (rs) {
if (rs.mSampler_WRAP_LINEAR == null) {
Builder b = new Builder(rs);
b.setMinification(Value.LINEAR);
b.setMagnification(Value.LINEAR);
b.setWrapS(Value.WRAP);
b.setWrapT(Value.WRAP);
rs.mSampler_WRAP_LINEAR = b.create();
}
}
}
return rs.mSampler_WRAP_LINEAR;
}
/**
* Retrieve a sampler with mag set to linear, min linear mipmap linear, and
* wrap modes set to wrap.
*
* @param rs Context to which the sampler will belong.
*
* @return Sampler
*/
public static Sampler WRAP_LINEAR_MIP_LINEAR(RenderScript rs) {
if (rs.mSampler_WRAP_LINEAR_MIP_LINEAR == null) {
synchronized (rs) {
if (rs.mSampler_WRAP_LINEAR_MIP_LINEAR == null) {
Builder b = new Builder(rs);
b.setMinification(Value.LINEAR_MIP_LINEAR);
b.setMagnification(Value.LINEAR);
b.setWrapS(Value.WRAP);
b.setWrapT(Value.WRAP);
rs.mSampler_WRAP_LINEAR_MIP_LINEAR = b.create();
}
}
}
return rs.mSampler_WRAP_LINEAR_MIP_LINEAR;
}
/**
* Retrieve a sampler with min and mag set to nearest and wrap modes set to
* mirrored repeat.
*
* @param rs Context to which the sampler will belong.
*
* @return Sampler
*/
public static Sampler MIRRORED_REPEAT_NEAREST(RenderScript rs) {
if (rs.mSampler_MIRRORED_REPEAT_NEAREST == null) {
synchronized (rs) {
if (rs.mSampler_MIRRORED_REPEAT_NEAREST == null) {
Builder b = new Builder(rs);
b.setMinification(Value.NEAREST);
b.setMagnification(Value.NEAREST);
b.setWrapS(Value.MIRRORED_REPEAT);
b.setWrapT(Value.MIRRORED_REPEAT);
rs.mSampler_MIRRORED_REPEAT_NEAREST = b.create();
}
}
}
return rs.mSampler_MIRRORED_REPEAT_NEAREST;
}
/**
* Retrieve a sampler with min and mag set to linear and wrap modes set to
* mirrored repeat.
*
* @param rs Context to which the sampler will belong.
*
* @return Sampler
*/
public static Sampler MIRRORED_REPEAT_LINEAR(RenderScript rs) {
if (rs.mSampler_MIRRORED_REPEAT_LINEAR == null) {
synchronized (rs) {
if (rs.mSampler_MIRRORED_REPEAT_LINEAR == null) {
Builder b = new Builder(rs);
b.setMinification(Value.LINEAR);
b.setMagnification(Value.LINEAR);
b.setWrapS(Value.MIRRORED_REPEAT);
b.setWrapT(Value.MIRRORED_REPEAT);
rs.mSampler_MIRRORED_REPEAT_LINEAR = b.create();
}
}
}
return rs.mSampler_MIRRORED_REPEAT_LINEAR;
}
/**
* Retrieve a sampler with min and mag set to linear and wrap modes set to
* mirrored repeat.
*
* @param rs Context to which the sampler will belong.
*
* @return Sampler
*/
public static Sampler MIRRORED_REPEAT_LINEAR_MIP_LINEAR(RenderScript rs) {
if (rs.mSampler_MIRRORED_REPEAT_LINEAR_MIP_LINEAR == null) {
synchronized (rs) {
if (rs.mSampler_MIRRORED_REPEAT_LINEAR_MIP_LINEAR == null) {
Builder b = new Builder(rs);
b.setMinification(Value.LINEAR_MIP_LINEAR);
b.setMagnification(Value.LINEAR);
b.setWrapS(Value.MIRRORED_REPEAT);
b.setWrapT(Value.MIRRORED_REPEAT);
rs.mSampler_MIRRORED_REPEAT_LINEAR_MIP_LINEAR = b.create();
}
}
}
return rs.mSampler_MIRRORED_REPEAT_LINEAR_MIP_LINEAR;
}
/**
* Builder for creating non-standard samplers. This is only necessary if
* a Sampler with different min and mag modes is desired.
*/
public static class Builder {
RenderScript mRS;
Value mMin;
Value mMag;
Value mWrapS;
Value mWrapT;
Value mWrapR;
float mAniso;
public Builder(RenderScript rs) {
mRS = rs;
mMin = Value.NEAREST;
mMag = Value.NEAREST;
mWrapS = Value.WRAP;
mWrapT = Value.WRAP;
mWrapR = Value.WRAP;
mAniso = 1.0f;
}
public void setMinification(Value v) {
if (v == Value.NEAREST ||
v == Value.LINEAR ||
v == Value.LINEAR_MIP_LINEAR ||
v == Value.LINEAR_MIP_NEAREST) {
mMin = v;
} else {
throw new IllegalArgumentException("Invalid value");
}
}
public void setMagnification(Value v) {
if (v == Value.NEAREST || v == Value.LINEAR) {
mMag = v;
} else {
throw new IllegalArgumentException("Invalid value");
}
}
public void setWrapS(Value v) {
if (v == Value.WRAP || v == Value.CLAMP || v == Value.MIRRORED_REPEAT) {
mWrapS = v;
} else {
throw new IllegalArgumentException("Invalid value");
}
}
public void setWrapT(Value v) {
if (v == Value.WRAP || v == Value.CLAMP || v == Value.MIRRORED_REPEAT) {
mWrapT = v;
} else {
throw new IllegalArgumentException("Invalid value");
}
}
public void setAnisotropy(float v) {
if(v >= 0.0f) {
mAniso = v;
} else {
throw new IllegalArgumentException("Invalid value");
}
}
public Sampler create() {
mRS.validate();
long id = mRS.nSamplerCreate(mMag.mID, mMin.mID,
mWrapS.mID, mWrapT.mID, mWrapR.mID, mAniso);
Sampler sampler = new Sampler(id, mRS);
sampler.mMin = mMin;
sampler.mMag = mMag;
sampler.mWrapS = mWrapS;
sampler.mWrapT = mWrapT;
sampler.mWrapR = mWrapR;
sampler.mAniso = mAniso;
return sampler;
}
}
}