/* * 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; } } }