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android / platform / cts / fcf7fc5a7ae12c7c86f2d0377e79bb512a7e61ba / . / tests / tests / renderscript / src / android / renderscript / cts / generated / TestSincos.java
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/*
* Copyright (C) 2015 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.
*/
// Don't edit this file! It is auto-generated by frameworks/rs/api/generate.sh.
package android.renderscript.cts;
import android.renderscript.Allocation;
import android.renderscript.RSRuntimeException;
import android.renderscript.Element;
public class TestSincos extends RSBaseCompute {
private ScriptC_TestSincos script;
private ScriptC_TestSincosRelaxed scriptRelaxed;
@Override
protected void setUp() throws Exception {
super.setUp();
script = new ScriptC_TestSincos(mRS);
scriptRelaxed = new ScriptC_TestSincosRelaxed(mRS);
}
public class ArgumentsFloatFloatFloat {
public float inV;
public Target.Floaty outCos;
public Target.Floaty out;
}
private void checkSincosFloatFloatFloat() {
Allocation inV = createRandomAllocation(mRS, Element.DataType.FLOAT_32, 1, 0xb8748e13e46c48d4l, false);
try {
Allocation outCos = Allocation.createSized(mRS, getElement(mRS, Element.DataType.FLOAT_32, 1), INPUTSIZE);
Allocation out = Allocation.createSized(mRS, getElement(mRS, Element.DataType.FLOAT_32, 1), INPUTSIZE);
script.set_gAllocOutCos(outCos);
script.forEach_testSincosFloatFloatFloat(inV, out);
verifyResultsSincosFloatFloatFloat(inV, outCos, out, false);
} catch (Exception e) {
throw new RSRuntimeException("RenderScript. Can't invoke forEach_testSincosFloatFloatFloat: " + e.toString());
}
try {
Allocation outCos = Allocation.createSized(mRS, getElement(mRS, Element.DataType.FLOAT_32, 1), INPUTSIZE);
Allocation out = Allocation.createSized(mRS, getElement(mRS, Element.DataType.FLOAT_32, 1), INPUTSIZE);
scriptRelaxed.set_gAllocOutCos(outCos);
scriptRelaxed.forEach_testSincosFloatFloatFloat(inV, out);
verifyResultsSincosFloatFloatFloat(inV, outCos, out, true);
} catch (Exception e) {
throw new RSRuntimeException("RenderScript. Can't invoke forEach_testSincosFloatFloatFloat: " + e.toString());
}
}
private void verifyResultsSincosFloatFloatFloat(Allocation inV, Allocation outCos, Allocation out, boolean relaxed) {
float[] arrayInV = new float[INPUTSIZE * 1];
inV.copyTo(arrayInV);
float[] arrayOutCos = new float[INPUTSIZE * 1];
outCos.copyTo(arrayOutCos);
float[] arrayOut = new float[INPUTSIZE * 1];
out.copyTo(arrayOut);
for (int i = 0; i < INPUTSIZE; i++) {
for (int j = 0; j < 1 ; j++) {
// Extract the inputs.
ArgumentsFloatFloatFloat args = new ArgumentsFloatFloatFloat();
args.inV = arrayInV[i];
// Figure out what the outputs should have been.
Target target = new Target(relaxed);
CoreMathVerifier.computeSincos(args, target);
// Validate the outputs.
boolean valid = true;
if (!args.outCos.couldBe(arrayOutCos[i * 1 + j])) {
valid = false;
}
if (!args.out.couldBe(arrayOut[i * 1 + j])) {
valid = false;
}
if (!valid) {
StringBuilder message = new StringBuilder();
message.append("Input inV: ");
message.append(String.format("%14.8g {%8x} %15a",
args.inV, Float.floatToRawIntBits(args.inV), args.inV));
message.append("\n");
message.append("Expected output outCos: ");
message.append(args.outCos.toString());
message.append("\n");
message.append("Actual output outCos: ");
message.append(String.format("%14.8g {%8x} %15a",
arrayOutCos[i * 1 + j], Float.floatToRawIntBits(arrayOutCos[i * 1 + j]), arrayOutCos[i * 1 + j]));
if (!args.outCos.couldBe(arrayOutCos[i * 1 + j])) {
message.append(" FAIL");
}
message.append("\n");
message.append("Expected output out: ");
message.append(args.out.toString());
message.append("\n");
message.append("Actual output out: ");
message.append(String.format("%14.8g {%8x} %15a",
arrayOut[i * 1 + j], Float.floatToRawIntBits(arrayOut[i * 1 + j]), arrayOut[i * 1 + j]));
if (!args.out.couldBe(arrayOut[i * 1 + j])) {
message.append(" FAIL");
}
message.append("\n");
assertTrue("Incorrect output for checkSincosFloatFloatFloat" +
(relaxed ? "_relaxed" : "") + ":\n" + message.toString(), valid);
}
}
}
}
private void checkSincosFloat2Float2Float2() {
Allocation inV = createRandomAllocation(mRS, Element.DataType.FLOAT_32, 2, 0xc85bab4e3e2fc77cl, false);
try {
Allocation outCos = Allocation.createSized(mRS, getElement(mRS, Element.DataType.FLOAT_32, 2), INPUTSIZE);
Allocation out = Allocation.createSized(mRS, getElement(mRS, Element.DataType.FLOAT_32, 2), INPUTSIZE);
script.set_gAllocOutCos(outCos);
script.forEach_testSincosFloat2Float2Float2(inV, out);
verifyResultsSincosFloat2Float2Float2(inV, outCos, out, false);
} catch (Exception e) {
throw new RSRuntimeException("RenderScript. Can't invoke forEach_testSincosFloat2Float2Float2: " + e.toString());
}
try {
Allocation outCos = Allocation.createSized(mRS, getElement(mRS, Element.DataType.FLOAT_32, 2), INPUTSIZE);
Allocation out = Allocation.createSized(mRS, getElement(mRS, Element.DataType.FLOAT_32, 2), INPUTSIZE);
scriptRelaxed.set_gAllocOutCos(outCos);
scriptRelaxed.forEach_testSincosFloat2Float2Float2(inV, out);
verifyResultsSincosFloat2Float2Float2(inV, outCos, out, true);
} catch (Exception e) {
throw new RSRuntimeException("RenderScript. Can't invoke forEach_testSincosFloat2Float2Float2: " + e.toString());
}
}
private void verifyResultsSincosFloat2Float2Float2(Allocation inV, Allocation outCos, Allocation out, boolean relaxed) {
float[] arrayInV = new float[INPUTSIZE * 2];
inV.copyTo(arrayInV);
float[] arrayOutCos = new float[INPUTSIZE * 2];
outCos.copyTo(arrayOutCos);
float[] arrayOut = new float[INPUTSIZE * 2];
out.copyTo(arrayOut);
for (int i = 0; i < INPUTSIZE; i++) {
for (int j = 0; j < 2 ; j++) {
// Extract the inputs.
ArgumentsFloatFloatFloat args = new ArgumentsFloatFloatFloat();
args.inV = arrayInV[i * 2 + j];
// Figure out what the outputs should have been.
Target target = new Target(relaxed);
CoreMathVerifier.computeSincos(args, target);
// Validate the outputs.
boolean valid = true;
if (!args.outCos.couldBe(arrayOutCos[i * 2 + j])) {
valid = false;
}
if (!args.out.couldBe(arrayOut[i * 2 + j])) {
valid = false;
}
if (!valid) {
StringBuilder message = new StringBuilder();
message.append("Input inV: ");
message.append(String.format("%14.8g {%8x} %15a",
args.inV, Float.floatToRawIntBits(args.inV), args.inV));
message.append("\n");
message.append("Expected output outCos: ");
message.append(args.outCos.toString());
message.append("\n");
message.append("Actual output outCos: ");
message.append(String.format("%14.8g {%8x} %15a",
arrayOutCos[i * 2 + j], Float.floatToRawIntBits(arrayOutCos[i * 2 + j]), arrayOutCos[i * 2 + j]));
if (!args.outCos.couldBe(arrayOutCos[i * 2 + j])) {
message.append(" FAIL");
}
message.append("\n");
message.append("Expected output out: ");
message.append(args.out.toString());
message.append("\n");
message.append("Actual output out: ");
message.append(String.format("%14.8g {%8x} %15a",
arrayOut[i * 2 + j], Float.floatToRawIntBits(arrayOut[i * 2 + j]), arrayOut[i * 2 + j]));
if (!args.out.couldBe(arrayOut[i * 2 + j])) {
message.append(" FAIL");
}
message.append("\n");
assertTrue("Incorrect output for checkSincosFloat2Float2Float2" +
(relaxed ? "_relaxed" : "") + ":\n" + message.toString(), valid);
}
}
}
}
private void checkSincosFloat3Float3Float3() {
Allocation inV = createRandomAllocation(mRS, Element.DataType.FLOAT_32, 3, 0x1cc0896e400dc91dl, false);
try {
Allocation outCos = Allocation.createSized(mRS, getElement(mRS, Element.DataType.FLOAT_32, 3), INPUTSIZE);
Allocation out = Allocation.createSized(mRS, getElement(mRS, Element.DataType.FLOAT_32, 3), INPUTSIZE);
script.set_gAllocOutCos(outCos);
script.forEach_testSincosFloat3Float3Float3(inV, out);
verifyResultsSincosFloat3Float3Float3(inV, outCos, out, false);
} catch (Exception e) {
throw new RSRuntimeException("RenderScript. Can't invoke forEach_testSincosFloat3Float3Float3: " + e.toString());
}
try {
Allocation outCos = Allocation.createSized(mRS, getElement(mRS, Element.DataType.FLOAT_32, 3), INPUTSIZE);
Allocation out = Allocation.createSized(mRS, getElement(mRS, Element.DataType.FLOAT_32, 3), INPUTSIZE);
scriptRelaxed.set_gAllocOutCos(outCos);
scriptRelaxed.forEach_testSincosFloat3Float3Float3(inV, out);
verifyResultsSincosFloat3Float3Float3(inV, outCos, out, true);
} catch (Exception e) {
throw new RSRuntimeException("RenderScript. Can't invoke forEach_testSincosFloat3Float3Float3: " + e.toString());
}
}
private void verifyResultsSincosFloat3Float3Float3(Allocation inV, Allocation outCos, Allocation out, boolean relaxed) {
float[] arrayInV = new float[INPUTSIZE * 4];
inV.copyTo(arrayInV);
float[] arrayOutCos = new float[INPUTSIZE * 4];
outCos.copyTo(arrayOutCos);
float[] arrayOut = new float[INPUTSIZE * 4];
out.copyTo(arrayOut);
for (int i = 0; i < INPUTSIZE; i++) {
for (int j = 0; j < 3 ; j++) {
// Extract the inputs.
ArgumentsFloatFloatFloat args = new ArgumentsFloatFloatFloat();
args.inV = arrayInV[i * 4 + j];
// Figure out what the outputs should have been.
Target target = new Target(relaxed);
CoreMathVerifier.computeSincos(args, target);
// Validate the outputs.
boolean valid = true;
if (!args.outCos.couldBe(arrayOutCos[i * 4 + j])) {
valid = false;
}
if (!args.out.couldBe(arrayOut[i * 4 + j])) {
valid = false;
}
if (!valid) {
StringBuilder message = new StringBuilder();
message.append("Input inV: ");
message.append(String.format("%14.8g {%8x} %15a",
args.inV, Float.floatToRawIntBits(args.inV), args.inV));
message.append("\n");
message.append("Expected output outCos: ");
message.append(args.outCos.toString());
message.append("\n");
message.append("Actual output outCos: ");
message.append(String.format("%14.8g {%8x} %15a",
arrayOutCos[i * 4 + j], Float.floatToRawIntBits(arrayOutCos[i * 4 + j]), arrayOutCos[i * 4 + j]));
if (!args.outCos.couldBe(arrayOutCos[i * 4 + j])) {
message.append(" FAIL");
}
message.append("\n");
message.append("Expected output out: ");
message.append(args.out.toString());
message.append("\n");
message.append("Actual output out: ");
message.append(String.format("%14.8g {%8x} %15a",
arrayOut[i * 4 + j], Float.floatToRawIntBits(arrayOut[i * 4 + j]), arrayOut[i * 4 + j]));
if (!args.out.couldBe(arrayOut[i * 4 + j])) {
message.append(" FAIL");
}
message.append("\n");
assertTrue("Incorrect output for checkSincosFloat3Float3Float3" +
(relaxed ? "_relaxed" : "") + ":\n" + message.toString(), valid);
}
}
}
}
private void checkSincosFloat4Float4Float4() {
Allocation inV = createRandomAllocation(mRS, Element.DataType.FLOAT_32, 4, 0x7125678e41ebcabel, false);
try {
Allocation outCos = Allocation.createSized(mRS, getElement(mRS, Element.DataType.FLOAT_32, 4), INPUTSIZE);
Allocation out = Allocation.createSized(mRS, getElement(mRS, Element.DataType.FLOAT_32, 4), INPUTSIZE);
script.set_gAllocOutCos(outCos);
script.forEach_testSincosFloat4Float4Float4(inV, out);
verifyResultsSincosFloat4Float4Float4(inV, outCos, out, false);
} catch (Exception e) {
throw new RSRuntimeException("RenderScript. Can't invoke forEach_testSincosFloat4Float4Float4: " + e.toString());
}
try {
Allocation outCos = Allocation.createSized(mRS, getElement(mRS, Element.DataType.FLOAT_32, 4), INPUTSIZE);
Allocation out = Allocation.createSized(mRS, getElement(mRS, Element.DataType.FLOAT_32, 4), INPUTSIZE);
scriptRelaxed.set_gAllocOutCos(outCos);
scriptRelaxed.forEach_testSincosFloat4Float4Float4(inV, out);
verifyResultsSincosFloat4Float4Float4(inV, outCos, out, true);
} catch (Exception e) {
throw new RSRuntimeException("RenderScript. Can't invoke forEach_testSincosFloat4Float4Float4: " + e.toString());
}
}
private void verifyResultsSincosFloat4Float4Float4(Allocation inV, Allocation outCos, Allocation out, boolean relaxed) {
float[] arrayInV = new float[INPUTSIZE * 4];
inV.copyTo(arrayInV);
float[] arrayOutCos = new float[INPUTSIZE * 4];
outCos.copyTo(arrayOutCos);
float[] arrayOut = new float[INPUTSIZE * 4];
out.copyTo(arrayOut);
for (int i = 0; i < INPUTSIZE; i++) {
for (int j = 0; j < 4 ; j++) {
// Extract the inputs.
ArgumentsFloatFloatFloat args = new ArgumentsFloatFloatFloat();
args.inV = arrayInV[i * 4 + j];
// Figure out what the outputs should have been.
Target target = new Target(relaxed);
CoreMathVerifier.computeSincos(args, target);
// Validate the outputs.
boolean valid = true;
if (!args.outCos.couldBe(arrayOutCos[i * 4 + j])) {
valid = false;
}
if (!args.out.couldBe(arrayOut[i * 4 + j])) {
valid = false;
}
if (!valid) {
StringBuilder message = new StringBuilder();
message.append("Input inV: ");
message.append(String.format("%14.8g {%8x} %15a",
args.inV, Float.floatToRawIntBits(args.inV), args.inV));
message.append("\n");
message.append("Expected output outCos: ");
message.append(args.outCos.toString());
message.append("\n");
message.append("Actual output outCos: ");
message.append(String.format("%14.8g {%8x} %15a",
arrayOutCos[i * 4 + j], Float.floatToRawIntBits(arrayOutCos[i * 4 + j]), arrayOutCos[i * 4 + j]));
if (!args.outCos.couldBe(arrayOutCos[i * 4 + j])) {
message.append(" FAIL");
}
message.append("\n");
message.append("Expected output out: ");
message.append(args.out.toString());
message.append("\n");
message.append("Actual output out: ");
message.append(String.format("%14.8g {%8x} %15a",
arrayOut[i * 4 + j], Float.floatToRawIntBits(arrayOut[i * 4 + j]), arrayOut[i * 4 + j]));
if (!args.out.couldBe(arrayOut[i * 4 + j])) {
message.append(" FAIL");
}
message.append("\n");
assertTrue("Incorrect output for checkSincosFloat4Float4Float4" +
(relaxed ? "_relaxed" : "") + ":\n" + message.toString(), valid);
}
}
}
}
public void testSincos() {
checkSincosFloatFloatFloat();
checkSincosFloat2Float2Float2();
checkSincosFloat3Float3Float3();
checkSincosFloat4Float4Float4();
}
}