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gerrit-public.fairphone.software / fp2-dev / platform / frameworks / rs / f37121300217d3b39ab66dd9c8881bcbcad932df / . / cpp / ScriptIntrinsics.cpp
blob: ba1e5f44918aaa8fe183b05a90e5c92e500b80a4 [file] [log] [blame]
/*
* Copyright (C) 2008-2012 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.
*/
#include <malloc.h>
#include "RenderScript.h"
#include "rsCppInternal.h"
using namespace android;
using namespace RSC;
ScriptIntrinsic::ScriptIntrinsic(sp<RS> rs, int id, sp<const Element> e)
: Script(NULL, rs) {
mID = createDispatch(rs, RS::dispatch->ScriptIntrinsicCreate(rs->getContext(), id, e->getID()));
mElement = e;
}
ScriptIntrinsic::~ScriptIntrinsic() {
}
sp<ScriptIntrinsic3DLUT> ScriptIntrinsic3DLUT::create(sp<RS> rs, sp<const Element> e) {
if (e->isCompatible(Element::U8_4(rs)) == false) {
rs->throwError(RS_ERROR_INVALID_ELEMENT, "Element not supported for intrinsic");
return NULL;
}
return new ScriptIntrinsic3DLUT(rs, e);
}
ScriptIntrinsic3DLUT::ScriptIntrinsic3DLUT(sp<RS> rs, sp<const Element> e)
: ScriptIntrinsic(rs, RS_SCRIPT_INTRINSIC_ID_3DLUT, e) {
}
void ScriptIntrinsic3DLUT::forEach(sp<Allocation> ain, sp<Allocation> aout) {
if (ain->getType()->getElement()->isCompatible(mElement) == false ||
aout->getType()->getElement()->isCompatible(mElement) == false) {
mRS->throwError(RS_ERROR_INVALID_ELEMENT, "3DLUT forEach element mismatch");
return;
}
Script::forEach(0, ain, aout, NULL, 0);
}
void ScriptIntrinsic3DLUT::setLUT(sp<Allocation> lut) {
sp<const Type> t = lut->getType();
if (!t->getElement()->isCompatible(mElement)) {
mRS->throwError(RS_ERROR_INVALID_ELEMENT, "setLUT element does not match");
return;
}
if (t->getZ() == 0) {
mRS->throwError(RS_ERROR_INVALID_PARAMETER, "setLUT Allocation must be 3D");
return;
}
Script::setVar(0, lut);
}
sp<ScriptIntrinsicBlend> ScriptIntrinsicBlend::create(sp<RS> rs, sp<const Element> e) {
if (e->isCompatible(Element::U8_4(rs)) == false) {
rs->throwError(RS_ERROR_INVALID_ELEMENT, "Element not supported for intrinsic");
return NULL;
}
return new ScriptIntrinsicBlend(rs, e);
}
ScriptIntrinsicBlend::ScriptIntrinsicBlend(sp<RS> rs, sp<const Element> e)
: ScriptIntrinsic(rs, RS_SCRIPT_INTRINSIC_ID_BLEND, e) {
}
void ScriptIntrinsicBlend::forEachClear(sp<Allocation> in, sp<Allocation> out) {
if (in->getType()->getElement()->isCompatible(mElement) == false ||
out->getType()->getElement()->isCompatible(mElement) == false) {
mRS->throwError(RS_ERROR_INVALID_ELEMENT, "Invalid element in blend");
}
Script::forEach(0, in, out, NULL, 0);
}
void ScriptIntrinsicBlend::forEachSrc(sp<Allocation> in, sp<Allocation> out) {
if (in->getType()->getElement()->isCompatible(mElement) == false ||
out->getType()->getElement()->isCompatible(mElement) == false) {
mRS->throwError(RS_ERROR_INVALID_ELEMENT, "Invalid element in blend");
}
Script::forEach(1, in, out, NULL, 0);
}
void ScriptIntrinsicBlend::forEachDst(sp<Allocation> in, sp<Allocation> out) {
if (in->getType()->getElement()->isCompatible(mElement) == false ||
out->getType()->getElement()->isCompatible(mElement) == false) {
mRS->throwError(RS_ERROR_INVALID_ELEMENT, "Invalid element in blend");
}
Script::forEach(2, in, out, NULL, 0);
}
void ScriptIntrinsicBlend::forEachSrcOver(sp<Allocation> in, sp<Allocation> out) {
if (in->getType()->getElement()->isCompatible(mElement) == false ||
out->getType()->getElement()->isCompatible(mElement) == false) {
mRS->throwError(RS_ERROR_INVALID_ELEMENT, "Invalid element in blend");
}
Script::forEach(3, in, out, NULL, 0);
}
void ScriptIntrinsicBlend::forEachDstOver(sp<Allocation> in, sp<Allocation> out) {
if (in->getType()->getElement()->isCompatible(mElement) == false ||
out->getType()->getElement()->isCompatible(mElement) == false) {
mRS->throwError(RS_ERROR_INVALID_ELEMENT, "Invalid element in blend");
}
Script::forEach(4, in, out, NULL, 0);
}
void ScriptIntrinsicBlend::forEachSrcIn(sp<Allocation> in, sp<Allocation> out) {
if (in->getType()->getElement()->isCompatible(mElement) == false ||
out->getType()->getElement()->isCompatible(mElement) == false) {
mRS->throwError(RS_ERROR_INVALID_ELEMENT, "Invalid element in blend");
}
Script::forEach(5, in, out, NULL, 0);
}
void ScriptIntrinsicBlend::forEachDstIn(sp<Allocation> in, sp<Allocation> out) {
if (in->getType()->getElement()->isCompatible(mElement) == false ||
out->getType()->getElement()->isCompatible(mElement) == false) {
mRS->throwError(RS_ERROR_INVALID_ELEMENT, "Invalid element in blend");
}
Script::forEach(6, in, out, NULL, 0);
}
void ScriptIntrinsicBlend::forEachSrcOut(sp<Allocation> in, sp<Allocation> out) {
if (in->getType()->getElement()->isCompatible(mElement) == false ||
out->getType()->getElement()->isCompatible(mElement) == false) {
mRS->throwError(RS_ERROR_INVALID_ELEMENT, "Invalid element in blend");
}
Script::forEach(7, in, out, NULL, 0);
}
void ScriptIntrinsicBlend::forEachDstOut(sp<Allocation> in, sp<Allocation> out) {
if (in->getType()->getElement()->isCompatible(mElement) == false ||
out->getType()->getElement()->isCompatible(mElement) == false) {
mRS->throwError(RS_ERROR_INVALID_ELEMENT, "Invalid element in blend");
}
Script::forEach(8, in, out, NULL, 0);
}
void ScriptIntrinsicBlend::forEachSrcAtop(sp<Allocation> in, sp<Allocation> out) {
if (in->getType()->getElement()->isCompatible(mElement) == false ||
out->getType()->getElement()->isCompatible(mElement) == false) {
mRS->throwError(RS_ERROR_INVALID_ELEMENT, "Invalid element in blend");
}
Script::forEach(9, in, out, NULL, 0);
}
void ScriptIntrinsicBlend::forEachDstAtop(sp<Allocation> in, sp<Allocation> out) {
if (in->getType()->getElement()->isCompatible(mElement) == false ||
out->getType()->getElement()->isCompatible(mElement) == false) {
mRS->throwError(RS_ERROR_INVALID_ELEMENT, "Invalid element in blend");
}
Script::forEach(10, in, out, NULL, 0);
}
void ScriptIntrinsicBlend::forEachXor(sp<Allocation> in, sp<Allocation> out) {
if (in->getType()->getElement()->isCompatible(mElement) == false ||
out->getType()->getElement()->isCompatible(mElement) == false) {
mRS->throwError(RS_ERROR_INVALID_ELEMENT, "Invalid element in blend");
}
Script::forEach(11, in, out, NULL, 0);
}
// Numbering jumps here
void ScriptIntrinsicBlend::forEachMultiply(sp<Allocation> in, sp<Allocation> out) {
if (in->getType()->getElement()->isCompatible(mElement) == false ||
out->getType()->getElement()->isCompatible(mElement) == false) {
mRS->throwError(RS_ERROR_INVALID_ELEMENT, "Invalid element in blend");
}
Script::forEach(14, in, out, NULL, 0);
}
// Numbering jumps here
void ScriptIntrinsicBlend::forEachAdd(sp<Allocation> in, sp<Allocation> out) {
if (in->getType()->getElement()->isCompatible(mElement) == false ||
out->getType()->getElement()->isCompatible(mElement) == false) {
mRS->throwError(RS_ERROR_INVALID_ELEMENT, "Invalid element in blend");
}
Script::forEach(34, in, out, NULL, 0);
}
void ScriptIntrinsicBlend::forEachSubtract(sp<Allocation> in, sp<Allocation> out) {
if (in->getType()->getElement()->isCompatible(mElement) == false ||
out->getType()->getElement()->isCompatible(mElement) == false) {
mRS->throwError(RS_ERROR_INVALID_ELEMENT, "Invalid element in blend");
}
Script::forEach(35, in, out, NULL, 0);
}
sp<ScriptIntrinsicBlur> ScriptIntrinsicBlur::create(sp<RS> rs, sp<const Element> e) {
if ((e->isCompatible(Element::U8_4(rs)) == false) &&
(e->isCompatible(Element::U8(rs)) == false)) {
rs->throwError(RS_ERROR_INVALID_ELEMENT, "Invalid element in blur");
return NULL;
}
return new ScriptIntrinsicBlur(rs, e);
}
ScriptIntrinsicBlur::ScriptIntrinsicBlur(sp<RS> rs, sp<const Element> e)
: ScriptIntrinsic(rs, RS_SCRIPT_INTRINSIC_ID_BLUR, e) {
}
void ScriptIntrinsicBlur::setInput(sp<Allocation> in) {
if (in->getType()->getElement()->isCompatible(mElement) == false) {
mRS->throwError(RS_ERROR_INVALID_ELEMENT, "Invalid element in blur input");
return;
}
Script::setVar(1, in);
}
void ScriptIntrinsicBlur::forEach(sp<Allocation> out) {
if (out->getType()->getElement()->isCompatible(mElement) == false) {
mRS->throwError(RS_ERROR_INVALID_ELEMENT, "Invalid element in blur output");
return;
}
Script::forEach(0, NULL, out, NULL, 0);
}
void ScriptIntrinsicBlur::setRadius(float radius) {
if (radius > 0.f && radius <= 25.f) {
Script::setVar(0, &radius, sizeof(float));
} else {
mRS->throwError(RS_ERROR_INVALID_PARAMETER, "Blur radius out of 0-25 pixel bound");
}
}
sp<ScriptIntrinsicColorMatrix> ScriptIntrinsicColorMatrix::create(sp<RS> rs) {
return new ScriptIntrinsicColorMatrix(rs, Element::RGBA_8888(rs));
}
ScriptIntrinsicColorMatrix::ScriptIntrinsicColorMatrix(sp<RS> rs, sp<const Element> e)
: ScriptIntrinsic(rs, RS_SCRIPT_INTRINSIC_ID_COLOR_MATRIX, e) {
float add[4] = {0.f, 0.f, 0.f, 0.f};
setAdd(add);
}
void ScriptIntrinsicColorMatrix::forEach(sp<Allocation> in, sp<Allocation> out) {
if (!(in->getType()->getElement()->isCompatible(Element::U8(mRS))) &&
!(in->getType()->getElement()->isCompatible(Element::U8_2(mRS))) &&
!(in->getType()->getElement()->isCompatible(Element::U8_3(mRS))) &&
!(in->getType()->getElement()->isCompatible(Element::U8_4(mRS))) &&
!(in->getType()->getElement()->isCompatible(Element::F32(mRS))) &&
!(in->getType()->getElement()->isCompatible(Element::F32_2(mRS))) &&
!(in->getType()->getElement()->isCompatible(Element::F32_3(mRS))) &&
!(in->getType()->getElement()->isCompatible(Element::F32_4(mRS)))) {
mRS->throwError(RS_ERROR_INVALID_ELEMENT, "Invalid element for ColorMatrix");
return;
}
if (!(out->getType()->getElement()->isCompatible(Element::U8(mRS))) &&
!(out->getType()->getElement()->isCompatible(Element::U8_2(mRS))) &&
!(out->getType()->getElement()->isCompatible(Element::U8_3(mRS))) &&
!(out->getType()->getElement()->isCompatible(Element::U8_4(mRS))) &&
!(out->getType()->getElement()->isCompatible(Element::F32(mRS))) &&
!(out->getType()->getElement()->isCompatible(Element::F32_2(mRS))) &&
!(out->getType()->getElement()->isCompatible(Element::F32_3(mRS))) &&
!(out->getType()->getElement()->isCompatible(Element::F32_4(mRS)))) {
mRS->throwError(RS_ERROR_INVALID_ELEMENT, "Invalid element for ColorMatrix");
return;
}
Script::forEach(0, in, out, NULL, 0);
}
void ScriptIntrinsicColorMatrix::setAdd(float* add) {
Script::setVar(1, (void*)add, sizeof(float) * 4);
}
void ScriptIntrinsicColorMatrix::setColorMatrix3(float* m) {
float temp[16];
temp[0] = m[0];
temp[1] = m[1];
temp[2] = m[2];
temp[3] = 0.f;
temp[4] = m[3];
temp[5] = m[4];
temp[6] = m[5];
temp[7] = 0.f;
temp[8] = m[6];
temp[9] = m[7];
temp[10] = m[8];
temp[11] = 0.f;
temp[12] = 0.f;
temp[13] = 0.f;
temp[14] = 0.f;
temp[15] = 1.f;
setColorMatrix4(temp);
}
void ScriptIntrinsicColorMatrix::setColorMatrix4(float* m) {
Script::setVar(0, (void*)m, sizeof(float) * 16);
}
void ScriptIntrinsicColorMatrix::setGreyscale() {
float matrix[] = {0.299f, 0.299f, 0.299f,0.587f,0.587f,0.587f,0.114f,0.114f, 0.114f};
setColorMatrix3(matrix);
}
void ScriptIntrinsicColorMatrix::setRGBtoYUV() {
float matrix[] = { 0.299f, -0.14713f, 0.615f, 0.587f, -0.28886f, -0.51499f, 0.114f, 0.436f, -0.10001f};
setColorMatrix3(matrix);
}
void ScriptIntrinsicColorMatrix::setYUVtoRGB() {
float matrix[] = {1.f, 1.f, 1.f, 0.f, -0.39465f, 2.03211f, 1.13983f, -0.5806f, 0.f};
setColorMatrix3(matrix);
}
sp<ScriptIntrinsicConvolve3x3> ScriptIntrinsicConvolve3x3::create(sp<RS> rs, sp<const Element> e) {
if (!(e->isCompatible(Element::U8(rs))) &&
!(e->isCompatible(Element::U8_2(rs))) &&
!(e->isCompatible(Element::U8_3(rs))) &&
!(e->isCompatible(Element::U8_4(rs))) &&
!(e->isCompatible(Element::F32(rs))) &&
!(e->isCompatible(Element::F32_2(rs))) &&
!(e->isCompatible(Element::F32_3(rs))) &&
!(e->isCompatible(Element::F32_4(rs)))) {
rs->throwError(RS_ERROR_INVALID_ELEMENT, "Invalid element for Convolve3x3");
return NULL;
}
return new ScriptIntrinsicConvolve3x3(rs, e);
}
ScriptIntrinsicConvolve3x3::ScriptIntrinsicConvolve3x3(sp<RS> rs, sp<const Element> e)
: ScriptIntrinsic(rs, RS_SCRIPT_INTRINSIC_ID_CONVOLVE_3x3, e) {
}
void ScriptIntrinsicConvolve3x3::setInput(sp<Allocation> in) {
if (!(in->getType()->getElement()->isCompatible(mElement))) {
mRS->throwError(RS_ERROR_INVALID_ELEMENT, "Element mismatch in Convolve3x3");
return;
}
Script::setVar(1, in);
}
void ScriptIntrinsicConvolve3x3::forEach(sp<Allocation> out) {
if (!(out->getType()->getElement()->isCompatible(mElement))) {
mRS->throwError(RS_ERROR_INVALID_ELEMENT, "Element mismatch in Convolve3x3");
return;
}
Script::forEach(0, NULL, out, NULL, 0);
}
void ScriptIntrinsicConvolve3x3::setCoefficients(float* v) {
Script::setVar(0, (void*)v, sizeof(float) * 9);
}
sp<ScriptIntrinsicConvolve5x5> ScriptIntrinsicConvolve5x5::create(sp<RS> rs, sp<const Element> e) {
if (!(e->isCompatible(Element::U8(rs))) &&
!(e->isCompatible(Element::U8_2(rs))) &&
!(e->isCompatible(Element::U8_3(rs))) &&
!(e->isCompatible(Element::U8_4(rs))) &&
!(e->isCompatible(Element::F32(rs))) &&
!(e->isCompatible(Element::F32_2(rs))) &&
!(e->isCompatible(Element::F32_3(rs))) &&
!(e->isCompatible(Element::F32_4(rs)))) {
rs->throwError(RS_ERROR_INVALID_ELEMENT, "Invalid element for Convolve5x5");
return NULL;
}
return new ScriptIntrinsicConvolve5x5(rs, e);
}
ScriptIntrinsicConvolve5x5::ScriptIntrinsicConvolve5x5(sp<RS> rs, sp<const Element> e)
: ScriptIntrinsic(rs, RS_SCRIPT_INTRINSIC_ID_CONVOLVE_5x5, e) {
}
void ScriptIntrinsicConvolve5x5::setInput(sp<Allocation> in) {
if (!(in->getType()->getElement()->isCompatible(mElement))) {
mRS->throwError(RS_ERROR_INVALID_ELEMENT, "Element mismatch in Convolve5x5 input");
return;
}
Script::setVar(1, in);
}
void ScriptIntrinsicConvolve5x5::forEach(sp<Allocation> out) {
if (!(out->getType()->getElement()->isCompatible(mElement))) {
mRS->throwError(RS_ERROR_INVALID_ELEMENT, "Element mismatch in Convolve5x5 output");
return;
}
Script::forEach(0, NULL, out, NULL, 0);
}
void ScriptIntrinsicConvolve5x5::setCoefficients(float* v) {
Script::setVar(0, (void*)v, sizeof(float) * 25);
}
sp<ScriptIntrinsicHistogram> ScriptIntrinsicHistogram::create(sp<RS> rs) {
return new ScriptIntrinsicHistogram(rs, NULL);
}
ScriptIntrinsicHistogram::ScriptIntrinsicHistogram(sp<RS> rs, sp<const Element> e)
: ScriptIntrinsic(rs, RS_SCRIPT_INTRINSIC_ID_HISTOGRAM, e) {
}
void ScriptIntrinsicHistogram::setOutput(sp<Allocation> out) {
if (!(out->getType()->getElement()->isCompatible(Element::U32(mRS))) &&
!(out->getType()->getElement()->isCompatible(Element::U32_2(mRS))) &&
!(out->getType()->getElement()->isCompatible(Element::U32_3(mRS))) &&
!(out->getType()->getElement()->isCompatible(Element::U32_4(mRS))) &&
!(out->getType()->getElement()->isCompatible(Element::I32(mRS))) &&
!(out->getType()->getElement()->isCompatible(Element::I32_2(mRS))) &&
!(out->getType()->getElement()->isCompatible(Element::I32_3(mRS))) &&
!(out->getType()->getElement()->isCompatible(Element::I32_4(mRS)))) {
mRS->throwError(RS_ERROR_INVALID_ELEMENT, "Invalid element for Histogram output");
return;
}
if (out->getType()->getX() != 256 ||
out->getType()->getY() != 0 ||
out->getType()->hasMipmaps()) {
mRS->throwError(RS_ERROR_INVALID_PARAMETER, "Invalid Allocation type for Histogram output");
return;
}
mOut = out;
Script::setVar(1, out);
}
void ScriptIntrinsicHistogram::setDotCoefficients(float r, float g, float b, float a) {
if ((r < 0.f) || (g < 0.f) || (b < 0.f) || (a < 0.f)) {
return;
}
if ((r + g + b + a) > 1.f) {
return;
}
FieldPacker fp(16);
fp.add(r);
fp.add(g);
fp.add(b);
fp.add(a);
Script::setVar(0, fp.getData(), fp.getLength());
}
void ScriptIntrinsicHistogram::forEach(sp<Allocation> ain) {
if (ain->getType()->getElement()->getVectorSize() <
mOut->getType()->getElement()->getVectorSize()) {
mRS->throwError(RS_ERROR_INVALID_PARAMETER,
"Input vector size must be >= output vector size");
return;
}
if (!(ain->getType()->getElement()->isCompatible(Element::U8(mRS))) ||
!(ain->getType()->getElement()->isCompatible(Element::U8_4(mRS)))) {
mRS->throwError(RS_ERROR_INVALID_ELEMENT,
"Input allocation to Histogram must be U8 or U8_4");
return;
}
Script::forEach(0, ain, NULL, NULL, 0);
}
void ScriptIntrinsicHistogram::forEach_dot(sp<Allocation> ain) {
if (mOut->getType()->getElement()->getVectorSize() != 1) {
mRS->throwError(RS_ERROR_INVALID_PARAMETER,
"Output Histogram allocation must have vector size of 1 " \
"when used with forEach_dot");
return;
}
if (!(ain->getType()->getElement()->isCompatible(Element::U8(mRS))) ||
!(ain->getType()->getElement()->isCompatible(Element::U8_4(mRS)))) {
mRS->throwError(RS_ERROR_INVALID_ELEMENT,
"Input allocation to Histogram must be U8 or U8_4");
return;
}
Script::forEach(1, ain, NULL, NULL, 0);
}
sp<ScriptIntrinsicLUT> ScriptIntrinsicLUT::create(sp<RS> rs, sp<const Element> e) {
if (!(e->isCompatible(Element::U8_4(rs)))) {
rs->throwError(RS_ERROR_INVALID_ELEMENT, "Invalid element for LUT");
return NULL;
}
return new ScriptIntrinsicLUT(rs, e);
}
ScriptIntrinsicLUT::ScriptIntrinsicLUT(sp<RS> rs, sp<const Element> e)
: ScriptIntrinsic(rs, RS_SCRIPT_INTRINSIC_ID_LUT, e), mDirty(true) {
LUT = Allocation::createSized(rs, Element::U8(rs), 1024);
for (int i = 0; i < 256; i++) {
mCache[i] = i;
mCache[i+256] = i;
mCache[i+512] = i;
mCache[i+768] = i;
}
setVar(0, LUT);
}
void ScriptIntrinsicLUT::forEach(sp<Allocation> ain, sp<Allocation> aout) {
if (mDirty) {
LUT->copy1DFrom((void*)mCache);
mDirty = false;
}
if (!(ain->getType()->getElement()->isCompatible(Element::U8_4(mRS))) ||
!(aout->getType()->getElement()->isCompatible(Element::U8_4(mRS)))) {
mRS->throwError(RS_ERROR_INVALID_ELEMENT, "Invalid element for LUT");
return;
}
Script::forEach(0, ain, aout, NULL, 0);
}
void ScriptIntrinsicLUT::setTable(unsigned int offset, unsigned char base, unsigned int length, unsigned char* lutValues) {
if ((base + length) > 256 || length == 0) {
mRS->throwError(RS_ERROR_INVALID_PARAMETER, "LUT out of range");
return;
}
mDirty = true;
for (unsigned int i = 0; i < length; i++) {
mCache[offset + base + i] = lutValues[i];
}
}
void ScriptIntrinsicLUT::setRed(unsigned char base, unsigned int length, unsigned char* lutValues) {
setTable(0, base, length, lutValues);
}
void ScriptIntrinsicLUT::setGreen(unsigned char base, unsigned int length, unsigned char* lutValues) {
setTable(256, base, length, lutValues);
}
void ScriptIntrinsicLUT::setBlue(unsigned char base, unsigned int length, unsigned char* lutValues) {
setTable(512, base, length, lutValues);
}
void ScriptIntrinsicLUT::setAlpha(unsigned char base, unsigned int length, unsigned char* lutValues) {
setTable(768, base, length, lutValues);
}
ScriptIntrinsicLUT::~ScriptIntrinsicLUT() {
}
sp<ScriptIntrinsicYuvToRGB> ScriptIntrinsicYuvToRGB::create(sp<RS> rs, sp<const Element> e) {
if (!(e->isCompatible(Element::U8_4(rs)))) {
rs->throwError(RS_ERROR_INVALID_ELEMENT, "Invalid element for YuvToRGB");
return NULL;
}
return new ScriptIntrinsicYuvToRGB(rs, e);
}
ScriptIntrinsicYuvToRGB::ScriptIntrinsicYuvToRGB(sp<RS> rs, sp<const Element> e)
: ScriptIntrinsic(rs, RS_SCRIPT_INTRINSIC_ID_YUV_TO_RGB, e) {
}
void ScriptIntrinsicYuvToRGB::setInput(sp<Allocation> in) {
if (!(in->getType()->getElement()->isCompatible(Element::YUV(mRS)))) {
mRS->throwError(RS_ERROR_INVALID_ELEMENT, "Invalid element for input in YuvToRGB");
return;
}
Script::setVar(0, in);
}
void ScriptIntrinsicYuvToRGB::forEach(sp<Allocation> out) {
if (!(out->getType()->getElement()->isCompatible(mElement))) {
mRS->throwError(RS_ERROR_INVALID_ELEMENT, "Invalid element for output in YuvToRGB");
return;
}
Script::forEach(0, NULL, out, NULL, 0);
}
sp<ScriptIntrinsicVP9LoopFilter> ScriptIntrinsicVP9LoopFilter::create(sp<RS> rs, sp<const Element> e) {
if (!(e->isCompatible(Element::U8(rs)))) {
rs->throwError(RS_ERROR_INVALID_ELEMENT, "Invalid element for Vp9LoopFilter");
return NULL;
}
return new ScriptIntrinsicVP9LoopFilter(rs, e);
}
ScriptIntrinsicVP9LoopFilter::ScriptIntrinsicVP9LoopFilter(sp<RS> rs, sp<const Element> e)
: ScriptIntrinsic(rs, RS_SCRIPT_INTRINSIC_ID_LOOP_FILTER, e) {
sp<const Type> t_pad = Type::create(rs, e, 1, 0, 0);
mPadAlloc = Allocation::createTyped(rs, t_pad, RS_ALLOCATION_MIPMAP_NONE, RS_ALLOCATION_USAGE_SCRIPT, NULL);
}
void ScriptIntrinsicVP9LoopFilter::setLoopFilterDomain(int start, int stop, int numPlanes, int miRows, int miCols) {
FieldPacker fp(20);
fp.add(start);
fp.add(stop);
fp.add(numPlanes);
fp.add(miRows);
fp.add(miCols);
Script::setVar(0, fp.getData(), fp.getLength());
}
void ScriptIntrinsicVP9LoopFilter::setBufferInfo(const BufferInfo *bufInfo) {
Script::setVar(1, bufInfo, sizeof(BufferInfo));
}
void ScriptIntrinsicVP9LoopFilter::setLoopFilterInfo(sp<Allocation> lfInfo) {
Script::setVar(2, lfInfo);
}
void ScriptIntrinsicVP9LoopFilter::setLoopFilterMasks(sp<Allocation> lfMasks) {
Script::setVar(3, lfMasks);
}
void ScriptIntrinsicVP9LoopFilter::forEach(sp<Allocation> frameBuffer) {
if (!(frameBuffer->getType()->getElement()->isCompatible(mElement))) {
mRS->throwError(RS_ERROR_INVALID_ELEMENT, "Invalid element for input/output in Vp9LoopFilter");
return;
}
Script::setVar(4, frameBuffer);
Script::forEach(0, mPadAlloc, NULL, NULL, 0);
}