/* * Copyright (C) 2013 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 "rsCpuIntrinsic.h" #include "rsCpuIntrinsicInlines.h" #ifdef RS_COMPATIBILITY_LIB #include "rsCompatibilityLib.h" #endif #ifndef RS_COMPATIBILITY_LIB #include "hardware/gralloc.h" #endif using namespace android; using namespace android::renderscript; namespace android { namespace renderscript { class RsdCpuScriptIntrinsicYuvToRGB : public RsdCpuScriptIntrinsic { public: virtual void populateScript(Script *); virtual void invokeFreeChildren(); virtual void setGlobalObj(uint32_t slot, ObjectBase *data); virtual ~RsdCpuScriptIntrinsicYuvToRGB(); RsdCpuScriptIntrinsicYuvToRGB(RsdCpuReferenceImpl *ctx, const Script *s, const Element *e); protected: ObjectBaseRef alloc; static void kernel(const RsForEachStubParamStruct *p, uint32_t xstart, uint32_t xend, uint32_t instep, uint32_t outstep); }; } } void RsdCpuScriptIntrinsicYuvToRGB::setGlobalObj(uint32_t slot, ObjectBase *data) { rsAssert(slot == 0); alloc.set(static_cast(data)); } static uchar4 rsYuvToRGBA_uchar4(uchar y, uchar u, uchar v) { short Y = ((short)y) - 16; short U = ((short)u) - 128; short V = ((short)v) - 128; short4 p; p.x = (Y * 298 + V * 409 + 128) >> 8; p.y = (Y * 298 - U * 100 - V * 208 + 128) >> 8; p.z = (Y * 298 + U * 516 + 128) >> 8; p.w = 255; if(p.x < 0) { p.x = 0; } if(p.x > 255) { p.x = 255; } if(p.y < 0) { p.y = 0; } if(p.y > 255) { p.y = 255; } if(p.z < 0) { p.z = 0; } if(p.z > 255) { p.z = 255; } return (uchar4){p.x, p.y, p.z, p.w}; } static short YuvCoeff[] = { 298, 409, -100, 516, -208, 255, 0, 0, 16, 16, 16, 16, 16, 16, 16, 16, 128, 128, 128, 128, 128, 128, 128, 128, 298, 298, 298, 298, 298, 298, 298, 298, 255, 255, 255, 255, 255, 255, 255, 255 }; extern "C" void rsdIntrinsicYuv_K(void *dst, const uchar *Y, const uchar *uv, uint32_t count, const short *param); extern "C" void rsdIntrinsicYuvR_K(void *dst, const uchar *Y, const uchar *uv, uint32_t count, const short *param); extern "C" void rsdIntrinsicYuv2_K(void *dst, const uchar *Y, const uchar *u, const uchar *v, uint32_t count, const short *param); void RsdCpuScriptIntrinsicYuvToRGB::kernel(const RsForEachStubParamStruct *p, uint32_t xstart, uint32_t xend, uint32_t instep, uint32_t outstep) { RsdCpuScriptIntrinsicYuvToRGB *cp = (RsdCpuScriptIntrinsicYuvToRGB *)p->usr; if (!cp->alloc.get()) { ALOGE("YuvToRGB executed without input, skipping"); return; } const uchar *pinY = (const uchar *)cp->alloc->mHal.drvState.lod[0].mallocPtr; if (pinY == NULL) { ALOGE("YuvToRGB executed without data, skipping"); return; } size_t strideY = cp->alloc->mHal.drvState.lod[0].stride; // calculate correct stride in legacy case if (cp->alloc->mHal.drvState.lod[0].dimY == 0) { strideY = p->dimX; } const uchar *Y = pinY + (p->y * strideY); uchar4 *out = (uchar4 *)p->out; uint32_t x1 = xstart; uint32_t x2 = xend; size_t cstep = cp->alloc->mHal.drvState.yuv.step; const uchar *pinU = (const uchar *)cp->alloc->mHal.drvState.lod[1].mallocPtr; const size_t strideU = cp->alloc->mHal.drvState.lod[1].stride; const uchar *u = pinU + ((p->y >> 1) * strideU); const uchar *pinV = (const uchar *)cp->alloc->mHal.drvState.lod[2].mallocPtr; const size_t strideV = cp->alloc->mHal.drvState.lod[2].stride; const uchar *v = pinV + ((p->y >> 1) * strideV); //ALOGE("pinY, %p, Y, %p, p->y, %d, strideY, %d", pinY, Y, p->y, strideY); //ALOGE("pinU, %p, U, %p, p->y, %d, strideU, %d", pinU, u, p->y, strideU); //ALOGE("pinV, %p, V, %p, p->y, %d, strideV, %d", pinV, v, p->y, strideV); //ALOGE("dimX, %d, dimY, %d", cp->alloc->mHal.drvState.lod[0].dimX, cp->alloc->mHal.drvState.lod[0].dimY); //ALOGE("p->dimX, %d, p->dimY, %d", p->dimX, p->dimY); if (pinU == NULL) { // Legacy yuv support didn't fill in uv v = ((uint8_t *)cp->alloc->mHal.drvState.lod[0].mallocPtr) + (strideY * p->dimY) + ((p->y >> 1) * strideY); u = v + 1; cstep = 2; } #if defined(ARCH_ARM_HAVE_VFP) if((x2 > x1) && gArchUseSIMD) { // The neon paths may over-read by up to 8 bytes int32_t len = (x2 - x1 - 8) >> 3; if(len > 0) { if (cstep == 1) { rsdIntrinsicYuv2_K(out, Y, u, v, len, YuvCoeff); x1 += len << 3; out += len << 3; } else if (cstep == 2) { // Check for proper interleave intptr_t ipu = (intptr_t)u; intptr_t ipv = (intptr_t)v; if (ipu == (ipv + 1)) { rsdIntrinsicYuv_K(out, Y, v, len, YuvCoeff); x1 += len << 3; out += len << 3; } else if (ipu == (ipv - 1)) { rsdIntrinsicYuvR_K(out, Y, u, len, YuvCoeff); x1 += len << 3; out += len << 3; } } } } #endif if(x2 > x1) { // ALOGE("y %i %i %i", p->y, x1, x2); while(x1 < x2) { int cx = (x1 >> 1) * cstep; *out = rsYuvToRGBA_uchar4(Y[x1], u[cx], v[cx]); out++; x1++; *out = rsYuvToRGBA_uchar4(Y[x1], u[cx], v[cx]); out++; x1++; } } } RsdCpuScriptIntrinsicYuvToRGB::RsdCpuScriptIntrinsicYuvToRGB( RsdCpuReferenceImpl *ctx, const Script *s, const Element *e) : RsdCpuScriptIntrinsic(ctx, s, e, RS_SCRIPT_INTRINSIC_ID_YUV_TO_RGB) { mRootPtr = &kernel; } RsdCpuScriptIntrinsicYuvToRGB::~RsdCpuScriptIntrinsicYuvToRGB() { } void RsdCpuScriptIntrinsicYuvToRGB::populateScript(Script *s) { s->mHal.info.exportedVariableCount = 1; } void RsdCpuScriptIntrinsicYuvToRGB::invokeFreeChildren() { alloc.clear(); } RsdCpuScriptImpl * rsdIntrinsic_YuvToRGB(RsdCpuReferenceImpl *ctx, const Script *s, const Element *e) { return new RsdCpuScriptIntrinsicYuvToRGB(ctx, s, e); }