/* * Copyright (C) 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 "rsScriptGroup.h" #include "rsContext.h" // TODO: Is this header needed here? #include "rsScriptGroup2.h" #include <algorithm> #include <time.h> using namespace android; using namespace android::renderscript; ScriptGroup::ScriptGroup(Context *rsc) : ScriptGroupBase(rsc) { } ScriptGroup::~ScriptGroup() { if (mRSC->mHal.funcs.scriptgroup.destroy) { mRSC->mHal.funcs.scriptgroup.destroy(mRSC, this); } for (size_t ct=0; ct < mLinks.size(); ct++) { delete mLinks[ct]; } for (auto input : mInputs) { input->mAlloc.clear(); } for (auto output : mOutputs) { output->mAlloc.clear(); } } ScriptGroup::IO::IO(const ScriptKernelID *kid) { mKernel = kid; } ScriptGroup::Node::Node(Script *s) { mScript = s; mSeen = false; mOrder = 0; } ScriptGroup::Node * ScriptGroup::findNode(Script *s) const { //ALOGE("find %p %i", s, (int)mNodes.size()); for (size_t ct=0; ct < mNodes.size(); ct++) { Node *n = mNodes[ct]; for (size_t ct2=0; ct2 < n->mKernels.size(); ct2++) { if (n->mKernels[ct2]->mScript == s) { return n; } } } return nullptr; } bool ScriptGroup::calcOrderRecurse(Node *n, int depth) { n->mSeen = true; if (n->mOrder < depth) { n->mOrder = depth; } bool ret = true; for (size_t ct=0; ct < n->mOutputs.size(); ct++) { const Link *l = n->mOutputs[ct]; Node *nt = NULL; if (l->mDstField.get()) { nt = findNode(l->mDstField->mScript); } else { nt = findNode(l->mDstKernel->mScript); } if (nt->mSeen) { return false; } ret &= calcOrderRecurse(nt, n->mOrder + 1); } return ret; } #if !defined(RS_SERVER) && !defined(RS_COMPATIBILITY_LIB) static int CompareNodeForSort(ScriptGroup::Node *const* lhs, ScriptGroup::Node *const* rhs) { if (lhs[0]->mOrder > rhs[0]->mOrder) { return 1; } return 0; } #else class NodeCompare { public: bool operator() (const ScriptGroup::Node* lhs, const ScriptGroup::Node* rhs) { if (lhs->mOrder > rhs->mOrder) { return true; } return false; } }; #endif bool ScriptGroup::calcOrder() { // Make nodes for (size_t ct=0; ct < mKernels.size(); ct++) { const ScriptKernelID *k = mKernels[ct].get(); //ALOGE(" kernel %i, %p s=%p", (int)ct, k, mKernels[ct]->mScript); Node *n = findNode(k->mScript); //ALOGE(" n = %p", n); if (n == NULL) { n = new Node(k->mScript); mNodes.add(n); } n->mKernels.add(k); } // add links //ALOGE("link count %i", (int)mLinks.size()); for (size_t ct=0; ct < mLinks.size(); ct++) { Link *l = mLinks[ct]; //ALOGE("link %i %p", (int)ct, l); Node *n = findNode(l->mSource->mScript); //ALOGE("link n %p", n); n->mOutputs.add(l); if (l->mDstKernel.get()) { //ALOGE("l->mDstKernel.get() %p", l->mDstKernel.get()); n = findNode(l->mDstKernel->mScript); //ALOGE(" n1 %p", n); n->mInputs.add(l); } else { n = findNode(l->mDstField->mScript); //ALOGE(" n2 %p", n); n->mInputs.add(l); } } //ALOGE("node count %i", (int)mNodes.size()); // Order nodes bool ret = true; for (size_t ct=0; ct < mNodes.size(); ct++) { Node *n = mNodes[ct]; if (n->mInputs.size() == 0) { for (size_t ct2=0; ct2 < mNodes.size(); ct2++) { mNodes[ct2]->mSeen = false; } ret &= calcOrderRecurse(n, 0); } } for (size_t ct=0; ct < mKernels.size(); ct++) { const ScriptKernelID *k = mKernels[ct].get(); const Node *n = findNode(k->mScript); if (k->mHasKernelOutput) { bool found = false; for (size_t ct2=0; ct2 < n->mOutputs.size(); ct2++) { if (n->mOutputs[ct2]->mSource.get() == k) { found = true; break; } } if (!found) { //ALOGE("add io out %p", k); mOutputs.add(new IO(k)); } } if (k->mHasKernelInput) { bool found = false; for (size_t ct2=0; ct2 < n->mInputs.size(); ct2++) { if (n->mInputs[ct2]->mDstKernel.get() == k) { found = true; break; } } if (!found) { //ALOGE("add io in %p", k); mInputs.add(new IO(k)); } } } // sort #if !defined(RS_SERVER) && !defined(RS_COMPATIBILITY_LIB) mNodes.sort(&CompareNodeForSort); #else std::sort(mNodes.begin(), mNodes.end(), NodeCompare()); #endif return ret; } ScriptGroup * ScriptGroup::create(Context *rsc, ScriptKernelID ** kernels, size_t kernelsSize, ScriptKernelID ** src, size_t srcSize, ScriptKernelID ** dstK, size_t dstKSize, ScriptFieldID ** dstF, size_t dstFSize, const Type ** type, size_t typeSize) { size_t kernelCount = kernelsSize / sizeof(ScriptKernelID *); size_t linkCount = typeSize / sizeof(Type *); //ALOGE("ScriptGroup::create kernels=%i links=%i", (int)kernelCount, (int)linkCount); // Start by counting unique kernel sources ScriptGroup *sg = new ScriptGroup(rsc); sg->mKernels.reserve(kernelCount); for (size_t ct=0; ct < kernelCount; ct++) { sg->mKernels.add(kernels[ct]); } sg->mLinks.reserve(linkCount); for (size_t ct=0; ct < linkCount; ct++) { Link *l = new Link(); l->mType = type[ct]; l->mSource = src[ct]; l->mDstField = dstF[ct]; l->mDstKernel = dstK[ct]; sg->mLinks.add(l); } sg->calcOrder(); // allocate links for (size_t ct=0; ct < sg->mNodes.size(); ct++) { const Node *n = sg->mNodes[ct]; for (size_t ct2=0; ct2 < n->mOutputs.size(); ct2++) { Link *l = n->mOutputs[ct2]; if (l->mAlloc.get()) { continue; } const ScriptKernelID *k = l->mSource.get(); Allocation * alloc = Allocation::createAllocation(rsc, l->mType.get(), RS_ALLOCATION_USAGE_SCRIPT); l->mAlloc = alloc; for (size_t ct3=ct2+1; ct3 < n->mOutputs.size(); ct3++) { if (n->mOutputs[ct3]->mSource.get() == l->mSource.get()) { n->mOutputs[ct3]->mAlloc = alloc; } } } } if (rsc->mHal.funcs.scriptgroup.init) { rsc->mHal.funcs.scriptgroup.init(rsc, sg); } sg->incUserRef(); return sg; } void ScriptGroup::setInput(Context *rsc, ScriptKernelID *kid, Allocation *a) { for (size_t ct=0; ct < mInputs.size(); ct++) { if (mInputs[ct]->mKernel == kid) { mInputs[ct]->mAlloc = a; if (rsc->mHal.funcs.scriptgroup.setInput) { rsc->mHal.funcs.scriptgroup.setInput(rsc, this, kid, a); } return; } } rsAssert(!"ScriptGroup:setInput kid not found"); } void ScriptGroup::setOutput(Context *rsc, ScriptKernelID *kid, Allocation *a) { for (size_t ct=0; ct < mOutputs.size(); ct++) { if (mOutputs[ct]->mKernel == kid) { mOutputs[ct]->mAlloc = a; if (rsc->mHal.funcs.scriptgroup.setOutput) { rsc->mHal.funcs.scriptgroup.setOutput(rsc, this, kid, a); } return; } } rsAssert(!"ScriptGroup:setOutput kid not found"); } bool ScriptGroup::validateInputAndOutput(Context *rsc) { for(size_t i = 0; i < mInputs.size(); i++) { if (mInputs[i]->mAlloc.get() == nullptr) { rsc->setError(RS_ERROR_BAD_VALUE, "ScriptGroup missing input."); return false; } } for(size_t i = 0; i < mOutputs.size(); i++) { if (mOutputs[i]->mAlloc.get() == nullptr) { rsc->setError(RS_ERROR_BAD_VALUE, "ScriptGroup missing output."); return false; } } return true; } void ScriptGroup::execute(Context *rsc) { if (!validateInputAndOutput(rsc)) { return; } if (rsc->mHal.funcs.scriptgroup.execute) { rsc->mHal.funcs.scriptgroup.execute(rsc, this); return; } for (size_t ct=0; ct < mNodes.size(); ct++) { Node *n = mNodes[ct]; //ALOGE("node %i, order %i, in %i out %i", (int)ct, n->mOrder, (int)n->mInputs.size(), (int)n->mOutputs.size()); for (size_t ct2=0; ct2 < n->mKernels.size(); ct2++) { const ScriptKernelID *k = n->mKernels[ct2]; Allocation *ain = NULL; Allocation *aout = NULL; for (size_t ct3=0; ct3 < n->mInputs.size(); ct3++) { if (n->mInputs[ct3]->mDstKernel.get() == k) { ain = n->mInputs[ct3]->mAlloc.get(); //ALOGE(" link in %p", ain); } } for (size_t ct3=0; ct3 < mInputs.size(); ct3++) { if (mInputs[ct3]->mKernel == k) { ain = mInputs[ct3]->mAlloc.get(); //ALOGE(" io in %p", ain); } } for (size_t ct3=0; ct3 < n->mOutputs.size(); ct3++) { if (n->mOutputs[ct3]->mSource.get() == k) { aout = n->mOutputs[ct3]->mAlloc.get(); //ALOGE(" link out %p", aout); } } for (size_t ct3=0; ct3 < mOutputs.size(); ct3++) { if (mOutputs[ct3]->mKernel == k) { aout = mOutputs[ct3]->mAlloc.get(); //ALOGE(" io out %p", aout); } } if (ain == NULL) { n->mScript->runForEach(rsc, k->mSlot, NULL, 0, aout, NULL, 0); } else { const Allocation *ains[1] = {ain}; n->mScript->runForEach(rsc, k->mSlot, ains, sizeof(ains) / sizeof(RsAllocation), aout, NULL, 0); } } } } ScriptGroup::Link::Link() { } ScriptGroup::Link::~Link() { } namespace android { namespace renderscript { RsScriptGroup rsi_ScriptGroupCreate(Context *rsc, RsScriptKernelID * kernels, size_t kernelsSize, RsScriptKernelID * src, size_t srcSize, RsScriptKernelID * dstK, size_t dstKSize, RsScriptFieldID * dstF, size_t dstFSize, const RsType * type, size_t typeSize) { return ScriptGroup::create(rsc, (ScriptKernelID **) kernels, kernelsSize, (ScriptKernelID **) src, srcSize, (ScriptKernelID **) dstK, dstKSize, (ScriptFieldID **) dstF, dstFSize, (const Type **) type, typeSize); } void rsi_ScriptGroupSetInput(Context *rsc, RsScriptGroup sg, RsScriptKernelID kid, RsAllocation alloc) { //ALOGE("rsi_ScriptGroupSetInput"); ScriptGroup *s = (ScriptGroup *)sg; s->setInput(rsc, (ScriptKernelID *)kid, (Allocation *)alloc); } void rsi_ScriptGroupSetOutput(Context *rsc, RsScriptGroup sg, RsScriptKernelID kid, RsAllocation alloc) { //ALOGE("rsi_ScriptGroupSetOutput"); ScriptGroup *s = (ScriptGroup *)sg; s->setOutput(rsc, (ScriptKernelID *)kid, (Allocation *)alloc); } void rsi_ScriptGroupExecute(Context *rsc, RsScriptGroup sg) { ScriptGroupBase *s = (ScriptGroupBase *)sg; s->execute(rsc); } } }