/* * Copyright (C) 2009 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 "rsContext.h" using namespace android; using namespace android::renderscript; Element::Element(Context *rsc) : ObjectBase(rsc) { mBits = 0; mBitsUnpadded = 0; mFields = nullptr; mFieldCount = 0; mHasReference = false; memset(&mHal, 0, sizeof(mHal)); } Element::~Element() { clear(); } void Element::operator delete(void* ptr) { if (ptr) { Element *e = (Element*) ptr; e->getContext()->mHal.funcs.freeRuntimeMem(ptr); } } void Element::preDestroy() const { for (uint32_t ct = 0; ct < mRSC->mStateElement.mElements.size(); ct++) { if (mRSC->mStateElement.mElements[ct] == this) { mRSC->mStateElement.mElements.removeAt(ct); break; } } } void Element::clear() { if (mFields) { for (size_t i = 0; i < mFieldCount; i++) { delete[] mFields[i].name; } delete [] mFields; } mFields = nullptr; mFieldCount = 0; mHasReference = false; delete [] mHal.state.fields; delete [] mHal.state.fieldArraySizes; delete [] mHal.state.fieldNames; delete [] mHal.state.fieldNameLengths; delete [] mHal.state.fieldOffsetBytes; } size_t Element::getSizeBits() const { if (!mFieldCount) { return mBits; } size_t total = 0; for (size_t ct=0; ct < mFieldCount; ct++) { total += mFields[ct].e->mBits * mFields[ct].arraySize; } return total; } size_t Element::getSizeBitsUnpadded() const { if (!mFieldCount) { return mBitsUnpadded; } size_t total = 0; for (size_t ct=0; ct < mFieldCount; ct++) { total += mFields[ct].e->mBitsUnpadded * mFields[ct].arraySize; } return total; } void Element::dumpLOGV(const char *prefix) const { ObjectBase::dumpLOGV(prefix); ALOGV("%s Element: fieldCount: %zu, size bytes: %zu", prefix, mFieldCount, getSizeBytes()); mComponent.dumpLOGV(prefix); for (uint32_t ct = 0; ct < mFieldCount; ct++) { ALOGV("%s Element field index: %u ------------------", prefix, ct); ALOGV("%s name: %s, offsetBits: %u, arraySize: %u", prefix, mFields[ct].name, mFields[ct].offsetBits, mFields[ct].arraySize); mFields[ct].e->dumpLOGV(prefix); } } void Element::serialize(Context *rsc, OStream *stream) const { // Need to identify ourselves stream->addU32((uint32_t)getClassId()); stream->addString(getName()); mComponent.serialize(stream); // Now serialize all the fields stream->addU32(mFieldCount); for (uint32_t ct = 0; ct < mFieldCount; ct++) { stream->addString(mFields[ct].name); stream->addU32(mFields[ct].arraySize); mFields[ct].e->serialize(rsc, stream); } } Element *Element::createFromStream(Context *rsc, IStream *stream) { // First make sure we are reading the correct object RsA3DClassID classID = (RsA3DClassID)stream->loadU32(); if (classID != RS_A3D_CLASS_ID_ELEMENT) { ALOGE("element loading skipped due to invalid class id\n"); return nullptr; } const char *name = stream->loadString(); Component component; component.loadFromStream(stream); uint32_t fieldCount = stream->loadU32(); if (!fieldCount) { return (Element *)Element::create(rsc, component.getType(), component.getKind(), component.getIsNormalized(), component.getVectorSize()); } const Element **subElems = new const Element *[fieldCount]; const char **subElemNames = new const char *[fieldCount]; size_t *subElemNamesLengths = new size_t[fieldCount]; uint32_t *arraySizes = new uint32_t[fieldCount]; for (uint32_t ct = 0; ct < fieldCount; ct ++) { subElemNames[ct] = stream->loadString(); subElemNamesLengths[ct] = strlen(subElemNames[ct]); arraySizes[ct] = stream->loadU32(); subElems[ct] = Element::createFromStream(rsc, stream); } const Element *elem = Element::create(rsc, fieldCount, subElems, subElemNames, subElemNamesLengths, arraySizes); for (uint32_t ct = 0; ct < fieldCount; ct ++) { delete [] subElemNames[ct]; subElems[ct]->decUserRef(); } delete[] name; delete[] subElems; delete[] subElemNames; delete[] subElemNamesLengths; delete[] arraySizes; return (Element *)elem; } void Element::compute() { mHal.state.dataType = mComponent.getType(); mHal.state.dataKind = mComponent.getKind(); mHal.state.vectorSize = mComponent.getVectorSize(); if (mFieldCount == 0) { mBits = mComponent.getBits(); mBitsUnpadded = mComponent.getBitsUnpadded(); mHasReference = mComponent.isReference(); mHal.state.elementSizeBytes = getSizeBytes(); return; } uint32_t noPaddingFieldCount = 0; for (uint32_t ct = 0; ct < mFieldCount; ct ++) { if (mFields[ct].name[0] != '#') { noPaddingFieldCount ++; } } mHal.state.fields = new const Element*[noPaddingFieldCount]; mHal.state.fieldArraySizes = new uint32_t[noPaddingFieldCount]; mHal.state.fieldNames = new const char*[noPaddingFieldCount]; mHal.state.fieldNameLengths = new uint32_t[noPaddingFieldCount]; mHal.state.fieldOffsetBytes = new uint32_t[noPaddingFieldCount]; mHal.state.fieldsCount = noPaddingFieldCount; size_t bits = 0; size_t bitsUnpadded = 0; for (size_t ct = 0, ctNoPadding = 0; ct < mFieldCount; ct++) { mFields[ct].offsetBits = bits; mFields[ct].offsetBitsUnpadded = bitsUnpadded; bits += mFields[ct].e->getSizeBits() * mFields[ct].arraySize; bitsUnpadded += mFields[ct].e->getSizeBitsUnpadded() * mFields[ct].arraySize; if (mFields[ct].e->mHasReference) { mHasReference = true; } if (mFields[ct].name[0] == '#') { continue; } mHal.state.fields[ctNoPadding] = mFields[ct].e.get(); mHal.state.fieldArraySizes[ctNoPadding] = mFields[ct].arraySize; mHal.state.fieldNames[ctNoPadding] = mFields[ct].name; mHal.state.fieldNameLengths[ctNoPadding] = strlen(mFields[ct].name) + 1; // to include 0 mHal.state.fieldOffsetBytes[ctNoPadding] = mFields[ct].offsetBits >> 3; ctNoPadding ++; } mHal.state.elementSizeBytes = getSizeBytes(); } ObjectBaseRef Element::createRef(Context *rsc, RsDataType dt, RsDataKind dk, bool isNorm, uint32_t vecSize) { ObjectBaseRef returnRef; // Look for an existing match. ObjectBase::asyncLock(); for (uint32_t ct=0; ct < rsc->mStateElement.mElements.size(); ct++) { const Element *ee = rsc->mStateElement.mElements[ct]; if (!ee->getFieldCount() && (ee->getComponent().getType() == dt) && (ee->getComponent().getKind() == dk) && (ee->getComponent().getIsNormalized() == isNorm) && (ee->getComponent().getVectorSize() == vecSize)) { // Match returnRef.set(ee); ObjectBase::asyncUnlock(); return ee; } } ObjectBase::asyncUnlock(); // Element objects must use allocator specified by the driver void* allocMem = rsc->mHal.funcs.allocRuntimeMem(sizeof(Element), 0); if (!allocMem) { rsc->setError(RS_ERROR_FATAL_DRIVER, "Couldn't allocate memory for Element"); return nullptr; } Element *e = new (allocMem) Element(rsc); returnRef.set(e); e->mComponent.set(dt, dk, isNorm, vecSize); e->compute(); #ifdef RS_FIND_OFFSETS ALOGE("pointer for element: %p", e); ALOGE("pointer for element.drv: %p", &e->mHal.drv); #endif ObjectBase::asyncLock(); rsc->mStateElement.mElements.push(e); ObjectBase::asyncUnlock(); return returnRef; } ObjectBaseRef Element::createRef(Context *rsc, size_t count, const Element **ein, const char **nin, const size_t * lengths, const uint32_t *asin) { ObjectBaseRef returnRef; // Look for an existing match. ObjectBase::asyncLock(); for (uint32_t ct=0; ct < rsc->mStateElement.mElements.size(); ct++) { const Element *ee = rsc->mStateElement.mElements[ct]; if (ee->getFieldCount() == count) { bool match = true; for (uint32_t i=0; i < count; i++) { size_t len; uint32_t asize = 1; if (lengths) { len = lengths[i]; } else { len = strlen(nin[i]); } if (asin) { asize = asin[i]; } if ((ee->mFields[i].e.get() != ein[i]) || (strlen(ee->mFields[i].name) != len) || strcmp(ee->mFields[i].name, nin[i]) || (ee->mFields[i].arraySize != asize)) { match = false; break; } } if (match) { returnRef.set(ee); ObjectBase::asyncUnlock(); return returnRef; } } } ObjectBase::asyncUnlock(); // Element objects must use allocator specified by the driver void* allocMem = rsc->mHal.funcs.allocRuntimeMem(sizeof(Element), 0); if (!allocMem) { rsc->setError(RS_ERROR_FATAL_DRIVER, "Couldn't allocate memory for Element"); return nullptr; } Element *e = new (allocMem) Element(rsc); returnRef.set(e); e->mFields = new ElementField_t [count]; e->mFieldCount = count; for (size_t ct=0; ct < count; ct++) { size_t len; uint32_t asize = 1; if (lengths) { len = lengths[ct]; } else { len = strlen(nin[ct]); } if (asin) { asize = asin[ct]; } e->mFields[ct].e.set(ein[ct]); e->mFields[ct].name = rsuCopyString(nin[ct], len); e->mFields[ct].arraySize = asize; } e->compute(); ObjectBase::asyncLock(); rsc->mStateElement.mElements.push(e); ObjectBase::asyncUnlock(); return returnRef; } void Element::incRefs(const void *ptr) const { if (!mFieldCount) { if (mComponent.isReference()) { ObjectBase *const*obp = static_cast(ptr); ObjectBase *ob = obp[0]; if (ob) ob->incSysRef(); } return; } const uint8_t *p = static_cast(ptr); for (uint32_t i=0; i < mFieldCount; i++) { if (mFields[i].e->mHasReference) { const uint8_t *p2 = &p[mFields[i].offsetBits >> 3]; for (uint32_t ct=0; ct < mFields[i].arraySize; ct++) { mFields[i].e->incRefs(p2); p2 += mFields[i].e->getSizeBytes(); } } } } void Element::decRefs(const void *ptr) const { if (!mFieldCount) { if (mComponent.isReference()) { ObjectBase *const*obp = static_cast(ptr); ObjectBase *ob = obp[0]; if (ob) ob->decSysRef(); } return; } const uint8_t *p = static_cast(ptr); for (uint32_t i=0; i < mFieldCount; i++) { if (mFields[i].e->mHasReference) { const uint8_t *p2 = &p[mFields[i].offsetBits >> 3]; for (uint32_t ct=0; ct < mFields[i].arraySize; ct++) { mFields[i].e->decRefs(p2); p2 += mFields[i].e->getSizeBytes(); } } } } void Element::callUpdateCacheObject(const Context *rsc, void *dstObj) const { if (rsc->mHal.funcs.element.updateCachedObject != nullptr) { rsc->mHal.funcs.element.updateCachedObject(rsc, this, (rs_element *)dstObj); } else { *((const void **)dstObj) = this; } } ElementState::ElementState() { } ElementState::~ElementState() { rsAssert(!mElements.size()); } ///////////////////////////////////////// // namespace android { namespace renderscript { RsElement rsi_ElementCreate(Context *rsc, RsDataType dt, RsDataKind dk, bool norm, uint32_t vecSize) { return (RsElement)Element::create(rsc, dt, dk, norm, vecSize); } RsElement rsi_ElementCreate2(Context *rsc, const RsElement * ein, size_t ein_length, const char ** names, size_t nameLengths_length, const size_t * nameLengths, const uint32_t * arraySizes, size_t arraySizes_length) { return (RsElement)Element::create(rsc, ein_length, (const Element **)ein, names, nameLengths, arraySizes); } } } extern "C" void rsaElementGetNativeData(RsContext con, RsElement elem, uint32_t *elemData, uint32_t elemDataSize) { rsAssert(elemDataSize == 5); // we will pack mType; mKind; mNormalized; mVectorSize; NumSubElements Element *e = static_cast(elem); (*elemData++) = (uint32_t)e->getType(); (*elemData++) = (uint32_t)e->getKind(); (*elemData++) = e->getComponent().getIsNormalized() ? 1 : 0; (*elemData++) = e->getComponent().getVectorSize(); (*elemData++) = e->getFieldCount(); } extern "C" void rsaElementGetSubElements(RsContext con, RsElement elem, uintptr_t *ids, const char **names, size_t *arraySizes, uint32_t dataSize) { Element *e = static_cast(elem); rsAssert(e->getFieldCount() == dataSize); for (uint32_t i = 0; i < dataSize; i ++) { e->getField(i)->incUserRef(); ids[i] = (uintptr_t)e->getField(i); names[i] = e->getFieldName(i); arraySizes[i] = e->getFieldArraySize(i); } }