/* * Copyright (C) 2017 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. */ #define LOG_TAG "GraphDump" #include "GraphDump.h" #include "HalInterfaces.h" #include #include #include #include #include #include #include namespace android { namespace nn { using namespace hal; // class Dumper is a wrapper around an std::ostream (if instantiated // with a pointer to a stream) or around LOG(INFO) (otherwise). // // Send fragments of output to it with operator<<(), as per usual // stream conventions. Unlike with LOG(INFO), there is no implicit // end-of-line. To end a line, send Dumper::endl. // // Example: // // Dumper d(nullptr); // will go to LOG(INFO) // d << "These words are"; // d << " all" << " on"; // d << " the same line." << Dumper::endl; // namespace { class Dumper { public: Dumper(std::ostream* outStream) : mStream(outStream) {} Dumper(const Dumper&) = delete; void operator=(const Dumper&) = delete; template Dumper& operator<<(const T& val) { mStringStream << val; return *this; } class EndlType {}; Dumper& operator<<(EndlType) { if (mStream) { *mStream << mStringStream.str() << std::endl; } else { // TODO: There is a limit of how long a single LOG line // can be; extra characters are truncated. (See // LOGGER_ENTRY_MAX_PAYLOAD and LOGGER_ENTRY_MAX_LEN.) We // may want to figure out the linebreak rules for the .dot // format and try to ensure that we generate correct .dot // output whose lines do not exceed some maximum length. // The intelligence for breaking the lines might have to // live in graphDump() rather than in the Dumper class, so // that it can be sensitive to the .dot format. LOG(INFO) << mStringStream.str(); } std::ostringstream empty; std::swap(mStringStream, empty); return *this; } static const EndlType endl; private: std::ostream* mStream; std::ostringstream mStringStream; }; const Dumper::EndlType Dumper::endl; } // namespace // Provide short name for OperandType value. static std::string translate(OperandType type) { switch (type) { case OperandType::FLOAT32: return "F32"; case OperandType::INT32: return "I32"; case OperandType::UINT32: return "U32"; case OperandType::TENSOR_FLOAT32: return "TF32"; case OperandType::TENSOR_INT32: return "TI32"; case OperandType::TENSOR_QUANT8_ASYMM: return "TQ8A"; case OperandType::OEM: return "OEM"; case OperandType::TENSOR_OEM_BYTE: return "TOEMB"; default: return toString(type); } } // If the specified Operand of the specified Model has OperandType // nnType corresponding to C++ type cppType and is of // OperandLifeTime::CONSTANT_COPY, then write the Operand's value to // the Dumper. namespace { template void tryValueDump(Dumper& dump, const Model& model, const Operand& opnd) { if (opnd.type != nnType || opnd.lifetime != OperandLifeTime::CONSTANT_COPY || opnd.location.length != sizeof(cppType)) { return; } cppType val; memcpy(&val, &model.operandValues[opnd.location.offset], sizeof(cppType)); dump << " = " << val; } } // namespace void graphDump(const char* name, const Model& model, std::ostream* outStream) { // Operand nodes are named "d" (operanD) followed by operand index. // Operation nodes are named "n" (operatioN) followed by operation index. // (These names are not the names that are actually displayed -- those // names are given by the "label" attribute.) Dumper dump(outStream); dump << "// " << name << Dumper::endl; dump << "digraph {" << Dumper::endl; // model inputs and outputs (map from operand index to input or output index) std::map modelIO; for (unsigned i = 0, e = model.main.inputIndexes.size(); i < e; i++) { modelIO.emplace(model.main.inputIndexes[i], i); } for (unsigned i = 0, e = model.main.outputIndexes.size(); i < e; i++) { modelIO.emplace(model.main.outputIndexes[i], i); } // TODO(b/147661714): Add subgraph support to GraphDump. if (model.referenced.size() != 0) { dump << "// NOTE: " << model.referenced.size() << " subgraphs omitted" << Dumper::endl; dump << "// TODO(b/147661714): Add subgraph support to GraphDump" << Dumper::endl; } // model operands for (unsigned i = 0, e = model.main.operands.size(); i < e; i++) { dump << " d" << i << " ["; if (modelIO.count(i)) { dump << "style=filled fillcolor=black fontcolor=white "; } dump << "label=\""; const Operand& opnd = model.main.operands[i]; const char* kind = nullptr; const char* io = nullptr; switch (opnd.lifetime) { case OperandLifeTime::CONSTANT_COPY: kind = "COPY"; break; case OperandLifeTime::CONSTANT_REFERENCE: kind = "REF"; break; case OperandLifeTime::SUBGRAPH_INPUT: io = "input"; break; case OperandLifeTime::SUBGRAPH_OUTPUT: io = "output"; break; case OperandLifeTime::NO_VALUE: kind = "NO"; break; case OperandLifeTime::SUBGRAPH: kind = "SUBGRAPH"; break; default: // nothing interesting break; } dump << i; if (io) { dump << " = " << io << "[" << modelIO.at(i) << "]"; } if (kind) { dump << ": " << kind; } dump << "\\n" << translate(opnd.type); tryValueDump(dump, model, opnd); tryValueDump(dump, model, opnd); tryValueDump(dump, model, opnd); if (opnd.dimensions.size()) { dump << "("; for (unsigned i = 0, e = opnd.dimensions.size(); i < e; i++) { if (i > 0) { dump << "x"; } dump << opnd.dimensions[i]; } dump << ")"; } dump << "\"]" << Dumper::endl; } // model operations for (unsigned i = 0, e = model.main.operations.size(); i < e; i++) { const Operation& operation = model.main.operations[i]; dump << " n" << i << " [shape=box"; const uint32_t maxArity = std::max(operation.inputs.size(), operation.outputs.size()); if (maxArity > 1) { if (maxArity == operation.inputs.size()) { dump << " ordering=in"; } else { dump << " ordering=out"; } } dump << " label=\"" << i << ": " << toString(operation.type) << "\"]" << Dumper::endl; { // operation inputs for (unsigned in = 0, inE = operation.inputs.size(); in < inE; in++) { dump << " d" << operation.inputs[in] << " -> n" << i; if (inE > 1) { dump << " [label=" << in << "]"; } dump << Dumper::endl; } } { // operation outputs for (unsigned out = 0, outE = operation.outputs.size(); out < outE; out++) { dump << " n" << i << " -> d" << operation.outputs[out]; if (outE > 1) { dump << " [label=" << out << "]"; } dump << Dumper::endl; } } } dump << "}" << Dumper::endl; } } // namespace nn } // namespace android