Mercurial > hg > piper-cpp
view utilities/vampipe-convert.cpp @ 68:a5ba837bca28
Update again to latest plugin-terminology-free schema
| author | Chris Cannam <c.cannam@qmul.ac.uk> |
|---|---|
| date | Thu, 06 Oct 2016 14:32:58 +0100 |
| parents | db17657ac875 |
| children | 7bfc07576830 |
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#include "VampJson.h" #include "VampnProto.h" #include "bits/RequestOrResponse.h" #include "bits/PreservingPluginHandleMapper.h" #include <iostream> #include <sstream> #include <stdexcept> using namespace std; using namespace json11; using namespace vampipe; void usage() { string myname = "vampipe-convert"; cerr << "\n" << myname << ": Validate and convert Vamp request and response messages\n\n" " Usage: " << myname << " [-i <informat>] [-o <outformat>] request\n" " " << myname << " [-i <informat>] [-o <outformat>] response\n\n" " where\n" " <informat>: the format to read from stdin\n" " (\"json\" or \"capnp\", default is \"json\")\n" " <outformat>: the format to convert to and write to stdout\n" " (\"json\", \"json-b64\" or \"capnp\", default is \"json\")\n" " request|response: whether messages are Vamp request or response type\n\n" "If <informat> and <outformat> differ, convert from <informat> to <outformat>.\n" "If <informat> and <outformat> are the same, just check validity of incoming\n" "messages and pass them to output.\n\n" "Specifying \"json-b64\" as output format forces base64 encoding for process and\n" "feature blocks, unlike the \"json\" output format which uses text encoding.\n" "The \"json\" input format accepts either.\n\n"; exit(2); } Json convertRequestJson(string input, string &err) { Json j = Json::parse(input, err); if (err != "") { err = "invalid json: " + err; return {}; } if (!j.is_object()) { err = "object expected at top level"; } else if (!j["method"].is_string()) { err = "string expected for method field"; } else if (!j["params"].is_null() && !j["params"].is_object()) { err = "object expected for params field"; } return j; } Json convertResponseJson(string input, string &err) { Json j = Json::parse(input, err); if (err != "") { err = "invalid json: " + err; return {}; } if (!j.is_object()) { err = "object expected at top level"; } else { if (!j["result"].is_object()) { if (!j["error"].is_object()) { err = "expected either result or error object"; } } } return j; } //!!! Lots of potential for refactoring the conversion classes based //!!! on the common matter in the following eight functions... PreservingPluginHandleMapper mapper; RequestOrResponse readRequestJson(string &err) { RequestOrResponse rr; rr.direction = RequestOrResponse::Request; string input; if (!getline(cin, input)) { // the EOF case, not actually an error rr.type = RRType::NotValid; return rr; } Json j = convertRequestJson(input, err); if (err != "") return {}; rr.type = VampJson::getRequestResponseType(j, err); if (err != "") return {}; VampJson::BufferSerialisation serialisation = VampJson::BufferSerialisation::Array; switch (rr.type) { case RRType::List: VampJson::toRpcRequest_List(j, err); // type check only break; case RRType::Load: rr.loadRequest = VampJson::toRpcRequest_Load(j, err); break; case RRType::Configure: rr.configurationRequest = VampJson::toRpcRequest_Configure(j, mapper, err); break; case RRType::Process: rr.processRequest = VampJson::toRpcRequest_Process(j, mapper, serialisation, err); break; case RRType::Finish: rr.finishRequest = VampJson::toRpcRequest_Finish(j, mapper, err); break; case RRType::NotValid: break; } return rr; } void writeRequestJson(RequestOrResponse &rr, bool useBase64) { Json j; VampJson::BufferSerialisation serialisation = (useBase64 ? VampJson::BufferSerialisation::Base64 : VampJson::BufferSerialisation::Array); switch (rr.type) { case RRType::List: j = VampJson::fromRpcRequest_List(); break; case RRType::Load: j = VampJson::fromRpcRequest_Load(rr.loadRequest); break; case RRType::Configure: j = VampJson::fromRpcRequest_Configure(rr.configurationRequest, mapper); break; case RRType::Process: j = VampJson::fromRpcRequest_Process (rr.processRequest, mapper, serialisation); break; case RRType::Finish: j = VampJson::fromRpcRequest_Finish(rr.finishRequest, mapper); break; case RRType::NotValid: break; } cout << j.dump() << endl; } RequestOrResponse readResponseJson(string &err) { RequestOrResponse rr; rr.direction = RequestOrResponse::Response; string input; if (!getline(cin, input)) { // the EOF case, not actually an error rr.type = RRType::NotValid; return rr; } Json j = convertResponseJson(input, err); if (err != "") return {}; rr.type = VampJson::getRequestResponseType(j, err); if (err != "") return {}; VampJson::BufferSerialisation serialisation = VampJson::BufferSerialisation::Array; rr.success = j["success"].bool_value(); rr.errorText = j["errorText"].string_value(); switch (rr.type) { case RRType::List: rr.listResponse = VampJson::toRpcResponse_List(j, err); break; case RRType::Load: rr.loadResponse = VampJson::toRpcResponse_Load(j, mapper, err); break; case RRType::Configure: rr.configurationResponse = VampJson::toRpcResponse_Configure(j, mapper, err); break; case RRType::Process: rr.processResponse = VampJson::toRpcResponse_Process(j, mapper, serialisation, err); break; case RRType::Finish: rr.finishResponse = VampJson::toRpcResponse_Finish(j, mapper, serialisation, err); break; case RRType::NotValid: break; } return rr; } void writeResponseJson(RequestOrResponse &rr, bool useBase64) { Json j; VampJson::BufferSerialisation serialisation = (useBase64 ? VampJson::BufferSerialisation::Base64 : VampJson::BufferSerialisation::Array); if (!rr.success) { j = VampJson::fromError(rr.errorText, rr.type); } else { switch (rr.type) { case RRType::List: j = VampJson::fromRpcResponse_List(rr.listResponse); break; case RRType::Load: j = VampJson::fromRpcResponse_Load(rr.loadResponse, mapper); break; case RRType::Configure: j = VampJson::fromRpcResponse_Configure(rr.configurationResponse, mapper); break; case RRType::Process: j = VampJson::fromRpcResponse_Process (rr.processResponse, mapper, serialisation); break; case RRType::Finish: j = VampJson::fromRpcResponse_Finish (rr.finishResponse, mapper, serialisation); break; case RRType::NotValid: break; } } cout << j.dump() << endl; } RequestOrResponse readRequestCapnp(kj::BufferedInputStreamWrapper &buffered) { RequestOrResponse rr; rr.direction = RequestOrResponse::Request; ::capnp::InputStreamMessageReader message(buffered); RpcRequest::Reader reader = message.getRoot<RpcRequest>(); rr.type = VampnProto::getRequestResponseType(reader); switch (rr.type) { case RRType::List: VampnProto::readRpcRequest_List(reader); // type check only break; case RRType::Load: VampnProto::readRpcRequest_Load(rr.loadRequest, reader); break; case RRType::Configure: VampnProto::readRpcRequest_Configure(rr.configurationRequest, reader, mapper); break; case RRType::Process: VampnProto::readRpcRequest_Process(rr.processRequest, reader, mapper); break; case RRType::Finish: VampnProto::readRpcRequest_Finish(rr.finishRequest, reader, mapper); break; case RRType::NotValid: break; } return rr; } void writeRequestCapnp(RequestOrResponse &rr) { ::capnp::MallocMessageBuilder message; RpcRequest::Builder builder = message.initRoot<RpcRequest>(); switch (rr.type) { case RRType::List: VampnProto::buildRpcRequest_List(builder); break; case RRType::Load: VampnProto::buildRpcRequest_Load(builder, rr.loadRequest); break; case RRType::Configure: VampnProto::buildRpcRequest_Configure(builder, rr.configurationRequest, mapper); break; case RRType::Process: VampnProto::buildRpcRequest_Process(builder, rr.processRequest, mapper); break; case RRType::Finish: VampnProto::buildRpcRequest_Finish(builder, rr.finishRequest, mapper); break; case RRType::NotValid: break; } writeMessageToFd(1, message); } RequestOrResponse readResponseCapnp(kj::BufferedInputStreamWrapper &buffered) { RequestOrResponse rr; rr.direction = RequestOrResponse::Response; ::capnp::InputStreamMessageReader message(buffered); RpcResponse::Reader reader = message.getRoot<RpcResponse>(); rr.type = VampnProto::getRequestResponseType(reader); rr.success = true; rr.errorText = ""; int errorCode = 0; switch (rr.type) { case RRType::List: VampnProto::readRpcResponse_List(rr.listResponse, reader); break; case RRType::Load: VampnProto::readRpcResponse_Load(rr.loadResponse, reader, mapper); break; case RRType::Configure: VampnProto::readRpcResponse_Configure(rr.configurationResponse, reader, mapper); break; case RRType::Process: VampnProto::readRpcResponse_Process(rr.processResponse, reader, mapper); break; case RRType::Finish: VampnProto::readRpcResponse_Finish(rr.finishResponse, reader, mapper); break; case RRType::NotValid: // error rr.success = false; VampnProto::readRpcResponse_Error(errorCode, rr.errorText, reader); break; } return rr; } void writeResponseCapnp(RequestOrResponse &rr) { ::capnp::MallocMessageBuilder message; RpcResponse::Builder builder = message.initRoot<RpcResponse>(); if (!rr.success) { VampnProto::buildRpcResponse_Error(builder, rr.errorText, rr.type); } else { switch (rr.type) { case RRType::List: VampnProto::buildRpcResponse_List(builder, rr.listResponse); break; case RRType::Load: VampnProto::buildRpcResponse_Load(builder, rr.loadResponse, mapper); break; case RRType::Configure: VampnProto::buildRpcResponse_Configure(builder, rr.configurationResponse, mapper); break; case RRType::Process: VampnProto::buildRpcResponse_Process(builder, rr.processResponse, mapper); break; case RRType::Finish: VampnProto::buildRpcResponse_Finish(builder, rr.finishResponse, mapper); break; case RRType::NotValid: break; } } writeMessageToFd(1, message); } RequestOrResponse readInputJson(RequestOrResponse::Direction direction, string &err) { if (direction == RequestOrResponse::Request) { return readRequestJson(err); } else { return readResponseJson(err); } } RequestOrResponse readInputCapnp(RequestOrResponse::Direction direction) { static kj::FdInputStream stream(0); // stdin static kj::BufferedInputStreamWrapper buffered(stream); if (buffered.tryGetReadBuffer() == nullptr) { return {}; } if (direction == RequestOrResponse::Request) { return readRequestCapnp(buffered); } else { return readResponseCapnp(buffered); } } RequestOrResponse readInput(string format, RequestOrResponse::Direction direction) { if (format == "json") { string err; auto result = readInputJson(direction, err); if (err != "") throw runtime_error(err); else return result; } else if (format == "capnp") { return readInputCapnp(direction); } else { throw runtime_error("unknown input format \"" + format + "\""); } } void writeOutput(string format, RequestOrResponse &rr) { if (format == "json") { if (rr.direction == RequestOrResponse::Request) { writeRequestJson(rr, false); } else { writeResponseJson(rr, false); } } else if (format == "json-b64") { if (rr.direction == RequestOrResponse::Request) { writeRequestJson(rr, true); } else { writeResponseJson(rr, true); } } else if (format == "capnp") { if (rr.direction == RequestOrResponse::Request) { writeRequestCapnp(rr); } else { writeResponseCapnp(rr); } } else { throw runtime_error("unknown output format \"" + format + "\""); } } int main(int argc, char **argv) { if (argc < 2) { usage(); } string informat = "json", outformat = "json"; RequestOrResponse::Direction direction = RequestOrResponse::Request; bool haveDirection = false; for (int i = 1; i < argc; ++i) { string arg = argv[i]; bool final = (i + 1 == argc); if (arg == "-i") { if (final) usage(); else informat = argv[++i]; } else if (arg == "-o") { if (final) usage(); else outformat = argv[++i]; } else if (arg == "request") { direction = RequestOrResponse::Request; haveDirection = true; } else if (arg == "response") { direction = RequestOrResponse::Response; haveDirection = true; } else { usage(); } } if (informat == "" || outformat == "" || !haveDirection) { usage(); } while (true) { try { RequestOrResponse rr = readInput(informat, direction); // NotValid without an exception indicates EOF: if (rr.type == RRType::NotValid) break; writeOutput(outformat, rr); } catch (std::exception &e) { cerr << "Error: " << e.what() << endl; exit(1); } } exit(0); }