tars2node/third_partly/tarsparse/parse.cpp

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2018-07-27 12:33:14 +08:00
/**
* Tencent is pleased to support the open source community by making Tars available.
*
* Copyright (C) 2016THL A29 Limited, a Tencent company. All rights reserved.
*
* Licensed under the BSD 3-Clause License (the "License"); you may not use this file except
* in compliance with the License. You may obtain a copy of the License at
*
* https://opensource.org/licenses/BSD-3-Clause
*
* 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 "parse.h"
#include "tars.tab.hpp"
#include <errno.h>
#include <fstream>
#include <string.h>
#include "util/tc_common.h"
#include "util/tc_file.h"
TarsParsePtr g_parse = new TarsParse();
void yyerror(char const *msg)
{
g_parse->error(msg);
}
TarsParse::TarsParse()
{
_bWithTars = false;
_bUseCurrentPath = false;
_itab = 0;
_bUseCurrentPathFirst = false;
initScanner();
}
void TarsParse::setTars(bool bWithTars)
{
_bWithTars = bWithTars;
}
void TarsParse::setHeader(const string &sHeader)
{
_sHeader = sHeader;
}
void TarsParse::setCurrentPriority(bool bFlag)
{
_bUseCurrentPathFirst = bFlag;
}
string TarsParse::getHeader()
{
if(_sHeader.empty())
return _sHeader;
return _sHeader + "/";
}
void TarsParse::clear()
{
while(!_contexts.empty()) _contexts.pop();
while(!_contains.empty()) _contains.pop();
_vcontexts.clear();
_structs.clear();
_enums.clear();
_namespaces.clear();
}
void TarsParse::parse(const string& sFileName)
{
if (_bUseCurrentPath)
{
std::string sTemp = sFileName;
bool isExist = tars::TC_File::isFileExist(sFileName);
if (!isExist)
{
sTemp = tars::TC_File::extractFileName(sFileName);
}
clear();
_contains.push(new Container(""));
if(!(yyin = fopen(sTemp.c_str(), "r")))
{
error("open file '" + sFileName + "(" + sTemp + ")" + "' error :" + string(strerror(errno)));
}
pushFile(sFileName);
yyparse();
return ;
}
if (_bUseCurrentPathFirst)
{
std::string sTemp = tars::TC_File::extractFileName(sFileName);
bool isExist = tars::TC_File::isFileExist(sTemp);
if (!isExist)
{
sTemp = sFileName;
}
clear();
_contains.push(new Container(""));
if(!(yyin = fopen(sTemp.c_str(), "r")))
{
error("open file '" + sFileName + "(" + sTemp + ")" + "' error :" + string(strerror(errno)));
}
pushFile(sFileName);
yyparse();
return ;
}
{
clear();
_contains.push(new Container(""));
if(!(yyin = fopen(sFileName.c_str(), "r")))
{
error("open file '" + sFileName + "' error :" + string(strerror(errno)));
}
pushFile(sFileName);
yyparse();
}
}
void TarsParse::pushFile(const string &file)
{
ContextPtr c = new Context(file);
_contexts.push(c);
_vcontexts.push_back(c);
}
ContextPtr TarsParse::popFile()
{
ContextPtr c = _contexts.top();
_contexts.pop();
return c;
}
bool TarsParse::getFilePath(const string &s, string &file)
{
if (_bUseCurrentPath)
{
if(s.length() < 2 || s[0] != '\"' || s[s.length()-1] != '\"')
{
error("#include need \"FILENAME\"");
}
file = s.substr(1, s.length() - 2);
std::string sTemp = file;
bool isExist = tars::TC_File::isFileExist(file);
if (!isExist)
{
file = tars::TC_File::extractFileName(file);
}
for(size_t i = 0; i < _vcontexts.size(); i++)
{
if(_vcontexts[i]->getFileName() == file)
{
return false;
}
}
return true;
}
if(_bUseCurrentPathFirst)
{
if(s.length() < 2 || s[0] != '\"' || s[s.length()-1] != '\"')
{
error("#include need \"FILENAME\"");
}
file = s.substr(1, s.length() - 2);
std::string sTemp = tars::TC_File::extractFileName(file);
bool isExist = tars::TC_File::isFileExist(sTemp);
if (isExist)
{
file = sTemp;
}
for(size_t i = 0; i < _vcontexts.size(); i++)
{
if(_vcontexts[i]->getFileName() == file)
{
return false;
}
}
return true;
}
if(s.length() < 2 || s[0] != '\"' || s[s.length()-1] != '\"')
{
error("#include need \"FILENAME\"");
}
file = s.substr(1, s.length() - 2);
if (!tars::TC_File::isFileExist(file))
{
for (size_t i = 0; i < _vIncludePath.size(); i++)
{
if (tars::TC_File::isFileExist(_vIncludePath[i] + "/" + file))
{
file = _vIncludePath[i] + "/" + file;
break;
}
}
}
for(size_t i = 0; i < _vcontexts.size(); i++)
{
if(_vcontexts[i]->getFileName() == file)
{
return false;
}
}
return true;
}
string TarsParse::getCurrFileName()
{
return _contexts.top()->getFileName();
}
void TarsParse::nextLine()
{
_contexts.top()->nextLine();
}
ContextPtr TarsParse::currentContextPtr()
{
return _contexts.top();
}
void TarsParse::error(const string &msg)
{
cerr << _contexts.top()->getFileName() << ": " << _contexts.top()->getCurrLine() << ": error: " << msg << endl;
exit(-1);
}
int TarsParse::checkKeyword(const string& s)
{
std::map<std::string, int>::const_iterator it = _keywordMap.find(s);
if(it != _keywordMap.end())
{
return it->second;
}
if(!_bWithTars)
{
string sPrefix = "tars";
//不能以tars开头
if((s.length() >= sPrefix.length()) && (s.substr(0, sPrefix.length()) == sPrefix))
{
error("identifier can't start with 'tars'");
}
}
return TARS_IDENTIFIER;
}
void TarsParse::initScanner()
{
_keywordMap["void"] = TARS_VOID;
_keywordMap["struct"] = TARS_STRUCT;
_keywordMap["bool"] = TARS_BOOL;
_keywordMap["byte"] = TARS_BYTE;
_keywordMap["short"] = TARS_SHORT;
_keywordMap["int"] = TARS_INT;
_keywordMap["double"] = TARS_DOUBLE;
_keywordMap["float"] = TARS_FLOAT;
_keywordMap["long"] = TARS_LONG;
_keywordMap["string"] = TARS_STRING;
_keywordMap["vector"] = TARS_VECTOR;
_keywordMap["map"] = TARS_MAP;
_keywordMap["key"] = TARS_KEY;
_keywordMap["routekey"] = TARS_ROUTE_KEY;
_keywordMap["module"] = TARS_NAMESPACE;
_keywordMap["interface"]= TARS_INTERFACE;
_keywordMap["out"] = TARS_OUT;
_keywordMap["require"] = TARS_REQUIRE;
_keywordMap["optional"] = TARS_OPTIONAL;
_keywordMap["false"] = TARS_FALSE;
_keywordMap["true"] = TARS_TRUE;
_keywordMap["enum"] = TARS_ENUM;
_keywordMap["const"] = TARS_CONST;
_keywordMap["unsigned"] = TARS_UNSIGNED;
}
string TarsParse::getTab()
{
ostringstream s;
for(int i = 0; i < _itab; i++)
{
s << " ";
}
return s.str();
}
BuiltinPtr TarsParse::createBuiltin(Builtin::Kind kind,bool isUnsigned)
{
return new Builtin(kind,isUnsigned);
}
VectorPtr TarsParse::createVector(const TypePtr &ptr)
{
return new Vector(ptr);
}
MapPtr TarsParse::createMap(const TypePtr &pleft, const TypePtr &pright)
{
return new Map(pleft, pright);
}
void TarsParse::addNamespacePtr(const NamespacePtr &nPtr)
{
_namespaces.push_back(nPtr);
}
NamespacePtr TarsParse::findNamespace(const string &id)
{
for(size_t i = 0; i < _namespaces.size(); i++)
{
if(_namespaces[i]->getId() == id)
{
return _namespaces[i];
}
}
return NULL;
}
NamespacePtr TarsParse::currentNamespace()
{
return _namespaces.back();
}
void TarsParse::addStructPtr(const StructPtr &sPtr)
{
_structs.push_back(sPtr);
}
void TarsParse::addEnumPtr(const EnumPtr &ePtr)
{
_enums.push_back(ePtr);
}
StructPtr TarsParse::findStruct(const string &sid)
{
string ssid = sid;
//在当前namespace中查找
NamespacePtr np = currentNamespace();
if(ssid.find("::") == string::npos)
{
ssid = np->getId() + "::" + ssid;
}
for(size_t i = 0; i < _structs.size(); i++)
{
if(_structs[i]->getSid() == ssid)
{
return _structs[i];
}
}
return NULL;
}
EnumPtr TarsParse::findEnum(const string &sid)
{
string ssid = sid;
//在当前namespace中查找
NamespacePtr np = currentNamespace();
if(ssid.find("::") == string::npos)
{
ssid = np->getId() + "::" + sid;
}
for(size_t i = 0; i < _enums.size(); i++)
{
if(_enums[i]->getSid() == ssid)
{
return _enums[i];
}
}
return NULL;
}
bool TarsParse::checkEnum(const string &idName)
{
for(size_t i = 0; i < _enums.size(); i++)
{
vector<TypeIdPtr> & list = _enums[i]->getAllMemberPtr();
for (size_t j = 0; j < list.size(); j++)
{
if (list[j]->getId() == idName)
{
return true;
}
}
}
return false;
}
void TarsParse::checkConflict(const string &sid)
{
//是否和枚举重名
if(findEnum(sid))
{
error("conflicts with enum '" + sid + "'");
}
//是否和结构重名
if(findStruct(sid))
{
error("conflicts with struct '" + sid + "'");
}
}
TypePtr TarsParse::findUserType(const string &sid)
{
StructPtr sPtr = findStruct(sid);
if(sPtr) return sPtr;
EnumPtr ePtr = findEnum(sid);
if(ePtr) return ePtr;
return NULL;
}
ContainerPtr TarsParse::currentContainer()
{
return _contains.top();
}
void TarsParse::pushContainer(const ContainerPtr &c)
{
_contains.push(c);
NamespacePtr np = NamespacePtr::dynamicCast(c);
if(np)
{
addNamespacePtr(np);
}
}
ContainerPtr TarsParse::popContainer()
{
ContainerPtr c = _contains.top();
_contains.pop();
return c;
}
void TarsParse::checkTag(int i)
{
if(i >= 256)
{
error("struct memeber tag can't beyond 256");
}
if(i < 0)
{
error("struct memeber tag can't less then 0");
}
}
void TarsParse::checkSize(int i)
{
if(i >= 1024*1024)
{
error("struct memeber size can't beyond 1M");
}
if(i < 1)
{
error("struct memeber size can't less than 1");
}
}
void TarsParse::checkArrayVaid(TypePtr &tPtr,int size)
{
checkSize(size);
//只有string/vector可以为array类型
//vector不可以嵌套array类型 例如不允许vector<string:8>:2;
VectorPtr vPtr = VectorPtr::dynamicCast(tPtr);
if(vPtr )
{
if(vPtr->getTypePtr()->isArray())
{
error("fixed array type can not be nested");
}
return;
}
BuiltinPtr bPtr = BuiltinPtr::dynamicCast(tPtr);
if(bPtr && bPtr->kind()== Builtin::KindString)
{
return;
}
error("only string or vector can use fix array");
}
void TarsParse::checkPointerVaid(TypePtr &tPtr)
{
//必须为vector<Byte>类型
VectorPtr vPtr = VectorPtr::dynamicCast(tPtr);
if(vPtr)
{
BuiltinPtr bPtr = BuiltinPtr::dynamicCast(vPtr->getTypePtr());
if( bPtr && bPtr->kind()== Builtin::KindByte)
return;
}
error("only 'byte *' can be pointer type");
}
void TarsParse::checkConstValue(TypeIdPtr &tPtr, int c)
{
//只有内建类型才能有缺省值
BuiltinPtr bPtr = BuiltinPtr::dynamicCast(tPtr->getTypePtr());
EnumPtr ePtr = EnumPtr::dynamicCast(tPtr->getTypePtr());
if(!bPtr && !ePtr)
{
error("only base/enum type can have default value");
}
if (ePtr)
{
if (c != ConstGrammar::VALUE && c != ConstGrammar::ENUM)
{
error("default value of enum only be int or enum_type");
}
return ;
}
int b = bPtr->kind();
if(c == ConstGrammar::VALUE)
{
if(b == Builtin::KindBool)
{
error("default value of bool can only be true or false");
}
if(b == Builtin::KindString)
{
error("default value of string can only be \"string\"");
}
}
else if(c == ConstGrammar::BOOL)
{
if(b != Builtin::KindBool)
{
error("only bool type can be true or false");
}
}
else if(c == ConstGrammar::STRING)
{
if(b != Builtin::KindString)
{
error("only string type can be \"string\"");
}
}
}
string TarsParse::printHeaderRemark()
{
ostringstream s;
s << "// **********************************************************************" << endl;
s << "// This file was generated by a TARS parser!" << endl;
s << "// TARS version " << TARS_VERSION << "." << endl;
s << "// **********************************************************************" << endl;
s << endl;
return s.str();
}