//===--- DocumentXML.cpp - XML document for ASTs --------------------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file implements the XML document class, which provides the means to // dump out the AST in a XML form that exposes type details and other fields. // //===----------------------------------------------------------------------===// #include "clang/Frontend/DocumentXML.h" #include "clang/AST/Decl.h" #include "clang/AST/ASTContext.h" #include "clang/Basic/SourceManager.h" #include "llvm/ADT/StringExtras.h" namespace clang { //--------------------------------------------------------- DocumentXML::DocumentXML(const std::string& rootName, llvm::raw_ostream& out) : Out(out), Ctx(0), HasCurrentNodeSubNodes(false) { NodeStack.push(rootName); Out << "\n<" << rootName; } //--------------------------------------------------------- DocumentXML& DocumentXML::addSubNode(const std::string& name) { if (!HasCurrentNodeSubNodes) Out << ">\n"; NodeStack.push(name); HasCurrentNodeSubNodes = false; Indent(); Out << "<" << NodeStack.top(); return *this; } //--------------------------------------------------------- void DocumentXML::Indent() { for (size_t i = 0, e = (NodeStack.size() - 1) * 2; i < e; ++i) Out << ' '; } //--------------------------------------------------------- DocumentXML& DocumentXML::toParent() { assert(NodeStack.size() > 1 && "too much backtracking"); if (HasCurrentNodeSubNodes) { Indent(); Out << "\n"; } else Out << "/>\n"; NodeStack.pop(); HasCurrentNodeSubNodes = true; return *this; } //--------------------------------------------------------- namespace { enum tIdType { ID_NORMAL, ID_FILE, ID_LABEL, ID_LAST }; unsigned getNewId(tIdType idType) { static unsigned int idCounts[ID_LAST] = { 0 }; return ++idCounts[idType]; } //--------------------------------------------------------- inline std::string getPrefixedId(unsigned uId, tIdType idType) { static const char idPrefix[ID_LAST] = { '_', 'f', 'l' }; char buffer[20]; char* BufPtr = llvm::utohex_buffer(uId, buffer + 20); *--BufPtr = idPrefix[idType]; return BufPtr; } //--------------------------------------------------------- template bool addToMap(T& idMap, const V& value, tIdType idType = ID_NORMAL) { typename T::iterator i = idMap.find(value); bool toAdd = i == idMap.end(); if (toAdd) idMap.insert(typename T::value_type(value, getNewId(idType))); return toAdd; } } // anon NS //--------------------------------------------------------- std::string DocumentXML::escapeString(const char* pStr, std::string::size_type len) { std::string value; value.reserve(len + 1); char buffer[16]; for (unsigned i = 0; i < len; ++i) { switch (char C = pStr[i]) { default: if (isprint(C)) value += C; else { sprintf(buffer, "\\%03o", C); value += buffer; } break; case '\n': value += "\\n"; break; case '\t': value += "\\t"; break; case '\a': value += "\\a"; break; case '\b': value += "\\b"; break; case '\r': value += "\\r"; break; case '&': value += "&"; break; case '<': value += "<"; break; case '>': value += ">"; break; case '"': value += """; break; case '\'': value += "'"; break; } } return value; } //--------------------------------------------------------- void DocumentXML::finalize() { assert(NodeStack.size() == 1 && "not completely backtracked"); addSubNode("ReferenceSection"); addSubNode("Types"); for (XML::IdMap::iterator i = Types.begin(), e = Types.end(); i != e; ++i) { if (i->first.hasLocalQualifiers()) { writeTypeToXML(i->first); addAttribute("id", getPrefixedId(i->second, ID_NORMAL)); toParent(); } } for (XML::IdMap::iterator i = BasicTypes.begin(), e = BasicTypes.end(); i != e; ++i) { writeTypeToXML(i->first); addAttribute("id", getPrefixedId(i->second, ID_NORMAL)); toParent(); } toParent().addSubNode("Contexts"); for (XML::IdMap::iterator i = Contexts.begin(), e = Contexts.end(); i != e; ++i) { addSubNode(i->first->getDeclKindName()); addAttribute("id", getPrefixedId(i->second, ID_NORMAL)); if (const NamedDecl *ND = dyn_cast(i->first)) addAttribute("name", ND->getNameAsString()); if (const TagDecl *TD = dyn_cast(i->first)) addAttribute("type", getPrefixedId(BasicTypes[TD->getTypeForDecl()], ID_NORMAL)); else if (const FunctionDecl *FD = dyn_cast(i->first)) addAttribute("type", getPrefixedId(BasicTypes[FD->getType()->getAs()], ID_NORMAL)); if (const DeclContext* parent = i->first->getParent()) addAttribute("context", parent); toParent(); } toParent().addSubNode("Files"); for (XML::IdMap::iterator i = SourceFiles.begin(), e = SourceFiles.end(); i != e; ++i) { addSubNode("File"); addAttribute("id", getPrefixedId(i->second, ID_FILE)); addAttribute("name", escapeString(i->first.c_str(), i->first.size())); toParent(); } toParent().toParent(); // write the root closing node (which has always subnodes) Out << "\n"; } //--------------------------------------------------------- void DocumentXML::addAttribute(const char* pAttributeName, const QualType& pType) { addTypeRecursively(pType); addAttribute(pAttributeName, getPrefixedId(Types[pType], ID_NORMAL)); } //--------------------------------------------------------- void DocumentXML::addPtrAttribute(const char* pAttributeName, const Type* pType) { addTypeRecursively(pType); addAttribute(pAttributeName, getPrefixedId(BasicTypes[pType], ID_NORMAL)); } //--------------------------------------------------------- void DocumentXML::addTypeRecursively(const QualType& pType) { if (addToMap(Types, pType)) { addTypeRecursively(pType.getTypePtr()); // beautifier: a non-qualified type shall be transparent if (!pType.hasLocalQualifiers()) { Types[pType] = BasicTypes[pType.getTypePtr()]; } } } //--------------------------------------------------------- void DocumentXML::addTypeRecursively(const Type* pType) { if (addToMap(BasicTypes, pType)) { addParentTypes(pType); /* // FIXME: doesn't work in the immediate streaming approach if (const VariableArrayType *VAT = dyn_cast(pType)) { addSubNode("VariableArraySizeExpression"); PrintStmt(VAT->getSizeExpr()); toParent(); } */ } } //--------------------------------------------------------- void DocumentXML::addPtrAttribute(const char* pName, const DeclContext* DC) { addContextsRecursively(DC); addAttribute(pName, getPrefixedId(Contexts[DC], ID_NORMAL)); } //--------------------------------------------------------- void DocumentXML::addPtrAttribute(const char* pAttributeName, const NamedDecl* D) { if (const DeclContext* DC = dyn_cast(D)) { addContextsRecursively(DC); addAttribute(pAttributeName, getPrefixedId(Contexts[DC], ID_NORMAL)); } else { addToMap(Decls, D); addAttribute(pAttributeName, getPrefixedId(Decls[D], ID_NORMAL)); } } //--------------------------------------------------------- void DocumentXML::addPtrAttribute(const char* pName, const NamespaceDecl* D) { addPtrAttribute(pName, static_cast(D)); } //--------------------------------------------------------- void DocumentXML::addContextsRecursively(const DeclContext *DC) { if (DC != 0 && addToMap(Contexts, DC)) { addContextsRecursively(DC->getParent()); } } //--------------------------------------------------------- void DocumentXML::addSourceFileAttribute(const std::string& fileName) { addToMap(SourceFiles, fileName, ID_FILE); addAttribute("file", getPrefixedId(SourceFiles[fileName], ID_FILE)); } //--------------------------------------------------------- void DocumentXML::addPtrAttribute(const char* pName, const LabelStmt* L) { addToMap(Labels, L, ID_LABEL); addAttribute(pName, getPrefixedId(Labels[L], ID_LABEL)); } //--------------------------------------------------------- PresumedLoc DocumentXML::addLocation(const SourceLocation& Loc) { SourceManager& SM = Ctx->getSourceManager(); SourceLocation SpellingLoc = SM.getSpellingLoc(Loc); PresumedLoc PLoc; if (!SpellingLoc.isInvalid()) { PLoc = SM.getPresumedLoc(SpellingLoc); addSourceFileAttribute(PLoc.getFilename()); addAttribute("line", PLoc.getLine()); addAttribute("col", PLoc.getColumn()); } // else there is no error in some cases (eg. CXXThisExpr) return PLoc; } //--------------------------------------------------------- void DocumentXML::addLocationRange(const SourceRange& R) { PresumedLoc PStartLoc = addLocation(R.getBegin()); if (R.getBegin() != R.getEnd()) { SourceManager& SM = Ctx->getSourceManager(); SourceLocation SpellingLoc = SM.getSpellingLoc(R.getEnd()); if (!SpellingLoc.isInvalid()) { PresumedLoc PLoc = SM.getPresumedLoc(SpellingLoc); if (PStartLoc.isInvalid() || strcmp(PLoc.getFilename(), PStartLoc.getFilename()) != 0) { addToMap(SourceFiles, PLoc.getFilename(), ID_FILE); addAttribute("endfile", PLoc.getFilename()); addAttribute("endline", PLoc.getLine()); addAttribute("endcol", PLoc.getColumn()); } else if (PLoc.getLine() != PStartLoc.getLine()) { addAttribute("endline", PLoc.getLine()); addAttribute("endcol", PLoc.getColumn()); } else { addAttribute("endcol", PLoc.getColumn()); } } } } //--------------------------------------------------------- void DocumentXML::PrintDecl(Decl *D) { writeDeclToXML(D); } //--------------------------------------------------------- } // NS clang