/* * Copyright 2017 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "bookmaker.h" #ifdef CONST #undef CONST #endif #ifdef FRIEND #undef FRIEND #endif #ifdef BLANK #undef BLANK #endif #ifdef ANY #undef ANY #endif #ifdef DEFOP #undef DEFOP #endif #define CONST 1 #define STATIC 2 #define BLANK 0 #define ANY -1 #define DEFOP Definition::Operator enum class OpType : int8_t { kNone, kVoid, kBool, kChar, kFloat, kInt, kScalar, kSizeT, kThis, kAny, }; enum class OpMod : int8_t { kNone, kArray, kMove, kPointer, kReference, kAny, }; const struct OperatorParser { DEFOP fOperator; const char* fSymbol; const char* fName; int8_t fFriend; OpType fReturnType; OpMod fReturnMod; int8_t fConstMethod; struct Param { int8_t fConst; OpType fType; OpMod fMod; } fParams[2]; } opData[] = { { DEFOP::kUnknown, "??", "???", BLANK, OpType::kNone, OpMod::kNone, BLANK, { } }, { DEFOP::kAdd, "+", "add", BLANK, OpType::kThis, OpMod::kNone, BLANK, {{ CONST, OpType::kThis, OpMod::kReference, }, { CONST, OpType::kThis, OpMod::kReference, }}}, { DEFOP::kAddTo, "+=", "addto", BLANK, OpType::kVoid, OpMod::kNone, BLANK, {{ CONST, OpType::kThis, OpMod::kReference, }}}, { DEFOP::kAddTo, "+=", "addto1", BLANK, OpType::kThis, OpMod::kReference, BLANK, {{ CONST, OpType::kThis, OpMod::kReference, }}}, { DEFOP::kAddTo, "+=", "addto2", BLANK, OpType::kThis, OpMod::kReference, BLANK, {{ CONST, OpType::kChar, OpMod::kArray, }}}, { DEFOP::kAddTo, "+=", "addto3", BLANK, OpType::kThis, OpMod::kReference, BLANK, {{ CONST, OpType::kChar, OpMod::kNone, }}}, { DEFOP::kArray, "[]", "array", BLANK, OpType::kScalar, OpMod::kNone, CONST, {{ BLANK, OpType::kInt, OpMod::kNone, }}}, { DEFOP::kArray, "[]", "array1", BLANK, OpType::kScalar, OpMod::kReference, BLANK, {{ BLANK, OpType::kInt, OpMod::kNone, }}}, { DEFOP::kArray, "[]", "array2", BLANK, OpType::kChar, OpMod::kNone, CONST, {{ BLANK, OpType::kSizeT, OpMod::kNone, }}}, { DEFOP::kArray, "[]", "array3", BLANK, OpType::kChar, OpMod::kReference, BLANK, {{ BLANK, OpType::kSizeT, OpMod::kNone, }}}, { DEFOP::kCast, "()", "cast", BLANK, OpType::kAny, OpMod::kAny, ANY, {{ ANY, OpType::kAny, OpMod::kAny, }}}, { DEFOP::kCopy, "=", "copy", BLANK, OpType::kThis, OpMod::kReference, BLANK, {{ CONST, OpType::kThis, OpMod::kReference, }}}, { DEFOP::kCopy, "=", "copy1", BLANK, OpType::kThis, OpMod::kReference, BLANK, {{ CONST, OpType::kChar, OpMod::kArray, }}}, { DEFOP::kDelete, "delete", "delete", BLANK, OpType::kVoid, OpMod::kNone, BLANK, {{ BLANK, OpType::kVoid, OpMod::kPointer, }}}, { DEFOP::kDereference, "->", "deref", ANY, OpType::kThis, OpMod::kPointer, CONST, { } }, { DEFOP::kDereference, "*", "deref", BLANK, OpType::kThis, OpMod::kReference, CONST, { } }, { DEFOP::kEqual, "==", "equal", BLANK, OpType::kBool, OpMod::kNone, BLANK, {{ CONST, OpType::kThis, OpMod::kReference, }, { CONST, OpType::kThis, OpMod::kReference, }}}, { DEFOP::kEqual, "==", "equal1", BLANK, OpType::kBool, OpMod::kNone, CONST, {{ CONST, OpType::kThis, OpMod::kReference, }}}, { DEFOP::kEqual, "==", "equal2", ANY, OpType::kBool, OpMod::kNone, BLANK, {{ CONST, OpType::kThis, OpMod::kReference, }, { CONST, OpType::kThis, OpMod::kReference, }}}, { DEFOP::kMinus, "-", "minus", BLANK, OpType::kThis, OpMod::kNone, CONST, { } }, { DEFOP::kMove, "=", "move", BLANK, OpType::kThis, OpMod::kReference, BLANK, {{ BLANK, OpType::kThis, OpMod::kMove, }}}, { DEFOP::kMultiply, "*", "multiply", BLANK, OpType::kThis, OpMod::kNone, CONST, {{ BLANK, OpType::kScalar, OpMod::kNone, }}}, { DEFOP::kMultiply, "*", "multiply1", BLANK, OpType::kThis, OpMod::kNone, BLANK, {{ CONST, OpType::kThis, OpMod::kReference, }, { CONST, OpType::kThis, OpMod::kReference, }}}, { DEFOP::kMultiplyBy, "*=", "multiplyby", BLANK, OpType::kThis, OpMod::kReference, BLANK, {{ BLANK, OpType::kScalar, OpMod::kNone, }}}, { DEFOP::kNew, "new", "new", BLANK, OpType::kVoid, OpMod::kPointer, BLANK, {{ BLANK, OpType::kSizeT, OpMod::kNone, }}}, { DEFOP::kNotEqual, "!=", "notequal", BLANK, OpType::kBool, OpMod::kNone, BLANK, {{ CONST, OpType::kThis, OpMod::kReference, }, { CONST, OpType::kThis, OpMod::kReference, }}}, { DEFOP::kNotEqual, "!=", "notequal1", BLANK, OpType::kBool, OpMod::kNone, CONST, {{ CONST, OpType::kThis, OpMod::kReference, }}}, { DEFOP::kNotEqual, "!=", "notequal2", ANY, OpType::kBool, OpMod::kNone, BLANK, {{ CONST, OpType::kThis, OpMod::kReference, }, { CONST, OpType::kThis, OpMod::kReference, }}}, { DEFOP::kSubtract, "-", "subtract", BLANK, OpType::kThis, OpMod::kNone, BLANK, {{ CONST, OpType::kThis, OpMod::kReference, }, { CONST, OpType::kThis, OpMod::kReference, }}}, { DEFOP::kSubtractFrom, "-=", "subtractfrom", BLANK, OpType::kVoid, OpMod::kNone, BLANK, {{ CONST, OpType::kThis, OpMod::kReference, }}}, }; OpType lookup_type(const string& typeWord, const string& name) { if (typeWord == name || (typeWord == "SkIVector" && name == "SkIPoint") || (typeWord == "SkVector" && name == "SkPoint")) { return OpType::kThis; } const char* keyWords[] = { "void", "bool", "char", "float", "int", "SkScalar", "size_t" }; for (unsigned i = 0; i < SK_ARRAY_COUNT(keyWords); ++i) { if (typeWord == keyWords[i]) { return (OpType) (i + 1); } } return OpType::kNone; } OpMod lookup_mod(TextParser& iParser) { OpMod mod = OpMod::kNone; if ('&' == iParser.peek()) { mod = OpMod::kReference; iParser.next(); if ('&' == iParser.peek()) { mod = OpMod::kMove; iParser.next(); } } else if ('*' == iParser.peek()) { mod = OpMod::kPointer; iParser.next(); } iParser.skipWhiteSpace(); return mod; } bool Definition::parseOperator(size_t doubleColons, string& result) { const char operatorStr[] = "operator"; size_t opPos = fName.find(operatorStr, doubleColons); if (string::npos == opPos) { return false; } string className(fName, 0, doubleColons - 2); TextParser iParser(fFileName, fStart, fContentStart, fLineCount); SkAssertResult(iParser.skipWord("#Method")); iParser.skipExact("SK_API"); iParser.skipWhiteSpace(); bool isStatic = iParser.skipExact("static"); iParser.skipWhiteSpace(); iParser.skipExact("SK_API"); iParser.skipWhiteSpace(); bool returnsConst = iParser.skipExact("const"); if (returnsConst) { SkASSERT(0); // incomplete } SkASSERT(isStatic == false || returnsConst == false); iParser.skipWhiteSpace(); const char* returnTypeStart = iParser.fChar; iParser.skipToNonAlphaNum(); SkASSERT(iParser.fChar > returnTypeStart); string returnType(returnTypeStart, iParser.fChar - returnTypeStart); OpType returnOpType = lookup_type(returnType, className); iParser.skipWhiteSpace(); OpMod returnMod = lookup_mod(iParser); SkAssertResult(iParser.skipExact("operator")); iParser.skipWhiteSpace(); fMethodType = Definition::MethodType::kOperator; TextParserSave save(&iParser); for (auto parser : opData) { save.restore(); if (!iParser.skipExact(parser.fSymbol)) { continue; } iParser.skipWhiteSpace(); if ('(' != iParser.peek()) { continue; } if (parser.fFriend != ANY && (parser.fFriend == STATIC) != isStatic) { continue; } if (parser.fReturnType != OpType::kAny && parser.fReturnType != returnOpType) { continue; } if (parser.fReturnMod != OpMod::kAny && parser.fReturnMod != returnMod) { continue; } iParser.next(); // skip '(' iParser.skipWhiteSpace(); int parserCount = (parser.fParams[0].fType != OpType::kNone) + (parser.fParams[1].fType != OpType::kNone); bool countsMatch = true; for (int pIndex = 0; pIndex < 2; ++pIndex) { if (')' == iParser.peek()) { countsMatch = pIndex == parserCount; break; } if (',' == iParser.peek()) { iParser.next(); iParser.skipWhiteSpace(); } bool paramConst = iParser.skipExact("const"); if (parser.fParams[pIndex].fConst != ANY && paramConst != (parser.fParams[pIndex].fConst == CONST)) { countsMatch = false; break; } iParser.skipWhiteSpace(); const char* paramStart = iParser.fChar; iParser.skipToNonAlphaNum(); SkASSERT(iParser.fChar > paramStart); string paramType(paramStart, iParser.fChar - paramStart); OpType paramOpType = lookup_type(paramType, className); if (parser.fParams[pIndex].fType != OpType::kAny && parser.fParams[pIndex].fType != paramOpType) { countsMatch = false; break; } iParser.skipWhiteSpace(); OpMod paramMod = lookup_mod(iParser); if (parser.fParams[pIndex].fMod != OpMod::kAny && parser.fParams[pIndex].fMod != paramMod) { countsMatch = false; break; } iParser.skipToNonAlphaNum(); if ('[' == iParser.peek()) { paramMod = OpMod::kArray; SkAssertResult(iParser.skipExact("[]")); } iParser.skipWhiteSpace(); } if (!countsMatch) { continue; } if (')' != iParser.peek()) { continue; } iParser.next(); bool constMethod = iParser.skipExact("_const"); if (parser.fConstMethod != ANY && (parser.fConstMethod == CONST) != constMethod) { continue; } result += parser.fName; result += "_operator"; fOperator = parser.fOperator; fOperatorConst = constMethod; return true; } SkASSERT(0); // incomplete return false; #if 0 if ('!' == fName[opPos]) { SkASSERT('=' == fName[opPos + 1]); result += "not_equal_operator"; } else if ('=' == fName[opPos]) { if ('(' == fName[opPos + 1]) { result += isMove ? "move_" : "copy_"; result += "assignment_operator"; } else { SkASSERT('=' == fName[opPos + 1]); result += "equal_operator"; } } else if ('[' == fName[opPos]) { result += "subscript_operator"; const char* end = fContentStart; while (end > fStart && ' ' >= end[-1]) { --end; } string constCheck(fStart, end - fStart); size_t constPos = constCheck.rfind("const"); if (constCheck.length() == constPos + 5) { result += "_const"; } } else if ('*' == fName[opPos]) { result += "multiply_operator"; } else if ('-' == fName[opPos]) { result += "subtract_operator"; } else if ('+' == fName[opPos]) { result += "add_operator"; } else { SkASSERT(0); // todo: incomplete } #endif return true; } #undef CONST #undef FRIEND #undef BLANK #undef DEFOP bool Definition::boilerplateIfDef(Definition* parent) { const Definition& label = fTokens.front(); if (Type::kWord != label.fType) { return false; } fName = string(label.fContentStart, label.fContentEnd - label.fContentStart); return true; } // todo: this is matching #ifndef SkXXX_DEFINED for no particular reason // it doesn't do anything useful with arbitrary input, e.g. #ifdef SK_SUPPORT_LEGACY_CANVAS_HELPERS // also doesn't know what to do with SK_REQUIRE_LOCAL_VAR() bool Definition::boilerplateDef(Definition* parent) { if (!this->boilerplateIfDef(parent)) { return false; } const char* s = fName.c_str(); const char* e = strchr(s, '_'); return true; // fixme: if this is trying to do something useful with define, do it here if (!e) { return false; } string prefix(s, e - s); const char* inName = strstr(parent->fName.c_str(), prefix.c_str()); if (!inName) { return false; } if ('/' != inName[-1] && '\\' != inName[-1]) { return false; } if (strcmp(inName + prefix.size(), ".h")) { return false; } return true; } // fixme: this will need to be more complicated to handle all of Skia // for now, just handle paint -- maybe fiddle will loosen naming restrictions void Definition::setCanonicalFiddle() { fMethodType = Definition::MethodType::kNone; size_t doubleColons = fName.find("::", 0); SkASSERT(string::npos != doubleColons); string base = fName.substr(0, doubleColons); string result = base + "_"; doubleColons += 2; if (string::npos != fName.find('~', doubleColons)) { fMethodType = Definition::MethodType::kDestructor; result += "destructor"; } else if (!this->parseOperator(doubleColons, result)) { bool isMove = string::npos != fName.find("&&", doubleColons); size_t parens = fName.find("()", doubleColons); if (string::npos != parens) { string methodName = fName.substr(doubleColons, parens - doubleColons); do { size_t nextDouble = methodName.find("::"); if (string::npos == nextDouble) { break; } base = methodName.substr(0, nextDouble); result += base + '_'; methodName = methodName.substr(nextDouble + 2); doubleColons += nextDouble + 2; } while (true); if (base == methodName) { fMethodType = Definition::MethodType::kConstructor; result += "empty_constructor"; } else { result += fName.substr(doubleColons, fName.length() - doubleColons - 2); } } else { size_t openParen = fName.find('(', doubleColons); if (string::npos == openParen) { result += fName.substr(doubleColons); } else { size_t comma = fName.find(',', doubleColons); if (string::npos == comma) { result += isMove ? "move_" : "copy_"; } fMethodType = Definition::MethodType::kConstructor; // name them by their param types, // e.g. SkCanvas__int_int_const_SkSurfaceProps_star // TODO: move forward until parens are balanced and terminator =,) TextParser params("", &fName[openParen] + 1, &*fName.end(), 0); bool underline = false; while (!params.eof()) { // SkDEBUGCODE(const char* end = params.anyOf("(),=")); // unused for now // SkASSERT(end[0] != '('); // fixme: put off handling nested parentheseses if (params.startsWith("const") || params.startsWith("int") || params.startsWith("Sk")) { const char* wordStart = params.fChar; params.skipToNonAlphaNum(); if (underline) { result += '_'; } else { underline = true; } result += string(wordStart, params.fChar - wordStart); } else { params.skipToNonAlphaNum(); } if (!params.eof() && '*' == params.peek()) { if (underline) { result += '_'; } else { underline = true; } result += "star"; params.next(); params.skipSpace(); } params.skipToAlpha(); } } } } fFiddle = Definition::NormalizedName(result); } static void space_pad(string* str) { size_t len = str->length(); if (len == 0) { return; } char last = (*str)[len - 1]; if ('~' == last || ' ' >= last) { return; } *str += ' '; } //start here; // see if it possible to abstract this a little bit so it can // additionally be used to find params and return in method prototype that // does not have corresponding doxygen comments bool Definition::checkMethod() const { SkASSERT(MarkType::kMethod == fMarkType); // if method returns a value, look for a return child // for each parameter, look for a corresponding child const char* end = fContentStart; while (end > fStart && ' ' >= end[-1]) { --end; } TextParser methodParser(fFileName, fStart, end, fLineCount); methodParser.skipWhiteSpace(); SkASSERT(methodParser.startsWith("#Method")); methodParser.skipName("#Method"); methodParser.skipSpace(); string name = this->methodName(); if (MethodType::kNone == fMethodType && name.length() > 2 && "()" == name.substr(name.length() - 2)) { name = name.substr(0, name.length() - 2); } bool expectReturn = this->methodHasReturn(name, &methodParser); bool foundReturn = false; bool foundException = false; for (auto& child : fChildren) { foundException |= MarkType::kDeprecated == child->fMarkType || MarkType::kExperimental == child->fMarkType; if (MarkType::kReturn != child->fMarkType) { if (MarkType::kParam == child->fMarkType) { child->fVisited = false; } continue; } if (!expectReturn) { return methodParser.reportError("no #Return expected"); } if (foundReturn) { return methodParser.reportError("multiple #Return markers"); } foundReturn = true; } if (expectReturn && !foundReturn && !foundException) { return methodParser.reportError("missing #Return marker"); } const char* paren = methodParser.strnchr('(', methodParser.fEnd); if (!paren) { return methodParser.reportError("missing #Method function definition"); } const char* nextEnd = paren; do { string paramName; methodParser.fChar = nextEnd + 1; methodParser.skipSpace(); if (!this->nextMethodParam(&methodParser, &nextEnd, ¶mName)) { continue; } bool foundParam = false; for (auto& child : fChildren) { if (MarkType::kParam != child->fMarkType) { continue; } if (paramName != child->fName) { continue; } if (child->fVisited) { return methodParser.reportError("multiple #Method param with same name"); } child->fVisited = true; if (foundParam) { TextParser paramError(child); return methodParser.reportError("multiple #Param with same name"); } foundParam = true; } if (!foundParam && !foundException) { return methodParser.reportError("no #Param found"); } if (')' == nextEnd[0]) { break; } } while (')' != nextEnd[0]); for (auto& child : fChildren) { if (MarkType::kParam != child->fMarkType) { continue; } if (!child->fVisited) { TextParser paramError(child); return paramError.reportError("#Param without param in #Method"); } } return true; } bool Definition::crossCheck2(const Definition& includeToken) const { TextParser parser(fFileName, fStart, fContentStart, fLineCount); parser.skipExact("#"); bool isMethod = parser.skipName("Method"); const char* contentEnd; if (isMethod) { contentEnd = fContentStart; } else if (parser.skipName("DefinedBy")) { contentEnd = fContentEnd; while (parser.fChar < contentEnd && ' ' >= contentEnd[-1]) { --contentEnd; } if (parser.fChar < contentEnd - 1 && ')' == contentEnd[-1] && '(' == contentEnd[-2]) { contentEnd -= 2; } } else { return parser.reportError("unexpected crosscheck marktype"); } return crossCheckInside(parser.fChar, contentEnd, includeToken); } bool Definition::crossCheck(const Definition& includeToken) const { return crossCheckInside(fContentStart, fContentEnd, includeToken); } bool Definition::crossCheckInside(const char* start, const char* end, const Definition& includeToken) const { TextParser def(fFileName, start, end, fLineCount); TextParser inc("", includeToken.fContentStart, includeToken.fContentEnd, 0); if (inc.startsWith("SK_API")) { inc.skipWord("SK_API"); } if (inc.startsWith("friend")) { inc.skipWord("friend"); } if (inc.startsWith("SK_API")) { inc.skipWord("SK_API"); } inc.skipExact("SkDEBUGCODE("); do { bool defEof; bool incEof; do { defEof = def.eof() || !def.skipWhiteSpace(); incEof = inc.eof() || !inc.skipWhiteSpace(); if (!incEof && '/' == inc.peek() && (defEof || '/' != def.peek())) { inc.next(); if ('*' == inc.peek()) { inc.skipToEndBracket("*/"); inc.next(); } else if ('/' == inc.peek()) { inc.skipToEndBracket('\n'); } } else if (!incEof && '#' == inc.peek() && (defEof || '#' != def.peek())) { inc.next(); if (inc.startsWith("if")) { inc.skipToEndBracket("\n"); } else if (inc.startsWith("endif")) { inc.skipToEndBracket("\n"); } else { SkASSERT(0); // incomplete return false; } } else { break; } inc.next(); } while (true); if (defEof || incEof) { if (defEof == incEof || (!defEof && ';' == def.peek())) { return true; } return false; // allow setting breakpoint on failure } char defCh; do { defCh = def.next(); char incCh = inc.next(); if (' ' >= defCh && ' ' >= incCh) { break; } if (defCh != incCh) { if ('_' != defCh || ' ' != incCh || !fOperatorConst || !def.startsWith("const")) { return false; } } if (';' == defCh) { return true; } } while (!def.eof() && !inc.eof()); } while (true); return false; } string Definition::formatFunction(Format format) const { const char* end = fContentStart; while (end > fStart && ' ' >= end[-1]) { --end; } TextParser methodParser(fFileName, fStart, end, fLineCount); methodParser.skipWhiteSpace(); SkASSERT(methodParser.startsWith("#Method")); methodParser.skipName("#Method"); methodParser.skipSpace(); const char* lastStart = methodParser.fChar; const int limit = 100; // todo: allow this to be set by caller or in global or something string name = this->methodName(); const char* nameInParser = methodParser.strnstr(name.c_str(), methodParser.fEnd); methodParser.skipTo(nameInParser); const char* lastEnd = methodParser.fChar; if (Format::kOmitReturn == format) { lastStart = lastEnd; } const char* paren = methodParser.strnchr('(', methodParser.fEnd); size_t indent; if (paren) { indent = (size_t) (paren - lastStart) + 1; } else { indent = (size_t) (lastEnd - lastStart); } // trim indent so longest line doesn't exceed box width TextParserSave savePlace(&methodParser); const char* saveStart = lastStart; ptrdiff_t maxLine = 0; do { const char* nextStart = lastEnd; const char* delimiter = methodParser.anyOf(",)"); const char* nextEnd = delimiter ? delimiter : methodParser.fEnd; if (delimiter) { while (nextStart < nextEnd && ' ' >= nextStart[0]) { ++nextStart; } } while (nextEnd > nextStart && ' ' >= nextEnd[-1]) { --nextEnd; } if (delimiter) { nextEnd += 1; delimiter += 1; } if (lastEnd > lastStart) { maxLine = SkTMax(maxLine, lastEnd - lastStart); } if (delimiter) { methodParser.skipTo(delimiter); } lastStart = nextStart; lastEnd = nextEnd; } while (lastStart < lastEnd); savePlace.restore(); lastStart = saveStart; lastEnd = methodParser.fChar; indent = SkTMin(indent, (size_t) (limit - maxLine)); // write string wtih trimmmed indent string methodStr; int written = 0; do { const char* nextStart = lastEnd; SkASSERT(written < limit); const char* delimiter = methodParser.anyOf(",)"); const char* nextEnd = delimiter ? delimiter : methodParser.fEnd; if (delimiter) { while (nextStart < nextEnd && ' ' >= nextStart[0]) { ++nextStart; } } while (nextEnd > nextStart && ' ' >= nextEnd[-1]) { --nextEnd; } if (delimiter) { nextEnd += 1; delimiter += 1; } if (lastEnd > lastStart) { if (lastStart[0] != ' ') { space_pad(&methodStr); } methodStr += string(lastStart, (size_t) (lastEnd - lastStart)); written += (size_t) (lastEnd - lastStart); } if (delimiter) { if (nextEnd - nextStart >= (ptrdiff_t) (limit - written)) { written = indent; if (Format::kIncludeReturn == format) { methodStr += '\n'; methodStr += string(indent, ' '); } } methodParser.skipTo(delimiter); } lastStart = nextStart; lastEnd = nextEnd; } while (lastStart < lastEnd); return methodStr; } string Definition::fiddleName() const { string result; size_t start = 0; string parent; const Definition* parentDef = this; while ((parentDef = parentDef->fParent)) { if (MarkType::kClass == parentDef->fMarkType || MarkType::kStruct == parentDef->fMarkType) { parent = parentDef->fFiddle; break; } } if (parent.length() && 0 == fFiddle.compare(0, parent.length(), parent)) { start = parent.length(); while (start < fFiddle.length() && '_' == fFiddle[start]) { ++start; } } size_t end = fFiddle.find_first_of('(', start); return fFiddle.substr(start, end - start); } const Definition* Definition::findClone(string match) const { for (auto child : fChildren) { if (!child->fClone) { continue; } if (match == child->fName) { return child; } auto inner = child->findClone(match); if (inner) { return inner; } } return nullptr; } const Definition* Definition::hasChild(MarkType markType) const { for (auto iter : fChildren) { if (markType == iter->fMarkType) { return iter; } } return nullptr; } const Definition* Definition::hasParam(const string& ref) const { SkASSERT(MarkType::kMethod == fMarkType); for (auto iter : fChildren) { if (MarkType::kParam != iter->fMarkType) { continue; } if (iter->fName == ref) { return &*iter; } } return nullptr; } bool Definition::hasMatch(const string& name) const { for (auto child : fChildren) { if (name == child->fName) { return true; } if (child->hasMatch(name)) { return true; } } return false; } bool Definition::isStructOrClass() const { if (MarkType::kStruct != fMarkType && MarkType::kClass != fMarkType) { return false; } if (string::npos != fFileName.find("undocumented.bmh")) { return false; } return true; } bool Definition::methodHasReturn(const string& name, TextParser* methodParser) const { if (methodParser->skipExact("static")) { methodParser->skipWhiteSpace(); } const char* lastStart = methodParser->fChar; const char* nameInParser = methodParser->strnstr(name.c_str(), methodParser->fEnd); methodParser->skipTo(nameInParser); const char* lastEnd = methodParser->fChar; const char* returnEnd = lastEnd; while (returnEnd > lastStart && ' ' == returnEnd[-1]) { --returnEnd; } bool expectReturn = 4 != returnEnd - lastStart || strncmp("void", lastStart, 4); if (MethodType::kNone != fMethodType && MethodType::kOperator != fMethodType && !expectReturn) { return methodParser->reportError("unexpected void"); } switch (fMethodType) { case MethodType::kNone: case MethodType::kOperator: // either is fine break; case MethodType::kConstructor: expectReturn = true; break; case MethodType::kDestructor: expectReturn = false; break; } return expectReturn; } string Definition::methodName() const { string result; size_t start = 0; string parent; const Definition* parentDef = this; while ((parentDef = parentDef->fParent)) { if (MarkType::kClass == parentDef->fMarkType || MarkType::kStruct == parentDef->fMarkType) { parent = parentDef->fName; break; } } if (parent.length() && 0 == fName.compare(0, parent.length(), parent)) { start = parent.length(); while (start < fName.length() && ':' == fName[start]) { ++start; } } if (fClone) { int lastUnder = fName.rfind('_'); return fName.substr(start, (size_t) (lastUnder - start)); } size_t end = fName.find_first_of('(', start); if (string::npos == end) { return fName.substr(start); } return fName.substr(start, end - start); } bool Definition::nextMethodParam(TextParser* methodParser, const char** nextEndPtr, string* paramName) const { int parenCount = 0; TextParserSave saveState(methodParser); while (true) { if (methodParser->eof()) { return methodParser->reportError("#Method function missing close paren"); } char ch = methodParser->peek(); if ('(' == ch) { ++parenCount; } if (parenCount == 0 && (')' == ch || ',' == ch)) { *nextEndPtr = methodParser->fChar; break; } if (')' == ch) { if (0 > --parenCount) { return this->reportError("mismatched parentheses"); } } methodParser->next(); } saveState.restore(); const char* nextEnd = *nextEndPtr; const char* paramEnd = nextEnd; const char* assign = methodParser->strnstr(" = ", paramEnd); if (assign) { paramEnd = assign; } const char* closeBracket = methodParser->strnstr("]", paramEnd); if (closeBracket) { const char* openBracket = methodParser->strnstr("[", paramEnd); if (openBracket && openBracket < closeBracket) { while (openBracket < --closeBracket && isdigit(closeBracket[0])) ; if (openBracket == closeBracket) { paramEnd = openBracket; } } } const char* function = methodParser->strnstr(")(", paramEnd); if (function) { paramEnd = function; } while (paramEnd > methodParser->fChar && ' ' == paramEnd[-1]) { --paramEnd; } const char* paramStart = paramEnd; while (paramStart > methodParser->fChar && isalnum(paramStart[-1])) { --paramStart; } if (paramStart > methodParser->fChar && paramStart >= paramEnd) { return methodParser->reportError("#Method missing param name"); } *paramName = string(paramStart, paramEnd - paramStart); if (!paramName->length()) { if (')' != nextEnd[0]) { return methodParser->reportError("#Method malformed param"); } return false; } return true; } string Definition::NormalizedName(string name) { string normalizedName = name; std::replace(normalizedName.begin(), normalizedName.end(), '-', '_'); do { size_t doubleColon = normalizedName.find("::", 0); if (string::npos == doubleColon) { break; } normalizedName = normalizedName.substr(0, doubleColon) + '_' + normalizedName.substr(doubleColon + 2); } while (true); return normalizedName; } static string unpreformat(const string& orig) { string result; int amp = 0; for (auto c : orig) { switch (amp) { case 0: if ('&' == c) { amp = 1; } else { amp = 0; result += c; } break; case 1: if ('l' == c) { amp = 2; } else if ('g' == c) { amp = 3; } else { amp = 0; result += "&"; result += c; } break; case 2: if ('t' == c) { amp = 4; } else { amp = 0; result += "&l"; result += c; } break; case 3: if ('t' == c) { amp = 5; } else { amp = 0; result += "&g"; result += c; } break; case 4: if (';' == c) { result += '<'; } else { result += "<"; result += c; } amp = 0; break; case 5: if (';' == c) { result += '>'; } else { result += ">"; result += c; } amp = 0; break; } } return result; } bool Definition::paramsMatch(const string& matchFormatted, const string& name) const { string match = unpreformat(matchFormatted); TextParser def(fFileName, fStart, fContentStart, fLineCount); const char* dName = def.strnstr(name.c_str(), fContentStart); if (!dName) { return false; } def.skipTo(dName); TextParser m(fFileName, &match.front(), &match.back() + 1, fLineCount); const char* mName = m.strnstr(name.c_str(), m.fEnd); if (!mName) { return false; } m.skipTo(mName); while (!def.eof() && ')' != def.peek() && !m.eof() && ')' != m.peek()) { const char* ds = def.fChar; const char* ms = m.fChar; const char* de = def.anyOf(") \n"); const char* me = m.anyOf(") \n"); def.skipTo(de); m.skipTo(me); if (def.fChar - ds != m.fChar - ms) { return false; } if (strncmp(ds, ms, (int) (def.fChar - ds))) { return false; } def.skipWhiteSpace(); m.skipWhiteSpace(); } return !def.eof() && ')' == def.peek() && !m.eof() && ')' == m.peek(); } void RootDefinition::clearVisited() { fVisited = false; for (auto& leaf : fLeaves) { leaf.second.fVisited = false; } for (auto& branch : fBranches) { branch.second->clearVisited(); } } bool RootDefinition::dumpUnVisited() { bool success = true; for (auto& leaf : fLeaves) { if (!leaf.second.fVisited) { // FIXME: bugs requiring long tail fixes, suppressed here: // SkBitmap::validate() is wrapped in SkDEBUGCODE in .h and not parsed if ("SkBitmap::validate()" == leaf.first) { continue; } // SkPath::pathRefIsValid in #ifdef ; prefer to remove chrome dependency to fix if ("SkPath::pathRefIsValid" == leaf.first) { continue; } // FIXME: end of long tail bugs SkDebugf("defined in bmh but missing in include: %s\n", leaf.first.c_str()); success = false; } } for (auto& branch : fBranches) { success &= branch.second->dumpUnVisited(); } return success; } const Definition* RootDefinition::find(const string& ref, AllowParens allowParens) const { const auto leafIter = fLeaves.find(ref); if (leafIter != fLeaves.end()) { return &leafIter->second; } if (AllowParens::kYes == allowParens && string::npos == ref.find("()")) { string withParens = ref + "()"; const auto parensIter = fLeaves.find(withParens); if (parensIter != fLeaves.end()) { return &parensIter->second; } } const auto branchIter = fBranches.find(ref); if (branchIter != fBranches.end()) { const RootDefinition* rootDef = branchIter->second; return rootDef; } const Definition* result = nullptr; for (const auto& branch : fBranches) { const RootDefinition* rootDef = branch.second; result = rootDef->find(ref, allowParens); if (result) { break; } } return result; }