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skia2/tools/bookmaker/bookmaker.h
Cary Clark a523d2d155 fix param return descriptions 
enforce that param and return
descriptions are phrases (begin
with lower case, no trailing
period).

Docs-Preview: https://skia.org/?cl=40767
Bug: skia: 6898
Change-Id: Ib5f2a02441673f71c0780d81c5e4c61200a678e3
Reviewed-on: https://skia-review.googlesource.com/40767
Commit-Queue: Cary Clark <caryclark@skia.org>
Reviewed-by: Cary Clark <caryclark@skia.org>
2017-08-30 13:16:12 +00:00

1909 lines
55 KiB
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/*
* Copyright 2017 Google Inc.
*
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
#ifndef bookmaker_DEFINED
#define bookmaker_DEFINED
#define STDOUT_TO_IDE_OUT 0
#include "SkData.h"
#include <algorithm>
#include <cmath>
#include <cctype>
#include <forward_list>
#include <list>
#include <string>
#include <unordered_map>
#include <vector>
// std::to_string isn't implemented on android
#include <sstream>
template <typename T>
std::string to_string(T value)
{
std::ostringstream os ;
os << value ;
return os.str() ;
}
using std::forward_list;
using std::list;
using std::unordered_map;
using std::string;
using std::vector;
enum class KeyWord {
kNone,
kSK_API,
kBool,
kChar,
kClass,
kConst,
kConstExpr,
kDefine,
kDouble,
kElif,
kElse,
kEndif,
kEnum,
kFloat,
kFriend,
kIf,
kIfdef,
kIfndef,
kInclude,
kInline,
kInt,
kOperator,
kPrivate,
kProtected,
kPublic,
kSigned,
kSize_t,
kStatic,
kStruct,
kTemplate,
kTypedef,
kUint32_t,
kUnion,
kUnsigned,
kVoid,
};
enum class MarkType {
kNone,
kAnchor,
kAlias,
kBug,
kClass,
kCode,
kColumn,
kComment,
kConst,
kDefine,
kDefinedBy,
kDeprecated,
kDescription,
kDoxygen,
kEnum,
kEnumClass,
kError,
kExample,
kExperimental,
kExternal,
kFile,
kFormula,
kFunction,
kHeight,
kImage,
kLegend,
kLink,
kList,
kMarkChar,
kMember,
kMethod,
kNoExample,
kParam,
kPlatform,
kPrivate,
kReturn,
kRoot,
kRow,
kSeeAlso,
kStdOut,
kStruct,
kSubstitute,
kSubtopic,
kTable,
kTemplate,
kText,
kTime,
kToDo,
kTopic,
kTrack,
kTypedef,
kUnion,
kVolatile,
kWidth,
};
enum {
Last_MarkType = (int) MarkType::kWidth,
};
enum class Bracket {
kNone,
kParen,
kSquare,
kBrace,
kAngle,
kString,
kChar,
kSlashStar,
kSlashSlash,
kPound,
kColon,
kDebugCode, // parens get special treatment so SkDEBUGCODE( isn't treated as method
};
enum class Punctuation { // catch-all for misc symbols tracked in C
kNone,
kAsterisk, // for pointer-to
kSemicolon, // e.g., to delinate xxx() const ; const int* yyy()
kLeftBrace,
kColon, // for foo() : bar(1), baz(2) {}
};
static inline bool has_nonwhitespace(const string& s) {
bool nonwhite = false;
for (const char& c : s) {
if (' ' < c) {
nonwhite = true;
break;
}
}
return nonwhite;
}
static inline void trim_end(string &s) {
s.erase(std::find_if(s.rbegin(), s.rend(),
std::not1(std::ptr_fun<int, int>(std::isspace))).base(), s.end());
}
static inline void trim_end_spaces(string &s) {
while (s.length() > 0 && ' ' == s.back()) {
s.pop_back();
}
}
static inline void trim_start(string &s) {
s.erase(s.begin(), std::find_if(s.begin(), s.end(),
std::not1(std::ptr_fun<int, int>(std::isspace))));
}
static inline void trim_start_end(string& s) {
trim_start(s);
trim_end(s);
}
class NonAssignable {
public:
NonAssignable(NonAssignable const&) = delete;
NonAssignable& operator=(NonAssignable const&) = delete;
NonAssignable() {}
};
class Definition;
class TextParser : public NonAssignable {
TextParser() {} // only for ParserCommon to call
friend class ParserCommon;
public:
enum OneLine {
kNo,
kYes
};
class Save {
public:
Save(TextParser* parser) {
fParser = parser;
fLine = parser->fLine;
fChar = parser->fChar;
fLineCount = parser->fLineCount;
}
void restore() const {
fParser->fLine = fLine;
fParser->fChar = fChar;
fParser->fLineCount = fLineCount;
}
private:
TextParser* fParser;
const char* fLine;
const char* fChar;
int fLineCount;
};
TextParser(const string& fileName, const char* start, const char* end, int lineCount)
: fFileName(fileName)
, fStart(start)
, fLine(start)
, fChar(start)
, fEnd(end)
, fLineCount(lineCount)
{
}
TextParser(const Definition* );
const char* anyOf(const char* str) const {
const char* ptr = fChar;
while (ptr < fEnd) {
if (strchr(str, ptr[0])) {
return ptr;
}
++ptr;
}
return nullptr;
}
const char* anyOf(const char* wordStart, const char* wordList[], size_t wordListCount) const {
const char** wordPtr = wordList;
const char** wordEnd = wordPtr + wordListCount;
const size_t matchLen = fChar - wordStart;
while (wordPtr < wordEnd) {
const char* word = *wordPtr++;
if (strlen(word) == matchLen && !strncmp(wordStart, word, matchLen)) {
return word;
}
}
return nullptr;
}
char backup(const char* pattern) const {
size_t len = strlen(pattern);
const char* start = fChar - len;
if (start <= fStart) {
return '\0';
}
if (strncmp(start, pattern, len)) {
return '\0';
}
return start[-1];
}
bool contains(const char* match, const char* lineEnd, const char** loc) const {
*loc = this->strnstr(match, lineEnd);
return *loc;
}
bool eof() const { return fChar >= fEnd; }
const char* lineEnd() const {
const char* ptr = fChar;
do {
if (ptr >= fEnd) {
return ptr;
}
char test = *ptr++;
if (test == '\n' || test == '\0') {
break;
}
} while (true);
return ptr;
}
ptrdiff_t lineLength() const {
return this->lineEnd() - fLine;
}
bool match(TextParser* );
char next() {
SkASSERT(fChar < fEnd);
char result = *fChar++;
if ('\n' == result) {
++fLineCount;
fLine = fChar;
}
return result;
}
char peek() const { SkASSERT(fChar < fEnd); return *fChar; }
void restorePlace(const TextParser& save) {
fChar = save.fChar;
fLine = save.fLine;
fLineCount = save.fLineCount;
}
void savePlace(TextParser* save) {
save->fChar = fChar;
save->fLine = fLine;
save->fLineCount = fLineCount;
}
void reportError(const char* errorStr) const;
void reportWarning(const char* errorStr) const;
template <typename T> T reportError(const char* errorStr) const {
this->reportError(errorStr);
return T();
}
bool sentenceEnd(const char* check) const {
while (check > fStart) {
--check;
if (' ' < check[0] && '.' != check[0]) {
return false;
}
if ('.' == check[0]) {
return ' ' >= check[1];
}
if ('\n' == check[0] && '\n' == check[1]) {
return true;
}
}
return true;
}
bool skipToEndBracket(char endBracket, const char* end = nullptr) {
if (nullptr == end) {
end = fEnd;
}
while (fChar[0] != endBracket) {
if (fChar >= end) {
return false;
}
(void) this->next();
}
return true;
}
bool skipToEndBracket(const char* endBracket) {
size_t len = strlen(endBracket);
while (strncmp(fChar, endBracket, len)) {
if (fChar >= fEnd) {
return false;
}
(void) this->next();
}
return true;
}
bool skipLine() {
return skipToEndBracket('\n');
}
void skipTo(const char* skip) {
while (fChar < skip) {
this->next();
}
}
void skipToAlpha() {
while (fChar < fEnd && !isalpha(fChar[0])) {
fChar++;
}
}
void skipToAlphaNum() {
while (fChar < fEnd && !isalnum(fChar[0])) {
fChar++;
}
}
bool skipExact(const char* pattern) {
if (!this->startsWith(pattern)) {
return false;
}
this->skipName(pattern);
return true;
}
// differs from skipToNonAlphaNum in that a.b isn't considered a full name,
// since a.b can't be found as a named definition
void skipFullName() {
while (fChar < fEnd && (isalnum(fChar[0])
|| '_' == fChar[0] || '-' == fChar[0]
|| (':' == fChar[0] && fChar +1 < fEnd && ':' == fChar[1]))) {
if (':' == fChar[0] && fChar +1 < fEnd && ':' == fChar[1]) {
fChar++;
}
fChar++;
}
}
bool skipToLineStart() {
if (!this->skipLine()) {
return false;
}
if (!this->eof()) {
return this->skipWhiteSpace();
}
return true;
}
void skipToNonAlphaNum() {
while (fChar < fEnd && (isalnum(fChar[0])
|| '_' == fChar[0] || '-' == fChar[0]
|| (':' == fChar[0] && fChar +1 < fEnd && ':' == fChar[1])
|| ('.' == fChar[0] && fChar + 1 < fEnd && isalpha(fChar[1])))) {
if (':' == fChar[0] && fChar +1 < fEnd && ':' == fChar[1]) {
fChar++;
}
fChar++;
}
}
void skipToSpace() {
while (fChar < fEnd && ' ' != fChar[0]) {
fChar++;
}
}
bool skipName(const char* word) {
size_t len = strlen(word);
if (len < (size_t) (fEnd - fChar) && !strncmp(word, fChar, len)) {
fChar += len;
}
return this->eof() || ' ' >= fChar[0];
}
bool skipSpace() {
while (' ' == this->peek()) {
(void) this->next();
if (fChar >= fEnd) {
return false;
}
}
return true;
}
bool skipWord(const char* word) {
if (!this->skipWhiteSpace()) {
return false;
}
const char* save = fChar;
if (!this->skipName(word)) {
fChar = save;
return false;
}
if (!this->skipWhiteSpace()) {
return false;
}
return true;
}
bool skipWhiteSpace() {
while (' ' >= this->peek()) {
(void) this->next();
if (fChar >= fEnd) {
return false;
}
}
return true;
}
bool startsWith(const char* str) const {
size_t len = strlen(str);
ptrdiff_t lineLen = this->lineLength();
return len <= (size_t) lineLen && 0 == strncmp(str, fChar, len);
}
// ignores minor white space differences
bool startsWith(const char* str, size_t oLen) const {
size_t tIndex = 0;
size_t tLen = fEnd - fChar;
size_t oIndex = 0;
while (oIndex < oLen && tIndex < tLen) {
bool tSpace = ' ' >= fChar[tIndex];
bool oSpace = ' ' >= str[oIndex];
if (tSpace != oSpace) {
break;
}
if (tSpace) {
do {
++tIndex;
} while (tIndex < tLen && ' ' >= fChar[tIndex]);
do {
++oIndex;
} while (oIndex < oLen && ' ' >= str[oIndex]);
continue;
}
if (fChar[tIndex] != str[oIndex]) {
break;
}
++tIndex;
++oIndex;
}
return oIndex >= oLen;
}
const char* strnchr(char ch, const char* end) const {
const char* ptr = fChar;
while (ptr < end) {
if (ptr[0] == ch) {
return ptr;
}
++ptr;
}
return nullptr;
}
const char* strnstr(const char *match, const char* end) const {
size_t matchLen = strlen(match);
SkASSERT(matchLen > 0);
ptrdiff_t len = end - fChar;
SkASSERT(len >= 0);
if ((size_t) len < matchLen ) {
return nullptr;
}
size_t count = len - matchLen;
for (size_t index = 0; index <= count; index++) {
if (0 == strncmp(&fChar[index], match, matchLen)) {
return &fChar[index];
}
}
return nullptr;
}
const char* trimmedBracketEnd(const char bracket, OneLine oneLine) const {
int max = (int) (OneLine::kYes == oneLine ? this->lineLength() : fEnd - fChar);
int index = 0;
while (index < max && bracket != fChar[index]) {
++index;
}
SkASSERT(index < max);
while (index > 0 && ' ' >= fChar[index - 1]) {
--index;
}
return fChar + index;
}
const char* trimmedLineEnd() const {
const char* result = this->lineEnd();
while (result > fChar && ' ' >= result[-1]) {
--result;
}
return result;
}
void trimEnd() {
while (fEnd > fStart && ' ' >= fEnd[-1]) {
--fEnd;
}
}
const char* wordEnd() const {
const char* end = fChar;
while (isalnum(end[0]) || '_' == end[0] || '-' == end[0]) {
++end;
}
return end;
}
string fFileName;
const char* fStart;
const char* fLine;
const char* fChar;
const char* fEnd;
size_t fLineCount;
};
class EscapeParser : public TextParser {
public:
EscapeParser(const char* start, const char* end) :
TextParser("", start, end, 0) {
const char* reader = fStart;
fStorage = new char[end - start];
char* writer = fStorage;
while (reader < fEnd) {
char ch = *reader++;
if (ch != '\\') {
*writer++ = ch;
} else {
char ctrl = *reader++;
if (ctrl == 'u') {
unsigned unicode = 0;
for (int i = 0; i < 4; ++i) {
unicode <<= 4;
SkASSERT((reader[0] >= '0' && reader[0] <= '9') ||
(reader[0] >= 'A' && reader[0] <= 'F'));
int nibble = *reader++ - '0';
if (nibble > 9) {
nibble = 'A'- '9' + 1;
}
unicode |= nibble;
}
SkASSERT(unicode < 256);
*writer++ = (unsigned char) unicode;
} else {
SkASSERT(ctrl == 'n');
*writer++ = '\n';
}
}
}
fStart = fLine = fChar = fStorage;
fEnd = writer;
}
virtual ~EscapeParser() {
delete fStorage;
}
private:
char* fStorage;
};
class RootDefinition;
class Definition : public NonAssignable {
public:
enum Type {
kNone,
kWord,
kMark,
kKeyWord,
kBracket,
kPunctuation,
kFileType,
};
enum class TrimExtract {
kNo,
kYes
};
enum class MethodType {
kNone,
kConstructor,
kDestructor,
kOperator,
};
Definition() {}
Definition(const char* start, const char* end, int line, Definition* parent)
: fStart(start)
, fContentStart(start)
, fContentEnd(end)
, fParent(parent)
, fLineCount(line)
, fType(Type::kWord) {
if (parent) {
SkASSERT(parent->fFileName.length() > 0);
fFileName = parent->fFileName;
}
this->setParentIndex();
}
Definition(MarkType markType, const char* start, int line, Definition* parent)
: Definition(markType, start, nullptr, line, parent) {
}
Definition(MarkType markType, const char* start, const char* end, int line, Definition* parent)
: Definition(start, end, line, parent) {
fMarkType = markType;
fType = Type::kMark;
}
Definition(Bracket bracket, const char* start, int lineCount, Definition* parent)
: Definition(start, nullptr, lineCount, parent) {
fBracket = bracket;
fType = Type::kBracket;
}
Definition(KeyWord keyWord, const char* start, const char* end, int lineCount,
Definition* parent)
: Definition(start, end, lineCount, parent) {
fKeyWord = keyWord;
fType = Type::kKeyWord;
}
Definition(Punctuation punctuation, const char* start, int lineCount, Definition* parent)
: Definition(start, nullptr, lineCount, parent) {
fPunctuation = punctuation;
fType = Type::kPunctuation;
}
virtual ~Definition() {}
virtual RootDefinition* asRoot() { SkASSERT(0); return nullptr; }
virtual const RootDefinition* asRoot() const { SkASSERT(0); return nullptr; }
bool 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 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;
}
bool boilerplateEndIf() {
return true;
}
bool checkMethod() const;
void setCanonicalFiddle();
bool crossCheck2(const Definition& includeToken) const;
bool crossCheck(const Definition& includeToken) const;
bool crossCheckInside(const char* start, const char* end, const Definition& includeToken) const;
bool exampleToScript(string* result) const;
string extractText(TrimExtract trimExtract) const {
string result;
TextParser parser(fFileName, fContentStart, fContentEnd, fLineCount);
int childIndex = 0;
char mc = '#';
while (parser.fChar < parser.fEnd) {
if (TrimExtract::kYes == trimExtract && !parser.skipWhiteSpace()) {
break;
}
if (parser.next() == mc) {
if (parser.next() == mc) {
if (parser.next() == mc) {
mc = parser.next();
}
} else {
// fixme : more work to do if # style comment is in text
// if in method definition, could be alternate method name
--parser.fChar;
if (' ' < parser.fChar[0]) {
if (islower(parser.fChar[0])) {
result += '\n';
parser.skipLine();
} else {
SkASSERT(isupper(parser.fChar[0]));
parser.skipTo(fChildren[childIndex]->fTerminator);
if (mc == parser.fChar[0] && mc == parser.fChar[1]) {
parser.next();
parser.next();
}
childIndex++;
}
} else {
parser.skipLine();
}
continue;
}
} else {
--parser.fChar;
}
const char* end = parser.fEnd;
const char* mark = parser.strnchr(mc, end);
if (mark) {
end = mark;
}
string fragment(parser.fChar, end - parser.fChar);
trim_end(fragment);
if (TrimExtract::kYes == trimExtract) {
trim_start(fragment);
if (result.length()) {
result += '\n';
result += '\n';
}
}
if (TrimExtract::kYes == trimExtract || has_nonwhitespace(fragment)) {
result += fragment;
}
parser.skipTo(end);
}
return result;
}
string fiddleName() const;
string formatFunction() const;
const Definition* hasChild(MarkType markType) const;
const Definition* hasParam(const string& ref) const;
bool isClone() const { return fClone; }
Definition* iRootParent() {
Definition* test = fParent;
while (test) {
if (Type::kKeyWord == test->fType && KeyWord::kClass == test->fKeyWord) {
return test;
}
test = test->fParent;
}
return nullptr;
}
virtual bool isRoot() const { return false; }
int length() const {
return (int) (fContentEnd - fContentStart);
}
bool methodHasReturn(const string& name, TextParser* methodParser) const;
string methodName() const;
bool nextMethodParam(TextParser* methodParser, const char** nextEndPtr,
string* paramName) const;
bool paramsMatch(const string& fullRef, const string& name) const;
string printableName() const {
string result(fName);
std::replace(result.begin(), result.end(), '_', ' ');
return result;
}
virtual RootDefinition* rootParent() { SkASSERT(0); return nullptr; }
void setParentIndex() {
fParentIndex = fParent ? (int) fParent->fTokens.size() : -1;
}
string fText; // if text is constructed instead of in a file, it's put here
const char* fStart = nullptr; // .. in original text file, or the start of fText
const char* fContentStart; // start past optional markup name
string fName;
string fFiddle; // if its a constructor or operator, fiddle name goes here
const char* fContentEnd = nullptr; // the end of the contained text
const char* fTerminator = nullptr; // the end of the markup, normally ##\n or \n
Definition* fParent = nullptr;
list<Definition> fTokens;
vector<Definition*> fChildren;
string fHash; // generated by fiddle
string fFileName;
size_t fLineCount = 0;
int fParentIndex = 0;
MarkType fMarkType = MarkType::kNone;
KeyWord fKeyWord = KeyWord::kNone;
Bracket fBracket = Bracket::kNone;
Punctuation fPunctuation = Punctuation::kNone;
MethodType fMethodType = MethodType::kNone;
Type fType = Type::kNone;
bool fClone = false;
bool fCloned = false;
bool fPrivate = false;
bool fShort = false;
bool fMemberStart = false;
mutable bool fVisited = false;
};
class RootDefinition : public Definition {
public:
RootDefinition() {
}
RootDefinition(MarkType markType, const char* start, int line, Definition* parent)
: Definition(markType, start, line, parent) {
}
RootDefinition(MarkType markType, const char* start, const char* end, int line,
Definition* parent) : Definition(markType, start, end, line, parent) {
}
~RootDefinition() override {
for (auto& iter : fBranches) {
delete iter.second;
}
}
RootDefinition* asRoot() override { return this; }
const RootDefinition* asRoot() const override { return this; }
void clearVisited();
bool dumpUnVisited();
const Definition* find(const string& ref) const;
bool isRoot() const override { return true; }
RootDefinition* rootParent() override { return fRootParent; }
void setRootParent(RootDefinition* rootParent) { fRootParent = rootParent; }
unordered_map<string, RootDefinition*> fBranches;
unordered_map<string, Definition> fLeaves;
private:
RootDefinition* fRootParent = nullptr;
};
struct IClassDefinition : public Definition {
unordered_map<string, Definition*> fEnums;
unordered_map<string, Definition*> fMembers;
unordered_map<string, Definition*> fMethods;
unordered_map<string, Definition*> fStructs;
};
struct Reference {
Reference()
: fLocation(nullptr)
, fDefinition(nullptr) {
}
const char* fLocation; // .. in original text file
const Definition* fDefinition;
};
struct TypeNames {
const char* fName;
MarkType fMarkType;
};
class ParserCommon : public TextParser {
public:
ParserCommon() : TextParser()
, fParent(nullptr)
{
}
virtual ~ParserCommon() {
}
void addDefinition(Definition* def) {
fParent->fChildren.push_back(def);
fParent = def;
}
void indentToColumn(int column) {
SkASSERT(column >= fColumn);
#if STDOUT_TO_IDE_OUT
SkDebugf("%*s", column - fColumn, "");
#endif
fprintf(fOut, "%*s", column - fColumn, "");
fColumn = column;
fSpaces += column - fColumn;
}
bool leadingPunctuation(const char* str, size_t len) const {
if (!fPendingSpace) {
return false;
}
if (len < 2) {
return false;
}
if ('.' != str[0] && ',' != str[0] && ';' != str[0] && ':' != str[0]) {
return false;
}
return ' ' >= str[1];
}
void lf(int count) {
fPendingLF = SkTMax(fPendingLF, count);
this->nl();
}
void lfAlways(int count) {
this->lf(count);
this->writePending();
}
void lfcr() {
this->lf(1);
}
void nl() {
fLinefeeds = 0;
fSpaces = 0;
fColumn = 0;
fPendingSpace = false;
}
bool parseFile(const char* file, const char* suffix);
virtual bool parseFromFile(const char* path) = 0;
bool parseSetup(const char* path);
void popObject() {
fParent->fContentEnd = fParent->fTerminator = fChar;
fParent = fParent->fParent;
}
virtual void reset() = 0;
void resetCommon() {
fLine = fChar = fStart;
fLineCount = 0;
fParent = nullptr;
fIndent = 0;
fOut = nullptr;
fMaxLF = 2;
fPendingLF = 0;
fPendingSpace = false;
nl();
}
void setAsParent(Definition* definition) {
if (fParent) {
fParent->fChildren.push_back(definition);
definition->fParent = fParent;
}
fParent = definition;
}
void singleLF() {
fMaxLF = 1;
}
bool writeBlockTrim(int size, const char* data) {
while (size && ' ' >= data[0]) {
++data;
--size;
}
while (size && ' ' >= data[size - 1]) {
--size;
}
if (size <= 0) {
return false;
}
SkASSERT(size < 16000);
if (size > 3 && !strncmp("#end", data, 4)) {
fMaxLF = 1;
}
if (this->leadingPunctuation(data, (size_t) size)) {
fPendingSpace = false;
}
writePending();
#if STDOUT_TO_IDE_OUT
string check(data, size);
SkDebugf("%s", check.c_str());
#endif
fprintf(fOut, "%.*s", size, data);
int added = 0;
while (size > 0 && '\n' != data[--size]) {
++added;
}
fColumn = size ? added : fColumn + added;
fSpaces = 0;
fLinefeeds = 0;
fMaxLF = added > 2 && !strncmp("#if", &data[size + (size > 0)], 3) ? 1 : 2;
return true;
}
void writeBlock(int size, const char* data) {
SkAssertResult(writeBlockTrim(size, data));
}
void writeCommentHeader() {
this->lf(2);
this->writeString("/**");
this->writeSpace();
}
void writeCommentTrailer() {
this->writeString("*/");
this->lfcr();
}
// write a pending space, so that two consecutive calls
// don't double write, and trailing spaces on lines aren't written
void writeSpace() {
SkASSERT(!fPendingLF);
SkASSERT(!fLinefeeds);
SkASSERT(fColumn > 0);
SkASSERT(!fSpaces);
fPendingSpace = true;
}
void writeString(const char* str) {
SkASSERT(strlen(str) > 0);
SkASSERT(' ' < str[0]);
SkASSERT(' ' < str[strlen(str) - 1]);
if (this->leadingPunctuation(str, strlen(str))) {
fPendingSpace = false;
}
writePending();
#if STDOUT_TO_IDE_OUT
SkDebugf("%s", str);
#endif
SkASSERT(!strchr(str, '\n'));
fprintf(fOut, "%s", str);
fColumn += strlen(str);
fSpaces = 0;
fLinefeeds = 0;
fMaxLF = 2;
}
void writePending() {
fPendingLF = SkTMin(fPendingLF, fMaxLF);
bool wroteLF = false;
while (fLinefeeds < fPendingLF) {
#if STDOUT_TO_IDE_OUT
SkDebugf("\n");
#endif
fprintf(fOut, "\n");
++fLinefeeds;
wroteLF = true;
}
fPendingLF = 0;
if (wroteLF) {
SkASSERT(0 == fColumn);
SkASSERT(fIndent >= fSpaces);
#if STDOUT_TO_IDE_OUT
SkDebugf("%*s", fIndent - fSpaces, "");
#endif
fprintf(fOut, "%*s", fIndent - fSpaces, "");
fColumn = fIndent;
fSpaces = fIndent;
}
if (fPendingSpace) {
#if STDOUT_TO_IDE_OUT
SkDebugf(" ");
#endif
fprintf(fOut, " ");
++fColumn;
fPendingSpace = false;
}
}
unordered_map<string, sk_sp<SkData>> fRawData;
unordered_map<string, vector<char>> fLFOnly;
Definition* fParent;
FILE* fOut;
int fLinefeeds; // number of linefeeds last written, zeroed on non-space
int fMaxLF; // number of linefeeds allowed
int fPendingLF; // number of linefeeds to write (can be suppressed)
int fSpaces; // number of spaces (indent) last written, zeroed on non-space
int fColumn; // current column; number of chars past last linefeed
int fIndent; // desired indention
bool fPendingSpace; // a space should preceed the next string or block
private:
typedef TextParser INHERITED;
};
class BmhParser : public ParserCommon {
public:
enum class MarkLookup {
kRequire,
kAllowUnknown,
};
enum class Resolvable {
kNo, // neither resolved nor output
kYes, // resolved, output
kOut, // not resolved, but output
};
enum class Exemplary {
kNo,
kYes,
kOptional,
};
#define M(mt) (1LL << (int) MarkType::k##mt)
#define M_D M(Description)
#define M_CS M(Class) | M(Struct)
#define M_ST M(Subtopic) | M(Topic)
#define M_CSST M_CS | M_ST
#ifdef M_E
#undef M_E
#endif
#define M_E M(Enum) | M(EnumClass)
#define R_Y Resolvable::kYes
#define R_N Resolvable::kNo
#define R_O Resolvable::kOut
#define E_Y Exemplary::kYes
#define E_N Exemplary::kNo
#define E_O Exemplary::kOptional
BmhParser() : ParserCommon()
, fMaps {
// names without formal definitions (e.g. Column) aren't included
// fill in other names once they're actually used
{ "", nullptr, MarkType::kNone, R_Y, E_N, 0 }
, { "A", nullptr, MarkType::kAnchor, R_Y, E_N, 0 }
, { "Alias", nullptr, MarkType::kAlias, R_N, E_N, 0 }
, { "Bug", nullptr, MarkType::kBug, R_N, E_N, 0 }
, { "Class", &fClassMap, MarkType::kClass, R_Y, E_O, M_CSST | M(Root) }
, { "Code", nullptr, MarkType::kCode, R_Y, E_N, M_CSST | M_E }
, { "", nullptr, MarkType::kColumn, R_Y, E_N, M(Row) }
, { "", nullptr, MarkType::kComment, R_N, E_N, 0 }
, { "Const", &fConstMap, MarkType::kConst, R_Y, E_N, M_E | M_ST }
, { "Define", nullptr, MarkType::kDefine, R_O, E_N, M_ST }
, { "DefinedBy", nullptr, MarkType::kDefinedBy, R_N, E_N, M(Method) }
, { "Deprecated", nullptr, MarkType::kDeprecated, R_Y, E_N, 0 }
, { "Description", nullptr, MarkType::kDescription, R_Y, E_N, M(Example) }
, { "Doxygen", nullptr, MarkType::kDoxygen, R_Y, E_N, 0 }
, { "Enum", &fEnumMap, MarkType::kEnum, R_Y, E_O, M_CSST | M(Root) }
, { "EnumClass", &fClassMap, MarkType::kEnumClass, R_Y, E_O, M_CSST | M(Root) }
, { "Error", nullptr, MarkType::kError, R_N, E_N, M(Example) }
, { "Example", nullptr, MarkType::kExample, R_O, E_N, M_CSST | M_E | M(Method) }
, { "Experimental", nullptr, MarkType::kExperimental, R_Y, E_N, 0 }
, { "External", nullptr, MarkType::kExternal, R_Y, E_N, M(Root) }
, { "File", nullptr, MarkType::kFile, R_N, E_N, M(Track) }
, { "Formula", nullptr, MarkType::kFormula, R_O, E_N, M_ST | M(Member) | M(Method) | M_D }
, { "Function", nullptr, MarkType::kFunction, R_O, E_N, M(Example) }
, { "Height", nullptr, MarkType::kHeight, R_N, E_N, M(Example) }
, { "Image", nullptr, MarkType::kImage, R_N, E_N, M(Example) }
, { "Legend", nullptr, MarkType::kLegend, R_Y, E_N, M(Table) }
, { "", nullptr, MarkType::kLink, R_Y, E_N, M(Anchor) }
, { "List", nullptr, MarkType::kList, R_Y, E_N, M(Method) | M_CSST | M_E | M_D }
, { "", nullptr, MarkType::kMarkChar, R_N, E_N, 0 }
, { "Member", nullptr, MarkType::kMember, R_Y, E_N, M(Class) | M(Struct) }
, { "Method", &fMethodMap, MarkType::kMethod, R_Y, E_Y, M_CSST }
, { "NoExample", nullptr, MarkType::kNoExample, R_Y, E_N, 0 }
, { "Param", nullptr, MarkType::kParam, R_Y, E_N, M(Method) }
, { "Platform", nullptr, MarkType::kPlatform, R_Y, E_N, M(Example) }
, { "Private", nullptr, MarkType::kPrivate, R_N, E_N, 0 }
, { "Return", nullptr, MarkType::kReturn, R_Y, E_N, M(Method) }
, { "", nullptr, MarkType::kRoot, R_Y, E_N, 0 }
, { "", nullptr, MarkType::kRow, R_Y, E_N, M(Table) | M(List) }
, { "SeeAlso", nullptr, MarkType::kSeeAlso, R_Y, E_N, M_CSST | M_E | M(Method) }
, { "StdOut", nullptr, MarkType::kStdOut, R_N, E_N, M(Example) }
, { "Struct", &fClassMap, MarkType::kStruct, R_Y, E_O, M(Class) | M(Root) | M_ST }
, { "Substitute", nullptr, MarkType::kSubstitute, R_N, E_N, M_ST }
, { "Subtopic", nullptr, MarkType::kSubtopic, R_Y, E_Y, M_CSST }
, { "Table", nullptr, MarkType::kTable, R_Y, E_N, M(Method) | M_CSST | M_E }
, { "Template", nullptr, MarkType::kTemplate, R_Y, E_N, 0 }
, { "", nullptr, MarkType::kText, R_Y, E_N, 0 }
, { "Time", nullptr, MarkType::kTime, R_Y, E_N, M(Track) }
, { "ToDo", nullptr, MarkType::kToDo, R_N, E_N, 0 }
, { "Topic", nullptr, MarkType::kTopic, R_Y, E_Y, M_CS | M(Root) | M(Topic) }
, { "Track", nullptr, MarkType::kTrack, R_Y, E_N, M_E | M_ST }
, { "Typedef", &fTypedefMap, MarkType::kTypedef, R_Y, E_N, M(Subtopic) | M(Topic) }
, { "", nullptr, MarkType::kUnion, R_Y, E_N, 0 }
, { "Volatile", nullptr, MarkType::kVolatile, R_N, E_N, M(StdOut) }
, { "Width", nullptr, MarkType::kWidth, R_N, E_N, M(Example) } }
{
this->reset();
}
#undef R_O
#undef R_N
#undef R_Y
#undef M_E
#undef M_CSST
#undef M_ST
#undef M_CS
#undef M_D
#undef M
~BmhParser() override {}
bool addDefinition(const char* defStart, bool hasEnd, MarkType markType,
const vector<string>& typeNameBuilder);
bool checkExamples() const;
bool checkParamReturn(const Definition* definition) const;
bool dumpExamples(const char* fiddleJsonFileName) const;
bool childOf(MarkType markType) const;
string className(MarkType markType);
bool collectExternals();
int endHashCount() const;
RootDefinition* findBmhObject(MarkType markType, const string& typeName) {
auto map = fMaps[(int) markType].fBmh;
if (!map) {
return nullptr;
}
return &(*map)[typeName];
}
bool findDefinitions();
MarkType getMarkType(MarkLookup lookup) const;
bool hasEndToken() const;
string memberName();
string methodName();
const Definition* parentSpace() const;
bool parseFromFile(const char* path) override {
if (!INHERITED::parseSetup(path)) {
return false;
}
fCheckMethods = !strstr(path, "undocumented.bmh");
return findDefinitions();
}
bool popParentStack(Definition* definition);
void reportDuplicates(const Definition& def, const string& dup) const;
void reset() override {
INHERITED::resetCommon();
fRoot = nullptr;
fMC = '#';
fInChar = false;
fInCharCommentString = false;
fInComment = false;
fInEnum = false;
fInString = false;
fCheckMethods = false;
}
bool skipNoName();
bool skipToDefinitionEnd(MarkType markType);
void spellCheck(const char* match) const;
vector<string> topicName();
vector<string> typeName(MarkType markType, bool* expectEnd);
string uniqueName(const string& base, MarkType markType);
string uniqueRootName(const string& base, MarkType markType);
void validate() const;
string word(const string& prefix, const string& delimiter);
public:
struct DefinitionMap {
const char* fName;
unordered_map<string, RootDefinition>* fBmh;
MarkType fMarkType;
Resolvable fResolve;
Exemplary fExemplary; // worthy of an example
uint64_t fParentMask;
};
DefinitionMap fMaps[Last_MarkType + 1];
forward_list<RootDefinition> fTopics;
forward_list<Definition> fMarkup;
forward_list<RootDefinition> fExternals;
vector<string> fInputFiles;
unordered_map<string, RootDefinition> fClassMap;
unordered_map<string, RootDefinition> fConstMap;
unordered_map<string, RootDefinition> fEnumMap;
unordered_map<string, RootDefinition> fMethodMap;
unordered_map<string, RootDefinition> fTypedefMap;
unordered_map<string, Definition*> fTopicMap;
unordered_map<string, Definition*> fAliasMap;
RootDefinition* fRoot;
mutable char fMC; // markup character
bool fAnonymous;
bool fCloned;
bool fInChar;
bool fInCharCommentString;
bool fInEnum;
bool fInComment;
bool fInString;
bool fCheckMethods;
private:
typedef ParserCommon INHERITED;
};
class IncludeParser : public ParserCommon {
public:
enum class IsStruct {
kNo,
kYes,
};
IncludeParser() : ParserCommon()
, fMaps {
{ nullptr, MarkType::kNone }
, { nullptr, MarkType::kAnchor }
, { nullptr, MarkType::kAlias }
, { nullptr, MarkType::kBug }
, { nullptr, MarkType::kClass }
, { nullptr, MarkType::kCode }
, { nullptr, MarkType::kColumn }
, { nullptr, MarkType::kComment }
, { nullptr, MarkType::kConst }
, { &fIDefineMap, MarkType::kDefine }
, { nullptr, MarkType::kDefinedBy }
, { nullptr, MarkType::kDeprecated }
, { nullptr, MarkType::kDescription }
, { nullptr, MarkType::kDoxygen }
, { &fIEnumMap, MarkType::kEnum }
, { &fIEnumMap, MarkType::kEnumClass }
, { nullptr, MarkType::kError }
, { nullptr, MarkType::kExample }
, { nullptr, MarkType::kExperimental }
, { nullptr, MarkType::kExternal }
, { nullptr, MarkType::kFile }
, { nullptr, MarkType::kFormula }
, { nullptr, MarkType::kFunction }
, { nullptr, MarkType::kHeight }
, { nullptr, MarkType::kImage }
, { nullptr, MarkType::kLegend }
, { nullptr, MarkType::kLink }
, { nullptr, MarkType::kList }
, { nullptr, MarkType::kMarkChar }
, { nullptr, MarkType::kMember }
, { nullptr, MarkType::kMethod }
, { nullptr, MarkType::kNoExample }
, { nullptr, MarkType::kParam }
, { nullptr, MarkType::kPlatform }
, { nullptr, MarkType::kPrivate }
, { nullptr, MarkType::kReturn }
, { nullptr, MarkType::kRoot }
, { nullptr, MarkType::kRow }
, { nullptr, MarkType::kSeeAlso }
, { nullptr, MarkType::kStdOut }
, { &fIStructMap, MarkType::kStruct }
, { nullptr, MarkType::kSubstitute }
, { nullptr, MarkType::kSubtopic }
, { nullptr, MarkType::kTable }
, { &fITemplateMap, MarkType::kTemplate }
, { nullptr, MarkType::kText }
, { nullptr, MarkType::kTime }
, { nullptr, MarkType::kToDo }
, { nullptr, MarkType::kTopic }
, { nullptr, MarkType::kTrack }
, { &fITypedefMap, MarkType::kTypedef }
, { &fIUnionMap, MarkType::kUnion }
, { nullptr, MarkType::kVolatile }
, { nullptr, MarkType::kWidth } }
{
this->reset();
}
~IncludeParser() override {}
void addKeyword(KeyWord keyWord);
void addPunctuation(Punctuation punctuation) {
fParent->fTokens.emplace_back(punctuation, fChar, fLineCount, fParent);
}
void addWord() {
fParent->fTokens.emplace_back(fIncludeWord, fChar, fLineCount, fParent);
fIncludeWord = nullptr;
}
void checkForMissingParams(const vector<string>& methodParams,
const vector<string>& foundParams);
bool checkForWord();
string className() const;
bool crossCheck(BmhParser& );
IClassDefinition* defineClass(const Definition& includeDef, const string& className);
void dumpClassTokens(IClassDefinition& classDef);
void dumpComment(Definition* token);
void dumpTokens();
bool findComments(const Definition& includeDef, Definition* markupDef);
Definition* findIncludeObject(const Definition& includeDef, MarkType markType,
const string& typeName) {
typedef Definition* DefinitionPtr;
unordered_map<string, Definition>* map = fMaps[(int) markType].fInclude;
if (!map) {
return reportError<DefinitionPtr>("invalid mark type");
}
string name = this->uniqueName(*map, typeName);
Definition& markupDef = (*map)[name];
if (markupDef.fStart) {
return reportError<DefinitionPtr>("definition already defined");
}
markupDef.fFileName = fFileName;
markupDef.fStart = includeDef.fStart;
markupDef.fContentStart = includeDef.fStart;
markupDef.fName = name;
markupDef.fContentEnd = includeDef.fContentEnd;
markupDef.fTerminator = includeDef.fTerminator;
markupDef.fParent = fParent;
markupDef.fLineCount = includeDef.fLineCount;
markupDef.fMarkType = markType;
markupDef.fKeyWord = includeDef.fKeyWord;
markupDef.fType = Definition::Type::kMark;
return &markupDef;
}
static KeyWord FindKey(const char* start, const char* end);
bool internalName(const Definition& ) const;
void keywordEnd();
void keywordStart(const char* keyword);
bool parseChar();
bool parseComment(const string& filename, const char* start, const char* end, int lineCount,
Definition* markupDef);
bool parseClass(Definition* def, IsStruct);
bool parseDefine();
bool parseEnum(Definition* child, Definition* markupDef);
bool parseFromFile(const char* path) override {
if (!INHERITED::parseSetup(path)) {
return false;
}
string name(path);
return parseInclude(name);
}
bool parseInclude(const string& name);
bool parseMember(Definition* child, Definition* markupDef);
bool parseMethod(Definition* child, Definition* markupDef);
bool parseObject(Definition* child, Definition* markupDef);
bool parseObjects(Definition* parent, Definition* markupDef);
bool parseTemplate();
bool parseTypedef();
bool parseUnion();
void popBracket() {
SkASSERT(Definition::Type::kBracket == fParent->fType);
this->popObject();
Bracket bracket = this->topBracket();
this->setBracketShortCuts(bracket);
}
void pushBracket(Bracket bracket) {
this->setBracketShortCuts(bracket);
fParent->fTokens.emplace_back(bracket, fChar, fLineCount, fParent);
Definition* container = &fParent->fTokens.back();
this->addDefinition(container);
}
void reset() override {
INHERITED::resetCommon();
fRootTopic = nullptr;
fInBrace = nullptr;
fIncludeWord = nullptr;
fLastObject = nullptr;
fPrev = '\0';
fInChar = false;
fInCharCommentString = false;
fInComment = false;
fInEnum = false;
fInFunction = false;
fInString = false;
}
void setBracketShortCuts(Bracket bracket) {
fInComment = Bracket::kSlashSlash == bracket || Bracket::kSlashStar == bracket;
fInString = Bracket::kString == bracket;
fInChar = Bracket::kChar == bracket;
fInCharCommentString = fInChar || fInComment || fInString;
}
Bracket topBracket() const {
Definition* parent = fParent;
while (parent && Definition::Type::kBracket != parent->fType) {
parent = parent->fParent;
}
return parent ? parent->fBracket : Bracket::kNone;
}
template <typename T>
string uniqueName(const unordered_map<string, T>& m, const string& typeName) {
string base(typeName.size() > 0 ? typeName : "_anonymous");
string name(base);
int anonCount = 1;
do {
auto iter = m.find(name);
if (iter == m.end()) {
return name;
}
name = base + '_';
name += to_string(++anonCount);
} while (true);
// should never get here
return string();
}
void validate() const;
protected:
static void ValidateKeyWords();
struct DefinitionMap {
unordered_map<string, Definition>* fInclude;
MarkType fMarkType;
};
DefinitionMap fMaps[Last_MarkType + 1];
unordered_map<string, Definition> fIncludeMap;
unordered_map<string, IClassDefinition> fIClassMap;
unordered_map<string, Definition> fIDefineMap;
unordered_map<string, Definition> fIEnumMap;
unordered_map<string, Definition> fIStructMap;
unordered_map<string, Definition> fITemplateMap;
unordered_map<string, Definition> fITypedefMap;
unordered_map<string, Definition> fIUnionMap;
Definition* fRootTopic;
Definition* fInBrace;
Definition* fLastObject;
const char* fIncludeWord;
char fPrev;
bool fInChar;
bool fInCharCommentString;
bool fInComment;
bool fInEnum;
bool fInFunction;
bool fInString;
typedef ParserCommon INHERITED;
};
class IncludeWriter : public IncludeParser {
public:
enum class Word {
kStart,
kCap,
kFirst,
kUnderline,
kMixed,
};
enum class PunctuationState {
kStart,
kDelimiter,
kPeriod,
kSpace,
};
enum class Wrote {
kNone,
kLF,
kChars,
};
struct IterState {
IterState (list<Definition>::iterator tIter, list<Definition>::iterator tIterEnd)
: fDefIter(tIter)
, fDefEnd(tIterEnd) {
}
list<Definition>::iterator fDefIter;
list<Definition>::iterator fDefEnd;
};
struct ParentPair {
const Definition* fParent;
const ParentPair* fPrev;
};
IncludeWriter() : IncludeParser() {}
~IncludeWriter() override {}
bool contentFree(int size, const char* data) const {
while (size > 0 && data[0] <= ' ') {
--size;
++data;
}
while (size > 0 && data[size - 1] <= ' ') {
--size;
}
return 0 == size;
}
void enumHeaderOut(const RootDefinition* root, const Definition& child);
void enumMembersOut(const RootDefinition* root, Definition& child);
void enumSizeItems(const Definition& child);
int lookupMethod(const PunctuationState punctuation, const Word word,
const int start, const int run, int lastWrite,
const char* data);
int lookupReference(const PunctuationState punctuation, const Word word,
const int start, const int run, int lastWrite, const char last,
const char* data);
void methodOut(const Definition* method, const Definition& child);
bool populate(Definition* def, ParentPair* parentPair, RootDefinition* root);
bool populate(BmhParser& bmhParser);
void reset() override {
INHERITED::resetCommon();
fBmhMethod = nullptr;
fBmhParser = nullptr;
fEnumDef = nullptr;
fMethodDef = nullptr;
fStructDef = nullptr;
fAttrDeprecated = nullptr;
fAnonymousEnumCount = 1;
fInStruct = false;
}
string resolveMethod(const char* start, const char* end, bool first);
string resolveRef(const char* start, const char* end, bool first);
Wrote rewriteBlock(int size, const char* data);
Definition* structMemberOut(const Definition* memberStart, const Definition& child);
void structOut(const Definition* root, const Definition& child,
const char* commentStart, const char* commentEnd);
void structSizeMembers(Definition& child);
private:
BmhParser* fBmhParser;
Definition* fDeferComment;
Definition* fLastComment;
const Definition* fBmhMethod;
const Definition* fEnumDef;
const Definition* fMethodDef;
const Definition* fStructDef;
const Definition* fAttrDeprecated;
const char* fContinuation; // used to construct paren-qualified method name
int fAnonymousEnumCount;
int fEnumItemValueTab;
int fEnumItemCommentTab;
int fStructMemberTab;
int fStructValueTab;
int fStructCommentTab;
bool fInStruct;
typedef IncludeParser INHERITED;
};
class FiddleParser : public ParserCommon {
public:
FiddleParser(BmhParser* bmh) : ParserCommon()
, fBmhParser(bmh) {
this->reset();
}
Definition* findExample(const string& name) const;
bool parseFromFile(const char* path) override {
if (!INHERITED::parseSetup(path)) {
return false;
}
return parseFiddles();
}
void reset() override {
INHERITED::resetCommon();
}
private:
bool parseFiddles();
BmhParser* fBmhParser; // must be writable; writes example hash
typedef ParserCommon INHERITED;
};
class HackParser : public ParserCommon {
public:
HackParser() : ParserCommon() {
this->reset();
}
bool parseFromFile(const char* path) override {
if (!INHERITED::parseSetup(path)) {
return false;
}
return hackFiles();
}
void reset() override {
INHERITED::resetCommon();
}
private:
bool hackFiles();
typedef ParserCommon INHERITED;
};
class MdOut : public ParserCommon {
public:
MdOut(const BmhParser& bmh) : ParserCommon()
, fBmhParser(bmh) {
this->reset();
}
bool buildReferences(const char* path, const char* outDir);
private:
enum class TableState {
kNone,
kRow,
kColumn,
};
string addReferences(const char* start, const char* end, BmhParser::Resolvable );
bool buildRefFromFile(const char* fileName, const char* outDir);
bool checkParamReturnBody(const Definition* def) const;
void childrenOut(const Definition* def, const char* contentStart);
const Definition* isDefined(const TextParser& parser, const string& ref, bool report) const;
string linkName(const Definition* ) const;
string linkRef(const string& leadingSpaces, const Definition*, const string& ref) const;
void markTypeOut(Definition* );
void mdHeaderOut(int depth) { mdHeaderOutLF(depth, 2); }
void mdHeaderOutLF(int depth, int lf);
bool parseFromFile(const char* path) override {
return true;
}
void reset() override {
INHERITED::resetCommon();
fEnumClass = nullptr;
fMethod = nullptr;
fRoot = nullptr;
fTableState = TableState::kNone;
fHasFiddle = false;
fInDescription = false;
fInList = false;
}
BmhParser::Resolvable resolvable(MarkType markType) {
if ((MarkType::kExample == markType
|| MarkType::kFunction == markType) && fHasFiddle) {
return BmhParser::Resolvable::kNo;
}
return fBmhParser.fMaps[(int) markType].fResolve;
}
void resolveOut(const char* start, const char* end, BmhParser::Resolvable );
const BmhParser& fBmhParser;
const Definition* fEnumClass;
Definition* fMethod;
RootDefinition* fRoot;
TableState fTableState;
bool fHasFiddle;
bool fInDescription; // FIXME: for now, ignore unfound camelCase in description since it may
// be defined in example which at present cannot be linked to
bool fInList;
typedef ParserCommon INHERITED;
};
// some methods cannot be trivially parsed; look for class-name / ~ / operator
class MethodParser : public TextParser {
public:
MethodParser(const string& className, const string& fileName,
const char* start, const char* end, int lineCount)
: TextParser(fileName, start, end, lineCount)
, fClassName(className) {
}
void skipToMethodStart() {
if (!fClassName.length()) {
this->skipToAlphaNum();
return;
}
while (!this->eof() && !isalnum(this->peek()) && '~' != this->peek()) {
this->next();
}
}
void skipToMethodEnd() {
if (this->eof()) {
return;
}
if (fClassName.length()) {
if ('~' == this->peek()) {
this->next();
if (!this->startsWith(fClassName.c_str())) {
--fChar;
return;
}
}
if (this->startsWith(fClassName.c_str()) || this->startsWith("operator")) {
const char* ptr = this->anyOf(" (");
if (ptr && '(' == *ptr) {
this->skipToEndBracket(')');
SkAssertResult(')' == this->next());
return;
}
}
}
if (this->startsWith("Sk") && this->wordEndsWith(".h")) { // allow include refs
this->skipToNonAlphaNum();
} else {
this->skipFullName();
}
}
bool wordEndsWith(const char* str) const {
const char* space = this->strnchr(' ', fEnd);
if (!space) {
return false;
}
size_t len = strlen(str);
if (space < fChar + len) {
return false;
}
return !strncmp(str, space - len, len);
}
private:
string fClassName;
typedef TextParser INHERITED;
};
#endif
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