#include #include #include #include #include #include #include #include #include #include "template_parser.h" #include "template.h" #include "intern.h" namespace { int tox(char c) { c |= 0x20; // lowercase it. if (c >= '0' && c <= '9') return c - '0'; if (c >= 'a' && c <= 'f') return c - 'a' + 10; return 0; } uint32_t scan10(const char *begin, const char *end) { return std::accumulate(begin, end, 0, [](uint32_t value, char c){ return value * 10 + c - '0'; }); } uint32_t scan16(const char *begin, const char *end) { return std::accumulate(begin, end, 0, [](uint32_t value, char c){ return (value << 4) + tox(c); }); } } void *TemplateParseAlloc(void *(*mallocProc)(size_t)); void TemplateParseFree(void *p, void (*freeProc)(void*)); void TemplateParse(void *yyp, int yymajor, void *yyminor, Debug::TemplateParseInfo *); void TemplateParse(void *yyp, int yymajor, int yyminor, Debug::TemplateParseInfo *info) { TemplateParse(yyp, yymajor, (void *)(ptrdiff_t)yyminor, info); } void TemplateParse(void *yyp, int yymajor, const std::string *yyminor, Debug::TemplateParseInfo *info) { TemplateParse(yyp, yymajor, (void *)yyminor, info); } #define TemplateParse(a,b,c) TemplateParse(a,b,c, &info) %%{ machine lexer; # this exits with cs == lexer_en_error. error := any* ${ fbreak; }; block_comment := |* [\n\r] { info.LineNumber++; }; '*/' { fgoto main; }; any ; *|; main := |* [\n\r] { info.LineNumber++; }; [ \t]+; '//' [^\r\n]* ; '/*' { fgoto block_comment; }; ';' { TemplateParse(parser, tkSEMI, 0); }; '{' { TemplateParse(parser, tkLBRACE, 0); }; '}' { TemplateParse(parser, tkRBRACE, 0); }; '[' { TemplateParse(parser, tkLBRACKET, 0); }; ']' { TemplateParse(parser, tkRBRACKET, 0); }; '*' { TemplateParse(parser, tkSTAR, 0); }; 'struct' { TemplateParse(parser, tkSTRUCT, 0); }; 'typedef' { TemplateParse(parser, tkTYPEDEF, 0); }; 'int' { TemplateParse(parser, tkINT, 0); }; 'long' { TemplateParse(parser, tkLONG, 0); }; 'short' { TemplateParse(parser, tkSHORT, 0); }; 'volatile' { TemplateParse(parser, tkVOLATILE, 0); }; #'const' { TemplateParse(parser, tkCONST, 0); }; 'char' { TemplateParse(parser, tkCHAR, 0); }; #'bool' { TemplateParse(parser, tkBOOL, 0); }; 'void' { TemplateParse(parser, tkVOID, 0); }; 'signed' { TemplateParse(parser, tkSIGNED, 0); }; 'unsigned' { TemplateParse(parser, tkUNSIGNED, 0); }; 'int64_t' { TemplateParse(parser, tkTYPECODE, kSInt64); }; 'uint64_t' { TemplateParse(parser, tkTYPECODE, kUInt64); }; 'int32_t' { TemplateParse(parser, tkTYPECODE, kSInt32); }; 'uint32_t' { TemplateParse(parser, tkTYPECODE, kUInt32); }; 'int16_t' { TemplateParse(parser, tkTYPECODE, kSInt16); }; 'uint16_t' { TemplateParse(parser, tkTYPECODE, kUInt16); }; 'int8_t' { TemplateParse(parser, tkTYPECODE, kSInt8); }; 'uint8_t' { TemplateParse(parser, tkTYPECODE, kUInt8); }; 'StringPtr' { TemplateParse(parser, tkTYPECODE, kPStringPtr); }; 'CStringPtr' { TemplateParse(parser, tkTYPECODE, kCStringPtr); }; 'Ptr' { TemplateParse(parser, tkTYPECODE, kVoidPtr); }; 'OSType' { TemplateParse(parser, tkTYPECODE, kOSType); }; 'OSErr' { TemplateParse(parser, tkTYPECODE, kOSErr); }; 'Boolean' { TemplateParse(parser, tkTYPECODE, kBoolean); }; 'Handle' { TemplateParse(parser, tkTYPECODE, kHandle); }; # numbers. negative numbers are not allowed. '0x'i xdigit+ { // hexadecimal uint32_t value = scan16(ts + 2, te); TemplateParse(parser, tkINTEGER, value); }; digit+ { uint32_t value = scan10(ts, te); TemplateParse(parser, tkINTEGER, value); }; # identifier ... but also need to check if it's a type. [A-Za-z_][A-Za-z0-9_]+ { // intern the string. const std::string *name = Intern::String(ts, te); bool ok = false; if (!ok) { auto iter = Types.find(*name); if (iter != Types.end()) { TemplateParse(parser, tkTYPECODE, iter->second); ok = true; } } if (!ok) { auto iter = Templates.find(*name); if (iter != Templates.end()) { TemplateParse(parser, tkTEMPLATE, iter->second); ok = true; } } if (!ok) { TemplateParse(parser, tkIDENTIFIER, name); } }; *|; }%% namespace Debug { bool LoadTemplateFile(const std::string &filename, std::unordered_map &Templates) { %% write data; void *parser; int fd; struct stat st; char *buffer; std::unordered_map Types; TemplateParseInfo info; info.LineNumber = 1; info.templates = &Templates; info.types = &Types; // simple types are handled via the lexer so no need to populate them here. if (stat(filename.c_str(), &st) < 0) return false; if (st.st_size == 0) return false; fd = open(filename.c_str(), O_RDONLY); if (fd < 0) { perror("Error opening template file: "); return false; } buffer = (char *)mmap(nullptr, st.st_size, PROT_READ, MAP_FILE | MAP_SHARED, fd, 0); if (buffer == MAP_FAILED) { perror("Error mapping template file: "); close(fd); return false; } close(fd); parser = TemplateParseAlloc(malloc); const char *p = buffer; const char *pe = buffer + st.st_size; const char *eof = pe; const char *ts; const char *te; int cs, act; for(;;) { %% write init; %% write exec; if (cs == lexer_error) { fprintf(stderr, "illegal character: `%c'\n", *p); TemplateParseFree(parser, free); munmap(buffer, st.st_size); return false; } if (cs == lexer_en_error) { TemplateParseFree(parser, free); munmap(buffer, st.st_size); return false; } if (p == pe) { // ? //TemplateParse(parser, tkEOF, 0); break; } } TemplateParse(parser, 0, 0); TemplateParseFree(parser, free); munmap(buffer, st.st_size); return true; } }