// LEXER.C -- gets tokens from input, returns them to parse() in parser.c // // Copyright (c) 1988-1990, Microsoft Corporation. All rights reserved. // // Purpose: // This module contains the lexical routines of nmake // // Revision History: // 04-Feb-2000 BTF Ported to Win64 // 15-Oct-1993 HV Use tchar.h instead of mbstring.h directly, change STR*() to _ftcs*() // 01-Jun-1993 HV Use UngetTxtChr() instead of ungetc() // 01-Jun-1993 HV Change #ifdef KANJI to _MBCS // 10-May-1993 HV Add include file mbstring.h // Change the str* functions to STR* // 06-Apr-1993 HV Change createDosTmp() to use _makepath() // 22-Mar-1993 HV Rewrite getPath() to make use of the new _splitpath() and // _makepath() functions. // 04-Aug-1992 SS CAVIAR 2266: expand INCLUDE macro in processIncludeFile() // 08-Jun-1992 SS Port to DOSX32 // 02-Feb-1990 SB change fopen() to FILEOPEN() // 01-Dec-1989 SB Changed realloc() to REALLOC() // 22-Nov-1989 SB Changed free() to FREE() // 19-Oct-1989 SB searchHandle passed around as extra param // 08-Oct-1989 SB handle OS/2 1.2 quoted filenames // 04-Sep-1989 SB temporary filename generated has a trailing '.' for LINK.EXE // 24-Aug-1989 SB Allow $* and $@ in dependency lines // 18-Aug-1989 SB Added fclose() return code check // 31-Jul-1989 SB Added lookahead to the lexer for \ on dependency lines // 06-Jul-1989 SB Remove escaping abilities of '^' in command lines totally // 29-Jun-1989 SB Add duplicateInline() to detect duplicate inline filenames // and issue error if duplicates are found // 26-Jun-1989 SB Modify ParseScriptFileList() and add nextInlineFile() to // handle complex syntax of Inline file command line. // 15-Jun-1989 SB issue error for usage of inline file in an inference rule // 18-May-1989 SB Added getPath(), changed processIncludeFile() to have C like // processing of include files // 16-May-1989 SB expand macros in include file names; handle '\' processing // in same way for macros and dependency lines // 15-May-1989 SB Changed nameStates to 16x14 // 13-May-1989 SB don't remove ESCH on reading cmd block // 24-Apr-1989 SB made FILEINFO as void * and corrected regression in parsing // inline file names // 14-Apr-1989 SB inline file names are correctly expanded now // 06-Apr-1989 SB ren removeFirstLtLt() as delInlineSymbol(). // 05-Apr-1989 SB made all funcs NEAR; Reqd to make all function calls NEAR // 22-Mar-1989 SB removed unlinkTmpFiles() function; not needed // 19-Jan-1989 SB added function removeFirstLtLt() to remove '<<' appearing // in -n output // 30-Dec-1988 SB Fixed GP fault for KEEP/NOKEEP in parseScriptFileList() // and makeScriptFileList() // 21-Dec-1988 SB Added parseScriptFileList() and appendScript() to allow // handling of multiple script files inside a makefile // Improved KEEP/NOKEEP so that each file can have its own // action // 16-Dec-1988 SB Added to makeScriptFile() for KEEP/NOKEEP // 14-Dec-1988 SB Added tmpScriptFile so that a delete command can be // added for unnamed script files for Z option // 13-Dec-1988 SB Added processEschIn() to improve response files // 5-Oct-1988 RB Strip trailing whitespace from macro defs, build lines. // 22-Sep-1988 RB Fix skipComments() to not parse \\nl. // 20-Sep-1988 RB Error if named script file creation fails. // Count line numbers in script files. // 18-Sep-1988 RB Handle mktemp() small limit. // 17-Aug-1988 RB Clean up. // 14-Jul-1988 rj Fixed handling of ^ before !, @, or -. // 8-Jul-1988 rj Added handler to ignore ^ inside quotes. // Made \ carry comments over lines. // Made ^ carry comments over lines. // 27-Jun-1988 rj Fixed bug with handling of response files. // 16-Jun-1988 rj Finished up ESCH. // 15-Jun-1988 rj Added support for ESCH escape: modified skipWhiteSpace // (adding some redundancy in setting colZero), getString, // getName; removed \\nl escape. // 13-Jun-1988 rj Fixed backslashes to work as in nmake, with addition of // double-backslash escape. (v1.5) #include "precomp.h" #pragma hdrstop #define COMMENT(A,B,C) (((A) == ';' && B && C) || ((A) == '#')) #ifdef _MBCS #define GET(A) A ? GetTxtChr(file) : lgetc() #else #define GET(A) A ? getc(file) : lgetc() #endif extern char * makeInlineFiles(char*, char**, char**); extern void removeTrailChars(char *); void skipComments(UCHAR); void getString(UCHAR,char*,char*); void getName(char*,char*); UCHAR determineTokenFor(int,char*,char*); void popFileStack(void); UCHAR include(int); char * getPath(const char *); extern const UCHAR nameStates[18][15]; extern const UCHAR stringStates[13][14]; extern STRINGLIST *targetList; // getToken() // // arguments: init global boolean value -- TRUE if tools.ini is the // file being lexed // n size of s[] // expected kind of token expected by parser -- only // needed when parser wants a whole string // (meaning everything left on the current line) // -- this way getToken() doesn't break strings // into their separate tokens // // actions: if no tokens have been read from current file, // returns some kind of newline to initialize the parser // (if 1st char in file is whitespace, returns NEWLINESPACE // else returns NEWLINE -- w/o actually getting a token // from the input) // if the parser wants a whole string, reads rest of line // into s and returns STRING // if at end of file, return ACCEPT (which is the last // symbol on the parser's stack) // if input char is newline // if followed by whitespace, return NEWLINESPACE // if the next char is [ and we're reading tools.ini // pretend that we've reached end of file and // return ACCEPT // otherwise return NEWLINE // if input char is colon // if following char is also colon, // (put both chars in s) return DOUBLECOLON // otherwise return SINGLECOLON // if input char is semicolon return SEMICOLON // if input char is equals return EQUALS // if input char is exclamation handle directives // (not yet implemented) // otherwise char must be part of a name, so gather // the rest of the identifier and return NAME // // returns: token type: NEWLINE NEWLINESPACE NAME EQUALS COLON // SEMICOLON STRING ACCEPT // // modifies: buf by modifying *s, which points somewhere into buf // line global line count // fname will change when !include is handled // colZero global flag set if at column zero of a file // // The lexer has to keep track of whether or not it is at the beginning // of a line in the makefile (i.e. in column zero) so that it will know // whether to ignore comments. If init is TRUE, meaning that we are // lexing tools.ini, then we have to treat lines beginning with ';' as // comment lines. If the parser expects a string, only comments beginning // in column zero are ignored; all others are returned as part of the // string. Comments are stripped from macro values (strings that are // part of macro definitions). // // The user can specify a macro definition or a build line that // spans several lines (using the \ to "continue" the lines) while // interspersing comment lines with the text. UCHAR getToken( unsigned n, // size of s[] UCHAR expected // STRING means get line ) // w/o checking for #;:= { char *s; char *end; int c; s = buf; end = buf + n; if (firstToken) { // global var ++line; firstToken = FALSE; // parser needs to see some kind of c = lgetc(); // newline to initialize it if (colZero = (BOOL) !WHITESPACE(c)) { if (c == EOF) return(determineTokenFor(c,s,end)); else UngetTxtChr(c,file); return(NEWLINE); } return(NEWLINESPACE); } if (expected == STRING || expected == VALUE) { // get everything up to \n getString(expected,s,end); return(expected); } // were/are we c = skipWhiteSpace(FROMLOCAL); // past col 0? *s++ = (char) c; // save the letter *s = '\0'; // terminate s return(determineTokenFor(c,s,end)); } // determineTokenFor() // // arguments: c current input character // s buffer to place token in for return to parser // end end of the token return buffer // // returns: token type: NEWLINE NEWLINESPACE NAME EQUALS COLON // SEMICOLON ACCEPT // // modifies: buf by modifying *s, which points somewhere into buf // line global line count // fname will change when include is handled // init global flag - set if parsing tools.ini // colZero global flag set if at column zero of a file UCHAR determineTokenFor( int c, char *s, char *end ) { switch (c) { case EOF: if (!feof(file)) makeError(line,LEXER+FATAL_ERR); if (incTop) popFileStack(); else if (ifTop >= 0) // all directives not processed makeError(line,SYNTAX_EOF_NO_DIRECTIVE); else return(ACCEPT); case '\n': ++line; colZero = TRUE; c = lgetc(); if (COMMENT(c,TRUE,init)) { skipComments(FROMLOCAL); ++line; colZero = TRUE; // manis - 11/13/87 c = lgetc(); } if (colZero = (BOOL) !WHITESPACE(c)) { if (c == EOF) return(determineTokenFor(c,s,end)); else UngetTxtChr(c,file); //save for next token return(NEWLINE); } return(NEWLINESPACE); case ':': colZero = FALSE; if ((c = lgetc()) == ':') { *s++ = (char) c; *s = '\0'; return(DOUBLECOLON); } UngetTxtChr(c,file); return(COLON); case ';': colZero = FALSE; return(SEMICOLON); case '=': colZero = FALSE; return(EQUALS); case '[': if (init && colZero) return(ACCEPT); case ESCH: UngetTxtChr(c, file); // getName has to get esch s--; // so we don't double the caret default: getName(s,end); if (colZero && !_tcsicmp(buf, "include")) { colZero = FALSE; if ((c = skipWhiteSpace(FROMLOCAL)) != ':' && c != '=') { if (init) makeError(line, SYNTAX_UNEXPECTED_TOKEN, s); return(include(c)); } UngetTxtChr(c,file); } else colZero = FALSE; return(NAME); } } // skipWhiteSpace() // // arguments: c current input character // init global boolean value -- TRUE if we're lexing tools.ini // colZero global boolean value -- TRUE if the current // input char is at the beginning of the line // // actions: reads and discards characters until it gets a // non-whitespace char that isn't part of a comment // or hits the end of the line (NEWLINE and NEWLINESPACE // are valid tokens and shouldn't be skipped w/ whitespace) // backslash-newline ('\\''\n') is treated as whitespace // comments are treated as whitespace // escaped whitespace is treated as whitespace (v1.5) // // modifies: colZero global boolean value to : // TRUE if by skipping whitespace and comments we're // at the beginning of a line // else if we skipped characters and are not at the // beginning of a line, FALSE // else if we did not skip any characters, leave // colZero unchanged // // returns: c the current non-whitespace input char int skipWhiteSpace( UCHAR stream ) { int c; do { c = GET(stream); if (WHITESPACE(c) || c == ESCH) { if (c == ESCH) { c = GET(stream); if (!WHITESPACE(c)) { // push char back out, return esch UngetTxtChr(c, file); c = ESCH; break; } } colZero = FALSE; // we've moved past col 0 } if (c == '\\') c = skipBackSlash(c, stream); } while(WHITESPACE(c)); if (COMMENT(c,colZero,init)) { skipComments(stream); // current char is always c = '\n'; // \n after comments colZero = TRUE; // always in col 0 after a comment } return(c); // true if we're in col 0 } // ---------------------------------------------------------------------------- // skipComments() // // arguments: c pointer to current input character // init global boolean value -- TRUE if tools.ini is the // file being lexed // // actions: reads and discards characters until it hits the end of // the line // checks to see if 1st char on next line is comment, // and if so, discards that line, too // DO NOT parse backslash-newline. That would break our // precedence of comments over escaped newlines, the reverse // of Xenix. // // modifies: line global line count // colZero void skipComments( UCHAR stream ) { int c; for (;;) { colZero = FALSE; // manis 11/13/87 do { c = GET(stream); } while (c != EOF && c != '\n'); if (c == EOF) return; colZero = TRUE; c = GET(stream); if (!COMMENT(c,TRUE,init)) { // if next line comment, UngetTxtChr(c,file); // go around again return; } ++line; } } // skipBackSlash() - skips backslash-newline sequences // // // arguments: c current input char // stream flag to determine if chars are to be got // from the raw stream or thru' lgetc() int skipBackSlash( int c, UCHAR stream ) { while (c == '\\') { // treat \newline as space if ((c = GET(stream)) == '\n') { // and consume it too colZero = TRUE; // manis - 11/13-87 ++line; // adjust line count c = GET(stream); // skip over newline if (COMMENT(c,TRUE,init)) { // skip comment line after skipComments(stream); // continuation char ++line; // manis - 11/13/87 c = GET(stream); } } else { UngetTxtChr(c,file); c = '\\'; return(c); } } return(c); } // getString() // // arguments: type says which kind of token we're getting, // a build STRING, or macro VALUE // (we strip comments from VALUEs, but not // from STRINGs) // s pointer to buffer that will hold string // init global boolean value -- TRUE if tools.ini is the // file being lexed // colZero global boolean value -- true if we 're in // 1st position of line when invoked // end pointer to end of s[] // // actions: gets all chars up to the end of line or end of file // and stores them in s[] // backslash followed by newline is replaced by a single // space, and getString() continues getting characters // comments beginning in column 0 are ignored, as are // comments anywhere on a VALUE line // // modifies: buf by modifying *s // line global line count // colZero thru' calls to lgetc() // // When build strings or macro values are continued on the next line w/ // a backslash before the newline, leading whitespace after the newline // is omitted. This is for xmake compatibility. // // The continuation character is backslash immediately before newline. // // The only difference between build strings and macro values is that // comments are stripped from macro values and not from build strings. // // Modifications: // // 06-Jul-1989 SB remove escaping in command lines // 15-Jun-1988 rj Added escape functionality. Escape char., before // certain characters, causes those characters to bypass // the normal mechanism determining their type; they are // placed directly into the string. Some characters cause // the escape character itself to be placed into the // string. void getString( UCHAR type, // build string or macro value? char *s, char *end ) { int c; // buffer UCHAR state, input; int tempC; unsigned size; // whenever state char *begin; // is 0, we're in // column zero BOOL parsechar; // flag to examine char. type BOOL inQuotes = (BOOL) FALSE; // flag when inside quote marks begin = s; c = lgetc(); if (type == STRING) state = (UCHAR) 2; else if (WHITESPACE(c)) { state = (UCHAR) 2; c = skipWhiteSpace(FROMLOCAL); } else if (c == ESCH) { c = lgetc(); if (WHITESPACE(c)) { state = (UCHAR) 2; c = skipWhiteSpace(FROMLOCAL); } else { UngetTxtChr(c, file); state = (UCHAR) 1; // default state c = ESCH; } } else state = (UCHAR) 1; // default state for (;;c = lgetc()) { if (c == '\"') inQuotes = (BOOL) !inQuotes; parsechar = 1; // Default is examine character. if (c == ESCH && !inQuotes && type == VALUE) { c = lgetc(); switch (c) { case '$': case ESCH: // Special characters; must case '{': case '}': // not elide esch from string case '(': case ')': case '!': case '-': case '@': *s++ = ESCH; if (s == end) { if (string == NULL) { // Increase size of s string = (char *) allocate(MAXBUF<<1); _tcsncpy(string,begin,MAXBUF); s = string + MAXBUF; size = MAXBUF << 1; end = string + size; } else { void *pv; if ((size + MAXBUF < size) || !(pv = REALLOC(string,size+MAXBUF))) { makeError(line, MACRO_TOO_LONG); } else { string = (char *)pv; } s = string + size; size += MAXBUF; end = string + size; } begin = string; } case '#': case '\n': // elide esch right now! case '\\': case '\"': input = DEFAULT_; parsechar = 0; // DON'T examine character break; default: break; // DO examine character. } } else if (c == ESCH) { c = lgetc(); UngetTxtChr(c, file); c = ESCH; } if (parsechar) { switch (c) { case '#': input = COMMENT_; break; case '=': input = EQUALS_; break; case ':': input = COLON_; break; case '$': input = DOLLAR_; break; case '(': input = OPENPAREN_; break; case ')': input = CLOSEPAREN_; break; case '\\': input = BACKSLASH_; break; case '\n': case EOF: input = NEWLINE_; break; case ' ': case '\t': input = WHITESPACE_; break; case '*': input = STAR_; break; case '@': case '<': case '?': input = SPECIAL1_; break; case 'F': case 'D': case 'B': case 'R': input = SPECIAL2_; break; case ';': input = (UCHAR) (!state && init ? COMMENT_ : DEFAULT_); break; /* Handle comments in tools.ini */ default: input = (UCHAR) (MACRO_CHAR(c) ? MACROCHAR_:DEFAULT_); break; } } if (input == SPECIAL1_ && type == STRING && c == '<') { if ((tempC = lgetc()) == '<') { // << means start s = makeInlineFiles(s, &begin, &end); // an inline file input = NEWLINE_; c = '\n'; line--; // adding a '\n', we need to remove a line to compensate } else { UngetTxtChr(tempC,file); } state = stringStates[state][input]; } else if (input == COMMENT_) { // Handle comments if (!state) { inQuotes = (BOOL) FALSE; skipComments(FROMLOCAL); ++line; continue; } else if (type == VALUE) state = OK; // don't elide from command else state = stringStates[state][input]; } else state = stringStates[state][input]; if (state == OK) { // Accept end of string inQuotes = (BOOL) FALSE; UngetTxtChr(c,file); // Strip trailing whitespace from string. Easier to do it here, // else we have to treat a multi-string value (OBJS=a b c) as // separate tokens. [RB] while (s > begin && _istspace(s[-1])) --s; *s = '\0'; if (string) { if (s = (char *) REALLOC(string, (size_t) (s - string + 1))) string = s; } else string = makeString(begin); return; } else if (ON(state,ERROR_MASK)) // Error code from table makeError(line,(state&~ERROR_MASK)+FATAL_ERR,c); if (!state) { // Col 0; we just hit \nl *--s = ' '; // so treat it like white- ++s; ++line; // space; overwrite the colZero = TRUE; // backslash with a space. c = lgetc(); colZero = FALSE; if (WHITESPACE(c)) { state = 2; do { c = lgetc(); } while (WHITESPACE(c)); } UngetTxtChr(c,file); } else { // Keep storing string *s++ = (char) c; if (s == end) { if (!string) { // Increase size of s string = (char *) allocate(MAXBUF<<1); _tcsncpy(string,begin,MAXBUF); s = string + MAXBUF; size = MAXBUF << 1; end = string + size; } else { void *pv; if ((size + MAXBUF < size) || !(pv = REALLOC(string,size+MAXBUF))) { makeError(line, MACRO_TOO_LONG); } else { string = (char *)pv; } s = string + size; size += MAXBUF; end = string + size; } } } } } // getName() // // arguments: s pointer into buffer that will hold string // (s is pointing to buf+1 when passed, because // the caller, getToken(), has already seen and // saved one char) // init global boolean value -- TRUE if tools.ini is the // file being lexed // used by routine called - lgetc() // end pointer to end of s[] // // actions: gets all chars up to first token delimiter and stores // them in s[] (delimiters are ' ', '\t', '\n' and (when // not inside a macro invocation) ':' and '=' // note that backslash-newline is treated as a space, // which is a delimiter // if the current input char is '$' this must be a macro // invocation // if the macro name is in parentheses // get all chars up to and including close paren // (if ')' not found, error) // // We check the syntax within the name here -- thus errors in macro // invocation syntax will be caught. Special macros cannot be used // as part of names, with the exception of the dynamic dependency macros. // // We can probably never overrun our buffer, because it would be extremely // difficult for the user to get a name with 1024 characters or more into // his makefile. // // we never end up in column zero, because we push the delimiter back // out on the input // // uses state table defined in table.h, defs from grammar.h // // modifies: line (possibly) thru' call to lgetc() // file (possibly) if lgetc() finds a !include // fName (possibly) if lgetc() finds a !include void getName( char *s, char *end // pts to end of s ) { int c; UCHAR state, input; BOOL seenBackSlash = FALSE; BOOL fQuoted = FALSE; char *beg = s - 1; BOOL parsechar; // flag to examine char. type switch (*(s-1)) { case '$': state = (UCHAR) 2; break; case '{': state = (UCHAR) 8; break; case '"': fQuoted = TRUE; state = (UCHAR)16; break; default: state = (UCHAR) 0; break; } for (;;) { c = lgetc(); parsechar = 1; // Default is examine char. if (c == ESCH) { c = lgetc(); switch (c) { case '{': // Special characters; must case '}': // not elide esch from string case '(': case ')': case '$': case ESCH: *s++ = ESCH; case '#': // elide esch right now! case '\n': case '\\': input = DEFAULT_; parsechar = 0; // DON'T examine character break; default: break; // DO examine character. } } if (parsechar) { switch (c) { case '#' : input = COMMENT_; break; case '=' : input = EQUALS_; break; case ';' : input = SEMICOLON_; break; case ':' : input = COLON_; break; case '$' : input = DOLLAR_; break; case '(' : input = OPENPAREN_; break; case ')' : input = CLOSEPAREN_; break; case '{' : input = OPENCURLY_; break; case '}' : input = CLOSECURLY_; break; case ' ' : case '\t': input = (UCHAR)((fQuoted) ? DEFAULT_ : WHITESPACE_); break; case '\n': case EOF : input = NEWLINE_; break; case '\\': input = BKSLSH_; break; case '"' : input = QUOTE_; if (state == 18) { // found a quote after a path list {...} // handle as quoted name fQuoted = 1; } break; // Add support for $* and $@ on the dependency line default : if (ON(actionFlags, A_DEPENDENT)) input = (UCHAR)((MACRO_CHAR(c) || c == '*' || c == '@') ?MACROCHAR_:DEFAULT_); else input = (UCHAR)(MACRO_CHAR(c)?MACROCHAR_:DEFAULT_); break; } } state = nameStates[state][input]; // Cheat lex table to think that you are handling quoted string case if (fQuoted && state == 1) state = 16; // seenBackSlash is used to provide lookahead when \ is seen on a // dependency line if (seenBackSlash) // if \ followed by \n then use it as a continuation if (input == NEWLINE_) { ++line; colZero = TRUE; c = lgetc(); colZero = FALSE; if (WHITESPACE(c)) { state = OK; do { c = lgetc(); } while (WHITESPACE(c)); } else state = (UCHAR)((s == buf + 1) ? BEG : DEF); } else *s++ = '\\'; seenBackSlash = FALSE; if (s >= end) makeError(line,NAME_TOO_LONG); if (state == OK) { UngetTxtChr(c,file); *s = '\0'; removeTrailChars(beg); return; } else if (ON(state,ERROR_MASK)) makeError(line,(state&~ERROR_MASK)+FATAL_ERR,c); if (state == BKS) { seenBackSlash = TRUE; //set lookahead flag } else *s++ = (char) c; } } // createDosTmp -- Creates a unique temporary file. // // Scope: // Global. // // Purpose: // To create a unique temporary file by calling _mktemp() but it gets // over _mktemp() limitation to be able to create more files. // // Input: // path -- The buffer initially contain the directory to store the temp // file. On exit, if success, the temp file is appended to it. // In case of failure, the its contents is undetermined. // // Output: // If successful, temporary file name is appended to path and // the function returns the file pointer, else NULL. // // History: // 06-Apr-1993 HV Change createDosTmp() to use _makepath() FILE * createDosTmp( char *path ) { FILE *fd = NULL; // CONSIDER: is the size of szDir too big for the stack? We can // make it a little smaller if we take the risk. char szDir[_MAX_PATH]; // CONSIDER: The path supplied by the caller might contain both // the drive and probably some level of directories // (e.g. c:\win\tmp) Right now, _makepath happily takes // the whole thing as the directory component, but that // might change in the future. In such case, we should // first break up path to drive/dir compents before we // construct the full pathname of the template. There // is something to watch out: for "c:\win\tmp", _splitpath // will split as: "c:", "\win\", and "tmp", which is not // what we want. To fix it, append a backslash to the // end before calling _splitpath. "c:\win\tmp\" will // be broken up correctly to "c:" and "\win\tmp\" if (!path || !*path) { // If path is empty, use "." _tcscpy(szDir, "."); } else { _tcscpy(szDir, path); } #if 0 static char filetemplate[] = "nmXXXXXX"; static char szExtension[] = "."; // just a dot to make Mr. linker happy. // Construct the full pathname. _mktemp() doesn't seem to like // template with trailing dot (".") so instead of specifying "." // for the extension, we defer it later and _tcscat the dot to // its tail. _makepath(path, NULL, szDir, filetemplate, NULL); if (_mktemp(path) == NULL) { // Mktemp() has a limit of 27 files per template. If it fails, assume // the limit has overflowed and increment the second letter of the template. if (filetemplate[1] == 'z') { filetemplate[1] = 'a'; } else { ++filetemplate[1]; // ASSUMPTION: that this will work with DBCS } _makepath(path, NULL, szDir, filetemplate, NULL); if (_mktemp(path) == NULL) { return(NULL); } } // add a trailing "." for the linker's sake _tcscat(path, szExtension); #endif // Use GetTempFileName to overcome limitations of _mktemp // regarding the max number of generated files [vs7:5255] char szTempFile[_MAX_PATH]; if (GetTempFileName (path, "nm", 0, szTempFile)) { _tcscpy(path, szTempFile); // Open the file and return the file's descriptor. fd = FILEOPEN(path, "w"); } return fd; } void popFileStack() { if (fclose(file) == EOF) makeError(0, ERROR_CLOSING_FILE, fName); FREE(fName); file = incStack[--incTop].file; fName = incStack[incTop].name; line = incStack[incTop].line; } // include() -- handle include files // // arguments: c first non-whitespace char after the string // INCLUDE on the line... // colZero global boolean value, set if currently at // column zero of a file. // // modifies: line global line count - if include file opened // file global pointer to current file // fName global pointer to name of current file // colZero global boolean value, changed if include // file opened and char from colZero is returned UCHAR include( int c ) { size_t n; char *s; if (c == '\n' || c == EOF) makeError(line,SYNTAX_NO_NAME); *buf = (char) c; if (!fgets(buf+1,MAXBUF - 1,file)) { if (feof(file)) makeError(line,SYNTAX_UNEXPECTED_TOKEN,"EOF"); makeError(line,CANT_READ_FILE); } n = _tcslen(buf) - 1; if (buf[n] == '\n') { buf[n] = '\0'; } s = buf; while (WHITESPACE(*s)) ++s; return(processIncludeFile(s)); } // processIncludeFile() -- checks for include file and switches state // // arguments: s buffer that has include file name // colZero global boolean value, set if currently at // column zero of a file. // init global boolean - set if tools.ini is being lexed // used by lgetc() which is called from here... // // modifies: line global line count - if include file opened // file global pointer to current file // fName global pointer to name of current file // colZero global boolean value, changed if include // file opened and char from colZero is returned UCHAR processIncludeFile( char *s ) { MACRODEF *m; struct _finddata_t finddata; NMHANDLE searchHandle; char *t, *p, *u; int c = 0; int i; if (!*s || *s == '#') { makeError(line, SYNTAX_NO_NAME); } if (t = _tcspbrk(s,"\t#")) { if (*t == '#') { c = *t; } *t = '\0'; if (!c) { for (u = t; *++u;) { // check for extra if (*u == '#') { break; // text on line } if (!WHITESPACE(*u)) { makeError(line, SYNTAX_UNEXPECTED_TOKEN, u); } } } } else { t = s + _tcslen(s); } // remove trailing white space while (t > s) { char *prev; prev = _tcsdec(s, t); if (prev) { if (!WHITESPACE(*prev)) break; t = prev; } } *t = '\0'; if (*s == '<' && *(t-1) == '>') { char *pt; *--t = '\0'; p = removeMacros(++s); p = p == s ? makeString(s) : p; t = (m = findMacro("INCLUDE")) ? m->values->text : (char*) NULL; if (t != NULL) { // expand INCLUDE macro before passing it on char * pt1; pt1= makeString(t); pt = removeMacros(pt1); if (pt != pt1) { FREE(pt1); // we've got a new string, free old one } } else { pt = NULL; } if (!(u = searchPath(pt, p, &finddata, &searchHandle))) { makeError(line, CANT_OPEN_FILE, p); } if (pt) { FREE(pt); } FREE(p); s = u; } else { if (*s == '"' && *(t-1) == '"') { *--t = '\0'; ++s; } p = removeMacros(s); p = p == s ? makeString(s) : p; if (!findFirst(p, &finddata, &searchHandle)) { if (!_tcspbrk(p, "\\/:")) { //use C sematics for include for (i = incTop;i >= 0;i--) { t = (i == incTop) ? fName : incStack[i].name; if (!(t = getPath(t))) continue; u = (char *)allocate(_tcslen(t) + 1 + _tcslen(p) + 1); _tcscat(_tcscat(_tcscpy(u, t), "\\"), p); if (findFirst(u, &finddata, &searchHandle)) { s = u; FREE(t); break; } FREE(t); FREE(u); } FREE(p); if (i < 0) { makeError(line, CANT_OPEN_FILE, s); } } else { makeError(line, CANT_OPEN_FILE, p); } } } for (i = 0; i < incTop; ++i) { // test for cycles if (!_tcsicmp(s,incStack[i].name)) { makeError(line, CYCLE_IN_INCLUDES, s); } } incStack[incTop].file = file; // push info on stack incStack[incTop].line = line; incStack[incTop++].name = fName; currentLine = 0; if (!(file = OpenValidateMakefile(s,"rt"))) { // read, text mode makeError(line,CANT_OPEN_FILE,s); } fName = makeString(s); line = 1; colZero = TRUE; // parser needs to see some kind of c = lgetc(); // newline to initialize it for this if (colZero = (BOOL) !WHITESPACE(c)) { // file UngetTxtChr(c,file); line=0; // We did not start reading the file return(NEWLINE); } return(NEWLINESPACE); } // getPath -- return the drive/directory parts of a full path // // Scope: // Local // // Purpose: // This function returns the drive/directory parts of a full path. Space is // allocated for the resulting string, so the caller is responsible for freeing // it after use. // // Input: pszFullPath -- The full pathname. // // Assumes: Pathnames use MS-DOS file naming convension. // // Notes: // To allocate temporary memory for the drive and path components, I have used // _MAX_DRIVE and _MAX_DIR. Under Windows NT there are two possibilities: // 1. These two parameters can be so large that the stack will be overflow // 2. They are not large enough (?) // // History: // 22-Mar-1993 HV Rewrite getPath() to make use of the new _splitpath() and // _makepath() functions. char * getPath( const char *pszFullPath ) { // HV: Are _MAX_DRIVE and _MAX_DIR good size under NT? Does it // work under Windows NT? char szDrive[_MAX_DRIVE]; char szDir[_MAX_DIR]; char *szPath; char *pszSlash; // Separate the components of the fullpath _splitpath(pszFullPath, szDrive, szDir, NULL, NULL); // Allocate just enough memory to hold the drive/path combo then // Glue just the drive and dir component back together. szPath = (char *) rallocate(_tcslen(szDrive) + _tcslen(szDir) + 1); _makepath(szPath, szDrive, szDir, NULL, NULL); // Eliminate the trailing slash/blackslash to retain compatibility with // the older version of getPath() pszSlash = szPath + _tcslen(szPath) - 1; if ('\\' == *pszSlash || '/' == *pszSlash) { *pszSlash = '\0'; } return szPath; }