#if !defined(MINIMAL) && !defined(OMIT_QCC) #include "qcc.h" #include "time.h" #define MEMBERFIELDNAME "__m%s" #define STRCMP(s1,s2) (((*s1)!=(*s2)) || strcmp(s1,s2)) //saves about 2-6 out of 120 - expansion of idea from fastqcc void QCC_PR_PreProcessor_Define(pbool append); pbool QCC_PR_UndefineName(const char *name); const char *QCC_PR_CheckCompConstString(const char *def); CompilerConstant_t *QCC_PR_CheckCompConstDefined(const char *def); int QCC_PR_CheckCompConst(void); pbool QCC_Include(const char *filename); void QCC_FreeDef(QCC_def_t *def); extern pbool destfile_explicit; extern char destfile[1024]; //static const QCC_sref_t nullsref = {0}; #define MAXINCLUDEDIRS 8 char qccincludedir[MAXINCLUDEDIRS][256]; //the -src path, for #includes struct qccincludeonced_s { struct qccincludeonced_s *next; char name[1]; } *qccincludeonced; //the -src path, for #includes char *compilingfile; int pr_source_line; char *pr_file_p; char *pr_line_start; // start of current source line int pr_bracelevel; char pr_token[8192]; token_type_t pr_token_type; int pr_token_line; int pr_token_line_last; QCC_type_t *pr_immediate_type; QCC_eval_t pr_immediate; char pr_immediate_string[8192]; size_t pr_immediate_strlen; int pr_error_count; int pr_warning_count; extern pbool expandedemptymacro; //really these should not be in here extern unsigned int locals_end, locals_start; extern QCC_type_t *pr_classtype; QCC_function_t *QCC_PR_ParseImmediateStatements (QCC_def_t *def, QCC_type_t *type, pbool dowrap); QCC_type_t *QCC_PR_FieldType (QCC_type_t *pointsto); static void Q_strlcpy(char *dest, const char *src, int sizeofdest) { if (sizeofdest) { int slen = strlen(src); slen = min((sizeofdest-1), slen); memcpy(dest, src, slen); dest[slen] = 0; } } char *pr_punctuation[] = // longer symbols must be before a shorter partial match {"&&", "||", "<=>", "<=", ">=","==", "!=", "/=", "*=", "+=", "-=", "(+)", "(-)", "|=", "&~=", "&=", "++", "--", "->", "^=", "::", ";", ",", "!", "*^", "*", "/", "(", ")", "-", "+", "=", "[", "]", "{", "}", "...", "..", ".", "><", "<<=", "<<", "<", ">>=", ">>", ">" , "?", "#" , "@", "&" , "|", "%", "^^", "^", "~", ":", NULL}; char *pr_punctuationremap[] = //a nice bit of evilness. //(+) -> |= //-> -> . //(-) -> &~= {"&&", "||", "<=>", "<=", ">=","==", "!=", "/=", "*=", "+=", "-=", "|=", "&~=", "|=", "&~=", "&=", "++", "--", ".", "^=", "::", ";", ",", "!", "*^", "*", "/", "(", ")", "-", "+", "=", "[", "]", "{", "}", "...", "..", ".", "><", "<<=", "<<", "<", ">>=", ">>", ">" , "?", "#" , "@", "&" , "|", "%", "^^", "^", "~", ":", NULL}; // simple types. function types are dynamically allocated QCC_type_t *type_void; //void QCC_type_t *type_string; //string QCC_type_t *type_float; //float QCC_type_t *type_double; //double QCC_type_t *type_vector; //vector QCC_type_t *type_entity; //entity QCC_type_t *type_field; //.void QCC_type_t *type_function; //void() QCC_type_t *type_floatfunction; //float() QCC_type_t *type_pointer; //??? * - careful with this one QCC_type_t *type_integer; //int32 QCC_type_t *type_uint; //uint32 QCC_type_t *type_int64; //int64 QCC_type_t *type_uint64; //uint64 QCC_type_t *type_variant; //__variant QCC_type_t *type_floatpointer; //float * QCC_type_t *type_intpointer; //int * QCC_type_t *type_bint; //int (0 or 1) QCC_type_t *type_bfloat; //float (0.0 or 1.0, and never -0.0) QCC_type_t *type_floatfield;// = {ev_field/*, &def_field*/, NULL, &type_float}; QCC_def_t def_ret, def_parms[MAX_PARMS]; //QCC_def_t *def_for_type[9] = {&def_void, &def_string, &def_float, &def_vector, &def_entity, &def_field, &def_function, &def_pointer, &def_integer}; void QCC_PR_LexWhitespace (pbool inhibitpreprocessor); QCC_type_t *QCC_PR_ParseEnum(pbool flags); //for compiler constants and file includes. qcc_includechunk_t *currentchunk; void QCC_PR_CloseProcessor(void) { int i; for (i = 0; i < MAXINCLUDEDIRS; i++) *qccincludedir[i] = 0; currentchunk = NULL; qccincludeonced = NULL; } void QCC_PR_AddIncludePath(const char *newinc) { int i; if (!*newinc) { newinc = "."; // QCC_PR_ParseWarning(WARN_STRINGTOOLONG, "Invalid include path."); // return; } for (i = 0; i < MAXINCLUDEDIRS; i++) { if (!*qccincludedir[i]) { pbool trunc; const char *e = newinc + strlen(newinc)-1; trunc = !QC_strlcpy(qccincludedir[i], newinc, sizeof(qccincludedir)); if (*e != '/' && *e != '\\') trunc |= !QC_strlcat(qccincludedir[i], "/", sizeof(qccincludedir)); if (trunc) { QCC_PR_ParseWarning(WARN_STRINGTOOLONG, "Include path too long."); *qccincludedir[i] = 0; } break; } if (!strcmp(qccincludedir[i], newinc)) break; } if (i == MAXINCLUDEDIRS) { QCC_PR_ParseWarning(WARN_STRINGTOOLONG, "Too many include dirs. Ignoring and hoping the stars align."); } } static void QCC_PR_IncludeChunkEx (char *data, pbool duplicate, char *filename, CompilerConstant_t *cnst) { qcc_includechunk_t *chunk = qccHunkAlloc(sizeof(qcc_includechunk_t)); chunk->prev = currentchunk; currentchunk = chunk; chunk->currentdatapoint = pr_file_p; chunk->currentfilename = s_filen; chunk->currentlinenumber = pr_source_line; chunk->cnst = cnst; if( cnst ) { #if 0 s_filen = cnst->fromfile; pr_source_line = cnst->fromline; #else int b = strlen(s_filen)+1+8+strlen(cnst->name); char *p; if (b > 128) b = 128; s_filen = p = qccHunkAlloc(b); QC_snprintfz(p, b, "%s:%i:%s", chunk->currentfilename, chunk->currentlinenumber, cnst->name); pr_source_line = 1; #endif cnst->inside++; } else pr_source_line = 1; if (duplicate) { pr_file_p = qccHunkAlloc(strlen(data)+1); strcpy(pr_file_p, data); } else pr_file_p = data; chunk->datastart = pr_file_p; } void QCC_PR_IncludeChunk (char *data, pbool duplicate, char *filename) { QCC_PR_IncludeChunkEx(data, duplicate, filename, NULL); } pbool QCC_PR_UnInclude(void) { if (!currentchunk) return false; if( currentchunk->cnst ) currentchunk->cnst->inside--; pr_file_p = currentchunk->currentdatapoint; pr_source_line = currentchunk->currentlinenumber; s_filen = currentchunk->currentfilename; currentchunk = currentchunk->prev; return true; } //expresses a relative path relative to an existing FILEname. any directories in base must be / terminated properly. void QCC_JoinPaths(char *fullname, size_t fullnamesize, const char *newfile, const char *base) { char *end; if (*newfile == '/' || *newfile == '\\') { //its an absolute path... QC_strlcpy(fullname, newfile, fullnamesize); return; } QC_strlcpy(fullname, base, fullnamesize); end = fullname+strlen(fullname); while (end > fullname) { end--; if (*end == '/' || *end == '\\') { end++; break; } } QC_strlcpy(end, newfile, fullnamesize - (end-fullname)); //FIXME: do we want to convert /segment/../ into just / ? //fteqw might insist on it for its filesystem sandboxing. //but it breaks symlink weirdness (itself a possible security hole). //should probably be a separate function. } extern char qccmsourcedir[]; //also meant to include it. void QCC_FindBestInclude(char *newfile, char *currentfile, pbool verbose) { struct qccincludeonced_s *onced; int includepath = 0; char fullname[1024]; if (!*newfile) return; while(1) { if (includepath) { if (includepath > MAXINCLUDEDIRS || !*qccincludedir[includepath-1]) QCC_Error(ERR_COULDNTOPENFILE, "Couldn't open file %s", newfile); currentfile = qccincludedir[includepath-1]; } QCC_JoinPaths(fullname, sizeof(fullname), newfile, currentfile); { extern progfuncs_t *qccprogfuncs; if (qccprogfuncs->funcs.parms->FileSize(fullname) == -1) { includepath++; continue; } } break; } for(onced = qccincludeonced; onced; onced = onced->next) { if (!strcmp(onced->name, fullname)) return; } if (verbose) { if (verbose == 2) { if (autoprototype) externs->Printf("prototyping %s\n", fullname); else externs->Printf("compiling %s\n", fullname); } else { if (autoprototype) externs->Printf("prototyping include %s\n", fullname); else externs->Printf("including %s\n", fullname); } } QCC_Include(fullname); } pbool defaultnoref; pbool defaultnosave; pbool defaultstatic; int ForcedCRC; int QCC_PR_LexInteger (void); void QCC_AddFile (char *filename); void QCC_PR_LexString (void); pbool QCC_PR_SimpleGetToken (void); pbool QCC_PR_SimpleGetString(void); #define PPI_VALUE 0 #define PPI_NOT 1 #define PPI_DEFINED 2 #define PPI_COMPARISON 3 #define PPI_LOGICAL 4 #define PPI_TOPLEVEL 5 static int ParsePrecompilerIf(int level) { CompilerConstant_t *c; int eval = 0; // pbool notted = false; //single term end-of-chain if (level == PPI_VALUE) { /*skip whitespace*/ while (*pr_file_p && qcc_iswhite(*pr_file_p) && *pr_file_p != '\n') { pr_file_p++; } if (*pr_file_p == '(') { //try brackets pr_file_p++; eval = ParsePrecompilerIf(PPI_TOPLEVEL); while (*pr_file_p == ' ' || *pr_file_p == '\t') pr_file_p++; if (*pr_file_p != ')') QCC_PR_ParseError(ERR_EXPECTED, "unclosed bracket condition\n"); pr_file_p++; } else if (*pr_file_p == '!') { //try brackets pr_file_p++; eval = !ParsePrecompilerIf(PPI_NOT); } else { //simple token... if (!strncmp(pr_file_p, "defined", 7)) { pr_file_p+=7; while (*pr_file_p == ' ' || *pr_file_p == '\t') pr_file_p++; if (*pr_file_p != '(') { eval = false; QCC_PR_ParseError(ERR_EXPECTED, "no opening bracket after defined\n"); } else { pr_file_p++; QCC_PR_SimpleGetToken(); eval = !!QCC_PR_CheckCompConstDefined(pr_token); while (*pr_file_p == ' ' || *pr_file_p == '\t') pr_file_p++; if (*pr_file_p != ')') QCC_PR_ParseError(ERR_EXPECTED, "unclosed defined condition\n"); pr_file_p++; } } else { if (!QCC_PR_SimpleGetToken()) QCC_PR_ParseError(ERR_EXPECTED, "unexpected end-of-line\n"); c = QCC_PR_CheckCompConstDefined(pr_token); if (!c) eval = atoi(pr_token); else eval = atoi(c->value); } } return eval; } eval = ParsePrecompilerIf(level-1); while (*pr_file_p && qcc_iswhite(*pr_file_p) && *pr_file_p != '\n') { pr_file_p++; } switch(level) { case PPI_LOGICAL: if (!strncmp(pr_file_p, "||", 2)) { pr_file_p+=2; eval = ParsePrecompilerIf(level)||eval; } else if (!strncmp(pr_file_p, "&&", 2)) { pr_file_p+=2; eval = ParsePrecompilerIf(level)&&eval; } break; case PPI_COMPARISON: if (!strncmp(pr_file_p, "<=", 2)) { pr_file_p+=2; eval = eval <= ParsePrecompilerIf(level); } else if (!strncmp(pr_file_p, ">=", 2)) { pr_file_p += 2; eval = eval >= ParsePrecompilerIf(level); } else if (!strncmp(pr_file_p, "<", 1)) { pr_file_p += 1; eval = eval < ParsePrecompilerIf(level); } else if (!strncmp(pr_file_p, ">", 1)) { pr_file_p += 1; eval = eval > ParsePrecompilerIf(level); } else if (!strncmp(pr_file_p, "!=", 2)) { pr_file_p += 2; eval = eval != ParsePrecompilerIf(level); } else if (!strncmp(pr_file_p, "==", 2)) { pr_file_p += 2; eval = eval == ParsePrecompilerIf(level); } break; } return eval; } struct deflist_s { char *buffer; size_t length; size_t buffersize; }; static void QCC_PR_GetDefinesListEnumerate(void *vctx, void *data) { struct deflist_s *ctx = vctx; CompilerConstant_t *def = data; char term[8192]; size_t termsize; pbool success = true; QC_snprintfz(term, sizeof(term), "\n%s", def->name); if (def->numparams >= 0) { int i; success &= QC_strlcat(term, "(", sizeof(term)); for (i = 0; i < def->numparams; i++) { if (i) success &= QC_strlcat(term, ",", sizeof(term)); success &= QC_strlcat(term, def->params[i], sizeof(term)); } success &= QC_strlcat(term, ")", sizeof(term)); } if (def->value && *def->value) { char *o, *i; success &= QC_strlcat(term, "=", sizeof(term)); //annoying logic to skip whitespace... hopefully it won't fuck stuff up too much. for (o = term+strlen(term), i = def->value; o < term + sizeof(term)-1 && *i; ) { if (*i == ' ' || *i == '\t' || *i == '\n' || *i == '\r') i++; else *o++ = *i++; } *o = 0; } if (!success) //this define was too long. don't show truncated stuff. return; termsize = strlen(term); if (ctx->length + termsize+1 > ctx->buffersize) { ctx->buffersize = (ctx->length + termsize+1)*2; ctx->buffer = realloc(ctx->buffer, ctx->buffersize); } memcpy(ctx->buffer+ctx->length, term, termsize); ctx->length += termsize; ctx->buffer[ctx->length] = 0; } char *QCC_PR_GetDefinesList(void) { struct deflist_s ctx = {NULL}; Hash_Enumerate(&compconstantstable, QCC_PR_GetDefinesListEnumerate, &ctx); return ctx.buffer; } //returns true if it was white/comments only. false if there was actual text that was skipped. static void QCC_PR_SkipToEndOfLine(pbool errorifnonwhite) { pbool handleccomments = true; while(*pr_file_p != '\n' && *pr_file_p != '\0') //read on until the end of the line { if (*pr_file_p == '/' && pr_file_p[1] == '*' && handleccomments) { pr_file_p += 2; while(*pr_file_p) { if (*pr_file_p == '*' && pr_file_p[1] == '/') { pr_file_p+=2; break; } if (*pr_file_p == '\n') pr_source_line++; pr_file_p++; } } else if (*pr_file_p == '/' && pr_file_p[1] == '/' && handleccomments) { handleccomments = false; pr_file_p += 2; /*while(*pr_file_p) { if (*pr_file_p == '\n') break; pr_file_p++; }*/ } else if (*pr_file_p == '\\' && pr_file_p[1] == '\r' && pr_file_p[2] == '\n') { /*windows endings*/ pr_file_p+=3; pr_source_line++; } else if (*pr_file_p == '\"' && handleccomments) { if (errorifnonwhite) { errorifnonwhite = false; QCC_PR_ParseWarning (ERR_UNKNOWNPUCTUATION, "unexpected tokens at end of line"); } pr_file_p++; while (*pr_file_p) { if (*pr_file_p == '\n') break; //this text is junk/ignored, so ignore the obvious error here. else if (*pr_file_p == '\"') { pr_file_p++; break; } else if (*pr_file_p == '\\' && pr_file_p[1] == '\"') pr_file_p+=2; //don't trip on "\"/*" else if (*pr_file_p == '\\' && pr_file_p[1] == '\\') pr_file_p+=2; //don't trip on "\\"//"foo else pr_file_p++; //any other \ should be part of the actual string, which we don't care about here } } else if (*pr_file_p == '\\' && pr_file_p[1] == '\n') { /*linux endings*/ pr_file_p+=2; pr_source_line++; } else { if (errorifnonwhite && handleccomments && !qcc_iswhite(*pr_file_p)) { errorifnonwhite = false; QCC_PR_ParseWarning(ERR_UNKNOWNPUCTUATION, "unexpected tokens at end of line"); } pr_file_p++; } } } //if hadtrue, then we allow elses, otherwise we skip them. static pbool QCC_PR_FalsePreProcessorIf(pbool hadtrue, int originalline) { int eval; int level = 1; while (1) { while(*pr_file_p && (*pr_file_p==' ' || *pr_file_p == '\t')) pr_file_p++; if (!*pr_file_p) { pr_source_line = originalline; QCC_PR_ParseError (ERR_NOENDIF, "#if with no endif"); } if (*pr_file_p == '#') { pr_file_p++; while(*pr_file_p==' ' || *pr_file_p == '\t') pr_file_p++; if (!strncmp(pr_file_p, "endif", 5)) level--; if (!strncmp(pr_file_p, "if", 2)) level++; if (!hadtrue && !strncmp(pr_file_p, "else", 4) && level == 1) { pr_file_p+=4; QCC_PR_SkipToEndOfLine(true); return true; } if (!hadtrue && !strncmp(pr_file_p, "elif", 4) && level == 1) { // QCC_PR_ParseError(ERR_UNKNOWNPUCTUATION, "#elif not supported\n"); pr_file_p += 4; if (!strncmp(pr_file_p, "def", 3)) { eval = 1; pr_file_p += 3; } else if (!strncmp(pr_file_p, "ndef", 4)) { eval = 0; pr_file_p += 4; } else eval = 2; if (*pr_file_p != ' ' && *pr_file_p != '\t') QCC_PR_ParseError(ERR_UNKNOWNPUCTUATION, "malformed #elif\n"); if (eval == 2) eval = ParsePrecompilerIf(PPI_TOPLEVEL); else { QCC_PR_SimpleGetToken (); if (eval) eval = !!QCC_PR_CheckCompConstDefined(pr_token); else eval = !QCC_PR_CheckCompConstDefined(pr_token); } if (eval) { QCC_PR_SkipToEndOfLine(true); return true; } } } QCC_PR_SkipToEndOfLine(false); if (level <= 0) return false; pr_file_p++; //next line pr_source_line++; } } #if 0 static void QCC_PR_PackagerMessage(void *userctx, char *message, ...) { va_list argptr; char string[1024]; va_start (argptr,message); QC_vsnprintf (string,sizeof(string)-1,message,argptr); va_end (argptr); externs->Printf ("%s", string); } #endif /* ============== QCC_PR_Precompiler ============== Runs precompiler stage */ static pbool QCC_PR_Precompiler(void) { char msg[1024]; int ifmode; int a; static int ifs = 0; pbool eval = false; if (*pr_file_p == '#') { char *directive; for (directive = pr_file_p+1; *directive; directive++) //so # define works { if (*directive == '\r' || *directive == '\n') QCC_PR_ParseError(ERR_UNKNOWNPUCTUATION, "Hanging # with no directive\n"); if (*directive > ' ') break; } if (!strncmp(directive, "define", 6)) { pr_file_p = directive; QCC_PR_PreProcessor_Define(false); QCC_PR_SkipToEndOfLine(true); } else if (!strncmp(directive, "append", 6)) { pr_file_p = directive; QCC_PR_PreProcessor_Define(true); QCC_PR_SkipToEndOfLine(true); } else if (!strncmp(directive, "undef", 5)) { pr_file_p = directive+5; while(qcc_iswhitesameline(*pr_file_p)) pr_file_p++; QCC_PR_SimpleGetToken (); QCC_PR_UndefineName(pr_token); // QCC_PR_ConditionCompilation(); QCC_PR_SkipToEndOfLine(true); } else if (!strncmp(directive, "if", 2)) { int originalline = pr_source_line; pr_file_p = directive+2; if (!strncmp(pr_file_p, "def", 3)) { ifmode = 0; pr_file_p+=3; } else if (!strncmp(pr_file_p, "ndef", 4)) { ifmode = 1; pr_file_p+=4; } else { ifmode = 2; pr_file_p+=0; //QCC_PR_ParseError("bad \"#if\" type"); } if (!qcc_iswhite(*pr_file_p)) { pr_file_p = directive; QCC_PR_SimpleGetToken (); QCC_PR_ParseWarning(WARN_BADPRAGMA, "Unknown pragma \'%s\'", qcc_token); } else { if (ifmode == 2) { eval = ParsePrecompilerIf(PPI_TOPLEVEL); } else { QCC_PR_SimpleGetToken (); // if (!STRCMP(pr_token, "COOP_MODE")) // eval = false; if (QCC_PR_CheckCompConstDefined(pr_token)) eval = true; if (ifmode == 1) eval = eval?false:true; } QCC_PR_SkipToEndOfLine(true); if (eval) ifs+=1; else ifs += QCC_PR_FalsePreProcessorIf(false, originalline); } } else if (!strncmp(directive, "else", 4) || !strncmp(directive, "elif", 4)) { int originalline = pr_source_line; if (!ifs) QCC_PR_ParseError(ERR_UNKNOWNPUCTUATION, "#else outside of #if\n"); ifs -= 1; pr_file_p = directive+4; if (!strncmp(directive, "elif", 4)) QCC_PR_SkipToEndOfLine(false); else QCC_PR_SkipToEndOfLine(true); ifs += QCC_PR_FalsePreProcessorIf(true, originalline); } else if (!strncmp(directive, "endif", 5)) { pr_file_p = directive+5; QCC_PR_SkipToEndOfLine(true); if (ifs <= 0) QCC_PR_ParseError(ERR_NOPRECOMPILERIF, "unmatched #endif"); else ifs-=1; } else if (!strncmp(directive, "eof", 3)) { pr_file_p = NULL; return true; } else if (!strncmp(directive, "error", 5)) { pr_file_p = directive+5; for (a = 0; a < sizeof(msg)-1 && pr_file_p[a] != '\t' && pr_file_p[a] != '\n' && pr_file_p[a] != '\0'; a++) msg[a] = pr_file_p[a]; msg[a] = '\0'; QCC_PR_SkipToEndOfLine(false); QCC_PR_ParseError(ERR_HASHERROR, "#Error: %s", msg); } else if (!strncmp(directive, "warning", 7)) { pr_file_p = directive+7; for (a = 0; a < 1023 && pr_file_p[a] != '\r' && pr_file_p[a] != '\n' && pr_file_p[a] != '\0'; a++) msg[a] = pr_file_p[a]; msg[a] = '\0'; QCC_PR_SkipToEndOfLine(false); QCC_PR_ParseWarning(WARN_PRECOMPILERMESSAGE, "#warning: %s", msg); } else if (!strncmp(directive, "message", 7)) { pr_file_p = directive+7; for (a = 0; a < sizeof(msg)-1 && pr_file_p[a] != '\r' && pr_file_p[a] != '\n' && pr_file_p[a] != '\0'; a++) msg[a] = pr_file_p[a]; msg[a] = '\0'; if (flag_msvcstyle) externs->Printf ("%s(%i) : #message: %s\n", s_filen, pr_source_line, msg); else externs->Printf ("%s:%i: #message: %s\n", s_filen, pr_source_line, msg); QCC_PR_SkipToEndOfLine(false); } else if (!strncmp(directive, "copyright", 9)) { pr_file_p = directive+9; for (a = 0; a < sizeof(msg)-1 && qcc_iswhite(pr_file_p[a]) && pr_file_p[a] != '\0'; a++) msg[a] = pr_file_p[a]; msg[a] = '\0'; QCC_PR_SkipToEndOfLine(false); if (strlen(msg) >= sizeof(QCC_copyright)) QCC_PR_ParseWarning(WARN_STRINGTOOLONG, "Copyright message is too long\n"); QC_strlcpy(QCC_copyright, msg, sizeof(QCC_copyright)-1); } else if (!strncmp(directive, "package", 7)) { pr_file_p=directive+7; QCC_PR_SkipToEndOfLine(true); #if 0 if (!autoprototype) { struct pkgctx_s *ctx = Packager_Create(QCC_PR_PackagerMessage, NULL); Packager_ParseText(ctx, pr_file_p); Packager_WriteDataset(ctx, NULL); Packager_Destroy(ctx); } #endif pr_file_p += strlen(pr_file_p); } else if (!strncmp(directive, "pack", 4)) { ifmode = 0; pr_file_p=directive+4; if (!strncmp(pr_file_p, "id", 2)) pr_file_p+=3; else { ifmode = QCC_PR_LexInteger(); if (ifmode == 0) ifmode = 1; pr_file_p++; } for (a = 0; a < sizeof(msg)-1 && qcc_iswhite(pr_file_p[a]) && pr_file_p[a] != '\0'; a++) msg[a] = pr_file_p[a]; msg[a] = '\0'; QCC_PR_SkipToEndOfLine(true); if (ifmode == 0) QCC_packid = atoi(msg); else if (ifmode <= 5) strcpy(QCC_Packname[ifmode-1], msg); else QCC_PR_ParseError(ERR_TOOMANYPACKFILES, "No more than 5 packs are allowed"); } else if (!strncmp(directive, "forcecrc", 8)) { pr_file_p=directive+8; ForcedCRC = QCC_PR_LexInteger(); QCC_PR_SkipToEndOfLine(true); } else if (!strncmp(directive, "merge", 5)) { pr_file_p=directive+5; while(qcc_iswhitesameline(*pr_file_p)) pr_file_p++; QCC_PR_SimpleGetString(); externs->Printf("Merging from %s\n", pr_token); QCC_ImportProgs(pr_token); if (!*destfile && !destfile_explicit) { QCC_JoinPaths(destfile, sizeof(destfile), pr_token, compilingfile); externs->Printf("Outputfile: %s\n", destfile); } QCC_PR_SkipToEndOfLine(true); } else if (!strncmp(directive, "includelist", 11)) { int defines=0; pr_file_p=directive+11; QCC_PR_SkipToEndOfLine(true); while(1) { QCC_PR_LexWhitespace(false); if (QCC_PR_CheckCompConst()) { defines++; continue; } if (!QCC_PR_SimpleGetToken()) { if (!*pr_file_p) { if (defines>0) { defines--; QCC_PR_UnInclude(); continue; } QCC_Error(ERR_EOF, "eof in includelist"); } else { pr_file_p++; pr_source_line++; } continue; } if (!strcmp(pr_token, "#endlist")) { QCC_PR_SkipToEndOfLine(true); break; } QCC_FindBestInclude(pr_token, compilingfile, true); if (*pr_file_p == '\r') pr_file_p++; // QCC_PR_SkipToEndOfLine(true); } } else if (!strncmp(directive, "include", 7)) { char sm; pr_file_p=directive+7; while(qcc_iswhitesameline(*pr_file_p)) pr_file_p++; msg[0] = '\0'; if (*pr_file_p == '\"') sm = '\"'; else if (*pr_file_p == '<') sm = '>'; else { QCC_PR_ParseError(0, "Not a string literal (on a #include)"); sm = 0; } pr_file_p++; a=0; while(*pr_file_p != sm) { if (*pr_file_p == '\n') { QCC_PR_ParseError(0, "#include continued over line boundry\n"); break; } msg[a++] = *pr_file_p; pr_file_p++; } msg[a] = 0; pr_file_p++; QCC_FindBestInclude(msg, compilingfile, false); QCC_PR_SkipToEndOfLine(true); } else if (!strncmp(directive, "datafile", 8)) { pr_file_p=directive+8; while(qcc_iswhitesameline(*pr_file_p)) pr_file_p++; QCC_PR_SimpleGetString(); externs->Printf("Including datafile: %s\n", pr_token); QCC_AddFile(pr_token); pr_file_p++; for (a = 0; a < sizeof(msg)-1 && pr_file_p[a] != '\n' && pr_file_p[a] != '\0'; a++) msg[a] = pr_file_p[a]; msg[a-1] = '\0'; while(*pr_file_p != '\n' && *pr_file_p != '\0') //read on until the end of the line { pr_file_p++; } } else if (!strncmp(directive, "output", 6)) { pr_file_p=directive+6; while(qcc_iswhitesameline(*pr_file_p)) pr_file_p++; QCC_PR_SimpleGetString(); if (!destfile_explicit) { QCC_JoinPaths(destfile, sizeof(destfile), pr_token, compilingfile); externs->Printf("Outputfile: %s\n", pr_token); } QCC_PR_SkipToEndOfLine(true); } else if (!strncmp(directive, "pragma", 6)) { pr_file_p=directive+6; while(qcc_iswhitesameline(*pr_file_p)) pr_file_p++; qcc_token[0] = '\0'; for(a = 0; *pr_file_p != '\n' && *pr_file_p != '\0'; pr_file_p++) //read on until the end of the line { if ((*pr_file_p == ' ' || *pr_file_p == '\t'|| *pr_file_p == '(') && !*qcc_token) { msg[a] = '\0'; strcpy(qcc_token, msg); a=0; if (*pr_file_p != '(') continue; } msg[a++] = *pr_file_p; } msg[a] = '\0'; { char *end; for (end = msg + a-1; end>=msg && qcc_iswhite(*end); end--) *end = '\0'; } if (!*qcc_token) { strcpy(qcc_token, msg); msg[0] = '\0'; } { char *end; for (end = msg + a-1; end>=msg && qcc_iswhite(*end); end--) *end = '\0'; } if (!QC_strcasecmp(qcc_token, "DONT_COMPILE_THIS_FILE")) { while (*pr_file_p) { while(*pr_file_p != '\n' && *pr_file_p != '\0') //read on until the end of the line pr_file_p++; if (*pr_file_p == '\n') { pr_file_p++; QCC_PR_NewLine(false); } } } else if (!QC_strcasecmp(qcc_token, "COPYRIGHT")) { char *e = strrchr(msg+1, '\"'); if (*msg == '\"' && e && e != msg) { //FIXME: handle \ns memmove(msg, msg+1, e-(msg+1)); msg[e-(msg+1)] = 0; } if (!QC_strlcpy(QCC_copyright, msg, sizeof(QCC_copyright))) QCC_PR_ParseWarning(WARN_STRINGTOOLONG, "Copyright message is too long\n"); } else if (!QC_strcasecmp(qcc_token, "compress")) { extern pbool compressoutput; compressoutput = atoi(msg); } else if (!QC_strcasecmp(qcc_token, "forcecrc")) { ForcedCRC = atoi(msg); } else if (!QC_strcasecmp(qcc_token, "once")) { struct qccincludeonced_s *onced = qccHunkAlloc(sizeof(*onced) + strlen(compilingfile)); strcpy(onced->name, compilingfile); onced->next = qccincludeonced; qccincludeonced = onced; } else if (!QC_strcasecmp(qcc_token, "file")) { //#pragma file(foobar.qc) if (!flag_nopragmafileline) { char *e; char *m = msg; if (*m == '(') { m++; e = strchr(m, ')'); if (e) *e = 0; } s_filen = e = qccHunkAlloc(strlen(m)+1); strcpy(e, m); if (opt_filenames) { optres_filenames += strlen(m); s_filed = 0; } else s_filed = QCC_CopyString (m); } } else if (!QC_strcasecmp(qcc_token, "line")) { //#pragma line(666) if (!flag_nopragmafileline) { char *m = msg; if (*m == '(') m++; pr_source_line = strtoul(m, &m, 0)-1; } } else if (!QC_strcasecmp(qcc_token, "includedir")) { char newinc[1024]; int i; QCC_COM_Parse(msg); if (*qcc_token) { i = qcc_token[strlen(qcc_token)-1]; if (i != '/' && i != '\\') QC_strlcat(qcc_token, "/", sizeof(qcc_token)); } QCC_JoinPaths(newinc, sizeof(newinc), qcc_token, compilingfile); QCC_PR_AddIncludePath(newinc); } else if (!QC_strcasecmp(qcc_token, "noref")) defaultnoref = !!atoi(msg); else if (!QC_strcasecmp(qcc_token, "nosave")) defaultnosave = !!atoi(msg); else if (!QC_strcasecmp(qcc_token, "defaultstatic")) defaultstatic = !!atoi(msg); else if (!QC_strcasecmp(qcc_token, "autoproto")) { if (!autoprototyped) { if (numpr_globals != RESERVED_OFS) QCC_PR_ParseWarning(WARN_BADPRAGMA, "#pragma autoproto must appear before any definitions"); else autoprototype = *msg?!!atoi(msg):true; } } else if (!QC_strcasecmp(qcc_token, "wrasm")) { pbool on = atoi(msg); if (asmfile && !on) { fclose(asmfile); asmfile = NULL; } if (!asmfile && on) { if (asmfilebegun) asmfile = fopen("qc.asm", "ab"); else asmfile = fopen("qc.asm", "wb"); if (asmfile) asmfilebegun = true; } } else if (!QC_strcasecmp(qcc_token, "optimise") || !QC_strcasecmp(qcc_token, "optimize")) //bloomin' americans. { int o; extern pbool qcc_nopragmaoptimise; if (pr_scope) QCC_PR_ParseWarning(WARN_BADPRAGMA, "pragma %s: unable to change optimisation options mid-function", qcc_token); else if (*msg >= '0' && *msg <= '3') { int lev = atoi(msg); pbool state; int once = false; for (o = 0; optimisations[o].enabled; o++) { state = optimisations[o].optimisationlevel <= lev; if (qcc_nopragmaoptimise && *optimisations[o].enabled != state) { if (!once++) QCC_PR_ParseWarning(WARN_BADPRAGMA, "pragma %s %s: overriden by commandline", qcc_token, msg); } else *optimisations[o].enabled = state; } } else if (!strnicmp(msg, "addon", 5) || !strnicmp(msg, "mutator", 7)) { int lev = 2; pbool state = false; for (o = 0; optimisations[o].enabled; o++) { if (optimisations[o].optimisationlevel > lev) { if (qcc_nopragmaoptimise && *optimisations[o].enabled != state) QCC_PR_ParseWarning(WARN_IGNORECOMMANDLINE, "pragma %s %s: disabling %s", qcc_token, msg, optimisations[o].fullname); *optimisations[o].enabled = state; } } } else { char *opt = msg; pbool state = true; if (!strnicmp(msg, "no-", 3)) { state = false; opt += 3; } for (o = 0; optimisations[o].enabled; o++) if ((*optimisations[o].abbrev && !stricmp(opt, optimisations[o].abbrev)) || !stricmp(opt, optimisations[o].fullname)) { if (qcc_nopragmaoptimise && *optimisations[o].enabled != state) QCC_PR_ParseWarning(WARN_BADPRAGMA, "pragma %s %s: overriden by commandline", qcc_token, optimisations[o].fullname); else *optimisations[o].enabled = state; break; } if (!optimisations[o].enabled) QCC_PR_ParseWarning(WARN_BADPRAGMA, "pragma %s: %s unsupported", qcc_token, opt); } } else if (!QC_strcasecmp(qcc_token, "sourcefile")) { char *s = msg; while ((s = QCC_COM_Parse(s))) QCC_RegisterSourceFile(qcc_token); } else if (!QC_strcasecmp(qcc_token, "TARGET")) { QCC_COM_Parse(msg); if (!QCC_OPCodeSetTargetName(qcc_token)) QCC_PR_ParseWarning(WARN_BADTARGET, "Unknown target \'%s\'. Ignored.\nValid targets are: ID, HEXEN2, FTE, FTEH2, KK7, DP(patched)", qcc_token); } else if (!QC_strcasecmp(qcc_token, "PROGS_SRC")) { //doesn't make sense, but silenced if you are switching between using a certain precompiler app used with CuTF. } else if (!QC_strcasecmp(qcc_token, "PROGS_DAT")) { //doesn't make sence, but silenced if you are switching between using a certain precompiler app used with CuTF. char olddest[1024]; Q_strlcpy(olddest, destfile, sizeof(olddest)); QCC_COM_Parse(msg); if (!destfile_explicit) //if output file is named on the commandline, don't change it mid-compile QCC_JoinPaths(destfile, sizeof(destfile), qcc_token, compilingfile); if (strcmp(destfile, olddest)) externs->Printf("Outputfile: %s\n", destfile); } else if (!QC_strcasecmp(qcc_token, "opcode")) { int st; char *s = QCC_COM_Parse(msg); if (!QC_strcasecmp(qcc_token, "enable") || !QC_strcasecmp(qcc_token, "on")) st = 1; else if (!QC_strcasecmp(qcc_token, "disable") || !QC_strcasecmp(qcc_token, "off")) st = 0; else { QCC_PR_ParseWarning(WARN_BADPRAGMA, "opcode state not recognised"); st = -1; } if (st >= 0) { int f; while ((s = QCC_COM_Parse(s))) { for (f = 0; pr_opcodes[f].opname; f++) { if (!QC_strcasecmp(pr_opcodes[f].opname, qcc_token)) { if (st) pr_opcodes[f].flags |= OPF_VALID; else pr_opcodes[f].flags &= ~OPF_VALID; break; } } if (!pr_opcodes[f].opname) QCC_PR_ParseWarning(WARN_BADPRAGMA, "opcode %s not recognised", qcc_token); } } } else if (!QC_strcasecmp(qcc_token, "keyword") || !QC_strcasecmp(qcc_token, "flag")) { char *s; int st; s = QCC_COM_Parse(msg); if (!QC_strcasecmp(qcc_token, "enable") || !QC_strcasecmp(qcc_token, "on")) st = 1; else if (!QC_strcasecmp(qcc_token, "disable") || !QC_strcasecmp(qcc_token, "off")) st = 0; else { QCC_PR_ParseWarning(WARN_BADPRAGMA, "compiler flag state not recognised"); st = -1; } if (st >= 0) { int f; while ((s = QCC_COM_Parse(s))) { for (f = 0; compiler_flag[f].enabled; f++) { if (!QC_strcasecmp(compiler_flag[f].abbrev, qcc_token)) { if (compiler_flag[f].flags & FLAG_MIDCOMPILE) { *compiler_flag[f].enabled = st; if (compiler_flag[f].enabled == &flag_cpriority) QCC_PrioritiseOpcodes(); } else QCC_PR_ParseWarning(WARN_BADPRAGMA, "Cannot enable/disable keyword/flag via a pragma"); break; } } if (!compiler_flag[f].enabled) QCC_PR_ParseWarning(WARN_BADPRAGMA, "keyword/flag %s not recognised", qcc_token); } } } else if (!QC_strcasecmp(qcc_token, "warning")) { int st; char *s; s = QCC_COM_Parse(msg); if (!stricmp(qcc_token, "enable") || !stricmp(qcc_token, "on")) st = WA_WARN; else if (!stricmp(qcc_token, "disable") || !stricmp(qcc_token, "off") || !stricmp(qcc_token, "ignore")) st = WA_IGNORE; else if (!stricmp(qcc_token, "error")) st = WA_ERROR; else if (!stricmp(qcc_token, "toggle")) st = 3; else { QCC_PR_ParseWarning(WARN_BADPRAGMA, "warning state not recognised"); st = -1; } if (st>=0) { int wn; while ((s = QCC_COM_Parse(s))) { wn = QCC_WarningForName(qcc_token); if (wn < 0) QCC_PR_ParseWarning(WARN_BADPRAGMA, "warning id not recognised"); else { if (st == 3) //toggle qccwarningaction[wn] = !!qccwarningaction[wn]; else qccwarningaction[wn] = st; } } } } else { QCC_PR_SkipToEndOfLine(false); QCC_PR_ParseWarning(WARN_BADPRAGMA, "Unknown pragma \'%s\'", qcc_token); } QCC_PR_SkipToEndOfLine(true); } return true; } return false; } /* ============== PR_NewLine Call at start of file and when *pr_file_p == '\n' ============== */ void QCC_PR_NewLine (pbool incomment) { pr_source_line++; pr_line_start = pr_file_p; while(*pr_file_p==' ' || *pr_file_p == '\t') pr_file_p++; if (incomment) //no constants if in a comment. { } else if (QCC_PR_Precompiler()) { } // if (pr_dumpasm) // PR_PrintNextLine (); } /* ============== PR_LexString Parses a quoted string ============== */ int QCC_PR_LexEscapedCodepoint(void) { //for "\foo" or '\foo' handling. //caller will have read the \ already. int t; int c = *pr_file_p++; if (!c) QCC_PR_ParseError (ERR_EOF, "EOF inside quote"); if (c == 'n') c = '\n'; else if (c == 'r') c = '\r'; else if (c == '#') //avoid preqcc expansion in strings. c = '#'; else if (c == '"') c = '"'; else if (c == 't') c = '\t'; //tab else if (c == 'a') c = '\a'; //bell else if (c == 'v') c = '\v'; //vertical tab else if (c == 'f') c = '\f'; //form feed // else if (c == 's' || c == 'b') // c = 0; //invalid... //else if (c == 'b') // c = '\b'; else if (c == '[') c = 0xe010; //quake specific else if (c == ']') c = 0xe011; //quake specific else if (c == '{') { int d; c = 0; if (*pr_file_p == 'x') { pr_file_p++; while ((d = *pr_file_p++) != '}') { if (d >= '0' && d <= '9') c = c * 16 + d - '0'; else if (d >= 'a' && d <= 'f') c = c * 16 + 10+d - 'a'; else if (d >= 'A' && d <= 'F') c = c * 16 + 10+d - 'A'; else QCC_PR_ParseError(ERR_BADCHARACTERCODE, "Bad character code"); } } else { while ((d = *pr_file_p++) != '}') { if (d >= '0' && d <= '9') c = c * 10 + d - '0'; else QCC_PR_ParseError(ERR_BADCHARACTERCODE, "Bad character code"); } } } else if (c == '.') c = 0xe01c; else if (c == '<') c = 0xe01d; //separator start else if (c == '-') c = 0xe01e; //separator middle else if (c == '>') c = 0xe01f; //separator end else if (c == '(') c = 0xe080; //slider start else if (c == '=') c = 0xe081; //slider middle else if (c == ')') c = 0xe082; //slider end else if (c == '+') c = 0xe083; //slider box else if (c == 'u' || c == 'U') { //lower case u specifies exactly 4 nibbles. //upper case U specifies exactly 8 nibbles. unsigned int nibbles = (c=='u')?4:8; c = 0; while (nibbles --> 0) { t = (unsigned char)*pr_file_p; if (t >= '0' && t <= '9') c = (c*16) + (t - '0'); else if (t >= 'A' && t <= 'F') c = (c*16) + (t - 'A') + 10; else if (t >= 'a' && t <= 'f') c = (c*16) + (t - 'a') + 10; else break; pr_file_p++; } if (nibbles) QCC_PR_ParseWarning(ERR_BADCHARACTERCODE, "Unicode character terminated unexpectedly"); } else if (c == 'x' || c == 'X') { int d; c = 0; d = (unsigned char)*pr_file_p++; if (d >= '0' && d <= '9') c += d - '0'; else if (d >= 'A' && d <= 'F') c += d - 'A' + 10; else if (d >= 'a' && d <= 'f') c += d - 'a' + 10; else QCC_PR_ParseError(ERR_BADCHARACTERCODE, "Bad character code"); c *= 16; d = (unsigned char)*pr_file_p++; if (d >= '0' && d <= '9') c += d - '0'; else if (d >= 'A' && d <= 'F') c += d - 'A' + 10; else if (d >= 'a' && d <= 'f') c += d - 'a' + 10; else QCC_PR_ParseError(ERR_BADCHARACTERCODE, "Bad character code"); } else if (c == '\\') c = '\\'; else if (c == '\'') c = '\''; else if (c >= '0' && c <= '9') //WARNING: This is not octal, but uses 'yellow' numbers instead (as on hud). c = 0xe012 + c - '0'; else if (c == '\r') { //sigh c = *pr_file_p++; if (c != '\n') QCC_PR_ParseWarning(WARN_HANGINGSLASHR, "Hanging \\\\\r"); pr_source_line++; } else if (c == '\n') { //sigh pr_source_line++; } else QCC_PR_ParseError (ERR_INVALIDSTRINGIMMEDIATE, "Unknown escape char %c", c); return c; } void QCC_PR_LexString (void) { unsigned int c, t; int bytecount; int len = 0; char *end; const char *cnst; int raw; char rawdelim[64]; int stringtype; //0 - quake output, input is 8bit. warnings when its not ascii. \u will still give utf-8 text, other chars as-is. Expect \s to screw everything up with utf-8 output. //1 - quake output, input is utf-8. due to editors not supporting it, that generally means the input (ab)uses markup. //2 - utf-8 output, input is utf-8. welcome to the future! unfortunately not the present. int texttype; pbool first = true; for(;;) { raw = 0; texttype = 0; QCC_PR_LexWhitespace(false); if (flag_qccx && *pr_file_p == ':') { pr_file_p++; pr_token[len++] = 0; continue; } if (*pr_file_p == 'R' && pr_file_p[1] == '\"') { /*R"delim(fo o)delim" -> "fo\no" the [] */ raw = 1; pr_file_p+=2; while (1) { c = *pr_file_p++; if (c == '(') { rawdelim[0] = ')'; break; } if (!c || raw >= sizeof(rawdelim)-1) QCC_PR_ParseError (ERR_EOF, "EOF while parsing raw string delimiter. Expected: R\"delim(string)delim\""); rawdelim[raw++] = c; } rawdelim[raw++] = '\"'; //these two conditions are generally part of the C preprocessor. if (!strncmp(pr_file_p, "\\\r\n", 3)) { //dos format pr_file_p += 3; pr_source_line++; } else if (!strncmp(pr_file_p, "\\\r", 2) || !strncmp(pr_file_p, "\\\n", 2)) { //mac + unix format pr_file_p += 2; pr_source_line++; } stringtype = 0; } else if (*pr_file_p == 'Q' && pr_file_p[1] == '\"') { //quake output with utf-8 input (expect to need markup). stringtype = 1; pr_file_p+=2; } else if ((*pr_file_p == 'U' || *pr_file_p == 'u' || *pr_file_p == 'L') && pr_file_p[1] == '\"') { //unicode string, char32_t, char16_t, wchar_t respectively. we spit out utf-8 regardless. QCC_PR_ParseWarning(WARN_NOTUTF8, "char32_t/char16_t/wchar_t strings are not supported, treating as u8 prefix (as utf-8)"); stringtype = 2; pr_file_p+=2; } else if (*pr_file_p == 'u' && pr_file_p[1] == '8' && pr_file_p[2] == '\"') { //utf-8 string. stringtype = 2; pr_file_p+=3; } else if (*pr_file_p == '\"') { stringtype = flag_utf8strings?2:0; pr_file_p++; } else if (first) { stringtype = 0; QCC_PR_ParseError(ERR_BADCHARACTERCODE, "Expected string constant"); } else break; first = false; for(;;) { c = *pr_file_p++; if (!c) QCC_PR_ParseError (ERR_EOF, "EOF inside quote"); if (raw) { //raw strings contain very little parsing. just delimiter and initial \NL support. if (c == rawdelim[0] && !strncmp(pr_file_p, rawdelim+1, raw-1)) { pr_file_p += raw-1; break; } //make sure line numbers are correct though. if (c == '\r' && *pr_file_p != '\n') pr_source_line++; //mac if (c == '\n') //dos/unix pr_source_line++; goto forcebyte; } else { if (c=='\n') QCC_PR_ParseError (ERR_INVALIDSTRINGIMMEDIATE, "newline inside quote"); if (c=='\\') { // escape char c = *pr_file_p; //peek at it, for our hacks. if (c == 's' || c == 'b') { pr_file_p++; texttype ^= 0xe080; continue; } else if (c == '.') { pr_file_p++; c = 0xe01c | texttype; } else if (c == 'u' || c == 'U') { //special hack, \u is a utf-8 code regardless of output encoding... c = QCC_PR_LexEscapedCodepoint(); goto forceutf8; } else if (c == 'x' || c == 'X') { //special hack, \xXX in a string is an explicit byte regardless of encoding. c = QCC_PR_LexEscapedCodepoint(); // if (c > 0xff) // QCC_PR_ParseWarning(ERR_BADCHARACTERCODE, "Bad unicode character code - codepoint %#x is above 0xFF", c); goto forcebyte; } else { c = QCC_PR_LexEscapedCodepoint(); // if (stringtype != 2 && c > 0xff) // QCC_PR_ParseWarning(ERR_BADCHARACTERCODE, "Bad legacy character code - codepoint %#x is above 0xFF", c); } } else if (c=='\"') { break; } else if (c == '#') { for (end = pr_file_p; ; end++) { if (qcc_iswhite(*end)) break; if (*end == ')' || *end == '(' || *end == '+' || *end == '-' || *end == '*' || *end == '/' || *end == '\\' || *end == '|' || *end == '&' || *end == '=' || *end == '^' || *end == '~' || *end == '[' || *end == ']' || *end == '\"' || *end == '{' || *end == '}' || *end == ';' || *end == ':' || *end == ',' || *end == '.' || *end == '#') break; } c = *end; *end = '\0'; cnst = QCC_PR_CheckCompConstString(pr_file_p); if (cnst==pr_file_p) cnst=NULL; *end = c; c = '#'; //undo if (cnst) { QCC_PR_ParseWarning(WARN_MACROINSTRING, "Macro expansion in string"); if (len+strlen(cnst) >= sizeof(pr_token)-1) QCC_Error(ERR_INVALIDSTRINGIMMEDIATE, "String length exceeds %u", (unsigned)sizeof(pr_token)-1); strcpy(pr_token+len, cnst); len+=strlen(cnst); pr_file_p = end; continue; } } else if (c == 0x7C && flag_acc) //reacc support... reacc is strange. c = '\n'; else { unsigned int cp = c; unsigned int len = stringtype?utf8_check(pr_file_p-1, &cp):0; if (!len) { //invalid utf-8 encoding? don't treat it as utf-8! if (stringtype) QCC_PR_ParseWarning(ERR_BADCHARACTERCODE, "Input string is not valid utf-8"); if (c >= ' ') c |= texttype; goto forcebyte; } if (texttype) { if (cp < ' ') c = cp; //don't mask C0 chars like \t or \n else if (cp < 0x80) c = cp|0xe080; //DO mask other ascii chars (and map to the private-use range at the same time, because this isn't standard unicode any more) else { QCC_PR_ParseWarning(ERR_BADCHARACTERCODE, "Unable to mask non-ascii chars. Attempting to mask bytes"); c |= texttype; goto forcequake; } } else c = cp; pr_file_p += len-1; } } // if (c >= 0x20 && c < 0x80) // c |= 0xe000; //TEST if (stringtype == 2) { //we're outputting a utf-8 string. forceutf8: if (c > 0x10FFFFu) //RFC 3629 imposes the same limit as UTF-16 surrogate pairs. QCC_PR_ParseWarning(WARN_NOTUTF8, "Bad unicode character code - codepoint is above 0x10FFFFu"); //figure out the count of bytes required to encode this char bytecount = 1; t = 0x80; while (c >= t) { if (bytecount == 1) t <<= 4; else if (bytecount < 7) t <<= 5; else t <<= 6; bytecount++; } //error if needed if (len+bytecount >= sizeof(pr_token)) QCC_Error(ERR_INVALIDSTRINGIMMEDIATE, "String length exceeds %u", (unsigned)sizeof(pr_token)-1); //output it. if (bytecount == 1) pr_token[len++] = (unsigned char)(c&0x7f); else { t = bytecount*6; t = t-6; pr_token[len++] = (unsigned char)((c>>t)&(0x0000007f>>bytecount)) | (0xffffff00 >> bytecount); do { t = t-6; pr_token[len++] = (unsigned char)((c>>t)&0x3f) | 0x80; } while(t); } } else { forcequake: //we need to convert it to a quake char... if (c >= 0xe000 && c <= 0xe0ff) c = c & 0xff; //this private use range is commonly used for quake's glyphs. else if (c >= 0 && c <= 0x7f) ; //FIXME: SOME c0 codes are known to quake, but many got reused for random glyphs. however I'm going to treat quake as full ascii. else if (c >= 0x80) { //FIXME: spit it out as ^{xxxxxx} instead QCC_PR_ParseWarning(WARN_NOTUTF8, "Cannot convert character to quake's charset"); } forcebyte: if (len >= sizeof(pr_token)-1) QCC_Error(ERR_INVALIDSTRINGIMMEDIATE, "String length exceeds %u", (unsigned)sizeof(pr_token)-1); pr_token[len] = c; len++; } } } if (len > sizeof(pr_immediate_string)-1) QCC_Error(ERR_INVALIDSTRINGIMMEDIATE, "String length exceeds %u", (unsigned)sizeof(pr_immediate_string)-1); pr_token[len] = 0; pr_token_type = tt_immediate; pr_immediate_type = type_string; memcpy(pr_immediate_string, pr_token, len+1); pr_immediate_strlen = len; /*if (qccwarningaction[WARN_NOTUTF8] && stringtype != 1) { unsigned int code; size_t c; for (c = 0; c < pr_immediate_strlen; ) { len = utf8_check(&pr_token[c], &code); if (!len || c+len>pr_immediate_strlen) { QCC_PR_ParseWarning(WARN_NOTUTF8, "String literal is not valid utf-8"); break; } c += len; } }*/ } /* ============== PR_LexNumber ============== */ int QCC_PR_LexInteger (void) { int c; int len; len = 0; c = *pr_file_p; if (pr_file_p[0] == '0' && (pr_file_p[1] == 'x' || pr_file_p[1] == 'X')) { pr_token[0] = '0'; pr_token[1] = 'x'; len = 2; c = *(pr_file_p+=2); } do { pr_token[len] = c; len++; pr_file_p++; c = *pr_file_p; } while ((c >= '0' && c<= '9') || (c == '.'&&pr_file_p[1]!='.') || (c>='a' && c <= 'f')); pr_token[len] = 0; return atoi (pr_token); } #ifdef _MSC_VER #define longlong __int64 #define LL(x) x##i64 #else #define longlong long long #define LL(x) x##ll #endif static void QCC_PR_LexNumber (void) { int tokenlen = 0; longlong num=0; int base=0; int c; int sign=1; if (*pr_file_p == '-') { sign=-1; pr_file_p++; pr_token[tokenlen++] = '-'; } if (pr_file_p[0] == '0' && (pr_file_p[1] == 'x' || pr_file_p[1] == 'X')) { pr_file_p+=2; base = 16; pr_token[tokenlen++] = '0'; pr_token[tokenlen++] = 'x'; } else if (pr_file_p[0] == '0') { pr_file_p++; if (*pr_file_p >= '0' && *pr_file_p <= '9') QCC_PR_ParseWarning(WARN_GMQCC_SPECIFIC, "A leading 0 is interpreted as base-8."); base = 8; pr_token[tokenlen++] = '0'; } pr_immediate_type = NULL; //assume base 10 if not stated if (!base) base = 10; while((c = *pr_file_p)) { if (c >= '0' && c <= '9' && c < '0'+base) { pr_token[tokenlen++] = c; num*=base; num += c-'0'; } else if (c >= 'a' && c <= 'z' && c < 'a'+base-10) { pr_token[tokenlen++] = c; num*=base; num += c -'a'+10; } else if (c >= 'A' && c <= 'Z' && c < 'A'+base-10) { pr_token[tokenlen++] = c; num*=base; num += c -'A'+10; } else if (c == '.' && pr_file_p[1]!='.') { pr_token[tokenlen++] = c; pr_file_p++; pr_immediate_type = flag_assume_double?type_double:type_float; while(1) { c = *pr_file_p; if (c >= '0' && c <= '9') { pr_token[tokenlen++] = c; } else if (c == 'f' || c == 'F') { pr_file_p++; break; } else if (c == 'd' || c == 'D') { pr_immediate_type = type_double; pr_file_p++; break; } else { break; } pr_file_p++; } pr_token[tokenlen++] = 0; if (pr_immediate_type == type_double) pr_immediate._double = atof(pr_token); else pr_immediate._float = (float)atof(pr_token); goto checkjunk; } else if (c == 'f' || c == 'F') { pr_token[tokenlen++] = c; pr_token[tokenlen++] = 0; pr_file_p++; pr_immediate_type = type_float; pr_immediate._float = num*sign; num*=sign; if ((longlong)pr_immediate._float != (longlong)num) QCC_PR_ParseWarning(WARN_OVERFLOW, "numerical overflow"); goto checkjunk; } else if (c == 'd' || c == 'D') { //note: conflicts with hex. add a dot before it or something. pr_token[tokenlen++] = c; pr_token[tokenlen++] = 0; pr_file_p++; pr_immediate_type = type_double; pr_immediate._double = num*sign; num*=sign; if ((longlong)pr_immediate._double != (longlong)num) QCC_PR_ParseWarning(WARN_OVERFLOW, "numerical overflow"); goto checkjunk; } else if (c == 'i' || c == 'u' || c == 'l' || c == 'I' || c == 'U' || c == 'L') { //length and sign flags can be any order. LL suffix must have the same case (but not necessarily match the sign suffix) int isunsigned; int islong = (c == 'l')||(c == 'L'); pr_token[tokenlen++] = c; pr_file_p++; if (islong) { //length suffix was first. //long-long? if (*pr_file_p == c) pr_token[tokenlen++] = *pr_file_p++; //check for signed suffix... c = *pr_file_p; isunsigned = (c == 'u')||(c=='U'); if (c == 'i' || c == 'I' || isunsigned) //ignore an explicit redundant 'i' char, for not-a-float. pr_token[tokenlen++] = *pr_file_p++; } else { isunsigned = (c == 'u')||(c=='U'); //we already made sure it u or i, and its not an l c = *pr_file_p; if (c == 'l' || c == 'L') { pr_token[tokenlen++] = *pr_file_p++; islong = true; //long-long? if (*pr_file_p == c) pr_token[tokenlen++] = *pr_file_p++; } } pr_token[tokenlen++] = 0; num *= sign; if (islong) { pr_immediate_type = (isunsigned)?type_uint64:type_int64; pr_immediate._int64 = num; } else { pr_immediate_type = (isunsigned)?type_uint:type_integer; pr_immediate._int = num; if ((longlong)pr_immediate._int != (longlong)num) { if (((longlong)pr_immediate._int & LL(0xffffffff80000000)) != LL(0xffffffff80000000)) QCC_PR_ParseWarning(WARN_OVERFLOW, "numerical overflow"); } } goto checkjunk; } else break; pr_file_p++; } pr_token[tokenlen++] = 0; if (!pr_immediate_type) { //float f = num; if (flag_assume_integer)// || (base != 10 && sign > 0 && (long long)f != (long long)num)) pr_immediate_type = type_integer; else if (flag_qccx && base == 16) { pr_immediate_type = type_float; goto qccxhex; } else pr_immediate_type = type_float; } if (pr_immediate_type == type_integer) { pr_immediate_type = type_integer; qccxhex: pr_immediate._int = num*sign; num*=sign; if ((longlong)pr_immediate._int != (longlong)num) { if (((longlong)pr_immediate._int & LL(0xffffffff80000000)) != LL(0xffffffff80000000)) QCC_PR_ParseWarning(WARN_OVERFLOW, "numerical overflow"); } } else { pr_immediate_type = type_float; // at this point, we know there's no . in it, so the NaN bug shouldn't happen // and we cannot use atof on tokens like 0xabc, so use num*sign, it SHOULD be safe //pr_immediate._float = atof(pr_token); pr_immediate._float = (float)(num*sign); num*=sign; if ((longlong)pr_immediate._float != (longlong)num && base == 16) QCC_PR_ParseWarning(WARN_OVERFLOW, "numerical overflow %lld will be rounded to %f", num, pr_immediate._float); } checkjunk: c = *pr_file_p; if ( (c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z') || c == '_' || (c >= '0' && c <= '9') || (c & 0x80)) QCC_PR_ParseWarning(ERR_NOTANUMBER, "bad suffix on number %s", pr_token); } static float QCC_PR_LexFloat (void) { int c; int len; len = 0; c = *pr_file_p; do { pr_token[len] = c; len++; pr_file_p++; c = *pr_file_p; } while ((c >= '0' && c<= '9') || (c == '.'&&pr_file_p[1]!='.')); //only allow a . if the next isn't too... if (*pr_file_p == 'f') pr_file_p++; pr_token[len] = 0; return (float)atof (pr_token); } /* ============== PR_LexVector Parses a single quoted vector ============== */ static void QCC_PR_LexVector (void) { int i; pr_file_p++; //skip the leading ' char if (*pr_file_p == '\\') {//extended character constant pr_file_p++; pr_token_type = tt_immediate; pr_immediate_type = type_float; pr_immediate._float = QCC_PR_LexEscapedCodepoint(); if (*pr_file_p != '\'') QCC_PR_ParseError (ERR_INVALIDVECTORIMMEDIATE, "Bad character constant"); pr_file_p++; return; } if ((unsigned char)*pr_file_p >= 0x80) { int b = utf8_check(pr_file_p, &pr_immediate._int); //utf-8 codepoint. pr_token_type = tt_immediate; pr_immediate_type = type_float; if (flag_qccx) QCC_PR_ParseWarning(WARN_DENORMAL, "char constant: denormal"); else pr_immediate._float = pr_immediate._int; pr_file_p+=b+1; return; } else if (pr_file_p[1] == '\'') {//character constant pr_token_type = tt_immediate; pr_immediate_type = type_float; if (flag_qccx) { QCC_PR_ParseWarning(WARN_DENORMAL, "char constant: denormal"); pr_immediate._int = pr_file_p[0]; } else pr_immediate._float = pr_file_p[0]; pr_file_p+=2; return; } pr_token_type = tt_immediate; pr_immediate_type = type_vector; QCC_PR_LexWhitespace (false); for (i=0 ; i<3 ; i++) { pr_immediate.vector[i] = QCC_PR_LexFloat (); QCC_PR_LexWhitespace (false); if (*pr_file_p == '\'' && i == 1) { if (i < 2) QCC_PR_ParseWarning (WARN_FTE_SPECIFIC, "2d vector"); for (i++ ; i<3 ; i++) pr_immediate.vector[i] = 0; break; } } if (*pr_file_p != '\'') QCC_PR_ParseError (ERR_INVALIDVECTORIMMEDIATE, "Bad vector"); pr_file_p++; } /* ============== PR_LexName Parses an identifier ============== */ static void QCC_PR_LexName (void) { unsigned int c; int len; len = 0; do { int b = utf8_check(pr_file_p, &c); if (!b) { unsigned char lead = *pr_file_p++; char *o; while(*pr_file_p && !utf8_check(pr_file_p, &c)) pr_file_p++; o = pr_file_p; while (qcc_iswhite(*pr_file_p)) { if (*pr_file_p == '\n') break; pr_file_p++; } if (*pr_file_p == '\n') QCC_PR_ParseError(ERR_NOTANAME, "Invalid UTF-8 code sequence at end of line. Lead byte was %#2x", lead); else { len = 0; while (*pr_file_p && !qcc_iswhite(*pr_file_p)) pr_token[len++] = *pr_file_p++; pr_token[len++] = 0; pr_file_p = o; QCC_PR_ParseError(ERR_NOTANAME, "Invalid UTF-8 code sequence before %s. Lead byte was %#2x", pr_token, lead); } return; } while(b-->0) { pr_token[len] = *pr_file_p++; len++; } c = *pr_file_p; } while ( (c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z') || c == '_' || (c >= '0' && c <= '9') || (c & 0x80)); pr_token[len] = 0; pr_token_type = tt_name; } /* ============== PR_LexPunctuation ============== */ static void QCC_PR_LexPunctuation (void) { int i; int len; char *p; pr_token_type = tt_punct; if (pr_file_p[0] == '*' && pr_file_p[1] == '*' && flag_dblstarexp) { //for compat with gmqcc. fteqcc uses *^ internally (which does not conflict with multiplying by dereferenced pointers - sucks for MSCLR c++ syntax) QCC_PR_ParseWarning(WARN_GMQCC_SPECIFIC, "** is unsafe around pointers, use *^ instead.", pr_token); strcpy (pr_token, "*^"); pr_file_p += 2; return; } for (i=0 ; (p = pr_punctuation[i]) != NULL ; i++) { len = strlen(p); if (!strncmp(p, pr_file_p, len) ) { strcpy (pr_token, pr_punctuationremap[i]); if (p[0] == '{') pr_bracelevel++; else if (p[0] == '}') pr_bracelevel--; pr_file_p += len; return; } } if ((unsigned char)*pr_file_p == (unsigned char)'\\' && pr_file_p[1] == '\r' && pr_file_p[2] == '\n') pr_file_p+=3; else if ((unsigned char)*pr_file_p == (unsigned char)'\\' && (pr_file_p[1] == '\r' || pr_file_p[1] == '\n')) pr_file_p+=2; else { if ((unsigned char)*pr_file_p == (unsigned char)0xa0) QCC_PR_ParseWarning (ERR_UNKNOWNPUCTUATION, "Unsupported punctuation: '\\x%x' - non-breaking space", (unsigned char)*pr_file_p); else QCC_PR_ParseWarning (ERR_UNKNOWNPUCTUATION, "Unknown punctuation: '\\x%x'", *pr_file_p); pr_file_p++; } QCC_PR_Lex(); } /* ============== PR_LexWhitespace ============== */ void QCC_PR_LexWhitespace (pbool inhibitpreprocessor) { int c; while (1) { // skip whitespace while ((c = *pr_file_p) && qcc_iswhite(c)) { if (qcc_islineending(c, pr_file_p[1])) { pr_file_p++; if (!inhibitpreprocessor) QCC_PR_NewLine (false); else pr_source_line++; if (!pr_file_p) return; } else pr_file_p++; } if (c == 0) return; // end of file // skip // comments if (c=='/' && pr_file_p[1] == '/') { while (*pr_file_p && !qcc_islineending(pr_file_p[0], pr_file_p[1])) pr_file_p++; if (*pr_file_p) pr_file_p++; //don't break on eof. if (!inhibitpreprocessor) QCC_PR_NewLine(false); else pr_source_line++; continue; } // skip /* */ comments if (c=='/' && pr_file_p[1] == '*') { pr_file_p+=1; do { pr_file_p++; if (qcc_islineending(pr_file_p[0], pr_file_p[1])) { if (!inhibitpreprocessor) QCC_PR_NewLine(true); else pr_source_line++; } if (pr_file_p[1] == 0) { QCC_PR_ParseError(0, "EOF inside comment\n"); pr_file_p++; return; } if (pr_file_p[0] == '/' && pr_file_p[1] == '*') QCC_PR_ParseWarning(WARN_NESTEDCOMMENT, "\"/*\" inside comment"); } while (pr_file_p[0] != '*' || pr_file_p[1] != '/'); pr_file_p+=2; continue; } break; // a real character has been found } } //============================================================================ #define MAX_FRAMES 8192 char pr_framemodelname[64]; struct { char name[64]; int value; const char *file; //compare to s_filen to see if its current or not } pr_framemacro[MAX_FRAMES]; int pr_nummacros; int pr_macrovalue; //next value to use int pr_savedmacro; //for sub-groups. void QCC_PR_ClearGrabMacros (pbool newfile) { if (!newfile) pr_nummacros = 0; pr_macrovalue = 0; pr_savedmacro = -1; } static int QCC_PR_FindMacro (char *name) { int i; for (i=pr_nummacros-1 ; i>=0 ; i--) { if (!STRCMP (name, pr_framemacro[i].name)) { if (pr_framemacro[i].file != s_filen) QCC_PR_ParseWarning(WARN_STALEMACRO, "Stale macro used (%s, defined in %s)", pr_token, pr_framemacro[i].file); return pr_framemacro[i].value; } } for (i=pr_nummacros-1 ; i>=0 ; i--) { if (!stricmp (name, pr_framemacro[i].name)) { QCC_PR_ParseWarning(WARN_CASEINSENSITIVEFRAMEMACRO, "Case insensitive frame macro (using %s)", pr_framemacro[i].name); if (pr_framemacro[i].file != s_filen) QCC_PR_ParseWarning(WARN_STALEMACRO, "Stale macro used (%s, defined in %s)", pr_token, pr_framemacro[i].file); return pr_framemacro[i].value; } } return -1; } static void QCC_PR_ExpandMacro(void) { int i = QCC_PR_FindMacro(pr_token); if (i < 0) QCC_PR_ParseError (ERR_BADFRAMEMACRO, "Unknown frame macro $%s", pr_token); QC_snprintfz(pr_token, sizeof(pr_token),"%d", i); pr_token_type = tt_immediate; pr_immediate_type = type_float; pr_immediate._float = (float)i; } pbool QCC_PR_SimpleGetString(void) { int c; int i = 0; char *f; pr_token[0] = 0; // skip whitespace while ((c = *pr_file_p) && qcc_iswhite(c)) { if (c=='\n') return false; pr_file_p++; } if (c == 0) //eof return false; //abort if there's a comment. if (pr_file_p[0] == '/') { if (pr_file_p[1] == '/') { //comment alert while(*pr_file_p && *pr_file_p != '\n') pr_file_p++; return false; } if (pr_file_p[1] == '*') return false; } if (*pr_file_p != '\"') return false; //nope, not a string. f = pr_file_p+1; while (*f) { if (*f == '\n' || !*f) { //bad string QCC_Error (ERR_INTERNAL, "new line inside string"); pr_token[0] = 0; return false; } if (*f == '\"') { //end-of-string pr_token[i] = 0; pr_file_p = f+1; return false; } if (i == sizeof(qcc_token)-1) QCC_Error (ERR_INTERNAL, "token exceeds %i chars", i); if (*f == '\\') { f++; if (!*f) f = ""; else if (*f == 'n') { pr_token[i++] = '\n'; f++; } else if (*f == 'r') { pr_token[i++] = '\r'; f++; } else if (*f == 't') { pr_token[i++] = '\t'; f++; } else pr_token[i++] = *f++; } else pr_token[i++] = *f++; } return true; } // just parses text, returning false if an eol is reached pbool QCC_PR_SimpleGetToken (void) { int c; int i; pr_token[0] = 0; // skip whitespace while ((c = *pr_file_p) && qcc_iswhite(c)) { if (c=='\n') return false; pr_file_p++; } if (c == 0) //eof return false; if (pr_file_p[0] == '/') { if (pr_file_p[1] == '/') { //comment alert while(*pr_file_p && *pr_file_p != '\n') pr_file_p++; return false; } if (pr_file_p[1] == '*') return false; } i = 0; while ((c = *pr_file_p) && !qcc_iswhite(c) && c != ',' && c != ';' && c != ')' && c != '(' && c != ']' && !(c == '/' && pr_file_p[1] == '/')) { if (i == sizeof(qcc_token)-1) QCC_Error (ERR_INTERNAL, "token exceeds %i chars", i); pr_token[i] = c; i++; pr_file_p++; } pr_token[i] = 0; return i!=0; } static pbool QCC_PR_LexMacroName(void) { int c; int i; pr_token[0] = 0; // skip whitespace while ((c = *pr_file_p) && qcc_iswhite(c)) { if (c=='\n') return false; pr_file_p++; } if (!c) return false; if (pr_file_p[0] == '/') { if (pr_file_p[1] == '/') { //comment alert while(*pr_file_p && *pr_file_p != '\n') pr_file_p++; return false; } if (pr_file_p[1] == '*') return false; } i = 0; while ( (c = *pr_file_p) > ' ' && c != '\n' && c != ',' && c != ';' && c != '&' && c != '|' && c != ')' && c != '(' && c != ']' && !(pr_file_p[0] == '.' && pr_file_p[1] == '.')) { if (i == sizeof(qcc_token)-1) QCC_Error (ERR_INTERNAL, "token exceeds %i chars", i); pr_token[i] = c; i++; pr_file_p++; } pr_token[i] = 0; return i!=0; } static void QCC_PR_MacroFrame(char *name, int value, pbool force) { int i; for (i=pr_nummacros-1 ; i>=0 ; i--) { if (!STRCMP (name, pr_framemacro[i].name)) { //vanilla macro behaviour is to not realise that there's dupes. lookups find the first, so dupes end up as dead gaps. //our caller incremented the value externally //so warn+ignore if its from the same file if (pr_framemacro[i].file == s_filen && !force) QCC_PR_ParseWarning(WARN_DUPLICATEMACRO, "Duplicate macro defined (%s). Rename it.", pr_token); else { pr_framemacro[i].value = value; //old file, override it, whatever the old value was is redundant now pr_framemacro[i].file = s_filen; } return; } } if (strlen(name)+1 > sizeof(pr_framemacro[0].name)) QCC_PR_ParseWarning(ERR_TOOMANYFRAMEMACROS, "Name for frame macro %s is too long", name); else { strcpy (pr_framemacro[pr_nummacros].name, name); pr_framemacro[pr_nummacros].value = value; pr_framemacro[pr_nummacros].file = s_filen; pr_nummacros++; if (pr_nummacros >= MAX_FRAMES) QCC_PR_ParseError(ERR_TOOMANYFRAMEMACROS, "Too many frame macros defined"); } } static void QCC_PR_ParseFrame (void) { while (QCC_PR_LexMacroName ()) { QCC_PR_MacroFrame(pr_token, pr_macrovalue++, false); } } /* ============== PR_LexGrab Deals with counting sequence numbers and replacing frame macros ============== */ static void QCC_PR_LexGrab (void) { pr_file_p++; // skip the $ // if (!QCC_PR_SimpleGetToken ()) // QCC_PR_ParseError ("hanging $"); if (qcc_iswhite(*pr_file_p)) QCC_PR_ParseError (ERR_BADFRAMEMACRO, "hanging $"); QCC_PR_LexMacroName(); if (!*pr_token) QCC_PR_ParseError (ERR_BADFRAMEMACRO, "hanging $"); // check for $frame if (!STRCMP (pr_token, "frame") || !STRCMP (pr_token, "framesave")) { QCC_PR_ParseFrame (); QCC_PR_Lex (); } // ignore other known $commands - just for model/spritegen else if (!STRCMP (pr_token, "cd") || !STRCMP (pr_token, "origin") || !STRCMP (pr_token, "base") || !STRCMP (pr_token, "flags") || !STRCMP (pr_token, "scale") || !STRCMP (pr_token, "skin") ) { // skip to end of line while (QCC_PR_LexMacroName ()) ; QCC_PR_Lex (); } else if (!STRCMP (pr_token, "flush")) { QCC_PR_ClearGrabMacros(true); while (QCC_PR_LexMacroName ()) ; QCC_PR_Lex (); } else if (!STRCMP (pr_token, "framevalue")) { QCC_PR_LexMacroName (); pr_macrovalue = atoi(pr_token); QCC_PR_Lex (); } else if (!STRCMP (pr_token, "framerestore")) { QCC_PR_LexMacroName (); QCC_PR_ExpandMacro(); pr_macrovalue = (int)pr_immediate._float; QCC_PR_Lex (); } else if (!STRCMP (pr_token, "modelname")) { int i; QCC_PR_LexMacroName (); if (*pr_framemodelname) QCC_PR_MacroFrame(pr_framemodelname, pr_macrovalue, true); if (!QC_strlcpy(pr_framemodelname, pr_token, sizeof(pr_framemodelname))) QCC_PR_ParseWarning (WARN_STRINGTOOLONG, "$modelname name too long"); i = QCC_PR_FindMacro(pr_framemodelname); if (i) pr_macrovalue = i; else i = 0; QCC_PR_Lex (); } // look for a frame name macro else QCC_PR_ExpandMacro (); } //=========================== //compiler constants - dmw pbool QCC_PR_UndefineName(const char *name) { // int a; CompilerConstant_t *c; c = pHash_Get(&compconstantstable, name); if (!c) { QCC_PR_ParseWarning(WARN_UNDEFNOTDEFINED, "Precompiler constant %s was not defined", name); return false; } Hash_Remove(&compconstantstable, name); return true; } CompilerConstant_t *QCC_PR_DefineName(const char *name) { int i; CompilerConstant_t *cnst; if (strlen(name) >= MAXCONSTANTNAMELENGTH || !*name) QCC_PR_ParseError(ERR_NAMETOOLONG, "Compiler constant name length is too long or short"); cnst = pHash_Get(&compconstantstable, name); if (cnst) { QCC_PR_ParseWarning(WARN_DUPLICATEDEFINITION, "Duplicate definition for Precompiler constant %s", name); Hash_Remove(&compconstantstable, name); } cnst = qccHunkAlloc(sizeof(CompilerConstant_t)); cnst->used = false; cnst->numparams = -1; cnst->evil = false; strcpy(cnst->name, name); cnst->namelen = strlen(name); cnst->value = cnst->name + strlen(cnst->name); for (i = 0; i < MAXCONSTANTPARAMS; i++) cnst->params[i][0] = '\0'; pHash_Add(&compconstantstable, cnst->name, cnst, qccHunkAlloc(sizeof(bucket_t))); return cnst; } void QCC_PR_PreProcessor_Define(pbool append) { char *d; char *dbuf; int dbuflen; char *s; int quote=false; pbool preprocessorhack = false; CompilerConstant_t *cnst, *oldcnst; QCC_PR_SimpleGetToken (); if (!QCC_PR_SimpleGetToken ()) QCC_PR_ParseError(ERR_NONAME, "No name defined for compiler constant"); oldcnst = pHash_Get(&compconstantstable, pr_token); if (oldcnst) Hash_Remove(&compconstantstable, oldcnst->name); cnst = QCC_PR_DefineName(pr_token); if (*pr_file_p == '(') { cnst->numparams = 0; pr_file_p++; while(qcc_iswhitesameline(*pr_file_p)) pr_file_p++; s = pr_file_p; for (;;) { if (*pr_file_p == ',' || *pr_file_p == ')') { int nl; nl = pr_file_p-s; while(qcc_iswhitesameline(s[nl])) nl--; if (cnst->numparams >= MAXCONSTANTPARAMS) QCC_PR_ParseError(ERR_MACROTOOMANYPARMS, "May not have more than %i parameters to a macro", MAXCONSTANTPARAMS); if (nl >= MAXCONSTANTPARAMLENGTH) QCC_PR_ParseError(ERR_MACROTOOMANYPARMS, "parameter name is too long (max %i)", MAXCONSTANTPARAMLENGTH); if (nl == 3 && s[0] == '.' && s[1] == '.' && s[2] == '.') { cnst->varg = true; if (*pr_file_p != ')') QCC_PR_ParseError(ERR_MACROTOOMANYPARMS, "varadic argument must be last"); } else { memcpy(cnst->params[cnst->numparams], s, nl); cnst->params[cnst->numparams][nl] = '\0'; for (nl = 0; nl < cnst->numparams; nl++) { if (!strcmp(cnst->params[nl], cnst->params[cnst->numparams])) QCC_PR_ParseError(ERR_MACROTOOMANYPARMS, "duplicate macro paramter name '%s'", cnst->params[nl]); } cnst->numparams++; } if (*pr_file_p++ == ')') break; while(qcc_iswhitesameline(*pr_file_p)) pr_file_p++; s = pr_file_p; } if(!*pr_file_p++) { QCC_PR_ParseError(ERR_EXPECTED, "missing ) in macro parameter list"); break; } } } else cnst->numparams = -1; //disable append mode if they're trying to do something stupid if (append) { if (!oldcnst) append = false; //append with no previous define is treated as just a regular define. huzzah. else if (cnst->numparams != oldcnst->numparams || cnst->varg != oldcnst->varg) { QCC_PR_ParseWarning(WARN_DUPLICATEPRECOMPILER, "different number of macro arguments in macro append"); append = false; } else { int i; //arguments need to be specified, if only so that appends with arguments are still vaugely readable. //argument names need to match because the expansion is too lame to cope if they're different. for (i = 0; i < cnst->numparams; i++) { if (strcmp(cnst->params[i], oldcnst->params[i])) break; } if (i < cnst->numparams) { QCC_PR_ParseWarning(WARN_DUPLICATEPRECOMPILER, "arguments differ in macro append"); append = false; } else append = true; } } s = pr_file_p; d = dbuf = NULL; dbuflen = 0; if (append) { //start with the old value int olen = strlen(oldcnst->value); dbuflen = olen + 128; dbuf = qccHunkAlloc(dbuflen); memcpy(dbuf, oldcnst->value, olen); d = dbuf + olen; *d++ = ' '; } cnst->fromfile = s_filen; cnst->fromline = pr_source_line; while(*s == ' ' || *s == '\t') s++; while(1) { if ((d - dbuf) + 2 >= dbuflen) { int len = d - dbuf; dbuflen = (len+128) * 2; dbuf = qccHunkAlloc(dbuflen); memcpy(dbuf, d - len, len); d = dbuf + len; } if( *s == '\\' ) { // read over a newline if necessary if( s[1] == '\n' || s[1] == '\r' ) { char *exploitcheck; s++; //skip the \ char if (*s == '\r' && s[1] == '\n') s++; //skip the \r. the \n will become part of the macro. QCC_PR_NewLine(true); /* This began as a bug. It is still evil, but its oh so useful. In C, #define foobar \ foo\ bar\ moo becomes foobarmoo, not foo\nbar\nmoo #define hacks however, require that it becomes foo\nbar\nmoo # cannot be used on the first line of the macro, and then is only valid as the first non-white char of the following lines so if present, the preceeding \\\n and following \\\n must become an actual \n instead of being stripped. */ for (exploitcheck = s; *exploitcheck && qcc_iswhitesameline(*exploitcheck); exploitcheck++) ; if (*exploitcheck == '#') { *d++ = '\n'; if (!cnst->evil) QCC_PR_ParseWarning(WARN_EVILPREPROCESSOR, "preprocessor directive within preprocessor macro %s", cnst->name); cnst->evil = true; preprocessorhack = true; } else if (preprocessorhack) { *d++ = '\n'; preprocessorhack = false; } } } else if(*s == '\r' || *s == '\n' || *s == '\0') { break; } if (!quote && s[0]=='/'&&s[1]=='/') break; //c++ style comments can just be ignored if (!quote && s[0]=='/'&&s[1]=='*') { //multi-line c style comments become part of the define itself. this also negates the need for \ at the end of lines. //although we don't bother embedding. s+=2; for(;;) { if (!s[0]) { QCC_PR_ParseWarning(WARN_DUPLICATEPRECOMPILER, "EOF inside quote in define %s", cnst->name); break; } if (s[0]=='*'&&s[1]=='/') { s+=2; break; } if (s[0] == '\n') pr_source_line++; s++; } continue; } if (*s == '\"') quote=!quote; *d = *s; d++; s++; } *d = '\0'; cnst->value = dbuf; if (oldcnst && !append) { //we always warn if it was already defined //we use different warning codes so that -Wno-mundane can be used to ignore identical redefinitions. if (strcmp(oldcnst->value, cnst->value)) QCC_PR_ParseWarning(WARN_DUPLICATEPRECOMPILER, "Alternate precompiler definition of %s", pr_token); else QCC_PR_ParseWarning(WARN_IDENTICALPRECOMPILER, "Identical precompiler definition of %s", pr_token); } pr_file_p = s; } /* *buffer, *bufferlen and *buffermax should be NULL/0 at the start */ static void QCC_PR_ExpandStrCat(char **buffer, size_t *bufferlen, size_t *buffermax, char *newdata, size_t newlen) { size_t newmax = *bufferlen + newlen; if (newmax < *bufferlen)//check for overflow { QCC_PR_ParseWarning(ERR_INTERNAL, "exceeds 4gb"); return; } if (newmax > *buffermax) { char *newbuf; if (newmax < 64) newmax = 64; if (newmax < *bufferlen * 2) { newmax = *bufferlen * 2; if (newmax < *bufferlen) /*overflowed?*/ { QCC_PR_ParseWarning(ERR_INTERNAL, "exceeds 4gb"); return; } } newbuf = realloc(*buffer, newmax); if (!newbuf) { QCC_PR_ParseWarning(ERR_INTERNAL, "out of memory"); return; /*OOM*/ } *buffer = newbuf; *buffermax = newmax; } memcpy(*buffer + *bufferlen, newdata, newlen); *bufferlen += newlen; /*no null terminator, remember to cat one if required*/ } /* *buffer, *bufferlen and *buffermax should be NULL/0 at the start */ static void QCC_PR_ExpandStrCatMarkup(char **buffer, size_t *bufferlen, size_t *buffermax, char *newdata, size_t newlen) { size_t newmax = *bufferlen + newlen*2; if (newmax < *bufferlen)//check for overflow { QCC_PR_ParseWarning(ERR_INTERNAL, "exceeds 4gb"); return; } if (newmax > *buffermax) { char *newbuf; if (newmax < 64) newmax = 64; if (newmax < *bufferlen * 2) { newmax = *bufferlen * 2; if (newmax < *bufferlen) /*overflowed?*/ { QCC_PR_ParseWarning(ERR_INTERNAL, "exceeds 4gb"); return; } } newbuf = realloc(*buffer, newmax); if (!newbuf) { QCC_PR_ParseWarning(ERR_INTERNAL, "out of memory"); return; /*OOM*/ } *buffer = newbuf; *buffermax = newmax; } while (newlen--) { if (*newdata == '\n') { (*buffer)[*bufferlen+0] = '\\'; (*buffer)[*bufferlen+1] = '\n'; *bufferlen += 2; } else if (*newdata == '\\') { (*buffer)[*bufferlen+0] = '\\'; (*buffer)[*bufferlen+1] = '\\'; *bufferlen += 2; } else if (*newdata == '\0') { (*buffer)[*bufferlen+0] = '\\'; (*buffer)[*bufferlen+1] = '0'; *bufferlen += 2; } else if (*newdata == '\"') { (*buffer)[*bufferlen+0] = '\\'; (*buffer)[*bufferlen+1] = '\"'; *bufferlen += 2; } else { (*buffer)[*bufferlen] = *newdata; *bufferlen += 1; } newdata++; } /*no null terminator, remember to cat one if required*/ } static const struct tm *QCC_CurrentTime(void) { //if SOURCE_DATE_EPOCH environment is defined, use that as seconds from epoch (and show utc) //this helps give reproducable builds (which is for some debian project, demonstrating that noone is hacking binaries). const char *env = getenv("SOURCE_DATE_EPOCH"); time_t t; if (env && *env) { t = strtoull(env, NULL, 0); if (t) return gmtime(&t); } t = time(NULL); return localtime(&t); } static char *QCC_PR_CheckBuiltinCompConst(char *constname, char *retbuf, size_t retbufsize) { if (constname[0] != '_' || constname[1] != '_') return NULL; if (!strcmp(constname, "__TIME__")) { strftime( retbuf, retbufsize, "\"%H:%M\"", QCC_CurrentTime()); return retbuf; } if (!strcmp(constname, "__DATE__")) { strftime( retbuf, retbufsize, "\"%a %d %b %Y\"", QCC_CurrentTime()); return retbuf; } if (!strcmp(constname, "__RAND__")) { QC_snprintfz(retbuf, retbufsize, "%i", rand()); return retbuf; } #if defined(SVNREVISION) && defined(SVNDATE) if (!strcmp(constname, "__QCCREV__")) return STRINGIFY(SVNREVISION); //no M or anything, so you can compare revisions properly #endif if (!strcmp(constname, "__QCCVER__")) { #if defined(SVNREVISION) && defined(SVNDATE) return "\"FTEQCC " STRINGIFY(SVNREVISION) " "STRINGIFY(SVNDATE)"\""; #elif defined(SVNREVISION) return "\"FTEQCC " STRINGIFY(SVNREVISION) " "__DATE__"\""; #else return "\""__DATE__"\""; #endif } if (!strcmp(constname, "__FILE__")) { char *erk; QC_snprintfz(retbuf, retbufsize, "\"%s\"", s_filen); erk = strchr(retbuf, ':'); if (erk) { erk[0] = '\"'; erk[1] = 0; } return retbuf; } if (!strcmp(constname, "__LINE__")) { QC_snprintfz(retbuf, retbufsize, "%i", pr_source_line); return retbuf; } if (!strcmp(constname, "__LINESTR__")) { QC_snprintfz(retbuf, retbufsize, "\"%i\"", pr_source_line); return retbuf; } if (!strcmp(constname, "__FUNC__") || !strcmp(constname, "__func__")) { QC_snprintfz(retbuf, retbufsize, "\"%s\"",pr_scope?pr_scope->name:""); return retbuf; } if (!strcmp(constname, "__NULL__")) { return "0i"; } return NULL; //didn't match } static pbool QCC_PR_ExpandPreProcessorMacro(CompilerConstant_t *c, char **buffer, size_t *bufferlen, size_t *buffermax) { int p; char *start; char *starttok; char *argsend; int argsendline; size_t whitestart; char *paramoffset[MAXCONSTANTPARAMS+1]; int param=0, extraparam=0; int plevel=0; pbool noargexpand; char *end; char retbuf[256]; pr_file_p++; QCC_PR_LexWhitespace(false); start = pr_file_p; while(1) { // handle strings correctly by ignoring them if (*pr_file_p == '\"') { do { pr_file_p++; } while( (pr_file_p[-1] == '\\' || pr_file_p[0] != '\"') && *pr_file_p && *pr_file_p != '\n' ); } if (*pr_file_p == '(') plevel++; else if (!plevel && (*pr_file_p == ',' || *pr_file_p == ')')) { if (*pr_file_p == ',' && c->varg && param >= c->numparams) extraparam++; //skip extra trailing , arguments if we're varging. else { paramoffset[param++] = start; start = pr_file_p+1; if (*pr_file_p == ')') { *pr_file_p = '\0'; pr_file_p++; break; } *pr_file_p = '\0'; pr_file_p++; QCC_PR_LexWhitespace(false); start = pr_file_p; // move back by one char because we move forward by one at the end of the loop pr_file_p--; if (param == MAXCONSTANTPARAMS || param > c->numparams) QCC_PR_ParseError(ERR_TOOMANYPARAMS, "Too many parameters in macro call"); } } else if (*pr_file_p == ')' ) plevel--; else if(*pr_file_p == '\n') QCC_PR_NewLine(false); // see that *pr_file_p = '\0' up there? Must ++ BEFORE checking for !*pr_file_p pr_file_p++; if (!*pr_file_p) QCC_PR_ParseError(ERR_EOF, "EOF on macro call"); } if (param < c->numparams) QCC_PR_ParseError(ERR_TOOFEWPARAMS, "Not enough macro parameters"); paramoffset[param] = start; *buffer = NULL; *bufferlen = 0; *buffermax = 0; // QCC_PR_LexWhitespace(false); argsend = pr_file_p; argsendline = pr_source_line; pr_file_p = c->value; for(;;) { noargexpand = false; whitestart = *bufferlen; starttok = pr_file_p; /*while(qcc_iswhite(*pr_file_p)) //copy across whitespace { if (!*pr_file_p) break; pr_file_p++; }*/ QCC_PR_LexWhitespace(true); if (starttok != pr_file_p) { QCC_PR_ExpandStrCat(buffer,bufferlen,buffermax, starttok, pr_file_p - starttok); } if(*pr_file_p == '\"') { starttok = pr_file_p; do { pr_file_p++; } while( (pr_file_p[-1] == '\\' || pr_file_p[0] != '\"') && *pr_file_p && *pr_file_p != '\n' ); if(*pr_file_p == '\"') pr_file_p++; QCC_PR_ExpandStrCat(buffer,bufferlen,buffermax, starttok, pr_file_p - starttok); continue; } else if (*pr_file_p == '#') //if you ask for #a##b you will be shot. use #a #b instead, or chain macros. { if (pr_file_p[1] == '#') { //concatinate (strip out whitespace before the token) *bufferlen = whitestart; pr_file_p+=2; noargexpand = true; } else { //stringify pr_file_p++; pr_file_p = QCC_COM_Parse2(pr_file_p); if (!pr_file_p) break; for (p = 0; p < param; p++) { if (!STRCMP(qcc_token, c->params[p])) { QCC_PR_ExpandStrCat(buffer,bufferlen,buffermax, "\"", 1); QCC_PR_ExpandStrCatMarkup(buffer,bufferlen,buffermax, paramoffset[p], strlen(paramoffset[p])); QCC_PR_ExpandStrCat(buffer,bufferlen,buffermax, "\"", 1); break; } } if (p == param) { QCC_PR_ExpandStrCat(buffer,bufferlen,buffermax, "#", 1); QCC_PR_ExpandStrCat(buffer,bufferlen,buffermax, qcc_token, strlen(qcc_token)); if (!c->evil) QCC_PR_ParseWarning(0, "'#' is not followed by a macro parameter in %s", c->name); } continue; //already did this one } } end = qcc_token; pr_file_p = QCC_COM_Parse2(pr_file_p); if (!pr_file_p) break; for (p = 0; p < c->numparams; p++) { if (!STRCMP(qcc_token, c->params[p])) { char *argstart, *argend; for (start = pr_file_p; qcc_iswhite(*start); start++) ; if (noargexpand || (start[0] == '#' && start[1] == '#')) QCC_PR_ExpandStrCat(buffer,bufferlen,buffermax, paramoffset[p], strlen(paramoffset[p])); else { for (argstart = paramoffset[p]; *argstart; argstart = argend) { argend = argstart; while (qcc_iswhite(*argend)) argend++; if (*argend == '\"') { do { argend++; } while( (argend[-1] == '\\' || argend[0] != '\"') && *argend && *argend != '\n' ); if(*argend == '\"') argend++; end = NULL; } else { argend = QCC_COM_Parse2(argend); if (!argend) break; end = QCC_PR_CheckBuiltinCompConst(qcc_token, retbuf, sizeof(retbuf)); } //FIXME: we should be testing all defines instead of just built-in ones. if (end) QCC_PR_ExpandStrCat(buffer,bufferlen,buffermax, end, strlen(end)); else QCC_PR_ExpandStrCat(buffer,bufferlen,buffermax, argstart, argend-argstart); } } break; } } if (c->varg && !STRCMP(qcc_token, "__VA_ARGS__")) { //c99 if (param-1 == c->numparams) QCC_PR_ExpandStrCat(buffer,bufferlen,buffermax, paramoffset[c->numparams], strlen(paramoffset[c->numparams])); else if (noargexpand) { if(*bufferlen>0 && (*buffer)[*bufferlen-1] == ',') *bufferlen-=1; } } else if (c->varg && !STRCMP(qcc_token, "__VA_COUNT__")) { //not c99 char tmp[64]; if (param < c->numparams) QCC_PR_ParseError(ERR_TOOFEWPARAMS, "__VA_COUNT__ without any variable args"); QC_snprintfz(tmp, sizeof(tmp), "%i", param-1+extraparam); QCC_PR_ExpandStrCat(buffer,bufferlen,buffermax, tmp, strlen(tmp)); } else if (p == c->numparams) { /*CompilerConstant_t *c2 = pHash_Get(&compconstantstable, qcc_token); if (c2 && c2->numparams >= 0 && *pr_file_p == '(') { //oh dear god this is vile bullshit char *sub = NULL; size_t sublen; size_t submax; pr_file_p++; if (QCC_PR_ExpandPreProcessorMacro(c, &sub,&sublen,&submax)) { QCC_PR_ExpandStrCat(buffer,bufferlen,buffermax, sub, sublen); } free(sub); } else*/ QCC_PR_ExpandStrCat(buffer,bufferlen,buffermax, qcc_token, strlen(qcc_token)); } } for (p = 0; p < param-1; p++) paramoffset[p][strlen(paramoffset[p])] = ','; paramoffset[p][strlen(paramoffset[p])] = ')'; if (c->inside>8) return false; pr_file_p = argsend; pr_source_line = argsendline; if (flag_debugmacros) { if (flag_msvcstyle) externs->Printf ("%s(%i) : macro %s: %s\n", s_filen, pr_source_line, c->name, pr_file_p); else externs->Printf ("%s:%i: macro %s: %s\n", s_filen, pr_source_line, c->name, pr_file_p); } return true; } int QCC_PR_CheckCompConst(void) { //FIXME: FOO(SPLAT(FOO(BAR))) //the above should expand the inner foo before expanding the outer foo char *initial_file_p = pr_file_p; int initial_line = pr_source_line; CompilerConstant_t *c; char *end, *tok; char retbuf[256]; for (end = pr_file_p; ; end++) { if (!*end || qcc_iswhite(*end)) break; if (*end == ')' || *end == '(' || *end == '+' || *end == '-' || *end == '*' || *end == '/' || *end == '|' || *end == '&' || *end == '=' || *end == '^' || *end == '~' || *end == '[' || *end == ']' || *end == '\"' || *end == '{' || *end == '}' || *end == ';' || *end == ':' || *end == ',' || *end == '.' || *end == '#') break; } if (!QC_strnlcpy(pr_token, pr_file_p, end-pr_file_p, sizeof(pr_token))) return false; //name too long to be a valid macro // externs->Printf("%s\n", pr_token); c = pHash_Get(&compconstantstable, pr_token); if (c && (!currentchunk || currentchunk->cnst != c)) //macros don't expand themselves { pr_file_p = initial_file_p+strlen(c->name); while(*pr_file_p == ' ' || *pr_file_p == '\t') pr_file_p++; if (c->numparams>=0) { if (*pr_file_p == '(') { char *buffer = NULL; size_t bufferlen, buffermax; if (!QCC_PR_ExpandPreProcessorMacro(c, &buffer, &bufferlen, &buffermax)) { free(buffer); pr_file_p = initial_file_p; pr_source_line = initial_line; return false; } if (!bufferlen) expandedemptymacro = true; else { QCC_PR_ExpandStrCat(&buffer, &bufferlen, &buffermax, "\0", 1); QCC_PR_IncludeChunkEx(buffer, true, NULL, c); } expandedemptymacro = true; free(buffer); } else { //QCC_PR_ParseError(ERR_TOOFEWPARAMS, "Macro without argument list"); //such macros don't get expanded. pr_file_p = initial_file_p; pr_source_line = initial_line; return false; } } else { if (c->inside >= 8) { pr_file_p = initial_file_p; pr_source_line = initial_line; return false; } if (*c->value) QCC_PR_IncludeChunkEx(c->value, false, NULL, c); expandedemptymacro = true; } return true; } tok = QCC_PR_CheckBuiltinCompConst(pr_token, retbuf, sizeof(retbuf)); if (tok) { pr_file_p = end; QCC_PR_IncludeChunkEx(tok, true, NULL, NULL); return true; } return false; } const char *QCC_PR_CheckCompConstString(const char *def) { const char *s; CompilerConstant_t *c; c = pHash_Get(&compconstantstable, def); if (c) { s = QCC_PR_CheckCompConstString(c->value); return s; } return def; } CompilerConstant_t *QCC_PR_CheckCompConstDefined(const char *def) { CompilerConstant_t *c = pHash_Get(&compconstantstable, def); return c; } char *QCC_PR_CheckCompConstTooltip(char *word, char *outstart, char *outend) { int i; CompilerConstant_t *c = QCC_PR_CheckCompConstDefined(word); if (c) { char *out = outstart; if (c->numparams >= 0) { QC_snprintfz(out, outend-out, "#define %s(", c->name); out += strlen(out); for (i = 0; i < c->numparams-1; i++) { QC_snprintfz(out, outend-out, "%s,", c->params[i]); out += strlen(out); } if (i < c->numparams) { QC_snprintfz(out, outend-out, "%s", c->params[i]); out += strlen(out); } QC_snprintfz(out, outend-out, ")"); } else QC_snprintfz(out, outend-out, "#define %s", c->name); out += strlen(out); if (c->value && *c->value) QC_snprintfz(out, outend-out, "\n%s", c->value); return outstart; } return NULL; } //============================================================================ /* ============== PR_Lex Sets pr_token, pr_token_type, and possibly pr_immediate and pr_immediate_type ============== */ void QCC_PR_Lex (void) { int c; pr_token[0] = 0; if (!pr_file_p) { if (QCC_PR_UnInclude()) { QCC_PR_Lex(); return; } pr_token_type = tt_eof; return; } QCC_PR_LexWhitespace (false); pr_token_line_last = pr_token_line; pr_token_line = pr_source_line; if (currentchunk) pr_token_line += currentchunk->currentlinenumber-1; if (!pr_file_p) { if (QCC_PR_UnInclude()) { QCC_PR_Lex(); return; } pr_token_type = tt_eof; return; } c = *pr_file_p; if (!c) { if (QCC_PR_UnInclude()) { QCC_PR_Lex(); return; } pr_token_type = tt_eof; return; } // handle quoted strings as a unit if (c == '\"' || ((c == 'R' || c == 'Q' || c == 'u' || c == 'U') && pr_file_p[1] == '\"') || (c == 'u' && pr_file_p[1] == '8' && pr_file_p[2] == '\"')) { QCC_PR_LexString (); return; } // handle quoted vectors as a unit if (c == '\'') { QCC_PR_LexVector (); return; } // if the first character is a valid identifier, parse until a non-id // character is reached if ((c == '%') && flag_qccx && (pr_file_p[1] == '-' || (pr_file_p[1] >= '0' && pr_file_p[1] <= '9'))) { //with qccx, %5 is a denormalized float. pr_file_p++; pr_token_type = tt_immediate; pr_immediate_type = type_float; QCC_PR_ParseWarning(WARN_DENORMAL, "denormalized immediate"); pr_immediate._int = QCC_PR_LexInteger (); return; } if ( c == '0' && pr_file_p[1] == 'x') { pr_token_type = tt_immediate; QCC_PR_LexNumber(); return; } if ( (c == '.'&&pr_file_p[1]!='.'&&pr_file_p[1] >='0' && pr_file_p[1] <= '9') || (c >= '0' && c <= '9') || ( c=='-' && pr_file_p[1]>='0' && pr_file_p[1] <='9') ) { pr_token_type = tt_immediate; QCC_PR_LexNumber (); return; } if (!flag_qccx && c == '#' && !(pr_file_p[1]==')' || pr_file_p[1]==',' || pr_file_p[1]=='\"' || pr_file_p[1]=='-' || (pr_file_p[1]>='0' && pr_file_p[1] <='9'))) //hash and not number { pr_file_p++; if (!QCC_PR_CheckCompConst()) { if (!QCC_PR_SimpleGetToken()) strcpy(pr_token, "unknown"); QCC_PR_ParseError(ERR_CONSTANTNOTDEFINED, "Explicit precompiler usage when not defined %s", pr_token); } else { QCC_PR_Lex(); if (pr_token_type == tt_eof) QCC_PR_Lex(); } return; } if ( (c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z') || c == '_' || (c & 0x80)) { if (flag_hashonly || !QCC_PR_CheckCompConst()) //look for a macro. QCC_PR_LexName (); else { //we expanded a macro. we need to read the tokens out of it now though QCC_PR_Lex(); if (pr_token_type == tt_eof) { if (QCC_PR_UnInclude()) { QCC_PR_Lex(); return; } pr_token_type = tt_eof; } } return; } if (c == '$') { QCC_PR_LexGrab (); return; } // parse symbol strings until a non-symbol is found QCC_PR_LexPunctuation (); } //============================================================================= pbool QCC_Temp_Describe(QCC_def_t *def, char *buffer, int buffersize); void QCC_PR_ParsePrintDef (int type, QCC_def_t *def) { if (!qccwarningaction[type]) return; if (def->filen) { char tybuffer[512]; char tmbuffer[512]; char *modifiers; if (QCC_Temp_Describe(def, tmbuffer, sizeof(tmbuffer))) { externs->Printf ("%s:%i: (%s)(%s)\n", def->filen, def->s_line, TypeName(def->type, tybuffer, sizeof(tybuffer)), tmbuffer); } else { modifiers = ""; if (def->constant) modifiers = "const "; else if (def->isstatic) modifiers = "static "; if (flag_msvcstyle) externs->Printf ("%s%s(%i) : %s%s%s %s%s%s is defined here\n", col_location, def->filen, def->s_line, col_type, modifiers, TypeName(def->type, tybuffer, sizeof(tybuffer)), col_symbol, def->name, col_none); else externs->Printf ("%s%s:%i: %s%s%s %s%s%s is defined here\n", col_location, def->filen, def->s_line, col_type, modifiers, TypeName(def->type, tybuffer, sizeof(tybuffer)), col_symbol, def->name, col_none); } } } void QCC_PR_ParsePrintSRef (int type, QCC_sref_t def) { QCC_PR_ParsePrintDef(type, def.sym); } void *errorscope; static void QCC_PR_PrintMacro (qcc_includechunk_t *chunk) { extern pbool verbose; if (chunk) { QCC_PR_PrintMacro(chunk->prev); if (chunk->cnst) { #if 1 externs->Printf ("%s%s:%i: macro %s%s%s is defined here\n", col_location, chunk->cnst->fromfile, chunk->cnst->fromline, col_symbol, chunk->cnst->name, col_none); #else externs->Printf ("%s:%i: expanding %s\n", chunk->currentfilename, chunk->currentlinenumber, chunk->cnst->name); #endif if (verbose) externs->Printf ("%s\n", chunk->datastart); } else externs->Printf ("%s:%i:\n", chunk->currentfilename, chunk->currentlinenumber); } } static void QCC_PR_PrintScope (void) { QCC_PR_PrintMacro(currentchunk); if (pr_scope) { if (errorscope != pr_scope) externs->Printf ("in function %s%s%s (line %i),\n", col_symbol, pr_scope->name, col_none, pr_scope->line); errorscope = pr_scope; } else { if (errorscope) externs->Printf ("at global scope,\n"); errorscope = NULL; } } void QCC_PR_ResetErrorScope(void) { errorscope = NULL; } /* ============ PR_ParseError Aborts the current file load ============ */ #ifndef QCC void editbadfile(const char *file, int line); #endif //will abort. NORETURN void VARGS QCC_PR_ParseError (int errortype, const char *error, ...) { va_list argptr; char string[1024]; va_start (argptr,error); QC_vsnprintf (string,sizeof(string)-1, error,argptr); va_end (argptr); #ifndef QCC editbadfile(s_filen, pr_source_line); #endif QCC_PR_PrintScope(); if (flag_msvcstyle) externs->Printf ("%s%s(%i) : %serror%s: %s\n", col_location, s_filen, pr_source_line, col_error, col_none, string); else externs->Printf ("%s%s:%i: %serror%s: %s\n", col_location, s_filen, pr_source_line, col_error, col_none, string); longjmp (pr_parse_abort, 1); } //will abort. NORETURN void VARGS QCC_PR_ParseErrorPrintDef (int errortype, QCC_def_t *def, const char *error, ...) { va_list argptr; char string[1024]; va_start (argptr,error); QC_vsnprintf (string,sizeof(string)-1, error,argptr); va_end (argptr); #ifndef QCC editbadfile(s_filen, pr_source_line); #endif QCC_PR_PrintScope(); if (flag_msvcstyle) externs->Printf ("%s%s(%i) : %serror%s: %s\n", col_location, s_filen, pr_source_line, col_error, col_none, string); else externs->Printf ("%s%s:%i: %serror%s: %s\n", col_location, s_filen, pr_source_line, col_error, col_none, string); QCC_PR_ParsePrintDef(WARN_ERROR, def); longjmp (pr_parse_abort, 1); } NORETURN void VARGS QCC_PR_ParseErrorPrintSRef (int errortype, QCC_sref_t def, const char *error, ...) { va_list argptr; char string[1024]; va_start (argptr,error); QC_vsnprintf (string,sizeof(string)-1, error,argptr); va_end (argptr); #ifndef QCC editbadfile(s_filen, pr_source_line); #endif QCC_PR_PrintScope(); if (flag_msvcstyle) externs->Printf ("%s%s(%i) : %serror%s: %s\n", col_location, s_filen, pr_source_line, col_error, col_none, string); else externs->Printf ("%s%s:%i: %serror%s: %s\n", col_location, s_filen, pr_source_line, col_error, col_none, string); QCC_PR_ParsePrintSRef(WARN_ERROR, def); longjmp (pr_parse_abort, 1); } static pbool VARGS QCC_PR_PrintWarning (int type, const char *file, int line, const char *string) { char *wnam = QCC_NameForWarning(type); if (!wnam) wnam = ""; if (string) QCC_PR_PrintScope(); if (type >= ERR_PARSEERRORS) { if (!string) ; else if (!file || !*file) externs->Printf (":: %serror%s%s: %s\n", col_error, wnam, col_none, string); else if (flag_msvcstyle) externs->Printf ("%s%s(%i) : %serror%s%s: %s\n", col_location, file, line, col_error, wnam, col_none, string); else externs->Printf ("%s%s:%i: %serror%s%s: %s\n", col_location, file, line, col_error, wnam, col_none, string); pr_error_count++; } else if (qccwarningaction[type] == 2) { //-werror if (!string) ; else if (!file || !*file) externs->Printf (":: %swerror%s%s: %s\n", col_error, wnam, col_none, string); else if (flag_msvcstyle) externs->Printf ("%s%s(%i) : %swerror%s%s: %s\n", col_location, file, line, col_error, wnam, col_none, string); else externs->Printf ("%s%s:%i: %swerror%s%s: %s\n", col_location, file, line, col_error, wnam, col_none, string); pr_error_count++; } else { if (!string) ; else if (!file || !*file) externs->Printf (":: %swarning%s%s: %s\n", col_warning, wnam, col_none, string); else if (flag_msvcstyle) externs->Printf ("%s%s(%i) : %swarning%s%s: %s\n", col_location, file, line, col_warning, wnam, col_none, string); else externs->Printf ("%s%s:%i: %swarning%s%s: %s\n", col_location, file, line, col_warning, wnam, col_none, string); pr_warning_count++; } return true; } pbool VARGS QCC_PR_Warning (int type, const char *file, int line, const char *error, ...) { va_list argptr; char string[1024]; if (!qccwarningaction[type]) return false; if (!error) return QCC_PR_PrintWarning(type, file, line, NULL); va_start (argptr,error); QC_vsnprintf (string,sizeof(string)-1, error,argptr); va_end (argptr); return QCC_PR_PrintWarning(type, file, line, string); } //can be used for errors, qcc execution will continue. pbool VARGS QCC_PR_ParseWarning (int type, const char *error, ...) { va_list argptr; char string[1024]; if (!qccwarningaction[type]) return false; va_start (argptr,error); QC_vsnprintf (string,sizeof(string)-1, error,argptr); va_end (argptr); return QCC_PR_PrintWarning(type, s_filen, pr_source_line, string); } void VARGS QCC_PR_Note (int type, const char *file, int line, const char *error, ...) { va_list argptr; char string[1024]; if (!qccwarningaction[type]) return; va_start (argptr,error); QC_vsnprintf (string,sizeof(string)-1, error,argptr); va_end (argptr); QCC_PR_PrintScope(); if (!file) externs->Printf ("note: %s\n", string); else if (flag_msvcstyle) externs->Printf ("%s(%i) : note: %s\n", file, line, string); else externs->Printf ("%s:%i: note: %s\n", file, line, string); } /* ============= PR_Expect Issues an error if the current token isn't equal to string Gets the next token ============= */ #ifndef COMMONINLINES void QCC_PR_Expect (const char *string) { if (STRCMP (string, pr_token)) QCC_PR_ParseError (ERR_EXPECTED, "expected %s%s%s, found %s%s%s", col_location, string, col_none, col_name, pr_token, col_none); QCC_PR_Lex (); } #endif pbool QCC_PR_CheckTokenComment(const char *string, char **comment) { char c; char *start; int nl; char *old; int oldlen; pbool replace = true; pbool nextcomment = true; if (pr_token_type != tt_punct) return false; if (STRCMP (string, pr_token)) return false; if (comment) { // skip whitespace nl = false; while(nextcomment) { nextcomment = false; while ((c = *pr_file_p) && qcc_iswhite(c)) { if (c=='\n') //allow new lines, but only if there's whitespace before any tokens, and no double newlines. { if (nl) { pr_file_p++; QCC_PR_NewLine(false); break; } nl = true; } else { pr_file_p++; nl = false; } } if (nl) break; // parse // comments if (c=='/' && pr_file_p[1] == '/') { pr_file_p += 2; while (*pr_file_p == ' ' || *pr_file_p == '\t') pr_file_p++; start = pr_file_p; while (*pr_file_p && *pr_file_p != '\n') pr_file_p++; if (*pr_file_p == '\n') { pr_file_p++; QCC_PR_NewLine(false); } old = replace?NULL:*comment; replace = false; oldlen = old?strlen(old)+1:0; *comment = qccHunkAlloc(oldlen + (pr_file_p-start)+1); if (oldlen) { memcpy(*comment, old, oldlen-1); memcpy(*comment+oldlen-1, "\n", 1); } memcpy(*comment + oldlen, start, pr_file_p - start); oldlen = oldlen+pr_file_p - start; while(oldlen > 0 && ((*comment)[oldlen-1] == '\r' || (*comment)[oldlen-1] == '\n' || (*comment)[oldlen-1] == '\t' || (*comment)[oldlen-1] == ' ')) oldlen--; (*comment)[oldlen] = 0; nextcomment = true; //include the next // too nl = true; } // parse /* comments else if (c=='/' && pr_file_p[1] == '*' && replace) { pr_file_p+=1; start = pr_file_p+1; do { pr_file_p++; if (pr_file_p[0]=='\n') { QCC_PR_NewLine(true); } else if (pr_file_p[1] == 0) { QCC_PR_ParseError(0, "EOF inside comment\n"); break; } if (pr_file_p[0] == '/' && pr_file_p[1] == '*') QCC_PR_ParseWarning(WARN_NESTEDCOMMENT, "\"/*\" inside comment"); } while (pr_file_p[0] != '*' || pr_file_p[1] != '/'); if (pr_file_p[1] == 0) break; old = replace?NULL:*comment; replace = false; oldlen = old?strlen(old):0; *comment = qccHunkAlloc(oldlen + (pr_file_p-start)+1); memcpy(*comment, old, oldlen); memcpy(*comment + oldlen, start, pr_file_p - start); (*comment)[oldlen+pr_file_p - start] = 0; pr_file_p+=2; } } } //and then do the rest properly. QCC_PR_Lex (); return true; } /* ============= PR_Check Returns true and gets the next token if the current token equals string Returns false and does nothing otherwise ============= */ #ifndef COMMONINLINES pbool QCC_PR_CheckToken (const char *string) { if (pr_token_type != tt_punct) return false; if (STRCMP (string, pr_token)) return false; QCC_PR_Lex (); return true; } pbool QCC_PR_PeekToken (const char *string) { if (pr_token_type != tt_punct) return false; if (STRCMP (string, pr_token)) return false; return true; } pbool QCC_PR_CheckImmediate (const char *string) { if (pr_token_type != tt_immediate) return false; if (STRCMP (string, pr_token)) return false; QCC_PR_Lex (); return true; } pbool QCC_PR_CheckName(const char *string) { if (pr_token_type != tt_name) return false; if (flag_caseinsensitive) { if (stricmp (string, pr_token)) return false; } else { if (STRCMP(string, pr_token)) return false; } QCC_PR_Lex (); return true; } pbool QCC_PR_CheckKeyword(int keywordenabled, const char *string) { if (pr_token[0] == '_' && pr_token[1] == '_') { //lets just always go insensitive with a leading underscore pair. if (stricmp(string, pr_token+2)) return false; QCC_PR_Lex (); return true; } else { if (!keywordenabled) return false; if (flag_caseinsensitive) { if (stricmp (string, pr_token)) return false; } else { if (STRCMP(string, pr_token)) return false; } } QCC_PR_Lex (); return true; } #endif /* ============ PR_ParseName Checks to see if the current token is a valid name ============ */ char *QCC_PR_ParseName (void) { char ident[MAX_NAME]; char *ret; if (pr_token_type != tt_name) { if (pr_token_type == tt_eof) QCC_PR_ParseError (ERR_EOF, "unexpected EOF", pr_token); else if (strcmp(pr_token, "...")) //seriously? someone used '...' as an intrinsic NAME? QCC_PR_ParseError (ERR_NOTANAME, "\"%s%s%s\" - not a name", col_name, pr_token, col_none); } if (strlen(pr_token) >= MAX_NAME-1) QCC_PR_ParseError (ERR_NAMETOOLONG, "name too long"); strcpy (ident, pr_token); QCC_PR_Lex (); ret = qccHunkAlloc(strlen(ident)+1); strcpy(ret, ident); return ret; // return ident; } /* ============ PR_FindType Returns a preexisting complex type that matches the parm, or allocates a new one and copies it out. ============ */ //requires EVERYTHING to be the same static int typecmp_strict(QCC_type_t *a, QCC_type_t *b) { int i; if (a == b) return 0; if (!a || !b) return 1; //different (^ and not both null) if (a->type != b->type) return 1; if (a->num_parms != b->num_parms) return 1; if (a->vargs != b->vargs) return 1; if (a->vargcount != b->vargcount) return 1; if (a->size != b->size) return 1; if (a->accessors != b->accessors) return 1; if (STRCMP(a->name, b->name)) return 1; if (typecmp_strict(a->aux_type, b->aux_type)) return 1; i = a->num_parms; while(i-- > 0) { if (STRCMP(a->params[i].paramname, b->params[i].paramname)) return 1; if (typecmp_strict(a->params[i].type, b->params[i].type)) return 1; if (a->params[i].defltvalue.cast || b->params[i].defltvalue.cast) { if (typecmp_strict(a->params[i].defltvalue.cast, b->params[i].defltvalue.cast) || a->params[i].defltvalue.sym != b->params[i].defltvalue.sym || a->params[i].defltvalue.ofs != b->params[i].defltvalue.ofs) return 1; } } return 0; } //reports if they're functionally equivelent (allows assignments) int typecmp(QCC_type_t *a, QCC_type_t *b) { int i; if (a == b) return 0; if (!a || !b) return 1; //different (^ and not both null) if (a->type != b->type) return 1; if (a->num_parms != b->num_parms) return 1; if (a->vargs != b->vargs) return 1; if (a->vargcount != b->vargcount) return 1; if (a->size != b->size) return 1; if ((a->type == ev_entity && a->parentclass) || a->type == ev_struct || a->type == ev_union) { if (STRCMP(a->name, b->name)) return 1; } if (typecmp(a->aux_type, b->aux_type)) return 1; i = a->num_parms; while(i-- > 0) { if (a->type != ev_function && STRCMP(a->params[i].paramname, b->params[i].paramname)) return 1; if (typecmp(a->params[i].type, b->params[i].type)) return 1; if (a->params[i].defltvalue.cast || b->params[i].defltvalue.cast) { if (typecmp(a->params[i].defltvalue.cast, b->params[i].defltvalue.cast) || a->params[i].defltvalue.sym != b->params[i].defltvalue.sym || a->params[i].defltvalue.ofs != b->params[i].defltvalue.ofs) return 1; } } return 0; } //compares the types, but doesn't complain if there are optional arguments which differ int typecmp_lax(QCC_type_t *a, QCC_type_t *b) { unsigned int minargs = 0; unsigned int t; if (a == b) return 0; if (!a || !b) return 1; //different (^ and not both null) if (a->type != b->type) { if (a->type == ev_accessor && a->parentclass) if (!typecmp_lax(a->parentclass, b)) return 0; if (b->type == ev_accessor && b->parentclass) if (!typecmp_lax(a, b->parentclass)) return 0; if (a->type != ev_variant && b->type != ev_variant) return 1; } else if (a->size != b->size) return 1; if (a->vargcount != b->vargcount) return 1; t = a->num_parms; minargs = t; t = b->num_parms; if (minargs > t) minargs = t; // if (STRCMP(a->name, b->name)) //This isn't 100% clean. // return 1; if (typecmp_lax(a->aux_type, b->aux_type)) return 1; //variants and args don't make sense, and are considered equivelent(ish). if (a->type == ev_variant || b->type == ev_variant) return 0; //optional arg types must match, even if they're not specified in one. for (t = 0; t < minargs; t++) { if (a->params[t].type->type != b->params[t].type->type) return 1; if (a->params[t].out != b->params[t].out) return 1; //classes/structs/unions are matched on class names rather than the contents of the class //it gets too painful otherwise, with recursive definitions. if (a->params[t].type->type == ev_entity || a->params[t].type->type == ev_struct || a->params[t].type->type == ev_union) { if (STRCMP(a->params[t].type->name, b->params[t].type->name)) return 1; } else { if (typecmp_lax(a->params[t].type, b->params[t].type)) return 1; } if (a->params[t].defltvalue.cast || b->params[t].defltvalue.cast) { if (typecmp(a->params[t].defltvalue.cast, b->params[t].defltvalue.cast) || a->params[t].defltvalue.sym != b->params[t].defltvalue.sym || a->params[t].defltvalue.ofs != b->params[t].defltvalue.ofs) return 1; } } if (a->num_parms > minargs) { for (t = minargs; t < a->num_parms; t++) { if (!a->params[t].optional) return 1; } } if (b->num_parms > minargs) { for (t = minargs; t < b->num_parms; t++) { if (!b->params[t].optional) return 1; } } return 0; } QCC_type_t *QCC_PR_DuplicateType(QCC_type_t *in, pbool recurse) { QCC_type_t *out; if (!in) return NULL; out = QCC_PR_NewType(in->name, in->type, false); out->aux_type = recurse?QCC_PR_DuplicateType(in->aux_type, recurse):in->aux_type; out->num_parms = in->num_parms; out->params = qccHunkAlloc(sizeof(*out->params) * out->num_parms); memcpy(out->params, in->params, sizeof(*out->params) * out->num_parms); out->accessors = in->accessors; out->size = in->size; out->num_parms = in->num_parms; out->name = in->name; out->parentclass = in->parentclass; return out; } static void Q_strlcat(char *dest, const char *src, int sizeofdest) { if (sizeofdest) { int dlen = strlen(dest); int slen = strlen(src)+1; memcpy(dest+dlen, src, min((sizeofdest-1)-dlen, slen)); dest[sizeofdest - 1] = 0; } } char *TypeName(QCC_type_t *type, char *buffer, int buffersize) { char *ret; if (type->type == ev_void) { if (buffersize < 0) return buffer; *buffer = 0; Q_strlcat(buffer, "void", buffersize); return buffer; } if (type->type == ev_enum) { if (buffersize < 0) return buffer; *buffer = 0; Q_strlcat(buffer, "enum ", buffersize); Q_strlcat(buffer, type->name, buffersize); Q_strlcat(buffer, ":", buffersize); TypeName(type->aux_type, buffer+strlen(buffer), buffersize-strlen(buffer)); return buffer; } if (type->type == ev_struct) { if (buffersize < 0) return buffer; *buffer = 0; Q_strlcat(buffer, "struct ", buffersize); Q_strlcat(buffer, type->name, buffersize); return buffer; } if (type->type == ev_union) { if (buffersize < 0) return buffer; *buffer = 0; Q_strlcat(buffer, "union ", buffersize); Q_strlcat(buffer, type->name, buffersize); return buffer; } if (type->type == ev_pointer) { if (buffersize < 0) return buffer; TypeName(type->aux_type, buffer, buffersize-2); Q_strlcat(buffer, " *", buffersize); return buffer; } ret = buffer; if (type->type == ev_field) { type = type->aux_type; *ret++ = '.'; } *ret = 0; if (type->type == ev_function) { int args = type->num_parms; pbool vargs = type->vargs; unsigned int i; Q_strlcat(buffer, type->aux_type->name, buffersize); Q_strlcat(buffer, "(", buffersize); for (i = 0; i < type->num_parms; ) { if (type->params[i].out) Q_strlcat(buffer, "inout ", buffersize); if (type->params[i].optional) Q_strlcat(buffer, "optional ", buffersize); args--; Q_strlcat(buffer, type->params[i].type->name, buffersize); if (type->params[i].paramname && *type->params[i].paramname) { Q_strlcat(buffer, " ", buffersize); Q_strlcat(buffer, type->params[i].paramname, buffersize); } if (type->params[i].defltvalue.cast) { Q_strlcat(buffer, " = ", buffersize); Q_strlcat(buffer, QCC_VarAtOffset(type->params[i].defltvalue), buffersize); } if (++i < type->num_parms || vargs) Q_strlcat(buffer, ", ", buffersize); } if (vargs) Q_strlcat(buffer, "...", buffersize); Q_strlcat(buffer, ")", buffersize); } else if (type->type == ev_entity && type->parentclass) { ret = buffer; *ret = 0; Q_strlcat(buffer, "class ", buffersize); Q_strlcat(buffer, type->name, buffersize); /* strcat(ret, " {"); type = type->param; while(type) { strcat(ret, type->name); type = type->next; if (type) strcat(ret, ", "); } strcat(ret, "}"); */ } else Q_strlcat(buffer, type->name, buffersize); return buffer; } //#define typecmp(a, b) (a && ((a)->type==(b)->type) && !STRCMP((a)->name, (b)->name)) static QCC_type_t *QCC_PR_FindType (QCC_type_t *type) { int t; for (t = 0; t < numtypeinfos; t++) { // check = &qcc_typeinfo[t]; if (typecmp_strict(&qcc_typeinfo[t], type)) continue; // c2 = check->next; // n2 = type->next; // for (i=0 ; n2&&c2 ; i++) // { // if (!typecmp((c2), (n2))) // break; // c2=c2->next; // n2=n2->next; // } // if (n2==NULL&&c2==NULL) { return &qcc_typeinfo[t]; } } type = QCC_PR_DuplicateType(type, false); return type; } /* QCC_type_t *QCC_PR_NextSubType(QCC_type_t *type, QCC_type_t *prev) { int p; if (!prev) return type->next; for (p = prev->num_parms; p; p--) prev = QCC_PR_NextSubType(prev, NULL); if (prev->num_parms) switch(prev->type) { case ev_function: } return prev->next; } */ QCC_type_t *QCC_TypeForName(const char *name) { return pHash_Get(&typedeftable, name); /* int i; for (i = 0; i < numtypeinfos; i++) { if (qcc_typeinfo[i].typedefed && !STRCMP(qcc_typeinfo[i].name, name)) { return &qcc_typeinfo[i]; } } return NULL;*/ } /* ============ PR_SkipToSemicolon For error recovery, also pops out of nested braces ============ */ void QCC_PR_SkipToSemicolon (void) { //escape out of any #define while (currentchunk && currentchunk->cnst) QCC_PR_UnInclude(); do { if (!pr_bracelevel && QCC_PR_CheckToken (";")) return; QCC_PR_Lex (); } while (pr_token_type != tt_eof); } /* ============ PR_ParseType Parses a variable type, including field and functions types ============ */ #ifdef MAX_EXTRA_PARMS char pr_parm_names[MAX_PARMS+MAX_EXTRA_PARMS][MAX_NAME]; #else char pr_parm_names[MAX_PARMS][MAX_NAME]; #endif char *pr_parm_argcount_name; int recursivefunctiontype; QCC_type_t *QCC_PR_MakeThiscall(QCC_type_t *orig, QCC_type_t *thistype) { QCC_type_t ftype = *orig; ftype.ptrto = NULL; ftype.typedefed = false; ftype.num_parms++; ftype.params = qccHunkAlloc(sizeof(*ftype.params) * ftype.num_parms); memcpy(ftype.params+1, orig->params, sizeof(*ftype.params) * orig->num_parms); ftype.params[0].paramname = "this"; ftype.params[0].type = QCC_PR_PointerType(thistype); ftype.params[0].isvirtual = true; memmove(&pr_parm_names[1], &pr_parm_names[0], sizeof(*pr_parm_names)*orig->num_parms); strcpy(pr_parm_names[0], "this"); orig = QCC_PR_FindType (&ftype); if (!orig) { orig = QCC_PR_NewType(ftype.name, ftype.type, false); *orig = ftype; } return orig; } //expects a ( to have already been parsed. QCC_type_t *QCC_PR_ParseFunctionType (int newtype, QCC_type_t *returntype) { QCC_type_t *ftype, *t; char *name; int definenames = !recursivefunctiontype; int numparms = 0; struct QCC_typeparam_s paramlist[MAX_PARMS+MAX_EXTRA_PARMS]; recursivefunctiontype++; ftype = QCC_PR_NewType(type_function->name, ev_function, false); ftype->aux_type = returntype; // return type ftype->num_parms = 0; if (definenames) pr_parm_argcount_name = NULL; if (!QCC_PR_CheckToken (")")) { do { pbool foundinout; if (ftype->num_parms>=MAX_PARMS+MAX_EXTRA_PARMS) QCC_PR_ParseError(ERR_TOOMANYTOTALPARAMETERS, "Too many parameters. Sorry. (limit is %i)\n", MAX_PARMS+MAX_EXTRA_PARMS); if (QCC_PR_CheckToken ("...")) { t = QCC_PR_ParseType(false, true); //the evil things I do... if (!t) { ftype->vargs = true; break; } else { //its a ... followed by a type... don't bug out... t = QCC_PR_FieldType(t); t = QCC_PR_FieldType(t); t = QCC_PR_FieldType(t); paramlist[numparms].type = t; foundinout = false; } } else { foundinout = false; paramlist[numparms].optional = false; paramlist[numparms].isvirtual = false; paramlist[numparms].out = false; while(1) { if (!paramlist[numparms].optional && QCC_PR_CheckKeyword(keyword_optional, "optional")) paramlist[numparms].optional = true; else if (!foundinout && QCC_PR_CheckKeyword(keyword_inout, "inout")) { paramlist[numparms].out = true; foundinout = true; } else if (!foundinout && QCC_PR_CheckKeyword(keyword_inout, "out")) { paramlist[numparms].out = 2; //not really supported, but parsed for readability. foundinout = true; } else if (!foundinout && QCC_PR_CheckKeyword(keyword_inout, "in")) { paramlist[numparms].out = false; foundinout = true; } else break; } t = QCC_PR_ParseType(false, false); } paramlist[numparms].defltvalue.cast = NULL; paramlist[numparms].ofs = 0; paramlist[numparms].arraysize = 0; paramlist[numparms].type = t; if (!paramlist[numparms].type) QCC_PR_ParseError(0, "Expected type\n"); while (QCC_PR_CheckToken("*")) paramlist[numparms].type = QCC_PointerTypeTo(paramlist[numparms].type); if (paramlist[numparms].type->type == ev_void) break; //float(void) has no actual args if (!foundinout && QCC_PR_CheckToken("&")) { //accept c++ syntax, at least on arguments. its not quite the same, but it'll do. paramlist[numparms].out = true; foundinout = true; } // type->name = "FUNC PARAMETER"; paramlist[numparms].paramname = ""; if (STRCMP(pr_token, ",") && STRCMP(pr_token, ")")) { if (QCC_PR_CheckToken ("...")) { ftype->vargs = true; break; } newtype = true; name = QCC_PR_ParseName (); paramlist[numparms].paramname = qccHunkAlloc(strlen(name)+1); strcpy(paramlist[numparms].paramname, name); if (definenames) strcpy (pr_parm_names[numparms], name); if (QCC_PR_CheckToken("[")) { if (QCC_PR_CheckToken("]")) //length omitted. just treat it as a pointer...? { QCC_PR_ParseError(0, "unsized array argument\n"); paramlist[numparms].type = QCC_PointerTypeTo(paramlist[numparms].type); } else { //proper array paramlist[numparms].arraysize = QCC_PR_IntConstExpr(); if (!paramlist[numparms].arraysize) QCC_PR_ParseError(ERR_NOTANAME, "cannot cope with 0-sized arrays"); QCC_PR_Expect("]"); } } } else if (definenames) strcpy (pr_parm_names[numparms], ""); if (QCC_PR_CheckToken("=")) { paramlist[numparms].defltvalue = QCC_PR_ParseDefaultInitialiser(paramlist[numparms].type); if (!paramlist[numparms].defltvalue.sym->constant) QCC_PR_ParseError(0, "Default initialiser is not constant\n"); QCC_FreeTemp(paramlist[numparms].defltvalue); } numparms++; } while (QCC_PR_CheckToken (",")); if (ftype->vargs) { if (!QCC_PR_CheckToken (")")) { name = QCC_PR_ParseName(); if (definenames) { pr_parm_argcount_name = qccHunkAlloc(strlen(name)+1); strcpy(pr_parm_argcount_name, name); } ftype->vargcount = true; QCC_PR_Expect (")"); } } else QCC_PR_Expect (")"); } ftype->num_parms = numparms; ftype->params = qccHunkAlloc(sizeof(*ftype->params) * numparms); memcpy(ftype->params, paramlist, sizeof(*ftype->params) * numparms); recursivefunctiontype--; if (returntype->size > 3 && !autoprototype) //fixme: handle properly, without breaking __out QCC_PR_ParseWarning(WARN_UNDESIRABLECONVENTION, "Unable to handle functions returning structures larger than a vector. Will truncate."); if (newtype) return ftype; return QCC_PR_FindType (ftype); } QCC_type_t *QCC_PR_ParseFunctionTypeReacc (int newtype, QCC_type_t *returntype) { QCC_type_t *ftype, *nptype; char *name; int definenames = !recursivefunctiontype; int numparms = 0; struct QCC_typeparam_s paramlist[MAX_PARMS+MAX_EXTRA_PARMS]; recursivefunctiontype++; ftype = QCC_PR_NewType(type_function->name, ev_function, false); ftype->aux_type = returntype; // return type ftype->num_parms = 0; pr_parm_argcount_name = NULL; if (!QCC_PR_CheckToken (")")) { do { if (numparms>=MAX_PARMS+MAX_EXTRA_PARMS) QCC_PR_ParseError(ERR_TOOMANYTOTALPARAMETERS, "Too many parameters. Sorry. (limit is %i)\n", MAX_PARMS+MAX_EXTRA_PARMS); if (QCC_PR_CheckToken ("...")) { ftype->vargs = true; break; } if (QCC_PR_CheckName("arg")) { name = ""; nptype = QCC_PR_NewType("Variant", ev_variant, false); } else if (QCC_PR_CheckName("vect")) //this can only be of vector sizes, so... { name = ""; nptype = QCC_PR_NewType("Vector", ev_vector, false); } else { name = QCC_PR_ParseName(); QCC_PR_Expect(":"); nptype = QCC_PR_ParseType(true, false); } if (!nptype) QCC_PR_ParseError(0, "Expected type\n"); if (nptype->type == ev_void) break; // type->name = "FUNC PARAMETER"; paramlist[numparms].out = false; paramlist[numparms].optional = false; paramlist[numparms].isvirtual = false; paramlist[numparms].ofs = 0; paramlist[numparms].arraysize = 0; paramlist[numparms].type = nptype; if (!*name) paramlist[numparms].paramname = ""; else { paramlist[numparms].paramname = qccHunkAlloc(strlen(name)+1); strcpy(paramlist[numparms].paramname, name); } if (definenames) QC_snprintfz(pr_parm_names[numparms], MAX_NAME, "%s", name); numparms++; } while (QCC_PR_CheckToken (";")); QCC_PR_Expect (")"); } ftype->num_parms = numparms; ftype->params = qccHunkAlloc(sizeof(*ftype->params) * numparms); memcpy(ftype->params, paramlist, sizeof(*ftype->params) * numparms); recursivefunctiontype--; if (newtype) return ftype; return QCC_PR_FindType (ftype); } QCC_type_t *QCC_PR_PointerType (QCC_type_t *pointsto) { QCC_type_t *ptype; char name[128]; if (pointsto->ptrto) return pointsto->ptrto; QC_snprintfz(name, sizeof(name), "%s*", pointsto->name); ptype = QCC_PR_NewType(strcpy(qccHunkAlloc(strlen(name)+1), name), ev_pointer, false); ptype->aux_type = pointsto; return pointsto->ptrto = QCC_PR_FindType (ptype); } QCC_type_t *QCC_PR_FieldType (QCC_type_t *pointsto) { QCC_type_t *ptype; char name[128]; if (pointsto->fldto) return pointsto->fldto; QC_snprintfz(name, sizeof(name), ".%s", pointsto->name); ptype = QCC_PR_NewType(strcpy(qccHunkAlloc(strlen(name)+1), name), ev_field, false); ptype->aux_type = pointsto; ptype->size = ptype->aux_type->size; return pointsto->fldto = QCC_PR_FindType (ptype); } QCC_type_t *QCC_PR_GenFunctionType (QCC_type_t *rettype, struct QCC_typeparam_s *args, int numargs) { int i; struct QCC_typeparam_s *p; QCC_type_t *ftype; ftype = QCC_PR_NewType("$func", ev_function, false); ftype->aux_type = rettype; ftype->num_parms = numargs; ftype->params = p = qccHunkAlloc(sizeof(*ftype->params)*numargs); ftype->vargs = false; ftype->vargcount = false; for (i = 0; i < numargs; i++, p++) { if (args[i].paramname) { p->paramname = qccHunkAlloc(strlen(args[i].paramname)+1); strcpy(p->paramname, args[i].paramname); } else p->paramname = ""; p->type = args[i].type; p->out = args[i].out; p->optional = args[i].optional; p->isvirtual = args[i].isvirtual; p->ofs = args[i].ofs; p->arraysize = args[i].arraysize; p->defltvalue.cast = NULL; } return QCC_PR_FindType (ftype); } extern char *basictypenames[]; extern QCC_type_t **basictypes[]; pbool type_inlinefunction; /*newtype=true: creates a new type always silentfail=true: function is permitted to return NULL if it was not given a type, otherwise never returns NULL */ QCC_type_t *QCC_PR_ParseType (int newtype, pbool silentfail) { QCC_type_t *newparm; QCC_type_t *newt; QCC_type_t *type; char *name; etype_t structtype; type_inlinefunction = false; //doesn't really matter so long as its not from an inline function type // int ofs; if (QCC_PR_CheckKeyword(keyword_const, "const")) { QCC_PR_ParseWarning (WARN_IGNOREDKEYWORD, "ignoring unsupported const keyword"); silentfail = false; //FIXME } if (QCC_PR_PeekToken ("...") ) //this is getting stupid { QCC_PR_LexWhitespace (false); if (*pr_file_p == '(') { //work around gmqcc's "(...(" being misinterpreted as a cast syntax error, instead abort here so it can be treated as an intrinsic (with args) instead. if (silentfail) return NULL; QCC_PR_ParseError (ERR_NOTATYPE, "\"%s\" is not a type", pr_token); } QCC_PR_Lex (); type = QCC_PR_NewType("FIELD_TYPE", ev_field, false); type->aux_type = QCC_PR_ParseType (false, false); type->size = type->aux_type->size; newt = QCC_PR_FindType (type); type = QCC_PR_NewType("FIELD_TYPE", ev_field, false); type->aux_type = newt; type->size = type->aux_type->size; newt = QCC_PR_FindType (type); type = QCC_PR_NewType("FIELD_TYPE", ev_field, false); type->aux_type = newt; type->size = type->aux_type->size; if (newtype) return type; return QCC_PR_FindType (type); } if (QCC_PR_CheckToken ("..")) //so we don't end up with the user specifying '. .vector blah' (hexen2 added the .. token for array ranges) { newt = QCC_PR_NewType("FIELD_TYPE", ev_field, false); newt->aux_type = QCC_PR_ParseType (false, false); newt->size = newt->aux_type->size; newt = QCC_PR_FindType (newt); type = QCC_PR_NewType("FIELD_TYPE", ev_field, false); type->aux_type = newt; type->size = type->aux_type->size; if (newtype) return type; return QCC_PR_FindType (type); } if (QCC_PR_CheckToken (".")) { //.float *foo; is annoying. //technically it is a pointer to a .float //most people will want a .(float*) foo; //so .*float will give you that. //however, we can't cope parsing that with regular types, so we support that ONLY when . was already specified. //this is pretty much an evil syntax hack. pbool ptr = QCC_PR_CheckToken ("*"); type = QCC_PR_ParseType(false, false); if (!type) QCC_PR_ParseError(0, "Expected type\n"); if (ptr) type = QCC_PointerTypeTo(type); name = qccHunkAlloc(strlen(type->name)+2); *name = '.'; strcpy(name+1, type->name); newt = QCC_PR_NewType(name, ev_field, false); newt->aux_type = type; newt->size = newt->aux_type->size; if (newtype) return newt; return QCC_PR_FindType (newt); } name = pr_token; if (pr_token_type != tt_name) { if (silentfail) return NULL; QCC_PR_ParseError (ERR_NOTATYPE, "\"%s\" is not a type", name); } // name = QCC_PR_CheckCompConstString(name); //accessors if (QCC_PR_CheckKeyword (keyword_accessor, "accessor")) { char parentname[256]; char *accessorname; char *funcname; newt = NULL; funcname = QCC_PR_ParseName(); accessorname = qccHunkAlloc(strlen(funcname)+1); strcpy(accessorname, funcname); /* Look to see if this type is already defined */ newt = QCC_TypeForName(accessorname); if (newt && newt->type != ev_accessor) QCC_PR_ParseError(ERR_NOTANAME, "Type %s cannot be redefined as an accessor", accessorname); if (QCC_PR_CheckToken(":")) { type = QCC_PR_ParseType(false, false); if (type) TypeName(type, parentname, sizeof(parentname)); else strcpy(parentname, "??"); if (!type || type->type == ev_struct || type->type == ev_union) QCC_PR_ParseError(ERR_NOTANAME, "Accessor %s cannot be based upon %s", accessorname, parentname); } else type = NULL; if (!newt) { newt = QCC_PR_NewType(accessorname, ev_accessor, true); newt->size=type->size; } if (!newt->parentclass) { newt->parentclass = type; if (!newt->parentclass || newt->parentclass->type == ev_struct || newt->parentclass->type == ev_union || newt->size != newt->parentclass->size) QCC_PR_ParseError(ERR_NOTANAME, "Accessor %s cannot be based upon %s", accessorname, parentname); } else if (type != newt->parentclass) QCC_PR_ParseError(ERR_NOTANAME, "Accessor %s basic type mismatch", accessorname); if (QCC_PR_CheckToken("{")) { struct accessor_s *acc; pbool setnotget; char *fieldtypename; QCC_type_t *fieldtype; QCC_type_t *indextype; QCC_sref_t def; QCC_type_t *functype; struct QCC_typeparam_s arg[3]; int args; char *indexname; pbool isref; pbool isinline; do { isinline = QCC_PR_CheckName("inline"); if (QCC_PR_CheckName("set")) setnotget = true; else if (QCC_PR_CheckName("get")) setnotget = false; else break; if (QCC_PR_CheckToken("&")) isref = 2; else isref = QCC_PR_CheckToken("*"); fieldtypename = QCC_PR_ParseName(); fieldtype = QCC_TypeForName(fieldtypename); if (!fieldtype) QCC_PR_ParseError(ERR_NOTATYPE, "Invalid type: %s", fieldtypename); while(QCC_PR_CheckToken("*")) fieldtype = QCC_PR_PointerType(fieldtype); if (pr_token_type != tt_punct) { funcname = QCC_PR_ParseName(); accessorname = qccHunkAlloc(strlen(funcname)+1); strcpy(accessorname, funcname); } else accessorname = ""; indextype = NULL; indexname = "index"; if (QCC_PR_CheckToken("[")) { fieldtypename = QCC_PR_ParseName(); indextype = QCC_TypeForName(fieldtypename); if (!QCC_PR_CheckToken("]")) { indexname = QCC_PR_ParseName(); QCC_PR_Expect("]"); } } QCC_PR_Expect("="); args = 0; memset(arg, 0, sizeof(arg)); strcpy (pr_parm_names[args], "this"); arg[args].paramname = "this"; if (isref == 2) { arg[args].type = newt; arg[args].out = 1; //inout } else if (isref) arg[args].type = QCC_PointerTypeTo(newt); else arg[args].type = newt; args++; if (indextype) { strcpy (pr_parm_names[args], indexname); arg[args].paramname = indexname; arg[args++].type = indextype; } if (setnotget) { strcpy (pr_parm_names[args], "value"); arg[args].paramname = "value"; arg[args++].type = fieldtype; } functype = QCC_PR_GenFunctionType(setnotget?type_void:fieldtype, arg, args); if (pr_token_type != tt_name) { QCC_function_t *f; char funcname[256]; QC_snprintfz(funcname, sizeof(funcname), "%s::%s_%s", newt->name, setnotget?"set":"get", accessorname); def = QCC_PR_GetSRef(functype, funcname, NULL, true, 0, GDF_CONST | (isinline?GDF_INLINE:0)); //pr_classtype = newt; f = QCC_PR_ParseImmediateStatements (def.sym, functype, false); pr_classtype = NULL; pr_scope = NULL; def.sym->symboldata[def.ofs].function = f - functions; f->def = def.sym; def.sym->initialized = 1; } else { funcname = QCC_PR_ParseName(); def = QCC_PR_GetSRef(functype, funcname, NULL, true, 0, GDF_CONST|(isinline?GDF_INLINE:0)); if (!def.cast) QCC_Error(ERR_NOFUNC, "%s::set_%s: %s was not defined", newt->name, accessorname, funcname); } if (!def.cast || !def.sym || def.sym->temp) QCC_Error(ERR_NOFUNC, "%s::%s_%s function invalid", newt->name, setnotget?"set":"get", accessorname); for (acc = newt->accessors; acc; acc = acc->next) if (!strcmp(acc->fieldname, accessorname)) break; if (!acc) { acc = qccHunkAlloc(sizeof(*acc)); acc->fieldname = accessorname; acc->next = newt->accessors; acc->type = fieldtype; acc->indexertype = indextype; newt->accessors = acc; } if (acc->getset_func[setnotget].cast) QCC_Error(ERR_TOOMANYINITIALISERS, "%s::%s_%s already declared", newt->name, setnotget?"set":"get", accessorname); acc->getset_func[setnotget] = def; acc->getset_isref[setnotget] = isref; QCC_FreeTemp(def); } while (QCC_PR_CheckToken(",") || QCC_PR_CheckToken(";")); QCC_PR_Expect("}"); } if (newtype) newt = QCC_PR_DuplicateType(newt, false); return newt; } if (QCC_PR_CheckKeyword (keyword_class, "class")) { // int parms; QCC_type_t *fieldtype; char membername[2048]; char *classname; int forwarddeclaration; int numparms = 0; struct QCC_typeparam_s *parms = NULL; char *parmname; int arraysize; pbool redeclaration; int basicindex; QCC_def_t *d; QCC_type_t *pc; pbool found = false; int assumevirtual = 0; //0=erk, 1=yes, -1=no parmname = QCC_PR_ParseName(); classname = qccHunkAlloc(strlen(parmname)+1); strcpy(classname, parmname); newt = 0; if (QCC_PR_CheckToken(":")) { char *parentname = QCC_PR_ParseName(); fieldtype = QCC_TypeForName(parentname); if (!fieldtype) QCC_PR_ParseError(ERR_NOTANAME, "Parent class %s was not yet defined", parentname); forwarddeclaration = false; QCC_PR_Expect("{"); } else { fieldtype = type_entity; forwarddeclaration = !QCC_PR_CheckToken("{"); } newt = QCC_TypeForName(classname); if (newt && newt->num_parms != 0) redeclaration = true; else redeclaration = false; if (!newt) { newt = QCC_PR_NewType(classname, ev_entity, true); newt->size=type_entity->size; } type = NULL; if (forwarddeclaration) return newt; if (pr_scope) QCC_PR_ParseError(ERR_REDECLARATION, "Declaration of class %s%s%s within function", col_type,classname,col_none); if (redeclaration && fieldtype != newt->parentclass) QCC_PR_ParseError(ERR_REDECLARATION, "Parent class changed on redeclaration of %s%s%s", col_type,classname,col_none); newt->parentclass = fieldtype; if (QCC_PR_CheckToken(",")) QCC_PR_ParseError(ERR_NOTANAME, "member missing name"); while (!QCC_PR_CheckToken("}")) { pbool havebody = false; pbool isnull = false; pbool isvirt = false; pbool isnonvirt = false; pbool isstatic = false; pbool isignored = false; // pbool ispublic = false; // pbool isprivate = false; // pbool isprotected = false; while(1) { if (QCC_PR_CheckKeyword(1, "nonvirtual")) isnonvirt = true; else if (QCC_PR_CheckKeyword(1, "static")) isstatic = true; else if (QCC_PR_CheckKeyword(1, "virtual")) isvirt = true; else if (QCC_PR_CheckKeyword(1, "ignore")) isignored = true; else if (QCC_PR_CheckKeyword(1, "strip")) isignored = true; else if (QCC_PR_CheckKeyword(1, "public")) /*ispublic = true*/; else if (QCC_PR_CheckKeyword(1, "private")) /*isprivate = true*/; else if (QCC_PR_CheckKeyword(1, "protected")) /*isprotected = true*/; else break; } if (QCC_PR_CheckToken(":")) { if (isvirt && !isnonvirt) assumevirtual = 1; else if (isnonvirt && !isvirt) assumevirtual = -1; continue; } newparm = QCC_PR_ParseType(false, false); if (!newparm) QCC_PR_ParseError(ERR_INTERNAL, "In class %s, expected type, found %s", classname, pr_token); if (newparm->type == ev_struct || newparm->type == ev_union) //we wouldn't be able to handle it. QCC_PR_ParseError(ERR_INTERNAL, "Struct or union in class %s", classname); parmname = QCC_PR_ParseName(); if (QCC_PR_CheckToken("[")) { arraysize = QCC_PR_IntConstExpr(); QCC_PR_Expect("]"); } else arraysize = 0; if (newparm->type == ev_function) { if (isstatic) { isstatic = false; isnonvirt = true; // QCC_PR_ParseError(ERR_INTERNAL, "%s::%s static member functions are not supported at this time.", classname, parmname); } if (!strcmp(classname, parmname)) { if (isstatic) QCC_PR_ParseError(ERR_INTERNAL, "Constructor %s::%s may not be static.", classname, pr_token); if (!isvirt) isnonvirt = true;//silently promote constructors to static } else if (!isvirt && !isnonvirt && !isstatic) { if (assumevirtual == 1) isvirt = true; else if (assumevirtual == -1) isnonvirt = true; else QCC_PR_ParseWarning(WARN_MISSINGMEMBERQUALIFIER, "%s::%s was not qualified. Assuming non-virtual.", classname, parmname); } if (isvirt+isnonvirt+isstatic != 1) QCC_PR_ParseError(ERR_INTERNAL, "Multiple conflicting qualifiers on %s::%s.", classname, pr_token); } else { if (isvirt||isnonvirt) QCC_Error(ERR_INTERNAL, "virtual keyword on member that is not a function"); } if (newparm->type == ev_function) { if (QCC_PR_CheckToken("=")) { havebody = true; } else if (pr_token[0] == '{') havebody = true; } if (havebody) { QCC_def_t *def; if (pr_scope) QCC_Error(ERR_INTERNAL, "Nested function declaration"); isnull = (QCC_PR_CheckImmediate("0") || QCC_PR_CheckImmediate("0i")); QC_snprintfz(membername, sizeof(membername), "%s::%s", classname, parmname); if (isnull) { if (isignored) def = NULL; else { def = QCC_PR_GetDef(newparm, membername, NULL, true, 0, 0); def->symboldata[def->ofs].function = 0; def->initialized = 1; } } else { if (isignored) def = NULL; else def = QCC_PR_GetDef(newparm, membername, NULL, true, 0, GDF_CONST); if (newparm->type != ev_function) QCC_Error(ERR_INTERNAL, "Can only initialise member functions"); else { if (autoprototype || isignored) { if (QCC_PR_CheckToken("[")) { while (!QCC_PR_CheckToken("]")) { if (pr_token_type == tt_eof) break; QCC_PR_Lex(); } } QCC_PR_Expect("{"); { int blev = 1; //balance out the { and } while(blev) { if (pr_token_type == tt_eof) break; if (QCC_PR_CheckToken("{")) blev++; else if (QCC_PR_CheckToken("}")) blev--; else QCC_PR_Lex(); //ignore it. } } } else { pr_classtype = newt; QCC_PR_ParseInitializerDef(def, 0); pr_classtype = NULL; /* f = QCC_PR_ParseImmediateStatements (def, newparm); pr_classtype = NULL; pr_scope = NULL; def->symboldata[def->ofs].function = f - functions; f->def = def; def->initialized = 1;*/ } } } if (def) QCC_FreeDef(def); if (!isvirt && !isignored) { QCC_def_t *fdef; QCC_type_t *pc; unsigned int i; for (pc = newt->parentclass; pc; pc = pc->parentclass) { for (i = 0; i < pc->num_parms; i++) { if (!strcmp(pc->params[i].paramname, parmname)) { QCC_PR_ParseWarning(WARN_DUPLICATEDEFINITION, "%s::%s is virtual inside parent class '%s'. Did you forget the 'virtual' keyword?", newt->name, parmname, pc->name); break; } } if (i < pc->num_parms) break; } if (!pc) { fdef = QCC_PR_GetDef(NULL, parmname, NULL, false, 0, GDF_CONST); if (fdef && fdef->type->type == ev_field) { QCC_PR_ParseWarning(WARN_DUPLICATEDEFINITION, "%s::%s is virtual inside parent class 'entity'. Did you forget the 'virtual' keyword?", newt->name, parmname); QCC_PR_ParsePrintDef(0, fdef); } else if (fdef) { QCC_PR_ParseWarning(WARN_DUPLICATEDEFINITION, "%s::%s shadows a global", newt->name, parmname); QCC_PR_ParsePrintDef(0, fdef); } if (fdef) QCC_FreeDef(fdef); } } } QCC_PR_Expect(";"); if (isignored) //member doesn't really exist continue; //static members are technically just funny-named globals, and do not generate fields. if (isnonvirt || isstatic || (newparm->type == ev_function && !arraysize)) { unsigned int fl = 0; if (newparm->type == ev_function && !arraysize) fl = GDF_CONST; QC_snprintfz(membername, sizeof(membername), "%s::%s", classname, parmname); QCC_FreeDef(QCC_PR_GetDef(newparm, membername, NULL, true, 0, fl)); if (isnonvirt || isstatic) continue; } fieldtype = QCC_PR_NewType(parmname, ev_field, false); fieldtype->aux_type = newparm; fieldtype->size = newparm->size; parms = realloc(parms, sizeof(*parms) * (numparms+1)); parms[numparms].ofs = 0; parms[numparms].out = false; parms[numparms].optional = false; parms[numparms].isvirtual = isvirt; parms[numparms].paramname = parmname; parms[numparms].arraysize = arraysize; parms[numparms].type = newparm; parms[numparms].defltvalue.cast = NULL; basicindex = 0; found = false; for(pc = newt; pc && !found; pc = pc->parentclass) { struct QCC_typeparam_s *pp; int numpc; int i; if (pc == newt) { pp = parms; numpc = numparms; } else { pp = pc->params; numpc = pc->num_parms; } for (i = 0; i < numpc; i++) { if (pp[i].type->type == newparm->type) { if (!strcmp(pp[i].paramname, parmname)) { if (typecmp(pp[i].type, newparm)) { char bufc[256]; char bufp[256]; TypeName(pp[i].type, bufp, sizeof(bufp)); TypeName(newparm, bufc, sizeof(bufc)); QCC_PR_ParseError(0, "%s defined as %s in %s, but %s in %s\n", parmname, bufc, newt->name, bufp, pc->name); } basicindex = pp[i].ofs; found = true; break; } if ((unsigned int)basicindex < pp[i].ofs+pp[i].type->size*(pp[i].arraysize?pp[i].arraysize:1)) //if we found one with the index basicindex = pp[i].ofs+pp[i].type->size*(pp[i].arraysize?pp[i].arraysize:1); //make sure we don't union it. } } } parms[numparms].ofs = basicindex; //ulp, its new numparms++; if (found) continue; if (!*basictypes[newparm->type]) QCC_PR_ParseError(0, "members of type %s are not supported (%s::%s)\n", basictypenames[newparm->type], classname, parmname); //make sure the union is okay d = QCC_PR_GetDef(NULL, parmname, NULL, 0, 0, GDF_CONST); if (d) basicindex = 0; else { //don't go all weird with unioning generic fields QC_snprintfz(membername, sizeof(membername), "::*%s", basictypenames[newparm->type]); d = QCC_PR_GetDef(NULL, membername, NULL, 0, 0, GDF_CONST); if (!d) { d = QCC_PR_GetDef(QCC_PR_FieldType(*basictypes[newparm->type]), membername, NULL, 2, 0, GDF_CONST|GDF_POSTINIT|GDF_USED); // for (i = 0; (unsigned int)i < newparm->size*(arraysize?arraysize:1); i++) // d->symboldata[i]._int = pr.size_fields+i; // pr.size_fields += i; d->used = true; d->referenced = true; //always referenced, so you can inherit safely. } if (d->arraysize < basicindex+(arraysize?arraysize:1)) { if (d->symboldata) QCC_PR_ParseError(ERR_INTERNAL, "array members are kinda limited, sorry. try rearranging them or adding padding for alignment\n"); //FIXME: add relocs to cope with this all of a type can then be contiguous and thus allow arrays. else { int newsize = basicindex+(arraysize?arraysize:1); if (d->type->type == ev_union || d->type->type == ev_struct) d->arraysize = newsize; else while(d->arraysize < newsize) { QC_snprintfz(membername, sizeof(membername), "::%s[%i]", basictypenames[newparm->type], d->arraysize/d->type->size); QCC_PR_DummyDef(d->type, membername, d->scope, 0, d, d->arraysize, true, GDF_CONST); d->arraysize+=d->type->size; } } } } QCC_FreeDef(d); //and make sure we can do member::__fname //actually, that seems pointless. QC_snprintfz(membername, sizeof(membername), "%s::"MEMBERFIELDNAME, classname, parmname); // externs->Printf("define %s -> %s\n", membername, d->name); d = QCC_PR_DummyDef(fieldtype, membername, pr_scope, arraysize, d, basicindex, true, (isnull?0:GDF_CONST)|(opt_classfields?GDF_STRIP:0)); d->referenced = true; //always referenced, so you can inherit safely. } if (redeclaration) { int i; redeclaration = newt->num_parms != numparms; for (i = 0; i < numparms && (unsigned int)i < newt->num_parms; i++) { if (newt->params[i].arraysize != parms[i].arraysize || typecmp(newt->params[i].type, parms[i].type) || strcmp(newt->params[i].paramname, parms[i].paramname)) { QCC_PR_ParseError(ERR_REDECLARATION, "Incompatible redeclaration of class %s. %s differs.", classname, parms[i].paramname); break; } } if (newt->num_parms != numparms) QCC_PR_ParseError(ERR_REDECLARATION, "Incompatible redeclaration of class %s.", classname); } else { newt->num_parms = numparms; newt->params = qccHunkAlloc(sizeof(*type->params) * numparms); memcpy(newt->params, parms, sizeof(*type->params) * numparms); } free(parms); { QCC_def_t *d; //if there's a constructor, make sure the spawnfunc_ function is defined so that its available to maps. QC_snprintfz(membername, sizeof(membername), "spawnfunc_%s", classname); d = QCC_PR_GetDef(type_function, membername, NULL, true, 0, GDF_CONST); d->funccalled = true; d->referenced = true; QCC_FreeDef(d); } QCC_PR_Expect(";"); return NULL; } if (QCC_PR_CheckKeyword(keyword_enum, "enum")) { return QCC_PR_ParseEnum(false); } if (QCC_PR_CheckKeyword(keyword_enumflags, "enumflags")) { return QCC_PR_ParseEnum(true); } structtype = ev_void; if (QCC_PR_CheckKeyword (keyword_union, "union")) structtype = ev_union; else if (QCC_PR_CheckKeyword (keyword_struct, "struct")) structtype = ev_struct; if (structtype != ev_void) { struct QCC_typeparam_s *parms = NULL, *oldparm; int numparms = 0; int ofs; unsigned int arraysize; char *parmname; pbool isnonvirt = false; pbool isstatic = false; pbool isvirt = false; if (QCC_PR_CheckToken("{")) { //nameless struct newt = QCC_PR_NewType(structtype==ev_union?"":"", structtype, false); } else { QCC_type_t *parenttype; char *tname = QCC_PR_ParseName(); if (structtype == ev_struct && QCC_PR_CheckToken(":")) { char *parentname = QCC_PR_ParseName(); parenttype = QCC_TypeForName(parentname); if (!parenttype) QCC_PR_ParseError(ERR_NOTANAME, "Parent type %s was not yet defined", parentname); if (parenttype->type != ev_struct) QCC_PR_ParseError(ERR_NOTANAME, "Parent type %s is not a struct", parentname); } else parenttype = NULL; newt = QCC_TypeForName(tname); if (!newt) { newt = QCC_PR_NewType(tname, ev_struct, true); newt->parentclass = parenttype; } else if (!newt->size && !newt->parentclass) newt->parentclass = parenttype; else if (parenttype && newt->parentclass != parenttype) QCC_PR_ParseError(ERR_NOTANAME, "Redeclaration of struct with different parent type", tname, parenttype->name); if (newt->size) { if (QCC_PR_CheckToken("{")) QCC_PR_ParseError(ERR_NOTANAME, "%s %s is already defined", structtype==ev_union?"union":"struct", newt->name); return newt; } //struct declaration only, not definition. if (parenttype) QCC_PR_Expect("{"); else if (!QCC_PR_CheckToken("{")) return newt; } if (newt->parentclass) newt->size = newt->parentclass->size; else newt->size=0; type = NULL; newparm = NULL; for (;;) { //in qc, functions are assignable references like anything else, so no modifiers means the qc will need to assign to it somewhere. //virtual functions are still references, but we initialise them somewhere //nonvirtual functions and static functions are kinda the same thing QCC_sref_t defaultval; if (QCC_PR_CheckToken("}")) { if (newparm) QCC_PR_ParseError(ERR_EXPECTED, "missing semi-colon"); break; } else if (QCC_PR_CheckToken(";")) { newparm = NULL; continue; } else if (QCC_PR_CheckToken(",")) { //same as last type, unless initial/after-semicolon if (!newparm) QCC_PR_ParseError(ERR_EXPECTED, "element missing type"); } else { //new type! if (newparm) QCC_PR_ParseError(ERR_EXPECTED, "missing semi-colon"); //allow a missing semi-colon on functions, for mixed-style functions. //reset these... isnonvirt = false; isstatic = false; isvirt = false; //parse field modifiers if (QCC_PR_CheckKeyword(1, "public")) /*ispublic = true*/; else if (QCC_PR_CheckKeyword(1, "private")) /*isprivate = true*/; else if (QCC_PR_CheckKeyword(1, "protected")) /*isprotected = true*/; if (QCC_PR_CheckKeyword(1, "nonvirtual")) isnonvirt = true; else if (QCC_PR_CheckKeyword(1, "static")) isstatic = true; else if (QCC_PR_CheckKeyword(1, "virtual")) isvirt = true; // else if (QCC_PR_CheckKeyword(1, "ignore")) // isignored = true; // else if (QCC_PR_CheckKeyword(1, "strip")) // isignored = true; //now parse the actual type. newparm = QCC_PR_ParseType(false, false); } type = newparm; while (QCC_PR_CheckToken("*")) type = QCC_PointerTypeTo(type); arraysize = 0; if (QCC_PR_CheckToken(";")) { //annonymous structs do weird scope stuff. newparm = NULL; parmname = ""; } else { parmname = qccHunkAlloc(strlen(pr_token)+1); strcpy(parmname, pr_token); QCC_PR_Lex(); if (QCC_PR_CheckToken("[")) { arraysize=QCC_PR_IntConstExpr(); if (!arraysize) QCC_PR_ParseError(ERR_NOTANAME, "cannot cope with 0-sized arrays"); QCC_PR_Expect("]"); } while (QCC_PR_CheckToken("[")) { int nsize=QCC_PR_IntConstExpr(); if (!nsize) QCC_PR_ParseError(ERR_NOTANAME, "cannot cope with 0-sized arrays"); QCC_PR_Expect("]"); arraysize *= nsize; QCC_PR_ParseWarning(WARN_IGNOREDKEYWORD, "multi-dimensional arrays are not supported. flattening to single array."); } if (QCC_PR_CheckToken("(")) type = QCC_PR_ParseFunctionType(false, type); } if (type == newt || ((type->type == ev_struct || type->type == ev_union) && !type->size)) { QCC_PR_ParseWarning(ERR_NOTANAME, "type %s not fully defined yet", type->name); continue; } if (QCC_PR_CheckToken(":")) { QCC_PR_IntConstExpr(); QCC_PR_ParseWarning(WARN_IGNOREDKEYWORD, "bitfields are not supported"); } if ((isnonvirt || isvirt) && type->type != ev_function) QCC_PR_ParseWarning(ERR_INTERNAL, "[non]virtual members must be functions", type->name); //static members are technically just funny-named globals, and do not generate fields. if (isnonvirt || isstatic || isvirt) { //either way its a regular global. the difference being static has no implicit this/self argument. QCC_def_t *d; char membername[2048]; if (!isstatic) type = QCC_PR_MakeThiscall(type, newt); QC_snprintfz(membername, sizeof(membername), "%s::%s", newt->name, parmname); d = QCC_PR_GetDef(type, membername, NULL, true, 0, (type->type==ev_function)?GDF_CONST:0); if (QCC_PR_CheckToken("=") || (type->type == ev_function && QCC_PR_PeekToken("{"))) { //FIXME: methods cannot be compiled yet, as none of the fields are not actually defined yet. pr_classtype = newt; QCC_PR_ParseInitializerDef(d, 0); pr_classtype = NULL; } QCC_FreeDef(d); if (!QCC_PR_PeekToken(",")) newparm = NULL; if (isvirt) { defaultval.ofs = 0; defaultval.cast = d->type; defaultval.sym = d; } else continue; } else { defaultval.cast = NULL; if (QCC_PR_CheckToken("=")) { defaultval = QCC_PR_ParseDefaultInitialiser(type); QCC_PR_ParseWarning(ERR_INTERNAL, "TODO: pre-initialised struct members are not implemented yet", type->name); } } parms = realloc(parms, sizeof(*parms) * (numparms+4)); oldparm = QCC_PR_FindStructMember(newt, parmname, &ofs); if (oldparm && oldparm->arraysize == arraysize && !typecmp_lax(oldparm->type, type)) { if (!isvirt) continue; } else if (structtype == ev_union) { ofs = 0; if (type->size*(arraysize?arraysize:1) > newt->size) newt->size = type->size*(arraysize?arraysize:1); } else { ofs = newt->size; newt->size += type->size*(arraysize?arraysize:1); } parms[numparms].ofs = ofs; parms[numparms].arraysize = arraysize; parms[numparms].out = false; parms[numparms].optional = false; parms[numparms].isvirtual = isvirt; parms[numparms].paramname = parmname; parms[numparms].type = type; parms[numparms].defltvalue = defaultval; numparms++; /*if (type->type == ev_vector && arraysize == 0) { //add in vec_x/y/z members too. int c; for (c = 0; c < 3; c++) { parms[numparms].ofs = ofs + c; parms[numparms].arraysize = arraysize; parms[numparms].out = false; parms[numparms].optional = true; parms[numparms].isvirtual = isvirt; parms[numparms].paramname = qccHunkAlloc(strlen(parmname)+3); sprintf(parms[numparms].paramname, "%s_%c", parmname, 'x'+c); parms[numparms].type = type_float; parms[numparms].defltvalue = nullsref; numparms++; } }*/ } if (!numparms) QCC_PR_ParseError(ERR_NOTANAME, "%s %s has no members", structtype==ev_union?"union":"struct", newt->name); newt->num_parms = numparms; newt->params = qccHunkAlloc(sizeof(*type->params) * numparms); memcpy(newt->params, parms, sizeof(*type->params) * numparms); free(parms); return newt; } type = QCC_TypeForName(name); if (!type) { if (!*name) { QCC_PR_ParseError(ERR_NOTANAME, "type missing name"); return NULL; } //some reacc types... if (flag_acc && !stricmp("Void", name)) type = type_void; else if (flag_acc && !stricmp("Real", name)) type = type_float; else if (flag_acc && !stricmp("Vector", name)) type = type_vector; else if (flag_acc && !stricmp("Object", name)) type = type_entity; else if (flag_acc && !stricmp("String", name)) type = type_string; else if (flag_acc && !stricmp("PFunc", name)) type = type_function; else { //try and handle C's types, which have weird and obtuse combinations (like long long, long int, short int). pbool isokay = false; pbool issigned = false; pbool isunsigned = false; pbool islong = false; pbool isfloat = false; int bits = 0; while(true) { if (!isunsigned && !issigned && QCC_PR_CheckKeyword(keyword_signed, "signed")) issigned = isokay = true; else if (!issigned && !isunsigned && QCC_PR_CheckKeyword(keyword_unsigned, "unsigned")) isunsigned = isokay = true; else if (!bits && QCC_PR_CheckKeyword(keyword_long, "long")) { if (islong) bits = 128; islong = isokay = true; } else if ((!bits || bits==16) && (QCC_PR_CheckKeyword(keyword_int, "int") || QCC_PR_CheckKeyword(keyword_integer, "integer"))) { //long int, short int, etc are allowed if (!bits) bits = 32; isokay = true; } else if (!bits && QCC_PR_CheckKeyword(keyword_short, "short")) bits = 16, isokay = true; else if (!bits && QCC_PR_CheckKeyword(keyword_char, "char")) bits = 8, isokay = true; else if (!bits && QCC_PR_CheckKeyword(keyword_int, "_Bool")) //c99 bits = 1, isokay = true; else if (!bits && !islong && QCC_PR_CheckKeyword(keyword_float, "float")) bits = 32, isfloat = isokay = true; else if ((!bits||islong) && QCC_PR_CheckKeyword(keyword_double, "double")) bits = islong?128:64, islong=false, isfloat = isokay = true; else break; } if (isokay) { if (!bits) bits = islong?64:32; // [int] if (isfloat) { if (isunsigned) QCC_PR_ParseWarning (WARN_IGNOREDKEYWORD, "ignoring unsupported unsigned keyword, type will be signed"); if (bits > 64) type = type_double, QCC_PR_ParseWarning (WARN_IGNOREDKEYWORD, "long doubles are not supported, using double"); //permitted else if (bits == 64) type = type_double; else type = type_float; } else { if (bits > 64) type = (isunsigned?type_uint64:type_int64), QCC_PR_ParseWarning (WARN_IGNOREDKEYWORD, "long longs are not supported, using long"); //permitted else if (bits == 64) type = (isunsigned?type_uint64:type_int64); else if (bits == 16) type = (isunsigned?type_uint:type_integer), QCC_PR_ParseWarning (WARN_IGNOREDKEYWORD, "shorts are not supported, using int"); //permitted else if (bits == 8) type = (isunsigned?type_uint:type_integer), QCC_PR_ParseWarning (WARN_IGNOREDKEYWORD, "chars are not supported, using int"); //permitted else type = (isunsigned?type_uint:type_integer); } goto wasctype; } if (silentfail) return NULL; QCC_PR_ParseError (ERR_NOTATYPE, "\"%s\" is not a type", name); type = type_float; // shut up compiler warning } } QCC_PR_Lex (); wasctype: while (QCC_PR_CheckToken("*")) { if (QCC_PR_CheckKeyword(keyword_const, "const")) QCC_PR_ParseWarning (WARN_IGNOREDKEYWORD, "ignoring unsupported const keyword"); type = QCC_PointerTypeTo(type); } if (flag_qcfuncs && QCC_PR_CheckToken ("(")) //this is followed by parameters. Must be a function. { type_inlinefunction = true; type = QCC_PR_ParseFunctionType(newtype, type); } else { if (newtype) { type = QCC_PR_DuplicateType(type, false); } } return type; } #endif