/* =========================================================================== Copyright (C) 1999-2005 Id Software, Inc. This file is part of Quake III Arena source code. Quake III Arena source code is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. Quake III Arena source code is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with Foobar; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA =========================================================================== */ /***************************************************************************** * name: l_struct.c * * desc: structure reading / writing * * $Archive: /MissionPack/CODE/botlib/l_struct.c $ * *****************************************************************************/ #ifdef BOTLIB #include "../qcommon/q_shared.h" #include "botlib.h" //for the include of be_interface.h #include "l_script.h" #include "l_precomp.h" #include "l_struct.h" #include "l_utils.h" #include "be_interface.h" #endif //BOTLIB #ifdef BSPC //include files for usage in the BSP Converter #include "../bspc/qbsp.h" #include "../bspc/l_log.h" #include "../bspc/l_mem.h" #include "l_precomp.h" #include "l_struct.h" #define qtrue true #define qfalse false #endif //BSPC //=========================================================================== // // Parameter: - // Returns: - // Changes Globals: - //=========================================================================== fielddef_t *FindField(fielddef_t *defs, char *name) { int i; for (i = 0; defs[i].name; i++) { if (!strcmp(defs[i].name, name)) return &defs[i]; } //end for return NULL; } //end of the function FindField //=========================================================================== // // Parameter: - // Returns: - // Changes Globals: - //=========================================================================== qboolean ReadNumber(source_t *source, fielddef_t *fd, void *p) { token_t token; int negative = qfalse; long int intval, intmin = 0, intmax = 0; double floatval; if (!PC_ExpectAnyToken(source, &token)) return 0; //check for minus sign if (token.type == TT_PUNCTUATION) { if (fd->type & FT_UNSIGNED) { SourceError(source, "expected unsigned value, found %s", token.string); return 0; } //end if //if not a minus sign if (strcmp(token.string, "-")) { SourceError(source, "unexpected punctuation %s", token.string); return 0; } //end if negative = qtrue; //read the number if (!PC_ExpectAnyToken(source, &token)) return 0; } //end if //check if it is a number if (token.type != TT_NUMBER) { SourceError(source, "expected number, found %s", token.string); return 0; } //end if //check for a float value if (token.subtype & TT_FLOAT) { if ((fd->type & FT_TYPE) != FT_FLOAT) { SourceError(source, "unexpected float"); return 0; } //end if floatval = token.floatvalue; if (negative) floatval = -floatval; if (fd->type & FT_BOUNDED) { if (floatval < fd->floatmin || floatval > fd->floatmax) { SourceError(source, "float out of range [%f, %f]", fd->floatmin, fd->floatmax); return 0; } //end if } //end if *(float *) p = (float) floatval; return 1; } //end if // intval = token.intvalue; if (negative) intval = -intval; //check bounds if ((fd->type & FT_TYPE) == FT_CHAR) { if (fd->type & FT_UNSIGNED) {intmin = 0; intmax = 255;} else {intmin = -128; intmax = 127;} } //end if if ((fd->type & FT_TYPE) == FT_INT) { if (fd->type & FT_UNSIGNED) {intmin = 0; intmax = 65535;} else {intmin = -32768; intmax = 32767;} } //end else if if ((fd->type & FT_TYPE) == FT_CHAR || (fd->type & FT_TYPE) == FT_INT) { if (fd->type & FT_BOUNDED) { intmin = Maximum(intmin, fd->floatmin); intmax = Minimum(intmax, fd->floatmax); } //end if if (intval < intmin || intval > intmax) { SourceError(source, "value %d out of range [%d, %d]", intval, intmin, intmax); return 0; } //end if } //end if else if ((fd->type & FT_TYPE) == FT_FLOAT) { if (fd->type & FT_BOUNDED) { if (intval < fd->floatmin || intval > fd->floatmax) { SourceError(source, "value %d out of range [%f, %f]", intval, fd->floatmin, fd->floatmax); return 0; } //end if } //end if } //end else if //store the value if ((fd->type & FT_TYPE) == FT_CHAR) { if (fd->type & FT_UNSIGNED) *(unsigned char *) p = (unsigned char) intval; else *(char *) p = (char) intval; } //end if else if ((fd->type & FT_TYPE) == FT_INT) { if (fd->type & FT_UNSIGNED) *(unsigned int *) p = (unsigned int) intval; else *(int *) p = (int) intval; } //end else else if ((fd->type & FT_TYPE) == FT_FLOAT) { *(float *) p = (float) intval; } //end else return 1; } //end of the function ReadNumber //=========================================================================== // // Parameter: - // Returns: - // Changes Globals: - //=========================================================================== qboolean ReadChar(source_t *source, fielddef_t *fd, void *p) { token_t token; if (!PC_ExpectAnyToken(source, &token)) return 0; //take literals into account if (token.type == TT_LITERAL) { StripSingleQuotes(token.string); *(char *) p = token.string[0]; } //end if else { PC_UnreadLastToken(source); if (!ReadNumber(source, fd, p)) return 0; } //end if return 1; } //end of the function ReadChar //=========================================================================== // // Parameter: - // Returns: - // Changes Globals: - //=========================================================================== int ReadString(source_t *source, fielddef_t *fd, void *p) { token_t token; if (!PC_ExpectTokenType(source, TT_STRING, 0, &token)) return 0; //remove the double quotes StripDoubleQuotes(token.string); //copy the string strncpy((char *) p, token.string, MAX_STRINGFIELD); //make sure the string is closed with a zero ((char *)p)[MAX_STRINGFIELD-1] = '\0'; // return 1; } //end of the function ReadString //=========================================================================== // // Parameter: - // Returns: - // Changes Globals: - //=========================================================================== int ReadStructure(source_t *source, structdef_t *def, char *structure) { token_t token; fielddef_t *fd; void *p; int num; if (!PC_ExpectTokenString(source, "{")) return 0; while(1) { if (!PC_ExpectAnyToken(source, &token)) return qfalse; //if end of structure if (!strcmp(token.string, "}")) break; //find the field with the name fd = FindField(def->fields, token.string); if (!fd) { SourceError(source, "unknown structure field %s", token.string); return qfalse; } //end if if (fd->type & FT_ARRAY) { num = fd->maxarray; if (!PC_ExpectTokenString(source, "{")) return qfalse; } //end if else { num = 1; } //end else p = (void *)(structure + fd->offset); while (num-- > 0) { if (fd->type & FT_ARRAY) { if (PC_CheckTokenString(source, "}")) break; } //end if switch(fd->type & FT_TYPE) { case FT_CHAR: { if (!ReadChar(source, fd, p)) return qfalse; p = (char *) p + sizeof(char); break; } //end case case FT_INT: { if (!ReadNumber(source, fd, p)) return qfalse; p = (char *) p + sizeof(int); break; } //end case case FT_FLOAT: { if (!ReadNumber(source, fd, p)) return qfalse; p = (char *) p + sizeof(float); break; } //end case case FT_STRING: { if (!ReadString(source, fd, p)) return qfalse; p = (char *) p + MAX_STRINGFIELD; break; } //end case case FT_STRUCT: { if (!fd->substruct) { SourceError(source, "BUG: no sub structure defined"); return qfalse; } //end if ReadStructure(source, fd->substruct, (char *) p); p = (char *) p + fd->substruct->size; break; } //end case } //end switch if (fd->type & FT_ARRAY) { if (!PC_ExpectAnyToken(source, &token)) return qfalse; if (!strcmp(token.string, "}")) break; if (strcmp(token.string, ",")) { SourceError(source, "expected a comma, found %s", token.string); return qfalse; } //end if } //end if } //end while } //end while return qtrue; } //end of the function ReadStructure //=========================================================================== // // Parameter: - // Returns: - // Changes Globals: - //=========================================================================== int WriteIndent(FILE *fp, int indent) { while(indent-- > 0) { if (fprintf(fp, "\t") < 0) return qfalse; } //end while return qtrue; } //end of the function WriteIndent //=========================================================================== // // Parameter: - // Returns: - // Changes Globals: - //=========================================================================== int WriteFloat(FILE *fp, float value) { char buf[128]; int l; sprintf(buf, "%f", value); l = strlen(buf); //strip any trailing zeros while(l-- > 1) { if (buf[l] != '0' && buf[l] != '.') break; if (buf[l] == '.') { buf[l] = 0; break; } //end if buf[l] = 0; } //end while //write the float to file if (fprintf(fp, "%s", buf) < 0) return 0; return 1; } //end of the function WriteFloat //=========================================================================== // // Parameter: - // Returns: - // Changes Globals: - //=========================================================================== int WriteStructWithIndent(FILE *fp, structdef_t *def, char *structure, int indent) { int i, num; void *p; fielddef_t *fd; if (!WriteIndent(fp, indent)) return qfalse; if (fprintf(fp, "{\r\n") < 0) return qfalse; indent++; for (i = 0; def->fields[i].name; i++) { fd = &def->fields[i]; if (!WriteIndent(fp, indent)) return qfalse; if (fprintf(fp, "%s\t", fd->name) < 0) return qfalse; p = (void *)(structure + fd->offset); if (fd->type & FT_ARRAY) { num = fd->maxarray; if (fprintf(fp, "{") < 0) return qfalse; } //end if else { num = 1; } //end else while(num-- > 0) { switch(fd->type & FT_TYPE) { case FT_CHAR: { if (fprintf(fp, "%d", *(char *) p) < 0) return qfalse; p = (char *) p + sizeof(char); break; } //end case case FT_INT: { if (fprintf(fp, "%d", *(int *) p) < 0) return qfalse; p = (char *) p + sizeof(int); break; } //end case case FT_FLOAT: { if (!WriteFloat(fp, *(float *)p)) return qfalse; p = (char *) p + sizeof(float); break; } //end case case FT_STRING: { if (fprintf(fp, "\"%s\"", (char *) p) < 0) return qfalse; p = (char *) p + MAX_STRINGFIELD; break; } //end case case FT_STRUCT: { if (!WriteStructWithIndent(fp, fd->substruct, structure, indent)) return qfalse; p = (char *) p + fd->substruct->size; break; } //end case } //end switch if (fd->type & FT_ARRAY) { if (num > 0) { if (fprintf(fp, ",") < 0) return qfalse; } //end if else { if (fprintf(fp, "}") < 0) return qfalse; } //end else } //end if } //end while if (fprintf(fp, "\r\n") < 0) return qfalse; } //end for indent--; if (!WriteIndent(fp, indent)) return qfalse; if (fprintf(fp, "}\r\n") < 0) return qfalse; return qtrue; } //end of the function WriteStructWithIndent //=========================================================================== // // Parameter: - // Returns: - // Changes Globals: - //=========================================================================== int WriteStructure(FILE *fp, structdef_t *def, char *structure) { return WriteStructWithIndent(fp, def, structure, 0); } //end of the function WriteStructure