ref: e4b1f02d15943e86a108e362320db3aca34ce5ef
dir: /Game/src/scriplib.c/
//------------------------------------------------------------------------- /* Copyright (C) 1996, 2003 - 3D Realms Entertainment This file is part of Duke Nukem 3D version 1.5 - Atomic Edition Duke Nukem 3D 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. This program 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 aint32_t with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. Original Source: 1996 - Todd Replogle Prepared for public release: 03/21/2003 - Charlie Wiederhold, 3D Realms */ //------------------------------------------------------------------------- #include <assert.h> #include <ctype.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include "duke3d.h" #include "scriplib.h" /* #define DEBUG_SCRIPLIB */ #define MAX_SCRIPTS 5 typedef enum { SCRIPTFLAG_UNKNOWN, SCRIPTFLAG_CATEGORY, SCRIPTFLAG_ONESTRING, SCRIPTFLAG_TWOSTRING, SCRIPTFLAG_HEX, SCRIPTFLAG_DECIMAL, SCRIPTFLAG_FLOAT } scriptflag_t; typedef struct scriptnode_s { struct scriptnode_s *child; struct scriptnode_s *sibling; char *key; scriptflag_t type; union { char *string[2]; int number; float floatnumber; } data; } scriptnode_t; static int script_nexthandle = 0; static int script_numscriptsopen = 0; static scriptnode_t *script_headnode[MAX_SCRIPTS]; /* Utility functions */ static scriptnode_t *SCRIPT_constructnode (void) { scriptnode_t *s; s = (scriptnode_t *) malloc (sizeof (scriptnode_t)); if (s != NULL) { s->child = NULL; s->sibling = NULL; s->key = NULL; s->data.string[0] = NULL; s->data.string[1] = NULL; s->type = SCRIPTFLAG_UNKNOWN; } return s; } static void SCRIPT_freenode (scriptnode_t *node) { assert (node != NULL); if (node->type == SCRIPTFLAG_ONESTRING) { free (node->data.string[0]); } else if (node->type == SCRIPTFLAG_TWOSTRING) { free (node->data.string[0]); free (node->data.string[1]); } free (node->key); free (node->sibling); free (node->child); free (node); } static void SCRIPT_writenode (scriptnode_t *node, FILE *fp) { switch (node->type) { case SCRIPTFLAG_UNKNOWN: return; break; case SCRIPTFLAG_CATEGORY: fprintf (fp, "\n[%s]\n", node->key); break; case SCRIPTFLAG_ONESTRING: fprintf (fp, "%s = \"%s\"\n", node->key, node->data.string[0]); break; case SCRIPTFLAG_TWOSTRING: fprintf (fp, "%s = \"%s\" \"%s\"\n", node->key, node->data.string[0], node->data.string[1]); break; case SCRIPTFLAG_HEX: fprintf (fp, "%s = 0x%X\n", node->key, node->data.number); break; case SCRIPTFLAG_DECIMAL: fprintf (fp, "%s = %d\n", node->key, node->data.number); break; case SCRIPTFLAG_FLOAT: fprintf (fp, "%s = %ff\n", node->key, node->data.floatnumber); break; } } static void SCRIPT_recursivewrite (scriptnode_t *node, FILE *fp) { if (node == NULL) return; SCRIPT_writenode (node, fp); /* Free dependant nodes first */ if (node->child) { SCRIPT_recursivewrite (node->child, fp); } if (node->sibling) { SCRIPT_recursivewrite (node->sibling, fp); } } static void SCRIPT_recursivefree (scriptnode_t *node) { assert (node != NULL); /* Free dependant nodes first */ if (node->child) { SCRIPT_recursivefree (node->child); node->child = NULL; } if (node->sibling) { SCRIPT_recursivefree (node->sibling); node->sibling = NULL; } SCRIPT_freenode (node); node = NULL; } static void SCRIPT_addsibling (scriptnode_t *node, scriptnode_t *sibling) { assert (node != NULL); assert (sibling != NULL); /* printf ("addsib: %p, %p, %p\n", node, node->sibling, sibling); */ if (node->sibling == NULL) { node->sibling = sibling; } else { SCRIPT_addsibling (node->sibling, sibling); } } static void SCRIPT_addchild (scriptnode_t *parent, scriptnode_t *child) { assert (parent != NULL); assert (child != NULL); if (parent->child == NULL) { parent->child = child; } else { SCRIPT_addsibling (parent->child, child); } } static char *SCRIPT_copystring (char * s) { char *ret; ret = (char *) malloc (strlen (s)+1); if (ret != NULL) { strcpy (ret, s); } return ret; } static int SCRIPT_getnexttoken (char *buffer, char * token, int start) { int iterator = start; if (buffer[start] == '\0') { token[0] = '\0'; return start; } while (iterator < 128 && !isspace (buffer[iterator])) { token[iterator-start] = buffer[iterator]; iterator++; } token[iterator-start] = '\0'; /* Trim off any extra whitespace */ while (iterator < 127 && isspace(buffer[iterator+1])) iterator++; return ++iterator; } /* Fills in a scriptnode with the interpreted contents of a line */ static void SCRIPT_parseline (char *curline, scriptnode_t *node) { char token[128]; int i; /* Needs to handle 5 cases: */ /* key = someint */ /* key = 0xsomehexnum */ /* key = ~ */ /* key = "onestring" */ /* key = "two" "strings" */ assert (node != NULL); assert (curline != NULL); i = SCRIPT_getnexttoken (curline, token, 0); node->key = SCRIPT_copystring (token); i = SCRIPT_getnexttoken (curline, token, i); /* Sanity check... this token should be "=" */ if (strcmp (token, "=")) { /* Error state, free the memory allocated */ SCRIPT_recursivefree (node); return; } /* This is where the real fun begins... */ /* we can begin to determine which of the 6 */ /* possibilities the node is now */ i = SCRIPT_getnexttoken (curline, token, i); if (!strncmp (token, "0x", 2)) { /* Found a hex digit! */ node->type = SCRIPTFLAG_HEX; node->data.number = strtol (token, NULL, 16); }else if (token[strlen(token) - 1] == 'f') { /* Found a float */ node->type = SCRIPTFLAG_FLOAT; node->data.floatnumber = atof(token); }else if (isdigit (token[0])) { /* Found a number! */ node->type = SCRIPTFLAG_DECIMAL; node->data.number = atoi (token); }else if (token[0] == '-' && isdigit (token[1])) { /* Found a negative number! */ node->type = SCRIPTFLAG_DECIMAL; node->data.number = atoi (token); //- FIX_00067: *.cfg parser fails to read negative values (as it could be for the Midi selection) // was node->data.number = 0; Can't find a reason for this. }else if (token[0] == '~') { /* Found a ... who knows */ node->type = SCRIPTFLAG_DECIMAL; node->data.number = -1; }else if (token[0] == '"') { char workbuf[128]; int r; /* Found one of possibly two strings */ strcpy (workbuf, token); while (token != NULL && workbuf[strlen(workbuf)-1] != '"') { i = SCRIPT_getnexttoken (curline, token, i); strcat (workbuf, " "); strcat (workbuf, token); } r = sscanf(workbuf, "\"%[^\"]\"", workbuf); if (r == 0) workbuf[0] = '\0'; node->type = SCRIPTFLAG_ONESTRING; node->data.string[0] = SCRIPT_copystring (workbuf); /* Check for a second string */ i = SCRIPT_getnexttoken (curline, token, i); if (token[0] == '"') { strcpy (workbuf, token); while (token != NULL && workbuf[strlen(workbuf)-1] != '"') { i = SCRIPT_getnexttoken (curline, token, i); strcat (workbuf, " "); strcat (workbuf, token); } r = sscanf(workbuf, "\"%[^\"]\"", workbuf); if (r == 0) workbuf[0] = '\0'; node->type = SCRIPTFLAG_TWOSTRING; node->data.string[1] = SCRIPT_copystring (workbuf); } } else { /* Error state! */ SCRIPT_recursivefree (node); } } static scriptnode_t *SCRIPT_findinchildren (scriptnode_t *parent, char *s) { scriptnode_t *cur = parent; if (cur == NULL) return NULL; cur = cur->child; if (cur == NULL) return NULL; while (cur != NULL) { if (!strcmp(cur->key, s)) break; cur = cur->sibling; } return cur; } /* ============== = = SCRIPT_Init = ============== */ int32 SCRIPT_Init( uint8_t * name ) { STUBBED("Init"); return -1; } /* ============== = = SCRIPT_Free = ============== */ void SCRIPT_Free( int32 scripthandle ) { /* STUBBED("Free"); */ if (scripthandle == -1) return; SCRIPT_recursivefree (script_headnode[scripthandle]); script_numscriptsopen--; } /* ============== = = SCRIPT_Parse = ============== */ int32 SCRIPT_Parse ( uint8_t *data, int32 length, char * name ) { STUBBED("Parse"); return -1; } /* ============== = = SCRIPT_Load = ============== */ int32 SCRIPT_Load ( char * filename ) { FILE *fp; char curline[128]; scriptnode_t *headnode = NULL; scriptnode_t *cur_subsection = NULL; if (script_numscriptsopen == MAX_SCRIPTS) return -1; /* The main program does not check for any sort of */ /* error in loading, so each SCRIPT_ function needs */ /* to check if the handle is -1 before doing anything */ fp = fopen (filename, "r"); if (fp == NULL) return -1; /* Start loading the script */ /* Loads and parse the entire file into a tree */ script_numscriptsopen++; /* script_nexthandle is the current handle until we increment it */ script_headnode[script_nexthandle] = SCRIPT_constructnode (); headnode = script_headnode[script_nexthandle]; memset (curline, 0, 128); while (fgets (curline, 128, fp)) { /* Skip comments */ if (curline[0] == ';') continue; /* Parse line */ /* We have two options... it starts with a [, making it */ /* a new subsection (child of headnode) or it starts with */ /* a letter, making it a child of a subsection. */ if (curline[0] == '[') { scriptnode_t *node; int i; /* Remove [] manually */ for (i = 0; i < 127; i++) curline[i] = curline[i+1]; for (i = 127; i >= 0; i--) { if (curline[i] == ']') { curline[i] = '\0'; break; } else { curline[i] = '\0'; } } /* Insert into head */ node = SCRIPT_constructnode (); node->type = SCRIPTFLAG_CATEGORY; node->key = SCRIPT_copystring (curline); SCRIPT_addchild (headnode, node); cur_subsection = node; /* printf ("Working in section \"%s\"\n", node->key); */ } else if (isalpha (curline[0])) { scriptnode_t *node; /* Ignore if not under a subsection */ if (cur_subsection == NULL) continue; node = SCRIPT_constructnode (); /* TODO: Parse line here */ SCRIPT_parseline (curline, node); if (node != NULL) { /* printf ("Adding node with key \"%s\"\n", node->key); */ SCRIPT_addchild (cur_subsection, node); } } memset (curline, 0, 128); } fclose (fp); return script_nexthandle++; /* postincrement is important here */ } /* ============== = = SCRIPT_Save = ============== */ void SCRIPT_Save (int32 scripthandle, char* filename) { FILE *fp; scriptnode_t *head; if(scripthandle >= MAX_SCRIPTS || scripthandle < 0) return; fp = fopen (filename, "w"); if (fp == NULL) return; head = script_headnode[scripthandle]; SCRIPT_recursivewrite (head, fp); fclose (fp); } /* ============== = = SCRIPT_NumberSections = ============== */ int32 SCRIPT_NumberSections( int32 scripthandle ) { STUBBED("NumberSections"); return -1; } /* ============== = = SCRIPT_Section = ============== */ uint8_t * SCRIPT_Section( int32 scripthandle, int32 which ) { STUBBED("Section"); return NULL; } /* ============== = = SCRIPT_NumberEntries = ============== */ int32 SCRIPT_NumberEntries( int32 scripthandle, char * sectionname ) { scriptnode_t *node = NULL; int32 entries = 0; if(scripthandle >= MAX_SCRIPTS || scripthandle < 0) return 0; node = script_headnode[scripthandle]; node = SCRIPT_findinchildren(node, sectionname); if(!node) return 0; for(node=node->child; node ; node=node->sibling) { ++entries; } return entries; } /* ============== = = SCRIPT_Entry = ============== */ char * SCRIPT_Entry( int32 scripthandle, char * sectionname, int32 which ) { scriptnode_t *node = NULL; int32 entrynum = 0; char * val = NULL; if(scripthandle >= MAX_SCRIPTS || scripthandle < 0) return ""; node = script_headnode[scripthandle]; node = SCRIPT_findinchildren(node,sectionname); if(!node) return ""; for(node=node->child; node ; node=node->sibling, ++entrynum) { if(entrynum == which) { val = node->key; break; } } return val; } /* ============== = = SCRIPT_GetRaw = ============== */ char * SCRIPT_GetRaw(int32 scripthandle, char * sectionname, char * entryname) { STUBBED("GetRaw"); return NULL; } /* ============== = = SCRIPT_GetString = ============== */ void SCRIPT_GetString ( int32 scripthandle, char * sectionname, char * entryname, char * dest ) { scriptnode_t *cur; /* STUBBED("GetString"); */ if (scripthandle == -1) return; cur = script_headnode[scripthandle]; cur = SCRIPT_findinchildren (cur, sectionname); cur = SCRIPT_findinchildren (cur, entryname); if (cur != NULL && cur->type == SCRIPTFLAG_ONESTRING) { strcpy (dest, cur->data.string[0]); #ifdef DEBUG_SCRIPLIB printf ("GetString: value for %s:%s is %s\n", sectionname, entryname, dest); #endif } } /* ============== = = SCRIPT_GetDoubleString = ============== */ void SCRIPT_GetDoubleString ( int32 scripthandle, char * sectionname, char * entryname, char * dest1, char * dest2 ) { scriptnode_t *cur; /* STUBBED("GetDoubleString"); */ if (scripthandle == -1) return; cur = script_headnode[scripthandle]; cur = SCRIPT_findinchildren (cur, sectionname); cur = SCRIPT_findinchildren (cur, entryname); if (cur != NULL && cur->type == SCRIPTFLAG_TWOSTRING) { strcpy (dest1, cur->data.string[0]); strcpy (dest2, cur->data.string[1]); #ifdef DEBUG_SCRIPLIB printf ("GetDoubleString: value for %s:%s is %s %s\n", sectionname, entryname, dest1, dest2); #endif } } /* ============== = = SCRIPT_GetNumber = ============== */ boolean SCRIPT_GetNumber ( int32 scripthandle, char * sectionname, char * entryname, int32 * number ) { scriptnode_t *cur; /* STUBBED("GetNumber"); */ if (scripthandle == -1) return false; cur = script_headnode[scripthandle]; cur = SCRIPT_findinchildren (cur, sectionname); cur = SCRIPT_findinchildren (cur, entryname); if (cur != NULL && cur->type == SCRIPTFLAG_DECIMAL) { *number = cur->data.number; #ifdef DEBUG_SCRIPLIB printf ("GetNumber: value for %s:%s is %ld\n", sectionname, entryname, *number); #endif } return (cur != NULL) ? true : false; } /* ============== = = SCRIPT_GetBoolean = ============== */ void SCRIPT_GetBoolean ( int32 scripthandle, uint8_t * sectionname, uint8_t * entryname, boolean * bool ) { STUBBED("GetBoolean"); } /* ============== = = SCRIPT_GetFloat = ============== */ boolean SCRIPT_GetFloat ( int32 scripthandle, char * sectionname, char * entryname, float * floatnumber ) { scriptnode_t *cur; if (scripthandle == -1) return false; cur = script_headnode[scripthandle]; cur = SCRIPT_findinchildren (cur, sectionname); cur = SCRIPT_findinchildren (cur, entryname); if (cur != NULL && cur->type == SCRIPTFLAG_FLOAT) { *floatnumber = cur->data.floatnumber; #ifdef DEBUG_SCRIPLIB printf ("GetFloat: value for %s:%s is %f\n", sectionname, entryname, *number); #endif } return (cur != NULL) ? true : false; } /* ============== = = SCRIPT_GetDouble = ============== */ void SCRIPT_GetDouble ( int32 scripthandle, char * sectionname, char * entryname, double * number ) { STUBBED("GetDouble"); } /* ============== = = SCRIPT_PutComment = ============== */ void SCRIPT_PutComment( int32 scripthandle, uint8_t * sectionname, uint8_t * comment ) { STUBBED("PutComment"); } /* ============== = = SCRIPT_PutEOL = ============== */ void SCRIPT_PutEOL( int32 scripthandle, uint8_t * sectionname ) { STUBBED("PutEOL"); } /* ============== = = SCRIPT_PutMultiComment = ============== */ void SCRIPT_PutMultiComment ( int32 scripthandle, uint8_t * sectionname, uint8_t * comment, ... ) { STUBBED("PutMultiComment"); } /* ============== = = SCRIPT_PutSection = ============== */ void SCRIPT_PutSection( int32 scripthandle, uint8_t * sectionname ) { STUBBED("PutSection"); } /* ============== = = SCRIPT_PutRaw = ============== */ void SCRIPT_PutRaw ( int32 scripthandle, uint8_t * sectionname, uint8_t * entryname, uint8_t * raw ) { STUBBED("PutRaw"); } /* ============== = = SCRIPT_PutString = ============== */ void SCRIPT_PutString ( int32 scripthandle, char * sectionname, char * entryname, char * string ) { scriptnode_t *head; scriptnode_t *section; scriptnode_t *node; if(scripthandle >= MAX_SCRIPTS || scripthandle < 0) return; head = script_headnode[scripthandle]; /* We're screwed if there's no head */ if (head == NULL) return; section = SCRIPT_findinchildren (head, sectionname); if (section == NULL) { /* Add the section if it does not exist */ section = SCRIPT_constructnode (); section->type = SCRIPTFLAG_CATEGORY; section->key = SCRIPT_copystring (sectionname); SCRIPT_addchild (head, section); } node = SCRIPT_findinchildren (section, entryname); if (node == NULL) { /* Add the section if it does not exist */ node = SCRIPT_constructnode (); node->type = SCRIPTFLAG_ONESTRING; node->key = SCRIPT_copystring (entryname); SCRIPT_addchild (section, node); } else { free (node->data.string[0]); } node->data.string[0] = SCRIPT_copystring (string); } /* ============== = = SCRIPT_PutDoubleString = ============== */ void SCRIPT_PutDoubleString ( int32 scripthandle, char * sectionname, char * entryname, char * string1, char * string2 ) { scriptnode_t *head; scriptnode_t *section; scriptnode_t *node; if(scripthandle >= MAX_SCRIPTS || scripthandle < 0) return; head = script_headnode[scripthandle]; /* We're screwed if there's no head */ if (head == NULL) return; section = SCRIPT_findinchildren (head, sectionname); if (section == NULL) { /* Add the section if it does not exist */ section = SCRIPT_constructnode (); section->type = SCRIPTFLAG_CATEGORY; section->key = SCRIPT_copystring (sectionname); SCRIPT_addchild (head, section); } node = SCRIPT_findinchildren (section, entryname); if (node == NULL) { /* Add the section if it does not exist */ node = SCRIPT_constructnode (); node->type = SCRIPTFLAG_TWOSTRING; node->key = SCRIPT_copystring (entryname); SCRIPT_addchild (section, node); } else { free (node->data.string[0]); free (node->data.string[1]); } node->data.string[0] = SCRIPT_copystring (string1); node->data.string[1] = SCRIPT_copystring (string2); } /* ============== = = SCRIPT_PutNumber = ============== */ void SCRIPT_PutNumber ( int32 scripthandle, char * sectionname, char * entryname, int32 number, boolean hexadecimal, boolean defaultvalue ) { /* DDOI - I don't know what "defaultvalue" is for so it's ignored */ scriptnode_t *head; scriptnode_t *section; scriptnode_t *node; if(scripthandle >= MAX_SCRIPTS || scripthandle < 0) return; head = script_headnode[scripthandle]; /* We're screwed if there's no head */ if (head == NULL) return; section = SCRIPT_findinchildren (head, sectionname); if (section == NULL) { /* Add the section if it does not exist */ section = SCRIPT_constructnode (); section->type = SCRIPTFLAG_CATEGORY; section->key = SCRIPT_copystring (sectionname); SCRIPT_addchild (head, section); } node = SCRIPT_findinchildren (section, entryname); if (node == NULL) { /* Add the section if it does not exist */ node = SCRIPT_constructnode (); node->key = SCRIPT_copystring (entryname); SCRIPT_addchild (section, node); } if (hexadecimal) node->type = SCRIPTFLAG_HEX; else node->type = SCRIPTFLAG_DECIMAL; node->data.number = number; } /* ============== = = SCRIPT_PutBoolean = ============== */ void SCRIPT_PutBoolean ( int32 scripthandle, uint8_t * sectionname, uint8_t * entryname, boolean bool ) { STUBBED("PutBoolean"); } /* ============== = = SCRIPT_PutDouble = ============== */ void SCRIPT_PutDouble ( int32 scripthandle, uint8_t * sectionname, uint8_t * entryname, double number, boolean defaultvalue ) { STUBBED("PutDouble"); }