/* #FILENAME# #DESCRIPTION# Copyright (C) 2002 #AUTHOR# Author: #AUTHOR# Date: #DATE# This program 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 along with this program; if not, write to: Free Software Foundation, Inc. 59 Temple Place - Suite 330 Boston, MA 02111-1307, USA */ static const char rcsid[] = "$Id$"; #ifdef HAVE_CONFIG_H # include "config.h" #endif #include #include #include #include "QF/dstring.h" #include "QF/cbuf.h" #include "QF/cvar.h" #include "QF/gib_buffer.h" #include "QF/gib_parse.h" #include "QF/gib_vars.h" #include "exp.h" int GIB_Process_Index (dstring_t *index, unsigned int pos, int *i1, int *i2) { int i, v1, v2; char *p; for (i = pos; index->str[i] != ']'; i++) if (!index->str[i]) { Cbuf_Error ("parse", "Could not find matching ["); return -1; } v1 = atoi (index->str+pos+1); if ((p = strchr (index->str+pos, ':'))) { if (*(p+1) == ']') v2 = -1; else { v2 = atoi (p+1); if (v2 < 0) v2--; } } else v2 = v1; dstring_snip (index, pos, i - pos + 1); *i1 = v1; *i2 = v2; return 0; } unsigned int GIB_Process_Variable (struct dstring_s *dstr, unsigned int pos, qboolean tolerant) { cvar_t *cvar; const char *str; char *p, c; for (p = dstr->str+pos+1; tolerant ? *p : isalnum ((byte)*p) || *p == '_'; p++); c = *p; *p = 0; if ((str = GIB_Var_Get_Local (cbuf_active, dstr->str+pos+1))) ; // yay for us else if ((str = GIB_Var_Get_Global (dstr->str+pos+1))) ; // yay again else if ((cvar = Cvar_FindVar (dstr->str+pos+1))) str = cvar->string; else str = 0; *p = c; if (str) dstring_replace (dstr, pos, p - dstr->str - pos, str, strlen(str)); else dstring_snip (dstr, pos, p - dstr->str - pos); return str ? strlen (str) : 0; } int GIB_Process_Math (struct dstring_s *token) { double value; value = EXP_Evaluate (token->str); if (EXP_ERROR) { Cbuf_Error ("math", "Expression \"%s\" caused an error:\n%s", token->str, EXP_GetErrorMsg()); return -1; } else { dstring_clearstr (token); dsprintf (token, "%.10g", value); } return 0; } int GIB_Process_Embedded (struct dstring_s *token) { cbuf_t *sub; int i, n, m, i1, i2, ofs = 0; char c = 0, *p; dstring_t *var = dstring_newstr (); qboolean index; if (GIB_DATA(cbuf_active)->ret.waiting) { if (!GIB_DATA(cbuf_active)->ret.available) { GIB_DATA(cbuf_active)->ret.waiting = false; Cbuf_Error ("return", "Embedded command did not return a value."); return -1; } i = GIB_DATA(cbuf_active)->ret.token_pos; // Jump to the right place } else i = 0; for (; token->str[i]; i++) { if (token->str[i] == '`' || (token->str[i] == '$' && token->str[i+1] == '(')) { n = i; switch (token->str[i]) { case '`': if ((c = GIB_Parse_Match_Backtick (token->str, &i))) { Cbuf_Error ("parse", "Could not find matching %c", c); return -1; } break; case '$': i++; ofs = 1; if ((c = GIB_Parse_Match_Paren (token->str, &i))) { Cbuf_Error ("parse", "Could not find matching %c", c); return -1; } } if (GIB_DATA(cbuf_active)->ret.available) { dstring_replace (token, n, i-n+1, GIB_DATA(cbuf_active)->ret.retval->str, strlen(GIB_DATA(cbuf_active)->ret.retval->str)); i = n + strlen(GIB_DATA(cbuf_active)->ret.retval->str) - 1; GIB_DATA(cbuf_active)->ret.waiting = false; GIB_DATA(cbuf_active)->ret.available = false; } else { sub = Cbuf_New (&gib_interp); GIB_DATA(sub)->type = GIB_BUFFER_PROXY; GIB_DATA(sub)->locals = GIB_DATA(cbuf_active)->locals; dstring_insert (sub->buf, 0, token->str+n+ofs+1, i-n-ofs-1); if (cbuf_active->down) Cbuf_DeleteStack (cbuf_active->down); cbuf_active->down = sub; sub->up = cbuf_active; cbuf_active->state = CBUF_STATE_STACK; GIB_DATA(cbuf_active)->ret.waiting = true; GIB_DATA(cbuf_active)->ret.token_pos = n; return -1; } } else if (token->str[i] == '$') { index = false; if (token->str[i+1] == '{') { n = i+1; if ((c = GIB_Parse_Match_Brace (token->str, &n))) { Cbuf_Error ("parse", "Could not find match for %c", c); goto ERROR; } if (token->str[n+1] == '[') { // Cut index out and put it with the variable m = n+1; index = true; if ((c = GIB_Parse_Match_Index (token->str, &m))) { Cbuf_Error ("parse", "Could not find match for %c", c); goto ERROR; } dstring_insert (var, 0, token->str+n+1, m-n); dstring_snip (token, n+1, m-n); } n -= i; dstring_insert (var, 0, token->str+i+2, n-2); dstring_insertstr (var, 0, "$"); n++; } else { for (n = 1; isalnum((byte)token->str[i+n]) || token->str[i+n] == '$' || token->str[i+n] == '_' || token->str[i+n] == '[' || token->str[i+n] == ':'; n++) { if (token->str[i+n] == '[') { while (token->str[i+n] && token->str[i+n] != ']') n++; if (!token->str[i+n]) { Cbuf_Error ("parse", "Could not find match for ["); c = '['; goto ERROR; } } } dstring_insert (var, 0, token->str+i, n); // extract it } for (m = 1; var->str[m]; m++) { if (var->str[m] == '$') m += GIB_Process_Variable (var, m, false) - 1; } i1 = -1; if (var->str[strlen(var->str)-1] == ']' && (p = strrchr (var->str, '['))) { index = true; if (GIB_Process_Index(var, p-var->str, &i1, &i2)) { c = '['; goto ERROR; } } GIB_Process_Variable (var, 0, true); if (index) { if (i1 < 0) { i1 += strlen(var->str); if (i1 < 0) i1 = 0; } else if (i1 >= strlen (var->str)) i1 = strlen(var->str)-1; if (i2 < 0) { i2 += strlen(var->str); if (i2 < 0) i2 = 0; } else if (i2 >= strlen (var->str)) i2 = strlen(var->str)-1; if (i2 < i1) dstring_clearstr (var); else { if (i2 < strlen(var->str)-1) // Snip everthing after index 2 dstring_snip (var, i2+1, strlen(var->str)-i2-1); if (i1 > 0) // Snip everything before index 1 dstring_snip (var, 0, i1); } } dstring_replace (token, i, n, var->str, strlen(var->str)); i += strlen (var->str) - 1; dstring_clearstr (var); } } return 0; dstring_delete (var); ERROR: dstring_delete (var); return c ? -1 : 0; } void GIB_Process_Escapes (dstring_t *token) { int i; for (i = 0; token->str[i]; i++) { if (token->str[i] == '\\') { if (strlen(token->str+i+1) > 2 && isdigit ((byte) token->str[i+1]) && isdigit ((byte) token->str[i+2]) && isdigit ((byte) token->str[i+3])) { unsigned int num; num = 100 * (token->str[i+1] - '0') + 10 * (token->str[i+2] - '0') + (token->str[i+3] - '0'); if (num > 255) dstring_snip (token, i, 4); else { dstring_snip (token, i, 3); token->str[i] = (char) num; } } else switch (token->str[i+1]) { case 'n': token->str[i+1] = '\n'; goto snip; case 't': token->str[i+1] = '\t'; goto snip; case 'r': token->str[i+1] = '\r'; goto snip; case '\"': case '\\': goto snip; default: break; snip: dstring_snip (token, i, 1); } } } } int GIB_Process_Token (dstring_t *token, char delim) { if (delim != '{' && delim != '\"') if (GIB_Process_Embedded (token)) return -1; if (delim == '(') if (GIB_Process_Math (token)) return -1; if (delim == '\"') GIB_Process_Escapes (token); return 0; }