/* #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 */ #ifdef HAVE_CONFIG_H # include "config.h" #endif #include #include #include "QF/sys.h" #include "QF/dstring.h" #include "QF/hash.h" #include "QF/cbuf.h" #include "QF/va.h" #include "QF/gib.h" #include "gib_buffer.h" #include "gib_tree.h" #include "gib_function.h" #include "gib_vars.h" hashtab_t *gib_functions = 0; /* Hashtable callbacks */ static const char * GIB_Function_Get_Key (const void *ele, void *ptr) { return ((gib_function_t *) ele)->name; } static void GIB_Function_Free (void *ele, void *ptr) { gib_function_t *func = (gib_function_t *) ele; dstring_delete (func->text); free ((void *) func->name); if (func->program) GIB_Tree_Free_Recursive (func->program); if (func->script && !(--func->script->refs)) { free ((void *) func->script->text); free ((void *) func->script->file); free (func->script); } free (func); } /* GIB_Function_New Builds a new function struct and returns a pointer to it. */ static void afree (void *data, void *unused) { free (data); }; static gib_function_t * GIB_Function_New (const char *name) { gib_function_t *new = calloc (1, sizeof (gib_function_t)); new->text = dstring_newstr (); new->name = strdup (name); new->arglist = llist_new (afree, NULL, NULL); return new; } /* GIB_Function_Define Sets the program and text of a GIB function, allocating one and adding it to the functions hash if needed. */ gib_function_t * GIB_Function_Define (const char *name, const char *text, gib_tree_t * program, gib_script_t * script, hashtab_t * globals) { gib_function_t *func; GIB_Tree_Ref (&program); if (script) script->refs++; if (!gib_functions) gib_functions = Hash_NewTable (1024, GIB_Function_Get_Key, GIB_Function_Free, 0); func = Hash_Find (gib_functions, name); if (func) { dstring_clearstr (func->text); GIB_Tree_Unref (&func->program); if (func->script && !(--func->script->refs)) { free ((void *) func->script->text); free ((void *) func->script->file); free (func->script); } } else { func = GIB_Function_New (name); Hash_Add (gib_functions, func); } dstring_appendstr (func->text, text); func->program = program; func->globals = globals; func->script = script; return func; } /* GIB_Function_Find Looks up a function in the function hash and returns a pointer to it on success, 0 otherwise */ gib_function_t * GIB_Function_Find (const char *name) { if (!gib_functions) return 0; return (gib_function_t *) Hash_Find (gib_functions, name); } static cbuf_t *g_fpa_cbuf; static const char **g_fpa_args; static unsigned int g_fpa_argc; static hashtab_t *g_fpa_zero = 0; static unsigned int g_fpa_i, g_fpa_ind; static qboolean fpa_iterate (char *arg, llist_node_t *node) { gib_var_t *var = GIB_Var_Get_Complex (&GIB_DATA(g_fpa_cbuf)->locals, &g_fpa_zero, arg, &g_fpa_ind, true); if (!var->array[0].value) var->array[0].value = dstring_newstr (); dstring_copystr (var->array[0].value, g_fpa_args[g_fpa_i]); g_fpa_i++; return g_fpa_i < g_fpa_argc; } static void GIB_Function_Prepare_Args (cbuf_t * cbuf, const char **args, unsigned int argc, llist_t *arglist) { gib_var_t *var; unsigned int i; static char argss[] = "args"; g_fpa_cbuf = cbuf; g_fpa_args = args; g_fpa_argc = argc; g_fpa_i = 1; llist_iterate (arglist, LLIST_ICAST (fpa_iterate)); var = GIB_Var_Get_Complex (&GIB_DATA (cbuf)->locals, &g_fpa_zero, argss, &g_fpa_ind, true); var->array = realloc (var->array, sizeof (struct gib_varray_s) * argc); memset (var->array + 1, 0, (argc - 1) * sizeof (struct gib_varray_s)); var->size = argc; for (i = 0; i < argc; i++) { if (var->array[i].value) dstring_clearstr (var->array[i].value); else var->array[i].value = dstring_newstr (); dstring_appendstr (var->array[i].value, args[i]); } } static cbuf_t *g_fpad_cbuf; static dstring_t **g_fpad_args; static unsigned int g_fpad_argc; static hashtab_t *g_fpad_zero = 0; static unsigned int g_fpad_i, g_fpad_ind; static qboolean fpad_iterate (char *arg, llist_node_t *node) { gib_var_t *var; var = GIB_Var_Get_Complex (&GIB_DATA(g_fpad_cbuf)->locals, &g_fpad_zero, arg, &g_fpad_ind, true); if (!var->array[0].value) var->array[0].value = dstring_newstr (); dstring_copystr (var->array[0].value, g_fpad_args[g_fpad_i]->str); g_fpad_i++; return g_fpad_i < g_fpad_argc; } static void GIB_Function_Prepare_Args_D (cbuf_t * cbuf, dstring_t **args, unsigned int argc, llist_t *arglist) { unsigned int i; gib_var_t *var; static char argss[] = "args"; g_fpad_cbuf = cbuf; g_fpad_args = args; g_fpad_argc = argc; i = 1; llist_iterate (arglist, LLIST_ICAST (fpad_iterate)); var = GIB_Var_Get_Complex (&GIB_DATA (cbuf)->locals, &g_fpad_zero, argss, &g_fpad_ind, true); var->array = realloc (var->array, sizeof (struct gib_varray_s) * argc); memset (var->array + 1, 0, (argc - 1) * sizeof (struct gib_varray_s)); var->size = argc; for (i = 0; i < argc; i++) { if (var->array[i].value) dstring_clearstr (var->array[i].value); else var->array[i].value = dstring_newstr (); dstring_appendstr (var->array[i].value, args[i]->str); } } /* GIB_Function_Execute Prepares a buffer to execute a GIB function with certain arguments */ int GIB_Function_Execute (cbuf_t * cbuf, gib_function_t * func, const char ** args, unsigned int argc) { if (argc < func->minargs) return -1; GIB_Tree_Ref (&func->program); if (func->script) func->script->refs++; GIB_Buffer_Set_Program (cbuf, func->program); GIB_DATA (cbuf)->script = func->script; GIB_DATA (cbuf)->globals = func->globals; GIB_Function_Prepare_Args (cbuf, args, argc, func->arglist); return 0; } int GIB_Function_Execute_D (cbuf_t * cbuf, gib_function_t * func, dstring_t ** args, unsigned int argc) { if (argc < func->minargs) return -1; GIB_Tree_Ref (&func->program); if (func->script) func->script->refs++; GIB_Buffer_Set_Program (cbuf, func->program); GIB_DATA (cbuf)->script = func->script; GIB_DATA (cbuf)->globals = func->globals; GIB_Function_Prepare_Args_D (cbuf, args, argc, func->arglist); return 0; }