/* #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 #include #include #include #include "QF/quakeio.h" #include "QF/quakefs.h" #include "QF/zone.h" #include "QF/va.h" #include "QF/sys.h" #include "QF/cmd.h" #include "QF/cbuf.h" #include "QF/hash.h" #include "QF/dstring.h" #include "QF/gib_parse.h" #include "QF/gib_builtin.h" #include "QF/gib_buffer.h" #include "QF/gib_function.h" #include "QF/gib_vars.h" #include "QF/gib_thread.h" hashtab_t *gib_builtins; /* Hashtable callbacks */ const char * GIB_Builtin_Get_Key (void *ele, void *ptr) { return ((gib_builtin_t *)ele)->name->str; } void GIB_Builtin_Free (void *ele, void *ptr) { gib_builtin_t *b; b = (gib_builtin_t *) ele; dstring_delete (b->name); free (b); } /* GIB_Builtin_Add Registers a new builtin GIB command. */ void GIB_Builtin_Add (const char *name, void (*func) (void), enum gib_builtin_type_e type) { gib_builtin_t *new; if (!gib_builtins) gib_builtins = Hash_NewTable (1024, GIB_Builtin_Get_Key, GIB_Builtin_Free, 0); new = calloc (1, sizeof (gib_builtin_t)); new->func = func; new->name = dstring_newstr(); new->type = type; dstring_appendstr (new->name, name); Hash_Add (gib_builtins, new); } /* GIB_Builtin_Find Looks up the builtin name in the builtin hash, returning a pointer to the struct on success, zero otherwise. */ gib_builtin_t * GIB_Builtin_Find (const char *name) { if (!gib_builtins) return 0; return (gib_builtin_t *) Hash_Find (gib_builtins, name); } /* GIB_Argc Returns the number of arguments available in the current buffer. */ unsigned int GIB_Argc (void) { return cbuf_active->args->argc; } /* Returns a specific argument in the current buffer. */ const char * GIB_Argv (unsigned int arg) { if (arg < cbuf_active->args->argc) return cbuf_active->args->argv[arg]->str; else return ""; } /* GIB_Args Returns a pointer to the composite command line starting at token arg. */ const char * GIB_Args (unsigned int arg) { if (arg < cbuf_active->args->argc) return cbuf_active->args->args[arg]; else return ""; } /* GIB_Arg_Strip_Delim Strips any wrapping characters off of the specified argument. Useful for GIB_BUILTIN_NOPROCESS or GIB_BUILTIN_FIRSTONLY builtins. */ void GIB_Arg_Strip_Delim (unsigned int arg) { char *p = cbuf_active->args->argv[arg]->str; if (*p == '{' || *p == '\"') { dstring_snip (cbuf_active->args->argv[arg], 0, 1); p[strlen(p)-1] = 0; } } void GIB_Return (const char *str) { if (GIB_DATA(cbuf_active)->type != GIB_BUFFER_PROXY) return; dstring_clearstr (GIB_DATA(cbuf_active->up)->ret.retval); dstring_appendstr (GIB_DATA(cbuf_active->up)->ret.retval, str); GIB_DATA(cbuf_active->up)->ret.available = true; } /* GIB Builtin functions See GIB docs for information. */ void GIB_Function_f (void) { if (GIB_Argc () != 3) Cbuf_Error ("syntax", "function: invalid syntax\n" "usage: function function_name {program}"); else GIB_Function_Define (GIB_Argv(1), GIB_Argv(2)); } void GIB_FunctionDotGet_f (void) { if (GIB_Argc () != 2) Cbuf_Error ("syntax", "function.get: invalid syntax\n" "usage: function.get function_name"); else { gib_function_t *f; if ((f = GIB_Function_Find (GIB_Argv (1)))) GIB_Return (f->program->str); else GIB_Return (""); } } void GIB_Local_f (void) { if (GIB_Argc () != 2) Cbuf_Error ("syntax", "lset: invalid syntax\n" "usage: local variable"); else GIB_Var_Set_Local (cbuf_active, GIB_Argv(1), ""); } void GIB_Global_f (void) { if (GIB_Argc () != 2) Cbuf_Error ("syntax", "global: invalid syntax\n" "usage: global variable"); else { char *a = strdup (GIB_Argv(1)); GIB_Var_Set_Global (a, ""); free(a); } } void GIB_Return_f (void) { cbuf_t *sp; if (GIB_Argc () > 2) Cbuf_Error ("syntax", "return: invalid syntax\n" "usage: return "); else { sp = cbuf_active; while (sp->interpreter == &gib_interp && GIB_DATA(sp)->type == GIB_BUFFER_LOOP) { // Get out of loops GIB_DATA(sp)->type = GIB_BUFFER_PROXY; dstring_clearstr (sp->buf); dstring_clearstr (sp->line); sp = sp->up; } dstring_clearstr (sp->buf); dstring_clearstr (sp->line); if (GIB_Argc () == 1) return; if (!sp->up || // Nothing above us on the stack GIB_DATA(sp->up)->type != GIB_BUFFER_PROXY || // No proxy buffer created !sp->up->up || // Nothing above proxy buffer on the stack sp->up->up->interpreter != &gib_interp || // Not a GIB buffer !GIB_DATA(sp->up->up)->ret.waiting) // Buffer doesn't want a return value Sys_Printf("Warning: unwanted return value discarded.\n"); // Not a serious error else { dstring_clearstr (GIB_DATA(sp->up->up)->ret.retval); dstring_appendstr (GIB_DATA(sp->up->up)->ret.retval, GIB_Argv(1)); GIB_DATA(sp->up->up)->ret.available = true; } } } void GIB_If_f (void) { int condition; if ((!strcmp (GIB_Argv (3), "else") && GIB_Argc() >= 5) || // if condition {program} else ... (GIB_Argc() == 3)) { // if condition {program} condition = atoi(GIB_Argv(1)); if (!strcmp (GIB_Argv(0), "ifnot")) condition = !condition; if (condition) { GIB_Arg_Strip_Delim (2); Cbuf_InsertText (cbuf_active, GIB_Argv(2)); } else if (GIB_Argc() == 5) { GIB_Arg_Strip_Delim (4); Cbuf_InsertText (cbuf_active, GIB_Argv(4)); } else if (GIB_Argc() > 5) Cbuf_InsertText (cbuf_active, GIB_Args (4)); } else Cbuf_Error ("syntax", "if: invalid syntax\n" "usage: if condition {program} [else ...]" ); } void GIB_While_f (void) { if (GIB_Argc() != 3) { Cbuf_Error ("syntax", "while: invalid syntax\n" "usage: while condition {program}" ); } else { cbuf_t *sub = Cbuf_New (&gib_interp); GIB_DATA(sub)->type = GIB_BUFFER_LOOP; GIB_DATA(sub)->locals = GIB_DATA(cbuf_active)->locals; GIB_DATA(sub)->loop_program = dstring_newstr (); if (cbuf_active->down) Cbuf_DeleteStack (cbuf_active->down); cbuf_active->down = sub; sub->up = cbuf_active; GIB_Arg_Strip_Delim (2); dstring_appendstr (GIB_DATA(sub)->loop_program, va("ifnot %s break;%s", GIB_Argv (1), GIB_Argv (2))); Cbuf_AddText (sub, GIB_DATA(sub)->loop_program->str); cbuf_active->state = CBUF_STATE_STACK; } } void GIB___For_f (void) { char *end = 0, old = 0; if (!GIB_DATA(cbuf_active)->loop_list_p[0]) { Cbuf_InsertText (cbuf_active, "break;"); return; } for (end = GIB_DATA(cbuf_active)->loop_list_p; *end && !isspace((byte) *end); end++); if (*end) { old = *end; *end = 0; } GIB_Var_Set_Local (cbuf_active, GIB_DATA(cbuf_active)->loop_var_p, GIB_DATA(cbuf_active)->loop_list_p); if (old) *end = old; while (isspace ((byte)*end)) end++; GIB_DATA(cbuf_active)->loop_list_p = end; } void GIB_For_f (void) { if (GIB_Argc() != 5 || strcmp ("in", GIB_Argv (2))) { Cbuf_Error ("syntax", "for: invalid syntax\n" "usage: for variable in list {program}" ); } else if (GIB_Argv (3)[0]) { char *ll; cbuf_t *sub = Cbuf_New (&gib_interp); GIB_DATA(sub)->type = GIB_BUFFER_LOOP; GIB_DATA(sub)->locals = GIB_DATA(cbuf_active)->locals; GIB_DATA(sub)->loop_program = dstring_newstr (); GIB_DATA(sub)->loop_data = dstring_newstr (); if (cbuf_active->down) Cbuf_DeleteStack (cbuf_active->down); cbuf_active->down = sub; sub->up = cbuf_active; dstring_appendstr (GIB_DATA(sub)->loop_data, GIB_Argv(3)); dstring_append (GIB_DATA(sub)->loop_data, GIB_Argv(1), strlen(GIB_Argv(1))+1); ll = GIB_DATA(sub)->loop_data->str; while (isspace ((byte) *ll)) ll++; GIB_DATA(sub)->loop_list_p = ll; GIB_DATA(sub)->loop_var_p = GIB_DATA(sub)->loop_data->str + strlen(GIB_Argv(3))+1; dstring_appendstr (GIB_DATA(sub)->loop_program, "__for;"); dstring_appendstr (GIB_DATA(sub)->loop_program, GIB_Argv(4)); Cbuf_AddText (sub, GIB_DATA(sub)->loop_program->str); cbuf_active->state = CBUF_STATE_STACK; } } void GIB_Break_f (void) { if (GIB_DATA(cbuf_active)->type != GIB_BUFFER_LOOP) Cbuf_Error ("syntax", "break attempted outside of a loop" ); else { GIB_DATA(cbuf_active)->type = GIB_BUFFER_PROXY; // If we set it to normal locals will get freed dstring_clearstr (cbuf_active->buf); } } void GIB_Runexported_f (void) { gib_function_t *f; if (!(f = GIB_Function_Find (Cmd_Argv (0)))) Sys_Printf ("Error: No function found for exported command \"%s\".\n" "This is most likely a bug, please report it to" "The QuakeForge developers.", Cmd_Argv(0)); else { cbuf_t *sub = Cbuf_New (&gib_interp); GIB_Function_Execute (sub, f, cbuf_active->args); cbuf_active->down = sub; sub->up = cbuf_active; cbuf_active->state = CBUF_STATE_STACK; } } void GIB_Export_f (void) { gib_function_t *f; if (GIB_Argc() != 2) Cbuf_Error ("syntax", "export: invalid syntax\n" "usage: export function"); else if (!(f = GIB_Function_Find (GIB_Argv (1)))) Cbuf_Error ("existance", "export: function '%s' not found", GIB_Argv (1)); else if (!f->exported) { Cmd_AddCommand (f->name->str, GIB_Runexported_f, "Exported GIB function."); f->exported = true; } } void GIB_String_Length_f (void) { if (GIB_Argc() != 2) Cbuf_Error ("syntax", "string.length: invalid syntax\n" "usage: string.length string"); else GIB_Return (va("%i", strlen(GIB_Argv(1)))); } void GIB_String_Equal_f (void) { if (GIB_Argc() != 3) Cbuf_Error ("syntax", "string.length: invalid syntax\n" "usage: string.equal string1 string2"); else GIB_Return (va("%i", !strcmp(GIB_Argv(1), GIB_Argv(2)))); } void GIB_Thread_Create_f (void) { if (GIB_Argc() != 2) Cbuf_Error ("syntax", "thread.create: invalid syntax\n" "usage: thread.create program"); else { gib_thread_t *thread = GIB_Thread_New (); Cbuf_AddText (thread->cbuf, GIB_Argv(1)); GIB_Thread_Add (thread); GIB_Return (va("%lu", thread->id)); } } void GIB_Thread_Kill_f (void) { if (GIB_Argc() != 2) Cbuf_Error ("syntax", "thread.kill: invalid syntax\n" "usage: thread.kill id"); else { gib_thread_t *thread; cbuf_t *cur; unsigned long int id = strtoul (GIB_Argv(1), 0, 10); thread = GIB_Thread_Find (id); if (!thread) { Cbuf_Error ("thread", "thread.kill: thread %ul does not exist.", id); return; } for (cur = thread->cbuf; cur; cur = cur->down) { // Kill all loops if (GIB_DATA(cur)->type == GIB_BUFFER_LOOP) GIB_DATA(cur)->type = GIB_BUFFER_PROXY; // Proxy to prevent shared locals being freed dstring_clearstr (cur->line); dstring_clearstr (cur->buf); } } } /* File access */ int GIB_CollapsePath (char *str) { char *d, *p, *path; p = path = str; while (*p) { if (p[0] == '.') { if (p[1] == '.') { if (p[2] == '/' || p[2] == 0) { d = p; if (d > path) d--; while (d > path && d[-1] != '/') d--; if (d == path && d[0] == '.' && d[1] == '.' && (d[2] == '/' || d[2] == '0')) { p += 2 + (p[2] == '/'); continue; } strcpy (d, p + 2 + (p[2] == '/')); p = d + (d != path); } } else if (p[1] == '/') { strcpy (p, p + 2); continue; } else if (p[1] == 0) { p[0] = 0; } } while (*p && *p != '/') p++; if (*p == '/') p++; } if ((!path[0]) || (path[0] == '.' && path[1] == '.' && (path[2] == '/' || path[2] == 0)) || (path[strlen (path) - 1] == '/') || path[0] == '~') { return 0; } return 1; } void GIB_File_Read_f (void) { char *path, *contents; int mark; if (GIB_Argc () != 2) { Cbuf_Error ("syntax", "file.read: invalid syntax\n" "usage: file.read path_and_filename"); return; } path = cbuf_active->args->argv[1]->str; if (!GIB_CollapsePath (path)) { Cbuf_Error ("access" "file.read: access to %s denied", path); return; } mark = Hunk_LowMark (); contents = (char *) COM_LoadHunkFile (path); if (!contents) { Cbuf_Error ("file", "file.read: could not open %s for reading: %s", path, strerror (errno)); return; } GIB_Return (contents); Hunk_FreeToLowMark (mark); } void GIB_File_Write_f (void) { QFile *file; char *path; if (GIB_Argc () != 3) { Cbuf_Error ("syntax", "file.write: invalid syntax\n" "usage: file.write path_and_filename data"); return; } path = cbuf_active->args->argv[1]->str; if (!GIB_CollapsePath (path)) { Cbuf_Error ("access" "file.write: access to %s denied", path); return; } if (!(file = Qopen (va ("%s/%s", com_gamedir, path), "w"))) { Cbuf_Error ("file", "file.write: could not open %s for writing: %s", path, strerror (errno)); return; } Qprintf (file, "%s", GIB_Argv (2)); Qclose (file); } void GIB_File_Find_f (void) { DIR *directory; struct dirent *entry; char *path; dstring_t *list; if (GIB_Argc () < 2 || GIB_Argc () > 3) { Cbuf_Error ("syntax", "file.find: invalid syntax\n" "usage: file.find glob [path]"); return; } if (GIB_Argc () == 3) { path = cbuf_active->args->argv[2]->str; if (!GIB_CollapsePath (path)) { Cbuf_Error ("access" "file.find: access to %s denied", path); return; } } directory = opendir (va ("%s/%s", com_gamedir, GIB_Argv (2))); if (!directory) { Cbuf_Error ("file", "file.find: could not open directory %s: %s", GIB_Argv (2), strerror (errno)); return; } list = dstring_newstr (); while ((entry = readdir (directory))) { if (!fnmatch (GIB_Argv (1), entry->d_name, 0)) { dstring_appendstr (list, " "); dstring_appendstr (list, entry->d_name); } } if (list->str[0]) GIB_Return (list->str + 1); else GIB_Return (""); dstring_delete (list); } void GIB_Range_f (void) { double i, inc, start, limit; dstring_t *dstr; if (GIB_Argc () < 3 || GIB_Argc () > 4) { Cbuf_Error ("syntax", "range: invalid syntax\n" "range: lower upper [step]"); return; } limit = atof(GIB_Argv(2)); start = atof(GIB_Argv(1)); if (GIB_Argc () == 4) inc = atof(GIB_Argv(3)); else inc = limit < start ? -1.0 : 1.0; if (inc == 0.0) { GIB_Return (""); return; } dstr = dstring_newstr (); for (i = atof(GIB_Argv(1)); inc < 0 ? i >= limit : i <= limit; i += inc) dstring_appendstr (dstr, va(" %.10g", i)); GIB_Return (dstr->str[0] ? dstr->str+1 : ""); dstring_delete (dstr); } void GIB_Print_f (void) { if (GIB_Argc() != 2) { Cbuf_Error ("syntax", "print: invalid syntax\n" "usage: print text"); return; } Sys_Printf ("%s", GIB_Argv(1)); } void GIB_Builtin_Init (void) { gib_globals = Hash_NewTable (512, GIB_Var_Get_Key, GIB_Var_Free, 0); GIB_Builtin_Add ("function", GIB_Function_f, GIB_BUILTIN_NORMAL); GIB_Builtin_Add ("function.get", GIB_FunctionDotGet_f, GIB_BUILTIN_NORMAL); GIB_Builtin_Add ("export", GIB_Export_f, GIB_BUILTIN_NORMAL); GIB_Builtin_Add ("local", GIB_Local_f, GIB_BUILTIN_NORMAL); GIB_Builtin_Add ("global", GIB_Global_f, GIB_BUILTIN_NORMAL); GIB_Builtin_Add ("return", GIB_Return_f, GIB_BUILTIN_NORMAL); GIB_Builtin_Add ("if", GIB_If_f, GIB_BUILTIN_FIRSTONLY); GIB_Builtin_Add ("ifnot", GIB_If_f, GIB_BUILTIN_FIRSTONLY); GIB_Builtin_Add ("while", GIB_While_f, GIB_BUILTIN_NOPROCESS); GIB_Builtin_Add ("for", GIB_For_f, GIB_BUILTIN_NORMAL); GIB_Builtin_Add ("__for", GIB___For_f, GIB_BUILTIN_NORMAL); GIB_Builtin_Add ("break", GIB_Break_f, GIB_BUILTIN_NORMAL); GIB_Builtin_Add ("string.length", GIB_String_Length_f, GIB_BUILTIN_NORMAL); GIB_Builtin_Add ("string.equal", GIB_String_Equal_f, GIB_BUILTIN_NORMAL); GIB_Builtin_Add ("thread.create", GIB_Thread_Create_f, GIB_BUILTIN_NORMAL); GIB_Builtin_Add ("thread.kill", GIB_Thread_Kill_f, GIB_BUILTIN_NORMAL); GIB_Builtin_Add ("file.read", GIB_File_Read_f, GIB_BUILTIN_NORMAL); GIB_Builtin_Add ("file.write", GIB_File_Write_f, GIB_BUILTIN_NORMAL); GIB_Builtin_Add ("file.find", GIB_File_Find_f, GIB_BUILTIN_NORMAL); GIB_Builtin_Add ("range", GIB_Range_f, GIB_BUILTIN_NORMAL); GIB_Builtin_Add ("print", GIB_Print_f, GIB_BUILTIN_NORMAL); }