/* gib_parse.c GIB parser functions Copyright (C) 2002 Brian Koropoff Author: Brian Koropoff 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 "QF/sys.h" #include "QF/dstring.h" #include "QF/cmd.h" #include "QF/cbuf.h" #include "QF/gib_buffer.h" #include "QF/gib_process.h" #include "QF/gib_builtin.h" #include "QF/gib_function.h" #include "QF/gib_vars.h" #include "QF/gib_parse.h" // Interpreter structure and prototypes static void GIB_Parse_Execute_Line (cbuf_t *cbuf); cbuf_interpreter_t gib_interp = { GIB_Parse_Extract_Line, GIB_Parse_Tokenize_Line, GIB_Parse_Execute_Line, GIB_Buffer_Construct, GIB_Buffer_Destruct, GIB_Buffer_Reset }; /* GIB_Escaped Returns true if character i in str is escaped with a backslash (and the backslash is not itself escaped). */ inline qboolean GIB_Escaped (const char *str, int i) { int n, c; if (!i) return 0; for (n = i - 1, c = 0; n >= 0 && str[n] == '\\'; n--, c++); return c & 1; } /* GIB_Parse_Match_Dquote Progresses an index variable through a string until a double quote is reached. Returns 0 on success, or the character it could not match otherwise */ char GIB_Parse_Match_Dquote (const char *str, unsigned int *i) { unsigned int n = *i; for ((*i)++; str[*i]; (*i)++) { if (str[*i] == '\n') break; else if (str[*i] == '\"' && !GIB_Escaped (str, *i)) return 0; } *i = n; return '\"'; } /* GIB_Parse_Match_Brace Progresses an index variable through a string until a closing brace (}) is reached. Calls other matching functions to skip areas of a string it does not want to handle. Returns 0 on success, or the character it could not match otherwise. */ char GIB_Parse_Match_Brace (const char *str, unsigned int *i) { char c; unsigned int n = *i; for ((*i)++; str[*i]; (*i)++) { if (str[*i] == '\"') { if ((c = GIB_Parse_Match_Dquote (str, i))) return c; } else if (str[*i] == '{') { if ((c = GIB_Parse_Match_Brace (str, i))) return c; } else if (str[*i] == '}') return 0; } *i = n; return '{'; } /* GIB_Parse_Match_Paren Progresses an index variable through a string until a closing parenthesis is reached. Calls other matching functions to skip areas of a string it does not want to handle. Returns 0 on success, or the character it could not match otherwise. */ char GIB_Parse_Match_Paren (const char *str, unsigned int *i) { char c; unsigned int n = *i; for ((*i)++; str[*i]; (*i)++) { if (str[*i] == '(') { if ((c = GIB_Parse_Match_Paren (str, i))) return c; } else if (str[*i] == '\"') { if ((c = GIB_Parse_Match_Dquote (str, i))) return c; } else if (str[*i] == ')') return 0; } *i = n; return '('; } /* GIB_Parse_Match_Backtick Progresses an index variable through a string until a backtick (`) is reached. Calls other matching functions to skip areas of a string it does not want to handle. Returns 0 on success, or the character it could not match otherwise. */ char GIB_Parse_Match_Backtick (const char *str, unsigned int *i) { char c; unsigned int n = *i; for ((*i)++; str[*i]; (*i)++) { if (str[*i] == '`') return 0; else if (str[*i] == '\"') { // Skip over strings as usual if ((c = GIB_Parse_Match_Dquote (str, i))) return c; } } *i = n; return '`'; } /* GIB_Parse_Match_Index Progresses an index variable through a string until a normal brace (]) is reached. Calls other matching functions to skip areas of a string it does not want to handle. Returns 0 on success, or the character it could not match otherwise. */ char GIB_Parse_Match_Index (const char *str, unsigned int *i) { unsigned int n = *i; for ((*i)++; str[*i]; (*i)++) { if (str[*i] == ']') return 0; } *i = n; return '['; } /* GIB_Parse_Strip_Comments Finds instances of // comments in a cbuf outside of double quotes and snips between the // and the next newline or the end of the string. */ void GIB_Parse_Strip_Comments (struct cbuf_s *cbuf) { unsigned int i; dstring_t *dstr = cbuf->buf; char c, *n; for (i = 0; dstr->str[i]; i++) { if (dstr->str[i] == '\"') { if ((c = GIB_Parse_Match_Dquote (dstr->str, &i))) // We don't care about parse errors here. // Let the parser sort it out later. return; } else if (dstr->str[i] == '/' && dstr->str[i+1] == '/') { if ((n = strchr (dstr->str+i, '\n'))) { dstring_snip (dstr, i, n-dstr->str-i); i--; } else { dstring_snip (dstr, i, strlen(dstr->str+i)); break; } } } } /* GIB_Parse_Extract_Line Extracts the next command from a cbuf and deposits it in cbuf->line, removing the portion used from the buffer */ void GIB_Parse_Extract_Line (struct cbuf_s *cbuf) { unsigned int i; char c; dstring_t *dstr = cbuf->buf; if (GIB_DATA(cbuf)->ret.waiting ) // Not ready for the next line return; dstring_clearstr (cbuf->line); for (i = 0; dstr->str[i]; i++) { if (dstr->str[i] == '{') { if ((c = GIB_Parse_Match_Brace (dstr->str, &i))) goto PARSE_ERROR; } else if (dstr->str[i] == '\"') { if ((c = GIB_Parse_Match_Dquote (dstr->str, &i))) goto PARSE_ERROR; } else if (dstr->str[i] == '\n' || dstr->str[i] == ';') break; } if (dstr->str[0]) { // If something is left in the buffer if (i)// If we used any of it dstring_insert (cbuf->line, 0, dstr->str, i); // Clip out what we used or any leftover newlines or ;s dstring_snip (dstr, 0, i + (dstr->str[i] == '\n' || dstr->str[i] == ';')); } // If this is a looping buffer and it is now empty, // copy the loop program back in if (GIB_DATA(cbuf)->type == GIB_BUFFER_LOOP && !cbuf->buf->str[0]) Cbuf_AddText (cbuf, GIB_DATA(cbuf)->loop_program->str); return; PARSE_ERROR: // Extract out the line where the parse error occurred for (; i && dstr->str[i] != '\n'; i--); if (dstr->str[i] == '\n') i++; dstring_clearstr (cbuf->line); dstring_appendstr (cbuf->line, dstr->str+i); Cbuf_Error ("parse", "Could not find match for %c.", c); } /* GIB_Parse_Get_Token Progresses an index variable through a string until the end of the next token is found. Stores the token in dstr with or without wrapping characters as specified by include_delim. Returns 0 on error or the wrapping character of the token otherwise */ inline static char GIB_Parse_Get_Token (const char *str, unsigned int *i, dstring_t *dstr, qboolean include_delim) { int n; char c; n = *i; // Save start position if (str[*i] == '\"') { if ((c = GIB_Parse_Match_Dquote (str, i))) { Cbuf_Error ("parse", "Could not find matching %c", c); return 0; // Parse error } else { dstring_insert (dstr, 0, str+n+!include_delim, *i-n+1-!include_delim-!include_delim); return '\"'; } } else if (str[*i] == '{') { if ((c = GIB_Parse_Match_Brace (str, i))) { Cbuf_Error ("parse", "Could not find matching %c", c); return 0; // Parse error } else { dstring_insert (dstr, 0, str+n+!include_delim, *i-n+1-!include_delim-!include_delim); return '{'; } } else if (str[*i] == '(') { if ((c = GIB_Parse_Match_Paren (str, i))) { Cbuf_Error ("parse", "Could not find matching %c", c); return 0; // Parse error } else { dstring_insert (dstr, 0, str+n+!include_delim, *i-n+1-!include_delim-!include_delim); return '\('; } } else { while (str[*i] && !isspace((byte)str[*i]) && str[*i] != ',') { // find end of token if (str[*i] == '`') { if ((c = GIB_Parse_Match_Backtick (str, i))) { Cbuf_Error ("parse", "Could not find matching %c", c); return 0; // Parse error } } else if (str[*i] == '(') { if ((c = GIB_Parse_Match_Paren (str, i))) { Cbuf_Error ("parse", "Could not find matching %c", c); return 0; // Parse error } } else if (str[*i] == '{') { if ((c = GIB_Parse_Match_Brace (str, i))) { Cbuf_Error ("parse", "Could not find matching %c", c); return 0; // Parse error } } (*i)++; } dstring_insert (dstr, 0, str+n, *i-n); return ' '; } return 0; // We should never get here } /* GIB_Parse_Generate_Composite Concatenates all parsed arguments in cbuf into a single string and creates an array of pointers to the beginnings of tokens within it. */ inline static void GIB_Parse_Generate_Composite (struct cbuf_s *cbuf) { cbuf_args_t *args = cbuf->args; int i; dstring_clearstr (GIB_DATA (cbuf)->arg_composite); for (i = 0; i < args->argc; i++) { // ->str could be moved by realloc when a dstring is resized // so save the offset instead of the pointer args->args[i] = (const char *) strlen (GIB_DATA (cbuf)->arg_composite->str); dstring_appendstr (GIB_DATA (cbuf)->arg_composite, args->argv[i]->str); dstring_appendstr (GIB_DATA (cbuf)->arg_composite, " "); } // Get rid of trailing space GIB_DATA (cbuf)->arg_composite->str[strlen(GIB_DATA (cbuf)->arg_composite->str)-1] = 0; for (i = 0; i < args->argc; i++) // now that arg_composite is done we can add the pointer to the stored // offsets and get valid pointers. This *should* be portable. args->args[i] += (unsigned long int) GIB_DATA (cbuf)->arg_composite->str; } /* GIB_Parse_Add_Token Adds a new token to the argument list args or concatenates it to the end of the last according to cat. */ inline static void GIB_Parse_Add_Token (struct cbuf_args_s *args, qboolean cat, dstring_t *token) { if (cat) { dstring_appendstr (args->argv[args->argc-1], token->str); } else Cbuf_ArgsAdd (args, token->str); } /* GIB_Parse_Tokenize_Line Tokenizes and processes an extracted command, producing an argument list suitable for executing the command. This function can be interrupted to call a GIB subroutine, in which case it will save important variables and start where it left off when called again. */ void GIB_Parse_Tokenize_Line (struct cbuf_s *cbuf) { dstring_t *arg = GIB_DATA(cbuf)->current_token; const char *str = cbuf->line->str; cbuf_args_t *args = cbuf->args; qboolean cat = false; int noprocess; char delim; int i; // This function can be interrupted to call a GIB // subroutine. First we need to clean up anything // we left unfinished // Do we have a left-over token that needs processing? if (GIB_DATA(cbuf)->ret.waiting) { if (GIB_Process_Token (arg, GIB_DATA(cbuf)->ret.delim)) return; // Still not done, or error GIB_Parse_Add_Token (cbuf->args, GIB_DATA(cbuf)->ret.cat, arg); i = GIB_DATA(cbuf)->ret.line_pos; // Start tokenizing where we left off noprocess = GIB_DATA(cbuf)->ret.noprocess ? 1 : 0; // Past second token, no sense in having it be 2 } else { args->argc = 0; // Start from scratch i = 0; noprocess = 0; } while (str[i]) { while (isspace((byte)str[i])) // Eliminate whitespace i++; if (!str[i]) // Blank token break; if (str[i] == ',') { // Concatenation cat = true; i++; continue; } dstring_clearstr (arg); delim = GIB_Parse_Get_Token (str, &i, arg, noprocess == 1); if (!delim) break; Sys_DPrintf("Got token: %s\n", arg->str); if (delim != ' ') // Move into whitespace if we haven't already i++; if (noprocess != 1) if (GIB_Process_Token (arg, delim)) goto FILTER_ERROR; // Error or GIB subroutine needs to be called if (noprocess > 1) noprocess--; GIB_Parse_Add_Token (cbuf->args, cat, arg); if (cat) cat = false; if (cbuf->args->argc == 1) { gib_builtin_t *b; if ((b = GIB_Builtin_Find (cbuf->args->argv[0]->str))) noprocess = b->type; } } GIB_Parse_Generate_Composite (cbuf); return; FILTER_ERROR: GIB_DATA(cbuf)->ret.line_pos = i; // save our information in case GIB_DATA(cbuf)->ret.cat = cat; // error is not fatal GIB_DATA(cbuf)->ret.delim = delim; GIB_DATA(cbuf)->ret.noprocess = noprocess; return; } /* GIB_Parse_Execute_Line After an argument list has been created, this function executes the appropriate command, searching in this order: GIB builtins GIB functions Assignment to a local/global variable Normal quake console commands */ static void GIB_Parse_Execute_Line (cbuf_t *cbuf) { cbuf_args_t *args = cbuf->args; gib_builtin_t *b; gib_function_t *f; if ((b = GIB_Builtin_Find (args->argv[0]->str))) b->func (); else if ((f = GIB_Function_Find (args->argv[0]->str))) { 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; } else if (args->argc == 3 && !strcmp (args->argv[1]->str, "=")) { // First, determine global versus local int glob = 0; char *c = 0; if ((c = strchr (args->argv[0]->str, '.'))) // Only check stem *c = 0; glob = (!GIB_Var_Get_Local (cbuf, args->argv[0]->str) && GIB_Var_Get_Global (args->argv[0]->str)); if (c) *c = '.'; if (glob) GIB_Var_Set_Global (args->argv[0]->str, args->argv[2]->str); // Set the global else GIB_Var_Set_Local (cbuf, args->argv[0]->str, args->argv[2]->str); // Set the local } else Cmd_Command (cbuf->args); dstring_clearstr (cbuf->line); }