mirror of
https://git.code.sf.net/p/quake/quakeforge
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e707e9bb89
definitions to QF/gib.h to interface with libQFgib.
436 lines
12 KiB
C
436 lines
12 KiB
C
/*
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gib_semantics.c
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GIB tree handling functions
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Copyright (C) 2003 Brian Koropoff
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Author: Brian Koropoff
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Date: #DATE#
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This program is free software; you can redistribute it and/or
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modify it under the terms of the GNU General Public License
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as published by the Free Software Foundation; either version 2
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of the License, or (at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
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See the GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to:
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Free Software Foundation, Inc.
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59 Temple Place - Suite 330
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Boston, MA 02111-1307, USA
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*/
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#include <string.h>
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#include "QF/qtypes.h"
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#include "gib_tree.h"
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#include "gib_parse.h"
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#include "gib_semantics.h"
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static gib_tree_t *
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GIB_Semantic_Normal_To_Lines (gib_tree_t * tokens, const char *program, gib_tree_flags_t flags, unsigned int start, unsigned int end)
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{
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gib_tree_t *mainline, *lines = 0, *embedded, *token, *temp;
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/* Normal tokens */
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// Create main line struct now as an anchor
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lines = mainline = GIB_Tree_New (TREE_T_CMD);
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for (token = tokens; token; token = token->next) {
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// Normal token?
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if (token->delim == ' ' || token->delim == '(') {
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// Check for embedded commands/variables
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embedded = GIB_Parse_Embedded (token);
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if (gib_parse_error) {
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GIB_Tree_Unref (&mainline);
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return 0;
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}
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if (embedded) {
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// Find end of embedded commands
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for (temp = embedded; temp->next; temp = temp->next);
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// Link it in
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temp->next = lines;
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lines = embedded;
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// Mark token for processing at runtime
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token->flags |= TREE_A_EMBED;
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} else if (token->children)
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// Mark token for processing at runtime
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token->flags |= TREE_A_EMBED;
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}
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}
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// Fill in info for primary line
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mainline->str = program;
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mainline->flags = flags;
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mainline->start = start;
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mainline->end = end;
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mainline->children = tokens;
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// Check for assignment
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if (tokens->next && tokens->next->delim == ' ' && !strcmp (tokens->next->str, "="))
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mainline->type = TREE_T_ASSIGN;
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return lines;
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}
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static gib_tree_t *
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GIB_Semantic_Process_Conditional (gib_tree_t *tokens)
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{
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gib_tree_t *lines = 0, *temp, *cur, *embedded;
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// Check for embeddeds in first token
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lines = GIB_Parse_Embedded (tokens);
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if (gib_parse_error)
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return 0;
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if (lines || tokens->children)
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tokens->flags |= TREE_A_EMBED;
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// Iterate through all tokens concatenated to the first
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for (cur = tokens->next; cur && cur->flags & TREE_A_CONCAT; cur = cur->next) {
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embedded = GIB_Parse_Embedded (cur);
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if (gib_parse_error)
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return 0;
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if (embedded) {
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for (temp = embedded; temp->next; temp = temp->next);
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temp->next = lines;
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lines = embedded;
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cur->flags |= TREE_A_EMBED;
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} else if (cur->children)
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cur->flags |= TREE_A_EMBED;
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}
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return lines;
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}
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static gib_tree_t *
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GIB_Semantic_If_To_Lines (gib_tree_t **tokens, const char *program, gib_tree_flags_t flags, gib_tree_t *end)
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{
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gib_tree_t *token = *tokens, *lines, *temp, **next = &lines, *conditional;
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gib_tree_t *a_block;
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// Sanity checking
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if (flags & TREE_L_EMBED) {
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GIB_Parse_Error ("if statements may not be used in embedded commands.", token->start);
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return 0;
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}
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if (!token->next || !token->next->next) {
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GIB_Parse_Error ("malformed if statement; not enough arguments", token->start);
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return 0;
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}
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for (a_block = token->next->next; a_block->flags & TREE_A_CONCAT; a_block = a_block->next)
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if (!a_block->next) {
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GIB_Parse_Error ("malformed if statement; not enough arguments", token->start);
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return 0;
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}
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if (a_block->delim != '{') {
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GIB_Parse_Error ("malformed if statement; second argument is not a program block", token->next->next->start);
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return 0;
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}
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if (a_block->next) { // Else statement?
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if (a_block->next->delim != ' ' || strcmp (a_block->next->str, "else") || (a_block->next->next && a_block->next->next->flags & TREE_A_CONCAT)) {
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GIB_Parse_Error ("malformed if statement; expected \"else\" for third argument", token->next->next->next->start);
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return 0;
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}
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if (!a_block->next->next) {
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GIB_Parse_Error ("malformed if statement; expected arguments after \"else\"", token->next->next->next->start);
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return 0;
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}
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}
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// Process embedded stuff on conditional argument
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lines = GIB_Semantic_Process_Conditional (token->next);
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if (gib_parse_error)
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return 0;
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if (lines) {
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for (temp = lines; temp->next; temp = temp->next);
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next = &temp->next;
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}
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// Create conditional instruction
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conditional = GIB_Tree_New (TREE_T_COND);
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conditional->children = token;
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conditional->start = token->start;
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conditional->end = token->next->end;
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conditional->str = program;
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conditional->flags = token->str[2] ? flags | TREE_L_NOT : flags;
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// Link it in
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*next = conditional;
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next = &conditional->next;
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// Move program block inline
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*next = a_block->children;
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a_block->children = 0;
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// Find end of program block
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for (temp = *next; temp->next; temp = temp->next);
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next = &temp->next;
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// Add jump to end point
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*next = GIB_Tree_New (TREE_T_JUMP);
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(*next)->jump = end;
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conditional->jump = *next;
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next = &(*next)->next;
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// Is there an else statement?
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if (a_block->next) {
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temp = a_block->next;
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token = a_block->next->next;
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// Is this a program block?
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if (token->delim == '{') {
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// Move program block inline
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*next = token->children;
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token->children = 0;
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*tokens = 0;
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} else {
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// Cut off part we don't use
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temp->next = 0;
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// Indicate to caller that more tokens remain
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*tokens = token;
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// String will get used again, make a personal copy
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conditional->str = strdup (program);
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}
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} else
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// No tokens left
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*tokens = 0;
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return lines;
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}
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static gib_tree_t *
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GIB_Semantic_While_To_Lines (gib_tree_t *tokens, const char *program, gib_tree_flags_t flags)
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{
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gib_tree_t *lines, **next = &lines, *temp, *conditional, *endp;
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gib_tree_t *a_block;
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// Sanity checking
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if (flags & TREE_L_EMBED) {
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GIB_Parse_Error ("while statements may not be used in embedded commands", tokens->start);
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return 0;
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}
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if (!tokens->next || !tokens->next->next) {
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GIB_Parse_Error ("malformed while statement; incorrect number of arguments", tokens->start);
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return 0;
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}
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for (a_block = tokens->next->next; a_block->flags & TREE_A_CONCAT; a_block = a_block->next)
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if (!a_block->next) {
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GIB_Parse_Error ("malformed while statement; incorrect number of arguments", tokens->start);
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return 0;
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}
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if (a_block->delim != '{') {
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GIB_Parse_Error ("malformed while statement; expected program block for second argument", a_block->start);
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return 0;
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}
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// Process embedded stuff on conditional argument
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lines = GIB_Semantic_Process_Conditional (tokens->next);
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if (gib_parse_error)
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return 0;
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if (lines) {
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for (temp = lines; temp->next; temp = temp->next);
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next = &temp->next;
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}
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// Create conditional instruction
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conditional = GIB_Tree_New (TREE_T_COND);
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conditional->children = tokens;
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conditional->start = tokens->start;
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conditional->end = tokens->next->end;
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conditional->str = program;
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conditional->flags = flags;
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// Link it in
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*next = conditional;
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next = &conditional->next;
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// Create end point (for 'break' commands)
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endp = GIB_Tree_New (TREE_T_NOP);
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// Move program block inline
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*next = a_block->children;
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a_block->children = 0;
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// Find end of program block
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for (temp = *next; temp->next; temp = temp->next) {
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// Check for break or continue
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if (!temp->jump && temp->children) {
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if (!strcmp (temp->children->str, "break")) {
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temp->type = TREE_T_JUMP;
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temp->jump = endp;
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} else if (!strcmp (temp->children->str, "continue")) {
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temp->type = TREE_T_JUMP;
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temp->jump = lines;
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}
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}
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}
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next = &temp->next;
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// Add jump back to top of loop
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temp = GIB_Tree_New (TREE_T_JUMP);
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temp->jump = lines;
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*next = temp;
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next = &temp->next;
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// Attach landing point for 'break' instructions
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*next = endp;
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// This is our last instruction, set it as escape for loop
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conditional->jump = endp;
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return lines;
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}
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static gib_tree_t *
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GIB_Semantic_For_To_Lines (gib_tree_t *tokens, const char *program, gib_tree_flags_t flags)
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{
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gib_tree_t *lines = 0, **next = &lines, *temp, *endp, *forinst, *embedded;
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gib_tree_t *a_in, *a_block;
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// Do sanity checks
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if (flags & TREE_L_EMBED) {
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GIB_Parse_Error ("for statements may not be used in embedded commands.", tokens->start);
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return 0;
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}
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if (!tokens->next) {
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GIB_Parse_Error ("malformed for statement; not enough arguments.", tokens->start);
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return 0;
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}
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for (a_in = tokens->next; a_in->delim != ' ' || strcmp (a_in->str, "in"); a_in = a_in->next) {
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if (!a_in->next) {
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GIB_Parse_Error ("malformed for statement; expected \"in\".", tokens->start);
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return 0;
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}
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if (a_in->flags & TREE_A_EMBED || a_in->flags & TREE_A_EXPAND)
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a_in->flags &= ~(TREE_A_EMBED | TREE_A_EXPAND);
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}
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if (!a_in->next) {
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GIB_Parse_Error ("malformed for statement; expected arguments after \"in\".", a_in->start);
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return 0;
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}
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for (a_block = a_in->next; a_block->next; a_block = a_block->next);
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if (a_block->delim != '{') {
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GIB_Parse_Error ("malformed for statement; expected program block as last argument.", a_block->start);
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return 0;
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}
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for (a_in = a_in->next; a_in != a_block; a_in = a_in->next) {
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embedded = GIB_Parse_Embedded (a_in);
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if (gib_parse_error)
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return 0;
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if (embedded) {
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for (temp = embedded; temp->next; temp = temp->next);
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temp->next = lines;
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lines = embedded;
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a_in->flags |= TREE_A_EMBED;
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} else if (a_in->children)
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a_in->flags |= TREE_A_EMBED;
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}
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if (lines) {
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for (temp = lines; temp->next; temp = temp->next);
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next = &temp->next;
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}
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forinst = GIB_Tree_New (TREE_T_CMD);
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forinst->children = tokens;
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forinst->start = tokens->start;
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forinst->end = a_block->start;
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forinst->str = program;
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forinst->flags = flags;
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*next = forinst;
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forinst->next = GIB_Tree_New (TREE_T_FORNEXT);
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forinst = forinst->next;
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next = &forinst->next;
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*next = a_block->children;
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a_block->children = 0;
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endp = GIB_Tree_New (TREE_T_NOP);
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// Find end of program block
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for (temp = *next; temp->next; temp = temp->next) {
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// Check for break or continue
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if (!temp->jump && temp->children) {
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if (!strcmp (temp->children->str, "break")) {
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temp->type = TREE_T_JUMP;
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temp->jump = endp;
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} else if (!strcmp (temp->children->str, "continue")) {
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temp->type = TREE_T_JUMP;
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temp->jump = forinst;
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}
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}
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}
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next = &temp->next;
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*next = GIB_Tree_New (TREE_T_JUMP);
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(*next)->jump = forinst;
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(*next)->next = endp;
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forinst->jump = endp;
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return lines;
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}
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gib_tree_t *
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GIB_Semantic_Tokens_To_Lines (gib_tree_t *tokens, const char *program, gib_tree_flags_t flags, unsigned int start, unsigned int end)
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{
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gib_tree_t *lines, **next = &lines, *temp, *endp = 0;
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// If we are being weird, don't even bother trying to match special statements
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if (tokens->next && tokens->next->flags & TREE_A_CONCAT)
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return GIB_Semantic_Normal_To_Lines (tokens, program, flags, start, end);
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// Handle if statements
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if (!strcmp (tokens->str, "if") || !strcmp (tokens->str, "ifnot")) {
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// Create landing pad where all program blocks in
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// a chained if/else structure will jump to after
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// completing so that only one block is executed.
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endp = GIB_Tree_New (TREE_T_NOP);
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do {
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// Link in output from if statement handler
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*next = GIB_Semantic_If_To_Lines (&tokens, program, flags, endp);
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if (gib_parse_error)
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goto ERROR;
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// Find end of output
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for (temp = *next; temp->next; temp = temp->next);
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next = &temp->next;
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} while (tokens && (!strcmp (tokens->str, "if") || !strcmp (tokens->str, "ifnot")));
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}
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if (!tokens)
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// Yes, goto is evil. See if I care.
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goto DONE;
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if (!strcmp (tokens->str, "while"))
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*next = GIB_Semantic_While_To_Lines (tokens, program, flags);
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else if (!strcmp (tokens->str, "for"))
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*next = GIB_Semantic_For_To_Lines (tokens, program, flags);
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else
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*next = GIB_Semantic_Normal_To_Lines (tokens, program, flags, start, end);
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next = &(*next)->next;
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if (gib_parse_error)
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goto ERROR;
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DONE:
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// Connect landing pad, if one exists
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if (endp)
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*next = endp;
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return lines;
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ERROR:
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if (endp)
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GIB_Tree_Unref (&endp);
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return 0;
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}
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