rockbox/lib/skin_parser/skin_parser.c
2010-07-01 21:49:55 +00:00

927 lines
23 KiB
C

/***************************************************************************
* __________ __ ___.
* Open \______ \ ____ ____ | | _\_ |__ _______ ___
* Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
* Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
* Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \
* \/ \/ \/ \/ \/
* $Id$
*
* Copyright (C) 2010 Robert Bieber
*
* 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 software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
* KIND, either express or implied.
*
****************************************************************************/
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <ctype.h>
#include "skin_buffer.h"
#include "skin_parser.h"
#include "skin_debug.h"
#include "tag_table.h"
#include "symbols.h"
#include "skin_scan.h"
/* Global variables for the parser */
int skin_line = 0;
/* Auxiliary parsing functions (not visible at global scope) */
static struct skin_element* skin_parse_viewport(char** document);
static struct skin_element* skin_parse_line(char** document);
static struct skin_element* skin_parse_line_optional(char** document,
int conditional);
static struct skin_element* skin_parse_sublines(char** document);
static struct skin_element* skin_parse_sublines_optional(char** document,
int conditional);
static int skin_parse_tag(struct skin_element* element, char** document);
static int skin_parse_text(struct skin_element* element, char** document,
int conditional);
static int skin_parse_conditional(struct skin_element* element,
char** document);
static int skin_parse_comment(struct skin_element* element, char** document);
static struct skin_element* skin_parse_code_as_arg(char** document);
struct skin_element* skin_parse(const char* document)
{
struct skin_element* root = NULL;
struct skin_element* last = NULL;
struct skin_element** to_write = 0;
char* cursor = (char*)document; /*Keeps track of location in the document*/
skin_line = 1;
skin_clear_errors();
while(*cursor != '\0')
{
if(!root)
to_write = &root;
else
to_write = &(last->next);
*to_write = skin_parse_viewport(&cursor);
last = *to_write;
if(!last)
{
skin_free_tree(root); /* Clearing any memory already used */
return NULL;
}
/* Making sure last is at the end */
while(last->next)
last = last->next;
}
return root;
}
static struct skin_element* skin_parse_viewport(char** document)
{
struct skin_element* root = NULL;
struct skin_element* last = NULL;
struct skin_element* retval = NULL;
retval = skin_alloc_element();
retval->type = VIEWPORT;
retval->children_count = 1;
retval->line = skin_line;
struct skin_element** to_write = 0;
char* cursor = *document; /* Keeps track of location in the document */
char* bookmark; /* Used when we need to look ahead */
int sublines = 0; /* Flag for parsing sublines */
/* Parsing out the viewport tag if there is one */
if(check_viewport(cursor))
{
skin_parse_tag(retval, &cursor);
if(*cursor == '\n')
{
cursor++;
skin_line++;
}
}
retval->children_count = 1;
retval->children = skin_alloc_children(1);
do
{
/* First, we check to see if this line will contain sublines */
bookmark = cursor;
sublines = 0;
while(*cursor != '\n' && *cursor != '\0'
&& !(check_viewport(cursor) && cursor != *document))
{
if(*cursor == MULTILINESYM)
{
sublines = 1;
break;
}
else if(*cursor == TAGSYM)
{
/* A ';' directly after a '%' doesn't count */
cursor ++;
if(*cursor == '\0')
break;
cursor++;
}
else if(*cursor == COMMENTSYM)
{
skip_comment(&cursor);
}
else if(*cursor == ARGLISTOPENSYM)
{
skip_arglist(&cursor);
}
else if(*cursor == ENUMLISTOPENSYM)
{
skip_enumlist(&cursor);
}
else
{
/* Advancing the cursor as normal */
cursor++;
}
}
cursor = bookmark;
if(!root)
to_write = &root;
else
to_write = &(last->next);
if(sublines)
{
*to_write = skin_parse_sublines(&cursor);
last = *to_write;
if(!last)
return NULL;
}
else
{
*to_write = skin_parse_line(&cursor);
last = *to_write;
if(!last)
return NULL;
}
/* Making sure last is at the end */
while(last->next)
last = last->next;
if(*cursor == '\n')
{
cursor++;
skin_line++;
}
}
while(*cursor != '\0' && !(check_viewport(cursor) && cursor != *document));
*document = cursor;
retval->children[0] = root;
return retval;
}
/* Auxiliary Parsing Functions */
static struct skin_element* skin_parse_line(char**document)
{
return skin_parse_line_optional(document, 0);
}
/*
* If conditional is set to true, then this will break upon encountering
* SEPERATESYM. This should only be used when parsing a line inside a
* conditional, otherwise just use the wrapper function skin_parse_line()
*/
static struct skin_element* skin_parse_line_optional(char** document,
int conditional)
{
char* cursor = *document;
struct skin_element* root = NULL;
struct skin_element* current = NULL;
struct skin_element* retval = NULL;
/* A wrapper for the line */
retval = skin_alloc_element();
retval->type = LINE;
retval->line = skin_line;
if(*cursor != '\0' && *cursor != '\n' && *cursor != MULTILINESYM
&& !(conditional && (*cursor == ARGLISTSEPERATESYM
|| *cursor == ARGLISTCLOSESYM
|| *cursor == ENUMLISTSEPERATESYM
|| *cursor == ENUMLISTCLOSESYM)))
{
retval->children_count = 1;
}
else
{
retval->children_count = 0;
}
if(retval->children_count > 0)
retval->children = skin_alloc_children(1);
while(*cursor != '\n' && *cursor != '\0' && *cursor != MULTILINESYM
&& !((*cursor == ARGLISTSEPERATESYM
|| *cursor == ARGLISTCLOSESYM
|| *cursor == ENUMLISTSEPERATESYM
|| *cursor == ENUMLISTCLOSESYM)
&& conditional)
&& !(check_viewport(cursor) && cursor != *document))
{
/* Allocating memory if necessary */
if(root)
{
current->next = skin_alloc_element();
current = current->next;
}
else
{
current = skin_alloc_element();
root = current;
}
/* Parsing the current element */
if(*cursor == TAGSYM && cursor[1] == CONDITIONSYM)
{
if(!skin_parse_conditional(current, &cursor))
return NULL;
}
else if(*cursor == TAGSYM && !find_escape_character(cursor[1]))
{
if(!skin_parse_tag(current, &cursor))
return NULL;
}
else if(*cursor == COMMENTSYM)
{
if(!skin_parse_comment(current, &cursor))
return NULL;
}
else
{
if(!skin_parse_text(current, &cursor, conditional))
return NULL;
}
}
/* Moving up the calling function's pointer */
*document = cursor;
if(root)
retval->children[0] = root;
return retval;
}
static struct skin_element* skin_parse_sublines(char** document)
{
return skin_parse_sublines_optional(document, 0);
}
static struct skin_element* skin_parse_sublines_optional(char** document,
int conditional)
{
struct skin_element* retval;
char* cursor = *document;
int sublines = 1;
int i;
retval = skin_alloc_element();
retval->type = SUBLINES;
retval->next = NULL;
retval->line = skin_line;
/* First we count the sublines */
while(*cursor != '\0' && *cursor != '\n'
&& !((*cursor == ARGLISTSEPERATESYM
|| *cursor == ARGLISTCLOSESYM
|| *cursor == ENUMLISTSEPERATESYM
|| *cursor == ENUMLISTCLOSESYM)
&& conditional)
&& !(check_viewport(cursor) && cursor != *document))
{
if(*cursor == COMMENTSYM)
{
skip_comment(&cursor);
}
else if(*cursor == ENUMLISTOPENSYM)
{
skip_enumlist(&cursor);
}
else if(*cursor == ARGLISTOPENSYM)
{
skip_arglist(&cursor);
}
else if(*cursor == TAGSYM)
{
cursor++;
if(*cursor == '\0' || *cursor == '\n')
break;
cursor++;
}
else if(*cursor == MULTILINESYM)
{
sublines++;
cursor++;
}
else
{
cursor++;
}
}
/* ...and then we parse them */
retval->children_count = sublines;
retval->children = skin_alloc_children(sublines);
cursor = *document;
for(i = 0; i < sublines; i++)
{
retval->children[i] = skin_parse_line_optional(&cursor, conditional);
skip_whitespace(&cursor);
if(*cursor != MULTILINESYM && i != sublines - 1)
{
skin_error(MULTILINE_EXPECTED);
return NULL;
}
else if(i != sublines - 1)
{
cursor++;
}
}
*document = cursor;
return retval;
}
static int skin_parse_tag(struct skin_element* element, char** document)
{
char* cursor = *document + 1;
char* bookmark;
char tag_name[3];
char* tag_args;
struct tag_info *tag;
int num_args = 1;
int i;
int star = 0; /* Flag for the all-or-none option */
int req_args; /* To mark when we enter optional arguments */
int optional = 0;
/* Checking the tag name */
tag_name[0] = cursor[0];
tag_name[1] = cursor[1];
tag_name[2] = '\0';
/* First we check the two characters after the '%', then a single char */
tag = find_tag(tag_name);
if(!tag)
{
tag_name[1] = '\0';
tag = find_tag(tag_name);
cursor++;
}
else
{
cursor += 2;
}
if(!tag)
{
skin_error(ILLEGAL_TAG);
return 0;
}
/* Copying basic tag info */
if(element->type != CONDITIONAL && element->type != VIEWPORT)
element->type = TAG;
element->tag = tag;
tag_args = tag->params;
element->line = skin_line;
/* Checking for the * flag */
if(tag_args[0] == '*')
{
star = 1;
tag_args++;
}
/* If this tag has no arguments, we can bail out now */
if(strlen(tag_args) == 0
|| (tag_args[0] == '|' && *cursor != ARGLISTOPENSYM)
|| (star && *cursor != ARGLISTOPENSYM))
{
*document = cursor;
return 1;
}
/* Eating a newline if necessary */
if(tag_args[0] == '\n')
{
while (*cursor && *cursor != '\n')
cursor++;
if (*cursor)
cursor++;
skin_line++;
*document = cursor;
return 1;
}
/* Checking the number of arguments and allocating args */
if(*cursor != ARGLISTOPENSYM && tag_args[0] != '|'
&& tag_args[0] != '\n')
{
skin_error(ARGLIST_EXPECTED);
return 0;
}
else
{
cursor++;
}
bookmark = cursor;
while(*cursor != '\n' && *cursor != '\0' && *cursor != ARGLISTCLOSESYM)
{
/* Skipping over escaped characters */
if(*cursor == TAGSYM)
{
cursor++;
if(*cursor == '\0')
break;
cursor++;
}
else if(*cursor == COMMENTSYM)
{
skip_comment(&cursor);
}
else if(*cursor == ARGLISTOPENSYM)
{
skip_arglist(&cursor);
}
else if(*cursor == ARGLISTSEPERATESYM)
{
num_args++;
cursor++;
}
else
{
cursor++;
}
}
cursor = bookmark; /* Restoring the cursor */
element->params_count = num_args;
element->params = skin_alloc_params(num_args);
/* Now we have to actually parse each argument */
for(i = 0; i < num_args; i++)
{
/* Making sure we haven't run out of arguments */
if(*tag_args == '\0' || *tag_args == '\n')
{
skin_error(TOO_MANY_ARGS);
return 0;
}
/* Checking for the optional bar */
if(*tag_args == '|')
{
optional = 1;
req_args = i;
tag_args++;
}
/* Scanning the arguments */
skip_whitespace(&cursor);
/* Checking for comments */
if(*cursor == COMMENTSYM)
skip_comment(&cursor);
/* Storing the type code */
element->params[i].type_code = *tag_args;
/* Checking a nullable argument for null */
if(*cursor == DEFAULTSYM && !isdigit(cursor[1]))
{
if(islower(*tag_args))
{
element->params[i].type = DEFAULT;
cursor++;
}
else
{
skin_error(DEFAULT_NOT_ALLOWED);
return 0;
}
}
else if(tolower(*tag_args) == 'i')
{
/* Scanning an int argument */
if(!isdigit(*cursor) && *cursor != '-')
{
skin_error(INT_EXPECTED);
return 0;
}
element->params[i].type = NUMERIC;
element->params[i].data.numeric = scan_int(&cursor);
}
else if(tolower(*tag_args) == 'n' ||
tolower(*tag_args) == 's' || tolower(*tag_args) == 'f')
{
/* Scanning a string argument */
element->params[i].type = STRING;
element->params[i].data.text = scan_string(&cursor);
}
else if(tolower(*tag_args) == 'c')
{
/* Recursively parsing a code argument */
element->params[i].type = CODE;
element->params[i].data.code = skin_parse_code_as_arg(&cursor);
if(!element->params[i].data.code)
return 0;
}
skip_whitespace(&cursor);
if(*cursor != ARGLISTSEPERATESYM && i < num_args - 1)
{
skin_error(SEPERATOR_EXPECTED);
return 0;
}
else if(*cursor != ARGLISTCLOSESYM && i == num_args - 1)
{
skin_error(CLOSE_EXPECTED);
return 0;
}
else
{
cursor++;
}
if (*tag_args != 'N')
tag_args++;
/* Checking for the optional bar */
if(*tag_args == '|')
{
optional = 1;
req_args = i + 1;
tag_args++;
}
}
/* Checking for a premature end */
if(*tag_args != '\0' && *tag_args != '\n' && !optional)
{
skin_error(INSUFFICIENT_ARGS);
return 0;
}
if(*tag_args == '\n')
{
while (*cursor && *cursor != '\n')
cursor++;
if (*cursor)
cursor++;
skin_line++;
}
*document = cursor;
return 1;
}
/*
* If the conditional flag is set true, then parsing text will stop at an
* ARGLISTSEPERATESYM. Only set that flag when parsing within a conditional
*/
static int skin_parse_text(struct skin_element* element, char** document,
int conditional)
{
char* cursor = *document;
int length = 0;
int dest;
char *text = NULL;
/* First figure out how much text we're copying */
while(*cursor != '\0' && *cursor != '\n' && *cursor != MULTILINESYM
&& *cursor != COMMENTSYM
&& !((*cursor == ARGLISTSEPERATESYM
|| *cursor == ARGLISTCLOSESYM
|| *cursor == ENUMLISTSEPERATESYM
|| *cursor == ENUMLISTCLOSESYM)
&& conditional))
{
/* Dealing with possibility of escaped characters */
if(*cursor == TAGSYM)
{
if(find_escape_character(cursor[1]))
cursor++;
else
break;
}
length++;
cursor++;
}
cursor = *document;
/* Copying the text into the element struct */
element->type = TEXT;
element->line = skin_line;
element->next = NULL;
element->data = text = skin_alloc_string(length);
for(dest = 0; dest < length; dest++)
{
/* Advancing cursor if we've encountered an escaped character */
if(*cursor == TAGSYM)
cursor++;
text[dest] = *cursor;
cursor++;
}
text[length] = '\0';
*document = cursor;
return 1;
}
static int skin_parse_conditional(struct skin_element* element, char** document)
{
char* cursor = *document + 1; /* Starting past the "%" */
char* bookmark;
int children = 1;
int i;
element->type = CONDITIONAL;
element->line = skin_line;
/* Parsing the tag first */
if(!skin_parse_tag(element, &cursor))
return 0;
/* Counting the children */
if(*(cursor++) != ENUMLISTOPENSYM)
{
skin_error(ARGLIST_EXPECTED);
return 0;
}
bookmark = cursor;
while(*cursor != ENUMLISTCLOSESYM && *cursor != '\n' && *cursor != '\0')
{
if(*cursor == COMMENTSYM)
{
skip_comment(&cursor);
}
else if(*cursor == ENUMLISTOPENSYM)
{
skip_enumlist(&cursor);
}
else if(*cursor == TAGSYM)
{
cursor++;
if(*cursor == '\0' || *cursor == '\n')
break;
cursor++;
}
else if(*cursor == ENUMLISTSEPERATESYM)
{
children++;
cursor++;
}
else
{
cursor++;
}
}
cursor = bookmark;
/* Parsing the children */
element->children = skin_alloc_children(children);
element->children_count = children;
for(i = 0; i < children; i++)
{
element->children[i] = skin_parse_code_as_arg(&cursor);
skip_whitespace(&cursor);
if(i < children - 1 && *cursor != ENUMLISTSEPERATESYM)
{
skin_error(SEPERATOR_EXPECTED);
return 0;
}
else if(i == children - 1 && *cursor != ENUMLISTCLOSESYM)
{
skin_error(CLOSE_EXPECTED);
return 0;
}
else
{
cursor++;
}
}
*document = cursor;
return 1;
}
static int skin_parse_comment(struct skin_element* element, char** document)
{
char* cursor = *document;
#ifndef ROCKBOX
char* text = NULL;
#endif
int length;
/*
* Finding the index of the ending newline or null-terminator
* The length of the string of interest doesn't include the leading #, the
* length we need to reserve is the same as the index of the last character
*/
for(length = 0; cursor[length] != '\n' && cursor[length] != '\0'; length++);
element->type = COMMENT;
element->line = skin_line;
#ifdef ROCKBOX
element->data = NULL;
#else
element->data = text = skin_alloc_string(length);
/* We copy from one char past cursor to leave out the # */
memcpy((void*)text, (void*)(cursor + 1),
sizeof(char) * (length-1));
text[length - 1] = '\0';
#endif
if(cursor[length] == '\n')
skin_line++;
*document += (length); /* Move cursor up past # and all text */
if(**document == '\n')
(*document)++;
return 1;
}
static struct skin_element* skin_parse_code_as_arg(char** document)
{
int sublines = 0;
char* cursor = *document;
/* Checking for sublines */
while(*cursor != '\n' && *cursor != '\0'
&& *cursor != ENUMLISTSEPERATESYM && *cursor != ARGLISTSEPERATESYM
&& *cursor != ENUMLISTCLOSESYM && *cursor != ARGLISTCLOSESYM)
{
if(*cursor == MULTILINESYM)
{
sublines = 1;
break;
}
else if(*cursor == TAGSYM)
{
/* A ';' directly after a '%' doesn't count */
cursor ++;
if(*cursor == '\0')
break;
cursor++;
}
else if(*cursor == ARGLISTOPENSYM)
{
skip_arglist(&cursor);
}
else if(*cursor == ENUMLISTOPENSYM)
{
skip_enumlist(&cursor);
}
else
{
/* Advancing the cursor as normal */
cursor++;
}
}
if(sublines)
return skin_parse_sublines_optional(document, 1);
else
return skin_parse_line_optional(document, 1);
}
/* Memory management */
struct skin_element* skin_alloc_element()
{
struct skin_element* retval = (struct skin_element*)
skin_buffer_alloc(sizeof(struct skin_element));
retval->type = UNKNOWN;
retval->next = NULL;
retval->tag = NULL;
retval->params_count = 0;
retval->children_count = 0;
return retval;
}
struct skin_tag_parameter* skin_alloc_params(int count)
{
size_t size = sizeof(struct skin_tag_parameter) * count;
return (struct skin_tag_parameter*)skin_buffer_alloc(size);
}
char* skin_alloc_string(int length)
{
return (char*)skin_buffer_alloc(sizeof(char) * (length + 1));
}
struct skin_element** skin_alloc_children(int count)
{
return (struct skin_element**)
skin_buffer_alloc(sizeof(struct skin_element*) * count);
}
void skin_free_tree(struct skin_element* root)
{
#ifndef ROCKBOX
int i;
/* First make the recursive call */
if(!root)
return;
skin_free_tree(root->next);
/* Free any text */
if(root->type == TEXT || root->type == COMMENT)
free(root->data);
/* Then recursively free any children, before freeing their pointers */
for(i = 0; i < root->children_count; i++)
skin_free_tree(root->children[i]);
if(root->children_count > 0)
free(root->children);
/* Free any parameters, making sure to deallocate strings */
for(i = 0; i < root->params_count; i++)
if(root->params[i].type == STRING)
free(root->params[i].data.text);
if(root->params_count > 0)
free(root->params);
/* Finally, delete root's memory */
free(root);
#else
(void)root;
#endif
}