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asc.c
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#include <math.h>
#include <stdlib.h>
#include <stdarg.h>
#include <string.h>
#include <ctype.h>
#include <iconv.h>
#include <errno.h>
#include "asc.h"
#include "errors.h"
#include "md5.h"
#include "io/elfilewrapper.h"
#ifdef MAP_EDITOR
# include "map_editor/misc.h"
#else
# include "misc.h"
#endif //MAP_EDITOR
/* NOTE: This file contains implementations of the following, currently unused and commented functions:
* Look at the end of the file.
*
* Sint32 get_string_after_string(const Uint8*, const Uint8*, Sint32, Uint*, int);
*/
#ifndef LINUX
int my_UTF8Toisolat1(char **dest, size_t * lu, const char **src, size_t * len);
#else
int my_UTF8Toisolat1(char **dest, size_t * lu, char **src, size_t * len);
#endif
// find the first occurance of needle in haystack, and return the distance to
// that string. If beggining is 1, it returns the offset to the beginning of
// the string otherwise it returns the offset to the end of the string. Needle
// must be null-terminated. hyastack need not be, but must be at least max_len
// bytes long
Sint32 get_string_occurance (const char* needle, const char* haystack, const Uint32 max_len, const char beginning)
{
const Uint32 n_len = strlen(needle);
Uint32 istart, i;
Uint32 search_len;
if (max_len < n_len) {
return -1;
}
for (istart = 0, search_len = max_len - n_len; istart <= search_len; istart++)
{
for (i = 0; i < n_len; i++)
{
if (tolower(haystack[istart+i]) != tolower(needle[i])) {
break;
}
}
if (i >= n_len)
{
// We found the string. return the beginning if asked
if (beginning) {
return istart;
}
// return the end of the string occurence, but skip
// space and equal signs
while ((istart+i < max_len) && (haystack[istart+i] == ' ' || haystack[istart+i] == '=')) {
i++;
}
return istart+i;
}
}
return -1;
}
#ifndef FASTER_MAP_LOAD
// This function returns an integer, after the needle in the haystack
// string. If the string is not found, after max_len, the function returns -1.
// The function is NOT case sensitive
Sint32 get_integer_after_string (const char *needle, const char *haystack, Uint32 max_len)
{
Sint32 n_end = get_string_occurance (needle, haystack, max_len, 0);
Uint32 istart;
if (n_end < 0)
{
// needle not found
return -1;
}
istart = n_end;
while (istart < max_len)
{
if (haystack[istart] == '\n')
// no integer on this line
return -1;
if (isdigit (haystack[istart]) || haystack[istart] == '+' || haystack[istart] == '-'){
// we've probably found a number
//return atoi (&haystack[istart]);
char temp[1<<sizeof(int)]; //Wasteful, but it will reserve enough space for MAX_INT as a string. If we change to atol or similar, use sizeof(long) instead
int len = min2i(max_len-istart, (1<<sizeof(int))-1);
memcpy(temp, &haystack[istart], len-1);
temp[len] = '\0';
return atoi (temp);
}
istart++;
}
// no integer after needle
return -1;
}
// This function returns a float, after the source string in the destination
// string. If the string is not found, after max_len, the function returns
// -1.0f. The function is NOT case sensitive
float get_float_after_string (const char *needle, const char *haystack, Uint32 max_len)
{
Sint32 n_end = get_string_occurance (needle, haystack, max_len, 0);
Uint32 istart;
if (n_end < 0)
{
// needle not found
return -1.0f;
}
istart = n_end;
while (istart < max_len)
{
if (haystack[istart] == '\n')
// no number on this line
return -1.0f;
if (isdigit (haystack[istart]) || haystack[istart] == '+' || haystack[istart] == '-' || haystack[istart] == '.'){
// we've probably found a number
//return atof (&haystack[istart]);
//char temp[max_len-istart+1]; //Wasteful, if the float doesn't go to the end of the line, but it will reserve enough space
char temp[200]; //It'd be better not to use an arbitrary constant, but we can't use run-time size on compilers like MSVC
memcpy(temp, &haystack[istart], min2i(max_len-istart, sizeof(temp)));
temp[min2i(max_len-istart, sizeof(temp))] = '\0';
return atof (temp);
}
istart++;
}
// no number after needle
return -1.0f;
}
#endif // FASTER_MAP_LOAD
char* safe_strncpy(char *dest, const char * source, const size_t len)
{
if (len > 0)
{
strncpy(dest, source, len - 1);
dest[len - 1] = '\0';
}
return dest;
}
char* safe_strncpy2(char *dest, const char * source, const size_t dest_len, const size_t src_len)
{
if (dest_len > 0)
{
if (src_len >= dest_len)
{
strncpy(dest, source, dest_len - 1);
dest[dest_len - 1] = '\0';
}
else
{
strncpy(dest, source, src_len);
dest[src_len] = '\0';
}
}
return dest;
}
int safe_snprintf(char *dest, const size_t len, const char* format, ...)
{
int ret;
if (len > 0)
{
va_list ap;
va_start(ap, format);
#ifdef __MINGW32__
ret = vsnprintf(dest, len, format, ap);
#else
#if defined(WINDOWS) && (defined(__MINGW32__) || defined(_MSC_VER))
ret = _vsnprintf(dest, len, format, ap);
#else
ret = vsnprintf(dest, len, format, ap);
#endif
#endif
va_end(ap);
dest[len - 1] = '\0';
if ((ret < 0) || (ret >= len))
return len;
return ret;
}
return 0;
}
char* safe_strcat (char* dest, const char* src, size_t len)
{
size_t start_pos = strlen (dest);
if (start_pos < len)
safe_strncpy (dest+start_pos, src, len-start_pos);
return dest;
}
char* safe_strcasestr (const char* haystack, size_t haystack_len, const char* needle, size_t needle_len)
{
if (haystack_len >= needle_len)
{
const char* res;
size_t istart;
size_t imax = haystack_len - needle_len;
for (istart = 0, res = haystack; istart <= imax && *res; istart++, res++)
{
if (strncasecmp (res, needle, needle_len) == 0)
return (char*) res;
}
}
return NULL;
}
void my_strcp(char *dest,const char * source)
{
while(*source)
{
*dest++=*source++;
}
*dest='\0';
}
void my_strncp (char *dest, const char *source, size_t len)
{
while (*source != '\0' && --len > 0)
{
*dest++ = *source++;
}
*dest = '\0';
}
Sint32 my_strncompare(const char *dest, const char *src, Sint32 len)
{
int i;
char ch1,ch2;
for(i=0;i<len;i++)
{
ch1=src[i];
ch2=dest[i];
if(ch1>=65 && ch1<=90)ch1+=32;//make lowercase
if(ch2>=65 && ch2<=90)ch2+=32;//make lowercase
if(ch1!=ch2)break;
}
if(i!=len)return 0;
else return 1;
}
Sint32 my_strcompare(const char *dest, const char *src)
{
Uint32 len;
len=strlen(dest);
if(len!=strlen(src))return 0;
return(my_strncompare(dest, src, len));
}
// is this string more then one character and all alpha in it are CAPS?
Sint32 my_isupper(const char *src, int len)
{
int alpha=0;
if (len < 0) len=strlen(src);
if(!src || !src[0] || !src[1] || !src[2] || len == 0) return 0;
while(*src && len > 0)
{
if(isalpha((unsigned char)*src)) alpha++;
if((isdigit((unsigned char)*src)&&alpha<len/2) || *src != toupper(*src)) return 0; //at least one lower
src++;
len--;
}
return 1; // is all upper or all num
}
char *my_tolower (char *src)
{
char *dest = src;
if (dest == NULL || dest[0] == '\0')
return dest;
while (*src)
{
*src = tolower (*src);
src++;
}
return dest;
}
/*Wraps the lines*/
char ** get_lines(char * str, int chars_per_line)
{
char ** my_str=NULL;
char * cur=NULL;
int lines=0;
int i=0;
if(str){
for(lines = 0; *str; lines++) {
my_str=(char **)realloc(my_str,(lines+2)*sizeof(char *));
cur=my_str[lines]=(char*)calloc(chars_per_line+3,sizeof(char));
for(i = 0; i < chars_per_line && str[i]; i++){
if(str[i] == '\r') i++;
if (str[i] == '\n'){
i++;
break;
}
cur[i]=str[i];
}
if(i >= chars_per_line){//Wrap it
//go back to the last space
while(i){
if(str[i]=='/' || str[i]=='-' || str[i]=='?' || str[i]=='!' || str[i]==' ' || str[i]=='\n' || str[i]=='\r') break;
i--;
}
if(i){
i++;
if(str[i]==' ')str++;
} else {
//Force a break then...
i=chars_per_line;
}
}
str+=i;
cur[i]=0;
}
if(my_str)my_str[lines]=NULL;//Used to get the bounds for displaying each line
}
return my_str;
}
// File utilities
Uint32 clean_file_name (char *dest, const char *src, Uint32 max_len)
{
char *dptr, *dend = dest + (max_len-1);
const char *sptr;
for (dptr = dest, sptr = src; dptr < dend && *sptr; dptr++, sptr++)
*dptr = *sptr == '\\' ? '/' : tolower(*sptr);
// always place a null at the end
*dptr = '\0';
return dptr-dest;
}
/*XML*/
float xmlGetFloat(xmlNode * n, xmlChar * c)
{
char * t=(char*)xmlGetProp(n,c);
float f=t?atof(t):0.0f;
xmlFree(t);
return f;
}
int xmlGetInt(xmlNode *n, xmlChar *c)
{
char *t=(char*)xmlGetProp(n,c);
int i=t?atoi(t):0;
xmlFree(t);
return i;
}
int my_xmlStrncopy(char ** out, const char * in, int len)
{
if(in) {
size_t lin=0;
size_t lout=0;
int l1=0;
int l2=0;
int retval=1;
char *inbuf;
char *inbuf2;
char *outbuf;
char *outbuf2;
lin=strlen(in);
l2=xmlUTF8Strlen((xmlChar*)in);
if(l2<0) lout=l1;
else if (len>0 && len<l2) lout=len;
else lout=l2;
inbuf=inbuf2=(char *)malloc((lin+1)*sizeof(char));
outbuf=outbuf2=(char *)malloc((lout+1)*sizeof(char));
memcpy(inbuf,in,lin);
l1=lin;
l2=lout;
#ifndef LINUX
if(my_UTF8Toisolat1(&outbuf2,&lout,(const char **)&inbuf2,&lin)<0) {
#else
if(my_UTF8Toisolat1(&outbuf2,&lout,&inbuf2,&lin)<0) {
#endif
retval=-1;
}
free(inbuf);
outbuf[l2]=0;
if(*out) {
memcpy(*out,outbuf,l2+1);
free(outbuf);
} else {
*out=outbuf;
}
return retval<0?-1:l2;
} else return -1;
}
#ifndef LINUX
int my_UTF8Toisolat1(char **dest, size_t * lu, const char **src, size_t * l)
#else
int my_UTF8Toisolat1(char **dest, size_t * lu, char **src, size_t * l)
#endif
{
iconv_t t=iconv_open("ISO_8859-1","UTF-8");
iconv(t, src, l, dest, lu);
iconv_close(t);
return 1;
}
/* return true if digest calculated */
int get_file_digest(const char * filename, Uint8 digest[16])
{
MD5 md5;
el_file_ptr file = NULL;
file = el_open(filename);
memset (digest, 0, 16);
if (file == NULL)
{
LOG_ERROR("MD5Digest: Unable to open %s (%d)", filename, errno);
return 0;
}
if (el_get_pointer(file) == NULL)
{
el_close(file);
return 0;
}
MD5Open(&md5);
MD5Digest(&md5, el_get_pointer(file), el_get_size(file));
MD5Close(&md5, digest);
el_close(file);
return 1;
}
/* currently UNUSED
//find & copy a string into memory
//return the length or -1 if not found
Sint32 get_string_after_string(const Uint8 * source_pointer, const Uint8 * dest_pointer, Sint32 max_len, Uint8 *value, Sint32 value_len)
{
int i;
int loc=get_string_occurance(source_pointer, dest_pointer, max_len, 0);
if (loc < 0)
{
return -1;
}
// now copy the string
for(i=0;i<value_len-1;i++)
{
Uint8 ch;
ch=dest_pointer[loc+i];
if(ch==0x0a || ch==0x0d)break;
value[i]=ch;
}
value[i]=0; // always place a NULL
return(i);
}
void get_string_digest(const Uint8 * string, Uint8 digest[16])
{
MD5 md5;
MD5Open(&md5);
MD5Digest(&md5, string, strlen(string));
MD5Close(&md5, digest);
}
*/
int find_description_index (const dict_elem dict[], const char *elem, const char *desc) {
int idx = 0;
const char *key;
while ((key = dict[idx].desc) != NULL) {
if (strcasecmp (key, elem) == 0)
return dict[idx].index;
idx++;
}
LOG_ERROR("Unknown %s \"%s\"\n", desc, elem);
return -1;
}
void get_string_value(char *buf, size_t maxlen, const xmlNode *node)
{
if (!node)
{
LOG_ERROR("Node is null!");
buf[0] = '\0';
return;
}
if (!node->children)
buf[0] = '\0';
else
my_strncp(buf, (const char*)node->children->content, maxlen);
}
void get_item_string_value(char *buf, size_t maxlen, const xmlNode *item,
const unsigned char *name)
{
const xmlNode *node;
if (!item)
{
LOG_ERROR("Item is null!");
buf[0] = '\0';
return;
}
// look for this entry in the children
for (node = item->children; node; node = node->next)
{
if (node->type == XML_ELEMENT_NODE
&& xmlStrcasecmp(node->name, name) == 0)
{
get_string_value(buf, maxlen, node);
return;
}
}
}
int get_bool_value(const xmlNode *node)
{
const xmlChar *tval;
if (!node)
{
LOG_ERROR("Node is null!");
return 0;
}
if (!node->children)
return 0;
tval = node->children->content;
return (xmlStrcasecmp(tval, (xmlChar*)"yes") == 0) ||
(xmlStrcasecmp(tval, (xmlChar*)"true") == 0) ||
(xmlStrcasecmp(tval, (xmlChar*)"1") == 0);
}
int get_int_value(const xmlNode *node)
{
if (!node)
{
LOG_ERROR("Node is null!");
return 0;
}
if (!node->children)
return 0;
return atoi((const char*)node->children->content);
}
double get_float_value(const xmlNode *node)
{
if (!node)
{
LOG_ERROR("Node is null!");
return 0.0;
}
if (!node->children)
return 0.0;
return atof((const char*)node->children->content);
}
int get_int_property(const xmlNode *node, const char *prop)
{
const xmlAttr *attr;
if (!node)
{
LOG_ERROR("Node is null!");
return 0;
}
for (attr = node->properties; attr; attr = attr->next)
{
if (attr->type == XML_ATTRIBUTE_NODE &&
xmlStrcasecmp(attr->name, (const xmlChar*)prop) == 0)
{
return atoi((const char*)attr->children->content);
}
}
return -1;
}
int get_property(const xmlNode *node, const char *prop, const char *desc,
const dict_elem dict[])
{
const xmlAttr *attr;
if (!node)
{
LOG_ERROR("Node is null!");
return 0;
}
for (attr = node->properties; attr; attr = attr->next)
{
if (attr->type == XML_ATTRIBUTE_NODE &&
xmlStrcasecmp (attr->name, (const xmlChar*)prop) == 0)
{
return find_description_index(dict,
(const char*)attr->children->content, desc);
}
}
LOG_ERROR("Unable to find property %s in node %s\n", prop, node->name);
return -1;
}
const char *get_string_property(const xmlNode *node, const char *prop)
{
const xmlAttr *attr;
if (node == NULL)
{
LOG_ERROR("Node is null!");
return "";
}
for (attr = node->properties; attr; attr = attr->next)
{
if (attr->type == XML_ATTRIBUTE_NODE &&
xmlStrcasecmp (attr->name, (xmlChar *)prop) == 0)
{
return (const char*)attr->children->content;
}
}
#ifdef DEBUG_XML
// don't normally report this, or optional properties will report errors
LOG_ERROR("Unable to find property %s in node %s\n", prop, node->name);
#endif //DEBUG_XML
return "";
}
void append_char(char** s, char c, int* len, int* max_len)
{
if (*len >= *max_len)
{
*s = (char*) realloc(*s, *max_len + APPEND_CHAR_BLOCK);
*max_len += APPEND_CHAR_BLOCK;
}
(*s)[(*len)++] = c;
}
xmlChar* toUTF8 (const char* str, int len)
{
int out_size = 2*len;
int out_len;
xmlChar* out = calloc (out_size, sizeof (xmlChar));
while (1)
{
int in_len = len;
out_len = out_size;
if (isolat1ToUTF8 (out, &out_len, BAD_CAST str, &in_len) < 0)
{
// Conversion error
free (out);
return NULL;
}
if (in_len >= len)
break;
out_size *= 2;
out = realloc (out, out_size * sizeof (xmlChar));
}
if (out_len >= out_size)
// drats, no space to store a terminator
out = realloc (out, (out_size + 1) * sizeof (xmlChar));
out[out_len] = '\0';
return out;
}
char* fromUTF8 (const xmlChar* str, int len)
{
int out_size = len+1;
int out_len = out_size;
int in_len = len;
char* out = calloc (out_size, 1);
if (UTF8Toisolat1 (BAD_CAST out, &out_len, str, &in_len) < 0)
{
// Conversion error
free (out);
return NULL;
}
out[out_len] = '\0';
return out;
}
/* whether you pass in a NULL pointer or your own allocated memory for
* out_str, you need to free the memory yourself */
char *substitute_char_with_string(const char *str, char **out_str, char to_sub, const char* with_sub)
{
int amp_count = 0;
const char *start_ptr;
char *end_ptr;
int out_len = 0;
size_t alloc_len = 0;
for (start_ptr = str; (start_ptr = strchr(start_ptr, to_sub)) != NULL; start_ptr++)
amp_count++;
alloc_len = strlen(str) + amp_count*(strlen(with_sub)-1) + 1;
*out_str = (char *)realloc(*out_str, alloc_len);
**out_str = '\0';
for (start_ptr = str; (end_ptr = strchr(start_ptr, to_sub)) != NULL; )
{
while (start_ptr < end_ptr)
(*out_str)[out_len++] = *start_ptr++;
(*out_str)[out_len] = '\0';
safe_strcat(*out_str, with_sub, alloc_len);
out_len = strlen(*out_str);
start_ptr++;
}
safe_strcat(*out_str, start_ptr, alloc_len);
return *out_str;
}
/* Return a copy of source truncated to be no longer than max_len_x including the append_str on the end. */
char *truncated_string(char *dest, const char *source, size_t dest_max_len, const char *append_str, float max_len_x, float font_ratio)
{
float string_width = 0;
size_t dest_len = 0;
float append_len_x = get_string_width((unsigned char*)append_str) * font_ratio;
char *dest_p = dest;
while ((*source != '\0') && (dest_len < dest_max_len-1))
{
float char_width = get_char_width(*source) * font_ratio;
if ((string_width + char_width) > (max_len_x - append_len_x))
break;
*dest_p++ = *source++;
dest_len++;
string_width += char_width;
}
while ((*append_str != '\0') && (dest_len < dest_max_len-1))
{
*dest_p++ = *append_str++;
dest_len++;
}
*dest_p = '\0';
return dest;
}