/* Codepage translation to Unicode, and UTF-8 support * * The translation is based on codepage mapping files that are distributed * by the Unicode consortium, see ftp://ftp.unicode.org/Public/MAPPINGS/. * * Character sets with a maximum of 256 codes are translated via a lookup * table (these are Single-Byte Character Sets). Character sets like Shift-JIS * with single-byte characters and multi-byte characters (introduced by a * leader byte) are split into two tables: the 256-entry lookup table for * the single-byte characters and an extended table for the multi-byte * characters. The extended table is allocated dynamically; the lookup table * is allocated statically, so loading SBCS tables cannot fail (if the tables * themselves are valid, of course). * * Copyright (c) ITB CompuPhase, 2004-2005 * * This software is provided "as-is", without any express or implied warranty. * In no event will the authors be held liable for any damages arising from * the use of this software. * * Permission is granted to anyone to use this software for any purpose, * including commercial applications, and to alter it and redistribute it * freely, subject to the following restrictions: * * 1. The origin of this software must not be misrepresented; you must not * claim that you wrote the original software. If you use this software in * a product, an acknowledgment in the product documentation would be * appreciated but is not required. * 2. Altered source versions must be plainly marked as such, and must not be * misrepresented as being the original software. * 3. This notice may not be removed or altered from any source distribution. * * Version: $Id: sci18n.c 1724 2005-07-24 20:00:55Z dvander $ */ #include #include #include #include #include #include "sc.h" #if !defined TRUE #define FALSE 0 #define TRUE 1 #endif #if !defined _MAX_PATH #define _MAX_PATH 250 #endif #if !defined DIRSEP_CHAR #if defined LINUX || defined __FreeBSD__ || defined __OpenBSD__ #define DIRSEP_CHAR '/' #elif defined macintosh #define DIRSEP_CHAR ':' #else #define DIRSEP_CHAR '\\' #endif #endif #if !defined ELEMENTS #define ELEMENTS(array) (sizeof(array) / sizeof(array[0])) #endif #if !defined NO_CODEPAGE #if !defined MAXCODEPAGE #define MAXCODEPAGE 12 /* typically "cp" + 4 digits + ".txt" */ #endif #define INVALID 0xffffu /* 0xffff and 0xfffe are invalid Unicode characters */ #define LEADBYTE 0xfffeu struct wordpair { unsigned short index; wchar_t code; }; static char cprootpath[_MAX_PATH] = { DIRSEP_CHAR, '\0' }; static wchar_t bytetable[256]; static struct wordpair *wordtable = NULL; static unsigned wordtablesize = 0; static unsigned wordtabletop = 0; /* read in a line delimited by '\r' or '\n'; do NOT store the '\r' or '\n' into * the string and ignore empty lines * returns 1 for success and 0 for failure */ static int cp_readline(FILE *fp,char *string,size_t size) { size_t count=0; int c; assert(size>1); while ((c=fgetc(fp))!=EOF && count0) /* '\r' or '\n' ends a string */ break; /* if count==0, the line started with a '\r' or '\n', or perhaps line * ends in the file are '\r\n' and we read and stopped on the '\r' of * the preceding line */ } else { string[count++]=(char)c; } /* if */ } /* while */ string[count]='\0'; return count>0; } /* cp_path() sets the directory where all codepage files must be found (if * the parameter to cp_set() specifies a full path, that is used instead). * The path is specified into two parts: root and directory; the full path * for the codepage direcory is just the concatenation of the two, with a * directory separator in between. The directory is given in two parts, * because often a program already retrieves its "home" directory and the * codepages are most conveniently stored in a subdirectory of this home * directory. */ SC_FUNC int cp_path(const char *root, const char *directory) { size_t len1,len2; int add_slash1,add_slash2; len1= (root!=NULL) ? strlen(root) : 0; add_slash1= (len1==0 || root[len1-1]!=DIRSEP_CHAR); len2= (directory!=NULL) ? strlen(directory) : 0; add_slash2= (len2>0 && root[len2-1]!=DIRSEP_CHAR); if (len1+add_slash1+len2+add_slash2>=(_MAX_PATH-MAXCODEPAGE)) return FALSE; /* full filename may not fit */ if (root!=NULL) strcpy(cprootpath,root); if (add_slash1) { assert(len1==0 || cprootpath[len1]=='\0'); cprootpath[len1]=DIRSEP_CHAR; cprootpath[len1+1]='\0'; } /* if */ if (directory!=NULL) strcat(cprootpath,directory); if (add_slash2) { assert(cprootpath[len1+add_slash1+len2]=='\0'); cprootpath[len1+add_slash1+len2]=DIRSEP_CHAR; cprootpath[len1+add_slash1+len2+1]='\0'; } /* if */ cp_set(NULL); /* start with a "linear" table (no translation) */ return TRUE; } /* cp_set() loads a codepage from a file. The name parameter may be a * filename (including a full path) or it may be a partial codepage name. * If the name parameter is NULL, the codepage is cleared to be a "linear" * table (no translation). * The following files are attempted to open (where specifies the * value of the parameter): * * / * /.txt * /cp * /cp.txt */ SC_FUNC int cp_set(const char *name) { char filename[_MAX_PATH]; FILE *fp=NULL; unsigned index; /* for name==NULL, set up an identity table */ if (name==NULL || *name=='\0') { if (wordtable!=NULL) { free(wordtable); wordtable=NULL; wordtablesize=0; wordtabletop=0; } /* if */ for (index=0; indexMAXCODEPAGE) return 0; assert(strlen(name)+strlen(cprootpath)<_MAX_PATH); strcpy(filename,cprootpath); strcat(filename,name); fp=fopen(filename,"rt"); } /* if */ if (fp==NULL) { /* try opening the file in the "root path" for codepages, with a ".txt" extension */ if (strlen(name)+4>=MAXCODEPAGE) return 0; assert(strlen(filename)+4<_MAX_PATH); strcat(filename,".txt"); fp=fopen(filename,"rt"); } /* if */ if (fp==NULL) { /* try opening the file in the "root path" for codepages, with "cp" prefixed before the name */ if (strlen(name)+2>MAXCODEPAGE) return 0; assert(2+strlen(name)+strlen(cprootpath)<_MAX_PATH); strcpy(filename,cprootpath); strcat(filename,"cp"); strcat(filename,name); fp=fopen(filename,"rt"); } /* if */ if (fp==NULL) { /* try opening the file in the "root path" for codepages, with "cp" prefixed an ".txt" appended */ if (strlen(name)+2+4>MAXCODEPAGE) return 0; assert(strlen(filename)+4<_MAX_PATH); strcat(filename,".txt"); fp=fopen(filename,"rt"); } /* if */ if (fp==NULL) return FALSE; /* all failed */ /* clear the tables */ for (index=0; index0 && wordtable!=NULL); if (wordtable!=NULL) { free(wordtable); wordtable=NULL; wordtablesize=0; wordtabletop=0; } /* if */ /* read in the table */ while (cp_readline(fp,filename,sizeof filename)) { char *ptr; if ((ptr=strchr(filename,'#'))!=NULL) *ptr='\0'; /* strip of comment */ for (ptr=filename; *ptr>0 && *ptr<' '; ptr++) /* nothing */; /* skip leading whitespace */ if (*ptr!='\0') { /* content on line */ unsigned code=LEADBYTE; int num=sscanf(ptr,"%i %i",&index,&code); /* if sscanf() returns 1 and the index is in range 0..255, then the * code is a DBCS lead byte; if sscanf() returns 2 and index>=256, this * is a double byte pair (lead byte + follower) */ if (num>=1 && index<256) { bytetable[index]=(wchar_t)code; } else if (num==2 && index>=256 && index=wordtablesize) { /* grow the list */ int newsize; struct wordpair *newblock; newsize= (wordtablesize==0) ? 128 : 2*wordtablesize; newblock=(struct wordpair *)malloc(newsize*sizeof(*wordtable)); if (newblock!=NULL) { memcpy(newblock,wordtable,wordtabletop*sizeof(*wordtable)); free(wordtable); wordtable=newblock; wordtablesize=newsize; } /* if */ } /* if */ if (wordtabletop0 && (unsigned)wordtable[pos-1].index>index) { wordtable[pos]=wordtable[pos-1]; pos--; } /* while */ wordtable[pos].index=(unsigned short)index; wordtable[pos].code=(wchar_t)code; } /* if */ } /* if */ } /* if */ } /* while */ fclose(fp); return TRUE; } SC_FUNC cell cp_translate(const unsigned char *string,const unsigned char **endptr) { wchar_t result; result=bytetable[*string++]; /* check whether this is a leader code */ if ((unsigned)result==LEADBYTE && wordtable!=NULL) { /* look up the code via binary search */ int low,high,mid; unsigned short index=(unsigned short)(((*(string-1)) << 8) | *string); string++; assert(wordtabletop>0); low=0; high=wordtabletop-1; while (lowwordtable[mid].index) low=mid+1; else high=mid; } /* while */ assert(low==high); if (wordtable[low].index==index) result=wordtable[low].code; } /* if */ if (endptr!=NULL) *endptr=string; return (cell)result; } #endif /* NO_CODEPAGE */ #if !defined NO_UTF8 SC_FUNC cell get_utf8_char(const unsigned char *string,const unsigned char **endptr) { int follow=0; long lowmark=0; unsigned char ch; cell result=0; if (endptr!=NULL) *endptr=string; for ( ;; ) { ch=*string++; if (follow>0 && (ch & 0xc0)==0x80) { /* leader code is active, combine with earlier code */ result=(result << 6) | (ch & 0x3f); if (--follow==0) { /* encoding a character in more bytes than is strictly needed, * is not really valid UTF-8; we are strict here to increase * the chance of heuristic dectection of non-UTF-8 text * (JAVA writes zero bytes as a 2-byte code UTF-8, which is invalid) */ if (result=0xd800 && result<=0xdfff || result==0xfffe || result==0xffff) return -1; } /* if */ break; } else if (follow==0 && (ch & 0x80)==0x80) { /* UTF-8 leader code */ if ((ch & 0xe0)==0xc0) { /* 110xxxxx 10xxxxxx */ follow=1; lowmark=0x80L; result=ch & 0x1f; } else if ((ch & 0xf0)==0xe0) { /* 1110xxxx 10xxxxxx 10xxxxxx (16 bits, BMP plane) */ follow=2; lowmark=0x800L; result=ch & 0x0f; } else if ((ch & 0xf8)==0xf0) { /* 11110xxx 10xxxxxx 10xxxxxx 10xxxxxx */ follow=3; lowmark=0x10000L; result=ch & 0x07; } else if ((ch & 0xfc)==0xf8) { /* 111110xx 10xxxxxx 10xxxxxx 10xxxxxx 10xxxxxx */ follow=4; lowmark=0x200000L; result=ch & 0x03; } else if ((ch & 0xfe)==0xfc) { /* 1111110x 10xxxxxx 10xxxxxx 10xxxxxx 10xxxxxx 10xxxxxx (32 bits) */ follow=5; lowmark=0x4000000L; result=ch & 0x01; } else { /* this is invalid UTF-8 */ return -1; } /* if */ } else if (follow==0 && (ch & 0x80)==0x00) { /* 0xxxxxxx (US-ASCII) */ result=ch; break; } else { /* this is invalid UTF-8 */ return -1; } /* if */ } /* for */ if (endptr!=NULL) *endptr=string; return result; } #endif SC_FUNC int scan_utf8(FILE *fp,const char *filename) { #if defined NO_UTF8 return 0; #else void *resetpos=pc_getpossrc(fp); int utf8=TRUE; int firstchar=TRUE,bom_found=FALSE; const unsigned char *ptr; while (utf8 && pc_readsrc(fp,pline,sLINEMAX)!=NULL) { ptr=pline; if (firstchar) { /* check whether the very first character on the very first line * starts with a BYTE order mark */ cell c=get_utf8_char(ptr,&ptr); bom_found= (c==0xfeff); utf8= (c>=0); firstchar=FALSE; } /* if */ while (utf8 && *ptr!='\0') utf8= (get_utf8_char(ptr,&ptr)>=0); } /* while */ pc_resetsrc(fp,resetpos); if (bom_found) { unsigned char bom[3]; if (!utf8) error(77,filename); /* malformed UTF-8 encoding */ pc_readsrc(fp,bom,3); assert(bom[0]==0xef && bom[1]==0xbb && bom[2]==0xbf); } /* if */ return utf8; #endif /* NO_UTF8 */ }