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|
// Copyright (C) 2016 and later: Unicode, Inc. and others.
// License & terms of use: http://www.unicode.org/copyright.html
/*
*******************************************************************************
*
* Copyright (C) 2003-2013, International Business Machines
* Corporation and others. All Rights Reserved.
*
*******************************************************************************
* file name: ucm.c
* encoding: US-ASCII
* tab size: 8 (not used)
* indentation:4
*
* created on: 2003jun20
* created by: Markus W. Scherer
*
* This file reads a .ucm file, stores its mappings and sorts them.
* It implements handling of Unicode conversion mappings from .ucm files
* for makeconv, canonucm, rptp2ucm, etc.
*
* Unicode code point sequences with a length of more than 1,
* as well as byte sequences with more than 4 bytes or more than one complete
* character sequence are handled to support m:n mappings.
*/
#include "unicode/utypes.h"
#include "unicode/ustring.h"
#include "cstring.h"
#include "cmemory.h"
#include "filestrm.h"
#include "uarrsort.h"
#include "ucnvmbcs.h"
#include "ucnv_bld.h"
#include "ucnv_ext.h"
#include "uparse.h"
#include "ucm.h"
#include <stdio.h>
#if !UCONFIG_NO_CONVERSION
/* -------------------------------------------------------------------------- */
static void
printMapping(UCMapping *m, UChar32 *codePoints, uint8_t *bytes, FILE *f) {
int32_t j;
for(j=0; j<m->uLen; ++j) {
fprintf(f, "<U%04lX>", (long)codePoints[j]);
}
fputc(' ', f);
for(j=0; j<m->bLen; ++j) {
fprintf(f, "\\x%02X", bytes[j]);
}
if(m->f>=0) {
fprintf(f, " |%u\n", m->f);
} else {
fputs("\n", f);
}
}
U_CAPI void U_EXPORT2
ucm_printMapping(UCMTable *table, UCMapping *m, FILE *f) {
printMapping(m, UCM_GET_CODE_POINTS(table, m), UCM_GET_BYTES(table, m), f);
}
U_CAPI void U_EXPORT2
ucm_printTable(UCMTable *table, FILE *f, UBool byUnicode) {
UCMapping *m;
int32_t i, length;
m=table->mappings;
length=table->mappingsLength;
if(byUnicode) {
for(i=0; i<length; ++m, ++i) {
ucm_printMapping(table, m, f);
}
} else {
const int32_t *map=table->reverseMap;
for(i=0; i<length; ++i) {
ucm_printMapping(table, m+map[i], f);
}
}
}
/* mapping comparisons ------------------------------------------------------ */
static int32_t
compareUnicode(UCMTable *lTable, const UCMapping *l,
UCMTable *rTable, const UCMapping *r) {
const UChar32 *lu, *ru;
int32_t result, i, length;
if(l->uLen==1 && r->uLen==1) {
/* compare two single code points */
return l->u-r->u;
}
/* get pointers to the code point sequences */
lu=UCM_GET_CODE_POINTS(lTable, l);
ru=UCM_GET_CODE_POINTS(rTable, r);
/* get the minimum length */
if(l->uLen<=r->uLen) {
length=l->uLen;
} else {
length=r->uLen;
}
/* compare the code points */
for(i=0; i<length; ++i) {
result=lu[i]-ru[i];
if(result!=0) {
return result;
}
}
/* compare the lengths */
return l->uLen-r->uLen;
}
static int32_t
compareBytes(UCMTable *lTable, const UCMapping *l,
UCMTable *rTable, const UCMapping *r,
UBool lexical) {
const uint8_t *lb, *rb;
int32_t result, i, length;
/*
* A lexical comparison is used for sorting in the builder, to allow
* an efficient search for a byte sequence that could be a prefix
* of a previously entered byte sequence.
*
* Comparing by lengths first is for compatibility with old .ucm tools
* like canonucm and rptp2ucm.
*/
if(lexical) {
/* get the minimum length and continue */
if(l->bLen<=r->bLen) {
length=l->bLen;
} else {
length=r->bLen;
}
} else {
/* compare lengths first */
result=l->bLen-r->bLen;
if(result!=0) {
return result;
} else {
length=l->bLen;
}
}
/* get pointers to the byte sequences */
lb=UCM_GET_BYTES(lTable, l);
rb=UCM_GET_BYTES(rTable, r);
/* compare the bytes */
for(i=0; i<length; ++i) {
result=lb[i]-rb[i];
if(result!=0) {
return result;
}
}
/* compare the lengths */
return l->bLen-r->bLen;
}
/* compare UCMappings for sorting */
static int32_t
compareMappings(UCMTable *lTable, const UCMapping *l,
UCMTable *rTable, const UCMapping *r,
UBool uFirst) {
int32_t result;
/* choose which side to compare first */
if(uFirst) {
/* Unicode then bytes */
result=compareUnicode(lTable, l, rTable, r);
if(result==0) {
result=compareBytes(lTable, l, rTable, r, FALSE); /* not lexically, like canonucm */
}
} else {
/* bytes then Unicode */
result=compareBytes(lTable, l, rTable, r, TRUE); /* lexically, for builder */
if(result==0) {
result=compareUnicode(lTable, l, rTable, r);
}
}
if(result!=0) {
return result;
}
/* compare the flags */
return l->f-r->f;
}
/* sorting by Unicode first sorts mappings directly */
static int32_t
compareMappingsUnicodeFirst(const void *context, const void *left, const void *right) {
return compareMappings(
(UCMTable *)context, (const UCMapping *)left,
(UCMTable *)context, (const UCMapping *)right, TRUE);
}
/* sorting by bytes first sorts the reverseMap; use indirection to mappings */
static int32_t
compareMappingsBytesFirst(const void *context, const void *left, const void *right) {
UCMTable *table=(UCMTable *)context;
int32_t l=*(const int32_t *)left, r=*(const int32_t *)right;
return compareMappings(
table, table->mappings+l,
table, table->mappings+r, FALSE);
}
U_CAPI void U_EXPORT2
ucm_sortTable(UCMTable *t) {
UErrorCode errorCode;
int32_t i;
if(t->isSorted) {
return;
}
errorCode=U_ZERO_ERROR;
/* 1. sort by Unicode first */
uprv_sortArray(t->mappings, t->mappingsLength, sizeof(UCMapping),
compareMappingsUnicodeFirst, t,
FALSE, &errorCode);
/* build the reverseMap */
if(t->reverseMap==NULL) {
/*
* allocate mappingsCapacity instead of mappingsLength so that
* if mappings are added, the reverseMap need not be
* reallocated each time
* (see ucm_moveMappings() and ucm_addMapping())
*/
t->reverseMap=(int32_t *)uprv_malloc(t->mappingsCapacity*sizeof(int32_t));
if(t->reverseMap==NULL) {
fprintf(stderr, "ucm error: unable to allocate reverseMap\n");
exit(U_MEMORY_ALLOCATION_ERROR);
}
}
for(i=0; i<t->mappingsLength; ++i) {
t->reverseMap[i]=i;
}
/* 2. sort reverseMap by mappings bytes first */
uprv_sortArray(t->reverseMap, t->mappingsLength, sizeof(int32_t),
compareMappingsBytesFirst, t,
FALSE, &errorCode);
if(U_FAILURE(errorCode)) {
fprintf(stderr, "ucm error: sortTable()/uprv_sortArray() fails - %s\n",
u_errorName(errorCode));
exit(errorCode);
}
t->isSorted=TRUE;
}
/*
* remove mappings with their move flag set from the base table
* and move some of them (with UCM_MOVE_TO_EXT) to the extension table
*/
U_CAPI void U_EXPORT2
ucm_moveMappings(UCMTable *base, UCMTable *ext) {
UCMapping *mb, *mbLimit;
int8_t flag;
mb=base->mappings;
mbLimit=mb+base->mappingsLength;
while(mb<mbLimit) {
flag=mb->moveFlag;
if(flag!=0) {
/* reset the move flag */
mb->moveFlag=0;
if(ext!=NULL && (flag&UCM_MOVE_TO_EXT)) {
/* add the mapping to the extension table */
ucm_addMapping(ext, mb, UCM_GET_CODE_POINTS(base, mb), UCM_GET_BYTES(base, mb));
}
/* remove this mapping: move the last base mapping down and overwrite the current one */
if(mb<(mbLimit-1)) {
uprv_memcpy(mb, mbLimit-1, sizeof(UCMapping));
}
--mbLimit;
--base->mappingsLength;
base->isSorted=FALSE;
} else {
++mb;
}
}
}
enum {
NEEDS_MOVE=1,
HAS_ERRORS=2
};
static uint8_t
checkBaseExtUnicode(UCMStates *baseStates, UCMTable *base, UCMTable *ext,
UBool moveToExt, UBool intersectBase) {
UCMapping *mb, *me, *mbLimit, *meLimit;
int32_t cmp;
uint8_t result;
mb=base->mappings;
mbLimit=mb+base->mappingsLength;
me=ext->mappings;
meLimit=me+ext->mappingsLength;
result=0;
for(;;) {
/* skip irrelevant mappings on both sides */
for(;;) {
if(mb==mbLimit) {
return result;
}
if((0<=mb->f && mb->f<=2) || mb->f==4) {
break;
}
++mb;
}
for(;;) {
if(me==meLimit) {
return result;
}
if((0<=me->f && me->f<=2) || me->f==4) {
break;
}
++me;
}
/* compare the base and extension mappings */
cmp=compareUnicode(base, mb, ext, me);
if(cmp<0) {
if(intersectBase && (intersectBase!=2 || mb->bLen>1)) {
/*
* mapping in base but not in ext, move it
*
* if ext is DBCS, move DBCS mappings here
* and check SBCS ones for Unicode prefix below
*/
mb->moveFlag|=UCM_MOVE_TO_EXT;
result|=NEEDS_MOVE;
/* does mb map from an input sequence that is a prefix of me's? */
} else if( mb->uLen<me->uLen &&
0==uprv_memcmp(UCM_GET_CODE_POINTS(base, mb), UCM_GET_CODE_POINTS(ext, me), 4*mb->uLen)
) {
if(moveToExt) {
/* mark this mapping to be moved to the extension table */
mb->moveFlag|=UCM_MOVE_TO_EXT;
result|=NEEDS_MOVE;
} else {
fprintf(stderr,
"ucm error: the base table contains a mapping whose input sequence\n"
" is a prefix of the input sequence of an extension mapping\n");
ucm_printMapping(base, mb, stderr);
ucm_printMapping(ext, me, stderr);
result|=HAS_ERRORS;
}
}
++mb;
} else if(cmp==0) {
/*
* same output: remove the extension mapping,
* otherwise treat as an error
*/
if( mb->f==me->f && mb->bLen==me->bLen &&
0==uprv_memcmp(UCM_GET_BYTES(base, mb), UCM_GET_BYTES(ext, me), mb->bLen)
) {
me->moveFlag|=UCM_REMOVE_MAPPING;
result|=NEEDS_MOVE;
} else if(intersectBase) {
/* mapping in base but not in ext, move it */
mb->moveFlag|=UCM_MOVE_TO_EXT;
result|=NEEDS_MOVE;
} else {
fprintf(stderr,
"ucm error: the base table contains a mapping whose input sequence\n"
" is the same as the input sequence of an extension mapping\n"
" but it maps differently\n");
ucm_printMapping(base, mb, stderr);
ucm_printMapping(ext, me, stderr);
result|=HAS_ERRORS;
}
++mb;
} else /* cmp>0 */ {
++me;
}
}
}
static uint8_t
checkBaseExtBytes(UCMStates *baseStates, UCMTable *base, UCMTable *ext,
UBool moveToExt, UBool intersectBase) {
UCMapping *mb, *me;
int32_t *baseMap, *extMap;
int32_t b, e, bLimit, eLimit, cmp;
uint8_t result;
UBool isSISO;
baseMap=base->reverseMap;
extMap=ext->reverseMap;
b=e=0;
bLimit=base->mappingsLength;
eLimit=ext->mappingsLength;
result=0;
isSISO=(UBool)(baseStates->outputType==MBCS_OUTPUT_2_SISO);
for(;;) {
/* skip irrelevant mappings on both sides */
for(;; ++b) {
if(b==bLimit) {
return result;
}
mb=base->mappings+baseMap[b];
if(intersectBase==2 && mb->bLen==1) {
/*
* comparing a base against a DBCS extension:
* leave SBCS base mappings alone
*/
continue;
}
if(mb->f==0 || mb->f==3) {
break;
}
}
for(;;) {
if(e==eLimit) {
return result;
}
me=ext->mappings+extMap[e];
if(me->f==0 || me->f==3) {
break;
}
++e;
}
/* compare the base and extension mappings */
cmp=compareBytes(base, mb, ext, me, TRUE);
if(cmp<0) {
if(intersectBase) {
/* mapping in base but not in ext, move it */
mb->moveFlag|=UCM_MOVE_TO_EXT;
result|=NEEDS_MOVE;
/*
* does mb map from an input sequence that is a prefix of me's?
* for SI/SO tables, a single byte is never a prefix because it
* occurs in a separate single-byte state
*/
} else if( mb->bLen<me->bLen &&
(!isSISO || mb->bLen>1) &&
0==uprv_memcmp(UCM_GET_BYTES(base, mb), UCM_GET_BYTES(ext, me), mb->bLen)
) {
if(moveToExt) {
/* mark this mapping to be moved to the extension table */
mb->moveFlag|=UCM_MOVE_TO_EXT;
result|=NEEDS_MOVE;
} else {
fprintf(stderr,
"ucm error: the base table contains a mapping whose input sequence\n"
" is a prefix of the input sequence of an extension mapping\n");
ucm_printMapping(base, mb, stderr);
ucm_printMapping(ext, me, stderr);
result|=HAS_ERRORS;
}
}
++b;
} else if(cmp==0) {
/*
* same output: remove the extension mapping,
* otherwise treat as an error
*/
if( mb->f==me->f && mb->uLen==me->uLen &&
0==uprv_memcmp(UCM_GET_CODE_POINTS(base, mb), UCM_GET_CODE_POINTS(ext, me), 4*mb->uLen)
) {
me->moveFlag|=UCM_REMOVE_MAPPING;
result|=NEEDS_MOVE;
} else if(intersectBase) {
/* mapping in base but not in ext, move it */
mb->moveFlag|=UCM_MOVE_TO_EXT;
result|=NEEDS_MOVE;
} else {
fprintf(stderr,
"ucm error: the base table contains a mapping whose input sequence\n"
" is the same as the input sequence of an extension mapping\n"
" but it maps differently\n");
ucm_printMapping(base, mb, stderr);
ucm_printMapping(ext, me, stderr);
result|=HAS_ERRORS;
}
++b;
} else /* cmp>0 */ {
++e;
}
}
}
U_CAPI UBool U_EXPORT2
ucm_checkValidity(UCMTable *table, UCMStates *baseStates) {
UCMapping *m, *mLimit;
int32_t count;
UBool isOK;
m=table->mappings;
mLimit=m+table->mappingsLength;
isOK=TRUE;
while(m<mLimit) {
count=ucm_countChars(baseStates, UCM_GET_BYTES(table, m), m->bLen);
if(count<1) {
ucm_printMapping(table, m, stderr);
isOK=FALSE;
}
++m;
}
return isOK;
}
U_CAPI UBool U_EXPORT2
ucm_checkBaseExt(UCMStates *baseStates,
UCMTable *base, UCMTable *ext, UCMTable *moveTarget,
UBool intersectBase) {
uint8_t result;
/* if we have an extension table, we must always use precision flags */
if(base->flagsType&UCM_FLAGS_IMPLICIT) {
fprintf(stderr, "ucm error: the base table contains mappings without precision flags\n");
return FALSE;
}
if(ext->flagsType&UCM_FLAGS_IMPLICIT) {
fprintf(stderr, "ucm error: extension table contains mappings without precision flags\n");
return FALSE;
}
/* checking requires both tables to be sorted */
ucm_sortTable(base);
ucm_sortTable(ext);
/* check */
result=
checkBaseExtUnicode(baseStates, base, ext, (UBool)(moveTarget!=NULL), intersectBase)|
checkBaseExtBytes(baseStates, base, ext, (UBool)(moveTarget!=NULL), intersectBase);
if(result&HAS_ERRORS) {
return FALSE;
}
if(result&NEEDS_MOVE) {
ucm_moveMappings(ext, NULL);
ucm_moveMappings(base, moveTarget);
ucm_sortTable(base);
ucm_sortTable(ext);
if(moveTarget!=NULL) {
ucm_sortTable(moveTarget);
}
}
return TRUE;
}
/* merge tables for rptp2ucm ------------------------------------------------ */
U_CAPI void U_EXPORT2
ucm_mergeTables(UCMTable *fromUTable, UCMTable *toUTable,
const uint8_t *subchar, int32_t subcharLength,
uint8_t subchar1) {
UCMapping *fromUMapping, *toUMapping;
int32_t fromUIndex, toUIndex, fromUTop, toUTop, cmp;
ucm_sortTable(fromUTable);
ucm_sortTable(toUTable);
fromUMapping=fromUTable->mappings;
toUMapping=toUTable->mappings;
fromUTop=fromUTable->mappingsLength;
toUTop=toUTable->mappingsLength;
fromUIndex=toUIndex=0;
while(fromUIndex<fromUTop && toUIndex<toUTop) {
cmp=compareMappings(fromUTable, fromUMapping, toUTable, toUMapping, TRUE);
if(cmp==0) {
/* equal: roundtrip, nothing to do (flags are initially 0) */
++fromUMapping;
++toUMapping;
++fromUIndex;
++toUIndex;
} else if(cmp<0) {
/*
* the fromU mapping does not have a toU counterpart:
* fallback Unicode->codepage
*/
if( (fromUMapping->bLen==subcharLength &&
0==uprv_memcmp(UCM_GET_BYTES(fromUTable, fromUMapping), subchar, subcharLength)) ||
(subchar1!=0 && fromUMapping->bLen==1 && fromUMapping->b.bytes[0]==subchar1)
) {
fromUMapping->f=2; /* SUB mapping */
} else {
fromUMapping->f=1; /* normal fallback */
}
++fromUMapping;
++fromUIndex;
} else {
/*
* the toU mapping does not have a fromU counterpart:
* (reverse) fallback codepage->Unicode, copy it to the fromU table
*/
/* ignore reverse fallbacks to Unicode SUB */
if(!(toUMapping->uLen==1 && (toUMapping->u==0xfffd || toUMapping->u==0x1a))) {
toUMapping->f=3; /* reverse fallback */
ucm_addMapping(fromUTable, toUMapping, UCM_GET_CODE_POINTS(toUTable, toUMapping), UCM_GET_BYTES(toUTable, toUMapping));
/* the table may have been reallocated */
fromUMapping=fromUTable->mappings+fromUIndex;
}
++toUMapping;
++toUIndex;
}
}
/* either one or both tables are exhausted */
while(fromUIndex<fromUTop) {
/* leftover fromU mappings are fallbacks */
if( (fromUMapping->bLen==subcharLength &&
0==uprv_memcmp(UCM_GET_BYTES(fromUTable, fromUMapping), subchar, subcharLength)) ||
(subchar1!=0 && fromUMapping->bLen==1 && fromUMapping->b.bytes[0]==subchar1)
) {
fromUMapping->f=2; /* SUB mapping */
} else {
fromUMapping->f=1; /* normal fallback */
}
++fromUMapping;
++fromUIndex;
}
while(toUIndex<toUTop) {
/* leftover toU mappings are reverse fallbacks */
/* ignore reverse fallbacks to Unicode SUB */
if(!(toUMapping->uLen==1 && (toUMapping->u==0xfffd || toUMapping->u==0x1a))) {
toUMapping->f=3; /* reverse fallback */
ucm_addMapping(fromUTable, toUMapping, UCM_GET_CODE_POINTS(toUTable, toUMapping), UCM_GET_BYTES(toUTable, toUMapping));
}
++toUMapping;
++toUIndex;
}
fromUTable->isSorted=FALSE;
}
/* separate extension mappings out of base table for rptp2ucm --------------- */
U_CAPI UBool U_EXPORT2
ucm_separateMappings(UCMFile *ucm, UBool isSISO) {
UCMTable *table;
UCMapping *m, *mLimit;
int32_t type;
UBool needsMove, isOK;
table=ucm->base;
m=table->mappings;
mLimit=m+table->mappingsLength;
needsMove=FALSE;
isOK=TRUE;
for(; m<mLimit; ++m) {
if(isSISO && m->bLen==1 && (m->b.bytes[0]==0xe || m->b.bytes[0]==0xf)) {
fprintf(stderr, "warning: removing illegal mapping from an SI/SO-stateful table\n");
ucm_printMapping(table, m, stderr);
m->moveFlag|=UCM_REMOVE_MAPPING;
needsMove=TRUE;
continue;
}
type=ucm_mappingType(
&ucm->states, m,
UCM_GET_CODE_POINTS(table, m), UCM_GET_BYTES(table, m));
if(type<0) {
/* illegal byte sequence */
printMapping(m, UCM_GET_CODE_POINTS(table, m), UCM_GET_BYTES(table, m), stderr);
isOK=FALSE;
} else if(type>0) {
m->moveFlag|=UCM_MOVE_TO_EXT;
needsMove=TRUE;
}
}
if(!isOK) {
return FALSE;
}
if(needsMove) {
ucm_moveMappings(ucm->base, ucm->ext);
return ucm_checkBaseExt(&ucm->states, ucm->base, ucm->ext, ucm->ext, FALSE);
} else {
ucm_sortTable(ucm->base);
return TRUE;
}
}
/* ucm parser --------------------------------------------------------------- */
U_CAPI int8_t U_EXPORT2
ucm_parseBytes(uint8_t bytes[UCNV_EXT_MAX_BYTES], const char *line, const char **ps) {
const char *s=*ps;
char *end;
uint8_t byte;
int8_t bLen;
bLen=0;
for(;;) {
/* skip an optional plus sign */
if(bLen>0 && *s=='+') {
++s;
}
if(*s!='\\') {
break;
}
if( s[1]!='x' ||
(byte=(uint8_t)uprv_strtoul(s+2, &end, 16), end)!=s+4
) {
fprintf(stderr, "ucm error: byte must be formatted as \\xXX (2 hex digits) - \"%s\"\n", line);
return -1;
}
if(bLen==UCNV_EXT_MAX_BYTES) {
fprintf(stderr, "ucm error: too many bytes on \"%s\"\n", line);
return -1;
}
bytes[bLen++]=byte;
s=end;
}
*ps=s;
return bLen;
}
/* parse a mapping line; must not be empty */
U_CAPI UBool U_EXPORT2
ucm_parseMappingLine(UCMapping *m,
UChar32 codePoints[UCNV_EXT_MAX_UCHARS],
uint8_t bytes[UCNV_EXT_MAX_BYTES],
const char *line) {
const char *s;
char *end;
UChar32 cp;
int32_t u16Length;
int8_t uLen, bLen, f;
s=line;
uLen=bLen=0;
/* parse code points */
for(;;) {
/* skip an optional plus sign */
if(uLen>0 && *s=='+') {
++s;
}
if(*s!='<') {
break;
}
if( s[1]!='U' ||
(cp=(UChar32)uprv_strtoul(s+2, &end, 16), end)==s+2 ||
*end!='>'
) {
fprintf(stderr, "ucm error: Unicode code point must be formatted as <UXXXX> (1..6 hex digits) - \"%s\"\n", line);
return FALSE;
}
if((uint32_t)cp>0x10ffff || U_IS_SURROGATE(cp)) {
fprintf(stderr, "ucm error: Unicode code point must be 0..d7ff or e000..10ffff - \"%s\"\n", line);
return FALSE;
}
if(uLen==UCNV_EXT_MAX_UCHARS) {
fprintf(stderr, "ucm error: too many code points on \"%s\"\n", line);
return FALSE;
}
codePoints[uLen++]=cp;
s=end+1;
}
if(uLen==0) {
fprintf(stderr, "ucm error: no Unicode code points on \"%s\"\n", line);
return FALSE;
} else if(uLen==1) {
m->u=codePoints[0];
} else {
UErrorCode errorCode=U_ZERO_ERROR;
u_strFromUTF32(NULL, 0, &u16Length, codePoints, uLen, &errorCode);
if( (U_FAILURE(errorCode) && errorCode!=U_BUFFER_OVERFLOW_ERROR) ||
u16Length>UCNV_EXT_MAX_UCHARS
) {
fprintf(stderr, "ucm error: too many UChars on \"%s\"\n", line);
return FALSE;
}
}
s=u_skipWhitespace(s);
/* parse bytes */
bLen=ucm_parseBytes(bytes, line, &s);
if(bLen<0) {
return FALSE;
} else if(bLen==0) {
fprintf(stderr, "ucm error: no bytes on \"%s\"\n", line);
return FALSE;
} else if(bLen<=4) {
uprv_memcpy(m->b.bytes, bytes, bLen);
}
/* skip everything until the fallback indicator, even the start of a comment */
for(;;) {
if(*s==0) {
f=-1; /* no fallback indicator */
break;
} else if(*s=='|') {
f=(int8_t)(s[1]-'0');
if((uint8_t)f>4) {
fprintf(stderr, "ucm error: fallback indicator must be |0..|4 - \"%s\"\n", line);
return FALSE;
}
break;
}
++s;
}
m->uLen=uLen;
m->bLen=bLen;
m->f=f;
return TRUE;
}
/* general APIs ------------------------------------------------------------- */
U_CAPI UCMTable * U_EXPORT2
ucm_openTable() {
UCMTable *table=(UCMTable *)uprv_malloc(sizeof(UCMTable));
if(table==NULL) {
fprintf(stderr, "ucm error: unable to allocate a UCMTable\n");
exit(U_MEMORY_ALLOCATION_ERROR);
}
memset(table, 0, sizeof(UCMTable));
return table;
}
U_CAPI void U_EXPORT2
ucm_closeTable(UCMTable *table) {
if(table!=NULL) {
uprv_free(table->mappings);
uprv_free(table->codePoints);
uprv_free(table->bytes);
uprv_free(table->reverseMap);
uprv_free(table);
}
}
U_CAPI void U_EXPORT2
ucm_resetTable(UCMTable *table) {
if(table!=NULL) {
table->mappingsLength=0;
table->flagsType=0;
table->unicodeMask=0;
table->bytesLength=table->codePointsLength=0;
table->isSorted=FALSE;
}
}
U_CAPI void U_EXPORT2
ucm_addMapping(UCMTable *table,
UCMapping *m,
UChar32 codePoints[UCNV_EXT_MAX_UCHARS],
uint8_t bytes[UCNV_EXT_MAX_BYTES]) {
UCMapping *tm;
UChar32 c;
int32_t idx;
if(table->mappingsLength>=table->mappingsCapacity) {
/* make the mappings array larger */
if(table->mappingsCapacity==0) {
table->mappingsCapacity=1000;
} else {
table->mappingsCapacity*=10;
}
table->mappings=(UCMapping *)uprv_realloc(table->mappings,
table->mappingsCapacity*sizeof(UCMapping));
if(table->mappings==NULL) {
fprintf(stderr, "ucm error: unable to allocate %d UCMappings\n",
(int)table->mappingsCapacity);
exit(U_MEMORY_ALLOCATION_ERROR);
}
if(table->reverseMap!=NULL) {
/* the reverseMap must be reallocated in a new sort */
uprv_free(table->reverseMap);
table->reverseMap=NULL;
}
}
if(m->uLen>1 && table->codePointsCapacity==0) {
table->codePointsCapacity=10000;
table->codePoints=(UChar32 *)uprv_malloc(table->codePointsCapacity*4);
if(table->codePoints==NULL) {
fprintf(stderr, "ucm error: unable to allocate %d UChar32s\n",
(int)table->codePointsCapacity);
exit(U_MEMORY_ALLOCATION_ERROR);
}
}
if(m->bLen>4 && table->bytesCapacity==0) {
table->bytesCapacity=10000;
table->bytes=(uint8_t *)uprv_malloc(table->bytesCapacity);
if(table->bytes==NULL) {
fprintf(stderr, "ucm error: unable to allocate %d bytes\n",
(int)table->bytesCapacity);
exit(U_MEMORY_ALLOCATION_ERROR);
}
}
if(m->uLen>1) {
idx=table->codePointsLength;
table->codePointsLength+=m->uLen;
if(table->codePointsLength>table->codePointsCapacity) {
fprintf(stderr, "ucm error: too many code points in multiple-code point mappings\n");
exit(U_MEMORY_ALLOCATION_ERROR);
}
uprv_memcpy(table->codePoints+idx, codePoints, (size_t)m->uLen*4);
m->u=idx;
}
if(m->bLen>4) {
idx=table->bytesLength;
table->bytesLength+=m->bLen;
if(table->bytesLength>table->bytesCapacity) {
fprintf(stderr, "ucm error: too many bytes in mappings with >4 charset bytes\n");
exit(U_MEMORY_ALLOCATION_ERROR);
}
uprv_memcpy(table->bytes+idx, bytes, m->bLen);
m->b.idx=idx;
}
/* set unicodeMask */
for(idx=0; idx<m->uLen; ++idx) {
c=codePoints[idx];
if(c>=0x10000) {
table->unicodeMask|=UCNV_HAS_SUPPLEMENTARY; /* there are supplementary code points */
} else if(U_IS_SURROGATE(c)) {
table->unicodeMask|=UCNV_HAS_SURROGATES; /* there are surrogate code points */
}
}
/* set flagsType */
if(m->f<0) {
table->flagsType|=UCM_FLAGS_IMPLICIT;
} else {
table->flagsType|=UCM_FLAGS_EXPLICIT;
}
tm=table->mappings+table->mappingsLength++;
uprv_memcpy(tm, m, sizeof(UCMapping));
table->isSorted=FALSE;
}
U_CAPI UCMFile * U_EXPORT2
ucm_open() {
UCMFile *ucm=(UCMFile *)uprv_malloc(sizeof(UCMFile));
if(ucm==NULL) {
fprintf(stderr, "ucm error: unable to allocate a UCMFile\n");
exit(U_MEMORY_ALLOCATION_ERROR);
}
memset(ucm, 0, sizeof(UCMFile));
ucm->base=ucm_openTable();
ucm->ext=ucm_openTable();
ucm->states.stateFlags[0]=MBCS_STATE_FLAG_DIRECT;
ucm->states.conversionType=UCNV_UNSUPPORTED_CONVERTER;
ucm->states.outputType=-1;
ucm->states.minCharLength=ucm->states.maxCharLength=1;
return ucm;
}
U_CAPI void U_EXPORT2
ucm_close(UCMFile *ucm) {
if(ucm!=NULL) {
ucm_closeTable(ucm->base);
ucm_closeTable(ucm->ext);
uprv_free(ucm);
}
}
U_CAPI int32_t U_EXPORT2
ucm_mappingType(UCMStates *baseStates,
UCMapping *m,
UChar32 codePoints[UCNV_EXT_MAX_UCHARS],
uint8_t bytes[UCNV_EXT_MAX_BYTES]) {
/* check validity of the bytes and count the characters in them */
int32_t count=ucm_countChars(baseStates, bytes, m->bLen);
if(count<1) {
/* illegal byte sequence */
return -1;
}
/*
* Suitable for an ICU conversion base table means:
* - a 1:1 mapping (1 Unicode code point : 1 byte sequence)
* - precision flag 0..3
* - SBCS: any 1:1 mapping
* (the table stores additional bits to distinguish mapping types)
* - MBCS: not a |2 SUB mapping for <subchar1>
* - MBCS: not a |1 fallback to 0x00
* - MBCS: not a multi-byte mapping with leading 0x00 bytes
*
* Further restrictions for fromUnicode tables
* are enforced in makeconv (MBCSOkForBaseFromUnicode()).
*
* All of the MBCS fromUnicode specific tests could be removed from here,
* but the ones above are for unusual mappings, and removing the tests
* from here would change canonucm output which seems gratuitous.
* (Markus Scherer 2006-nov-28)
*
* Exception: All implicit mappings (f<0) that need to be moved
* because of fromUnicode restrictions _must_ be moved here because
* makeconv uses a hack for moving mappings only for the fromUnicode table
* that only works with non-negative values of f.
*/
if( m->uLen==1 && count==1 && m->f<=3 &&
(baseStates->maxCharLength==1 ||
!((m->f==2 && m->bLen==1) ||
(m->f==1 && bytes[0]==0) ||
(m->f<=1 && m->bLen>1 && bytes[0]==0)))
) {
return 0; /* suitable for a base table */
} else {
return 1; /* needs to go into an extension table */
}
}
U_CAPI UBool U_EXPORT2
ucm_addMappingAuto(UCMFile *ucm, UBool forBase, UCMStates *baseStates,
UCMapping *m,
UChar32 codePoints[UCNV_EXT_MAX_UCHARS],
uint8_t bytes[UCNV_EXT_MAX_BYTES]) {
int32_t type;
if(m->f==2 && m->uLen>1) {
fprintf(stderr, "ucm error: illegal <subchar1> |2 mapping from multiple code points\n");
printMapping(m, codePoints, bytes, stderr);
return FALSE;
}
if(baseStates!=NULL) {
/* check validity of the bytes and count the characters in them */
type=ucm_mappingType(baseStates, m, codePoints, bytes);
if(type<0) {
/* illegal byte sequence */
printMapping(m, codePoints, bytes, stderr);
return FALSE;
}
} else {
/* not used - adding a mapping for an extension-only table before its base table is read */
type=1;
}
/*
* Add the mapping to the base table if this is requested and suitable.
* Otherwise, add it to the extension table.
*/
if(forBase && type==0) {
ucm_addMapping(ucm->base, m, codePoints, bytes);
} else {
ucm_addMapping(ucm->ext, m, codePoints, bytes);
}
return TRUE;
}
U_CAPI UBool U_EXPORT2
ucm_addMappingFromLine(UCMFile *ucm, const char *line, UBool forBase, UCMStates *baseStates) {
UCMapping m={ 0, {0}, 0, 0, 0, 0 };
UChar32 codePoints[UCNV_EXT_MAX_UCHARS];
uint8_t bytes[UCNV_EXT_MAX_BYTES];
const char *s;
/* ignore empty and comment lines */
if(line[0]=='#' || *(s=u_skipWhitespace(line))==0 || *s=='\n' || *s=='\r') {
return TRUE;
}
return
ucm_parseMappingLine(&m, codePoints, bytes, line) &&
ucm_addMappingAuto(ucm, forBase, baseStates, &m, codePoints, bytes);
}
U_CAPI void U_EXPORT2
ucm_readTable(UCMFile *ucm, FileStream* convFile,
UBool forBase, UCMStates *baseStates,
UErrorCode *pErrorCode) {
char line[500];
char *end;
UBool isOK;
if(U_FAILURE(*pErrorCode)) {
return;
}
isOK=TRUE;
for(;;) {
/* read the next line */
if(!T_FileStream_readLine(convFile, line, sizeof(line))) {
fprintf(stderr, "incomplete charmap section\n");
isOK=FALSE;
break;
}
/* remove CR LF */
end=uprv_strchr(line, 0);
while(line<end && (*(end-1)=='\r' || *(end-1)=='\n')) {
--end;
}
*end=0;
/* ignore empty and comment lines */
if(line[0]==0 || line[0]=='#') {
continue;
}
/* stop at the end of the mapping table */
if(0==uprv_strcmp(line, "END CHARMAP")) {
break;
}
isOK&=ucm_addMappingFromLine(ucm, line, forBase, baseStates);
}
if(!isOK) {
*pErrorCode=U_INVALID_TABLE_FORMAT;
}
}
#endif
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