/*
******************************************************************************
*
-* Copyright (C) 2000-2006,2008, International Business Machines
+* Copyright (C) 2000-2010, International Business Machines
* Corporation and others. All Rights Reserved.
*
******************************************************************************
#define MBCS_UNROLL_SINGLE_FROM_BMP 0
/*
- * _MBCSHeader versions 4.2
+ * _MBCSHeader versions 5.3 & 4.3
* (Note that the _MBCSHeader version is in addition to the converter formatVersion.)
*
+ * This version is optional. Version 5 is used for incompatible data format changes.
+ * makeconv will continue to generate version 4 files if possible.
+ *
+ * Changes from version 4:
+ *
+ * The main difference is an additional _MBCSHeader field with
+ * - the length (number of uint32_t) of the _MBCSHeader
+ * - flags for further incompatible data format changes
+ * - flags for further, backward compatible data format changes
+ *
+ * The MBCS_OPT_FROM_U flag indicates that most of the fromUnicode data is omitted from
+ * the file and needs to be reconstituted at load time.
+ * This requires a utf8Friendly format with an additional mbcsIndex table for fast
+ * (and UTF-8-friendly) fromUnicode conversion for Unicode code points up to maxFastUChar.
+ * (For details about these structures see below, and see ucnvmbcs.h.)
+ *
+ * utf8Friendly also implies that the fromUnicode mappings are stored in ascending order
+ * of the Unicode code points. (This requires that the .ucm file has the |0 etc.
+ * precision markers for all mappings.)
+ *
+ * All fallbacks have been moved to the extension table, leaving only roundtrips in the
+ * omitted data that can be reconstituted from the toUnicode data.
+ *
+ * Of the stage 2 table, the part corresponding to maxFastUChar and below is omitted.
+ * With only roundtrip mappings in the base fromUnicode data, this part is fully
+ * redundant with the mbcsIndex and will be reconstituted from that (also using the
+ * stage 1 table which contains the information about how stage 2 was compacted).
+ *
+ * The rest of the stage 2 table, the part for code points above maxFastUChar,
+ * is stored in the file and will be appended to the reconstituted part.
+ *
+ * The entire fromUBytes array is omitted from the file and will be reconstitued.
+ * This is done by enumerating all toUnicode roundtrip mappings, performing
+ * each mapping (using the stage 1 and reconstituted stage 2 tables) and
+ * writing instead of reading the byte values.
+ *
+ * _MBCSHeader version 4.3
+ *
+ * Change from version 4.2:
+ * - Optional utf8Friendly data structures, with 64-entry stage 3 block
+ * allocation for parts of the BMP, and an additional mbcsIndex in non-SBCS
+ * files which can be used instead of stages 1 & 2.
+ * Faster lookups for roundtrips from most commonly used characters,
+ * and lookups from UTF-8 byte sequences with a natural bit distribution.
+ * See ucnvmbcs.h for more details.
+ *
* Change from version 4.1:
* - Added an optional extension table structure at the end of the .cnv file.
* It is present if the upper bits of the header flags field contains a non-zero
* One trail byte state that results in code points, and one that only
* has "unassigned" and "illegal" terminal states.
*
- * Note: partly by accident, this data structure supports simple stateless
+ * Note: partly by accident, this data structure supports simple stateful
* encodings without any additional logic.
* Currently, only simple Shift-In/Shift-Out schemes are handled with
* appropriate state tables (especially EBCDIC_STATEFUL!).
* 0 unassigned
* Bits 7..0 contain the codepage byte. A zero byte is always possible.
*
+ * In version 4.3, the runtime code can build an sbcsIndex for a utf8Friendly
+ * file. For 2-byte UTF-8 byte sequences and some 3-byte sequences the lookup
+ * becomes a 2-stage (single-index) trie lookup with 6 bits for stage 3.
+ * ASCII code points can be looked up with a linear array access into stage 3.
+ * See maxFastUChar and other details in ucnvmbcs.h.
+ *
* Multi-byte lookup:
*
* Stage 2 contains a 32-bit word for each 16-block in stage 3:
* Note that stage 1 always contains 0x440=1088 entries (0x440==0x110000>>10),
* or (version 3 and up) for BMP-only codepages, it contains 64 entries.
*
+ * In version 4.3, a utf8Friendly file contains an mbcsIndex table.
+ * For 2-byte UTF-8 byte sequences and most 3-byte sequences the lookup
+ * becomes a 2-stage (single-index) trie lookup with 6 bits for stage 3.
+ * ASCII code points can be looked up with a linear array access into stage 3.
+ * See maxFastUChar, mbcsIndex and other details in ucnvmbcs.h.
+ *
* In version 3, stage 2 blocks may overlap by multiples of the multiplier
* for compaction.
* In version 4, stage 2 blocks (and for single-byte codepages, stage 3 blocks)
* adding new ones without crashing an unaware converter
*/
+static const UConverterImpl _SBCSUTF8Impl;
+static const UConverterImpl _DBCSUTF8Impl;
/* GB 18030 data ------------------------------------------------------------ */
/* bit flag for UConverter.options indicating GB 18030 special handling */
#define _MBCS_OPTION_GB18030 0x8000
+/* bit flag for UConverter.options indicating KEIS,JEF,JIF special handling */
+#define _MBCS_OPTION_KEIS 0x01000
+#define _MBCS_OPTION_JEF 0x02000
+#define _MBCS_OPTION_JIPS 0x04000
+
+#define KEIS_SO_CHAR_1 0x0A
+#define KEIS_SO_CHAR_2 0x42
+#define KEIS_SI_CHAR_1 0x0A
+#define KEIS_SI_CHAR_2 0x41
+
+#define JEF_SO_CHAR 0x28
+#define JEF_SI_CHAR 0x29
+
+#define JIPS_SO_CHAR_1 0x1A
+#define JIPS_SO_CHAR_2 0x70
+#define JIPS_SI_CHAR_1 0x1A
+#define JIPS_SI_CHAR_2 0x71
+
+enum SISO_Option {
+ SI,
+ SO
+};
+typedef enum SISO_Option SISO_Option;
+
+static int32_t getSISOBytes(SISO_Option option, uint32_t cnvOption, uint8_t *value) {
+ int32_t SISOLength = 0;
+
+ switch (option) {
+ case SI:
+ if ((cnvOption&_MBCS_OPTION_KEIS)!=0) {
+ value[0] = KEIS_SI_CHAR_1;
+ value[1] = KEIS_SI_CHAR_2;
+ SISOLength = 2;
+ } else if ((cnvOption&_MBCS_OPTION_JEF)!=0) {
+ value[0] = JEF_SI_CHAR;
+ SISOLength = 1;
+ } else if ((cnvOption&_MBCS_OPTION_JIPS)!=0) {
+ value[0] = JIPS_SI_CHAR_1;
+ value[1] = JIPS_SI_CHAR_2;
+ SISOLength = 2;
+ } else {
+ value[0] = UCNV_SI;
+ SISOLength = 1;
+ }
+ break;
+ case SO:
+ if ((cnvOption&_MBCS_OPTION_KEIS)!=0) {
+ value[0] = KEIS_SO_CHAR_1;
+ value[1] = KEIS_SO_CHAR_2;
+ SISOLength = 2;
+ } else if ((cnvOption&_MBCS_OPTION_JEF)!=0) {
+ value[0] = JEF_SO_CHAR;
+ SISOLength = 1;
+ } else if ((cnvOption&_MBCS_OPTION_JIPS)!=0) {
+ value[0] = JIPS_SO_CHAR_1;
+ value[1] = JIPS_SO_CHAR_2;
+ SISOLength = 2;
+ } else {
+ value[0] = UCNV_SO;
+ SISOLength = 1;
+ }
+ break;
+ default:
+ /* Should never happen. */
+ break;
+ }
+
+ return SISOLength;
+}
+
/* Miscellaneous ------------------------------------------------------------ */
+/**
+ * Callback from ucnv_MBCSEnumToUnicode(), takes 32 mappings from
+ * consecutive sequences of bytes, starting from the one encoded in value,
+ * to Unicode code points. (Multiple mappings to reduce per-function call overhead.)
+ * Does not currently support m:n mappings or reverse fallbacks.
+ * This function will not be called for sequences of bytes with leading zeros.
+ *
+ * @param context an opaque pointer, as passed into ucnv_MBCSEnumToUnicode()
+ * @param value contains 1..4 bytes of the first byte sequence, right-aligned
+ * @param codePoints resulting Unicode code points, or negative if a byte sequence does
+ * not map to anything
+ * @return TRUE to continue enumeration, FALSE to stop
+ */
+typedef UBool U_CALLCONV
+UConverterEnumToUCallback(const void *context, uint32_t value, UChar32 codePoints[32]);
+
/* similar to ucnv_MBCSGetNextUChar() but recursive */
-static void
-_getUnicodeSetForBytes(const UConverterSharedData *sharedData,
- const int32_t (*stateTable)[256], const uint16_t *unicodeCodeUnits,
- const USetAdder *sa,
- UConverterUnicodeSet which,
- uint8_t state, uint32_t offset, int32_t lowByte, int32_t highByte,
-
- UErrorCode *pErrorCode) {
- int32_t b, entry;
+static UBool
+enumToU(UConverterMBCSTable *mbcsTable, int8_t stateProps[],
+ int32_t state, uint32_t offset,
+ uint32_t value,
+ UConverterEnumToUCallback *callback, const void *context,
+ UErrorCode *pErrorCode) {
+ UChar32 codePoints[32];
+ const int32_t *row;
+ const uint16_t *unicodeCodeUnits;
+ UChar32 anyCodePoints;
+ int32_t b, limit;
- for(b=lowByte; b<=highByte; ++b) {
- entry=stateTable[state][b];
+ row=mbcsTable->stateTable[state];
+ unicodeCodeUnits=mbcsTable->unicodeCodeUnits;
+
+ value<<=8;
+ anyCodePoints=-1; /* becomes non-negative if there is a mapping */
+
+ b=(stateProps[state]&0x38)<<2;
+ if(b==0 && stateProps[state]>=0x40) {
+ /* skip byte sequences with leading zeros because they are not stored in the fromUnicode table */
+ codePoints[0]=U_SENTINEL;
+ b=1;
+ }
+ limit=((stateProps[state]&7)+1)<<5;
+ while(b<limit) {
+ int32_t entry=row[b];
if(MBCS_ENTRY_IS_TRANSITION(entry)) {
- _getUnicodeSetForBytes(
- sharedData, stateTable, unicodeCodeUnits,
- sa, which,
- (uint8_t)MBCS_ENTRY_TRANSITION_STATE(entry),
- offset+MBCS_ENTRY_TRANSITION_OFFSET(entry),
- 0, 0xff,
- pErrorCode);
+ int32_t nextState=MBCS_ENTRY_TRANSITION_STATE(entry);
+ if(stateProps[nextState]>=0) {
+ /* recurse to a state with non-ignorable actions */
+ if(!enumToU(
+ mbcsTable, stateProps, nextState,
+ offset+MBCS_ENTRY_TRANSITION_OFFSET(entry),
+ value|(uint32_t)b,
+ callback, context,
+ pErrorCode)) {
+ return FALSE;
+ }
+ }
+ codePoints[b&0x1f]=U_SENTINEL;
} else {
UChar32 c;
- int32_t rowOffset=offset;
- uint8_t action;
-
- c=U_SENTINEL;
+ int32_t action;
/*
* An if-else-if chain provides more reliable performance for
* the most common cases compared to a switch.
*/
- action=(uint8_t)(MBCS_ENTRY_FINAL_ACTION(entry));
+ action=MBCS_ENTRY_FINAL_ACTION(entry);
if(action==MBCS_STATE_VALID_DIRECT_16) {
/* output BMP code point */
c=(UChar)MBCS_ENTRY_FINAL_VALUE_16(entry);
} else if(action==MBCS_STATE_VALID_16) {
- offset+=MBCS_ENTRY_FINAL_VALUE_16(entry);
- c=unicodeCodeUnits[offset];
+ int32_t finalOffset=offset+MBCS_ENTRY_FINAL_VALUE_16(entry);
+ c=unicodeCodeUnits[finalOffset];
if(c<0xfffe) {
/* output BMP code point */
} else {
c=U_SENTINEL;
}
} else if(action==MBCS_STATE_VALID_16_PAIR) {
- offset+=MBCS_ENTRY_FINAL_VALUE_16(entry);
- c=unicodeCodeUnits[offset++];
+ int32_t finalOffset=offset+MBCS_ENTRY_FINAL_VALUE_16(entry);
+ c=unicodeCodeUnits[finalOffset++];
if(c<0xd800) {
/* output BMP code point below 0xd800 */
} else if(c<=0xdbff) {
/* output roundtrip or fallback supplementary code point */
- c=((c&0x3ff)<<10)+unicodeCodeUnits[offset]+(0x10000-0xdc00);
+ c=((c&0x3ff)<<10)+unicodeCodeUnits[finalOffset]+(0x10000-0xdc00);
} else if(c==0xe000) {
/* output roundtrip BMP code point above 0xd800 or fallback BMP code point */
- c=unicodeCodeUnits[offset];
+ c=unicodeCodeUnits[finalOffset];
} else {
c=U_SENTINEL;
}
} else if(action==MBCS_STATE_VALID_DIRECT_20) {
/* output supplementary code point */
c=(UChar32)(MBCS_ENTRY_FINAL_VALUE(entry)+0x10000);
+ } else {
+ c=U_SENTINEL;
+ }
+
+ codePoints[b&0x1f]=c;
+ anyCodePoints&=c;
+ }
+ if(((++b)&0x1f)==0) {
+ if(anyCodePoints>=0) {
+ if(!callback(context, value|(uint32_t)(b-0x20), codePoints)) {
+ return FALSE;
+ }
+ anyCodePoints=-1;
}
+ }
+ }
+ return TRUE;
+}
- if(c>=0) {
- sa->add(sa->set, c);
+/*
+ * Only called if stateProps[state]==-1.
+ * A recursive call may do stateProps[state]|=0x40 if this state is the target of an
+ * MBCS_STATE_CHANGE_ONLY.
+ */
+static int8_t
+getStateProp(const int32_t (*stateTable)[256], int8_t stateProps[], int state) {
+ const int32_t *row;
+ int32_t min, max, entry, nextState;
+
+ row=stateTable[state];
+ stateProps[state]=0;
+
+ /* find first non-ignorable state */
+ for(min=0;; ++min) {
+ entry=row[min];
+ nextState=MBCS_ENTRY_STATE(entry);
+ if(stateProps[nextState]==-1) {
+ getStateProp(stateTable, stateProps, nextState);
+ }
+ if(MBCS_ENTRY_IS_TRANSITION(entry)) {
+ if(stateProps[nextState]>=0) {
+ break;
+ }
+ } else if(MBCS_ENTRY_FINAL_ACTION(entry)<MBCS_STATE_UNASSIGNED) {
+ break;
+ }
+ if(min==0xff) {
+ stateProps[state]=-0x40; /* (int8_t)0xc0 */
+ return stateProps[state];
+ }
+ }
+ stateProps[state]|=(int8_t)((min>>5)<<3);
+
+ /* find last non-ignorable state */
+ for(max=0xff; min<max; --max) {
+ entry=row[max];
+ nextState=MBCS_ENTRY_STATE(entry);
+ if(stateProps[nextState]==-1) {
+ getStateProp(stateTable, stateProps, nextState);
+ }
+ if(MBCS_ENTRY_IS_TRANSITION(entry)) {
+ if(stateProps[nextState]>=0) {
+ break;
+ }
+ } else if(MBCS_ENTRY_FINAL_ACTION(entry)<MBCS_STATE_UNASSIGNED) {
+ break;
+ }
+ }
+ stateProps[state]|=(int8_t)(max>>5);
+
+ /* recurse further and collect direct-state information */
+ while(min<=max) {
+ entry=row[min];
+ nextState=MBCS_ENTRY_STATE(entry);
+ if(stateProps[nextState]==-1) {
+ getStateProp(stateTable, stateProps, nextState);
+ }
+ if(MBCS_ENTRY_IS_FINAL(entry)) {
+ stateProps[nextState]|=0x40;
+ if(MBCS_ENTRY_FINAL_ACTION(entry)<=MBCS_STATE_FALLBACK_DIRECT_20) {
+ stateProps[state]|=0x40;
}
- offset=rowOffset;
}
+ ++min;
}
+ return stateProps[state];
}
/*
- * Internal function returning a UnicodeSet for toUnicode() conversion.
- * Currently only used for ISO-2022-CN, and only handles roundtrip mappings.
- * In the future, if we add support for reverse-fallback sets, this function
- * needs to be updated, and called for each initial state.
+ * Internal function enumerating the toUnicode data of an MBCS converter.
+ * Currently only used for reconstituting data for a MBCS_OPT_NO_FROM_U
+ * table, but could also be used for a future ucnv_getUnicodeSet() option
+ * that includes reverse fallbacks (after updating this function's implementation).
+ * Currently only handles roundtrip mappings.
* Does not currently handle extensions.
- * Does not empty the set first.
*/
-U_CFUNC void
-ucnv_MBCSGetUnicodeSetForBytes(const UConverterSharedData *sharedData,
- const USetAdder *sa,
- UConverterUnicodeSet which,
- uint8_t state, int32_t lowByte, int32_t highByte,
- UErrorCode *pErrorCode) {
- _getUnicodeSetForBytes(
- sharedData, sharedData->mbcs.stateTable, sharedData->mbcs.unicodeCodeUnits,
- sa, which,
- state, 0, lowByte, highByte,
- pErrorCode);
+static void
+ucnv_MBCSEnumToUnicode(UConverterMBCSTable *mbcsTable,
+ UConverterEnumToUCallback *callback, const void *context,
+ UErrorCode *pErrorCode) {
+ /*
+ * Properties for each state, to speed up the enumeration.
+ * Ignorable actions are unassigned/illegal/state-change-only:
+ * They do not lead to mappings.
+ *
+ * Bits 7..6:
+ * 1 direct/initial state (stateful converters have multiple)
+ * 0 non-initial state with transitions or with non-ignorable result actions
+ * -1 final state with only ignorable actions
+ *
+ * Bits 5..3:
+ * The lowest byte value with non-ignorable actions is
+ * value<<5 (rounded down).
+ *
+ * Bits 2..0:
+ * The highest byte value with non-ignorable actions is
+ * (value<<5)&0x1f (rounded up).
+ */
+ int8_t stateProps[MBCS_MAX_STATE_COUNT];
+ int32_t state;
+
+ uprv_memset(stateProps, -1, sizeof(stateProps));
+
+ /* recurse from state 0 and set all stateProps */
+ getStateProp(mbcsTable->stateTable, stateProps, 0);
+
+ for(state=0; state<mbcsTable->countStates; ++state) {
+ /*if(stateProps[state]==-1) {
+ printf("unused/unreachable <icu:state> %d\n", state);
+ }*/
+ if(stateProps[state]>=0x40) {
+ /* start from each direct state */
+ enumToU(
+ mbcsTable, stateProps, state, 0, 0,
+ callback, context,
+ pErrorCode);
+ }
+ }
}
U_CFUNC void
-ucnv_MBCSGetUnicodeSetForUnicode(const UConverterSharedData *sharedData,
- const USetAdder *sa,
- UConverterUnicodeSet which,
- UErrorCode *pErrorCode) {
+ucnv_MBCSGetFilteredUnicodeSetForUnicode(const UConverterSharedData *sharedData,
+ const USetAdder *sa,
+ UConverterUnicodeSet which,
+ UConverterSetFilter filter,
+ UErrorCode *pErrorCode) {
const UConverterMBCSTable *mbcsTable;
const uint16_t *table;
if(mbcsTable->outputType==MBCS_OUTPUT_1) {
const uint16_t *stage2, *stage3, *results;
+ uint16_t minValue;
results=(const uint16_t *)mbcsTable->fromUnicodeBytes;
+ /*
+ * Set a threshold variable for selecting which mappings to use.
+ * See ucnv_MBCSSingleFromBMPWithOffsets() and
+ * MBCS_SINGLE_RESULT_FROM_U() for details.
+ */
+ if(which==UCNV_ROUNDTRIP_SET) {
+ /* use only roundtrips */
+ minValue=0xf00;
+ } else /* UCNV_ROUNDTRIP_AND_FALLBACK_SET */ {
+ /* use all roundtrip and fallback results */
+ minValue=0x800;
+ }
+
for(st1=0; st1<maxStage1; ++st1) {
st2=table[st1];
if(st2>maxStage1) {
/* read the stage 3 block */
stage3=results+st3;
- /*
- * Add code points for which the roundtrip flag is set.
- * Once we get a set for fallback mappings, we have to use
- * a threshold variable with a value of 0x800.
- * See ucnv_MBCSSingleFromBMPWithOffsets() and
- * MBCS_SINGLE_RESULT_FROM_U() for details.
- */
do {
- if(*stage3++>=0xf00) {
+ if(*stage3++>=minValue) {
sa->add(sa->set, c);
}
} while((++c&0xf)!=0);
c+=1024; /* empty stage 2 block */
}
}
- } else if(mbcsTable->outputType==MBCS_OUTPUT_DBCS_ONLY) {
- /* ignore single-byte results */
+ } else {
const uint32_t *stage2;
- const uint16_t *stage3, *results;
-
- results=(const uint16_t *)mbcsTable->fromUnicodeBytes;
+ const uint8_t *stage3, *bytes;
+ uint32_t st3Multiplier;
+ uint32_t value;
+ UBool useFallback;
- for(st1=0; st1<maxStage1; ++st1) {
- st2=table[st1];
- if(st2>(maxStage1>>1)) {
- stage2=(const uint32_t *)table+st2;
- for(st2=0; st2<64; ++st2) {
- if((st3=stage2[st2])!=0) {
- /* read the stage 3 block */
- stage3=results+16*(uint32_t)(uint16_t)st3;
+ bytes=mbcsTable->fromUnicodeBytes;
- /* get the roundtrip flags for the stage 3 block */
- st3>>=16;
+ useFallback=(UBool)(which==UCNV_ROUNDTRIP_AND_FALLBACK_SET);
- /*
- * Add code points for which the roundtrip flag is set.
- * Once we get a set for fallback mappings, we have to check
- * non-roundtrip stage 3 results for whether they are 0.
- * See ucnv_MBCSFromUnicodeWithOffsets() for details.
- *
- * Ignore single-byte results (<0x100).
- */
- do {
- if((st3&1)!=0 && *stage3>=0x100) {
- sa->add(sa->set, c);
- }
- st3>>=1;
- ++stage3;
- } while((++c&0xf)!=0);
- } else {
- c+=16; /* empty stage 3 block */
- }
- }
- } else {
- c+=1024; /* empty stage 2 block */
- }
+ switch(mbcsTable->outputType) {
+ case MBCS_OUTPUT_3:
+ case MBCS_OUTPUT_4_EUC:
+ st3Multiplier=3;
+ break;
+ case MBCS_OUTPUT_4:
+ st3Multiplier=4;
+ break;
+ default:
+ st3Multiplier=2;
+ break;
}
- } else {
- const uint32_t *stage2;
for(st1=0; st1<maxStage1; ++st1) {
st2=table[st1];
stage2=(const uint32_t *)table+st2;
for(st2=0; st2<64; ++st2) {
if((st3=stage2[st2])!=0) {
+ /* read the stage 3 block */
+ stage3=bytes+st3Multiplier*16*(uint32_t)(uint16_t)st3;
+
/* get the roundtrip flags for the stage 3 block */
st3>>=16;
/*
- * Add code points for which the roundtrip flag is set.
- * Once we get a set for fallback mappings, we have to check
- * non-roundtrip stage 3 results for whether they are 0.
+ * Add code points for which the roundtrip flag is set,
+ * or which map to non-zero bytes if we use fallbacks.
* See ucnv_MBCSFromUnicodeWithOffsets() for details.
*/
- do {
- if(st3&1) {
- sa->add(sa->set, c);
- }
- st3>>=1;
- } while((++c&0xf)!=0);
+ switch(filter) {
+ case UCNV_SET_FILTER_NONE:
+ do {
+ if(st3&1) {
+ sa->add(sa->set, c);
+ stage3+=st3Multiplier;
+ } else if(useFallback) {
+ uint8_t b=0;
+ switch(st3Multiplier) {
+ case 4:
+ b|=*stage3++;
+ case 3:
+ b|=*stage3++;
+ case 2:
+ b|=stage3[0]|stage3[1];
+ stage3+=2;
+ default:
+ break;
+ }
+ if(b!=0) {
+ sa->add(sa->set, c);
+ }
+ }
+ st3>>=1;
+ } while((++c&0xf)!=0);
+ break;
+ case UCNV_SET_FILTER_DBCS_ONLY:
+ /* Ignore single-byte results (<0x100). */
+ do {
+ if(((st3&1)!=0 || useFallback) && *((const uint16_t *)stage3)>=0x100) {
+ sa->add(sa->set, c);
+ }
+ st3>>=1;
+ stage3+=2; /* +=st3Multiplier */
+ } while((++c&0xf)!=0);
+ break;
+ case UCNV_SET_FILTER_2022_CN:
+ /* Only add code points that map to CNS 11643 planes 1 & 2 for non-EXT ISO-2022-CN. */
+ do {
+ if(((st3&1)!=0 || useFallback) && ((value=*stage3)==0x81 || value==0x82)) {
+ sa->add(sa->set, c);
+ }
+ st3>>=1;
+ stage3+=3; /* +=st3Multiplier */
+ } while((++c&0xf)!=0);
+ break;
+ case UCNV_SET_FILTER_SJIS:
+ /* Only add code points that map to Shift-JIS codes corresponding to JIS X 0208. */
+ do {
+ if(((st3&1)!=0 || useFallback) && (value=*((const uint16_t *)stage3))>=0x8140 && value<=0xeffc) {
+ sa->add(sa->set, c);
+ }
+ st3>>=1;
+ stage3+=2; /* +=st3Multiplier */
+ } while((++c&0xf)!=0);
+ break;
+ case UCNV_SET_FILTER_GR94DBCS:
+ /* Only add code points that map to ISO 2022 GR 94 DBCS codes (each byte A1..FE). */
+ do {
+ if( ((st3&1)!=0 || useFallback) &&
+ (uint16_t)((value=*((const uint16_t *)stage3)) - 0xa1a1)<=(0xfefe - 0xa1a1) &&
+ (uint8_t)(value-0xa1)<=(0xfe - 0xa1)
+ ) {
+ sa->add(sa->set, c);
+ }
+ st3>>=1;
+ stage3+=2; /* +=st3Multiplier */
+ } while((++c&0xf)!=0);
+ break;
+ case UCNV_SET_FILTER_HZ:
+ /* Only add code points that are suitable for HZ DBCS (lead byte A1..FD). */
+ do {
+ if( ((st3&1)!=0 || useFallback) &&
+ (uint16_t)((value=*((const uint16_t *)stage3))-0xa1a1)<=(0xfdfe - 0xa1a1) &&
+ (uint8_t)(value-0xa1)<=(0xfe - 0xa1)
+ ) {
+ sa->add(sa->set, c);
+ }
+ st3>>=1;
+ stage3+=2; /* +=st3Multiplier */
+ } while((++c&0xf)!=0);
+ break;
+ default:
+ *pErrorCode=U_INTERNAL_PROGRAM_ERROR;
+ return;
+ }
} else {
c+=16; /* empty stage 3 block */
}
}
}
- ucnv_extGetUnicodeSet(sharedData, sa, which, pErrorCode);
+ ucnv_extGetUnicodeSet(sharedData, sa, which, filter, pErrorCode);
+}
+
+U_CFUNC void
+ucnv_MBCSGetUnicodeSetForUnicode(const UConverterSharedData *sharedData,
+ const USetAdder *sa,
+ UConverterUnicodeSet which,
+ UErrorCode *pErrorCode) {
+ ucnv_MBCSGetFilteredUnicodeSetForUnicode(
+ sharedData, sa, which,
+ sharedData->mbcs.outputType==MBCS_OUTPUT_DBCS_ONLY ?
+ UCNV_SET_FILTER_DBCS_ONLY :
+ UCNV_SET_FILTER_NONE,
+ pErrorCode);
}
static void
* Definition of LINEAR macros and gb18030Ranges see near the beginning of the file.
*
* In the future, conversion extensions may handle m:n mappings and delta tables,
- * see http://dev.icu-project.org/cgi-bin/viewcvs.cgi/~checkout~/icuhtml/design/conversion/conversion_extensions.html
+ * see http://source.icu-project.org/repos/icu/icuhtml/trunk/design/conversion/conversion_extensions.html
*
* If an input character cannot be mapped, then these functions set an error
* code. The framework will then call the callback function.
_extFromU(UConverter *cnv, const UConverterSharedData *sharedData,
UChar32 cp,
const UChar **source, const UChar *sourceLimit,
- char **target, const char *targetLimit,
+ uint8_t **target, const uint8_t *targetLimit,
int32_t **offsets, int32_t sourceIndex,
UBool flush,
UErrorCode *pErrorCode) {
ucnv_extInitialMatchFromU(
cnv, cx,
cp, source, sourceLimit,
- target, targetLimit,
+ (char **)target, (char *)targetLimit,
offsets, sourceIndex,
flush,
pErrorCode)
/* output this sequence */
ucnv_fromUWriteBytes(cnv,
- bytes, 4, target, targetLimit,
+ bytes, 4, (char **)target, (char *)targetLimit,
offsets, sourceIndex, pErrorCode);
return 0;
}
static int8_t
_extToU(UConverter *cnv, const UConverterSharedData *sharedData,
int8_t length,
- const char **source, const char *sourceLimit,
+ const uint8_t **source, const uint8_t *sourceLimit,
UChar **target, const UChar *targetLimit,
int32_t **offsets, int32_t sourceIndex,
UBool flush,
if( (cx=sharedData->mbcs.extIndexes)!=NULL &&
ucnv_extInitialMatchToU(
cnv, cx,
- length, source, sourceLimit,
+ length, (const char **)source, (const char *)sourceLimit,
target, targetLimit,
offsets, sourceIndex,
flush,
return TRUE;
}
+/* reconstitute omitted fromUnicode data ------------------------------------ */
+
+/* for details, compare with genmbcs.c MBCSAddFromUnicode() and transformEUC() */
+static UBool U_CALLCONV
+writeStage3Roundtrip(const void *context, uint32_t value, UChar32 codePoints[32]) {
+ UConverterMBCSTable *mbcsTable=(UConverterMBCSTable *)context;
+ const uint16_t *table;
+ uint32_t *stage2;
+ uint8_t *bytes, *p;
+ UChar32 c;
+ int32_t i, st3;
+
+ table=mbcsTable->fromUnicodeTable;
+ bytes=(uint8_t *)mbcsTable->fromUnicodeBytes;
+
+ /* for EUC outputTypes, modify the value like genmbcs.c's transformEUC() */
+ switch(mbcsTable->outputType) {
+ case MBCS_OUTPUT_3_EUC:
+ if(value<=0xffff) {
+ /* short sequences are stored directly */
+ /* code set 0 or 1 */
+ } else if(value<=0x8effff) {
+ /* code set 2 */
+ value&=0x7fff;
+ } else /* first byte is 0x8f */ {
+ /* code set 3 */
+ value&=0xff7f;
+ }
+ break;
+ case MBCS_OUTPUT_4_EUC:
+ if(value<=0xffffff) {
+ /* short sequences are stored directly */
+ /* code set 0 or 1 */
+ } else if(value<=0x8effffff) {
+ /* code set 2 */
+ value&=0x7fffff;
+ } else /* first byte is 0x8f */ {
+ /* code set 3 */
+ value&=0xff7fff;
+ }
+ break;
+ default:
+ break;
+ }
+
+ for(i=0; i<=0x1f; ++value, ++i) {
+ c=codePoints[i];
+ if(c<0) {
+ continue;
+ }
+
+ /* locate the stage 2 & 3 data */
+ stage2=((uint32_t *)table)+table[c>>10]+((c>>4)&0x3f);
+ p=bytes;
+ st3=(int32_t)(uint16_t)*stage2*16+(c&0xf);
+
+ /* write the codepage bytes into stage 3 */
+ switch(mbcsTable->outputType) {
+ case MBCS_OUTPUT_3:
+ case MBCS_OUTPUT_4_EUC:
+ p+=st3*3;
+ p[0]=(uint8_t)(value>>16);
+ p[1]=(uint8_t)(value>>8);
+ p[2]=(uint8_t)value;
+ break;
+ case MBCS_OUTPUT_4:
+ ((uint32_t *)p)[st3]=value;
+ break;
+ default:
+ /* 2 bytes per character */
+ ((uint16_t *)p)[st3]=(uint16_t)value;
+ break;
+ }
+
+ /* set the roundtrip flag */
+ *stage2|=(1UL<<(16+(c&0xf)));
+ }
+ return TRUE;
+ }
+
+static void
+reconstituteData(UConverterMBCSTable *mbcsTable,
+ uint32_t stage1Length, uint32_t stage2Length,
+ uint32_t fullStage2Length, /* lengths are numbers of units, not bytes */
+ UErrorCode *pErrorCode) {
+ uint16_t *stage1;
+ uint32_t *stage2;
+ uint8_t *bytes;
+ uint32_t dataLength=stage1Length*2+fullStage2Length*4+mbcsTable->fromUBytesLength;
+ mbcsTable->reconstitutedData=(uint8_t *)uprv_malloc(dataLength);
+ if(mbcsTable->reconstitutedData==NULL) {
+ *pErrorCode=U_MEMORY_ALLOCATION_ERROR;
+ return;
+ }
+ uprv_memset(mbcsTable->reconstitutedData, 0, dataLength);
+
+ /* copy existing data and reroute the pointers */
+ stage1=(uint16_t *)mbcsTable->reconstitutedData;
+ uprv_memcpy(stage1, mbcsTable->fromUnicodeTable, stage1Length*2);
+
+ stage2=(uint32_t *)(stage1+stage1Length);
+ uprv_memcpy(stage2+(fullStage2Length-stage2Length),
+ mbcsTable->fromUnicodeTable+stage1Length,
+ stage2Length*4);
+
+ mbcsTable->fromUnicodeTable=stage1;
+ mbcsTable->fromUnicodeBytes=bytes=(uint8_t *)(stage2+fullStage2Length);
+
+ /* indexes into stage 2 count from the bottom of the fromUnicodeTable */
+ stage2=(uint32_t *)stage1;
+
+ /* reconstitute the initial part of stage 2 from the mbcsIndex */
+ {
+ int32_t stageUTF8Length=((int32_t)mbcsTable->maxFastUChar+1)>>6;
+ int32_t stageUTF8Index=0;
+ int32_t st1, st2, st3, i;
+
+ for(st1=0; stageUTF8Index<stageUTF8Length; ++st1) {
+ st2=stage1[st1];
+ if(st2!=stage1Length/2) {
+ /* each stage 2 block has 64 entries corresponding to 16 entries in the mbcsIndex */
+ for(i=0; i<16; ++i) {
+ st3=mbcsTable->mbcsIndex[stageUTF8Index++];
+ if(st3!=0) {
+ /* an stage 2 entry's index is per stage 3 16-block, not per stage 3 entry */
+ st3>>=4;
+ /*
+ * 4 stage 2 entries point to 4 consecutive stage 3 16-blocks which are
+ * allocated together as a single 64-block for access from the mbcsIndex
+ */
+ stage2[st2++]=st3++;
+ stage2[st2++]=st3++;
+ stage2[st2++]=st3++;
+ stage2[st2++]=st3;
+ } else {
+ /* no stage 3 block, skip */
+ st2+=4;
+ }
+ }
+ } else {
+ /* no stage 2 block, skip */
+ stageUTF8Index+=16;
+ }
+ }
+ }
+
+ /* reconstitute fromUnicodeBytes with roundtrips from toUnicode data */
+ ucnv_MBCSEnumToUnicode(mbcsTable, writeStage3Roundtrip, mbcsTable, pErrorCode);
+}
+
/* MBCS setup functions ----------------------------------------------------- */
static void
UConverterMBCSTable *mbcsTable=&sharedData->mbcs;
_MBCSHeader *header=(_MBCSHeader *)raw;
uint32_t offset;
-
- if(header->version[0]!=4) {
+ uint32_t headerLength;
+ UBool noFromU=FALSE;
+
+ if(header->version[0]==4) {
+ headerLength=MBCS_HEADER_V4_LENGTH;
+ } else if(header->version[0]==5 && header->version[1]>=3 &&
+ (header->options&MBCS_OPT_UNKNOWN_INCOMPATIBLE_MASK)==0) {
+ headerLength=header->options&MBCS_OPT_LENGTH_MASK;
+ noFromU=(UBool)((header->options&MBCS_OPT_NO_FROM_U)!=0);
+ } else {
*pErrorCode=U_INVALID_TABLE_FORMAT;
return;
}
mbcsTable->outputType=(uint8_t)header->flags;
+ if(noFromU && mbcsTable->outputType==MBCS_OUTPUT_1) {
+ *pErrorCode=U_INVALID_TABLE_FORMAT;
+ return;
+ }
/* extension data, header version 4.2 and higher */
offset=header->flags>>8;
}
/* load the base table */
- baseName=(const char *)(header+1);
+ baseName=(const char *)header+headerLength*4;
if(0==uprv_strcmp(baseName, sharedData->staticData->name)) {
/* forbid loading this same extension-only file */
*pErrorCode=U_INVALID_TABLE_FORMAT;
/* TODO parse package name out of the prefix of the base name in the extension .cnv file? */
args.size=sizeof(UConverterLoadArgs);
args.nestedLoads=2;
+ args.onlyTestIsLoadable=pArgs->onlyTestIsLoadable;
args.reserved=pArgs->reserved;
args.options=pArgs->options;
args.pkg=pArgs->pkg;
*pErrorCode=U_INVALID_TABLE_FORMAT;
return;
}
+ if(pArgs->onlyTestIsLoadable) {
+ /*
+ * Exit as soon as we know that we can load the converter
+ * and the format is valid and supported.
+ * The worst that can happen in the following code is a memory
+ * allocation error.
+ */
+ ucnv_unload(baseSharedData);
+ return;
+ }
/* copy the base table data */
uprv_memcpy(mbcsTable, &baseSharedData->mbcs, sizeof(UConverterMBCSTable));
mbcsTable->swapLFNLFromUnicodeBytes=NULL;
mbcsTable->swapLFNLName=NULL;
+ /*
+ * The reconstitutedData must be deleted only when the base converter
+ * is unloaded.
+ */
+ mbcsTable->reconstitutedData=NULL;
+
/*
* Set a special, runtime-only outputType if the extension converter
* is a DBCS version of a base converter that also maps single bytes.
*pErrorCode=U_INVALID_TABLE_FORMAT;
return;
}
+ if(pArgs->onlyTestIsLoadable) {
+ /*
+ * Exit as soon as we know that we can load the converter
+ * and the format is valid and supported.
+ * The worst that can happen in the following code is a memory
+ * allocation error.
+ */
+ return;
+ }
mbcsTable->countStates=(uint8_t)header->countStates;
mbcsTable->countToUFallbacks=header->countToUFallbacks;
- mbcsTable->stateTable=(const int32_t (*)[256])(raw+sizeof(_MBCSHeader));
+ mbcsTable->stateTable=(const int32_t (*)[256])(raw+headerLength*4);
mbcsTable->toUFallbacks=(const _MBCSToUFallback *)(mbcsTable->stateTable+header->countStates);
mbcsTable->unicodeCodeUnits=(const uint16_t *)(raw+header->offsetToUCodeUnits);
/* for older versions, assume worst case: contains anything possible (prevent over-optimizations) */
mbcsTable->unicodeMask=UCNV_HAS_SUPPLEMENTARY|UCNV_HAS_SURROGATES;
}
+
+ /*
+ * _MBCSHeader.version 4.3 adds utf8Friendly data structures.
+ * Check for the header version, SBCS vs. MBCS, and for whether the
+ * data structures are optimized for code points as high as what the
+ * runtime code is designed for.
+ * The implementation does not handle mapping tables with entries for
+ * unpaired surrogates.
+ */
+ if( header->version[1]>=3 &&
+ (mbcsTable->unicodeMask&UCNV_HAS_SURROGATES)==0 &&
+ (mbcsTable->countStates==1 ?
+ (header->version[2]>=(SBCS_FAST_MAX>>8)) :
+ (header->version[2]>=(MBCS_FAST_MAX>>8))
+ )
+ ) {
+ mbcsTable->utf8Friendly=TRUE;
+
+ if(mbcsTable->countStates==1) {
+ /*
+ * SBCS: Stage 3 is allocated in 64-entry blocks for U+0000..SBCS_FAST_MAX or higher.
+ * Build a table with indexes to each block, to be used instead of
+ * the regular stage 1/2 table.
+ */
+ int32_t i;
+ for(i=0; i<(SBCS_FAST_LIMIT>>6); ++i) {
+ mbcsTable->sbcsIndex[i]=mbcsTable->fromUnicodeTable[mbcsTable->fromUnicodeTable[i>>4]+((i<<2)&0x3c)];
+ }
+ /* set SBCS_FAST_MAX to reflect the reach of sbcsIndex[] even if header->version[2]>(SBCS_FAST_MAX>>8) */
+ mbcsTable->maxFastUChar=SBCS_FAST_MAX;
+ } else {
+ /*
+ * MBCS: Stage 3 is allocated in 64-entry blocks for U+0000..MBCS_FAST_MAX or higher.
+ * The .cnv file is prebuilt with an additional stage table with indexes
+ * to each block.
+ */
+ mbcsTable->mbcsIndex=(const uint16_t *)
+ (mbcsTable->fromUnicodeBytes+
+ (noFromU ? 0 : mbcsTable->fromUBytesLength));
+ mbcsTable->maxFastUChar=(((UChar)header->version[2])<<8)|0xff;
+ }
+ }
+
+ /* calculate a bit set of 4 ASCII characters per bit that round-trip to ASCII bytes */
+ {
+ uint32_t asciiRoundtrips=0xffffffff;
+ int32_t i;
+
+ for(i=0; i<0x80; ++i) {
+ if(mbcsTable->stateTable[0][i]!=MBCS_ENTRY_FINAL(0, MBCS_STATE_VALID_DIRECT_16, i)) {
+ asciiRoundtrips&=~((uint32_t)1<<(i>>2));
+ }
+ }
+ mbcsTable->asciiRoundtrips=asciiRoundtrips;
+ }
+
+ if(noFromU) {
+ uint32_t stage1Length=
+ mbcsTable->unicodeMask&UCNV_HAS_SUPPLEMENTARY ?
+ 0x440 : 0x40;
+ uint32_t stage2Length=
+ (header->offsetFromUBytes-header->offsetFromUTable)/4-
+ stage1Length/2;
+ reconstituteData(mbcsTable, stage1Length, stage2Length, header->fullStage2Length, pErrorCode);
+ }
+ }
+
+ /* Set the impl pointer here so that it is set for both extension-only and base tables. */
+ if(mbcsTable->utf8Friendly) {
+ if(mbcsTable->countStates==1) {
+ sharedData->impl=&_SBCSUTF8Impl;
+ } else {
+ if(mbcsTable->outputType==MBCS_OUTPUT_2) {
+ sharedData->impl=&_DBCSUTF8Impl;
+ }
+ }
+ }
+
+ if(mbcsTable->outputType==MBCS_OUTPUT_DBCS_ONLY || mbcsTable->outputType==MBCS_OUTPUT_2_SISO) {
+ /*
+ * MBCS_OUTPUT_DBCS_ONLY: No SBCS mappings, therefore ASCII does not roundtrip.
+ * MBCS_OUTPUT_2_SISO: Bypass the ASCII fastpath to handle prevLength correctly.
+ */
+ mbcsTable->asciiRoundtrips=0;
}
}
if(mbcsTable->baseSharedData!=NULL) {
ucnv_unload(mbcsTable->baseSharedData);
}
+ if(mbcsTable->reconstitutedData!=NULL) {
+ uprv_free(mbcsTable->reconstitutedData);
+ }
}
static void
ucnv_MBCSOpen(UConverter *cnv,
- const char *name,
- const char *locale,
- uint32_t options,
- UErrorCode *pErrorCode) {
+ UConverterLoadArgs *pArgs,
+ UErrorCode *pErrorCode) {
UConverterMBCSTable *mbcsTable;
const int32_t *extIndexes;
uint8_t outputType;
int8_t maxBytesPerUChar;
+ if(pArgs->onlyTestIsLoadable) {
+ return;
+ }
+
mbcsTable=&cnv->sharedData->mbcs;
outputType=mbcsTable->outputType;
if(outputType==MBCS_OUTPUT_DBCS_ONLY) {
/* the swaplfnl option does not apply, remove it */
- cnv->options=options&=~UCNV_OPTION_SWAP_LFNL;
+ cnv->options=pArgs->options&=~UCNV_OPTION_SWAP_LFNL;
}
- if((options&UCNV_OPTION_SWAP_LFNL)!=0) {
+ if((pArgs->options&UCNV_OPTION_SWAP_LFNL)!=0) {
/* do this because double-checked locking is broken */
UBool isCached;
}
/* the option does not apply, remove it */
- cnv->options=options&=~UCNV_OPTION_SWAP_LFNL;
+ cnv->options=pArgs->options&=~UCNV_OPTION_SWAP_LFNL;
}
}
}
- if(uprv_strstr(name, "18030")!=NULL) {
- if(uprv_strstr(name, "gb18030")!=NULL || uprv_strstr(name, "GB18030")!=NULL) {
+ if(uprv_strstr(pArgs->name, "18030")!=NULL) {
+ if(uprv_strstr(pArgs->name, "gb18030")!=NULL || uprv_strstr(pArgs->name, "GB18030")!=NULL) {
/* set a flag for GB 18030 mode, which changes the callback behavior */
cnv->options|=_MBCS_OPTION_GB18030;
}
+ } else if((uprv_strstr(pArgs->name, "KEIS")!=NULL) || (uprv_strstr(pArgs->name, "keis")!=NULL)) {
+ /* set a flag for KEIS converter, which changes the SI/SO character sequence */
+ cnv->options|=_MBCS_OPTION_KEIS;
+ } else if((uprv_strstr(pArgs->name, "JEF")!=NULL) || (uprv_strstr(pArgs->name, "jef")!=NULL)) {
+ /* set a flag for JEF converter, which changes the SI/SO character sequence */
+ cnv->options|=_MBCS_OPTION_JEF;
+ } else if((uprv_strstr(pArgs->name, "JIPS")!=NULL) || (uprv_strstr(pArgs->name, "jips")!=NULL)) {
+ /* set a flag for JIPS converter, which changes the SI/SO character sequence */
+ cnv->options|=_MBCS_OPTION_JIPS;
}
/* fix maxBytesPerUChar depending on outputType and options etc. */
pArgs->source=(const char *)source;
cnv->toUBytes[0]=*(source-1);
cnv->toULength=_extToU(cnv, cnv->sharedData,
- 1, (const char **)&source, (const char *)sourceLimit,
+ 1, &source, sourceLimit,
&target, targetLimit,
&offsets, sourceIndex,
pArgs->flush,
#endif
/* conversion loop */
- while(targetCapacity>0) {
+ while(targetCapacity > 0 && source < sourceLimit) {
entry=stateTable[0][*source++];
/* MBCS_ENTRY_IS_FINAL(entry) */
lastSource=source;
cnv->toUBytes[0]=*(source-1);
cnv->toULength=_extToU(cnv, cnv->sharedData,
- 1, (const char **)&source, (const char *)sourceLimit,
- &target, target+targetCapacity,
+ 1, &source, sourceLimit,
+ &target, pArgs->targetLimit,
&offsets, sourceIndex,
pArgs->flush,
pErrorCode);
/* try an extension mapping */
pArgs->source=(const char *)source;
byteIndex=_extToU(cnv, cnv->sharedData,
- byteIndex, (const char **)&source, (const char *)sourceLimit,
+ byteIndex, &source, sourceLimit,
&target, targetLimit,
&offsets, sourceIndex,
pArgs->flush,
int32_t *offsets;
const uint16_t *table;
+ const uint16_t *mbcsIndex;
const uint8_t *bytes;
UChar32 c;
int32_t sourceIndex, nextSourceIndex;
uint32_t stage2Entry;
+ uint32_t asciiRoundtrips;
uint32_t value;
- int32_t length;
uint8_t unicodeMask;
/* use optimized function if possible */
offsets=pArgs->offsets;
table=cnv->sharedData->mbcs.fromUnicodeTable;
+ mbcsIndex=cnv->sharedData->mbcs.mbcsIndex;
if((cnv->options&UCNV_OPTION_SWAP_LFNL)!=0) {
bytes=cnv->sharedData->mbcs.swapLFNLFromUnicodeBytes;
} else {
bytes=cnv->sharedData->mbcs.fromUnicodeBytes;
}
+ asciiRoundtrips=cnv->sharedData->mbcs.asciiRoundtrips;
/* get the converter state from UConverter */
c=cnv->fromUChar32;
*/
c=*source++;
++nextSourceIndex;
+ if(c<=0x7f && IS_ASCII_ROUNDTRIP(c, asciiRoundtrips)) {
+ *target++=(uint8_t)c;
+ if(offsets!=NULL) {
+ *offsets++=sourceIndex;
+ sourceIndex=nextSourceIndex;
+ }
+ --targetCapacity;
+ c=0;
+ continue;
+ }
/*
- * This also tests if the codepage maps single surrogates.
- * If it does, then surrogates are not paired but mapped separately.
- * Note that in this case unmatched surrogates are not detected.
+ * utf8Friendly table: Test for <=0xd7ff rather than <=MBCS_FAST_MAX
+ * to avoid dealing with surrogates.
+ * MBCS_FAST_MAX must be >=0xd7ff.
*/
- if(UTF_IS_SURROGATE(c) && !(unicodeMask&UCNV_HAS_SURROGATES)) {
- if(UTF_IS_SURROGATE_FIRST(c)) {
+ if(c<=0xd7ff) {
+ value=DBCS_RESULT_FROM_MOST_BMP(mbcsIndex, (const uint16_t *)bytes, c);
+ /* There are only roundtrips (!=0) and no-mapping (==0) entries. */
+ if(value==0) {
+ goto unassigned;
+ }
+ /* output the value */
+ } else {
+ /*
+ * This also tests if the codepage maps single surrogates.
+ * If it does, then surrogates are not paired but mapped separately.
+ * Note that in this case unmatched surrogates are not detected.
+ */
+ if(UTF_IS_SURROGATE(c) && !(unicodeMask&UCNV_HAS_SURROGATES)) {
+ if(UTF_IS_SURROGATE_FIRST(c)) {
getTrail:
- if(source<sourceLimit) {
- /* test the following code unit */
- UChar trail=*source;
- if(UTF_IS_SECOND_SURROGATE(trail)) {
- ++source;
- ++nextSourceIndex;
- c=UTF16_GET_PAIR_VALUE(c, trail);
- if(!(unicodeMask&UCNV_HAS_SUPPLEMENTARY)) {
- /* BMP-only codepages are stored without stage 1 entries for supplementary code points */
- /* callback(unassigned) */
- goto unassigned;
+ if(source<sourceLimit) {
+ /* test the following code unit */
+ UChar trail=*source;
+ if(UTF_IS_SECOND_SURROGATE(trail)) {
+ ++source;
+ ++nextSourceIndex;
+ c=UTF16_GET_PAIR_VALUE(c, trail);
+ if(!(unicodeMask&UCNV_HAS_SUPPLEMENTARY)) {
+ /* BMP-only codepages are stored without stage 1 entries for supplementary code points */
+ /* callback(unassigned) */
+ goto unassigned;
+ }
+ /* convert this supplementary code point */
+ /* exit this condition tree */
+ } else {
+ /* this is an unmatched lead code unit (1st surrogate) */
+ /* callback(illegal) */
+ *pErrorCode=U_ILLEGAL_CHAR_FOUND;
+ break;
}
- /* convert this supplementary code point */
- /* exit this condition tree */
} else {
- /* this is an unmatched lead code unit (1st surrogate) */
- /* callback(illegal) */
- *pErrorCode=U_ILLEGAL_CHAR_FOUND;
+ /* no more input */
break;
}
} else {
- /* no more input */
+ /* this is an unmatched trail code unit (2nd surrogate) */
+ /* callback(illegal) */
+ *pErrorCode=U_ILLEGAL_CHAR_FOUND;
break;
}
- } else {
- /* this is an unmatched trail code unit (2nd surrogate) */
- /* callback(illegal) */
- *pErrorCode=U_ILLEGAL_CHAR_FOUND;
- break;
}
- }
- /* convert the Unicode code point in c into codepage bytes */
- stage2Entry=MBCS_STAGE_2_FROM_U(table, c);
+ /* convert the Unicode code point in c into codepage bytes */
+ stage2Entry=MBCS_STAGE_2_FROM_U(table, c);
- /* get the bytes and the length for the output */
- /* MBCS_OUTPUT_2 */
- value=MBCS_VALUE_2_FROM_STAGE_2(bytes, stage2Entry, c);
- if(value<=0xff) {
- length=1;
- } else {
- length=2;
- }
+ /* get the bytes and the length for the output */
+ /* MBCS_OUTPUT_2 */
+ value=MBCS_VALUE_2_FROM_STAGE_2(bytes, stage2Entry, c);
- /* is this code point assigned, or do we use fallbacks? */
- if(!(MBCS_FROM_U_IS_ROUNDTRIP(stage2Entry, c) ||
- (UCNV_FROM_U_USE_FALLBACK(cnv, c) && value!=0))
- ) {
- /*
- * We allow a 0 byte output if the "assigned" bit is set for this entry.
- * There is no way with this data structure for fallback output
- * to be a zero byte.
- */
+ /* is this code point assigned, or do we use fallbacks? */
+ if(!(MBCS_FROM_U_IS_ROUNDTRIP(stage2Entry, c) ||
+ (UCNV_FROM_U_USE_FALLBACK(cnv, c) && value!=0))
+ ) {
+ /*
+ * We allow a 0 byte output if the "assigned" bit is set for this entry.
+ * There is no way with this data structure for fallback output
+ * to be a zero byte.
+ */
unassigned:
- /* try an extension mapping */
- pArgs->source=source;
- c=_extFromU(cnv, cnv->sharedData,
- c, &source, sourceLimit,
- (char **)&target, (char *)target+targetCapacity,
- &offsets, sourceIndex,
- pArgs->flush,
- pErrorCode);
- nextSourceIndex+=(int32_t)(source-pArgs->source);
-
- if(U_FAILURE(*pErrorCode)) {
- /* not mappable or buffer overflow */
- break;
- } else {
- /* a mapping was written to the target, continue */
+ /* try an extension mapping */
+ pArgs->source=source;
+ c=_extFromU(cnv, cnv->sharedData,
+ c, &source, sourceLimit,
+ &target, target+targetCapacity,
+ &offsets, sourceIndex,
+ pArgs->flush,
+ pErrorCode);
+ nextSourceIndex+=(int32_t)(source-pArgs->source);
+
+ if(U_FAILURE(*pErrorCode)) {
+ /* not mappable or buffer overflow */
+ break;
+ } else {
+ /* a mapping was written to the target, continue */
- /* recalculate the targetCapacity after an extension mapping */
- targetCapacity=(int32_t)(pArgs->targetLimit-(char *)target);
+ /* recalculate the targetCapacity after an extension mapping */
+ targetCapacity=(int32_t)(pArgs->targetLimit-(char *)target);
- /* normal end of conversion: prepare for a new character */
- sourceIndex=nextSourceIndex;
- continue;
+ /* normal end of conversion: prepare for a new character */
+ sourceIndex=nextSourceIndex;
+ continue;
+ }
}
}
/* write the output character bytes from value and length */
/* from the first if in the loop we know that targetCapacity>0 */
- if(length==1) {
+ if(value<=0xff) {
/* this is easy because we know that there is enough space */
*target++=(uint8_t)value;
if(offsets!=NULL) {
pArgs->source=source;
c=_extFromU(cnv, cnv->sharedData,
c, &source, sourceLimit,
- (char **)&target, (char *)target+targetCapacity,
+ &target, target+targetCapacity,
&offsets, sourceIndex,
pArgs->flush,
pErrorCode);
* that map only to and from the BMP.
* In addition to single-byte/state optimizations, the offset calculations
* become much easier.
+ * It would be possible to use the sbcsIndex for UTF-8-friendly tables,
+ * but measurements have shown that this diminishes performance
+ * in more cases than it improves it.
+ * See SVN revision 21013 (2007-feb-06) for the last version with #if switches
+ * for various MBCS and SBCS optimizations.
*/
static void
ucnv_MBCSSingleFromBMPWithOffsets(UConverterFromUnicodeArgs *pArgs,
int32_t sourceIndex;
+ uint32_t asciiRoundtrips;
uint16_t value, minValue;
/* set up the local pointers */
} else {
results=(uint16_t *)cnv->sharedData->mbcs.fromUnicodeBytes;
}
+ asciiRoundtrips=cnv->sharedData->mbcs.asciiRoundtrips;
if(cnv->useFallback) {
/* use all roundtrip and fallback results */
* This speeds up the conversion of assigned characters.
*/
/* convert the Unicode code point in c into codepage bytes */
+ if(c<=0x7f && IS_ASCII_ROUNDTRIP(c, asciiRoundtrips)) {
+ *target++=(uint8_t)c;
+ --targetCapacity;
+ c=0;
+ continue;
+ }
value=MBCS_SINGLE_RESULT_FROM_U(table, results, c);
-
/* is this code point assigned, or do we use fallbacks? */
if(value>=minValue) {
/* assigned, write the output character bytes from value and length */
}
} else {
/* no more input */
+ if (pArgs->flush) {
+ *pErrorCode=U_TRUNCATED_CHAR_FOUND;
+ }
break;
}
} else {
lastSource=source;
c=_extFromU(cnv, cnv->sharedData,
c, &source, sourceLimit,
- (char **)&target, (char *)target+targetCapacity,
+ &target, (const uint8_t *)(pArgs->targetLimit),
&offsets, sourceIndex,
pArgs->flush,
pErrorCode);
/* set offsets since the start or the last callback */
if(offsets!=NULL) {
size_t count=source-lastSource;
+ if (count > 0 && *pErrorCode == U_TRUNCATED_CHAR_FOUND) {
+ /*
+ Caller gave us a partial supplementary character,
+ which this function couldn't convert in any case.
+ The callback will handle the offset.
+ */
+ count--;
+ }
while(count>0) {
*offsets++=sourceIndex++;
--count;
int32_t *offsets;
const uint16_t *table;
+ const uint16_t *mbcsIndex;
const uint8_t *p, *bytes;
uint8_t outputType;
int32_t prevSourceIndex, sourceIndex, nextSourceIndex;
uint32_t stage2Entry;
+ uint32_t asciiRoundtrips;
uint32_t value;
- int32_t length, prevLength;
+ uint8_t si_value[2] = {0, 0};
+ uint8_t so_value[2] = {0, 0};
+ uint8_t si_value_length, so_value_length;
+ int32_t length = 0, prevLength;
uint8_t unicodeMask;
cnv=pArgs->converter;
ucnv_MBCSSingleFromUnicodeWithOffsets(pArgs, pErrorCode);
}
return;
- } else if(outputType==MBCS_OUTPUT_2) {
+ } else if(outputType==MBCS_OUTPUT_2 && cnv->sharedData->mbcs.utf8Friendly) {
ucnv_MBCSDoubleFromUnicodeWithOffsets(pArgs, pErrorCode);
return;
}
offsets=pArgs->offsets;
table=cnv->sharedData->mbcs.fromUnicodeTable;
-
+ if(cnv->sharedData->mbcs.utf8Friendly) {
+ mbcsIndex=cnv->sharedData->mbcs.mbcsIndex;
+ } else {
+ mbcsIndex=NULL;
+ }
if((cnv->options&UCNV_OPTION_SWAP_LFNL)!=0) {
bytes=cnv->sharedData->mbcs.swapLFNLFromUnicodeBytes;
} else {
bytes=cnv->sharedData->mbcs.fromUnicodeBytes;
}
+ asciiRoundtrips=cnv->sharedData->mbcs.asciiRoundtrips;
/* get the converter state from UConverter */
c=cnv->fromUChar32;
sourceIndex= c==0 ? 0 : -1;
nextSourceIndex=0;
+ /* Get the SI/SO character for the converter */
+ si_value_length = getSISOBytes(SI, cnv->options, si_value);
+ so_value_length = getSISOBytes(SO, cnv->options, so_value);
+
/* conversion loop */
/*
* This is another piece of ugly code:
*/
c=*source++;
++nextSourceIndex;
+ if(c<=0x7f && IS_ASCII_ROUNDTRIP(c, asciiRoundtrips)) {
+ *target++=(uint8_t)c;
+ if(offsets!=NULL) {
+ *offsets++=sourceIndex;
+ prevSourceIndex=sourceIndex;
+ sourceIndex=nextSourceIndex;
+ }
+ --targetCapacity;
+ c=0;
+ continue;
+ }
/*
- * This also tests if the codepage maps single surrogates.
- * If it does, then surrogates are not paired but mapped separately.
- * Note that in this case unmatched surrogates are not detected.
+ * utf8Friendly table: Test for <=0xd7ff rather than <=MBCS_FAST_MAX
+ * to avoid dealing with surrogates.
+ * MBCS_FAST_MAX must be >=0xd7ff.
*/
- if(UTF_IS_SURROGATE(c) && !(unicodeMask&UCNV_HAS_SURROGATES)) {
- if(UTF_IS_SURROGATE_FIRST(c)) {
+ if(c<=0xd7ff && mbcsIndex!=NULL) {
+ value=mbcsIndex[c>>6];
+
+ /* get the bytes and the length for the output (copied from below and adapted for utf8Friendly data) */
+ /* There are only roundtrips (!=0) and no-mapping (==0) entries. */
+ switch(outputType) {
+ case MBCS_OUTPUT_2:
+ value=((const uint16_t *)bytes)[value +(c&0x3f)];
+ if(value<=0xff) {
+ if(value==0) {
+ goto unassigned;
+ } else {
+ length=1;
+ }
+ } else {
+ length=2;
+ }
+ break;
+ case MBCS_OUTPUT_2_SISO:
+ /* 1/2-byte stateful with Shift-In/Shift-Out */
+ /*
+ * Save the old state in the converter object
+ * right here, then change the local prevLength state variable if necessary.
+ * Then, if this character turns out to be unassigned or a fallback that
+ * is not taken, the callback code must not save the new state in the converter
+ * because the new state is for a character that is not output.
+ * However, the callback must still restore the state from the converter
+ * in case the callback function changed it for its output.
+ */
+ cnv->fromUnicodeStatus=prevLength; /* save the old state */
+ value=((const uint16_t *)bytes)[value +(c&0x3f)];
+ if(value<=0xff) {
+ if(value==0) {
+ goto unassigned;
+ } else if(prevLength<=1) {
+ length=1;
+ } else {
+ /* change from double-byte mode to single-byte */
+ if (si_value_length == 1) {
+ value|=(uint32_t)si_value[0]<<8;
+ length = 2;
+ } else if (si_value_length == 2) {
+ value|=(uint32_t)si_value[1]<<8;
+ value|=(uint32_t)si_value[0]<<16;
+ length = 3;
+ }
+ prevLength=1;
+ }
+ } else {
+ if(prevLength==2) {
+ length=2;
+ } else {
+ /* change from single-byte mode to double-byte */
+ if (so_value_length == 1) {
+ value|=(uint32_t)so_value[0]<<16;
+ length = 3;
+ } else if (so_value_length == 2) {
+ value|=(uint32_t)so_value[1]<<16;
+ value|=(uint32_t)so_value[0]<<24;
+ length = 4;
+ }
+ prevLength=2;
+ }
+ }
+ break;
+ case MBCS_OUTPUT_DBCS_ONLY:
+ /* table with single-byte results, but only DBCS mappings used */
+ value=((const uint16_t *)bytes)[value +(c&0x3f)];
+ if(value<=0xff) {
+ /* no mapping or SBCS result, not taken for DBCS-only */
+ goto unassigned;
+ } else {
+ length=2;
+ }
+ break;
+ case MBCS_OUTPUT_3:
+ p=bytes+(value+(c&0x3f))*3;
+ value=((uint32_t)*p<<16)|((uint32_t)p[1]<<8)|p[2];
+ if(value<=0xff) {
+ if(value==0) {
+ goto unassigned;
+ } else {
+ length=1;
+ }
+ } else if(value<=0xffff) {
+ length=2;
+ } else {
+ length=3;
+ }
+ break;
+ case MBCS_OUTPUT_4:
+ value=((const uint32_t *)bytes)[value +(c&0x3f)];
+ if(value<=0xff) {
+ if(value==0) {
+ goto unassigned;
+ } else {
+ length=1;
+ }
+ } else if(value<=0xffff) {
+ length=2;
+ } else if(value<=0xffffff) {
+ length=3;
+ } else {
+ length=4;
+ }
+ break;
+ case MBCS_OUTPUT_3_EUC:
+ value=((const uint16_t *)bytes)[value +(c&0x3f)];
+ /* EUC 16-bit fixed-length representation */
+ if(value<=0xff) {
+ if(value==0) {
+ goto unassigned;
+ } else {
+ length=1;
+ }
+ } else if((value&0x8000)==0) {
+ value|=0x8e8000;
+ length=3;
+ } else if((value&0x80)==0) {
+ value|=0x8f0080;
+ length=3;
+ } else {
+ length=2;
+ }
+ break;
+ case MBCS_OUTPUT_4_EUC:
+ p=bytes+(value+(c&0x3f))*3;
+ value=((uint32_t)*p<<16)|((uint32_t)p[1]<<8)|p[2];
+ /* EUC 16-bit fixed-length representation applied to the first two bytes */
+ if(value<=0xff) {
+ if(value==0) {
+ goto unassigned;
+ } else {
+ length=1;
+ }
+ } else if(value<=0xffff) {
+ length=2;
+ } else if((value&0x800000)==0) {
+ value|=0x8e800000;
+ length=4;
+ } else if((value&0x8000)==0) {
+ value|=0x8f008000;
+ length=4;
+ } else {
+ length=3;
+ }
+ break;
+ default:
+ /* must not occur */
+ /*
+ * To avoid compiler warnings that value & length may be
+ * used without having been initialized, we set them here.
+ * In reality, this is unreachable code.
+ * Not having a default branch also causes warnings with
+ * some compilers.
+ */
+ value=0;
+ length=0;
+ break;
+ }
+ /* output the value */
+ } else {
+ /*
+ * This also tests if the codepage maps single surrogates.
+ * If it does, then surrogates are not paired but mapped separately.
+ * Note that in this case unmatched surrogates are not detected.
+ */
+ if(UTF_IS_SURROGATE(c) && !(unicodeMask&UCNV_HAS_SURROGATES)) {
+ if(UTF_IS_SURROGATE_FIRST(c)) {
getTrail:
- if(source<sourceLimit) {
- /* test the following code unit */
- UChar trail=*source;
- if(UTF_IS_SECOND_SURROGATE(trail)) {
- ++source;
- ++nextSourceIndex;
- c=UTF16_GET_PAIR_VALUE(c, trail);
- if(!(unicodeMask&UCNV_HAS_SUPPLEMENTARY)) {
- /* BMP-only codepages are stored without stage 1 entries for supplementary code points */
- cnv->fromUnicodeStatus=prevLength; /* save the old state */
- /* callback(unassigned) */
- goto unassigned;
+ if(source<sourceLimit) {
+ /* test the following code unit */
+ UChar trail=*source;
+ if(UTF_IS_SECOND_SURROGATE(trail)) {
+ ++source;
+ ++nextSourceIndex;
+ c=UTF16_GET_PAIR_VALUE(c, trail);
+ if(!(unicodeMask&UCNV_HAS_SUPPLEMENTARY)) {
+ /* BMP-only codepages are stored without stage 1 entries for supplementary code points */
+ cnv->fromUnicodeStatus=prevLength; /* save the old state */
+ /* callback(unassigned) */
+ goto unassigned;
+ }
+ /* convert this supplementary code point */
+ /* exit this condition tree */
+ } else {
+ /* this is an unmatched lead code unit (1st surrogate) */
+ /* callback(illegal) */
+ *pErrorCode=U_ILLEGAL_CHAR_FOUND;
+ break;
}
- /* convert this supplementary code point */
- /* exit this condition tree */
} else {
- /* this is an unmatched lead code unit (1st surrogate) */
- /* callback(illegal) */
- *pErrorCode=U_ILLEGAL_CHAR_FOUND;
+ /* no more input */
break;
}
} else {
- /* no more input */
+ /* this is an unmatched trail code unit (2nd surrogate) */
+ /* callback(illegal) */
+ *pErrorCode=U_ILLEGAL_CHAR_FOUND;
break;
}
- } else {
- /* this is an unmatched trail code unit (2nd surrogate) */
- /* callback(illegal) */
- *pErrorCode=U_ILLEGAL_CHAR_FOUND;
- break;
}
- }
-
- /* convert the Unicode code point in c into codepage bytes */
- /*
- * The basic lookup is a triple-stage compact array (trie) lookup.
- * For details see the beginning of this file.
- *
- * Single-byte codepages are handled with a different data structure
- * by _MBCSSingle... functions.
- *
- * The result consists of a 32-bit value from stage 2 and
- * a pointer to as many bytes as are stored per character.
- * The pointer points to the character's bytes in stage 3.
- * Bits 15..0 of the stage 2 entry contain the stage 3 index
- * for that pointer, while bits 31..16 are flags for which of
- * the 16 characters in the block are roundtrip-assigned.
- *
- * For 2-byte and 4-byte codepages, the bytes are stored as uint16_t
- * respectively as uint32_t, in the platform encoding.
- * For 3-byte codepages, the bytes are always stored in big-endian order.
- *
- * For EUC encodings that use only either 0x8e or 0x8f as the first
- * byte of their longest byte sequences, the first two bytes in
- * this third stage indicate with their 7th bits whether these bytes
- * are to be written directly or actually need to be preceeded by
- * one of the two Single-Shift codes. With this, the third stage
- * stores one byte fewer per character than the actual maximum length of
- * EUC byte sequences.
- *
- * Other than that, leading zero bytes are removed and the other
- * bytes output. A single zero byte may be output if the "assigned"
- * bit in stage 2 was on.
- * The data structure does not support zero byte output as a fallback,
- * and also does not allow output of leading zeros.
- */
- stage2Entry=MBCS_STAGE_2_FROM_U(table, c);
+ /* convert the Unicode code point in c into codepage bytes */
- /* get the bytes and the length for the output */
- switch(outputType) {
- case MBCS_OUTPUT_2:
- value=MBCS_VALUE_2_FROM_STAGE_2(bytes, stage2Entry, c);
- if(value<=0xff) {
- length=1;
- } else {
- length=2;
- }
- break;
- case MBCS_OUTPUT_2_SISO:
- /* 1/2-byte stateful with Shift-In/Shift-Out */
/*
- * Save the old state in the converter object
- * right here, then change the local prevLength state variable if necessary.
- * Then, if this character turns out to be unassigned or a fallback that
- * is not taken, the callback code must not save the new state in the converter
- * because the new state is for a character that is not output.
- * However, the callback must still restore the state from the converter
- * in case the callback function changed it for its output.
+ * The basic lookup is a triple-stage compact array (trie) lookup.
+ * For details see the beginning of this file.
+ *
+ * Single-byte codepages are handled with a different data structure
+ * by _MBCSSingle... functions.
+ *
+ * The result consists of a 32-bit value from stage 2 and
+ * a pointer to as many bytes as are stored per character.
+ * The pointer points to the character's bytes in stage 3.
+ * Bits 15..0 of the stage 2 entry contain the stage 3 index
+ * for that pointer, while bits 31..16 are flags for which of
+ * the 16 characters in the block are roundtrip-assigned.
+ *
+ * For 2-byte and 4-byte codepages, the bytes are stored as uint16_t
+ * respectively as uint32_t, in the platform encoding.
+ * For 3-byte codepages, the bytes are always stored in big-endian order.
+ *
+ * For EUC encodings that use only either 0x8e or 0x8f as the first
+ * byte of their longest byte sequences, the first two bytes in
+ * this third stage indicate with their 7th bits whether these bytes
+ * are to be written directly or actually need to be preceeded by
+ * one of the two Single-Shift codes. With this, the third stage
+ * stores one byte fewer per character than the actual maximum length of
+ * EUC byte sequences.
+ *
+ * Other than that, leading zero bytes are removed and the other
+ * bytes output. A single zero byte may be output if the "assigned"
+ * bit in stage 2 was on.
+ * The data structure does not support zero byte output as a fallback,
+ * and also does not allow output of leading zeros.
*/
- cnv->fromUnicodeStatus=prevLength; /* save the old state */
- value=MBCS_VALUE_2_FROM_STAGE_2(bytes, stage2Entry, c);
- if(value<=0xff) {
- if(value==0 && MBCS_FROM_U_IS_ROUNDTRIP(stage2Entry, c)==0) {
- /* no mapping, leave value==0 */
+ stage2Entry=MBCS_STAGE_2_FROM_U(table, c);
+
+ /* get the bytes and the length for the output */
+ switch(outputType) {
+ case MBCS_OUTPUT_2:
+ value=MBCS_VALUE_2_FROM_STAGE_2(bytes, stage2Entry, c);
+ if(value<=0xff) {
+ length=1;
+ } else {
+ length=2;
+ }
+ break;
+ case MBCS_OUTPUT_2_SISO:
+ /* 1/2-byte stateful with Shift-In/Shift-Out */
+ /*
+ * Save the old state in the converter object
+ * right here, then change the local prevLength state variable if necessary.
+ * Then, if this character turns out to be unassigned or a fallback that
+ * is not taken, the callback code must not save the new state in the converter
+ * because the new state is for a character that is not output.
+ * However, the callback must still restore the state from the converter
+ * in case the callback function changed it for its output.
+ */
+ cnv->fromUnicodeStatus=prevLength; /* save the old state */
+ value=MBCS_VALUE_2_FROM_STAGE_2(bytes, stage2Entry, c);
+ if(value<=0xff) {
+ if(value==0 && MBCS_FROM_U_IS_ROUNDTRIP(stage2Entry, c)==0) {
+ /* no mapping, leave value==0 */
+ length=0;
+ } else if(prevLength<=1) {
+ length=1;
+ } else {
+ /* change from double-byte mode to single-byte */
+ if (si_value_length == 1) {
+ value|=(uint32_t)si_value[0]<<8;
+ length = 2;
+ } else if (si_value_length == 2) {
+ value|=(uint32_t)si_value[1]<<8;
+ value|=(uint32_t)si_value[0]<<16;
+ length = 3;
+ }
+ prevLength=1;
+ }
+ } else {
+ if(prevLength==2) {
+ length=2;
+ } else {
+ /* change from single-byte mode to double-byte */
+ if (so_value_length == 1) {
+ value|=(uint32_t)so_value[0]<<16;
+ length = 3;
+ } else if (so_value_length == 2) {
+ value|=(uint32_t)so_value[1]<<16;
+ value|=(uint32_t)so_value[0]<<24;
+ length = 4;
+ }
+ prevLength=2;
+ }
+ }
+ break;
+ case MBCS_OUTPUT_DBCS_ONLY:
+ /* table with single-byte results, but only DBCS mappings used */
+ value=MBCS_VALUE_2_FROM_STAGE_2(bytes, stage2Entry, c);
+ if(value<=0xff) {
+ /* no mapping or SBCS result, not taken for DBCS-only */
+ value=stage2Entry=0; /* stage2Entry=0 to reset roundtrip flags */
length=0;
- } else if(prevLength<=1) {
+ } else {
+ length=2;
+ }
+ break;
+ case MBCS_OUTPUT_3:
+ p=MBCS_POINTER_3_FROM_STAGE_2(bytes, stage2Entry, c);
+ value=((uint32_t)*p<<16)|((uint32_t)p[1]<<8)|p[2];
+ if(value<=0xff) {
+ length=1;
+ } else if(value<=0xffff) {
+ length=2;
+ } else {
+ length=3;
+ }
+ break;
+ case MBCS_OUTPUT_4:
+ value=MBCS_VALUE_4_FROM_STAGE_2(bytes, stage2Entry, c);
+ if(value<=0xff) {
+ length=1;
+ } else if(value<=0xffff) {
+ length=2;
+ } else if(value<=0xffffff) {
+ length=3;
+ } else {
+ length=4;
+ }
+ break;
+ case MBCS_OUTPUT_3_EUC:
+ value=MBCS_VALUE_2_FROM_STAGE_2(bytes, stage2Entry, c);
+ /* EUC 16-bit fixed-length representation */
+ if(value<=0xff) {
length=1;
+ } else if((value&0x8000)==0) {
+ value|=0x8e8000;
+ length=3;
+ } else if((value&0x80)==0) {
+ value|=0x8f0080;
+ length=3;
} else {
- /* change from double-byte mode to single-byte */
- value|=(uint32_t)UCNV_SI<<8;
length=2;
- prevLength=1;
}
- } else {
- if(prevLength==2) {
+ break;
+ case MBCS_OUTPUT_4_EUC:
+ p=MBCS_POINTER_3_FROM_STAGE_2(bytes, stage2Entry, c);
+ value=((uint32_t)*p<<16)|((uint32_t)p[1]<<8)|p[2];
+ /* EUC 16-bit fixed-length representation applied to the first two bytes */
+ if(value<=0xff) {
+ length=1;
+ } else if(value<=0xffff) {
length=2;
+ } else if((value&0x800000)==0) {
+ value|=0x8e800000;
+ length=4;
+ } else if((value&0x8000)==0) {
+ value|=0x8f008000;
+ length=4;
} else {
- /* change from single-byte mode to double-byte */
- value|=(uint32_t)UCNV_SO<<16;
length=3;
- prevLength=2;
}
- }
- break;
- case MBCS_OUTPUT_DBCS_ONLY:
- /* table with single-byte results, but only DBCS mappings used */
- value=MBCS_VALUE_2_FROM_STAGE_2(bytes, stage2Entry, c);
- if(value<=0xff) {
- /* no mapping or SBCS result, not taken for DBCS-only */
+ break;
+ default:
+ /* must not occur */
+ /*
+ * To avoid compiler warnings that value & length may be
+ * used without having been initialized, we set them here.
+ * In reality, this is unreachable code.
+ * Not having a default branch also causes warnings with
+ * some compilers.
+ */
value=stage2Entry=0; /* stage2Entry=0 to reset roundtrip flags */
length=0;
- } else {
- length=2;
- }
- break;
- case MBCS_OUTPUT_3:
- p=MBCS_POINTER_3_FROM_STAGE_2(bytes, stage2Entry, c);
- value=((uint32_t)*p<<16)|((uint32_t)p[1]<<8)|p[2];
- if(value<=0xff) {
- length=1;
- } else if(value<=0xffff) {
- length=2;
- } else {
- length=3;
+ break;
}
- break;
- case MBCS_OUTPUT_4:
- value=MBCS_VALUE_4_FROM_STAGE_2(bytes, stage2Entry, c);
- if(value<=0xff) {
- length=1;
- } else if(value<=0xffff) {
- length=2;
- } else if(value<=0xffffff) {
- length=3;
- } else {
- length=4;
- }
- break;
- case MBCS_OUTPUT_3_EUC:
- value=MBCS_VALUE_2_FROM_STAGE_2(bytes, stage2Entry, c);
- /* EUC 16-bit fixed-length representation */
- if(value<=0xff) {
- length=1;
- } else if((value&0x8000)==0) {
- value|=0x8e8000;
- length=3;
- } else if((value&0x80)==0) {
- value|=0x8f0080;
- length=3;
- } else {
- length=2;
- }
- break;
- case MBCS_OUTPUT_4_EUC:
- p=MBCS_POINTER_3_FROM_STAGE_2(bytes, stage2Entry, c);
- value=((uint32_t)*p<<16)|((uint32_t)p[1]<<8)|p[2];
- /* EUC 16-bit fixed-length representation applied to the first two bytes */
- if(value<=0xff) {
- length=1;
- } else if(value<=0xffff) {
- length=2;
- } else if((value&0x800000)==0) {
- value|=0x8e800000;
- length=4;
- } else if((value&0x8000)==0) {
- value|=0x8f008000;
- length=4;
- } else {
- length=3;
- }
- break;
- default:
- /* must not occur */
- /*
- * To avoid compiler warnings that value & length may be
- * used without having been initialized, we set them here.
- * In reality, this is unreachable code.
- * Not having a default branch also causes warnings with
- * some compilers.
- */
- value=stage2Entry=0; /* stage2Entry=0 to reset roundtrip flags */
- length=0;
- break;
- }
- /* is this code point assigned, or do we use fallbacks? */
- if(!(MBCS_FROM_U_IS_ROUNDTRIP(stage2Entry, c)!=0 ||
- (UCNV_FROM_U_USE_FALLBACK(cnv, c) && value!=0))
- ) {
- /*
- * We allow a 0 byte output if the "assigned" bit is set for this entry.
- * There is no way with this data structure for fallback output
- * to be a zero byte.
- */
+ /* is this code point assigned, or do we use fallbacks? */
+ if(!(MBCS_FROM_U_IS_ROUNDTRIP(stage2Entry, c)!=0 ||
+ (UCNV_FROM_U_USE_FALLBACK(cnv, c) && value!=0))
+ ) {
+ /*
+ * We allow a 0 byte output if the "assigned" bit is set for this entry.
+ * There is no way with this data structure for fallback output
+ * to be a zero byte.
+ */
unassigned:
- /* try an extension mapping */
- pArgs->source=source;
- c=_extFromU(cnv, cnv->sharedData,
- c, &source, sourceLimit,
- (char **)&target, (char *)target+targetCapacity,
- &offsets, sourceIndex,
- pArgs->flush,
- pErrorCode);
- nextSourceIndex+=(int32_t)(source-pArgs->source);
- prevLength=cnv->fromUnicodeStatus; /* restore SISO state */
-
- if(U_FAILURE(*pErrorCode)) {
- /* not mappable or buffer overflow */
- break;
- } else {
- /* a mapping was written to the target, continue */
+ /* try an extension mapping */
+ pArgs->source=source;
+ c=_extFromU(cnv, cnv->sharedData,
+ c, &source, sourceLimit,
+ &target, target+targetCapacity,
+ &offsets, sourceIndex,
+ pArgs->flush,
+ pErrorCode);
+ nextSourceIndex+=(int32_t)(source-pArgs->source);
+ prevLength=cnv->fromUnicodeStatus; /* restore SISO state */
+
+ if(U_FAILURE(*pErrorCode)) {
+ /* not mappable or buffer overflow */
+ break;
+ } else {
+ /* a mapping was written to the target, continue */
- /* recalculate the targetCapacity after an extension mapping */
- targetCapacity=(int32_t)(pArgs->targetLimit-(char *)target);
+ /* recalculate the targetCapacity after an extension mapping */
+ targetCapacity=(int32_t)(pArgs->targetLimit-(char *)target);
- /* normal end of conversion: prepare for a new character */
- if(offsets!=NULL) {
- prevSourceIndex=sourceIndex;
- sourceIndex=nextSourceIndex;
+ /* normal end of conversion: prepare for a new character */
+ if(offsets!=NULL) {
+ prevSourceIndex=sourceIndex;
+ sourceIndex=nextSourceIndex;
+ }
+ continue;
}
- continue;
}
}
) {
/* EBCDIC_STATEFUL ending with DBCS: emit an SI to return the output stream to SBCS */
if(targetCapacity>0) {
- *target++=(uint8_t)UCNV_SI;
+ *target++=(uint8_t)si_value[0];
+ if (si_value_length == 2) {
+ if (targetCapacity<2) {
+ cnv->charErrorBuffer[0]=(uint8_t)si_value[1];
+ cnv->charErrorBufferLength=1;
+ *pErrorCode=U_BUFFER_OVERFLOW_ERROR;
+ } else {
+ *target++=(uint8_t)si_value[1];
+ }
+ }
if(offsets!=NULL) {
/* set the last source character's index (sourceIndex points at sourceLimit now) */
*offsets++=prevSourceIndex;
}
} else {
/* target is full */
- cnv->charErrorBuffer[0]=(char)UCNV_SI;
- cnv->charErrorBufferLength=1;
+ cnv->charErrorBuffer[0]=(uint8_t)si_value[0];
+ if (si_value_length == 2) {
+ cnv->charErrorBuffer[1]=(uint8_t)si_value[1];
+ }
+ cnv->charErrorBufferLength=si_value_length;
*pErrorCode=U_BUFFER_OVERFLOW_ERROR;
}
prevLength=1; /* we switched into SBCS */
cx=sharedData->mbcs.extIndexes;
if(cx!=NULL) {
- return ucnv_extSimpleMatchFromU(cx, c, pValue, useFallback);
+ length=ucnv_extSimpleMatchFromU(cx, c, pValue, useFallback);
+ return length>=0 ? length : -length; /* return abs(length); */
}
/* unassigned */
}
#endif
+/* MBCS-from-UTF-8 conversion functions ------------------------------------- */
+
+/* minimum code point values for n-byte UTF-8 sequences, n=0..4 */
+static const UChar32
+utf8_minLegal[5]={ 0, 0, 0x80, 0x800, 0x10000 };
+
+/* offsets for n-byte UTF-8 sequences that were calculated with ((lead<<6)+trail)<<6+trail... */
+static const UChar32
+utf8_offsets[7]={ 0, 0, 0x3080, 0xE2080, 0x3C82080 };
+
+static void
+ucnv_SBCSFromUTF8(UConverterFromUnicodeArgs *pFromUArgs,
+ UConverterToUnicodeArgs *pToUArgs,
+ UErrorCode *pErrorCode) {
+ UConverter *utf8, *cnv;
+ const uint8_t *source, *sourceLimit;
+ uint8_t *target;
+ int32_t targetCapacity;
+
+ const uint16_t *table, *sbcsIndex;
+ const uint16_t *results;
+
+ int8_t oldToULength, toULength, toULimit;
+
+ UChar32 c;
+ uint8_t b, t1, t2;
+
+ uint32_t asciiRoundtrips;
+ uint16_t value, minValue;
+ UBool hasSupplementary;
+
+ /* set up the local pointers */
+ utf8=pToUArgs->converter;
+ cnv=pFromUArgs->converter;
+ source=(uint8_t *)pToUArgs->source;
+ sourceLimit=(uint8_t *)pToUArgs->sourceLimit;
+ target=(uint8_t *)pFromUArgs->target;
+ targetCapacity=(int32_t)(pFromUArgs->targetLimit-pFromUArgs->target);
+
+ table=cnv->sharedData->mbcs.fromUnicodeTable;
+ sbcsIndex=cnv->sharedData->mbcs.sbcsIndex;
+ if((cnv->options&UCNV_OPTION_SWAP_LFNL)!=0) {
+ results=(uint16_t *)cnv->sharedData->mbcs.swapLFNLFromUnicodeBytes;
+ } else {
+ results=(uint16_t *)cnv->sharedData->mbcs.fromUnicodeBytes;
+ }
+ asciiRoundtrips=cnv->sharedData->mbcs.asciiRoundtrips;
+
+ if(cnv->useFallback) {
+ /* use all roundtrip and fallback results */
+ minValue=0x800;
+ } else {
+ /* use only roundtrips and fallbacks from private-use characters */
+ minValue=0xc00;
+ }
+ hasSupplementary=(UBool)(cnv->sharedData->mbcs.unicodeMask&UCNV_HAS_SUPPLEMENTARY);
+
+ /* get the converter state from the UTF-8 UConverter */
+ c=(UChar32)utf8->toUnicodeStatus;
+ if(c!=0) {
+ toULength=oldToULength=utf8->toULength;
+ toULimit=(int8_t)utf8->mode;
+ } else {
+ toULength=oldToULength=toULimit=0;
+ }
+
+ /*
+ * Make sure that the last byte sequence before sourceLimit is complete
+ * or runs into a lead byte.
+ * Do not go back into the bytes that will be read for finishing a partial
+ * sequence from the previous buffer.
+ * In the conversion loop compare source with sourceLimit only once
+ * per multi-byte character.
+ */
+ {
+ int32_t i, length;
+
+ length=(int32_t)(sourceLimit-source) - (toULimit-oldToULength);
+ for(i=0; i<3 && i<length;) {
+ b=*(sourceLimit-i-1);
+ if(U8_IS_TRAIL(b)) {
+ ++i;
+ } else {
+ if(i<utf8_countTrailBytes[b]) {
+ /* exit the conversion loop before the lead byte if there are not enough trail bytes for it */
+ sourceLimit-=i+1;
+ }
+ break;
+ }
+ }
+ }
+
+ if(c!=0 && targetCapacity>0) {
+ utf8->toUnicodeStatus=0;
+ utf8->toULength=0;
+ goto moreBytes;
+ /*
+ * Note: We could avoid the goto by duplicating some of the moreBytes
+ * code, but only up to the point of collecting a complete UTF-8
+ * sequence; then recurse for the toUBytes[toULength]
+ * and then continue with normal conversion.
+ *
+ * If so, move this code to just after initializing the minimum
+ * set of local variables for reading the UTF-8 input
+ * (utf8, source, target, limits but not cnv, table, minValue, etc.).
+ *
+ * Potential advantages:
+ * - avoid the goto
+ * - oldToULength could become a local variable in just those code blocks
+ * that deal with buffer boundaries
+ * - possibly faster if the goto prevents some compiler optimizations
+ * (this would need measuring to confirm)
+ * Disadvantage:
+ * - code duplication
+ */
+ }
+
+ /* conversion loop */
+ while(source<sourceLimit) {
+ if(targetCapacity>0) {
+ b=*source++;
+ if((int8_t)b>=0) {
+ /* convert ASCII */
+ if(IS_ASCII_ROUNDTRIP(b, asciiRoundtrips)) {
+ *target++=(uint8_t)b;
+ --targetCapacity;
+ continue;
+ } else {
+ c=b;
+ value=SBCS_RESULT_FROM_UTF8(sbcsIndex, results, 0, c);
+ }
+ } else {
+ if(b<0xe0) {
+ if( /* handle U+0080..U+07FF inline */
+ b>=0xc2 &&
+ (t1=(uint8_t)(*source-0x80)) <= 0x3f
+ ) {
+ c=b&0x1f;
+ ++source;
+ value=SBCS_RESULT_FROM_UTF8(sbcsIndex, results, c, t1);
+ if(value>=minValue) {
+ *target++=(uint8_t)value;
+ --targetCapacity;
+ continue;
+ } else {
+ c=(c<<6)|t1;
+ }
+ } else {
+ c=-1;
+ }
+ } else if(b==0xe0) {
+ if( /* handle U+0800..U+0FFF inline */
+ (t1=(uint8_t)(source[0]-0x80)) <= 0x3f && t1 >= 0x20 &&
+ (t2=(uint8_t)(source[1]-0x80)) <= 0x3f
+ ) {
+ c=t1;
+ source+=2;
+ value=SBCS_RESULT_FROM_UTF8(sbcsIndex, results, c, t2);
+ if(value>=minValue) {
+ *target++=(uint8_t)value;
+ --targetCapacity;
+ continue;
+ } else {
+ c=(c<<6)|t2;
+ }
+ } else {
+ c=-1;
+ }
+ } else {
+ c=-1;
+ }
+
+ if(c<0) {
+ /* handle "complicated" and error cases, and continuing partial characters */
+ oldToULength=0;
+ toULength=1;
+ toULimit=utf8_countTrailBytes[b]+1;
+ c=b;
+moreBytes:
+ while(toULength<toULimit) {
+ /*
+ * The sourceLimit may have been adjusted before the conversion loop
+ * to stop before a truncated sequence.
+ * Here we need to use the real limit in case we have two truncated
+ * sequences at the end.
+ * See ticket #7492.
+ */
+ if(source<(uint8_t *)pToUArgs->sourceLimit) {
+ b=*source;
+ if(U8_IS_TRAIL(b)) {
+ ++source;
+ ++toULength;
+ c=(c<<6)+b;
+ } else {
+ break; /* sequence too short, stop with toULength<toULimit */
+ }
+ } else {
+ /* store the partial UTF-8 character, compatible with the regular UTF-8 converter */
+ source-=(toULength-oldToULength);
+ while(oldToULength<toULength) {
+ utf8->toUBytes[oldToULength++]=*source++;
+ }
+ utf8->toUnicodeStatus=c;
+ utf8->toULength=toULength;
+ utf8->mode=toULimit;
+ pToUArgs->source=(char *)source;
+ pFromUArgs->target=(char *)target;
+ return;
+ }
+ }
+
+ if( toULength==toULimit && /* consumed all trail bytes */
+ (toULength==3 || toULength==2) && /* BMP */
+ (c-=utf8_offsets[toULength])>=utf8_minLegal[toULength] &&
+ (c<=0xd7ff || 0xe000<=c) /* not a surrogate */
+ ) {
+ value=MBCS_SINGLE_RESULT_FROM_U(table, results, c);
+ } else if(
+ toULength==toULimit && toULength==4 &&
+ (0x10000<=(c-=utf8_offsets[4]) && c<=0x10ffff)
+ ) {
+ /* supplementary code point */
+ if(!hasSupplementary) {
+ /* BMP-only codepages are stored without stage 1 entries for supplementary code points */
+ value=0;
+ } else {
+ value=MBCS_SINGLE_RESULT_FROM_U(table, results, c);
+ }
+ } else {
+ /* error handling: illegal UTF-8 byte sequence */
+ source-=(toULength-oldToULength);
+ while(oldToULength<toULength) {
+ utf8->toUBytes[oldToULength++]=*source++;
+ }
+ utf8->toULength=toULength;
+ pToUArgs->source=(char *)source;
+ pFromUArgs->target=(char *)target;
+ *pErrorCode=U_ILLEGAL_CHAR_FOUND;
+ return;
+ }
+ }
+ }
+
+ if(value>=minValue) {
+ /* output the mapping for c */
+ *target++=(uint8_t)value;
+ --targetCapacity;
+ } else {
+ /* value<minValue means c is unassigned (unmappable) */
+ /*
+ * Try an extension mapping.
+ * Pass in no source because we don't have UTF-16 input.
+ * If we have a partial match on c, we will return and revert
+ * to UTF-8->UTF-16->charset conversion.
+ */
+ static const UChar nul=0;
+ const UChar *noSource=&nul;
+ c=_extFromU(cnv, cnv->sharedData,
+ c, &noSource, noSource,
+ &target, target+targetCapacity,
+ NULL, -1,
+ pFromUArgs->flush,
+ pErrorCode);
+
+ if(U_FAILURE(*pErrorCode)) {
+ /* not mappable or buffer overflow */
+ cnv->fromUChar32=c;
+ break;
+ } else if(cnv->preFromUFirstCP>=0) {
+ /*
+ * Partial match, return and revert to pivoting.
+ * In normal from-UTF-16 conversion, we would just continue
+ * but then exit the loop because the extension match would
+ * have consumed the source.
+ */
+ break;
+ } else {
+ /* a mapping was written to the target, continue */
+
+ /* recalculate the targetCapacity after an extension mapping */
+ targetCapacity=(int32_t)(pFromUArgs->targetLimit-(char *)target);
+ }
+ }
+ } else {
+ /* target is full */
+ *pErrorCode=U_BUFFER_OVERFLOW_ERROR;
+ break;
+ }
+ }
+
+ /*
+ * The sourceLimit may have been adjusted before the conversion loop
+ * to stop before a truncated sequence.
+ * If so, then collect the truncated sequence now.
+ */
+ if(U_SUCCESS(*pErrorCode) && source<(sourceLimit=(uint8_t *)pToUArgs->sourceLimit)) {
+ c=utf8->toUBytes[0]=b=*source++;
+ toULength=1;
+ toULimit=utf8_countTrailBytes[b]+1;
+ while(source<sourceLimit) {
+ utf8->toUBytes[toULength++]=b=*source++;
+ c=(c<<6)+b;
+ }
+ utf8->toUnicodeStatus=c;
+ utf8->toULength=toULength;
+ utf8->mode=toULimit;
+ }
+
+ /* write back the updated pointers */
+ pToUArgs->source=(char *)source;
+ pFromUArgs->target=(char *)target;
+}
+
+static void
+ucnv_DBCSFromUTF8(UConverterFromUnicodeArgs *pFromUArgs,
+ UConverterToUnicodeArgs *pToUArgs,
+ UErrorCode *pErrorCode) {
+ UConverter *utf8, *cnv;
+ const uint8_t *source, *sourceLimit;
+ uint8_t *target;
+ int32_t targetCapacity;
+
+ const uint16_t *table, *mbcsIndex;
+ const uint16_t *results;
+
+ int8_t oldToULength, toULength, toULimit;
+
+ UChar32 c;
+ uint8_t b, t1, t2;
+
+ uint32_t stage2Entry;
+ uint32_t asciiRoundtrips;
+ uint16_t value, minValue;
+ UBool hasSupplementary;
+
+ /* set up the local pointers */
+ utf8=pToUArgs->converter;
+ cnv=pFromUArgs->converter;
+ source=(uint8_t *)pToUArgs->source;
+ sourceLimit=(uint8_t *)pToUArgs->sourceLimit;
+ target=(uint8_t *)pFromUArgs->target;
+ targetCapacity=(int32_t)(pFromUArgs->targetLimit-pFromUArgs->target);
+
+ table=cnv->sharedData->mbcs.fromUnicodeTable;
+ mbcsIndex=cnv->sharedData->mbcs.mbcsIndex;
+ if((cnv->options&UCNV_OPTION_SWAP_LFNL)!=0) {
+ results=(uint16_t *)cnv->sharedData->mbcs.swapLFNLFromUnicodeBytes;
+ } else {
+ results=(uint16_t *)cnv->sharedData->mbcs.fromUnicodeBytes;
+ }
+ asciiRoundtrips=cnv->sharedData->mbcs.asciiRoundtrips;
+
+ if(cnv->useFallback) {
+ /* use all roundtrip and fallback results */
+ minValue=0x800;
+ } else {
+ /* use only roundtrips and fallbacks from private-use characters */
+ minValue=0xc00;
+ }
+ hasSupplementary=(UBool)(cnv->sharedData->mbcs.unicodeMask&UCNV_HAS_SUPPLEMENTARY);
+
+ /* get the converter state from the UTF-8 UConverter */
+ c=(UChar32)utf8->toUnicodeStatus;
+ if(c!=0) {
+ toULength=oldToULength=utf8->toULength;
+ toULimit=(int8_t)utf8->mode;
+ } else {
+ toULength=oldToULength=toULimit=0;
+ }
+
+ /*
+ * Make sure that the last byte sequence before sourceLimit is complete
+ * or runs into a lead byte.
+ * Do not go back into the bytes that will be read for finishing a partial
+ * sequence from the previous buffer.
+ * In the conversion loop compare source with sourceLimit only once
+ * per multi-byte character.
+ */
+ {
+ int32_t i, length;
+
+ length=(int32_t)(sourceLimit-source) - (toULimit-oldToULength);
+ for(i=0; i<3 && i<length;) {
+ b=*(sourceLimit-i-1);
+ if(U8_IS_TRAIL(b)) {
+ ++i;
+ } else {
+ if(i<utf8_countTrailBytes[b]) {
+ /* exit the conversion loop before the lead byte if there are not enough trail bytes for it */
+ sourceLimit-=i+1;
+ }
+ break;
+ }
+ }
+ }
+
+ if(c!=0 && targetCapacity>0) {
+ utf8->toUnicodeStatus=0;
+ utf8->toULength=0;
+ goto moreBytes;
+ /* See note in ucnv_SBCSFromUTF8() about this goto. */
+ }
+
+ /* conversion loop */
+ while(source<sourceLimit) {
+ if(targetCapacity>0) {
+ b=*source++;
+ if((int8_t)b>=0) {
+ /* convert ASCII */
+ if(IS_ASCII_ROUNDTRIP(b, asciiRoundtrips)) {
+ *target++=b;
+ --targetCapacity;
+ continue;
+ } else {
+ value=DBCS_RESULT_FROM_UTF8(mbcsIndex, results, 0, b);
+ if(value==0) {
+ c=b;
+ goto unassigned;
+ }
+ }
+ } else {
+ if(b>0xe0) {
+ if( /* handle U+1000..U+D7FF inline */
+ (((t1=(uint8_t)(source[0]-0x80), b<0xed) && (t1 <= 0x3f)) ||
+ (b==0xed && (t1 <= 0x1f))) &&
+ (t2=(uint8_t)(source[1]-0x80)) <= 0x3f
+ ) {
+ c=((b&0xf)<<6)|t1;
+ source+=2;
+ value=DBCS_RESULT_FROM_UTF8(mbcsIndex, results, c, t2);
+ if(value==0) {
+ c=(c<<6)|t2;
+ goto unassigned;
+ }
+ } else {
+ c=-1;
+ }
+ } else if(b<0xe0) {
+ if( /* handle U+0080..U+07FF inline */
+ b>=0xc2 &&
+ (t1=(uint8_t)(*source-0x80)) <= 0x3f
+ ) {
+ c=b&0x1f;
+ ++source;
+ value=DBCS_RESULT_FROM_UTF8(mbcsIndex, results, c, t1);
+ if(value==0) {
+ c=(c<<6)|t1;
+ goto unassigned;
+ }
+ } else {
+ c=-1;
+ }
+ } else {
+ c=-1;
+ }
+
+ if(c<0) {
+ /* handle "complicated" and error cases, and continuing partial characters */
+ oldToULength=0;
+ toULength=1;
+ toULimit=utf8_countTrailBytes[b]+1;
+ c=b;
+moreBytes:
+ while(toULength<toULimit) {
+ /*
+ * The sourceLimit may have been adjusted before the conversion loop
+ * to stop before a truncated sequence.
+ * Here we need to use the real limit in case we have two truncated
+ * sequences at the end.
+ * See ticket #7492.
+ */
+ if(source<(uint8_t *)pToUArgs->sourceLimit) {
+ b=*source;
+ if(U8_IS_TRAIL(b)) {
+ ++source;
+ ++toULength;
+ c=(c<<6)+b;
+ } else {
+ break; /* sequence too short, stop with toULength<toULimit */
+ }
+ } else {
+ /* store the partial UTF-8 character, compatible with the regular UTF-8 converter */
+ source-=(toULength-oldToULength);
+ while(oldToULength<toULength) {
+ utf8->toUBytes[oldToULength++]=*source++;
+ }
+ utf8->toUnicodeStatus=c;
+ utf8->toULength=toULength;
+ utf8->mode=toULimit;
+ pToUArgs->source=(char *)source;
+ pFromUArgs->target=(char *)target;
+ return;
+ }
+ }
+
+ if( toULength==toULimit && /* consumed all trail bytes */
+ (toULength==3 || toULength==2) && /* BMP */
+ (c-=utf8_offsets[toULength])>=utf8_minLegal[toULength] &&
+ (c<=0xd7ff || 0xe000<=c) /* not a surrogate */
+ ) {
+ stage2Entry=MBCS_STAGE_2_FROM_U(table, c);
+ } else if(
+ toULength==toULimit && toULength==4 &&
+ (0x10000<=(c-=utf8_offsets[4]) && c<=0x10ffff)
+ ) {
+ /* supplementary code point */
+ if(!hasSupplementary) {
+ /* BMP-only codepages are stored without stage 1 entries for supplementary code points */
+ stage2Entry=0;
+ } else {
+ stage2Entry=MBCS_STAGE_2_FROM_U(table, c);
+ }
+ } else {
+ /* error handling: illegal UTF-8 byte sequence */
+ source-=(toULength-oldToULength);
+ while(oldToULength<toULength) {
+ utf8->toUBytes[oldToULength++]=*source++;
+ }
+ utf8->toULength=toULength;
+ pToUArgs->source=(char *)source;
+ pFromUArgs->target=(char *)target;
+ *pErrorCode=U_ILLEGAL_CHAR_FOUND;
+ return;
+ }
+
+ /* get the bytes and the length for the output */
+ /* MBCS_OUTPUT_2 */
+ value=MBCS_VALUE_2_FROM_STAGE_2(results, stage2Entry, c);
+
+ /* is this code point assigned, or do we use fallbacks? */
+ if(!(MBCS_FROM_U_IS_ROUNDTRIP(stage2Entry, c) ||
+ (UCNV_FROM_U_USE_FALLBACK(cnv, c) && value!=0))
+ ) {
+ goto unassigned;
+ }
+ }
+ }
+
+ /* write the output character bytes from value and length */
+ /* from the first if in the loop we know that targetCapacity>0 */
+ if(value<=0xff) {
+ /* this is easy because we know that there is enough space */
+ *target++=(uint8_t)value;
+ --targetCapacity;
+ } else /* length==2 */ {
+ *target++=(uint8_t)(value>>8);
+ if(2<=targetCapacity) {
+ *target++=(uint8_t)value;
+ targetCapacity-=2;
+ } else {
+ cnv->charErrorBuffer[0]=(char)value;
+ cnv->charErrorBufferLength=1;
+
+ /* target overflow */
+ *pErrorCode=U_BUFFER_OVERFLOW_ERROR;
+ break;
+ }
+ }
+ continue;
+
+unassigned:
+ {
+ /*
+ * Try an extension mapping.
+ * Pass in no source because we don't have UTF-16 input.
+ * If we have a partial match on c, we will return and revert
+ * to UTF-8->UTF-16->charset conversion.
+ */
+ static const UChar nul=0;
+ const UChar *noSource=&nul;
+ c=_extFromU(cnv, cnv->sharedData,
+ c, &noSource, noSource,
+ &target, target+targetCapacity,
+ NULL, -1,
+ pFromUArgs->flush,
+ pErrorCode);
+
+ if(U_FAILURE(*pErrorCode)) {
+ /* not mappable or buffer overflow */
+ cnv->fromUChar32=c;
+ break;
+ } else if(cnv->preFromUFirstCP>=0) {
+ /*
+ * Partial match, return and revert to pivoting.
+ * In normal from-UTF-16 conversion, we would just continue
+ * but then exit the loop because the extension match would
+ * have consumed the source.
+ */
+ break;
+ } else {
+ /* a mapping was written to the target, continue */
+
+ /* recalculate the targetCapacity after an extension mapping */
+ targetCapacity=(int32_t)(pFromUArgs->targetLimit-(char *)target);
+ continue;
+ }
+ }
+ } else {
+ /* target is full */
+ *pErrorCode=U_BUFFER_OVERFLOW_ERROR;
+ break;
+ }
+ }
+
+ /*
+ * The sourceLimit may have been adjusted before the conversion loop
+ * to stop before a truncated sequence.
+ * If so, then collect the truncated sequence now.
+ */
+ if(U_SUCCESS(*pErrorCode) && source<(sourceLimit=(uint8_t *)pToUArgs->sourceLimit)) {
+ c=utf8->toUBytes[0]=b=*source++;
+ toULength=1;
+ toULimit=utf8_countTrailBytes[b]+1;
+ while(source<sourceLimit) {
+ utf8->toUBytes[toULength++]=b=*source++;
+ c=(c<<6)+b;
+ }
+ utf8->toUnicodeStatus=c;
+ utf8->toULength=toULength;
+ utf8->mode=toULimit;
+ }
+
+ /* write back the updated pointers */
+ pToUArgs->source=(char *)source;
+ pFromUArgs->target=(char *)target;
+}
+
/* miscellaneous ------------------------------------------------------------ */
static void
/* reset the selector for the next code point */
cnv->useSubChar1=FALSE;
- switch(cnv->sharedData->mbcs.outputType) {
- case MBCS_OUTPUT_2_SISO:
+ if (cnv->sharedData->mbcs.outputType == MBCS_OUTPUT_2_SISO) {
p=buffer;
/* fromUnicodeStatus contains prevLength */
*pErrorCode=U_ILLEGAL_ARGUMENT_ERROR;
return;
}
- ucnv_cbFromUWriteBytes(pArgs,
- buffer, (int32_t)(p-buffer),
- offsetIndex, pErrorCode);
- break;
- default:
- ucnv_cbFromUWriteBytes(pArgs,
- subchar, length,
- offsetIndex, pErrorCode);
- break;
+ subchar=buffer;
+ length=(int32_t)(p-buffer);
}
+
+ ucnv_cbFromUWriteBytes(pArgs, subchar, length, offsetIndex, pErrorCode);
}
U_CFUNC UConverterType
return (UConverterType)UCNV_MBCS;
}
+static const UConverterImpl _SBCSUTF8Impl={
+ UCNV_MBCS,
+
+ ucnv_MBCSLoad,
+ ucnv_MBCSUnload,
+
+ ucnv_MBCSOpen,
+ NULL,
+ NULL,
+
+ ucnv_MBCSToUnicodeWithOffsets,
+ ucnv_MBCSToUnicodeWithOffsets,
+ ucnv_MBCSFromUnicodeWithOffsets,
+ ucnv_MBCSFromUnicodeWithOffsets,
+ ucnv_MBCSGetNextUChar,
+
+ ucnv_MBCSGetStarters,
+ ucnv_MBCSGetName,
+ ucnv_MBCSWriteSub,
+ NULL,
+ ucnv_MBCSGetUnicodeSet,
+
+ NULL,
+ ucnv_SBCSFromUTF8
+};
+
+static const UConverterImpl _DBCSUTF8Impl={
+ UCNV_MBCS,
+
+ ucnv_MBCSLoad,
+ ucnv_MBCSUnload,
+
+ ucnv_MBCSOpen,
+ NULL,
+ NULL,
+
+ ucnv_MBCSToUnicodeWithOffsets,
+ ucnv_MBCSToUnicodeWithOffsets,
+ ucnv_MBCSFromUnicodeWithOffsets,
+ ucnv_MBCSFromUnicodeWithOffsets,
+ ucnv_MBCSGetNextUChar,
+
+ ucnv_MBCSGetStarters,
+ ucnv_MBCSGetName,
+ ucnv_MBCSWriteSub,
+ NULL,
+ ucnv_MBCSGetUnicodeSet,
+
+ NULL,
+ ucnv_DBCSFromUTF8
+};
+
static const UConverterImpl _MBCSImpl={
UCNV_MBCS,