/* ******************************************************************************* * Copyright (C) 2001-2011, International Business Machines * Corporation and others. All Rights Reserved. ******************************************************************************* * file name: bocsu.cpp * encoding: US-ASCII * tab size: 8 (not used) * indentation:4 * * Author: Markus W. Scherer * * Modification history: * 05/18/2001 weiv Made into separate module */ #include "unicode/utypes.h" #if !UCONFIG_NO_COLLATION #include "unicode/bytestream.h" #include "unicode/utf16.h" #include "bocsu.h" /* * encode one difference value -0x10ffff..+0x10ffff in 1..3 bytes, * preserving lexical order */ U_CFUNC uint8_t * u_writeDiff(int32_t diff, uint8_t *p) { if(diff>=SLOPE_REACH_NEG_1) { if(diff<=SLOPE_REACH_POS_1) { *p++=(uint8_t)(SLOPE_MIDDLE+diff); } else if(diff<=SLOPE_REACH_POS_2) { *p++=(uint8_t)(SLOPE_START_POS_2+(diff/SLOPE_TAIL_COUNT)); *p++=(uint8_t)(SLOPE_MIN+diff%SLOPE_TAIL_COUNT); } else if(diff<=SLOPE_REACH_POS_3) { p[2]=(uint8_t)(SLOPE_MIN+diff%SLOPE_TAIL_COUNT); diff/=SLOPE_TAIL_COUNT; p[1]=(uint8_t)(SLOPE_MIN+diff%SLOPE_TAIL_COUNT); *p=(uint8_t)(SLOPE_START_POS_3+(diff/SLOPE_TAIL_COUNT)); p+=3; } else { p[3]=(uint8_t)(SLOPE_MIN+diff%SLOPE_TAIL_COUNT); diff/=SLOPE_TAIL_COUNT; p[2]=(uint8_t)(SLOPE_MIN+diff%SLOPE_TAIL_COUNT); diff/=SLOPE_TAIL_COUNT; p[1]=(uint8_t)(SLOPE_MIN+diff%SLOPE_TAIL_COUNT); *p=SLOPE_MAX; p+=4; } } else { int32_t m; if(diff>=SLOPE_REACH_NEG_2) { NEGDIVMOD(diff, SLOPE_TAIL_COUNT, m); *p++=(uint8_t)(SLOPE_START_NEG_2+diff); *p++=(uint8_t)(SLOPE_MIN+m); } else if(diff>=SLOPE_REACH_NEG_3) { NEGDIVMOD(diff, SLOPE_TAIL_COUNT, m); p[2]=(uint8_t)(SLOPE_MIN+m); NEGDIVMOD(diff, SLOPE_TAIL_COUNT, m); p[1]=(uint8_t)(SLOPE_MIN+m); *p=(uint8_t)(SLOPE_START_NEG_3+diff); p+=3; } else { NEGDIVMOD(diff, SLOPE_TAIL_COUNT, m); p[3]=(uint8_t)(SLOPE_MIN+m); NEGDIVMOD(diff, SLOPE_TAIL_COUNT, m); p[2]=(uint8_t)(SLOPE_MIN+m); NEGDIVMOD(diff, SLOPE_TAIL_COUNT, m); p[1]=(uint8_t)(SLOPE_MIN+m); *p=SLOPE_MIN; p+=4; } } return p; } /* * Encode the code points of a string as * a sequence of byte-encoded differences (slope detection), * preserving lexical order. * * Optimize the difference-taking for runs of Unicode text within * small scripts: * * Most small scripts are allocated within aligned 128-blocks of Unicode * code points. Lexical order is preserved if "prev" is always moved * into the middle of such a block. * * Additionally, "prev" is moved from anywhere in the Unihan * area into the middle of that area. * Note that the identical-level run in a sort key is generated from * NFD text - there are never Hangul characters included. */ U_CFUNC void u_writeIdenticalLevelRun(const UChar *s, int32_t length, icu::ByteSink &sink) { char scratch[64]; int32_t capacity; UChar32 prev=0; int32_t i=0; while(i<length) { char *buffer=sink.GetAppendBuffer(1, length*2, scratch, (int32_t)sizeof(scratch), &capacity); uint8_t *p; // We must have capacity>=SLOPE_MAX_BYTES in case u_writeDiff() writes that much, // but we do not want to force the sink.GetAppendBuffer() to allocate // for a large min_capacity because we might actually only write one byte. if(capacity<16) { buffer=scratch; capacity=(int32_t)sizeof(scratch); } p=reinterpret_cast<uint8_t *>(buffer); uint8_t *lastSafe=p+capacity-SLOPE_MAX_BYTES; while(i<length && p<=lastSafe) { if(prev<0x4e00 || prev>=0xa000) { prev=(prev&~0x7f)-SLOPE_REACH_NEG_1; } else { /* * Unihan U+4e00..U+9fa5: * double-bytes down from the upper end */ prev=0x9fff-SLOPE_REACH_POS_2; } UChar32 c; U16_NEXT(s, i, length, c); p=u_writeDiff(c-prev, p); prev=c; } sink.Append(buffer, (int32_t)(p-reinterpret_cast<uint8_t *>(buffer))); } } U_CFUNC int32_t u_writeIdenticalLevelRunTwoChars(UChar32 first, UChar32 second, uint8_t *p) { uint8_t *p0 = p; if(first<0x4e00 || first>=0xa000) { first=(first&~0x7f)-SLOPE_REACH_NEG_1; } else { /* * Unihan U+4e00..U+9fa5: * double-bytes down from the upper end */ first=0x9fff-SLOPE_REACH_POS_2; } p=u_writeDiff(second-first, p); return (int32_t)(p-p0); } #endif /* #if !UCONFIG_NO_COLLATION */