/* $Id: uniread.cpp 51770 2014-07-01 18:14:02Z vboxsync $ */ /** @file * IPRT - Unicode Specification Reader. */ /* * Copyright (C) 2006-2012 Oracle Corporation * * This file is part of VirtualBox Open Source Edition (OSE), as * available from http://www.virtualbox.org. This file is free software; * you can redistribute it and/or modify it under the terms of the GNU * General Public License (GPL) as published by the Free Software * Foundation, in version 2 as it comes in the "COPYING" file of the * VirtualBox OSE distribution. VirtualBox OSE is distributed in the * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind. * * The contents of this file may alternatively be used under the terms * of the Common Development and Distribution License Version 1.0 * (CDDL) only, as it comes in the "COPYING.CDDL" file of the * VirtualBox OSE distribution, in which case the provisions of the * CDDL are applicable instead of those of the GPL. * * You may elect to license modified versions of this file under the * terms and conditions of either the GPL or the CDDL or both. */ /******************************************************************************* * Header Files * *******************************************************************************/ #include #include #include #include #include #include #ifdef _MSC_VER # include #else # include #endif /******************************************************************************* * Global Variables * *******************************************************************************/ /** The file we're currently parsing. */ static const char *g_pszCurFile; /** The current line number. */ static unsigned g_iLine; /** The current output file. */ static FILE *g_pCurOutFile; /** * Exit the program after printing a parse error. * * @param pszFormat The message. * @param ... Format arguments. */ static void ParseError(const char *pszFormat, ...) { va_list va; va_start(va, pszFormat); fprintf(stderr, "parse error: %s:%u: ", g_pszCurFile, g_iLine); vfprintf(stderr, pszFormat, va); va_end(va); exit(1); } /** * Strip a line. * @returns pointer to first non-blank char. * @param pszLine The line string to strip. */ static char *StripLine(char *pszLine) { while (*pszLine == ' ' || *pszLine == '\t') pszLine++; char *psz = strchr(pszLine, '#'); if (psz) *psz = '\0'; else psz = strchr(pszLine, '\0'); while (psz > pszLine) { switch (psz[-1]) { case ' ': case '\t': case '\n': case '\r': *--psz = '\0'; continue; } break; } return pszLine; } /** * Checks if the line is blank or a comment line and should be skipped. * @returns true/false. * @param pszLine The line to consider. */ static bool IsCommentOrBlankLine(const char *pszLine) { while (*pszLine == ' ' || *pszLine == '\t' || *pszLine == '\n' || *pszLine == '\r') pszLine++; return *pszLine == '#' || *pszLine == '\0'; } /** * Get the first field in the string. * * @returns Pointer to the next field. * @param ppsz Where to store the pointer to the next field. * @param pszLine The line string. (could also be *ppsz from a FirstNext call) */ static char *FirstField(char **ppsz, char *pszLine) { char *psz = strchr(pszLine, ';'); if (!psz) *ppsz = psz = strchr(pszLine, '\0'); else { *psz = '\0'; *ppsz = psz + 1; } /* strip */ while (*pszLine == ' ' || *pszLine == '\t' || *pszLine == '\r' || *pszLine == '\n') pszLine++; while (psz > pszLine) { switch (psz[-1]) { case ' ': case '\t': case '\n': case '\r': *--psz = '\0'; continue; } break; } return pszLine; } /** * Get the next field in a field enumeration. * * @returns Pointer to the next field. * @param ppsz Where to get and store the string position. */ static char *NextField(char **ppsz) { return FirstField(ppsz, *ppsz); } /** * Splits a decomposition field. * * This may start with a type that is enclosed in angle brackets. * * @returns Pointer to the mapping values following the type. @a *ppsz if empty. * @param ppszType Pointer to the type field pointer. On input the type * field contains the combined type and mapping string. On * output this should only contain the type, no angle * brackets. If no type specified, it is replaced with an * empty string (const). */ static char *SplitDecompField(char **ppszType) { /* Empty field? */ char *psz = *ppszType; if (!*psz) return psz; /* No type? */ if (*psz != '<') { *ppszType = (char *)""; return psz; } /* Split out the type. */ *ppszType = ++psz; psz = strchr(psz, '>'); if (!psz) { ParseError("Bad Decomposition Type/Mappings\n"); return *ppszType; } *psz++ = '\0'; psz = StripLine(psz); if (!*psz) ParseError("Missing decomposition mappings\n"); return psz; } /** * Converts a code point field to a number. * @returns Code point. * @param psz The field string. */ static RTUNICP ToNum(const char *psz) { char *pszEnd = NULL; unsigned long ul = strtoul(psz, &pszEnd, 16); if (pszEnd && *pszEnd) ParseError("failed converting '%s' to a number!\n", psz); return (RTUNICP)ul; } /** * Same as ToNum except that if the field is empty the Default is returned. */ static RTUNICP ToNumDefault(const char *psz, RTUNICP Default) { if (*psz) return ToNum(psz); return Default; } /** * Converts a code point range to numbers. * @returns The start code point.\ * @returns ~(RTUNICP)0 on failure. * @param psz The field string. * @param pLast Where to store the last code point in the range. */ static RTUNICP ToRange(const char *psz, PRTUNICP pLast) { char *pszEnd = NULL; unsigned long ulStart = strtoul(psz, &pszEnd, 16); unsigned long ulLast = ulStart; if (pszEnd && *pszEnd) { if (*pszEnd == '.') { while (*pszEnd == '.') pszEnd++; ulLast = strtoul(pszEnd, &pszEnd, 16); if (pszEnd && *pszEnd) { ParseError("failed converting '%s' to a number!\n", psz); return ~(RTUNICP)0; } } else { ParseError("failed converting '%s' to a number!\n", psz); return ~(RTUNICP)0; } } *pLast = (RTUNICP)ulLast; return (RTUNICP)ulStart; } /** * For converting the decomposition mappings field and similar. * * @returns Mapping array or NULL if none. * @param psz The string to convert. Can be empty. * @param pcEntries Where to store the number of entries. * @param cMax The max number of entries. */ static PRTUNICP ToMapping(char *psz, unsigned *pcEntries, unsigned cMax) { PRTUNICP paCps = NULL; unsigned cAlloc = 0; unsigned i = 0; /* Convert the code points. */ while (psz) { /* skip leading spaces */ while (RT_C_IS_BLANK(*psz)) psz++; /* the end? */ if (!*psz) break; /* room left? */ if (i >= cMax) { ParseError("Too many mappings.\n"); break; } if (i >= cAlloc) { cAlloc += 4; paCps = (PRTUNICP)realloc(paCps, cAlloc * sizeof(paCps[0])); if (!paCps) { fprintf(stderr, "out of memory (%u)\n", (unsigned)(cAlloc * sizeof(paCps[0]))); exit(1); } } /* Find the end. */ char *pszThis = psz; while (RT_C_IS_XDIGIT(*psz)) psz++; if (*psz && !RT_C_IS_BLANK(*psz)) ParseError("Malformed mappings.\n"); if (*psz) *psz++ = '\0'; /* Convert to number and add it. */ paCps[i++] = ToNum(pszThis); } *pcEntries = i; return paCps; } /** * Duplicate a string, optimize certain strings to save memory. * * @returns Pointer to string copy. * @param pszStr The string to duplicate. */ static char *DupStr(const char *pszStr) { if (!*pszStr) return (char*)""; char *psz = strdup(pszStr); if (psz) return psz; fprintf(stderr, "out of memory!\n"); exit(1); } /** * Array of all possible and impossible unicode code points as of 4.1 */ struct CPINFO { RTUNICP CodePoint; RTUNICP SimpleUpperCaseMapping; RTUNICP SimpleLowerCaseMapping; RTUNICP SimpleTitleCaseMapping; unsigned CanonicalCombiningClass; const char *pszDecompositionType; unsigned cDecompositionMapping; PRTUNICP paDecompositionMapping; const char *pszName; /** Set if this is an unused entry */ unsigned fNullEntry : 1; unsigned fAlphabetic : 1; unsigned fASCIIHexDigit : 1; unsigned fBidiControl : 1; unsigned fCaseIgnorable : 1; unsigned fCased : 1; unsigned fChangesWhenCasefolded : 1; unsigned fChangesWhenCasemapped : 1; unsigned fChangesWhenLowercased : 1; unsigned fChangesWhenTitlecased : 1; unsigned fChangesWhenUppercased : 1; unsigned fDash : 1; unsigned fDefaultIgnorableCodePoint : 1; unsigned fDeprecated : 1; unsigned fDiacritic : 1; unsigned fExtender : 1; unsigned fGraphemeBase : 1; unsigned fGraphemeExtend : 1; unsigned fGraphemeLink : 1; unsigned fHexDigit : 1; unsigned fHyphen : 1; unsigned fIDContinue : 1; unsigned fIdeographic : 1; unsigned fIDSBinaryOperator : 1; unsigned fIDStart : 1; unsigned fIDSTrinaryOperator : 1; unsigned fJoinControl : 1; unsigned fLogicalOrderException : 1; unsigned fLowercase : 1; unsigned fMath : 1; unsigned fNoncharacterCodePoint : 1; unsigned fOtherAlphabetic : 1; unsigned fOtherDefaultIgnorableCodePoint : 1; unsigned fOtherGraphemeExtend : 1; unsigned fOtherIDContinue : 1; unsigned fOtherIDStart : 1; unsigned fOtherLowercase : 1; unsigned fOtherMath : 1; unsigned fOtherUppercase : 1; unsigned fPatternSyntax : 1; unsigned fPatternWhiteSpace : 1; unsigned fQuotationMark : 1; unsigned fRadical : 1; unsigned fSoftDotted : 1; unsigned fSTerm : 1; unsigned fTerminalPunctuation : 1; unsigned fUnifiedIdeograph : 1; unsigned fUppercase : 1; unsigned fVariationSelector : 1; unsigned fWhiteSpace : 1; unsigned fXIDContinue : 1; unsigned fXIDStart : 1; /** @name DerivedNormalizationProps.txt * @{ */ unsigned fFullCompositionExclusion : 1; unsigned fInvNFC_QC : 2; /**< If 1 (NFC_QC == N) then code point 100% sure not part of NFC string. */ unsigned fInvNFD_QC : 2; /**< If 1 (NFD_QC == N) then code point 100% sure not part of NFD string. */ unsigned fInvNFKC_QC : 2; unsigned fInvNFKD_QC : 2; unsigned fExpandsOnNFC : 1; unsigned fExpandsOnNFD : 1; unsigned fExpandsOnNFKC : 1; unsigned fExpandsOnNFKD : 1; /** @} */ /* unprocessed stuff, so far. */ const char *pszGeneralCategory; const char *pszBidiClass; const char *pszNumericType; const char *pszNumericValueD; const char *pszNumericValueN; const char *pszBidiMirrored; const char *pszUnicode1Name; const char *pszISOComment; } g_aCPInfo[0x110000]; /** * Creates a 'null' entry at i. * @param i The entry in question. */ static void NullEntry(unsigned i) { g_aCPInfo[i].CodePoint = i; g_aCPInfo[i].fNullEntry = 1; g_aCPInfo[i].SimpleUpperCaseMapping = i; g_aCPInfo[i].SimpleLowerCaseMapping = i; g_aCPInfo[i].SimpleTitleCaseMapping = i; g_aCPInfo[i].pszDecompositionType = ""; g_aCPInfo[i].cDecompositionMapping = 0; g_aCPInfo[i].paDecompositionMapping = NULL; g_aCPInfo[i].pszName = ""; g_aCPInfo[i].pszGeneralCategory = ""; g_aCPInfo[i].pszBidiClass = ""; g_aCPInfo[i].pszNumericType = ""; g_aCPInfo[i].pszNumericValueD = ""; g_aCPInfo[i].pszNumericValueN = ""; g_aCPInfo[i].pszBidiMirrored = ""; g_aCPInfo[i].pszUnicode1Name = ""; g_aCPInfo[i].pszISOComment = ""; } /** * Open a file for reading, optionally with a base path prefixed. * * @returns file stream on success, NULL w/ complaint on failure. * @param pszBasePath The base path, can be NULL. * @param pszFilename The name of the file to open. */ static FILE *OpenFile(const char *pszBasePath, const char *pszFilename) { FILE *pFile; if ( !pszBasePath || *pszFilename == '/' #if defined(_MSC_VER) || defined(__OS2__) || *pszFilename == '\\' || (*pszFilename && pszFilename[1] == ':') #endif ) { pFile = fopen(pszFilename, "r"); if (!pFile) fprintf(stderr, "uniread: failed to open '%s' for reading\n", pszFilename); } else { size_t cchBasePath = strlen(pszBasePath); size_t cchFilename = strlen(pszFilename); char *pszFullName = (char *)malloc(cchBasePath + 1 + cchFilename + 1); if (!pszFullName) { fprintf(stderr, "uniread: failed to allocate %d bytes\n", (int)(cchBasePath + 1 + cchFilename + 1)); return NULL; } memcpy(pszFullName, pszBasePath, cchBasePath); pszFullName[cchBasePath] = '/'; memcpy(&pszFullName[cchBasePath + 1], pszFilename, cchFilename + 1); pFile = fopen(pszFullName, "r"); if (!pFile) fprintf(stderr, "uniread: failed to open '%s' for reading\n", pszFullName); free(pszFullName); } g_pszCurFile = pszFilename; g_iLine = 0; return pFile; } /** * Wrapper around fgets that keep track of the line number. * * @returns See fgets. * @param pszBuf The buffer. See fgets for output definition. * @param cbBuf The buffer size. * @param pFile The file to read from. */ static char *GetLineFromFile(char *pszBuf, int cbBuf, FILE *pFile) { g_iLine++; return fgets(pszBuf, cbBuf, pFile); } /** * Closes a file opened by OpenFile * * @param pFile The file to close. */ static void CloseFile(FILE *pFile) { g_pszCurFile = NULL; g_iLine = 0; fclose(pFile); } /** * Read the UnicodeData.txt file. * @returns 0 on success. * @returns !0 on failure. * @param pszBasePath The base path, can be NULL. * @param pszFilename The name of the file. */ static int ReadUnicodeData(const char *pszBasePath, const char *pszFilename) { /* * Open input. */ FILE *pFile = OpenFile(pszBasePath, pszFilename); if (!pFile) return 1; /* * Parse the input and spit out the output. */ char szLine[4096]; RTUNICP i = 0; while (GetLineFromFile(szLine, sizeof(szLine), pFile) != NULL) { if (IsCommentOrBlankLine(szLine)) continue; char *pszCurField; char *pszCodePoint = FirstField(&pszCurField, StripLine(szLine)); /* 0 */ char *pszName = NextField(&pszCurField); /* 1 */ char *pszGeneralCategory = NextField(&pszCurField); /* 2 */ char *pszCanonicalCombiningClass = NextField(&pszCurField); /* 3 */ char *pszBidiClass = NextField(&pszCurField); /* 4 */ char *pszDecompositionType = NextField(&pszCurField); /* 5 */ char *pszDecompositionMapping = SplitDecompField(&pszDecompositionType); char *pszNumericType = NextField(&pszCurField); /* 6 */ char *pszNumericValueD = NextField(&pszCurField); /* 7 */ char *pszNumericValueN = NextField(&pszCurField); /* 8 */ char *pszBidiMirrored = NextField(&pszCurField); /* 9 */ char *pszUnicode1Name = NextField(&pszCurField); /* 10 */ char *pszISOComment = NextField(&pszCurField); /* 11 */ char *pszSimpleUpperCaseMapping = NextField(&pszCurField); /* 12 */ char *pszSimpleLowerCaseMapping = NextField(&pszCurField); /* 13 */ char *pszSimpleTitleCaseMapping = NextField(&pszCurField); /* 14 */ RTUNICP CodePoint = ToNum(pszCodePoint); if (CodePoint >= RT_ELEMENTS(g_aCPInfo)) { ParseError("U+05X is out of range\n", CodePoint); continue; } /* catchup? */ while (i < CodePoint) NullEntry(i++); if (i != CodePoint) { ParseError("i=%d CodePoint=%u\n", i, CodePoint); CloseFile(pFile); return 1; } /* this one */ g_aCPInfo[i].CodePoint = i; g_aCPInfo[i].fNullEntry = 0; g_aCPInfo[i].pszName = DupStr(pszName); g_aCPInfo[i].SimpleUpperCaseMapping = ToNumDefault(pszSimpleUpperCaseMapping, CodePoint); g_aCPInfo[i].SimpleLowerCaseMapping = ToNumDefault(pszSimpleLowerCaseMapping, CodePoint); g_aCPInfo[i].SimpleTitleCaseMapping = ToNumDefault(pszSimpleTitleCaseMapping, CodePoint); g_aCPInfo[i].CanonicalCombiningClass = ToNum(pszCanonicalCombiningClass); g_aCPInfo[i].pszDecompositionType = DupStr(pszDecompositionType); g_aCPInfo[i].paDecompositionMapping = ToMapping(pszDecompositionMapping, &g_aCPInfo[i].cDecompositionMapping, 20); g_aCPInfo[i].pszGeneralCategory = DupStr(pszGeneralCategory); g_aCPInfo[i].pszBidiClass = DupStr(pszBidiClass); g_aCPInfo[i].pszNumericType = DupStr(pszNumericType); g_aCPInfo[i].pszNumericValueD = DupStr(pszNumericValueD); g_aCPInfo[i].pszNumericValueN = DupStr(pszNumericValueN); g_aCPInfo[i].pszBidiMirrored = DupStr(pszBidiMirrored); g_aCPInfo[i].pszUnicode1Name = DupStr(pszUnicode1Name); g_aCPInfo[i].pszISOComment = DupStr(pszISOComment); i++; } /* catchup? */ while (i < RT_ELEMENTS(g_aCPInfo)) NullEntry(i++); CloseFile(pFile); return 0; } /** * Generates excluded data. * * @returns 0 on success, exit code on failure. */ static int GenerateExcludedData(void) { /* * Hangul Syllables U+AC00 to U+D7A3. */ for (RTUNICP i = 0xac00; i <= 0xd7a3; i++) { g_aCPInfo[i].fNullEntry = 0; g_aCPInfo[i].fInvNFD_QC = 1; /** @todo generate the decomposition: http://unicode.org/reports/tr15/#Hangul * */ } /** @todo * CJK Ideographs Extension A (U+3400 - U+4DB5) * CJK Ideographs (U+4E00 - U+9FA5) * CJK Ideograph Extension B (U+20000 - U+2A6D6) * CJK Ideograph Extension C (U+2A700 - U+2B734) */ return 0; } /** * Worker for ApplyProperty that handles a yes, no, maybe property value. * * @returns 0 (NO), 1 (YES), 2 (MAYBE). * @param ppszNextField The field cursor, input and output. */ static int YesNoMaybePropertyValue(char **ppszNextField) { if (!**ppszNextField) { ParseError("Missing Y/N/M field\n"); return 0; } char *psz = NextField(ppszNextField); if (!strcmp(psz, "N")) return 0; if (!strcmp(psz, "Y")) return 1; if (!strcmp(psz, "M")) return 2; ParseError("Unexpected Y/N/M value: '%s'\n", psz); return 0; } /** * Inverted version of YesNoMaybePropertyValue * * @returns 1 (NO), 0 (YES), 2 (MAYBE). * @param ppszNextField The field cursor, input and output. */ static int YesNoMaybePropertyValueInv(char **ppszNextField) { unsigned rc = YesNoMaybePropertyValue(ppszNextField); switch (rc) { case 0: return 1; case 1: return 0; default: return rc; } } /** * Applies a property to a code point. * * @param StartCP The code point. * @param pszProperty The property name. */ static void ApplyProperty(RTUNICP StartCP, const char *pszProperty, char *pszNextField) { if (StartCP >= RT_ELEMENTS(g_aCPInfo)) { ParseError("U+%06X is out of the g_aCPInfo range.\n", StartCP); return; } struct CPINFO *pCPInfo = &g_aCPInfo[StartCP]; /* string switch */ if (!strcmp(pszProperty, "ASCII_Hex_Digit")) pCPInfo->fASCIIHexDigit = 1; else if (!strcmp(pszProperty, "Alphabetic")) pCPInfo->fAlphabetic = 1; else if (!strcmp(pszProperty, "Bidi_Control")) pCPInfo->fBidiControl = 1; else if (!strcmp(pszProperty, "Case_Ignorable")) pCPInfo->fCaseIgnorable = 1; else if (!strcmp(pszProperty, "Cased")) pCPInfo->fCased = 1; else if (!strcmp(pszProperty, "Changes_When_Casefolded")) pCPInfo->fChangesWhenCasefolded = 1; else if (!strcmp(pszProperty, "Changes_When_Casemapped")) pCPInfo->fChangesWhenCasemapped = 1; else if (!strcmp(pszProperty, "Changes_When_Lowercased")) pCPInfo->fChangesWhenLowercased = 1; else if (!strcmp(pszProperty, "Changes_When_Titlecased")) pCPInfo->fChangesWhenTitlecased = 1; else if (!strcmp(pszProperty, "Changes_When_Uppercased")) pCPInfo->fChangesWhenUppercased = 1; else if (!strcmp(pszProperty, "Dash")) pCPInfo->fDash = 1; else if (!strcmp(pszProperty, "Default_Ignorable_Code_Point")) pCPInfo->fDefaultIgnorableCodePoint = 1; else if (!strcmp(pszProperty, "Deprecated")) pCPInfo->fDeprecated = 1; else if (!strcmp(pszProperty, "Diacritic")) pCPInfo->fDiacritic = 1; else if (!strcmp(pszProperty, "Extender")) pCPInfo->fExtender = 1; else if (!strcmp(pszProperty, "Grapheme_Base")) pCPInfo->fGraphemeBase = 1; else if (!strcmp(pszProperty, "Grapheme_Extend")) pCPInfo->fGraphemeExtend = 1; else if (!strcmp(pszProperty, "Grapheme_Link")) pCPInfo->fGraphemeLink = 1; else if (!strcmp(pszProperty, "Hex_Digit")) pCPInfo->fHexDigit = 1; else if (!strcmp(pszProperty, "Hyphen")) pCPInfo->fHyphen = 1; else if (!strcmp(pszProperty, "ID_Continue")) pCPInfo->fIDContinue = 1; else if (!strcmp(pszProperty, "ID_Start")) pCPInfo->fIDStart = 1; else if (!strcmp(pszProperty, "Ideographic")) pCPInfo->fIdeographic = 1; else if (!strcmp(pszProperty, "IDS_Binary_Operator")) pCPInfo->fIDSBinaryOperator = 1; else if (!strcmp(pszProperty, "IDS_Trinary_Operator")) pCPInfo->fIDSTrinaryOperator = 1; else if (!strcmp(pszProperty, "Join_Control")) pCPInfo->fJoinControl = 1; else if (!strcmp(pszProperty, "Logical_Order_Exception")) pCPInfo->fLogicalOrderException = 1; else if (!strcmp(pszProperty, "Lowercase")) pCPInfo->fLowercase = 1; else if (!strcmp(pszProperty, "Math")) pCPInfo->fMath = 1; else if (!strcmp(pszProperty, "Noncharacter_Code_Point")) pCPInfo->fNoncharacterCodePoint = 1; else if (!strcmp(pszProperty, "Other_Alphabetic")) pCPInfo->fOtherAlphabetic = 1; else if (!strcmp(pszProperty, "Other_Default_Ignorable_Code_Point")) pCPInfo->fOtherDefaultIgnorableCodePoint = 1; else if (!strcmp(pszProperty, "Other_Grapheme_Extend")) pCPInfo->fOtherGraphemeExtend = 1; else if (!strcmp(pszProperty, "Other_ID_Continue")) pCPInfo->fOtherIDContinue = 1; else if (!strcmp(pszProperty, "Other_ID_Start")) pCPInfo->fOtherIDStart = 1; else if (!strcmp(pszProperty, "Other_Lowercase")) pCPInfo->fOtherLowercase = 1; else if (!strcmp(pszProperty, "Other_Math")) pCPInfo->fOtherMath = 1; else if (!strcmp(pszProperty, "Other_Uppercase")) pCPInfo->fOtherUppercase = 1; else if (!strcmp(pszProperty, "Pattern_Syntax")) pCPInfo->fPatternSyntax = 1; else if (!strcmp(pszProperty, "Pattern_White_Space")) pCPInfo->fPatternWhiteSpace = 1; else if (!strcmp(pszProperty, "Quotation_Mark")) pCPInfo->fQuotationMark = 1; else if (!strcmp(pszProperty, "Radical")) pCPInfo->fRadical = 1; else if (!strcmp(pszProperty, "Soft_Dotted")) pCPInfo->fSoftDotted = 1; else if (!strcmp(pszProperty, "STerm")) pCPInfo->fSTerm = 1; else if (!strcmp(pszProperty, "Terminal_Punctuation")) pCPInfo->fTerminalPunctuation = 1; else if (!strcmp(pszProperty, "Unified_Ideograph")) pCPInfo->fUnifiedIdeograph = 1; else if (!strcmp(pszProperty, "Uppercase")) pCPInfo->fUppercase = 1; else if (!strcmp(pszProperty, "Variation_Selector")) pCPInfo->fVariationSelector = 1; else if (!strcmp(pszProperty, "White_Space")) pCPInfo->fWhiteSpace = 1; else if (!strcmp(pszProperty, "XID_Continue")) pCPInfo->fXIDContinue = 1; else if (!strcmp(pszProperty, "XID_Start")) pCPInfo->fXIDStart = 1; /* DerivedNormalizationProps: */ else if (!strcmp(pszProperty, "FC_NFKC")) return; /* ignored */ else if (!strcmp(pszProperty, "Full_Composition_Exclusion")) pCPInfo->fFullCompositionExclusion = 1; else if (!strcmp(pszProperty, "NFC_QC")) pCPInfo->fInvNFC_QC = YesNoMaybePropertyValueInv(&pszNextField); else if (!strcmp(pszProperty, "NFD_QC")) pCPInfo->fInvNFD_QC = YesNoMaybePropertyValueInv(&pszNextField); else if (!strcmp(pszProperty, "NFKC_QC")) pCPInfo->fInvNFKC_QC = YesNoMaybePropertyValueInv(&pszNextField); else if (!strcmp(pszProperty, "NFKD_QC")) pCPInfo->fInvNFKD_QC = YesNoMaybePropertyValueInv(&pszNextField); else if (!strcmp(pszProperty, "Expands_On_NFC")) pCPInfo->fExpandsOnNFC = 1; else if (!strcmp(pszProperty, "Expands_On_NFD")) pCPInfo->fExpandsOnNFD = 1; else if (!strcmp(pszProperty, "Expands_On_NFKC")) pCPInfo->fExpandsOnNFKC = 1; else if (!strcmp(pszProperty, "Expands_On_NFKD")) pCPInfo->fExpandsOnNFKD = 1; else if (!strcmp(pszProperty, "NFKC_CF")) return; /*ignore */ else if (!strcmp(pszProperty, "Changes_When_NFKC_Casefolded")) return; /*ignore */ else { ParseError("Unknown property '%s'\n", pszProperty); return; } if (pszNextField && *pszNextField) ParseError("Unexpected next field: '%s'\n", pszNextField); } /** * Reads a property file. * * There are several property files, this code can read all * of those but will only make use of the properties it recognizes. * * @returns 0 on success. * @returns !0 on failure. * @param pszBasePath The base path, can be NULL. * @param pszFilename The name of the file. */ static int ReadProperties(const char *pszBasePath, const char *pszFilename) { /* * Open input. */ FILE *pFile = OpenFile(pszBasePath, pszFilename); if (!pFile) return 1; /* * Parse the input and spit out the output. */ char szLine[4096]; while (GetLineFromFile(szLine, sizeof(szLine), pFile) != NULL) { if (IsCommentOrBlankLine(szLine)) continue; char *pszCurField; char *pszRange = FirstField(&pszCurField, StripLine(szLine)); char *pszProperty = NextField(&pszCurField); if (!*pszProperty) { ParseError("no property field.\n"); continue; } RTUNICP LastCP; RTUNICP StartCP = ToRange(pszRange, &LastCP); if (StartCP == ~(RTUNICP)0) continue; while (StartCP <= LastCP) ApplyProperty(StartCP++, pszProperty, pszCurField); } CloseFile(pFile); return 0; } /** * Append a flag to the string. */ static char *AppendFlag(char *psz, const char *pszFlag) { char *pszEnd = strchr(psz, '\0'); if (pszEnd != psz) { *pszEnd++ = ' '; *pszEnd++ = '|'; *pszEnd++ = ' '; } strcpy(pszEnd, pszFlag); return psz; } /** * Calcs the flags for a code point. * @returns true if there is a flag. * @returns false if the isn't. */ static bool CalcFlags(struct CPINFO *pInfo, char *pszFlags) { pszFlags[0] = '\0'; /** @todo read the specs on this other vs standard stuff, and check out the finer points */ if (pInfo->fAlphabetic || pInfo->fOtherAlphabetic) AppendFlag(pszFlags, "RTUNI_ALPHA"); if (pInfo->fHexDigit || pInfo->fASCIIHexDigit) AppendFlag(pszFlags, "RTUNI_XDIGIT"); if (!strcmp(pInfo->pszGeneralCategory, "Nd")) AppendFlag(pszFlags, "RTUNI_DDIGIT"); if (pInfo->fWhiteSpace) AppendFlag(pszFlags, "RTUNI_WSPACE"); if (pInfo->fUppercase || pInfo->fOtherUppercase) AppendFlag(pszFlags, "RTUNI_UPPER"); if (pInfo->fLowercase || pInfo->fOtherLowercase) AppendFlag(pszFlags, "RTUNI_LOWER"); //if (pInfo->???) // AppendFlag(pszFlags, "RTUNI_BSPACE"); #if 0 if (pInfo->fInvNFD_QC != 0 || pInfo->fInvNFC_QC != 0) { AppendFlag(pszFlags, "RTUNI_QC_NFX"); if (!pInfo->paDecompositionMapping && pInfo->fInvNFD_QC) fprintf(stderr, "uniread: U+%05X is QC_NFD but has no mappings.\n", pInfo->CodePoint); else if (*pInfo->pszDecompositionType && pInfo->fInvNFD_QC) fprintf(stderr, "uniread: U+%05X is QC_NFD but has no canonical mappings.\n", pInfo->CodePoint); } else if (pInfo->paDecompositionMapping && !*pInfo->pszDecompositionType) fprintf(stderr, "uniread: U+%05X is not QC_NFX but has canonical mappings.\n", pInfo->CodePoint); #endif if (!*pszFlags) { pszFlags[0] = '0'; pszFlags[1] = '\0'; return false; } return true; } /** * Closes the primary output stream. */ static int Stream1Close(void) { if (g_pCurOutFile && g_pCurOutFile != stdout && g_pCurOutFile != stderr) { if (fclose(g_pCurOutFile) != 0) { fprintf(stderr, "Error closing output file.\n"); return -1; } } g_pCurOutFile = NULL; return 0; } /** * Initializes the 1st stream to output to a given file. */ static int Stream1Init(const char *pszName) { int rc = Stream1Close(); if (!rc) { g_pCurOutFile = fopen(pszName, "w"); if (!g_pCurOutFile) { fprintf(stderr, "Error opening output file '%s'.\n", pszName); rc = -1; } } return rc; } /** * printf wrapper for the primary output stream. * * @returns See vfprintf. * @param pszFormat The vfprintf format string. * @param ... The format arguments. */ static int Stream1Printf(const char *pszFormat, ...) { int cch; va_list va; va_start(va, pszFormat); cch = vfprintf(g_pCurOutFile, pszFormat, va); va_end(va); return cch; } /** the data store for stream two. */ static char g_szStream2[10240]; static unsigned volatile g_offStream2 = 0; /** * Initializes the 2nd steam. */ static void Stream2Init(void) { g_szStream2[0] = '\0'; g_offStream2 = 0; } /** * Flushes the 2nd stream to stdout. */ static int Stream2Flush(void) { g_szStream2[g_offStream2] = '\0'; Stream1Printf("%s", g_szStream2); Stream2Init(); return 0; } /** * printf to the 2nd stream. */ static int Stream2Printf(const char *pszFormat, ...) { unsigned offStream2 = g_offStream2; va_list va; va_start(va, pszFormat); int cch = vsprintf(&g_szStream2[offStream2], pszFormat, va); va_end(va); offStream2 += cch; if (offStream2 >= sizeof(g_szStream2)) { fprintf(stderr, "error: stream2 overflow!\n"); exit(1); } g_offStream2 = offStream2; return cch; } /** * Print the unidata.cpp file header and include list. */ int PrintHeader(const char *argv0, const char *pszBaseDir) { char szBuf[1024]; if (!pszBaseDir) { memset(szBuf, 0, sizeof(szBuf)); #ifdef _MSC_VER _getcwd(szBuf, sizeof(szBuf)); #else getcwd(szBuf, sizeof(szBuf)); #endif pszBaseDir = szBuf; } Stream1Printf("/* $" "Id" "$ */\n" "/** @file\n" " * IPRT - Unicode Tables.\n" " *\n" " * Automatically Generated from %s\n" " * by %s (" __DATE__ " " __TIME__ ")\n" " */\n" "\n" "/*\n" " * Copyright (C) 2006-2014 Oracle Corporation\n" " *\n" " * This file is part of VirtualBox Open Source Edition (OSE), as\n" " * available from http://www.virtualbox.org. This file is free software;\n" " * you can redistribute it and/or modify it under the terms of the GNU\n" " * General Public License (GPL) as published by the Free Software\n" " * Foundation, in version 2 as it comes in the \"COPYING\" file of the\n" " * VirtualBox OSE distribution. VirtualBox OSE is distributed in the\n" " * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.\n" " *\n" " * The contents of this file may alternatively be used under the terms\n" " * of the Common Development and Distribution License Version 1.0\n" " * (CDDL) only, as it comes in the \"COPYING.CDDL\" file of the\n" " * VirtualBox OSE distribution, in which case the provisions of the\n" " * CDDL are applicable instead of those of the GPL.\n" " *\n" " * You may elect to license modified versions of this file under the\n" " * terms and conditions of either the GPL or the CDDL or both.\n" " */\n" "\n" "#include \n" "\n", pszBaseDir, argv0); return 0; } /** * Print the flag tables. */ int PrintFlags(void) { /* * Print flags table. */ Stream2Init(); Stream2Printf("RT_DECL_DATA_CONST(const RTUNIFLAGSRANGE) g_aRTUniFlagsRanges[] =\n" "{\n"); RTUNICP i = 0; int iStart = -1; while (i < RT_ELEMENTS(g_aCPInfo)) { /* figure how far off the next chunk is */ char szFlags[256]; unsigned iNonNull = i; while ( iNonNull < RT_ELEMENTS(g_aCPInfo) && iNonNull >= 256 && (g_aCPInfo[iNonNull].fNullEntry || !CalcFlags(&g_aCPInfo[iNonNull], szFlags)) ) iNonNull++; if (iNonNull - i > 4096 || iNonNull == RT_ELEMENTS(g_aCPInfo)) { if (iStart >= 0) { Stream1Printf("};\n\n"); Stream2Printf(" { 0x%06x, 0x%06x, &g_afRTUniFlags0x%06x[0] },\n", iStart, i, iStart); iStart = -1; } i = iNonNull; } else { if (iStart < 0) { Stream1Printf("static const uint8_t g_afRTUniFlags0x%06x[] =\n" "{\n", i); iStart = i; } CalcFlags(&g_aCPInfo[i], szFlags); Stream1Printf(" %50s, /* U+%06x: %s*/\n", szFlags, g_aCPInfo[i].CodePoint, g_aCPInfo[i].pszName); i++; } } Stream2Printf(" { ~(RTUNICP)0, ~(RTUNICP)0, NULL }\n" "};\n\n\n"); Stream1Printf("\n"); return Stream2Flush(); } /** * Prints the upper case tables. */ static int PrintUpper(void) { Stream2Init(); Stream2Printf("RT_DECL_DATA_CONST(const RTUNICASERANGE) g_aRTUniUpperRanges[] =\n" "{\n"); RTUNICP i = 0; int iStart = -1; while (i < RT_ELEMENTS(g_aCPInfo)) { /* figure how far off the next chunk is */ unsigned iSameCase = i; while ( iSameCase < RT_ELEMENTS(g_aCPInfo) && g_aCPInfo[iSameCase].SimpleUpperCaseMapping == g_aCPInfo[iSameCase].CodePoint && iSameCase >= 256) iSameCase++; if (iSameCase - i > 4096/sizeof(RTUNICP) || iSameCase == RT_ELEMENTS(g_aCPInfo)) { if (iStart >= 0) { Stream1Printf("};\n\n"); Stream2Printf(" { 0x%06x, 0x%06x, &g_afRTUniUpper0x%06x[0] },\n", iStart, i, iStart); iStart = -1; } i = iSameCase; } else { if (iStart < 0) { Stream1Printf("static const RTUNICP g_afRTUniUpper0x%06x[] =\n" "{\n", i); iStart = i; } Stream1Printf(" 0x%02x, /* U+%06x: %s*/\n", g_aCPInfo[i].SimpleUpperCaseMapping, g_aCPInfo[i].CodePoint, g_aCPInfo[i].pszName); i++; } } Stream2Printf(" { ~(RTUNICP)0, ~(RTUNICP)0, NULL }\n" "};\n\n\n"); Stream1Printf("\n"); return Stream2Flush(); } /** * Prints the lowercase tables. */ static int PrintLower(void) { Stream2Init(); Stream2Printf("RT_DECL_DATA_CONST(const RTUNICASERANGE) g_aRTUniLowerRanges[] =\n" "{\n"); RTUNICP i = 0; int iStart = -1; while (i < RT_ELEMENTS(g_aCPInfo)) { /* figure how far off the next chunk is */ unsigned iSameCase = i; while ( iSameCase < RT_ELEMENTS(g_aCPInfo) && g_aCPInfo[iSameCase].SimpleLowerCaseMapping == g_aCPInfo[iSameCase].CodePoint && iSameCase >= 256) iSameCase++; if (iSameCase - i > 4096/sizeof(RTUNICP) || iSameCase == RT_ELEMENTS(g_aCPInfo)) { if (iStart >= 0) { Stream1Printf("};\n\n"); Stream2Printf(" { 0x%06x, 0x%06x, &g_afRTUniLower0x%06x[0] },\n", iStart, i, iStart); iStart = -1; } i = iSameCase; } else { if (iStart < 0) { Stream1Printf("static const RTUNICP g_afRTUniLower0x%06x[] =\n" "{\n", i); iStart = i; } Stream1Printf(" 0x%02x, /* U+%06x: %s*/\n", g_aCPInfo[i].SimpleLowerCaseMapping, g_aCPInfo[i].CodePoint, g_aCPInfo[i].pszName); i++; } } Stream2Printf(" { ~(RTUNICP)0, ~(RTUNICP)0, NULL }\n" "};\n\n\n"); Stream1Printf("\n"); return Stream2Flush(); } int main(int argc, char **argv) { /* * Parse args. */ if (argc <= 1) { printf("usage: %s [-C|--dir ] [UnicodeData.txt [DerivedCoreProperties.txt [PropList.txt] [DerivedNormalizationProps.txt]]]\n", argv[0]); return 1; } const char *pszBaseDir = NULL; const char *pszUnicodeData = "UnicodeData.txt"; const char *pszDerivedCoreProperties = "DerivedCoreProperties.txt"; const char *pszPropList = "PropList.txt"; const char *pszDerivedNormalizationProps = "DerivedNormalizationProps.txt"; int iFile = 0; for (int argi = 1; argi < argc; argi++) { if (argv[argi][0] != '-') { switch (iFile++) { case 0: pszUnicodeData = argv[argi]; break; case 1: pszDerivedCoreProperties = argv[argi]; break; case 2: pszPropList = argv[argi]; break; case 3: pszDerivedNormalizationProps = argv[argi]; break; default: fprintf(stderr, "uniread: syntax error at '%s': too many filenames\n", argv[argi]); return 1; } } else if ( !strcmp(argv[argi], "--dir") || !strcmp(argv[argi], "-C")) { if (argi + 1 >= argc) { fprintf(stderr, "uniread: syntax error: '%s' is missing the directory name.\n", argv[argi]); return 1; } argi++; pszBaseDir = argv[argi]; } else { fprintf(stderr, "uniread: syntax error at '%s': Unknown argument\n", argv[argi]); return 1; } } /* * Read the data. */ int rc = ReadUnicodeData(pszBaseDir, pszUnicodeData); if (rc) return rc; rc = GenerateExcludedData(); if (rc) return rc; rc = ReadProperties(pszBaseDir, pszPropList); if (rc) return rc; rc = ReadProperties(pszBaseDir, pszDerivedCoreProperties); if (rc) return rc; rc = ReadProperties(pszBaseDir, pszDerivedNormalizationProps); if (rc) return rc; /* * Produce output files. */ rc = Stream1Init("unidata-flags.cpp"); if (!rc) rc = PrintHeader(argv[0], pszBaseDir); if (!rc) rc = PrintFlags(); rc = Stream1Init("unidata-upper.cpp"); if (!rc) rc = PrintHeader(argv[0], pszBaseDir); if (!rc) rc = PrintUpper(); rc = Stream1Init("unidata-lower.cpp"); if (!rc) rc = PrintHeader(argv[0], pszBaseDir); if (!rc) rc = PrintLower(); if (!rc) rc = Stream1Close(); /* done */ return rc; }