Mercurial > projects > ddbg_continued
view win32/usp10.d @ 1:4a9dcbd9e54f
-files of 0.13 beta
-fixes so that it now compiles with the current dmd version
| author | marton@basel.hu |
|---|---|
| date | Tue, 05 Apr 2011 20:44:01 +0200 |
| parents | |
| children |
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/* USP - Unicode Complex Script processor * http://msdn2.microsoft.com/library/ms776488 */ module win32.usp10; import win32.windows; /* Uniscribe Enumeration Types * http://msdn2.microsoft.com/library/ms776518 */ enum : WORD { SCRIPT_UNDEFINED = 0, } enum : DWORD { SGCM_RTL = 0x00000001, } enum : DWORD { SSA_PASSWORD = 0x00000001, SSA_TAB = 0x00000002, SSA_CLIP = 0x00000004, SSA_FIT = 0x00000008, SSA_DZWG = 0x00000010, SSA_FALLBACK = 0x00000020, SSA_BREAK = 0x00000040, SSA_GLYPHS = 0x00000080, SSA_RTL = 0x00000100, SSA_GCP = 0x00000200, SSA_HOTKEY = 0x00000400, SSA_METAFILE = 0x00000800, SSA_LINK = 0x00001000, SSA_HIDEHOTKEY = 0x00002000, SSA_HOTKEYONLY = 0x00002400, SSA_FULLMEASURE = 0x04000000, SSA_LPKANSIFALLBACK = 0x08000000, SSA_PIDX = 0x10000000, SSA_LAYOUTRTL = 0x20000000, SSA_DONTGLYPH = 0x40000000, SSA_NOKASHIDA = 0x80000000, } enum : DWORD { SIC_COMPLEX = 1, SIC_ASCIIDIGIT = 2, SIC_NEUTRAL = 4, } enum : DWORD { SCRIPT_DIGITSUBSTITUTE_CONTEXT, SCRIPT_DIGITSUBSTITUTE_NONE, SCRIPT_DIGITSUBSTITUTE_NATIONAL, SCRIPT_DIGITSUBSTITUTE_TRADITIONAL, } enum SCRIPT_JUSTIFY : WORD { SCRIPT_JUSTIFY_NONE, SCRIPT_JUSTIFY_ARABIC_BLANK, SCRIPT_JUSTIFY_CHARACTER, SCRIPT_JUSTIFY_RESERVED1, SCRIPT_JUSTIFY_BLANK, SCRIPT_JUSTIFY_RESERVED2, SCRIPT_JUSTIFY_RESERVED3, SCRIPT_JUSTIFY_ARABIC_NORMAL, SCRIPT_JUSTIFY_ARABIC_KASHIDA, SCRIPT_JUSTIFY_ARABIC_ALEF, SCRIPT_JUSTIFY_ARABIC_HA, SCRIPT_JUSTIFY_ARABIC_RA, SCRIPT_JUSTIFY_ARABIC_BA, SCRIPT_JUSTIFY_ARABIC_BARA, SCRIPT_JUSTIFY_ARABIC_SEEN, SCRIPT_JUSTIFY_ARABIC_SEEN_M, } /* Uniscribe Structures * http://msdn2.microsoft.com/library/ms776479 */ alias void* SCRIPT_CACHE; alias void* SCRIPT_STRING_ANALYSIS; extern (C) { struct SCRIPT_CONTROL { private DWORD _bitfield; DWORD uDefaultLanguage() { return (_bitfield >> 0) & 0xFFFF; } DWORD uDefaultLanguage(DWORD val) { _bitfield = cast(DWORD)((_bitfield & 0xFFFFFFFFFFFF0000) | (val << 0)); return val; } DWORD fContextDigits() { return (_bitfield >> 16) & 0x1; } DWORD fContextDigits(DWORD val) { _bitfield = cast(DWORD)((_bitfield & 0xFFFFFFFFFFFEFFFF) | (val << 16)); return val; } DWORD fInvertPreBoundDir() { return (_bitfield >> 17) & 0x1; } DWORD fInvertPreBoundDir(DWORD val) { _bitfield = cast(DWORD)((_bitfield & 0xFFFFFFFFFFFDFFFF) | (val << 17)); return val; } DWORD fInvertPostBoundDir() { return (_bitfield >> 18) & 0x1; } DWORD fInvertPostBoundDir(DWORD val) { _bitfield = cast(DWORD)((_bitfield & 0xFFFFFFFFFFFBFFFF) | (val << 18)); return val; } DWORD fLinkStringBefore() { return (_bitfield >> 19) & 0x1; } DWORD fLinkStringBefore(DWORD val) { _bitfield = cast(DWORD)((_bitfield & 0xFFFFFFFFFFF7FFFF) | (val << 19)); return val; } DWORD fLinkStringAfter() { return (_bitfield >> 20) & 0x1; } DWORD fLinkStringAfter(DWORD val) { _bitfield = cast(DWORD)((_bitfield & 0xFFFFFFFFFFEFFFFF) | (val << 20)); return val; } DWORD fNeutralOverride() { return (_bitfield >> 21) & 0x1; } DWORD fNeutralOverride(DWORD val) { _bitfield = cast(DWORD)((_bitfield & 0xFFFFFFFFFFDFFFFF) | (val << 21)); return val; } DWORD fNumericOverride() { return (_bitfield >> 22) & 0x1; } DWORD fNumericOverride(DWORD val) { _bitfield = cast(DWORD)((_bitfield & 0xFFFFFFFFFFBFFFFF) | (val << 22)); return val; } DWORD fLegacyBidiClass() { return (_bitfield >> 23) & 0x1; } DWORD fLegacyBidiClass(DWORD val) { _bitfield = cast(DWORD)((_bitfield & 0xFFFFFFFFFF7FFFFF) | (val << 23)); return val; } DWORD fReserved() { return (_bitfield >> 24) & 0xFF; } DWORD fReserved(DWORD val) { _bitfield = cast(DWORD)((_bitfield & 0xFFFFFFFF00FFFFFF) | (val << 24)); return val; } } struct SCRIPT_STATE { private WORD _bitfield; WORD uBidiLevel() { return cast(WORD)((_bitfield >> 0) & 0x1F); } WORD uBidiLevel(WORD val) { _bitfield = cast(WORD)((_bitfield & 0xFFFFFFFFFFFFFFE0) | (val << 0)); return val; } WORD fOverrideDirection() { return cast(WORD)((_bitfield >> 5) & 0x1); } WORD fOverrideDirection(WORD val) { _bitfield = cast(WORD)((_bitfield & 0xFFFFFFFFFFFFFFDF) | (val << 5)); return val; } WORD fInhibitSymSwap() { return cast(WORD)((_bitfield >> 6) & 0x1); } WORD fInhibitSymSwap(WORD val) { _bitfield = cast(WORD)((_bitfield & 0xFFFFFFFFFFFFFFBF) | (val << 6)); return val; } WORD fCharShape() { return cast(WORD)((_bitfield >> 7) & 0x1); } WORD fCharShape(WORD val) { _bitfield = cast(WORD)((_bitfield & 0xFFFFFFFFFFFFFF7F) | (val << 7)); return val; } WORD fDigitSubstitute() { return cast(WORD)((_bitfield >> 8) & 0x1); } WORD fDigitSubstitute(WORD val) { _bitfield = cast(WORD)((_bitfield & 0xFFFFFFFFFFFFFEFF) | (val << 8)); return val; } WORD fInhibitLigate() { return cast(WORD)((_bitfield >> 9) & 0x1); } WORD fInhibitLigate(WORD val) { _bitfield = cast(WORD)((_bitfield & 0xFFFFFFFFFFFFFDFF) | (val << 9)); return val; } WORD fDisplayZWG() { return cast(WORD)((_bitfield >> 10) & 0x1); } WORD fDisplayZWG(WORD val) { _bitfield = cast(WORD)((_bitfield & 0xFFFFFFFFFFFFFBFF) | (val << 10)); return val; } WORD fArabicNumContext() { return cast(WORD)((_bitfield >> 11) & 0x1); } WORD fArabicNumContext(WORD val) { _bitfield = cast(WORD)((_bitfield & 0xFFFFFFFFFFFFF7FF) | (val << 11)); return val; } WORD fGcpClusters() { return cast(WORD)((_bitfield >> 12) & 0x1); } WORD fGcpClusters(WORD val) { _bitfield = cast(WORD)((_bitfield & 0xFFFFFFFFFFFFEFFF) | (val << 12)); return val; } WORD fReserved() { return cast(WORD)((_bitfield >> 13) & 0x1); } WORD fReserved(WORD val) { _bitfield = cast(WORD)((_bitfield & 0xFFFFFFFFFFFFDFFF) | (val << 13)); return val; } WORD fEngineReserved() { return cast(WORD)((_bitfield >> 14) & 0x3); } WORD fEngineReserved(WORD val) { _bitfield = cast(WORD)((_bitfield & 0xFFFFFFFFFFFF3FFF) | (val << 14)); return val; } } struct SCRIPT_ANALYSIS { private WORD _bitfield; WORD eScript() { return cast(WORD)((_bitfield >> 0) & 0x3FF); } WORD eScript(WORD val) { _bitfield = cast(WORD)((_bitfield & 0xFFFFFFFFFFFFFC00) | (val << 0)); return val; } WORD fRTL() { return cast(WORD)((_bitfield >> 10) & 0x1); } WORD fRTL(WORD val) { _bitfield = cast(WORD)((_bitfield & 0xFFFFFFFFFFFFFBFF) | (val << 10)); return val; } WORD fLayoutRTL() { return cast(WORD)((_bitfield >> 11) & 0x1); } WORD fLayoutRTL(WORD val) { _bitfield = cast(WORD)((_bitfield & 0xFFFFFFFFFFFFF7FF) | (val << 11)); return val; } WORD fLinkBefore() { return cast(WORD)((_bitfield >> 12) & 0x1); } WORD fLinkBefore(WORD val) { _bitfield = cast(WORD)((_bitfield & 0xFFFFFFFFFFFFEFFF) | (val << 12)); return val; } WORD fLinkAfter() { return cast(WORD)((_bitfield >> 13) & 0x1); } WORD fLinkAfter(WORD val) { _bitfield = cast(WORD)((_bitfield & 0xFFFFFFFFFFFFDFFF) | (val << 13)); return val; } WORD fLogicalOrder() { return cast(WORD)((_bitfield >> 14) & 0x1); } WORD fLogicalOrder(WORD val) { _bitfield = cast(WORD)((_bitfield & 0xFFFFFFFFFFFFBFFF) | (val << 14)); return val; } WORD fNoGlyphIndex() { return cast(WORD)((_bitfield >> 15) & 0x1); } WORD fNoGlyphIndex(WORD val) { _bitfield = cast(WORD)((_bitfield & 0xFFFFFFFFFFFF7FFF) | (val << 15)); return val; } SCRIPT_STATE s; } struct SCRIPT_ITEM { int iCharPos; SCRIPT_ANALYSIS a; } struct SCRIPT_VISATTR { private WORD _bitfield; WORD uJustification() { return cast(WORD)((_bitfield >> 0) & 0xF); } WORD uJustification(WORD val) { _bitfield = cast(WORD)((_bitfield & 0xFFFFFFFFFFFFFFF0) | (val << 0)); return val; } WORD fClusterStart() { return cast(WORD)((_bitfield >> 4) & 0x1); } WORD fClusterStart(WORD val) { _bitfield = cast(WORD)((_bitfield & 0xFFFFFFFFFFFFFFEF) | (val << 4)); return val; } WORD fDiacritic() { return cast(WORD)((_bitfield >> 5) & 0x1); } WORD fDiacritic(WORD val) { _bitfield = cast(WORD)((_bitfield & 0xFFFFFFFFFFFFFFDF) | (val << 5)); return val; } WORD fZeroWidth() { return cast(WORD)((_bitfield >> 6) & 0x1); } WORD fZeroWidth(WORD val) { _bitfield = cast(WORD)((_bitfield & 0xFFFFFFFFFFFFFFBF) | (val << 6)); return val; } WORD fReserved() { return cast(WORD)((_bitfield >> 7) & 0x1); } WORD fReserved(WORD val) { _bitfield = cast(WORD)((_bitfield & 0xFFFFFFFFFFFFFF7F) | (val << 7)); return val; } WORD fShapeReserved() { return cast(WORD)((_bitfield >> 8) & 0xFF); } WORD fShapeReserved(WORD val) { _bitfield = cast(WORD)((_bitfield & 0xFFFFFFFFFFFF00FF) | (val << 8)); return val; } } struct GOFFSET { LONG du; LONG dv; } struct SCRIPT_LOGATTR { BYTE _bitfield; BYTE fSoftBreak() { return cast(BYTE)((_bitfield >> 0) & 0x1); } BYTE fSoftBreak(BYTE val) { _bitfield = cast(BYTE)((_bitfield & 0xFFFFFFFFFFFFFFFE) | (val << 0)); return val; } BYTE fWhiteSpace() { return cast(BYTE)((_bitfield >> 1) & 0x1); } BYTE fWhiteSpace(BYTE val) { _bitfield = cast(BYTE)((_bitfield & 0xFFFFFFFFFFFFFFFD) | (val << 1)); return val; } BYTE fCharStop() { return cast(BYTE)((_bitfield >> 2) & 0x1); } BYTE fCharStop(BYTE val) { _bitfield = cast(BYTE)((_bitfield & 0xFFFFFFFFFFFFFFFB) | (val << 2)); return val; } BYTE fWordStop() { return cast(BYTE)((_bitfield >> 3) & 0x1); } BYTE fWordStop(BYTE val) { _bitfield = cast(BYTE)((_bitfield & 0xFFFFFFFFFFFFFFF7) | (val << 3)); return val; } BYTE fInvalid() { return cast(BYTE)((_bitfield >> 4) & 0x1); } BYTE fInvalid(BYTE val) { _bitfield = cast(BYTE)((_bitfield & 0xFFFFFFFFFFFFFFEF) | (val << 4)); return val; } BYTE fReserved() { return cast(BYTE)((_bitfield >> 5) & 0x7); } BYTE fReserved(BYTE val) { _bitfield = cast(BYTE)((_bitfield & 0xFFFFFFFFFFFFFF1F) | (val << 5)); return val; } } struct SCRIPT_PROPERTIES { private DWORD _bitfield1; DWORD langid() { return (_bitfield1 >> 0) & 0xFFFF; } DWORD langid(DWORD val) { _bitfield1 = cast(DWORD)((_bitfield1 & 0xFFFFFFFFFFFF0000) | (val << 0)); return val; } DWORD fNumeric() { return (_bitfield1 >> 16) & 0x1; } DWORD fNumeric(DWORD val) { _bitfield1 = cast(DWORD)((_bitfield1 & 0xFFFFFFFFFFFEFFFF) | (val << 16)); return val; } DWORD fComplex() { return (_bitfield1 >> 17) & 0x1; } DWORD fComplex(DWORD val) { _bitfield1 = cast(DWORD)((_bitfield1 & 0xFFFFFFFFFFFDFFFF) | (val << 17)); return val; } DWORD fNeedsWordBreaking() { return (_bitfield1 >> 18) & 0x1; } DWORD fNeedsWordBreaking(DWORD val) { _bitfield1 = cast(DWORD)((_bitfield1 & 0xFFFFFFFFFFFBFFFF) | (val << 18)); return val; } DWORD fNeedsCaretInfo() { return (_bitfield1 >> 19) & 0x1; } DWORD fNeedsCaretInfo(DWORD val) { _bitfield1 = cast(DWORD)((_bitfield1 & 0xFFFFFFFFFFF7FFFF) | (val << 19)); return val; } DWORD bCharSet() { return (_bitfield1 >> 20) & 0xFF; } DWORD bCharSet(DWORD val) { _bitfield1 = cast(DWORD)((_bitfield1 & 0xFFFFFFFFF00FFFFF) | (val << 20)); return val; } DWORD fControl() { return (_bitfield1 >> 28) & 0x1; } DWORD fControl(DWORD val) { _bitfield1 = cast(DWORD)((_bitfield1 & 0xFFFFFFFFEFFFFFFF) | (val << 28)); return val; } DWORD fPrivateUseArea() { return (_bitfield1 >> 29) & 0x1; } DWORD fPrivateUseArea(DWORD val) { _bitfield1 = cast(DWORD)((_bitfield1 & 0xFFFFFFFFDFFFFFFF) | (val << 29)); return val; } DWORD fNeedsCharacterJustify() { return (_bitfield1 >> 30) & 0x1; } DWORD fNeedsCharacterJustify(DWORD val) { _bitfield1 = cast(DWORD)((_bitfield1 & 0xFFFFFFFFBFFFFFFF) | (val << 30)); return val; } DWORD fInvalidGlyph() { return (_bitfield1 >> 31) & 0x1; } DWORD fInvalidGlyph(DWORD val) { _bitfield1 = cast(DWORD)((_bitfield1 & 0xFFFFFFFF7FFFFFFF) | (val << 31)); return val; } private DWORD _bitfield2; DWORD fInvalidLogAttr() { return (_bitfield2 >> 0) & 0x1; } DWORD fInvalidLogAttr(DWORD val) { _bitfield2 = cast(DWORD)((_bitfield2 & 0xFFFFFFFFFFFFFFFE) | (val << 0)); return val; } DWORD fCDM() { return (_bitfield2 >> 1) & 0x1; } DWORD fCDM(DWORD val) { _bitfield2 = cast(DWORD)((_bitfield2 & 0xFFFFFFFFFFFFFFFD) | (val << 1)); return val; } DWORD fAmbiguousCharSet() { return (_bitfield2 >> 2) & 0x1; } DWORD fAmbiguousCharSet(DWORD val) { _bitfield2 = cast(DWORD)((_bitfield2 & 0xFFFFFFFFFFFFFFFB) | (val << 2)); return val; } DWORD fClusterSizeVaries() { return (_bitfield2 >> 3) & 0x1; } DWORD fClusterSizeVaries(DWORD val) { _bitfield2 = cast(DWORD)((_bitfield2 & 0xFFFFFFFFFFFFFFF7) | (val << 3)); return val; } DWORD fRejectInvalid() { return (_bitfield2 >> 4) & 0x1; } DWORD fRejectInvalid(DWORD val) { _bitfield2 = cast(DWORD)((_bitfield2 & 0xFFFFFFFFFFFFFFEF) | (val << 4)); return val; } } struct SCRIPT_FONTPROPERTIES { int cBytes = SCRIPT_FONTPROPERTIES.sizeof; WORD wgBlank; WORD wgDefault; WORD wgInvalid; WORD wgKashida; int iKashidaWidth; } struct SCRIPT_TABDEF { int cTabStops; int iScale; int* pTabStops; int iTabOrigin; } struct SCRIPT_DIGITSUBSTITUTE { private DWORD _bitfield1; DWORD NationalDigitLanguage() { return (_bitfield1 >> 0) & 0xFFFF; } DWORD NationalDigitLanguage(DWORD val) { _bitfield1 = cast(DWORD)((_bitfield1 & 0xFFFFFFFFFFFF0000) | (val << 0)); return val; } DWORD TraditionalDigitLanguage() { return (_bitfield1 >> 16) & 0xFFFF; } DWORD TraditionalDigitLanguage(DWORD val) { _bitfield1 = cast(DWORD)((_bitfield1 & 0xFFFFFFFF0000FFFF) | (val << 16)); return val; } private DWORD _bitfield2; DWORD DigitSubstitute() { return (_bitfield2 >> 0) & 0xFF; } DWORD DigitSubstitute(DWORD val) { _bitfield2 = cast(DWORD)((_bitfield2 & 0xFFFFFFFFFFFFFF00) | (val << 0)); return val; } DWORD dwReserved; } /* TODO: Windows Vista fearured structs OPENTYPE_FEATURE_RECORD OPENTYPE_TAG SCRIPT_CHARPROP SCRIPT_GLYPHPROP TEXTRANGE_PROPERTIES */ } /* Uniscribe Functions * http://msdn2.microsoft.com/library/ms776469 */ extern (Windows) { HRESULT ScriptFreeCache(SCRIPT_CACHE*); HRESULT ScriptItemize(WCHAR*, int, int, SCRIPT_CONTROL*, SCRIPT_STATE*, SCRIPT_ITEM*, int*); HRESULT ScriptLayout(int, BYTE*, int*, int*); HRESULT ScriptShape(HDC, SCRIPT_CACHE*, WCHAR*, int, int, SCRIPT_ANALYSIS*, WORD*, WORD*, SCRIPT_VISATTR*, int*); HRESULT ScriptPlace(HDC, SCRIPT_CACHE*, WORD*, int, SCRIPT_VISATTR*, SCRIPT_ANALYSIS*, int*, GOFFSET*, ABC*); HRESULT ScriptTextOut(HDC, SCRIPT_CACHE*, int, int, UINT, RECT*, SCRIPT_ANALYSIS*, WCHAR*, int, WORD*, int, int*, int*, GOFFSET*); HRESULT ScriptJustify(SCRIPT_VISATTR*, int*, int, int, int, int*); HRESULT ScriptBreak(WCHAR*, int, SCRIPT_ANALYSIS*, SCRIPT_LOGATTR*); HRESULT ScriptCPtoX(int, BOOL, int, int, WORD*, SCRIPT_VISATTR*, int*, SCRIPT_ANALYSIS*, int*); HRESULT ScriptXtoCP(int, int, int, WORD*, SCRIPT_VISATTR*, int*, SCRIPT_ANALYSIS*, int*, int*); HRESULT ScriptGetLogicalWidths(SCRIPT_ANALYSIS*, int, int, int*, WORD*, SCRIPT_VISATTR*, int*); HRESULT ScriptApplyLogicalWidth(int*, int, int, WORD*, SCRIPT_VISATTR*, int*, SCRIPT_ANALYSIS*, ABC*, int*); HRESULT ScriptGetCMap(HDC, SCRIPT_CACHE*, WCHAR*, int, DWORD, WORD*); HRESULT ScriptGetGlyphABCWidth(HDC, SCRIPT_CACHE*, WORD, ABC*); HRESULT ScriptGetProperties(SCRIPT_PROPERTIES***, int*); HRESULT ScriptGetFontProperties(HDC, SCRIPT_CACHE*, SCRIPT_FONTPROPERTIES*); HRESULT ScriptCacheGetHeight(HDC, SCRIPT_CACHE*, int*); HRESULT ScriptIsComplex(WCHAR*, int, DWORD); HRESULT ScriptRecordDigitSubstitution(LCID, SCRIPT_DIGITSUBSTITUTE*); HRESULT ScriptApplyDigitSubstitution(SCRIPT_DIGITSUBSTITUTE*, SCRIPT_CONTROL*, SCRIPT_STATE*); /* ScriptString Functions * http://msdn2.microsoft.com/library/ms776485 */ HRESULT ScriptStringAnalyse(HDC, void*, int, int, int, DWORD, int, SCRIPT_CONTROL*, SCRIPT_STATE*, int*, SCRIPT_TABDEF*, BYTE*, SCRIPT_STRING_ANALYSIS*); HRESULT ScriptStringFree(SCRIPT_STRING_ANALYSIS*); SIZE* ScriptString_pSize(SCRIPT_STRING_ANALYSIS); int* ScriptString_pcOutChars(SCRIPT_STRING_ANALYSIS); SCRIPT_LOGATTR* ScriptString_pLogAttr(SCRIPT_STRING_ANALYSIS); HRESULT ScriptStringGetOrder(SCRIPT_STRING_ANALYSIS, UINT*); HRESULT ScriptStringCPtoX(SCRIPT_STRING_ANALYSIS, int, BOOL, int*); HRESULT ScriptStringXtoCP(SCRIPT_STRING_ANALYSIS, int, int*, int*); HRESULT ScriptStringGetLogicalWidths(SCRIPT_STRING_ANALYSIS, int*); HRESULT ScriptStringValidate(SCRIPT_STRING_ANALYSIS); HRESULT ScriptStringOut(SCRIPT_STRING_ANALYSIS, int, int, UINT, RECT*, int, int, BOOL); /* TODO: Windows Vista fearured functions ScriptGetFontAlternateGlyphs() ScriptGetFontFeatureTags() ScriptGetFontLanguageTags() ScriptGetFontScriptTags() ScriptItemizeOpenType() ScriptPlaceOpenType() ScriptPositionSingleGlyph() ScriptShapeOpenType() ScriptSubstituteSingleGlyph() */ }