/** @file upmf.h @brief Structures, definitions, and function prototypes for EMF+ files. EMF+ file Record structure derived from Microsoft's EMF+ Information pdf, releade date July 5,2012, link from here: http://msdn.microsoft.com/en-us/library/cc230724.aspx If the direct link fails the document may be found by searching for: "[MS-EMFPLUS]: Enhanced Metafile Format Plus Extensions " EMR records and structures are EMF or common with EMF+ PMR records and structures are specific to EMF+ Using PMF instead of EMF+ because "+" is a problem in symbol names. ***************************************************************************************** * WARNING: Microsoft's EMF+ documentation is little-endian for everything EXCEPT * * bitfields, which are big-endian. See section 1.3.2 * * That documentation also uses 0 as the MOST significant bit, N-1 as the least. * * This code is little-endian throughout, and 0 is the LEAST significant bit * ***************************************************************************************** */ /* File: upmf.h Version: 0.0.5 Date: 26-JAN-2016 Author: David Mathog, Biology Division, Caltech email: mathog@caltech.edu Copyright: 2016 David Mathog and California Institute of Technology (Caltech) */ #ifndef _UPMF_ #define _UPMF_ #ifdef __cplusplus extern "C" { #endif #include #include #include "uemf.h" /** \defgroup U_PMF_PMF_Misc PMF Miscellaneous defines @{ */ #define U_PMF_DROP_ELEMENTS 1 //!< Remove leading Elements value from data. #define U_PMF_KEEP_ELEMENTS 0 //!< Retain leading Elements value from data. #define U_SEG_NEW 1 //!< start a new segment in the path #define U_SEG_OLD 0 //!< continue the old (current) segment in the path #define U_FILTER_APPLY 1 //!< With U_PMR_DRAWIMAGEPOINTS_set, use whatever filter has been set up up. #define U_FILTER_IGNORE 0 //!< With U_PMR_DRAWIMAGEPOINTS_set, ignore whatever filter has been set up up. #define U_OBJRECLIM 65020 //!< Longest U_PMR_OBJECT that GDI+ will process // used 9728 to test fragmenting of emitted object records /** @} */ /** \defgroup U_PMF_DD_ PMF "standard" custom Dash Dot patterns for lines. U_DD_DASH, U_DD_DOT, U_DD_DASHDOT, and U_DD_DASHDOTDOT are the only ones with corresponding standard EMF and EMF+ dash/dot patterns. These values are used to tell U_PMF_DASHEDLINEDATA_set2() to create one of 27 custom line patterns. Other custom line patterns may be created using U_PMF_DASHEDLINEDATA_set(), but this provides an easier way to get the same result if one of these patterns is acceptable. The length is divided by 2X the number of elements, so dashdash has twice as many dashes of half the length as just dash. Dot is 1/8 of (sub)unit length Dash is 1/2 of (sub)unit length Long is 3/4 of (sub)unit length Example: DotDot has (sub)unit length 1/2, so each dot will be 1/16 of unit length. @{ */ #define U_DD_Solid 0 //!< Solid line. #define U_DD_Dash 1 //!< Dash line. #define U_DD_DashDash 2 //!< Dash Dash line. #define U_DD_DashDashDash 3 //!< Dash Dash Dash line. #define U_DD_DashDashDashDash 4 //!< Dash Dash Dash Dash line. #define U_DD_Dot 5 //!< Dot line. #define U_DD_DotDot 6 //!< Dot Dot line. #define U_DD_DotDotDot 7 //!< Dot Dot Dot line. #define U_DD_DotDotDotDot 8 //!< Dot Dot Dot Dot line. #define U_DD_DashDot 9 //!< Dash Dot line. #define U_DD_DashDashDot 10 //!< Dash Dash Dot line. #define U_DD_DashDashDotDot 11 //!< Dash Dash Dot Dot line. #define U_DD_DashDashDashDot 12 //!< Dash Dash Das hDot line. #define U_DD_DashDotDot 13 //!< Dash Dot Dot line. #define U_DD_DashDotDotDot 14 //!< Dash Dot Dot Dot line. #define U_DD_DashDotDashDot 15 //!< Dash Dot Dash Dot line. #define U_DD_Long 16 //!< Long line. #define U_DD_LongLong 17 //!< Long Long line. #define U_DD_LongLongLong 18 //!< Long Long Long line. #define U_DD_LongLongLongLong 19 //!< Long Long Long Long line. #define U_DD_LongDot 20 //!< Long Dot line. #define U_DD_LongLongDot 21 //!< Long Long Dot line. #define U_DD_LongLongDotDot 22 //!< Long Long Dot Dot line. #define U_DD_LongLongLongDot 23 //!< Long Long Long Dot line. #define U_DD_LongDotDot 24 //!< Long Dot Dot line. #define U_DD_LongDotDotDot 25 //!< Long Dot Dot Dot line. #define U_DD_LongDotLongDot 26 //!< Long Dot Long Dot line. #define U_DD_Types 27 //!< Types /** @} */ /** \defgroup U_PMF_PMR_Qualifiers PMF RecordType Enumeration EMF+ manual 2.1.1.1, Microsoft name: RecordType Enumeration @{ */ #define U_PMR_HEADER 0x0001 //!< U_PMRHeader record #define U_PMR_ENDOFFILE 0x0002 //!< U_PMREndOfFile record #define U_PMR_COMMENT 0x0003 //!< U_PMRComment record #define U_PMR_GETDC 0x0004 //!< U_PMRGetDC record #define U_PMR_MULTIFORMATSTART 0x0005 //!< U_PMRMultiFormatStart record #define U_PMR_MULTIFORMATSECTION 0x0006 //!< U_PMRMultiFormatSection record #define U_PMR_MULTIFORMATEND 0x0007 //!< U_PMRMultiFormatEnd record #define U_PMR_OBJECT 0x0008 //!< U_PMRObject record #define U_PMR_CLEAR 0x0009 //!< U_PMRClear record #define U_PMR_FILLRECTS 0x000A //!< U_PMRFillRects record #define U_PMR_DRAWRECTS 0x000B //!< U_PMRDrawRects record #define U_PMR_FILLPOLYGON 0x000C //!< U_PMRFillPolygon record #define U_PMR_DRAWLINES 0x000D //!< U_PMRDrawLines record #define U_PMR_FILLELLIPSE 0x000E //!< U_PMRFillEllipse record #define U_PMR_DRAWELLIPSE 0x000F //!< U_PMRDrawEllipse record #define U_PMR_FILLPIE 0x0010 //!< U_PMRFillPie record #define U_PMR_DRAWPIE 0x0011 //!< U_PMRDrawPie record #define U_PMR_DRAWARC 0x0012 //!< U_PMRDrawArc record #define U_PMR_FILLREGION 0x0013 //!< U_PMRFillRegion record #define U_PMR_FILLPATH 0x0014 //!< U_PMRFillPath record #define U_PMR_DRAWPATH 0x0015 //!< U_PMRDrawPath record #define U_PMR_FILLCLOSEDCURVE 0x0016 //!< U_PMRFillClosedCurve record #define U_PMR_DRAWCLOSEDCURVE 0x0017 //!< U_PMRDrawClosedCurve record #define U_PMR_DRAWCURVE 0x0018 //!< U_PMRDrawCurve record #define U_PMR_DRAWBEZIERS 0x0019 //!< U_PMRDrawBeziers record #define U_PMR_DRAWIMAGE 0x001A //!< U_PMRDrawImage record #define U_PMR_DRAWIMAGEPOINTS 0x001B //!< U_PMRDrawImagePoints record #define U_PMR_DRAWSTRING 0x001C //!< U_PMRDrawString record #define U_PMR_SETRENDERINGORIGIN 0x001D //!< U_PMRSetRenderingOrigin record #define U_PMR_SETANTIALIASMODE 0x001E //!< U_PMRSetAntiAliasMode record #define U_PMR_SETTEXTRENDERINGHINT 0x001F //!< U_PMRSetTextRenderingHint record #define U_PMR_SETTEXTCONTRAST 0x0020 //!< U_PMRSetTextContrast record #define U_PMR_SETINTERPOLATIONMODE 0x0021 //!< U_PMRSetInterpolationMode record #define U_PMR_SETPIXELOFFSETMODE 0x0022 //!< U_PMRSetPixelOffsetMode record #define U_PMR_SETCOMPOSITINGMODE 0x0023 //!< U_PMRSetCompositingMode record #define U_PMR_SETCOMPOSITINGQUALITY 0x0024 //!< U_PMRSetCompositingQuality record #define U_PMR_SAVE 0x0025 //!< U_PMRSave record #define U_PMR_RESTORE 0x0026 //!< U_PMRRestore record #define U_PMR_BEGINCONTAINER 0x0027 //!< U_PMRBeginContainer record #define U_PMR_BEGINCONTAINERNOPARAMS 0x0028 //!< U_PMRBeginContainerNoParams record #define U_PMR_ENDCONTAINER 0x0029 //!< U_PMREndContainer record #define U_PMR_SETWORLDTRANSFORM 0x002A //!< U_PMRSetWorldTransform record #define U_PMR_RESETWORLDTRANSFORM 0x002B //!< U_PMRResetWorldTransform record #define U_PMR_MULTIPLYWORLDTRANSFORM 0x002C //!< U_PMRMultiplyWorldTransform record #define U_PMR_TRANSLATEWORLDTRANSFORM 0x002D //!< U_PMRTranslateWorldTransform record #define U_PMR_SCALEWORLDTRANSFORM 0x002E //!< U_PMRScaleWorldTransform record #define U_PMR_ROTATEWORLDTRANSFORM 0x002F //!< U_PMRRotateWorldTransform record #define U_PMR_SETPAGETRANSFORM 0x0030 //!< U_PMRSetPageTransform record #define U_PMR_RESETCLIP 0x0031 //!< U_PMRResetClip record #define U_PMR_SETCLIPRECT 0x0032 //!< U_PMRSetClipRect record #define U_PMR_SETCLIPPATH 0x0033 //!< U_PMRSetClipPath record #define U_PMR_SETCLIPREGION 0x0034 //!< U_PMRSetClipRegion record #define U_PMR_OFFSETCLIP 0x0035 //!< U_PMROffsetClip record #define U_PMR_DRAWDRIVERSTRING 0x0036 //!< U_PMRDrawDriverstring record #define U_PMR_STROKEFILLPATH 0x0037 //!< U_PMRStrokeFillPath record #define U_PMR_SERIALIZABLEOBJECT 0x0038 //!< U_PMRSerializableObject record #define U_PMR_SETTSGRAPHICS 0x0039 //!< U_PMRSetTSGraphics record #define U_PMR_SETTSCLIP 0x003A //!< U_PMRSetTSClip record #define U_PMR_RECFLAG 0x4000 //!< In EMF+ files the type is one of the above + this flag #define U_PMR_TYPE_MASK 0x003F //!< mask for EMF+ types #define U_PMR_MIN 1 //!< Minimum U_PMR_ value. #define U_PMR_MAX 58 //!< Maximum U_PMR_ value. /** @} */ /** \defgroup U_PMF_PID_Values PMF Identifiers for PseudoObjects These are used by the *_set routines to identify types of PseudoObject. Note that records are U_PMR_*_OID and other objects are U_PMF_*_OID The numbers are derived from the EMF+ manual sections, as in 2.2.1.3 become 02020103. Numbers 40000000 and up are not derived from manual setions. @{ */ #define U_UNDEFINED_OID 0x00000000 //!< Undefined PseudoObject #define U_PMF_BRUSH_OID 0x02020101 //!< PMF_BRUSH PseudoObject type. #define U_PMF_CUSTOMLINECAP_OID 0x02020102 //!< PMF_CUSTOMLINECAP PseudoObject type. #define U_PMF_FONT_OID 0x02020103 //!< PMF_FONT PseudoObject type. #define U_PMF_IMAGE_OID 0x02020104 //!< PMF_IMAGE PseudoObject type. #define U_PMF_IMAGEATTRIBUTES_OID 0x02020105 //!< PMF_IMAGEATTRIBUTES PseudoObject type. #define U_PMF_PATH_OID 0x02020106 //!< PMF_PATH PseudoObject type. #define U_PMF_PEN_OID 0x02020107 //!< PMF_PEN PseudoObject type. #define U_PMF_REGION_OID 0x02020108 //!< PMF_REGION PseudoObject type. #define U_PMF_STRINGFORMAT_OID 0x02020109 //!< PMF_STRINGFORMAT PseudoObject type. #define U_PMF_ARGB_OID 0x02020201 //!< PMF_ARGB PseudoObject type. #define U_PMF_BITMAP_OID 0x02020202 //!< PMF_BITMAP PseudoObject type. #define U_PMF_BITMAPDATA_OID 0x02020203 //!< PMF_BITMAPDATA PseudoObject type. #define U_PMF_BLENDCOLORS_OID 0x02020204 //!< PMF_BLENDCOLORS PseudoObject type. #define U_PMF_BLENDFACTORS_OID 0x02020205 //!< PMF_BLENDFACTORS PseudoObject type. #define U_PMF_BOUNDARYPATHDATA_OID 0x02020206 //!< PMF_BOUNDARYPATHDATA PseudoObject type. #define U_PMF_BOUNDARYPOINTDATA_OID 0x02020207 //!< PMF_BOUNDARYPOINTDATA PseudoObject type. #define U_PMF_CHARACTERRANGE_OID 0x02020208 //!< PMF_CHARACTERRANGE PseudoObject type. #define U_PMF_COMPOUNDLINEDATA_OID 0x02020209 //!< PMF_COMPOUNDLINEDATA PseudoObject type. #define U_PMF_COMPRESSEDIMAGE_OID 0x02020210 //!< PMF_COMPRESSEDIMAGE PseudoObject type. #define U_PMF_CUSTOMENDCAPDATA_OID 0x02020211 //!< PMF_CUSTOMENDCAPDATA PseudoObject type. #define U_PMF_CUSTOMLINECAPARROWDATA_OID 0x02020212 //!< PMF_CUSTOMLINECAPARROWDATA PseudoObject type. #define U_PMF_CUSTOMLINECAPDATA_OID 0x02020213 //!< PMF_CUSTOMLINECAPDATA PseudoObject type. #define U_PMF_CUSTOMLINECAPOPTIONALDATA_OID 0x02020214 //!< PMF_CUSTOMLINECAPOPTIONALDATA PseudoObject type. #define U_PMF_CUSTOMSTARTCAPDATA_OID 0x02020215 //!< PMF_CUSTOMSTARTCAPDATA PseudoObject type. #define U_PMF_DASHEDLINEDATA_OID 0x02020216 //!< PMF_DASHEDLINEDATA PseudoObject type. #define U_PMF_FILLPATHOBJ_OID 0x02020217 //!< PMF_FILLPATHOBJ PseudoObject type. #define U_PMF_FOCUSSCALEDATA_OID 0x02020218 //!< PMF_FOCUSSCALEDATA PseudoObject type. #define U_PMF_GRAPHICSVERSION_OID 0x02020219 //!< PMF_GRAPHICSVERSION PseudoObject type. #define U_PMF_HATCHBRUSHDATA_OID 0x02020220 //!< PMF_HATCHBRUSHDATA PseudoObject type. #define U_PMF_INTEGER7_OID 0x02020221 //!< PMF_INTEGER7 PseudoObject type. #define U_PMF_INTEGER15_OID 0x02020222 //!< PMF_INTEGER15 PseudoObject type. #define U_PMF_LANGUAGEIDENTIFIER_OID 0x02020223 //!< PMF_LANGUAGEIDENTIFIER PseudoObject type. #define U_PMF_LINEARGRADIENTBRUSHDATA_OID 0x02020224 //!< PMF_LINEARGRADIENTBRUSHDATA PseudoObject type. #define U_PMF_LINEARGRADIENTBRUSHOPTIONALDATA_OID 0x02020225 //!< PMF_LINEARGRADIENTBRUSHOPTIONALDATA PseudoObject type. #define U_PMF_LINEPATH_OID 0x02020226 //!< PMF_LINEPATH PseudoObject type. #define U_PMF_METAFILE_OID 0x02020227 //!< PMF_METAFILE PseudoObject type. #define U_PMF_PALETTE_OID 0x02020228 //!< PMF_PALETTE PseudoObject type. #define U_PMF_PATHGRADIENTBRUSHDATA_OID 0x02020229 //!< PMF_PATHGRADIENTBRUSHDATA PseudoObject type. #define U_PMF_PATHGRADIENTBRUSHOPTIONALDATA_OID 0x02020230 //!< PMF_PATHGRADIENTBRUSHOPTIONALDATA PseudoObject type. #define U_PMF_PATHPOINTTYPE_OID 0x02020231 //!< PMF_PATHPOINTTYPE PseudoObject type. #define U_PMF_PATHPOINTTYPERLE_OID 0x02020232 //!< PMF_PATHPOINTTYPERLE PseudoObject type. #define U_PMF_PENDATA_OID 0x02020233 //!< PMF_PENDATA PseudoObject type. #define U_PMF_PENOPTIONALDATA_OID 0x02020234 //!< PMF_PENOPTIONALDATA PseudoObject type. #define U_PMF_POINT_OID 0x02020235 //!< PMF_POINT PseudoObject type. #define U_PMF_POINTF_OID 0x02020236 //!< PMF_POINTF PseudoObject type. #define U_PMF_POINTR_OID 0x02020237 //!< PMF_POINTR PseudoObject type. #define U_PMF_RECT_OID 0x02020238 //!< PMF_RECT PseudoObject type. #define U_PMF_RECTF_OID 0x02020239 //!< PMF_RECTF PseudoObject type. #define U_PMF_REGIONNODE_OID 0x02020240 //!< PMF_REGIONNODE PseudoObject type. #define U_PMF_REGIONNODECHILDNODES_OID 0x02020241 //!< PMF_REGIONNODECHILDNODES PseudoObject type. #define U_PMF_REGIONNODEPATH_OID 0x02020242 //!< PMF_REGIONNODEPATH PseudoObject type. #define U_PMF_SOLIDBRUSHDATA_OID 0x02020243 //!< PMF_SOLIDBRUSHDATA PseudoObject type. #define U_PMF_STRINGFORMATDATA_OID 0x02020244 //!< PMF_STRINGFORMATDATA PseudoObject type. #define U_PMF_TEXTUREBRUSHDATA_OID 0x02020245 //!< PMF_TEXTUREBRUSHDATA PseudoObject type. #define U_PMF_TEXTUREBRUSHOPTIONALDATA_OID 0x02020246 //!< PMF_TEXTUREBRUSHOPTIONALDATA PseudoObject type. #define U_PMF_TRANSFORMMATRIX_OID 0x02020247 //!< PMF_TRANSFORMMATRIX PseudoObject type. #define U_PMF_IE_BLUR_OID 0x02020301 //!< PMF_IE_BLUR PseudoObject type. #define U_PMF_IE_BRIGHTNESSCONTRAST_OID 0x02020302 //!< PMF_IE_BRIGHTNESSCONTRAST PseudoObject type. #define U_PMF_IE_COLORBALANCE_OID 0x02020303 //!< PMF_IE_COLORBALANCE PseudoObject type. #define U_PMF_IE_COLORCURVE_OID 0x02020304 //!< PMF_IE_COLORCURVE PseudoObject type. #define U_PMF_IE_COLORLOOKUPTABLE_OID 0x02020305 //!< PMF_IE_COLORLOOKUPTABLE PseudoObject type. #define U_PMF_IE_COLORMATRIX_OID 0x02020306 //!< PMF_IE_COLORMATRIX PseudoObject type. #define U_PMF_IE_HUESATURATIONLIGHTNESS_OID 0x02020307 //!< PMF_IE_HUESATURATIONLIGHTNESS PseudoObject type. #define U_PMF_IE_LEVELS_OID 0x02020308 //!< PMF_IE_LEVELS PseudoObject type. #define U_PMF_IE_REDEYECORRECTION_OID 0x02020309 //!< PMF_IE_REDEYECORRECTION PseudoObject type. #define U_PMF_IE_SHARPEN_OID 0x02020310 //!< PMF_IE_SHARPEN PseudoObject type. #define U_PMF_IE_TINT_OID 0x02020311 //!< PMF_IE_TINT PseudoObject type. #define U_PMR_STROKEFILLPATH_OID 0x02010101 //!< PMR_STROKEFILLPATH PseudoObject type. (Mentioned in passing here). #define U_PMR_OFFSETCLIP_OID 0x02030101 //!< PMR_OFFSETCLIP PseudoObject type. #define U_PMR_RESETCLIP_OID 0x02030102 //!< PMR_RESETCLIP PseudoObject type. #define U_PMR_SETCLIPPATH_OID 0x02030103 //!< PMR_SETCLIPPATH PseudoObject type. #define U_PMR_SETCLIPRECT_OID 0x02030104 //!< PMR_SETCLIPRECT PseudoObject type. #define U_PMR_SETCLIPREGION_OID 0x02030105 //!< PMR_SETCLIPREGION PseudoObject type. #define U_PMR_COMMENT_OID 0x02030201 //!< PMR_COMMENT PseudoObject type. #define U_PMR_ENDOFFILE_OID 0x02030301 //!< PMR_ENDOFFILE PseudoObject type. #define U_PMR_GETDC_OID 0x02030302 //!< PMR_GETDC PseudoObject type. #define U_PMR_HEADER_OID 0x02030303 //!< PMR_HEADER PseudoObject type. #define U_PMR_CLEAR_OID 0x02030401 //!< PMR_CLEAR PseudoObject type. #define U_PMR_DRAWARC_OID 0x02030402 //!< PMR_DRAWARC PseudoObject type. #define U_PMR_DRAWBEZIERS_OID 0x02030403 //!< PMR_DRAWBEZIERS PseudoObject type. #define U_PMR_DRAWCLOSEDCURVE_OID 0x02030404 //!< PMR_DRAWCLOSEDCURVE PseudoObject type. #define U_PMR_DRAWCURVE_OID 0x02030405 //!< PMR_DRAWCURVE PseudoObject type. #define U_PMR_DRAWDRIVERSTRING_OID 0x02030406 //!< PMR_DRAWDRIVERSTRING PseudoObject type. #define U_PMR_DRAWELLIPSE_OID 0x02030407 //!< PMR_DRAWELLIPSE PseudoObject type. #define U_PMR_DRAWIMAGE_OID 0x02030408 //!< PMR_DRAWIMAGE PseudoObject type. #define U_PMR_DRAWIMAGEPOINTS_OID 0x02030409 //!< PMR_DRAWIMAGEPOINTS PseudoObject type. #define U_PMR_DRAWLINES_OID 0x02030410 //!< PMR_DRAWLINES PseudoObject type. #define U_PMR_DRAWPATH_OID 0x02030411 //!< PMR_DRAWPATH PseudoObject type. #define U_PMR_DRAWPIE_OID 0x02030412 //!< PMR_DRAWPIE PseudoObject type. #define U_PMR_DRAWRECTS_OID 0x02030413 //!< PMR_DRAWRECTS PseudoObject type. #define U_PMR_DRAWSTRING_OID 0x02030414 //!< PMR_DRAWSTRING PseudoObject type. #define U_PMR_FILLCLOSEDCURVE_OID 0x02030415 //!< PMR_FILLCLOSEDCURVE PseudoObject type. #define U_PMR_FILLELLIPSE_OID 0x02030416 //!< PMR_FILLELLIPSE PseudoObject type. #define U_PMR_FILLPATH_OID 0x02030417 //!< PMR_FILLPATH PseudoObject type. #define U_PMR_FILLPIE_OID 0x02030418 //!< PMR_FILLPIE PseudoObject type. #define U_PMR_FILLPOLYGON_OID 0x02030419 //!< PMR_FILLPOLYGON PseudoObject type. #define U_PMR_FILLRECTS_OID 0x02030420 //!< PMR_FILLRECTS PseudoObject type. #define U_PMR_FILLREGION_OID 0x02030421 //!< PMR_FILLREGION PseudoObject type. #define U_PMR_OBJECT_OID 0x02030501 //!< PMR_OBJECT PseudoObject type. #define U_PMR_SERIALIZABLEOBJECT_OID 0x02030502 //!< PMR_SERIALIZABLEOBJECT PseudoObject type. #define U_PMR_SETANTIALIASMODE_OID 0x02030601 //!< PMR_SETANTIALIASMODE PseudoObject type. #define U_PMR_SETCOMPOSITINGMODE_OID 0x02030602 //!< PMR_SETCOMPOSITINGMODE PseudoObject type. #define U_PMR_SETCOMPOSITINGQUALITY_OID 0x02030603 //!< PMR_SETCOMPOSITINGQUALITY PseudoObject type. #define U_PMR_SETINTERPOLATIONMODE_OID 0x02030604 //!< PMR_SETINTERPOLATIONMODE PseudoObject type. #define U_PMR_SETPIXELOFFSETMODE_OID 0x02030605 //!< PMR_SETPIXELOFFSETMODE PseudoObject type. #define U_PMR_SETRENDERINGORIGIN_OID 0x02030606 //!< PMR_SETRENDERINGORIGIN PseudoObject type. #define U_PMR_SETTEXTCONTRAST_OID 0x02030607 //!< PMR_SETTEXTCONTRAST PseudoObject type. #define U_PMR_SETTEXTRENDERINGHINT_OID 0x02030608 //!< PMR_SETTEXTRENDERINGHINT PseudoObject type. #define U_PMR_BEGINCONTAINER_OID 0x02030701 //!< PMR_BEGINCONTAINER PseudoObject type. #define U_PMR_BEGINCONTAINERNOPARAMS_OID 0x02030702 //!< PMR_BEGINCONTAINERNOPARAMS PseudoObject type. #define U_PMR_ENDCONTAINER_OID 0x02030703 //!< PMR_ENDCONTAINER PseudoObject type. #define U_PMR_RESTORE_OID 0x02030704 //!< PMR_RESTORE PseudoObject type. #define U_PMR_SAVE_OID 0x02030705 //!< PMR_SAVE PseudoObject type. #define U_PMR_SETTSCLIP_OID 0x02030801 //!< PMR_SETTSCLIP PseudoObject type. #define U_PMR_SETTSGRAPHICS_OID 0x02030802 //!< PMR_SETTSGRAPHICS PseudoObject type. #define U_PMR_MULTIPLYWORLDTRANSFORM_OID 0x02030901 //!< PMR_MULTIPLYWORLDTRANSFORM PseudoObject type. #define U_PMR_RESETWORLDTRANSFORM_OID 0x02030902 //!< PMR_RESETWORLDTRANSFORM PseudoObject type. #define U_PMR_ROTATEWORLDTRANSFORM_OID 0x02030903 //!< PMR_ROTATEWORLDTRANSFORM PseudoObject type. #define U_PMR_SCALEWORLDTRANSFORM_OID 0x02030904 //!< PMR_SCALEWORLDTRANSFORM PseudoObject type. #define U_PMR_SETPAGETRANSFORM_OID 0x02030905 //!< PMR_SETPAGETRANSFORM PseudoObject type. #define U_PMR_SETWORLDTRANSFORM_OID 0x02030906 //!< PMR_SETWORLDTRANSFORM PseudoObject type. #define U_PMR_TRANSLATEWORLDTRANSFORM_OID 0x02030907 //!< PMR_TRANSLATEWORLDTRANSFORM PseudoObject type. #define U_PMR_TRANSLATEWORLDTRANSFORM_OID 0x02030907 //!< PMR_TRANSLATEWORLDTRANSFORM PseudoObject type. #define U_PMR_CMN_HDR_OID 0x40000000 //!< PMR_CMN_HDR PseudoObject type. #define U_PMF_4NUM_OID 0x40000001 //!< PMF_4NUM PseudoObject type. PseudoObject contains a 4 unsigned int in EMF+ file byte order, used in some contexts to indicate an object index number.. #define U_PMF_RAW_OID 0x40000002 //!< PMF_RAW PseudoObject type. Raw data: no preceding elements, data has native endianness. #define U_PMF_ARRAY_OID 0x80000000 //!< PMF_ARRAY PseudoObject type modifier. PseudoObject contains an array of the data type revealed when this bit is cleared. #define U_PMF_MASK_OID 0x7FFFFFFF //!< PMF_MASK. Select PseudoObject data type without regard to PMF_ARRAY. /** @} */ /** \defgroup U_PMF_BDT_ PMF BitmapDataType Enumeration For EMF+ manual 2.1.1.2, Microsoft name: BitmapDataType Enumeration (U_BDT_*) @{ */ #define U_BDT_Pixel 0x00 //!< Data is a bitmap. #define U_BDT_Compressed 0x01 //!< Data is a compressed bitmap (like a PNG). /** @} */ /** \defgroup U_PMF_BT_ PMF BrushType Enumeration For EMF+ manual 2.1.1.3, Microsoft name: BrushType Enumeration (U_BT_*) @{ */ #define U_BT_SolidColor 0x00 //!< Solid Color brush. #define U_BT_HatchFill 0x01 //!< Hatch Fill brush. #define U_BT_TextureFill 0x02 //!< Texture Fill brush. #define U_BT_PathGradient 0x03 //!< Path Gradient brush. #define U_BT_LinearGradient 0x04 //!< Linear Gradient brush. /** @} */ /** \defgroup U_PMF_CM_ PMF CombineMode Enumeration For EMF+ manual 2.1.1.4, Microsoft name: CombineMode Enumeration (U_CM_*) @{ */ #define U_CM_Replace 0x00 //!< Region becomes new region. #define U_CM_Intersect 0x01 //!< Region becomes intersection of existing region and new region. #define U_CM_Union 0x02 //!< Region becomes union of existing and new regions. #define U_CM_XOR 0x03 //!< Region becomes XOR of existing and new regions. #define U_CM_Exclude 0x04 //!< Region becomes part of existing region not in new region. #define U_CM_Complement 0x05 //!< Region becomes part of new region not in existing region. /** @} */ /** \defgroup U_PMF_CMS_ PMF CompositingMode Enumeration For EMF+ manual 2.1.1.5, Microsoft name: CompositingMode Enumeration (U_CMS_* [S==Source]) @{ */ #define U_CMS_Over 0x00 //!< Source is alpha blends with destination. #define U_CMS_Copy 0x01 //!< Source over writes destination. /** @} */ /** \defgroup U_PMF_CQ_ PMF CompositingQuality Enumeration For EMF+ manual 2.1.1.6, Microsoft name: CompositingQuality Enumeration (U_CQ_*) @{ */ #define U_CQ_Default 0x01 //!< Default compositing quality #define U_CQ_HighSpeed 0x02 //!< High Speed compositing quality #define U_CQ_HighQuality 0x03 //!< High Quality compositing quality #define U_CQ_GammaCorrected 0x04 //!< Gamma Corrected compositing quality #define U_CQ_AssumeLinear 0x05 //!< Assume Linear compositing quality /** @} */ /** \defgroup U_PMF_CA_ PMF CurveAdjustments Enumeration For EMF+ manual 2.1.1.7, Microsoft name: CurveAdjustments Enumeration (U_CA_*) @{ */ #define U_CA_Exposure 0x00 //!< Exposure color curve adjustment #define U_CA_Density 0x01 //!< Density color curve adjustment #define U_CA_Contrast 0x02 //!< Contrast color curve adjustment #define U_CA_Highlight 0x03 //!< Highlight color curve adjustment #define U_CA_Shadow 0x04 //!< Shadow color curve adjustment #define U_CA_Midtone 0x05 //!< Midtone color curve adjustment #define U_CA_WhiteSaturation 0x06 //!< White Saturation color curve adjustment #define U_CA_BlackSaturation 0x07 //!< Black Saturation color curve adjustment /** @} */ /** \defgroup U_PMF_CC_ PMF CurveChannel Enumeration For EMF+ manual 2.1.1.8, Microsoft name: CurveChannel Enumeration (U_CC_*) @{ */ #define U_CC_All 0x00 //!< All color channels #define U_CC_Red 0x01 //!< Red color channel #define U_CC_Green 0x02 //!< Green color channel #define U_CC_Blue 0x03 //!< Blue color channel /** @} */ /** \defgroup U_PMF_CLCDT_ PMF CustomLineCapDataType Enumeration For EMF+ manual 2.1.1.9, Microsoft name: CustomLineCapDataType Enumeration (U_CLCDT_*) @{ */ #define U_CLCDT_Default 0x00 //!< Default custom line cap #define U_CLCDT_AdjustableArrow 0x01 //!< Adjustable Arrow custom line cap /** @} */ /** \defgroup U_PMF_DLCT_ PMF DashedLineCapType Enumeration For EMF+ manual 2.1.1.10, Microsoft name: DashedLineCapType Enumeration (U_DLCT_*) @{ */ #define U_DLCT_Flat 0x00 //!< Flat dashed line cap #define U_DLCT_Round 0x02 //!< Round dashed line cap #define U_DLCT_Triangle 0x03 //!< Triangle dashed line cap /** @} */ /** \defgroup U_PMF_FT_ PMF FilterType Enumeration For EMF+ manual 2.1.1.11, Microsoft name: FilterType Enumeration (U_FT_*) @{ */ #define U_FT_None 0x00 //!< No filtering #define U_FT_Point 0x01 //!< Point filtering #define U_FT_Linear 0x02 //!< Linear filtering #define U_FT_Triangle 0x03 //!< Triangle filtering #define U_FT_Box 0x04 //!< Box filtering #define U_FT_PyramidalQuad 0x06 //!< Pyramidal Quad filtering #define U_FT_GaussianQuad 0x07 //!< Gaussian Quad filtering /** @} */ /** \defgroup U_PMF_GV_ PMF GraphicsVersion Enumeration For EMF+ manual 2.1.1.12, Microsoft name: GraphicsVersion Enumeration (U_GV_*) @{ */ #define U_GV_1 0x01 //!< 1 graphics version #define U_GV_1_1 0x02 //!< 1.1 graphics version /** @} */ /** \defgroup U_PMF_HSP_ PMF HatchStyle Enumeration For EMF+ manual 2.1.1.13, Microsoft name: HatchStyle Enumeration (U_HSP_* [U_HS_ already used for EMF]) @{ */ #define U_HSP_Horizontal 0x00000000 //!< Horizontal #define U_HSP_Vertical 0x00000001 //!< Vertical #define U_HSP_ForwardDiagonal 0x00000002 //!< Forward Diagonal #define U_HSP_BackwardDiagonal 0x00000003 //!< Backward Diagonal #define U_HSP_LargeGrid 0x00000004 //!< Large Grid #define U_HSP_DiagonalCross 0x00000005 //!< Diagonal Cross #define U_HSP_05Percent 0x00000006 //!< 05 Percent #define U_HSP_10Percent 0x00000007 //!< 10 Percent #define U_HSP_20Percent 0x00000008 //!< 20 Percent #define U_HSP_25Percent 0x00000009 //!< 25 Percent #define U_HSP_30Percent 0x0000000A //!< 30 Percent #define U_HSP_40Percent 0x0000000B //!< 40 Percent #define U_HSP_50Percent 0x0000000C //!< 50 Percent #define U_HSP_60Percent 0x0000000D //!< 60 Percent #define U_HSP_70Percent 0x0000000E //!< 70 Percent #define U_HSP_75Percent 0x0000000F //!< 75 Percent #define U_HSP_80Percent 0x00000010 //!< 80 Percent #define U_HSP_90Percent 0x00000011 //!< 90 Percent #define U_HSP_LightDownwardDiagonal 0x00000012 //!< Light Downward Diagonal #define U_HSP_LightUpwardDiagonal 0x00000013 //!< Light Upward Diagonal #define U_HSP_DarkDownwardDiagonal 0x00000014 //!< Dark Downward Diagonal #define U_HSP_DarkUpwardDiagonal 0x00000015 //!< Dark Upward Diagonal #define U_HSP_WideDownwardDiagonal 0x00000016 //!< Wide Downward Diagonal #define U_HSP_WideUpwardDiagonal 0x00000017 //!< Wide Upward Diagonal #define U_HSP_LightVertical 0x00000018 //!< Light Vertical #define U_HSP_LightHorizontal 0x00000019 //!< Light Horizontal #define U_HSP_NarrowVertical 0x0000001A //!< Narrow Vertical #define U_HSP_NarrowHorizontal 0x0000001B //!< Narrow Horizontal #define U_HSP_DarkVertical 0x0000001C //!< Dark Vertical #define U_HSP_DarkHorizontal 0x0000001D //!< Dark Horizontal #define U_HSP_DashedDownwardDiagonal 0x0000001E //!< Dashed Downward Diagonal #define U_HSP_DashedUpwardDiagonal 0x0000001F //!< Dashed Upward Diagonal #define U_HSP_DashedHorizontal 0x00000020 //!< Dashed Horizontal #define U_HSP_DashedVertical 0x00000021 //!< Dashed Vertical #define U_HSP_SmallConfetti 0x00000022 //!< Small Confetti #define U_HSP_LargeConfetti 0x00000023 //!< LargeC onfetti #define U_HSP_ZigZag 0x00000024 //!< Zig Zag #define U_HSP_Wave 0x00000025 //!< Wave #define U_HSP_DiagonalBrick 0x00000026 //!< Diagonal Brick #define U_HSP_HorizontalBrick 0x00000027 //!< Horizontal Brick #define U_HSP_Weave 0x00000028 //!< Weave #define U_HSP_Plaid 0x00000029 //!< Plaid #define U_HSP_Divot 0x0000002A //!< Divot #define U_HSP_DottedGrid 0x0000002B //!< DottedGrid #define U_HSP_DottedDiamond 0x0000002C //!< DottedDiamond #define U_HSP_Shingle 0x0000002D //!< Shingle #define U_HSP_Trellis 0x0000002E //!< Trellis #define U_HSP_Sphere 0x0000002F //!< Sphere #define U_HSP_SmallGrid 0x00000030 //!< Small Grid #define U_HSP_SmallCheckerBoard 0x00000031 //!< Small Checker Board #define U_HSP_LargeCheckerBoard 0x00000032 //!< Large Checker Board #define U_HSP_OutlinedDiamond 0x00000033 //!< Outlined Diamond #define U_HSP_SolidDiamond 0x00000034 //!< Solid Diamond /** @} */ /** \defgroup U_PMF_HKP_ PMF HotkeyPrefix Enumeration For EMF+ manual 2.1.1.14, Microsoft name: HotkeyPrefix Enumeration (U_HKP_*) @{ */ #define U_HKP_None 0x00 //!< No hot key prefix #define U_HKP_Show 0x01 //!< Show hot key prefix #define U_HKP_Hide 0x02 //!< Hide hot key prefix /** @} */ /** \defgroup U_PMF_IDT_ PMF ImageDataType Enumeration For EMF+ manual 2.1.1.15, Microsoft name: ImageDataType Enumeration (U_IDT_*) @{ */ #define U_IDT_Unknown 0x00 //!< Unknown image data type #define U_IDT_Bitmap 0x01 //!< Bitmap image data type #define U_IDT_Metafile 0x02 //!< Metafile image data type /** @} */ /** \defgroup U_PMF_IM_ PMF InterpolationMode Enumeration For EMF+ manual 2.1.1.16, Microsoft name: InterpolationMode Enumeration (U_IM_*) @{ */ #define U_IM_Default 0x00 //!< Default interpolation mode #define U_IM_LowQuality 0x01 //!< Low Quality interpolation mode #define U_IM_HighQuality 0x02 //!< High Quality interpolation mode #define U_IM_Bilinear 0x03 //!< Bilinear interpolation mode #define U_IM_Bicubic 0x04 //!< Bicubic interpolation mode #define U_IM_NearestNeighbor 0x05 //!< Nearest Neighbor interpolation mode #define U_IM_HighQualityBilinear 0x06 //!< High Quality Bilinear interpolation mode #define U_IM_HighQualityBicubic 0x07 //!< High Quality Bicubic interpolation mode /** @} */ /** \defgroup U_PMF_LID_ PMF LanguageIdentifier Enumeration For EMF+ manual 2.1.1.17, Microsoft name: LanguageIdentifier Enumeration (U_LID_*) @{ */ #define U_LID_LANG_NEUTRAL 0x0000 //!< LANG_NEUTRAL #define U_LID_zh_CHS 0x0004 //!< zh_CHS #define U_LID_LANG_INVARIANT 0x007F //!< LANG_INVARIANT #define U_LID_LANG_NEUTRAL_USER_DEFAULT 0x0400 //!< LANG_NEUTRAL_USER_DEFAULT #define U_LID_ar_SA 0x0401 //!< ar_SA #define U_LID_bg_BG 0x0402 //!< bg_BG #define U_LID_ca_ES 0x0403 //!< ca_ES #define U_LID_zh_CHT 0x0404 //!< zh_CHT #define U_LID_cs_CZ 0x0405 //!< cs_CZ #define U_LID_da_DK 0x0406 //!< da_DK #define U_LID_de_DE 0x0407 //!< de_DE #define U_LID_el_GR 0x0408 //!< el_GR #define U_LID_en_US 0x0409 //!< en_US #define U_LID_es_Tradnl_ES 0x040A //!< es_Tradnl_ES #define U_LID_fi_FI 0x040B //!< fi_FI #define U_LID_fr_FR 0x040C //!< fr_FR #define U_LID_he_IL 0x040D //!< he_IL #define U_LID_hu_HU 0x040E //!< hu_HU #define U_LID_is_IS 0x040F //!< is_IS #define U_LID_it_IT 0x0410 //!< it_IT #define U_LID_ja_JA 0x0411 //!< ja_JA #define U_LID_ko_KR 0x0412 //!< ko_KR #define U_LID_nl_NL 0x0413 //!< nl_NL #define U_LID_nb_NO 0x0414 //!< nb_NO #define U_LID_pl_PL 0x0415 //!< pl_PL #define U_LID_pt_BR 0x0416 //!< pt_BR #define U_LID_rm_CH 0x0417 //!< rm_CH #define U_LID_ro_RO 0x0418 //!< ro_RO #define U_LID_ru_RU 0x0419 //!< ru_RU #define U_LID_hr_HR 0x041A //!< hr_HR #define U_LID_sk_SK 0x041B //!< sk_SK #define U_LID_sq_AL 0x041C //!< sq_AL #define U_LID_sv_SE 0x041D //!< sv_SE #define U_LID_th_TH 0x041E //!< th_TH #define U_LID_tr_TR 0x041F //!< tr_TR #define U_LID_ur_PK 0x0420 //!< ur_PK #define U_LID_id_ID 0x0421 //!< id_ID #define U_LID_uk_UA 0x0422 //!< uk_UA #define U_LID_be_BY 0x0423 //!< be_BY #define U_LID_sl_SI 0x0424 //!< sl_SI #define U_LID_et_EE 0x0425 //!< et_EE #define U_LID_lv_LV 0x0426 //!< lv_LV #define U_LID_lt_LT 0x0427 //!< lt_LT #define U_LID_tg_TJ 0x0428 //!< tg_TJ #define U_LID_fa_IR 0x0429 //!< fa_IR #define U_LID_vi_VN 0x042A //!< vi_VN #define U_LID_hy_AM 0x042B //!< hy_AM #define U_LID_az_Latn_AZ 0x042C //!< az_Latn_AZ #define U_LID_eu_ES 0x042D //!< eu_ES #define U_LID_wen_DE 0x042E //!< wen_DE #define U_LID_mk_MK 0x042F //!< mk_MK #define U_LID_st_ZA 0x0430 //!< st_ZA #define U_LID_tn_ZA 0x0432 //!< tn_ZA #define U_LID_xh_ZA 0x0434 //!< xh_ZA #define U_LID_zu_ZA 0x0435 //!< zu_ZA #define U_LID_af_ZA 0x0436 //!< af_ZA #define U_LID_ka_GE 0x0437 //!< ka_GE #define U_LID_fa_FA 0x0438 //!< fa_FA #define U_LID_hi_IN 0x0439 //!< hi_IN #define U_LID_mt_MT 0x043A //!< mt_MT #define U_LID_se_NO 0x043B //!< se_NO #define U_LID_ga_GB 0x043C //!< ga_GB #define U_LID_ms_MY 0x043E //!< ms_MY #define U_LID_kk_KZ 0x043F //!< kk_KZ #define U_LID_ky_KG 0x0440 //!< ky_KG #define U_LID_sw_KE 0x0441 //!< sw_KE #define U_LID_tk_TM 0x0442 //!< tk_TM #define U_LID_uz_Latn_UZ 0x0443 //!< uz_Latn_UZ #define U_LID_tt_Ru 0x0444 //!< tt_Ru #define U_LID_bn_IN 0x0445 //!< bn_IN #define U_LID_pa_IN 0x0446 //!< pa_IN #define U_LID_gu_IN 0x0447 //!< gu_IN #define U_LID_or_IN 0x0448 //!< or_IN #define U_LID_ta_IN 0x0449 //!< ta_IN #define U_LID_te_IN 0x044A //!< te_IN #define U_LID_kn_IN 0x044B //!< kn_IN #define U_LID_ml_IN 0x044C //!< ml_IN #define U_LID_as_IN 0x044D //!< as_IN #define U_LID_mr_IN 0x044E //!< mr_IN #define U_LID_sa_IN 0x044F //!< sa_IN #define U_LID_mn_MN 0x0450 //!< mn_MN #define U_LID_bo_CN 0x0451 //!< bo_CN #define U_LID_cy_GB 0x0452 //!< cy_GB #define U_LID_km_KH 0x0453 //!< km_KH #define U_LID_lo_LA 0x0454 //!< lo_LA #define U_LID_gl_ES 0x0456 //!< gl_ES #define U_LID_kok_IN 0x0457 //!< kok_IN #define U_LID_sd_IN 0x0459 //!< sd_IN #define U_LID_syr_SY 0x045A //!< syr_SY #define U_LID_si_LK 0x045B //!< si_LK #define U_LID_iu_Cans_CA 0x045D //!< iu_Cans_CA #define U_LID_am_ET 0x045E //!< am_ET #define U_LID_ne_NP 0x0461 //!< ne_NP #define U_LID_fy_NL 0x0462 //!< fy_NL #define U_LID_ps_AF 0x0463 //!< ps_AF #define U_LID_fil_PH 0x0464 //!< fil_PH #define U_LID_div_MV 0x0465 //!< div_MV #define U_LID_ha_Latn_NG 0x0468 //!< ha_Latn_NG #define U_LID_yo_NG 0x046A //!< yo_NG #define U_LID_quz_BO 0x046B //!< quz_BO #define U_LID_nzo_ZA 0x046C //!< nzo_ZA #define U_LID_ba_RU 0x046D //!< ba_RU #define U_LID_lb_LU 0x046E //!< lb_LU #define U_LID_kl_GL 0x046F //!< kl_GL #define U_LID_ig_NG 0x0470 //!< ig_NG #define U_LID_so_SO 0x0477 //!< so_SO #define U_LID_ii_CN 0x0478 //!< ii_CN #define U_LID_arn_CL 0x047A //!< arn_CL #define U_LID_moh_CA 0x047C //!< moh_CA #define U_LID_br_FR 0x047E //!< br_FR #define U_LID_ug_CN 0x0480 //!< ug_CN #define U_LID_ mi_NZ 0x0481 //!< mi_NZ #define U_LID_oc_FR 0x0482 //!< oc_FR #define U_LID_co_FR 0x0483 //!< co_FR #define U_LID_gsw_FR 0x0484 //!< gsw_FR #define U_LID_sah_RU 0x0485 //!< sah_RU #define U_LID_qut_GT 0x0486 //!< qut_GT #define U_LID_rw_RW 0x0487 //!< rw_RW #define U_LID_wo_SN 0x0488 //!< wo_SN #define U_LID_gbz_AF 0x048C //!< gbz_AF #define U_LID_LANG_NEUTRAL_SYS_DEFAULT 0x0800 //!< LANG_NEUTRAL_SYS_DEFAULT #define U_LID_ar_IQ 0x0801 //!< ar_IQ #define U_LID_zh_CN 0x0804 //!< zh_CN #define U_LID_de_CH 0x0807 //!< de_CH #define U_LID_en_GB 0x0809 //!< en_GB #define U_LID_es_MX 0x080A //!< es_MX #define U_LID_fr_BE 0x080C //!< fr_BE #define U_LID_it_CH 0x0810 //!< it_CH #define U_LID_ko_Johab_KR 0x0812 //!< ko_Johab_KR #define U_LID_nl_BE 0x0813 //!< nl_BE #define U_LID_nn_NO 0x0814 //!< nn_NO #define U_LID_pt_PT 0x0816 //!< pt_PT #define U_LID_sr_Latn_SP 0x081A //!< sr_Latn_SP #define U_LID_sv_FI 0x081D //!< sv_FI #define U_LID_ur_IN 0x0820 //!< ur_IN #define U_LID_lt_C_LT 0x0827 //!< lt_C_LT #define U_LID_az_Cyrl_AZ 0x082C //!< az_Cyrl_AZ #define U_LID_wee_DE 0x082E //!< wee_DE #define U_LID_se_SE 0x083B //!< se_SE #define U_LID_ga_IE 0x083C //!< ga_IE #define U_LID_ms_BN 0x083E //!< ms_BN #define U_LID_uz_Cyrl_UZ 0x0843 //!< uz_Cyrl_UZ #define U_LID_bn_BD 0x0845 //!< bn_BD #define U_LID_mn_Mong_CN 0x0850 //!< mn_Mong_CN #define U_LID_sd_PK 0x0859 //!< sd_PK #define U_LID_iu_Latn_CA 0x085D //!< iu_Latn_CA #define U_LID_tzm_Latn_DZ 0x085F //!< tzm_Latn_DZ #define U_LID_quz_EC 0x086B //!< quz_EC #define U_LID_LANG_NEUTRAL_CUSTOM_DEFAULT 0x0C00 //!< LANG_NEUTRAL_CUSTOM_DEFAULT #define U_LID_ar_EG 0x0C01 //!< ar_EG #define U_LID_zh_HK 0x0C04 //!< zh_HK #define U_LID_de_AT 0x0C07 //!< de_AT #define U_LID_en_AU 0x0C09 //!< en_AU #define U_LID_es_ES 0x0C0A //!< es_ES #define U_LID_fr_CA 0x0C0C //!< fr_CA #define U_LID_sr_Cyrl_CS 0x0C1A //!< sr_Cyrl_CS #define U_LID_se_FI 0x0C3B //!< se_FI #define U_LID_quz_PE 0x0C6B //!< quz_PE #define U_LID_LANG_NEUTRAL_CUSTOM 0x1000 //!< LANG_NEUTRAL_CUSTOM #define U_LID_ar_LY 0x1001 //!< ar_LY #define U_LID_zh_SG 0x1004 //!< zh_SG #define U_LID_de_LU 0x1007 //!< de_LU #define U_LID_en_CA 0x1009 //!< en_CA #define U_LID_es_GT 0x100A //!< es_GT #define U_LID_fr_CH 0x100C //!< fr_CH #define U_LID_hr_BA 0x101A //!< hr_BA #define U_LID_smj_NO 0x103B //!< smj_NO #define U_LID_LANG_NEUTRAL_CUSTOM_DEFAULT_MUI 0x1400 //!< LANG_NEUTRAL_CUSTOM_DEFAULT_MUI #define U_LID_ar_DZ 0x1401 //!< ar_DZ #define U_LID_zh_MO 0x1404 //!< zh_MO #define U_LID_de_LI 0x1407 //!< de_LI #define U_LID_en_NZ 0x1409 //!< en_NZ #define U_LID_es_CR 0x140A //!< es_CR #define U_LID_fr_LU 0x140C //!< fr_LU #define U_LID_bs_Latn_BA 0x141A //!< bs_Latn_BA #define U_LID_smj_SE 0x143B //!< smj_SE #define U_LID_ar_MA 0x1801 //!< ar_MA #define U_LID_en_IE 0x1809 //!< en_IE #define U_LID_es_PA 0x180A //!< es_PA #define U_LID_ar_MC 0x180C //!< ar_MC #define U_LID_sr_Latn_BA 0x181A //!< sr_Latn_BA #define U_LID_sma_NO 0x183B //!< sma_NO #define U_LID_ar_TN 0x1C01 //!< ar_TN #define U_LID_en_ZA 0x1C09 //!< en_ZA #define U_LID_es_DO 0x1C0A //!< es_DO #define U_LID_sr_Cyrl_BA 0x1C1A //!< sr_Cyrl_BA #define U_LID_sma_SE 0x1C3B //!< sma_SE #define U_LID_ar_OM 0x2001 //!< ar_OM #define U_LID_el_2_GR 0x2008 //!< el_2_GR #define U_LID_en_JM 0x2009 //!< en_JM #define U_LID_es_VE 0x200A //!< es_VE #define U_LID_bs_Cyrl_BA 0x201A //!< bs_Cyrl_BA #define U_LID_sms_FI 0x203B //!< sms_FI #define U_LID_ar_YE 0x2401 //!< ar_YE #define U_LID_ar_029 0x2409 //!< ar_029 #define U_LID_es_CO 0x240A //!< es_CO #define U_LID_smn_FI 0x243B //!< smn_FI #define U_LID_ar_SY 0x2801 //!< ar_SY #define U_LID_en_BZ 0x2809 //!< en_BZ #define U_LID_es_PE 0x280A //!< es_PE #define U_LID_ar_JO 0x2C01 //!< ar_JO #define U_LID_en_TT 0x2C09 //!< en_TT #define U_LID_es_AR 0x2C0A //!< es_AR #define U_LID_ar_LB 0x3001 //!< ar_LB #define U_LID_en_ZW 0x3009 //!< en_ZW #define U_LID_es_EC 0x300A //!< es_EC #define U_LID_ar_KW 0x3401 //!< ar_KW #define U_LID_en_PH 0x3409 //!< en_PH #define U_LID_es_CL 0x340A //!< es_CL #define U_LID_ar_AE 0x3801 //!< ar_AE #define U_LID_es_UY 0x380A //!< es_UY #define U_LID_ar_BH 0x3C01 //!< ar_BH #define U_LID_es_PY 0x3C0A //!< es_PY #define U_LID_ar_QA 0x4001 //!< ar_QA #define U_LID_en_IN 0x4009 //!< en_IN #define U_LID_es_BO 0x400A //!< es_BO #define U_LID_en_MY 0x4409 //!< en_MY #define U_LID_es_SV 0x440A //!< es_SV #define U_LID_en_SG 0x4809 //!< en_SG #define U_LID_es_HN 0x480A //!< es_HN #define U_LID_es_NI 0x4C0A //!< es_NI #define U_LID_es_PR 0x500A //!< es_PR #define U_LID_es_US 0x540A //!< es_US #define U_LID_zh_Hant 0x7C04 //!< zh_Hant #define U_LID_SEC_MASK 0xFB00 //!< Mask for region part of LID #define U_LID_PRI_MASK 0x03FF //!< MASK for languagepart of LID /** @} */ /** \defgroup U_PMF_LCT_ PMF LineCapType Enumeration For EMF+ manual 2.1.1.18, Microsoft name: LineCapType Enumeration (U_LCT_*) @{ */ #define U_LCT_Flat 0x00 //!< Flat line cap #define U_LCT_Square 0x01 //!< Square line cap #define U_LCT_Round 0x02 //!< Round line cap #define U_LCT_Triangle 0x03 //!< Triangle line cap #define U_LCT_NoAnchor 0x10 //!< No Anchor line cap #define U_LCT_SquareAnchor 0x11 //!< Square Anchor line cap #define U_LCT_RoundAnchor 0x12 //!< Round Anchor line cap #define U_LCT_DiamondAnchor 0x13 //!< Diamond Anchor line cap #define U_LCT_ArrowAnchor 0x14 //!< Arrow Anchor line cap #define U_LCT_AnchorMask 0xF0 //!< Ancho rMask line cap #define U_LCT_Custom 0xFF //!< Custom line cap /** @} */ /** \defgroup U_PMF_LJT_ PMF LineJoinType Enumeration For EMF+ manual 2.1.1.19, Microsoft name: LineJoinType Enumeration (U_LJT_*) @{ */ #define U_LJT_Miter 0x00 //!< Miter line join #define U_LJT_Bevel 0x01 //!< Bevel line join #define U_LJT_Round 0x02 //!< Round line join #define U_LJT_MiterClipped 0x03 //!< Miter Clipped line join /** @} */ /** \defgroup U_PMF_LS_ PMF LineStyle Enumeration For EMF+ manual 2.1.1.20, Microsoft name: LineStyle Enumeration (U_LS_*) @{ */ #define U_LS_Solid 0x00 //!< Solid line #define U_LS_Dash 0x01 //!< Dashed line #define U_LS_Dot 0x02 //!< Dotted line #define U_LS_DashDot 0x03 //!< Dash Dot line #define U_LS_DashDotDot 0x04 //!< Dash Dot Dot line #define U_LS_Custom 0x05 //!< Custom line /** @} */ /** \defgroup U_PMF_MDT_ PMF MetafileDataType Enumeration For EMF+ manual 2.1.1.21, Microsoft name: MetafileDataType Enumeration (U_MDT_*) @{ */ #define U_MDT_Wmf 0x01 //!< WMF metafile #define U_MDT_WmfPlaceable 0x02 //!< WMF placeable metafile #define U_MDT_Emf 0x03 //!< EMF metafile #define U_MDT_EmfPlusOnly 0x04 //!< EMF+ single mode metafile #define U_MDT_EmfPlusDual 0x05 //!< EMF+ dual mode metafile /** @} */ /** \defgroup U_PMF_OT_ PMF ObjectType Enumeration For EMF+ manual 2.1.1.22, Microsoft name: ObjectType Enumeration (U_OT_*) @{ */ #define U_OT_Invalid 0x00 //!< Invalid object #define U_OT_Brush 0x01 //!< Brush object #define U_OT_Pen 0x02 //!< Pen object #define U_OT_Path 0x03 //!< Path object #define U_OT_Region 0x04 //!< Region object #define U_OT_Image 0x05 //!< Image object #define U_OT_Font 0x06 //!< Font object #define U_OT_StringFormat 0x07 //!< StringFormat object #define U_OT_ImageAttributes 0x08 //!< ImageAttributes object #define U_OT_CustomLineCap 0x09 //!< CustomLineCap object /** @} */ /** \defgroup U_PMF_PPT_ PMF PathPointType Enumeration For EMF+ manual 2.1.1.23, Microsoft name: PathPointType Enumeration (U_PPT_*) @{ */ #define U_PPT_Start 0x00 //!< Start of path #define U_PPT_Line 0x01 //!< Line path #define U_PPT_Bezier 0x03 //!< Bezier path #define U_PPT_MASK 0x0F //!< MASK for bits in flag /** @} */ /** \defgroup U_PMF_PA_ PMF PenAlignment Enumeration For EMF+ manual 2.1.1.24, Microsoft name: PenAlignment Enumeration (U_PA_*) @{ */ #define U_PA_Center 0x00 //!< Center pen alignment #define U_PA_Inset 0x01 //!< Inset pen alignment #define U_PA_Left 0x02 //!< Left pen alignment #define U_PA_Outset 0x03 //!< Outset pen alignment #define U_PA_Right 0x04 //!< Right pen alignment /** @} */ /** \defgroup U_PMF_PF_ PMF PixelFormat Enumeration For U_PMF_BITMAP PxFormat field EMF+ manual 2.1.1.25, Microsoft name: PixelFormat Enumeration (U_PF_*) Bitmap for this 32 bit value is: 0-9 ignored 10 Set: 32 bit ARGB; Clear: !32 bit ARGB 11 Set: 16 bits/channel; Clear: !16 bits 12 Set: colors premultiplied by alpha; Clear: !premultiplied 13 Set: has Alpha; Clear: !has Alpha 14 Set: Windows GDI supports; Clear: !Windows GDI supports 15 Set: uses LUT; Clear !uses LUT 16-23 = total number of BITS per pixel 24-31 = pixel format enumeration index (0->15) @{ */ #define U_PF_Undefined 0x00000000 //!< undefined Pixel Format #define U_PF_1bppIndexed 0x00030101 //!< monochrome with LUT #define U_PF_4bppIndexed 0x00030402 //!< 4 bit with LUT #define U_PF_8bppIndexed 0x00030803 //!< 8 bit with LUT #define U_PF_16bppGrayScale 0x00101004 //!< 16 bits grey values #define U_PF_16bppRGB555 0x00021005 //!< 16 bit RGB values (5,5,5,(1 ignored)) #define U_PF_16bppRGB565 0x00021006 //!< 16 bit RGB values (5,6,5) #define U_PF_16bppARGB1555 0x00061007 //!< 16 bit ARGB values (1 alpha, 5,5,5 colors) #define U_PF_24bppRGB 0x00021808 //!< 24 bit RGB values (8,8.8) #define U_PF_32bppRGB 0x00022009 //!< 32 bit RGB value (8,8,8,(8 ignored)) #define U_PF_32bppARGB 0x0026200A //!< 32 bit ARGB values (8 alpha,8,8,8) #define U_PF_32bppPARGB 0x000E200B //!< 32 bit PARGB values (8,8,8,8, but RGB already multiplied by A) #define U_PF_48bppRGB 0x0010300C //!< 48 bit RGB (16,16,16) #define U_PF_64bppARGB 0x0034400D //!< 64 bit ARGB (16 alpha, 16,16,16) #define U_PF_64bppPARGB 0x001A400E //!< 64 bit PARGB (16,16,16,16, but RGB already multiplied by A) /** @} */ /** \defgroup U_PMF_POM_ PMF PixelOffsetMode Enumeration For EMF+ manual 2.1.1.26, Microsoft name: PixelOffsetMode Enumeration (U_POM_*) @{ */ #define U_POM_Default 0x00 //!< center at {0.0,0.0} #define U_POM_HighSpeed 0x01 //!< center at {0.0,0.0} #define U_POM_HighQuality 0x02 //!< center at {0.5,0.5} #define U_POM_None 0x03 //!< center at {0.0,0.0} #define U_POM_Half 0x04 //!< center at {0.5,0.5} /** @} */ /** \defgroup U_PMF_RNDT_ PMF RegionNodeDataType Enumeration For EMF+ manual 2.1.1.27, Microsoft name: RegionNodeDataType Enumeration (U_RNDT_*) @{ */ #define U_RNDT_Kids 0x00000000 //!< One of the next 5 is to be applied #define U_RNDT_And 0x00000001 //!< AND the child nodes #define U_RNDT_Or 0x00000002 //!< OR the child nodes #define U_RNDT_Xor 0x00000003 //!< XOR the child nodes #define U_RNDT_Exclude 0x00000004 //!< Part of 1st child node not in 2nd child node #define U_RNDT_Complement 0x00000005 //!< Part of 2nd child node not in 1st child node #define U_RNDT_Rect 0x10000000 //!< Child node is a rectangle #define U_RNDT_Path 0x10000001 //!< Child node is a path #define U_RNDT_Empty 0x10000002 //!< Child node is empty #define U_RNDT_Infinite 0x10000003 //!< Child node has infinite extent (?) /** @} */ /** \defgroup U_PMF_SM_ PMF SmoothingMode Enumeration For EMF+ manual 2.1.1.28, Microsoft name: SmoothingMode Enumeration (U_SM_*) @{ */ #define U_SM_Default 0x00 //!< Default smoothing #define U_SM_HighSpeed 0x01 //!< High Speed smoothing #define U_SM_HighQuality 0x02 //!< High Quality smoothing #define U_SM_None 0x03 //!< No smoothing #define U_SM_AntiAlias8x4 0x04 //!< Anti Alias 8x4 smoothing #define U_SM_AntiAlias8x8 0x05 //!< Anti Alias 8x8 smoothing /** @} */ /** \defgroup U_PMF_SA_ PMF StringAlignment Enumeration For EMF+ manual 2.1.1.29, Microsoft name: StringAlignment Enumeration (U_SA_*) Note, that unlike EMF these are with respect to the bounding rectangle, not to a single point. So to draw centered text, for instance, U_SA_Center must be used, and the bounding rectangle must also be centered. For horizontal positioning of L->R text Near is all the way left in the box, Far is all the way right, and Center puts the center of the text in the center of the box. For vertical positioning things are a little strange. Near is a certain distance down from the top, Far is a certain distance up from the bottom, and center puts the center of the text in the center of the box. The "certain distance" is not specified in the EMF+ documentation. See the function U_PMR_drawstring() for an implementation that places text on the baseline. @{ */ #define U_SA_Near 0x00 //!< Position near #define U_SA_Center 0x01 //!< Position center #define U_SA_Far 0x02 //!< Position far /** @} */ /** \defgroup U_PMF_SDS_ PMF StringDigitSubstitution Enumeration For EMF+ manual 2.1.1.30, Microsoft name: StringDigitSubstitution Enumeration (U_SDS_*) @{ */ #define U_SDS_User 0x00 //!< Digit substitution is set by implementation #define U_SDS_None 0x01 //!< No Digit substitution #define U_SDS_National 0x02 //!< Digit substitution by official locale #define U_SDS_Traditional 0x03 //!< Digit substitution by traditional locale /** @} */ /** \defgroup U_PMF_ST_ PMF StringTrimming Enumeration For EMF+ manual 2.1.1.31, Microsoft name: StringTrimming Enumeration (U_ST_*) @{ */ #define U_ST_None 0x00 //!< no string trimming #define U_ST_Character 0x01 //!< Trim at Character #define U_ST_Word 0x02 //!< Trim at Word #define U_ST_EllipsisCharacter 0x03 //!< Trim at Ellipsis Character #define U_ST_EllipsisWord 0x04 //!< Trim at Ellipsis Word #define U_ST_EllipsisPath 0x05 //!< Trim at Ellipsis Path /** @} */ /** \defgroup U_PMF_TRH_ PMF TextRenderingHint Enumeration For EMF+ manual 2.1.1.32, Microsoft name: TextRenderingHint Enumeration (U_TRH_*) @{ */ #define U_TRH_SystemDefault 0x00 //!< System Default #define U_TRH_SingleBitPerPixelGridFit 0x01 //!< Single Bit Per Pixel Grid Fit #define U_TRH_SingleBitPerPixel 0x02 //!< Single Bit Per Pixel #define U_TRH_AntialiasGridFit 0x03 //!< Antialias Grid Fit #define U_TRH_Antialias 0x04 //!< Antialias #define U_TRH_ClearTypeGridFit 0x05 //!< ClearType Grid Fit /** @} */ /** \defgroup U_PMF_UT_ PMF UnitType Enumeration For EMF+ manual 2.1.1.33, Microsoft name: UnitType Enumeration (U_UT_*) @{ */ #define U_UT_World 0x00 //!< World units #define U_UT_Display 0x01 //!< Display units #define U_UT_Pixel 0x02 //!< Pixel units #define U_UT_Point 0x03 //!< Point units #define U_UT_Inch 0x04 //!< Inch units #define U_UT_Document 0x05 //!< Document units #define U_UT_Millimeter 0x06 //!< Millimeter units /** @} */ /** \defgroup U_PMF_WM_ PMF WrapMode Enumeration For EMF+ manual 2.1.1.34, Microsoft name: WrapMode Enumeration (U_WM_*) @{ */ #define U_WM_Tile 0x00000000 //!< Tile #define U_WM_TileFlipX 0x00000001 //!< Reverse horizontally then tile #define U_WM_TileFlipY 0x00000002 //!< Reverse vertically then tile #define U_WM_TileFlipXY 0x00000003 //!< Reverse horizontally and vertically then tile #define U_WM_Clamp 0x00000004 //!< Clamp pattern to the object boundary /** @} */ /** \defgroup U_PMF_BD_ PMF BrushData Flags For EMF+ manual 2.1.2.1, Microsoft name: BrushData Flags (U_BD_*) Bit flags allowed in brush object types. Each bit indicates a type of object which is included. There are 5 brush types abbreviated A through E, and each uses a subset of the BrushData Flags, as summarized in the following table: Bits Brush____Type EMF+ Manual used Abbrev. Name 5 A U_PMF_LINEARGRADIENTBRUSHDATA 2.2.2.24 6 B U_PMF_PATHGRADIENTBRUSHDATA 2.2.2.29 3 C U_PMF_TEXTUREBRUSHDATA 2.2.2.45 0 D U_PMF_HATCHBRUSHDATA 2.2.2.20 0 E U_PMF_SOLIDBRUSHDATA 2.2.2.45 @{ */ #define U_BD_None 0x0000 //!< no bits set #define U_BD_Path 0x0001 //!< Path, in {B} #define U_BD_Transform 0x0002 //!< Transform in {ABC} #define U_BD_PresetColors 0x0004 //!< PresetColors in {AB} #define U_BD_BlendFactorsH 0x0008 //!< BlendFactorsH in {AB} #define U_BD_BlendFactorsV 0x0010 //!< BlendFactorsV in {A} - Note, not actually implemented in GDI+. #define U_BD_NoBit 0x0020 //!< unused bit #define U_BD_FocusScales 0x0040 //!< Focus Scales in {B} #define U_BD_IsGammaCorrected 0x0080 //!< GammaCorrected in {ABC} #define U_BD_DoNotTransform 0x0100 //!< Ignore world to device transform in {C} #define U_BD_MASKA 0x009E //!< all bits that MAY be set in A #define U_BD_MASKB 0x00CF //!< all bits that MAY be set in B #define U_BD_MASKC 0x0182 //!< all bits that MAY be set in C /** @} */ /** \defgroup U_PMF_CLCD_ PMF CustomLineCapData Flags For EMF+ manual 2.1.2.2, Microsoft name: CustomLineCapData Flags (U_CLCD_*) @{ */ #define U_CLCD_None 0x00 //!< no bits set #define U_CLCD_FillPath 0x01 //!< Fill Path #define U_CLCD_LinePath 0x02 //!< Line Path /** @} */ /** \defgroup U_PMF_DSO_ PMF DriverStringOptions Flags For EMF+ manual 2.1.2.3, Microsoft name: DriverStringOptions Flags (U_DSO_*) @{ */ #define U_DSO_None 0x00 //!< no bits set #define U_DSO_CmapLookup 0x01 //!< Set: value is a Unicode character; Clear: value is an index into Glyph table in a font #define U_DSO_Vertical 0x02 //!< Set: draw string verically; Clear: draw horizontally #define U_DSO_RealizedAdvance 0x04 /**< Set: U_PMF_DRAWDRIVERSTRING Positions field specifies only position of first of Glyphs field, with the rest calculated from font information; Clear: Positions specifies coordinates for each Glyphs member.*/ #define U_DSO_LimitSubpixel 0x08 //!< Set: use less memory to cache anti-aliased glyphs; Clear: use more /** @} */ /** \defgroup U_PMF_FS_ PMF FontStyle Flags For EMF+ manual 2.1.2.4, Microsoft name: FontStyle Flags (U_FS_*) # @{ */ #define U_FS_None 0x00 //!< no bits set #define U_FS_Bold 0x01 //!< Bold #define U_FS_Italic 0x02 //!< Italic #define U_FS_Underline 0x04 //!< Underline #define U_FS_Strikeout 0x08 //!< Strikeout /** @} */ /** \defgroup U_PMF_PLTS_ PMF PaletteStyle Flags For EMF+ manual 2.1.2.5, Microsoft name: PaletteStyle Flags (U_PLTS_*) @{ */ #define U_PLTS_None 0x00 //!< no bits set #define U_PLTS_HasAlpha 0x01 //!< Has Alpha #define U_PLTS_GrayScale 0x02 //!< Gray Scale #define U_PLTS_Halftone 0x04 //!< Halftone /** @} */ /** \defgroup U_PMF_PTP_ PMF PathPointType Flags For EMF+ manual 2.1.2.6, Microsoft name: PathPointType Flags (U_PTP_*) @{ */ #define U_PTP_None 0x00 //!< no bits set #define U_PTP_DashMode 0x10 //!< Dash Mode #define U_PTP_PathMarker 0x20 //!< Path Marker #define U_PTP_NoBit 0x40 //!< unused bit #define U_PTP_CloseSubpath 0x80 //!< CloseSubpath #define U_PTP_NotClose 0x70 //!< Everything but close #define U_PTP_MASK 0xF0 //!< Everything #define U_PTP_SHIFT 4 //!< offset to this bitfield /** @} */ /** \defgroup U_PMF_PD_ PMF PenData Flags For EMF+ manual 2.1.2.7, Microsoft name: PenData Flags (U_PD_*) If bit is set the corresponding object must be specfied in the OptionalData field @{ */ #define U_PD_None 0x0000 //!< no bits set #define U_PD_Transform 0x0001 //!< Transform #define U_PD_StartCap 0x0002 //!< Start Cap #define U_PD_EndCap 0x0004 //!< End Cap #define U_PD_Join 0x0008 //!< Join #define U_PD_MiterLimit 0x0010 //!< Miter Limit #define U_PD_LineStyle 0x0020 //!< Line Style #define U_PD_DLCap 0x0040 //!< Dashed Line Cap #define U_PD_DLOffset 0x0080 //!< Dashed Line Offset #define U_PD_DLData 0x0100 //!< Dashed Line Data #define U_PD_NonCenter 0x0200 //!< Alignment must be specified with optinal data #define U_PD_CLData 0x0400 //!< Compound Line Data #define U_PD_CustomStartCap 0x0800 //!< Custom Start Cap #define U_PD_CustomEndCap 0x1000 //!< Custom End Cap /** @} */ /** \defgroup U_PMF_SF_ PMF StringFormat Flags For EmfPlusStringFormat EMF+ manual 2.1.2.8, Microsoft name: StringFormat Flags (U_SF_*) @{ */ #define U_SF_None 0x00000000 //!< no bits set #define U_SF_DirectionRightToLeft 0x00000001 //!< text Right to Left #define U_SF_DirectionVertical 0x00000002 //!< text Left to Right #define U_SF_NoFitBlackBox 0x00000004 //!< text not restricted to layout bbox #define U_SF_NoBit4 0x00000008 //!< unused bit #define U_SF_NoBit5 0x00000010 //!< unused bit #define U_SF_DisplayFormatControl 0x00000020 //!< control codes display as "representative" glyphs #define U_SF_NoBit7 0x00000040 //!< unused bit #define U_SF_NoBit8 0x00000080 //!< unused bit #define U_SF_NoBit9 0x00000100 //!< unused bit #define U_SF_NoBit10 0x00000200 //!< unused bit #define U_SF_NoFontFallback 0x00000400 //!< show as missing glyph if not in font #define U_SF_MeasureTrailingSpaces 0x00000800 //!< trailing spaces included in line length #define U_SF_NoWrap 0x00001000 //!< text does not wrap #define U_SF_LineLimit 0x00002000 //!< emit whole lines if not clipped #define U_SF_NoClip 0x00004000 //!< text is not clipped #define U_SF_BypassGDI 0x80000000 //!< use implementation specific text rendering instead of GDI /** @} */ /** \defgroup U_PMF_IE_ PMF ImageEffects Identifiers For EMF+ manual 2.1.3.1, Microsoft name: ImageEffects Identifiers (U_IE_*) @{ */ #define U_IE_BlurEffectGuid "{633C80A4-1843-482B-9EF2-BE2834C5FDD4}" //!< Blur Effect #define U_IE_BrightnessContrastEffectGuid "{D3A1DBE1-8EC4-4C17-9F4C-EA97AD1C343D}" //!< Brightness Contrast Effect #define U_IE_ColorBalanceEffectGuid "{537E597D-251E-48DA-9664-29CA496B70F8}" //!< Color Balance Effect #define U_IE_ColorCurveEffectGuid "{DD6A0022-58E4-4A67-9D9B-D48EB881A53D}" //!< Color Curve Effect #define U_IE_ColorLookupTableEffectGuid "{A7CE72A9-0F7F-40D7-B3CC-D0C02D5C3212}" //!< Color Lookup Table Effect #define U_IE_ColorMatrixEffectGuid "{718F2615-7933-40E3-A511-5F68FE14DD74}" //!< Color Matrix Effect #define U_IE_HueSaturationLightnessEffectGuid "{8B2DD6C3-EB07-4D87-A5F0-7108E26A9C5F}" //!< Hue Saturation Lightness Effect #define U_IE_LevelsEffectGuid "{99C354EC-2A31-4F3A-8C34-17A803B33A25}" //!< Levels Effect #define U_IE_RedEyeCorrectionEffectGuid "{74D29D05-69A4-4266-9549-3CC52836B632}" //!< Red Eye Correction Effect #define U_IE_SharpenEffectGuid "{63CBF3EE-C526-402C-8F71-62C540BF5142}" //!< Sharpen Effect #define U_IE_TintEffectGuid "{1077AF00-2848-4441-9489-44AD4C2D7A2C}" //!< Tint Effect /** @} */ /** \defgroup U_PMF_IEE_ PMF ImageEffects Enumerators based on U_IE_ These may be used by a parser to set up for a switch() statement. @{ */ #define U_IEE_Unknown 0 //!< none of the following #define U_IEE_BlurEffectGuid 1 //!< Blur Effect #define U_IEE_BrightnessContrastEffectGuid 2 //!< Brightness Contrast Effect #define U_IEE_ColorBalanceEffectGuid 3 //!< Color Balance Effect #define U_IEE_ColorCurveEffectGuid 4 //!< Color Curve Effect #define U_IEE_ColorLookupTableEffectGuid 5 //!< Color Lookup Table Effect #define U_IEE_ColorMatrixEffectGuid 6 //!< Color Matrix Effect #define U_IEE_HueSaturationLightnessEffectGuid 7 //!< Hue Saturation Lightness Effect #define U_IEE_LevelsEffectGuid 8 //!< Levels Effect #define U_IEE_RedEyeCorrectionEffectGuid 9 //!< Red Eye Correction Effect #define U_IEE_SharpenEffectGuid 10 //!< Sharpen Effect #define U_IEE_TintEffectGuid 11 //!< Tint Effect /** @} */ /** \defgroup U_PMF_OC_ PMF ObjectClamp Identifiers For U_PMF_IMAGEATTRIBUTES ObjectClamp field EMF+ manual 2.2.1.5, Microsoft name: ImageEffects Identifiers (U_OC_*) @{ */ #define U_OC_Rect 0x00 //!< Clamp object to rectangle. #define U_OC_Bitmap 0x01 //!< Clamp object to bitmap. /** @} */ /** \defgroup U_PMF_PPF_ PMF PathPoint Flags For U_PMF_PATH Flags field For U_PMF_CMN_HDR Flags field EMF+ manual 2.2.1.6, Microsoft name: PathPoint Flags (U_PPF_*) For U_PMF_CMN_HDR Flags the bits are scattered all over the EMF+ manual. NOTE: bitfields in manual are BIG endian and MSB 0. This code reads the 16 bit flag field as LITTLE endian and uses LSB 0. The values shown are AFTER the data has been read into a uint16_t and the byte order set appropriately. All of these come out of a 16 bit field. @{ */ #define U_PPF_B 0x8000 //!< 15 Set: BrushID is an U_PFM_ARGB; Clear: is index of U_PMF_BRUSH object in EMF+ object table. #define U_PPF_BZ 0x8000 //!< 15 Set: Points are on a Bezier curve; Clear: Points are on a line #define U_PPF_N 0x8000 //!< 15 Set: object definition continues in next record; Clear: this is the final object definition record #define U_PPF_K 0x8000 //!< 15 Set: int16_t coordinates; Clear: use U_FLOAT coordinates #define U_PPF_C 0x4000 //!< 14 Set: int16_t coordinates; Clear: use U_FLOAT coordinates #define U_PPF_XM 0x2000 //!< 13 Set: Post multiply matrix; Clear: Pre multiply matrix #define U_PPF_F 0x2000 //!< 13 Set: winding fill; Clear: alternate fill #define U_PPF_E 0x2000 //!< 13 Set: effect from previous U_PMF_SERIALIZABLEOBJECT record will be applied,; Clear: no effect applied #define U_PPF_R 0x1000 //!< 12 Set: U_PMF_PathPointTypeRLE and/or U_PMF_PathPointType objects; Clear: only U_PMF_PathPointType #define U_PPF_P 0x0800 //!< 11 Set: relative coordinates; Clear absolute coordinates #define U_PPF_D 0x0400 //!< 10 Set: draw path closed; Clear: draw path open #define U_PPF_VGA 0x0002 //!< 1 Set: Palette is VGA basic colors; Clear: Palette is ??? #define U_PPF_PP 0x0001 //!< 0 Set: Palette field is present; Clear: Palette field is absent #define U_PPF_DM 0x0001 //!< 0 Set: Dual-mode file; Clear: EMF+ only file #define U_PPF_AA 0x0001 //!< 0 Set: anti-aliasing on; Clear: anti-aliasing off #define U_PPF_VIDEO 0x0001 //!< 0 Set: reference device is video display; Clear: reference devis is printer /** @} */ /** \defgroup U_PMF_FF_ PMF Masks and offsets for 16 bit flag fields Documenting the OBSERVED positions of fields in 16 bit flag integers after they have been read in Little Ended from files. Note, some of these are used in more than one record type, only a single reference is provided @{ */ #define U_FF_MASK_SUBLID 0x003F //!< EMF+ manual 2.2.2.23, Microsoft name: EmfPlusLanguageIdentifier #define U_FF_SHFT_SUBLID 0x000A //!< EMF+ manual 2.2.2.23, Microsoft name: EmfPlusLanguageIdentifier #define U_FF_MASK_PRILID 0x03FF //!< EMF+ manual 2.2.2.23, Microsoft name: EmfPlusLanguageIdentifier #define U_FF_SHFT_PRILID 0x0000 //!< EMF+ manual 2.2.2.23, Microsoft name: EmfPlusLanguageIdentifier #define U_FF_MASK_LID 0xFFFF //!< EMF+ manual 2.2.2.23, Microsoft name: EmfPlusLanguageIdentifier #define U_FF_SHFT_LID 0x0000 //!< EMF+ manual 2.2.2.23, Microsoft name: EmfPlusLanguageIdentifier #define U_FF_MASK_RL 0x003F //!< EMF+ manual 2.2.2.32, Microsoft name: EmfPlusPathPointTypeRLE #define U_FF_SHFT_RL 0x0008 //!< EMF+ manual 2.2.2.32, Microsoft name: EmfPlusPathPointTypeRLE #define U_FF_MASK_PPT 0x00FF //!< EMF+ manual 2.2.2.32, Microsoft name: EmfPlusPathPointTypeRLE #define U_FF_SHFT_PPT 0x0000 //!< EMF+ manual 2.2.2.32, Microsoft name: EmfPlusPathPointTypeRLE /* the next one is used most places an object ID is specified */ #define U_FF_MASK_OID8 0x00FF //!< EMF+ manual 2.3.1.3, Microsoft name: EmfPlusSetClipPath #define U_FF_SHFT_OID8 0x0000 //!< EMF+ manual 2.3.1.3, Microsoft name: EmfPlusSetClipPath #define U_FF_MASK_CM4 0x000F //!< EMF+ manual 2.3.1.3, Microsoft name: EmfPlusSetClipPath #define U_FF_SHFT_CM4 0x0008 //!< EMF+ manual 2.3.1.3, Microsoft name: EmfPlusSetClipPath #define U_FF_MASK_OT 0x003F //!< EMF+ manual 2.3.5.1, Microsoft name: EmfPlusObject #define U_FF_SHFT_OT 0x0008 //!< EMF+ manual 2.3.5.1, Microsoft name: EmfPlusObject #define U_FF_MASK_AA 0x007F //!< EMF+ manual 2.3.6.1, Microsoft name: EmfPlusSetAntiAliasMode #define U_FF_SHFT_AA 0x0001 //!< EMF+ manual 2.3.6.1, Microsoft name: EmfPlusSetAntiAliasMode #define U_FF_MASK_CM 0x00FF //!< EMF+ manual 2.3.6.2, Microsoft name: EmfPlusSetCompositingMode #define U_FF_SHFT_CM 0x0000 //!< EMF+ manual 2.3.6.2, Microsoft name: EmfPlusSetCompositingMode #define U_FF_MASK_CQ 0x00FF //!< EMF+ manual 2.3.6.3, Microsoft name: EmfPlusSetCompositingQuality #define U_FF_SHFT_CQ 0x0000 //!< EMF+ manual 2.3.6.3, Microsoft name: EmfPlusSetCompositingQuality #define U_FF_MASK_IM 0x00FF //!< EMF+ manual 2.3.6.4, Microsoft name: EmfPlusSetInterpolationMode #define U_FF_SHFT_IM 0x0000 //!< EMF+ manual 2.3.6.4, Microsoft name: EmfPlusSetInterpolationMode #define U_FF_MASK_PxOffM 0x00FF //!< EMF+ manual 2.3.6.5, Microsoft name: EmfPlusSetPixelOffsetMode #define U_FF_SHFT_PxOffM 0x0000 //!< EMF+ manual 2.3.6.5, Microsoft name: EmfPlusSetPixelOffsetMode #define U_FF_MASK_TGC 0x0FFF //!< EMF+ manual 2.3.6.7, Microsoft name: EmfPlusSetTextContrast #define U_FF_SHFT_TGC 0x0000 //!< EMF+ manual 2.3.6.7, Microsoft name: EmfPlusSetTextContrast #define U_FF_MASK_TRH 0x00FF //!< EMF+ manual 2.3.6.8, Microsoft name: EmfPlusSetTextRenderingHint #define U_FF_SHFT_TRH 0x0000 //!< EMF+ manual 2.3.6.8, Microsoft name: EmfPlusSetTextRenderingHint #define U_FF_MASK_UT 0x00FF //!< EMF+ manual 2.3.7.1, Microsoft name: EmfPlusBeginContainer #define U_FF_SHFT_UT 0x0008 //!< EMF+ manual 2.3.7.1, Microsoft name: EmfPlusBeginContainer #define U_FF_MASK_TSC 0x7FFF //!< EMF+ manual 2.3.8.1, Microsoft name: EmfPlusSetTSClip #define U_FF_SHFT_TSC 0x0000 //!< EMF+ manual 2.3.8.1, Microsoft name: EmfPlusSetTSClip #define U_FF_MASK_PU 0x00FF //!< EMF+ manual 2.3.9.5, Microsoft name: EmfPlusSetPageTransform #define U_FF_SHFT_PU 0x0000 //!< EMF+ manual 2.3.9.5, Microsoft name: EmfPlusSetPageTransform /** @} */ /** \defgroup U_PMF_GFVR_ PMF MetafileSignature For U_PMF_GRAPHICSVERSION Signature field EMF+ manual 2.2.2.19, Microsoft name: (none) (U_GFVR_*) @{ */ #define U_GFVR_PMF 0x000DBC01 //!< indicates an EMF+ metafile #define U_GFVR_MASKHI 0xFFFFF000 //!< mask for the signature bit field (20 bits) #define U_GFVR_MASKLO 0x00000FFF //!< mask for the version bit field (12 bits) /** @} */ /** \defgroup U_PMF_XM_ PMF Matrix Multiplication Enumerator For U_PMF_RotateWorldTransform and others EMF+ manual 2.3.9.3, Microsoft name: (none) (U_XM_*) @{ */ #define U_XM_PostX 1 //!< Post Multiply change to current Transformation Matrix #define U_XM_PreX 0 //!< Pre Multiply change to current Transformation Matrix /** @} */ /* Utility objects, not defined in EMF+ spec */ /** @brief Used to accumulate data for objects continued over multiple records. see EMF+ manual 2.3.5.1 */ typedef struct { char *accum; /**< data accumulates here */ uint32_t space; /**< bytes allocated */ uint32_t used; /**< bytes in use */ int Type; /**< ObjectType enumeration */ int Id; /**< Object ID */ } U_OBJ_ACCUM; /** @brief Holds EMF+ objects and records in EMF+ file format byte order. */ typedef struct { char *Data; /**< Buffer that hold's the PseudoObject's data */ size_t Size; /**< Number of bytes allocated in Data (may be >Used if padding is present) */ size_t Used; /**< Number of data bytes that are stored in Data */ uint32_t Type; /**< Type numbers are from manual section: 1.2.3.4 -> 10203040 */ } U_PSEUDO_OBJ; /** @brief DoublePseudoObject holds pairs of PseudoObjects. Used for constructing paths along with their types. The data stored in the PsuedoObjects maintains LittleEndian-ness, as expected in the final file. The type is U_RAW_OID, and there is no elements count at the beginning of Data */ typedef struct { uint32_t Elements; /**< Element count, applies to both PseudoObjects */ U_PSEUDO_OBJ *poPoints; /**< Points in path */ U_PSEUDO_OBJ *poTypes; /**< Types of points in path */ } U_DPSEUDO_OBJ; /** @brief Serializer description records. An array of these are passed to U_PMF_SERIAL_set() to construct EMF+ objects from their component parts. The U_PMF_SERIAL_set() function should not ever be called directly by end user code. */ typedef struct { const void *Ptr; /**< Pointer to the first byte of the data field. Each data field is an array of a basic type of Units bytes repeated Reps times */ size_t Units; /**< Number of bytes in each unit of each data field. */ size_t Reps; /**< MNumber of repeats of Units in eah data field. */ int TE; /**< (Target Endian). Only relevant for Units of 2 or 4*/ } U_SERIAL_DESC; /** @brief FontInfoParams hold font information that is needed by U_PMR_drawstring so that it can place text on the baseline. This must be extracted from the font file using an appropriate utility. (See testbed_pmf.c for a table of these values for some common fonts.) */ typedef struct { char *name; /**< Font name (like "Arial") */ int Ascent; /**< in Font units (positive) */ int Descent; /**< in Font units (negative) */ int LineGap; /**< in Font units (positive) */ int EmSize; /**< Y extent of Em square, usually 2048 */ int yMax; /**< in Font units (positive) */ int yMin; /**< in Font units (negative) */ } U_FontInfoParams; /* EMF+ objects */ /** @brief EMF+ manual 2.2.1.1, Microsoft name: EmfPlusBrush Object variable part of object follows structure: uint32_t Data[]; // one of the 5 types of Brush data (2.2.2 20, 24, 29, 43, or 45) */ typedef struct { uint32_t Version; //!< EmfPlusGraphicsVersion object uint32_t Type; //!< BrushType Enumeration } U_PMF_BRUSH; /** @brief EMF+ manual 2.2.1.2, Microsoft name: EmfPlusCustomLineCap Object */ typedef struct { /*@{*/ uint32_t Version; //!< EmfPlusGraphicsVersion object uint32_t Type; //!< BrushType Enumeration /* variable part of object, not part of structure uint32_t Data[]; //!< one of the 2 types of Linecap data (2.2.2 12, 13) */ /*@}*/ } U_PMF_CUSTOMLINECAP; /** @brief EMF+ manual 2.2.1.3, Microsoft name: EmfPlusFont Object */ typedef struct { /*@{*/ uint32_t Version; //!< EmfPlusGraphicsVersion object U_FLOAT EmSize; //!< em size in units of SizeUnit uint32_t SizeUnit; //!< UnitType enumeration int32_t FSFlags; //!< FontStyle flags uint32_t Reserved; //!< ignored uint32_t Length; //!< Number of Unicode Characters in FamilyName /* variable part of object, not part of structure uint16_t FamilyName[]; //!< Unicode (UTF-16LE) name of font family */ /*@}*/ } U_PMF_FONT; /** @brief EMF+ manual 2.2.1.4, Microsoft name: EmfPlusImage Object */ typedef struct { /*@{*/ uint32_t Version; //!< EmfPlusGraphicsVersion object uint32_t Type; //!< ImageDataType Enumeration /* variable part of object, not part of structure uint32_t Data[]; //!< one of the 2 types of image data (2.2.2 2 or 27) */ /*@}*/ } U_PMF_IMAGE; /** @brief EMF+ manual 2.2.2.1, Microsoft name: EmfPlusARGB Object, out of order, needed for 2.2.1.5 */ typedef struct { /*@{*/ uint8_t Blue; //!< Blue color (0-255) uint8_t Green; //!< Green color (0-255) uint8_t Red; //!< Red color (0-255) uint8_t Alpha; //!< Alpha (0-255) /*@}*/ } U_PMF_ARGB; /** @brief EMF+ manual 2.2.1.5, Microsoft name: EmfPlusImageAttributes Object */ typedef struct { /*@{*/ uint32_t Version; //!< EmfPlusGraphicsVersion object uint32_t Reserved1; //!< ignored uint32_t WrapMode; //!< WrapMode object U_PMF_ARGB ClampColor; //!< EmfPlusARGB object int32_t ObjectClamp; //!< ObjectClamp Identifiers uint32_t Reserved2; //!< ignored /*@}*/ } U_PMF_IMAGEATTRIBUTES; /** @brief EMF+ manual 2.2.1.6, Microsoft name: EmfPlusPath Object */ typedef struct { /*@{*/ uint32_t Version; //!< EmfPlusGraphicsVersion object uint32_t Count; //!< points and point types in this object uint16_t Flags; //!< PathPoint Flags /* variable part of object, not part of structure points array of points like: U_PPF_P U_PPF_C Type 1 x U_PMF_POINTR 0 1 U_PMF_POINT 0 0 U_PMF_POINTF types array of:. U_PPF_R Type 1 U_PMF_PATHPOINTTYPERLE and/or U_PMF_PATHPOINTTYPE 0 U_PMF_PathPointType (only) alignment padding up to 3 bytes */ /*@}*/ } U_PMF_PATH; /** @brief EMF+ manual 2.2.1.7, Microsoft name: EmfPlusPen Object */ typedef struct { uint32_t Version; //!< EmfPlusGraphicsVersion object uint32_t type; //!< must be zero /* variable part of object, not part of structure U_PMF_PENDATA pen U_PMF_BRUSH brush */ } U_PMF_PEN; /** @brief EMF+ manual 2.2.2.40, Microsoft name: EmfPlusRegionNode Object, out of order, needed for 2.2.1.8 */ typedef struct { uint32_t Type; //!< RegionNodeDataType /* variable part of object, not part of structure, will be absent in object for some types data data is a tree made up of some combination of these objects U_PMF_REGIONNODEPATH 2.2.2.42 terminal node U_PMF_RECTF 2.2.2.39 terminal node U_PMF_REGIONNODECHILDNODES 2.2.2.41 non-terminal node */ } U_PMF_REGIONNODE; /** @brief EMF+ manual 2.2.1.8, Microsoft name: EmfPlusRegion Object */ typedef struct { uint32_t Version; //!< EmfPlusGraphicsVersion object uint32_t Elements; //!< Number of members in Nodes array /* variable part of object, not part of structure, will be absent in object for some types U_PMF_REGIONNODE Nodes[1]; //!< Nodes defining region */ } U_PMF_REGION; /** @brief EMF+ manual 2.2.2.23, Microsoft name: EmfPlusLanguageIdentifier Object, out of order, needed for 2.2.1.9 Bit fields are not used in structs in this implementation, these are serialized/deserialized in the corresponding routines. Bitfields in the FILE (LITTLE endian here, manual uses BIG endian) are: int SubLId : 6; Example: code for USA int PriLId : 10; Example: code for English This type is defined as 16 bits in the manual section, but it is only ever used as part of a 32 bit field! */ typedef uint32_t U_PMF_LANGUAGEIDENTIFIER; /** @brief EMF+ manual 2.2.1.9, Microsoft name: EmfPlusStringFormat Object */ typedef struct { uint32_t Version; //!< EmfPlusGraphicsVersion object uint32_t Flags; //!< StringFormat flags U_PMF_LANGUAGEIDENTIFIER Language; //!< String's Language uint32_t StringAlignment; //!< StringAlignment enumeration. uint32_t LineAlign; //!< StringAlignment enumeration. uint32_t DigitSubstitution; //!< StringDigitSubstitution enumeration U_PMF_LANGUAGEIDENTIFIER DigitLanguage; //!< Digit's Language (overrides Language, above) U_FLOAT FirstTabOffset; //!< the number of spaces to the first tab stop. int32_t HotkeyPrefix; //!< HotkeyPrefix enumeration U_FLOAT LeadingMargin; //!< space before starting position (text) of a string U_FLOAT TrailingMargin; //!< space after last position (text) of a string U_FLOAT Tracking; //!< horizontal space alotted per character/font specification per character uint32_t Trimming; //!< StringTrimming enumeration uint32_t TabStopCount; //!< Number of tab stops in data field. uint32_t RangeCount; //!< Number of U_PMF_CHARACTERRANGE objects in data field. /* variable part of object, not part of structure. U_PMF_STRINGFORMATDATA data Note that U_PMF_STRINGFORMATDATA has no struct as it is entirely variable and the size of the two fields in it are specified by the two preceding fields in this object type. */ } U_PMF_STRINGFORMAT; /** U_PMF_ARGB EMF+ manual 2.2.2.1, Microsoft name: EmfPlusARGB Object, defined above, before 2.2.1.6*/ /** @brief EMF+ manual 2.2.2.2, Microsoft name: EmfPlusBitmap Object */ typedef struct { int32_t Width; //!< Width in pixels int32_t Height; //!< Height in pixels int32_t Stride; //!< length in bytes of 1 scan line (multiple of 4) uint32_t PxFormat; //!< PixelFormat enumeration uint32_t Type; //!< BitmapDataType enumeration (section 2.1.1.2). /* variable part of object, not part of structure. (various types) BitmapData //!< is either an U_PMF_BITMAPDATA or U_PMF_COMPRESSEDIMAGE object */ } U_PMF_BITMAP; /** U_PMF_BITMAPDATA EMF+ manual 2.2.2.3, Microsoft name: EmfPlusBitmapData Object U_PMF_BITMAPDATA is an entirely variable object, there is no corresponding struct. It consists of Colors U_PMF_PALETTE object PixelData An array of bytes, meaning depends on fields in U_PMF_BITMAP object and the PixelFormat enumeration. */ /** @brief EMF+ manual 2.2.2.4, Microsoft name: EmfPlusBlendColors Object For Pattern field of U_PMF_LINEARGRADIENTBRUSHOPTIONALDATA */ typedef struct { uint32_t Elements; //!< members in each array /* variable part of object, not part of structure. U_FLOAT Positions //!< positions along gradient line. The first position MUST be 0.0 and the last MUST be 1.0. U_PMF_ARGB Colors //!< colors at positions on gradient line */ } U_PMF_BLENDCOLORS; /** @brief EMF+ manual 2.2.2.5, Microsoft name: EmfPlusBlendFactors Object */ typedef struct { uint32_t Elements; //!< Members in each array /* variable part of object, not part of structure. U_FLOAT Positions //!< positions along gradient line. The first position MUST be 0.0 and the last MUST be 1.0. U_FLOAT Factors //!< blending factors, 0.0->1.0 values, inclusive */ } U_PMF_BLENDFACTORS; /** @brief EMF+ manual 2.2.2.6, Microsoft name: EmfPlusBoundaryPathData Object */ typedef struct { int32_t Size; //!< Bytes in Data /* variable part of object, not part of structure. U_PMF_PATH Data //!< Boundary of the brush */ } U_PMF_BOUNDARYPATHDATA; /** @brief EMF+ manual 2.2.2.7, Microsoft name: EmfPlusBoundaryPointData Object */ typedef struct { int32_t Elements; //!< Members in the array /* variable part of object, not part of structure. U_PMF_POINTF Points //!< Boundary of the brush */ } U_PMF_BOUNDARYPOINTDATA; /** @brief EMF+ manual 2.2.2.8, Microsoft name: EmfPlusCharacterRange Object */ typedef struct { int32_t First; //!< First position in range int32_t Length; //!< Range length } U_PMF_CHARACTERRANGE; /** @brief EMF+ manual 2.2.2.9, Microsoft name: EmfPlusCompoundLineData Object Compound lines are pens that draw several parallel lines at once. The data here alternates (sub)line width (as fraction of total width and gaps (also as fraction of total width). */ typedef struct { int32_t Elements; //!< Members in the array /* variable part of object, not part of structure. U_FLOAT Data //!< Line or gap width (0.0 <-> 1.0, fraction of total line width ) */ } U_PMF_COMPOUNDLINEDATA; /** @brief EMF+ manual 2.2.2.10, Microsoft name: EmfPlusCompressedImage Object Holds an EXIF, GIF, JFIF, PNG, or TIFF image. For U_PMF_BITMAP BitmapData field object has no assocated struct! U_PMF_COMPRESSEDIMAGE */ /** @brief EMF+ manual 2.2.2.11, Microsoft name: EmfPlusCustomEndCapData Object */ typedef struct { int32_t Size; //!< Bytes in Data /* variable part of object, not part of structure. U_PMF_CUSTOMLINECAP Data //!< Description of linecap */ } U_PMF_CUSTOMENDCAPDATA; /** @brief EMF+ manual 2.2.2.12, Microsoft name: EmfPlusCustomLineCapArrowData Object */ typedef struct { U_FLOAT Width; //!< Arrow cap width (is multiplied by line width before draw) U_FLOAT Height; //!< Arrow cap length (is multiplied by line width before draw) U_FLOAT MiddleInset; //!< Pixels between outer edge and filled region uint32_t FillState; //!< If set, fill, otherwise, only border uint32_t StartCap; //!< LineCap enumeration (type of cap) uint32_t EndCap; //!< LineCap enumeration uint32_t Join; //!< LineJoin enumeration U_FLOAT MiterLimit; //!< Maximum (miter length / line width) U_FLOAT WidthScale; //!< Scale for U_PMF_CUSTOMLINECAP object U_FLOAT FillHotSpot[2]; //!< must be 0.0, 0.0 U_FLOAT LineHotSpot[2]; //!< must be 0.0, 0.0 } U_PMF_CUSTOMLINECAPARROWDATA; /** @brief EMF+ manual 2.2.2.13, Microsoft name: EmfPlusCustomLineCapData Object */ typedef struct { uint32_t Flags; //!< CustomLineCapData flags uint32_t Cap; //!< LineCap enumeration (type of cap) U_FLOAT Inset; //!< Distance line cap start -> line end uint32_t StartCap; //!< LineCap enumeration uint32_t EndCap; //!< LineCap enumeration uint32_t Join; //!< LineJoin enumeration U_FLOAT MiterLimit; //!< Maximum (miter length / line width) U_FLOAT WidthScale; //!< Scale for U_PMF_CUSTOMLINECAP object U_FLOAT FillHotSpot[2]; //!< must be 0.0, 0.0 U_FLOAT LineHotSpot[2]; //!< must be 0.0, 0.0 /* variable part of object, not part of structure. U_PMF_CUSTOMLINECAPOPTIONALDATA Data //!< meaning determined by Flags */ } U_PMF_CUSTOMLINECAPDATA; /** U_PMF_CUSTOMLINECAPOPTIONALDATA EMF+ manual 2.2.2.14, Microsoft name: EmfPlusCustomLineCapOptionalData Object object has no assocated struct! U_PMF_FILLPATHO FillData; //!< path to fill (optional) U_PMF_LINEPATH LineData; //!< path to stroke (optional) */ /** @brief EMF+ manual 2.2.2.15, Microsoft name: EmfPlusCustomStartCapData Object */ typedef struct { int32_t Size; //!< Bytes in Data /* variable part of object, not part of structure. U_PMF_CUSTOMLINECAP Data //!< Description of linecap */ } U_PMF_CUSTOMSTARTCAPDATA; /** @brief EMF+ manual 2.2.2.16, Microsoft name: EmfPlusDashedLineData Object */ typedef struct { int32_t Elements; //!< Elements in Data /* variable part of object, not part of structure. U_FLOAT Data; //!< Array of lengths of dashes and spaces */ } U_PMF_DASHEDLINEDATA; /** @brief EMF+ manual 2.2.2.17, Microsoft name: EmfPlusFillPath Object Note: U_PMF_FILLPATHOBJ is the object, U_PMF_FILLPATH is the file record */ typedef struct { int32_t Size; //!< Bytes in Data /* variable part of object, not part of structure. U_PMF_PATH Data; //!< Path specification */ } U_PMF_FILLPATHO; /** @brief EMF+ manual 2.2.2.18, Microsoft name: EmfPlusFocusScaleData Object for U_PMF_PATHGRADIENTBRUSHOPTIONALDATA data field Used with path gradient brushes. May be used to expand the center color of a gradient, which would otherwise only be found at the center point. The expanded area is the width, height X scale factor, but in no case less than 1 pixel. */ typedef struct { uint32_t Count; //!< must be 2 U_FLOAT ScaleX; //!< value 0.0 <-> 1.0 U_FLOAT ScaleY; //!< value 0.0 <-> 1.0 } U_PMF_FOCUSSCALEDATA; /** @brief EMF+ manual 2.2.2.19, Microsoft name: EmfPlusGraphicsVersion Object Bit fields are not used in structs in this implementation, these are serialized/deserialized in the corresponding routines. Bitfields in the FILE (LITTLE endian here, manual uses BIG endian) are: unsigned int GrfVersion : 12; GraphicsVersion enumeration unsigned int Signature : 20; Must be U_GFVR_PMF (0xDBC01) @{ */ typedef uint32_t U_PMF_GRAPHICSVERSION; //!< EMF+ manual 2.2.2.19, Microsoft name: EmfPlusGraphicsVersion Object /** @} */ /** @brief EMF+ manual 2.2.2.20, Microsoft name: EmfPlusHatchBrushData Object */ typedef struct { uint32_t Style; //!< HatchStyle enumeration U_PMF_ARGB Foreground; //!< Hatch pattern line color U_PMF_ARGB Background; //!< Hatch pattern bkground color } U_PMF_HATCHBRUSHDATA; /** \defgroup U_PMF_Int7 PMF 7 bit signed integer @brief EMF+ manual 2.2.2.21, Microsoft name: EmfPlusInteger7 Object bit 7 U_INT7 Clear in Integer7 objects bits 0-6 7 bit signed integer value @{ */ #define U_TEST_INT7 0x80 //!< This bit is clear in Integer7 objects. #define U_SIGN_INT7 0x40 //!< Sign bit on an Integer7 object. #define U_MASK_INT7 0x7F //!< xMask to retrieve integer7 bits. /** @} */ /** \defgroup U_PMF_Int15 PMF 15 bit signed integer @brief EMF+ manual 2.2.2.22, Microsoft name: EmfPlusInteger15 Object bit 15 U_INT15 Set in Integer15 objects bits 0-15 15 bit signed integer value This is the one data type that really does seem to be stored into the file in Big Endian order. It has to be this way because the bit that determines if data is int7 or int15 must be in the first byte the parser sees, and that byte is the high order byte. @{ */ #define U_TEST_INT15 0x8000 //!< This bit is set in Integer15 objects. #define U_SIGN_INT15 0x4000 //!< Sign bit on an Integer15 object. #define U_MASK_INT15 0x7FFF //!< Mask to retrieve integer15 bits. /** @} */ /* EMF+ manual 2.2.2.23, Microsoft name: EmfPlusLanguageIdentifier Object, defined above, before 2.2.1.9 */ /** @brief EMF+ manual 2.2.2.39, Microsoft name: EmfPlusRectF Object, out of order, needed for 2.2.2.24 */ typedef struct { U_FLOAT X; //!< UL X value U_FLOAT Y; //!< UL Y value U_FLOAT Width; //!< Width U_FLOAT Height; //!< Height } U_PMF_RECTF; /** @brief EMF+ manual 2.2.2.24, Microsoft name: EmfPlusLinearGradientBrushData Object Manual says that Reserved1 and Reserved2 must be ignored. In practice if Reserved1 is not set to StartColor and Reserved2 is not set to EndColor, then XP Preview will not display the gradient. */ typedef struct { uint32_t Flags; //!< BrushData flags int32_t WrapMode; //!< WrapMode enumeration U_PMF_RECTF RectF; //!< UL=start, LR=end of gradient U_PMF_ARGB StartColor; //!< Gradient start color U_PMF_ARGB EndColor; //!< Gradient end color uint32_t Reserved1; //!< ignore uint32_t Reserved2; //!< ignore /* variable part of object, not part of structure. U_PMF_LINEARGRADIENTBRUSHOPTIONALDATA data; //!< presence and meaning depend on Flags field */ } U_PMF_LINEARGRADIENTBRUSHDATA; /** @brief EMF+ manual 2.2.2.47, Microsoft name: EmfPlusTransformMatrix Object, out of order, needed for 2.2.2.25 */ typedef struct { U_FLOAT m11; //!< Rotation matrix m11 element U_FLOAT m12; //!< Rotation matrix m12 element U_FLOAT m21; //!< Rotation matrix m21 element U_FLOAT m22; //!< Rotation matrix m22 element U_FLOAT dX; //!< Translation in X U_FLOAT dY; //!< Translation in Y } U_PMF_TRANSFORMMATRIX; /** NOT DOCUMENTED. Encountered in actual EmfPlusLinearGradientBrushOptionalData Object made by PowerPoint 2003. This structure is needed for the next. */ typedef struct { U_FLOAT m11; //!< Rotation matrix m11 element U_FLOAT m12; //!< Rotation matrix m12 element U_FLOAT m21; //!< Rotation matrix m21 element U_FLOAT m22; //!< Rotation matrix m22 element } U_PMF_ROTMATRIX; /** @brief EMF+ manual 2.2.2.25, Microsoft name: EmfPlusLinearGradientBrushOptionalData Object For U_PMF_LINEARGRADIENTBRUSHDATA data field */ /* Entire object is variable and not part of a structure! U_PMF_LINEARGRADIENTBRUSHOPTIONALDATA U_PMF_ROTMATRIX Matrix; //!< Rotation matrix, Manuals says that this should be Transformation matrix, but last two values are missing (various) pattern; //!< Presence and meaning depend on Flags field, see below Flag values U_BD_PresetColors U_BD_BlendFactorsH U_BD_BlendFactorsV pattern(s) present? 0 0 0 none 1 0 0 U_PMF_BLENDCOLORS 0 1 0 U_PMF_BLENDFACTORS 0 0 1 U_PMF_BLENDFACTORS 0 1 1 U_PMF_BLENDFACTORS, U_PMF_BLENDFACTORS */ /** @brief EMF+ manual 2.2.2.26, Microsoft name: EmfPlusLinePath Object */ typedef struct { int32_t Size; //!< Bytes in Data /* variable part of object, not part of structure. U_PMF_PATH Data; //!< Outline path */ } U_PMF_LINEPATH; /** @brief EMF+ manual 2.2.2.27, Microsoft name: EmfPlusMetafile Object */ typedef struct { uint32_t Type; //!< MetaFileDatatype enumeration uint32_t Size; //!< Bytes in Data /* variable part of object, not part of structure. U_PMF_IMAGE Data; //!< Various types of data, like an EMF metafile, WMF metafile, another EMF+ metafile */ } U_PMF_METAFILE; /** @brief EMF+ manual 2.2.2.28, Microsoft name: EmfPlusPalette Object */ typedef struct { uint32_t Flags; //!< PaletteStyle flags uint32_t Elements; //!< elements in Data /* variable part of object, not part of structure. U_PMF_ARGB Data; //!< Palette data (array of colors) */ } U_PMF_PALETTE; /** @brief EMF+ manual 2.2.2.36, Microsoft name: EmfPlusPointF Object, out of order, needed for 2.2.2.29 */ typedef struct { U_FLOAT X; //!< UL X value U_FLOAT Y; //!< UL Y value } U_PMF_POINTF; /** @brief EMF+ manual 2.2.2.29, Microsoft name: EmfPlusPathGradientBrushData Object */ typedef struct { uint32_t Flags; //!< BrushData flags int32_t WrapMode; //!< WrapMode enumeration U_PMF_ARGB CenterColor; //!< Gradient center color U_PMF_POINTF Center; //!< Center coordinates uint32_t Elements; //!< Number of elements in gradient (not counting center) /* variable part of object, not part of structure. U_PMF_ARGB Gradient; //!< Color Gradient with Elements members (varies) Boundary; //!< U_PMF_BOUNDARYPATHDATA object if BrushDataPath bit set in Flag, else U_PMF_BOUNDARYPOINTDATA object U_PMF_GRADIENTBRUSHOPTIONALDATA data; //!< exact composition depends on Flags */ } U_PMF_PATHGRADIENTBRUSHDATA; /** EMF+ manual 2.2.2.30, Microsoft name: EmfPlusPathGradientBrushOptionalData Object for U_PMF_PATHGRADIENTNBRUSHDATA data field */ /* Entire thing is variable or optional. typedef struct { U_PMF_TRANSFORMMATRIX Matrix; //!< Optional Transformation matrix U_PMF_BLENDCOLORS Pattern; //!< presence and meaning depend on Flags field Flag values U_BD_PresetColors U_BD_BlendFactorsH pattern? 0 0 none 1 0 U_PMF_BLENDCOLORS 0 1 U_PMF_BLENDFACTORS U_PMF_FOCUSSSCALEDATA data //!< Present if U_BD_FocusScales bit set in Flags in U_PMF_PATHGRADIENTNBRUSHDATA object } U_PMF_PATHGRADIENTBRUSHOPTIONALDATA; */ /** \defgroup U_PMF_PPTYPE PMF Path Point Types @brief EMF+ manual 2.2.2.31, Microsoft name: EmfPlusPathPointType Object Bitfields in the FILE (LITTLE endian here, manual uses BIG endian) are: bits 4-7 PathPointType flags bits 0-3 PathPointType enumeration @{ */ typedef uint8_t U_PMF_PATHPOINTTYPE; //!< EMF+ manual 2.2.2.31, Microsoft name: EmfPlusPathPointType Object /** @} */ /** \defgroup U_PMF_PPTYPERLE PMF Run Length Encoded Path Point Types @brief EMF+ manual 2.2.2.32, Microsoft name: EmfPlusPathPointTypeRLE Object U_PMF_PATHPOINTTYPERLE fields specify point types in a path where the path is Run Length Encoded. Bit fields are not used in structs in this implementation, these are serialized/deserialized in the corresponding routines. Bitfields in the FILE (LITTLE endian here, manual uses BIG endian) are: bit 15 Set: Bezier curve; Clear: straight line bit 14 ignored bits 8-13 Run count bits 0-7 PathPointType enumeration @{ */ typedef uint16_t U_PMF_PATHPOINTTYPERLE; //!< EMF+ manual 2.2.2.32, Microsoft name: EmfPlusPathPointTypeRLE Object /** @} */ /** @brief EMF+ manual 2.2.2.33, Microsoft name: EmfPlusPenData Object Variable part of object follows structure: U_PMF_PENOPTIONALDATA data; Optional pen data, exact composition depends on Flags */ typedef struct { uint32_t Flags; //!< PenData flags uint32_t Unit; //!< UnitType enumeration U_FLOAT Width; //!< Width in units set by Unit } U_PMF_PENDATA; /** @brief EMF+ manual 2.2.2.34, Microsoft name: EmfPlusPenOptionalData Object Every part of this object is variable or optional, there is no corresponding struct Present if Flag What is it U_PMF_TRANSFORMMATRIX Matrix //!< U_PD_Transform Transformation matrix int32_t StartCap //!< U_PD_StartCap LineCapType enumeration int32_t EndCap //!< U_PD_EndCap LineCapType enumeration uint32_t Join //!< U_PD_Join LineJoinType enumeration U_FLOAT MiterLimit //!< U_PD_MiterLimit Maximum (miter length / line width) int32_t Style //!< U_PD_LineStyle LineStyle enumeration int32_t DLCap //!< U_PD_DLCap DashedLineCapType enumeration U_FLOAT DLOffset //!< U_PD_DLOffset Distance line start to first dash start U_PMF_DASHEDLINEDATA DLData //!< U_PD_DLData Dash and space widths int32_t PenAlignment //!< U_PD_NonCenter PenAlignment enumeration U_PMF_COMPOUNDLINEDATA CLData //!< U_PD_CompoundLineData Compount Line (parallel lines drawn instead of one) U_PMF_CUSTOMSTARTCAPDATA CSCapData //!< U_PD_CustomStartCap Custom start cap U_PMF_CUSTOMENDCAPDATA CECapData //!< U_PD_CustomEndCap Custom end cap */ /** @brief EMF+ manual 2.2.2.35, Microsoft name: EmfPlusPoint Object */ typedef struct { int16_t X; //!< X coordinate int16_t Y; //!< Y coordinate } U_PMF_POINT; /** U_PMF_POINTF EMF+ manual 2.2.2.36, Microsoft name: EmfPlusPointF Object, defined above, before 2.2.2.29 */ /** U_PMF_POINTR EMF+ manual 2.2.2.37, Microsoft name: EmfPlusPointR Object For U_PMF_DRAWBEZIERS data field (optionally). Both parts of this object are variable, there is no corresponding struct. Any combination of the two allowed types of integer is valid. (varies) X; //!< U_PMF_INTEGER7 or U_PMF_INTEGER15 (varies) Y; //!< U_PMF_INTEGER7 or U_PMF_INTEGER15 */ /** @brief EMF+ manual 2.2.2.38, Microsoft name: EmfPlusRect Object */ typedef struct { int16_t X; //!< UL X value int16_t Y; //!< UL Y value int16_t Width; //!< Width int16_t Height; //!< Height } U_PMF_RECT; /** U_PMF_RECTF EMF+ manual 2.2.2.39, Microsoft name: EmfPlusRectF Object, defined above, before 2.2.2.24 */ /** U_PMF_REGIONNODE EMF+ manual 2.2.2.40, Microsoft name: EmfPlusRegionNode Object, defined above, before 2.2.1.8 */ /** U_PMF_REGIONNODECHILDNODES EMF+ manual 2.2.2.41, Microsoft name: EmfPlusRegionNodeChildNodes Object For U_PMF_REGIONNODE data field (optionally). Both parts of this object are variable, there is no corresponding struct. U_PMF_REGIONNODE Left; //!< Left child U_PMF_REGIONNODE Right; //!< Right child */ /** @brief EMF+ manual 2.2.2.42, Microsoft name: EmfPlusRegionNodePath Object */ typedef struct { int32_t Size; //!< Bytes in Data /* variable part of object, not part of structure. U_PMF_PATH Data; //!< Boundary of region node */ } U_PMF_REGIONNODEPATH; /** @brief EMF+ manual 2.2.2.43, Microsoft name: EmfPlusSolidBrushData Object For U_PMF_BRUSH data field (one type of brush) */ typedef struct { U_PMF_ARGB Color; //!< Color of brush } U_PMF_SOLIDBRUSHDATA; /** U_PMF_STRINGFORMATDATA EMF+ manual 2.2.2.44, Microsoft name: EmfPlusStringFormatData Object Both parts of this object are variable and optional, there is no corresponding struct U_FLOAT TabStops[]; //!< Array of tabstop locations U_PMF_CHARACTERRANGE CharRange[]; //!< Array of character ranges in the text */ /** @brief EMF+ manual 2.2.2.45, Microsoft name: EmfPlusTextureBrushData Object */ typedef struct { uint32_t Flags; //!< BrushData flags int32_t WrapMode; //!< WrapMode enumeration /* variable part of object, not part of structure. U_PMF_TEXTUREBRUSHOPTIONALDATA data; //!< Optional texture data */ } U_PMF_TEXTUREBRUSHDATA; /** U_PMF_TEXTUREBRUSHOPTIONALDATA EMF+ manual 2.2.2.46, Microsoft name: EmfPlusTextureBrushOptionalData Object Every part of this object is variable or optional, there is no corresponding struct U_PMF_TRANSFORMMATRIX Matrix; Transformation matrix, present if Flag BrushDataTransform is set. U_PMF_IMAGE Image Image that contains the texture. Present if the PMR record that includes this object still has space for an U_PMF_IMAGE after all the other variable and optional data within it has been accounted for. */ /** U_PMF_TRANSFORMMATRIX EMF+ manual 2.2.2.47, Microsoft name: EmfPlusTransformMatrix Object, defined above, before 2.2.2.25 */ /** common structure present at the beginning of all(*) EMF+ records */ typedef struct { uint16_t Type; //!< Recordtype enumeration (what this record is) uint16_t Flags; //!< Flags (meaning varies by record type) uint32_t Size; //!< Bytes in record, including this struct (will be a multiple of 4) uint32_t DataSize; //!< Bytes of data that follow, may not be a multiple of 4. } U_PMF_CMN_HDR; /** These are the Image Effect Objects 2.2.3.* They specify parameters for "filters" that may be applied to bitmaps. */ /** @brief EMF+ manual 2.2.3.1, Microsoft name: BlurEffect Object */ typedef struct { U_FLOAT Radius; //!< Blur radius in pixels uint32_t ExpandEdge; //!< 1: expand bitmap by Radius; 0: bitmap size unchanged } U_PMF_IE_BLUR; /** @brief EMF+ manual 2.2.3.2, Microsoft name: BrightnessContrastEffect Object */ typedef struct { int32_t Brightness; //!< -255 to 255, 0 is unchanged, positive increases, negative decreases int32_t Contrast; //!< -100 to 100, 0 is unchanged, positive increases, negative decreases } U_PMF_IE_BRIGHTNESSCONTRAST; /** @brief EMF+ manual 2.2.3.3, Microsoft name: ColorBalanceEffect Object */ typedef struct { int32_t CyanRed; //!< -100 to 100, 0 is unchanged, positive increases Red & decreases Cyan, negative is opposite int32_t MagentaGreen; //!< -100 to 100, 0 is unchanged, positive increases Green & decreases Magenta, negative is opposite int32_t YellowBlue; //!< -100 to 100, 0 is unchanged, positive increases Blue & decreases Yellow, negative is opposite } U_PMF_IE_COLORBALANCE; /** @brief EMF+ manual 2.2.3.4, Microsoft name: ColorCurveEffect Object Adjust Range Exposure -255 to 255, 0 is unchanged Density -255 to 255, 0 is unchanged Contrast -100 to 100, 0 is unchanged Highlight -100 to 100, 0 is unchanged Shadow -100 to 100, 0 is unchanged WhiteSaturation 0 to 255 BlackSaturation 0 to 255 */ typedef struct { uint32_t Adjust; //!< CurveAdjustment enumeration uint32_t Channel; //!< CurveChannel enumeration int32_t Intensity; //!< adjustment to apply. "Adjust" determines what field this is and range values. } U_PMF_IE_COLORCURVE; /** @brief EMF+ manual 2.2.3.5, Microsoft name: ColorLookupTableEffect Object */ typedef struct { uint8_t BLUT[256]; //!< Blue color lookup table uint8_t GLUT[256]; //!< Green color lookup table uint8_t RLUT[256]; //!< Red color lookup table uint8_t ALUT[256]; //!< Alpha color lookup table } U_PMF_IE_COLORLOOKUPTABLE; /** @brief EMF+ manual 2.2.3.6, Microsoft name: ColorMatrixEffect Object */ typedef struct { U_FLOAT M[5][5]; //!< 5 x 5 color transformation matrix, First 4 rows are [{4 multiplier values},0.0] for R,G,B,A, last Row is [{4 color translation valuess}, 1.0] } U_PMF_IE_COLORMATRIX; /** @brief EMF+ manual 2.2.3.7, Microsoft name: HueSaturationLightnessEffect Object */ typedef struct { int32_t Hue; //!< -180 to 180, 0 is unchanged int32_t Saturation; //!< -100 to 100, 0 is unchanged int32_t Lightness; //!< -100 to 100, 0 is unchanged } U_PMF_IE_HUESATURATIONLIGHTNESS; /** @brief EMF+ manual 2.2.3.8, Microsoft name: LevelsEffect Object */ typedef struct { int32_t Highlight; //!< 0 to 100, 100 is unchanged int32_t Midtone; //!< -100 to 100, 0 is unchanged int32_t Shadow; //!< 0 to 100, 0 is unchanged } U_PMF_IE_LEVELS; /** @brief EMF+ manual 2.2.3.9, Microsoft name: RedEyeCorrectionEffect Object */ typedef struct { int32_t Elements; //!< Number of members in Rects /* variable part of object, not included in structure U_RECTL Rects[]; //!< Array of rectangular area(s) to apply red eye correction */ } U_PMF_IE_REDEYECORRECTION; /** @brief EMF+ manual 2.2.3.10, Microsoft name: SharpenEffect Object */ typedef struct { U_FLOAT Radius; //!< Sharpening radius in pixels int32_t Sharpen; //!< 0 to 100, 0 is unchanged } U_PMF_IE_SHARPEN; /** @brief EMF+ manual 2.2.3.11, Microsoft name: TintEffect Object */ typedef struct { int32_t Hue; //!< -180 to 180, [positive==clockwise] rotation in degrees starting from blue int32_t Amount; //!< -100 [add black] to 100[add white], 0 is unchanged. Change in hue on specified axis } U_PMF_IE_TINT; /* ************************** EMF+ Records ******************************** */ /** @brief EMF+ manual 2.3.1.1, Microsoft name: EmfPlusOffsetClip Record, Index 0x35 */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header (ignore flags) U_FLOAT dX; //!< horizontal translation offset to apply to clipping region U_FLOAT dY; //!< vertical translation offset to apply to clipping region } U_PMF_OFFSETCLIP; /** @brief U_PMF_RESETCLIP EMF+ manual 2.3.1.2, Microsoft name: EmfPlusResetClip Record, Index 0x31 */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header (ignore flags) } U_PMF_RESETCLIP; /** @brief EMF+ manual 2.3.1.3, Microsoft name: EmfPlusSetClipPath Record, Index 0x33 flags (LITTLE endian here, manual uses BIG endian) bits 8-11 CombineMode enumeration bits 0-7 Index of an U_PMF_PATH object in the EMF+ object table (0-63, inclusive) */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header } U_PMF_SETCLIPPATH; /** @brief EMF+ manual 2.3.1.4, Microsoft name: EmfPlusSetClipRect Record, Index 0x32 flags (LITTLE endian here, manual uses BIG endian) bits 8-11 CombineMode enumeration */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header U_PMF_RECTF Rect; //!< Rectangle used with CombineMode enumeration from Header.Flags } U_PMF_SETCLIPRECT; /** @brief EMF+ manual 2.3.1.5, Microsoft name: EmfPlusSetClipRegion Record, Index 0x34 flags (LITTLE endian here, manual uses BIG endian) bits 12-15 CombineMode enumeration bits 0-7 Index of an U_PMF_REGION object in the EMF+ object table (0-63, inclusive) */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header } U_PMF_SETCLIPREGION; /** @brief EMF+ manual 2.3.2.1, Microsoft name: EmfPlusComment Record, Index 0x03 variable part of record, not included in structure char data[]; //!< Private data, may be anything */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header (ignore flags and set to zero) } U_PMF_COMMENT; /** @brief EMF+ manual 2.3.3.1, Microsoft name: EmfPlusEndOfFile Record, Index 0x02 */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header (ignore flags and set to zero) } U_PMF_ENDOFFILE; /** @brief EMF+ manual 2.3.3.2, Microsoft name: EmfPlusGetDC Record, Index 0x04 */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header (ignore flags and set to zero) } U_PMF_GETDC; /** @brief EMF+ manual 2.3.3.3, Microsoft name: EmfPlusHeader Record, Index 0x01 flags (LITTLE endian here, manual uses BIG endian) bit 0 Set indicates "dual mode" EMF+ */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header (ignore flags and set to zero) U_PMF_GRAPHICSVERSION Version; //!< EmfPlusGraphicsVersion object uint32_t EmfPlusFlags; //!< Reference device 0 bit: set = video device, clear= printer. Ignore all other bits. uint32_t LogicalDpiX; //!< Horizontal resolution reference device in DPI uint32_t LogicalDpiY; //!< Vertical resolution reference device in DPI } U_PMF_HEADER; /** @brief EMF+ manual 2.3.4.1, Microsoft name: EmfPlusClear Record, Index 0x09 */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header (ignore flags and set to zero) U_PMF_ARGB Color; //!< Erase everything preceding, set background ARGB color. } U_PMF_CLEAR; /** @brief EMF+ manual 2.3.4.2, Microsoft name: EmfPlusDrawArc Record, Index 0x12 flags (LITTLE endian here, manual uses BIG endian) bit 9 U_PPF_C Set: Rect is U_PMF_RECT; Clear: Rect is U_PMF_RECTF bits 0-7 Index of an U_PMF_PEN object in the EMF+ object table (0-63, inclusive) */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header U_FLOAT Start; //!< Start angle, >=0.0, degrees clockwise from 3:00 U_FLOAT Sweep; //!< Sweep angle, -360<= angle <=360, degrees clockwise from Start /* variable part of record, not included in structure U_RECT or U_RECTF Rect; //!< Bounding box for elliptical arc being drawn. */ } U_PMF_DRAWARC; /** @brief EMF+ manual 2.3.4.3, Microsoft name: EmfPlusDrawBeziers Record, Index 0x19 flags (LITTLE endian here, manual uses BIG endian) bit 9 U_PPF_C Set: int16_t coordinates; Clear: U_FLOAT coordinates (IGNORE if bit 4 is set) bit 12 U_PPF_P Set: Coordinates are relative; Clear: they are absolute bits 0-7 Index of an U_PMF_PEN object in the EMF+ object table (0-63, inclusive) bit1 bit4 Type of Data 1 0 U_EMF_POINT 0 0 U_EMF_POINTF 0 1 U_EMF_POINTR */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header uint32_t Elements; //!< Number of members in the Points array /* variable part of record, not included in structure (varies) Points; //!< Points, for type see table above */ } U_PMF_DRAWBEZIERS; /** @brief EMF+ manual 2.3.4.4, Microsoft name: EmfPlusDrawClosedCurve Record, Index 0x17 flags (LITTLE endian here, manual uses BIG endian) bit 9 U_PPF_C Set: int16_t coordinates; Clear: U_FLOAT coordinates (IGNORE if bit 4 is set) bit 12 U_PPF_P Set: Coordinates are relative; Clear: they are absolute bits 0-7 Index of an U_PMF_PEN object in the EMF+ object table (0-63, inclusive) bit1 bit4 Type of Data 1 0 U_EMF_POINT 0 0 U_EMF_POINTF 0 1 U_EMF_POINTR Curve is a cardinal spline. References sent by MS support: http://alvyray.com/Memos/CG/Pixar/spline77.pdf http://msdn.microsoft.com/en-us/library/4cf6we5y(v=vs.110).aspx */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header U_FLOAT Tension; //!< Controls splines, 0 is straight line, >0 is curved /* variable part of record, not included in structure (varies) Points; //!< Points, for type see table above */ } U_PMF_DRAWCLOSEDCURVE; /** @brief EMF+ manual 2.3.4.5, Microsoft name: EmfPlusDrawCurve Record, Index 0x18 flags (LITTLE endian here, manual uses BIG endian) bit 9 U_PPF_C Set: int16_t coordinates; Clear: U_FLOAT coordinates (IGNORE if bit 4 is set) bits 0-7 Index of an U_PMF_PEN object in the EMF+ object table (0-63, inclusive) bit1 Type of Data 1 U_EMF_POINT 0 U_EMF_POINTF Curve is a cardinal spline, using doubled terminator points to generate curves for the terminal segments. References sent by MS support: http://alvyray.com/Memos/CG/Pixar/spline77.pdf http://msdn.microsoft.com/en-us/library/4cf6we5y(v=vs.110).aspx */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header U_FLOAT Tension; //!< Controls splines, 0 is straight line, >0 is curved uint32_t Offset; //!< Element in Points that is the spline's starting point uint32_t NSegs; //!< Number of segments uint32_t Elements; //!< Number of members in Points array /* variable part of record, not included in structure (varies) Points; //!< Points, for type see table above */ } U_PMF_DRAWCURVE; /** @brief EMF+ manual 2.3.4.6, Microsoft name: EmfPlusDrawDriverString Record, Index 0x36 flags (LITTLE endian here, manual uses BIG endian) . bit 15 U_PPF_B Set: BrushID is an U_PFM_ARGB; Clear: is index of U_PMF_BRUSH object in EMF+ object table bits 0-7 Index of an U_PMF_FONT object in the EMF+ object table (0-63, inclusive) */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header uint32_t BrushID; //!< Color or index to Brush object, depends on Flags bit0 uint32_t DSOFlags; //!< DriverStringOptions flags uint32_t HasMatrix; //!< If 1 record contains a TransformMatrix field, if 0 it does not. uint32_t Elements; //!< Number of members in Glyphs and Positions array /* variable part of record, not included in structure uint16_t Glyphs; //!< If U_DSO_CmapLookup is set in DSOFlags this is an array of UTF16LE characters, otherwise, it is an array of indices into the U_PMF_FONT object indexed by Object_ID in flags. U_PMF_POINTF Positions; //!< Coordinates of each member of Glyphs. U_DSO_RealizedAdvance set in DSOFlags Relative then positions are calculated relative to the first glyph which is stored in Positions, otherwise, all glyph positions are stored in Positions. U_PMF_TRANSFORMMATRIX Matrix; //!< Transformation to apply to Glyphs & Positions. Present if HasMatrix is 1 */ } U_PMF_DRAWDRIVERSTRING; /** @brief EMF+ manual 2.3.4.7, Microsoft name: EmfPlusDrawEllipse Record, Index 0x0F flags (LITTLE endian here, manual uses BIG endian) bit 9 U_PPF_C Set: Rect is U_PMF_RECT; Clear: Rect is U_PMF_RECTF bits 0-7 Index of an U_PMF_PEN object in the EMF+ object table (0-63, inclusive) */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header /* variable part of record, not included in structure (varies) Rect; //!< Bounding rectangle, data type set by bit1 of Header.Flags */ } U_PMF_DRAWELLIPSE; /** @brief EMF+ manual 2.3.4.8, Microsoft name: EmfPlusDrawImage Record, Index 0x1A flags (LITTLE endian here, manual uses BIG endian) bit 9 U_PPF_C Set: DstRect is U_PMF_RECT; Clear: DstRect is U_PMF_RECTF bits 0-7 Index of an U_PMF_Image object in the EMF+ object table (0-63, inclusive) */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header uint32_t ImgAttrID; //!< EmfPlusImageAttributes object int32_t SrcUnit; //!< UnitType enumeration U_PMF_RECTF SrcRect; //!< Region of image /* variable part of record, not included in structure (varies) DstRect; //!< Destination rectangle for image. Type controlled by bit1 of Header.Flags */ } U_PMF_DRAWIMAGE; /** @brief EMF+ manual 2.3.4.9, Microsoft name: EmfPlusDrawImagePoints Record, Index 0x1B flags (LITTLE endian here, manual uses BIG endian) bit 14 U_PPF_C Set: Points is U_PMF_POINT; Clear: Points is U_PMF_POINTF bit 13 U_PPF_E Set: effect from previous U_PMF_SERIALIZABLEOBJECT record will be applied; Clear: no effect applied bit 11 U_PPF_P Set: Points has relative coordinates; Clear: Points has absolute coordinates bits 0-7 Index of an U_PMF_Image object in the EMF+ object table (0-63, inclusive) bit1 bit4 Type of Data 1 0 U_EMF_POINT 0 0 U_EMF_POINTF 0 1 U_EMF_POINTR WARNING! Windows XP Preview does not show filter effects, whether or not U_PPF_E is set. They are visible if the EMF+ file is inserted as an image into PowerPoint. */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header uint32_t ImgAttrID; //!< EmfPlusImageAttributes object int32_t SrcUnit; //!< UnitType enumeration U_PMF_RECTF SrcRect; //!< Region of image uint32_t Elements; //!< Number of members in Points, must be 3 /* variable part of record, not included in structure (varies) Points; //!< 3 points of a parallelogram. Type from bit1 and bit4 of Header.Flags, see table above */ } U_PMF_DRAWIMAGEPOINTS; /** @brief EMF+ manual 2.3.4.10, Microsoft name: EmfPlusDrawLines Record, Index 0x0D flags (LITTLE endian here, manual uses BIG endian) bit 9 U_PPF_C Set: Points is U_PMF_POINT; Clear: Points is U_PMF_POINTF bit 10 U_PPF_D Set: close shape by connecting last point to first; Clear: leave path open bit 12 U_PPF_P Set: Points has relative coordinates; Clear: Points has absolute coordinates bits 0-7 Index of an U_PMF_Image object in the EMF+ object table (0-63, inclusive) bit1 bit4 Type of Data 1 0 U_EMF_POINT 0 0 U_EMF_POINTF 0 1 U_EMF_POINTR */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header uint32_t Elements; //!< Number of members in Points /* variable part of record, not included in structure (varies) Points; //!< Sequence of points to connect with line segments. Type from bit1 and bit4 of Header.Flags, see table above */ } U_PMF_DRAWLINES; /** @brief EMF+ manual 2.3.4.11, Microsoft name: EmfPlusDrawPath Record, Index 0x15 flags (LITTLE endian here, manual uses BIG endian) bits 0-7 Index of an U_PMF_PATH object in the EMF+ object table (0-63, inclusive) */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header uint32_t PenID; //!< U_PMF_PEN object in the EMF+ object table (0-63, inclusive) } U_PMF_DRAWPATH; /** @brief EMF+ manual 2.3.4.12, Microsoft name: EmfPlusDrawPie Record, Index 0x0D flags (LITTLE endian here, manual uses BIG endian) bit 9 U_PPF_C Set: Rect is U_PMF_RECT; Clear: Rect is U_PMF_RECTF bits 0-7 Index of an U_PMF_Pen object in the EMF+ object table (0-63, inclusive) */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header U_FLOAT Start; //!< Start angle, >=0.0, degrees clockwise from 3:00 U_FLOAT Sweep; //!< Sweep angle, -360<= angle <=360, degrees clockwise from Start /* variable part of record, not included in structure U_RECT or U_RECTF Rect; //!< Bounding box for elliptical pie segment being drawn. Type from bit1 of Header.Flags, see above */ } U_PMF_DRAWPIE; /** @brief EMF+ manual 2.3.4.13, Microsoft name: EmfPlusDrawRects Record, Index 0x0B flags (LITTLE endian here, manual uses BIG endian) bit 9 U_PPF_C Set: Rect is U_PMF_RECT; Clear: Rect is U_PMF_RECTF bits 0-7 Index of an U_PMF_Pen object in the EMF+ object table (0-63, inclusive) */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header uint32_t Elements; //!< Number of members in Rects /* variable part of record, not included in structure U_RECT or U_RECTF Rects; //!< Array of rectangles to draw. Type from bit1 of Header.Flags, see above */ } U_PMF_DRAWRECTS; /** @brief EMF+ manual 2.3.4.14, Microsoft name: EmfPlusDrawString Record, Index 0x1C flags (LITTLE endian here, manual uses BIG endian) bit 15 U_PPF_B Set: BrushID is an U_PFM_ARGB; Clear: is index of U_PMF_BRUSH object in EMF+ object table. bits 0-7 Index of an U_PMF_FONT object in the EMF+ object table (0-63, inclusive) */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header uint32_t BrushID; //!< Color or index to Brush object, depends on Flags bit0 uint32_t FormatID; //!< U_PMF_STRINGFORMAT object in EMF+ Object Table. uint32_t Length; //!< Number of characters in the string. U_PMF_RECTF Rect; //!< String's bounding box. /* variable part of record, not included in structure uint16_t String; //!< Array of UFT-16LE unicode characters. */ } U_PMF_DRAWSTRING; /** @brief EMF+ manual 2.3.4.15, Microsoft name: EmfPlusFillClosedCurve Record, Index 0x16 flags (LITTLE endian here, manual uses BIG endian) bit 15 U_PPF_B Set: BrushID is an U_PFM_ARGB; Clear: is index of U_PMF_BRUSH object in EMF+ object table. bit 9 U_PPF_C Set: Points is U_PMF_POINT; Clear: Points is U_PMF_POINTF bit 10 U_PPF_F Set: winding fill; Clear: alternate fill bit 12 U_PPF_P Set: Points has relative coordinates; Clear: Points has absolute coordinates bit1 bit4 Type of Data 1 0 U_EMF_POINT 0 0 U_EMF_POINTF 0 1 U_EMF_POINTR */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header uint32_t BrushID; //!< Color or index to Brush object, depends on Header.Flags bit0 U_FLOAT Tension; //!< Controls splines, 0 is straight line, >0 is curved uint32_t Elements; //!< Number of members in Points /* variable part of record, not included in structure (varies) Points; //!< Sequence of points to connect. Type from bit1 and bit4 of Header.Flags, see table above */ } U_PMF_FILLCLOSEDCURVE; /** @brief EMF+ manual 2.3.4.16, Microsoft name: EmfPlusFillEllipse Record, Index 0x0E flags (LITTLE endian here, manual uses BIG endian) bit 15 U_PPF_B Set: BrushID is an U_PFM_ARGB; Clear: is index of U_PMF_BRUSH object in EMF+ object table. bit 9 U_PPF_C Set: Rect is U_PMF_RECT; Clear: Rect is U_PMF_RECTF */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header uint32_t BrushID; //!< Color or index to Brush object, depends on Header.Flags bit0 /* variable part of record, not included in structure U_RECT or U_RECTF Rect; //!< Bounding box for elliptical pie segment being drawn. Type from bit1 of Header.Flags, see above */ } U_PMF_FILLELLIPSE; /** @brief EMF+ manual 2.3.4.17, Microsoft name: EmfPlusFillPath Record, Index 0x14 Note: U_PMF_FILLPATHOBJ is the object, U_PMF_FILLPATH is the file record flags (LITTLE endian here, manual uses BIG endian) bit 15 U_PPF_B Set: BrushID is an U_PFM_ARGB; Clear: is index of U_PMF_BRUSH object in EMF+ object table. bits 0-7 Index of an U_PMF_PATH object in the EMF+ object table (0-63, inclusive) */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header uint32_t BrushID; //!< Color or index to Brush object, depends on Header.Flags bit0 } U_PMF_FILLPATH; /** @brief EMF+ manual 2.3.4.18, Microsoft name: EmfPlusFillPie Record, Index 0x10 flags (LITTLE endian here, manual uses BIG endian) bit 15 U_PPF_B Set: BrushID is an U_PFM_ARGB; Clear: is index of U_PMF_BRUSH object in EMF+ object table. bit 9 U_PPF_C Set: Rect is U_PMF_RECT; Clear: Rect is U_PMF_RECTF */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header uint32_t BrushID; //!< Color or index to Brush object, depends on Header.Flags bit0 U_FLOAT Start; //!< Start angle, >=0.0, degrees clockwise from 3:00 U_FLOAT Sweep; //!< Sweep angle, -360<= angle <=360, degrees clockwise from Start /* variable part of record, not included in structure U_RECT or U_RECTF Rect; //!< Bounding box for elliptical pie segment being filled. Type from bit1 of Header.Flags, see above */ } U_PMF_FILLPIE; /** @brief EMF+ manual 2.3.4.19, Microsoft name: EmfPlusFillPolygon Record, Index 0x0C flags (LITTLE endian here, manual uses BIG endian) bit 15 U_PPF_B Set: BrushID is an U_PFM_ARGB; Clear: is index of U_PMF_BRUSH object in EMF+ object table. bit 9 U_PPF_C Set: Points is U_PMF_POINT; Clear: Points is U_PMF_POINTF bit 12 U_PPF_P Set: Points has relative coordinates; Clear: Points has absolute coordinates bit1 bit4 Type of Data 1 0 U_EMF_POINT 0 0 U_EMF_POINTF 0 1 U_EMF_POINTR */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header uint32_t BrushID; //!< Color or index to Brush object, depends on Header.Flags bit0 uint32_t Elements; //!< Number of members in Points /* variable part of record, not included in structure (varies) Points; //!< Sequence of points to connect with line segments. Type from bit1 and bit4 of Header.Flags, see table above */ } U_PMF_FILLPOLYGON; /** @brief EMF+ manual 2.3.4.20, Microsoft name: EmfPlusFillRects Record, Index 0x0A flags (LITTLE endian here, manual uses BIG endian) bit 15 U_PPF_B Set: BrushID is an U_PFM_ARGB; Clear: is index of U_PMF_BRUSH object in EMF+ object table. bit 9 U_PPF_C Set: Rect is U_PMF_RECT; Clear: Rect is U_PMF_RECTF */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header uint32_t BrushID; //!< Color or index to Brush object, depends on Header.Flags bit0 uint32_t Elements; //!< Number of members in Rects /* variable part of record, not included in structure U_RECT or U_RECTF Rects; //!< Array of rectangles to draw. Type from bit1 of Header.Flags, see above */ } U_PMF_FILLRECTS; /** @brief EMF+ manual 2.3.4.21, Microsoft name: EmfPlusFillRegion Record, Index 0x13 flags (LITTLE endian here, manual uses BIG endian) bit 15 U_PPF_B Set: BrushID is an U_PFM_ARGB; Clear: is index of U_PMF_BRUSH object in EMF+ object table. bits 0-7 Index of an U_PMF_REGION object in the EMF+ object table (0-63, inclusive) */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header uint32_t BrushID; //!< Color or index to Brush object, depends on Header.Flags bit0 } U_PMF_FILLREGION; /** @brief EMF+ manual 2.3.5.1, Microsoft name: EmfPlusObject Record, Index 0x13 flags (LITTLE endian here, manual uses BIG endian) bit 15 U_PPF_N Set: object definition continues in next record; Clear: this is the final object definition record bits 8-14 Type of object being created, ObjectType enumeration bits 0-7 Index of an U_PMF_REGION object in the EMF+ object table (0-63, inclusive) */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header /* variable part of record, not included in structure uint8_t Data; //!< Object's data. Type from bits1-7 and bits8-15 of Header.Flags, see above */ } U_PMF_OBJECT; /** @brief EMF+ manual 2.3.5.2, Microsoft name: EmfPlusSerializableObject Record, Index 0x38 WARNING! Windows XP Preview does not show filter effects, whether or not U_PPF_E is set. They are visible if the EMF+ file is inserted as an image into PowerPoint. */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header (ignore flags and set to zero) uint8_t GUID[16]; //!< ImageEffects identifier. Composed of Data1[4]-Data2[2]-Data3[2]-Data4[8] //!< Data1-Data3 are stored as little endian integers. Data4 is stored big endian (like a string) uint32_t Size; //!< Bytes in Data. /* variable part of record, not included in structure uint8_t Data; //!< "Serialized image effects parameter block". One of the ImageEffects objects. */ } U_PMF_SERIALIZABLEOBJECT; /** @brief EMF+ manual 2.3.6.1, Microsoft name: EmfPlusSetAntiAliasMode Record, Index 0x1E flags (LITTLE endian here, manual uses BIG endian) bits 7-1 SmoothingMode enumeration bit 0 U_PPF_AA Set: anti-aliasing on; Clear: anti-aliasing off */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header } U_PMF_SETANTIALIASMODE; /** @brief EMF+ manual 2.3.6.2, Microsoft name: EmfPlusSetCompositingMode Record, Index 0x23 flags (LITTLE endian here, manual uses BIG endian) bits 0-7 CompositingMode enumeration */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header } U_PMF_SETCOMPOSITINGMODE; /** @brief EMF+ manual 2.3.6.3, Microsoft name: EmfPlusSetCompositingQuality Record, Index 0x24 flags (LITTLE endian here, manual uses BIG endian) bits 0-7 CompositingQuality enumeration */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header } U_PMF_SETCOMPOSITINGQUALITY; /** @brief EMF+ manual 2.3.6.4, Microsoft name: EmfPlusSetInterpolationMode Record, Index 0x21 flags (LITTLE endian here, manual uses BIG endian) bits 0-7 InterpolationMode enumeration */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header } U_PMF_SETINTERPOLATIONMODE; /** @brief EMF+ manual 2.3.6.5, Microsoft name: EmfPlusSetPixelOffsetMode Record, Index 0x22 flags (LITTLE endian here, manual uses BIG endian) bits 0-7 PixelOffsetMode enumeration */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header } U_PMF_SETPIXELOFFSETMODE; /** @brief EMF+ manual 2.3.6.6, Microsoft name: EmfPlusSetRenderingOrigin Record, Index 0x1D */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header (ignore flags and set to zero) int32_t X; //!< X coordinate of rendering origin int32_t Y; //!< Y coordinate of rendering origin } U_PMF_SETRENDERINGORIGIN; /** @brief EMF+ manual 2.3.6.7, Microsoft name: EmfPlusSetTextContrast Record, Index 0x20 flags (LITTLE endian here, manual uses BIG endian) bits 12-0 1000 x Gamma correction value. Range 1000-2200 = gamma 1.0-2.2 */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header } U_PMF_SETTEXTCONTRAST; /** @brief EMF+ manual 2.3.6.8, Microsoft name: EmfPlusSetTextRenderingHint Record, Index 0x1F flags (LITTLE endian here, manual uses BIG endian) bits 0-7 TextRenderingHint enumeration */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header } U_PMF_SETTEXTRENDERINGHINT; /** @brief EMF+ manual 2.3.7.1, Microsoft name: EmfPlusBeginContainer Record, Index 0x27 flags (LITTLE endian here, manual uses BIG endian) bits 8-15 UnitType enumeration bits 0-7 (all zero) */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header U_PMF_RECTF DstRect; //!< with SrcRect specifies a transformation U_PMF_RECTF SrcRect; //!< with DstRect specifies a transformation uint32_t Index; //!< Index to apply to this graphics container } U_PMF_BEGINCONTAINER; /** @brief EMF+ manual 2.3.7.2, Microsoft name: EmfPlusBeginContainerNoParams Record, Index 0x28 */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header (ignore flags and set to zero) uint32_t Index; //!< Index to apply to this graphics container } U_PMF_BEGINCONTAINERNOPARAMS; /** @brief EMF+ manual 2.3.7.3, Microsoft name: EmfPlusEndContainer Record, Index 0x29 */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header (ignore flags and set to zero) uint32_t Index; //!< Index of container being closed, from U_PMF_BEGINCONTAINERNOPARAMS or U_PMF_BEGINCONTAINER } U_PMF_ENDCONTAINER; /** @brief EMF+ manual 2.3.7.4, Microsoft name: EmfPlusRestore Record, Index 0x26 */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header (ignore flags and set to zero) uint32_t Index; //!< Index of Graphics State being restored, from U_PMF_SAVE } U_PMF_RESTORE; /** @brief EMF+ manual 2.3.7.5, Microsoft name: EmfPlusSave Record, Index 0x25 */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header (ignore flags and set to zero) uint32_t Index; //!< Index of Graphics State being saved } U_PMF_SAVE; /** @brief EMF+ manual 2.3.8.1, Microsoft name: EmfPlusSetTSClip Record, Index 0x3A flags (LITTLE endian here, manual uses BIG endian) bit 15 U_PPF_K Set: Rect is U_PMF_RECT; Clear: Rect is U_PMF_RECTF bits 14-0 Number of rectangles in Rects field */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header /* variable part of record, not included in structure U_RECT or U_RECTF Rects; //!< Array of rectangles to draw. Type from bit0 of Header.Flags, see above */ } U_PMF_SETTSCLIP; /** @brief EMF+ manual 2.3.8.2, Microsoft name: EmfPlusSetTSGraphics Record, Index 0x39 flags (LITTLE endian here, manual uses BIG endian) bit 1 U_PPF_VGA Set: Palette is VGA basic colors; Clear: Palette is a U_PMF_PALETTE object. bit 0 U_PPF_PP Set: Palette field is present; Clear: Palette field is absent */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header uint8_t AntiAliasMode; //!< SmoothingMode enumeration uint8_t TextRenderHint; //!< TextRenderingHint enumeration uint8_t CompositingMode; //!< CompositingMode enumeration uint8_t CompositingQuality; //!< CompositingQuality enumeration int16_t RenderOriginX; //!< Origin X for halftoning and dithering int16_t RenderOriginY; //!< Origin Y for halftoning and dithering uint16_t TextContrast; //!< Gamma correction, range 0 to 12 uint8_t FilterType; //!< FilterType enumeraton uint8_t PixelOffset; //!< PixelOffsetMode enumeration U_PMF_TRANSFORMMATRIX WorldToDevice; //!< world to device transform /* optional part of record, not included in structure U_PMF_PALETTE Palette; //!< Present if bit15 of Header.Flags is set */ } U_PMF_SETTSGRAPHICS; /** @brief EMF+ manual 2.3.9.1, Microsoft name: EmfPlusMultiplyWorldTransform Record, Index 0x2C flags (LITTLE endian here, manual uses BIG endian) bit 13 U_PPF_XM Set: Post multiply; Clear: Pre multiply */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header U_PMF_TRANSFORMMATRIX Matrix; //!< Transformation matrix } U_PMF_MULTIPLYWORLDTRANSFORM; /** @brief EMF+ manual 2.3.9.2, Microsoft name: EmfPlusResetWorldTransform Record, Index 0x2B Sets transformation matrix to identity matrix. */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header (ignore flags and set to zero) } U_PMF_RESETWORLDTRANSFORM; /** @brief EMF+ manual 2.3.9.3, Microsoft name: EmfPlusRotateWorldTransform Record, Index 0x2F Construct transformation matrix from Angle: sin(Angle) cos(Angle) 0 cos(Angle) -sin(Angle) 0 Multiply this against current world space transform, result becomes new world space transform. flags (LITTLE endian here, manual uses BIG endian) bit 13 U_PPF_XM Set: Post multiply; Clear: Pre multiply */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header U_FLOAT Angle; //!< Rotation angle, in degrees } U_PMF_ROTATEWORLDTRANSFORM; /** @brief EMF+ manual 2.3.9.4, Microsoft name: EmfPlusScaleWorldTransform Record, Index 0x2E Construct transformation matrix: Sx 0 0 0 Sy 0 Multiply this against current world space transform, result becomes new world space transform. flags (LITTLE endian here, manual uses BIG endian) bit 13 U_PPF_XM Set: Post multiply; Clear: Pre multiply */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header U_FLOAT Sx; //!< X scale factor U_FLOAT Sy; //!< Y scale factor } U_PMF_SCALEWORLDTRANSFORM; /** @brief EMF+ manual 2.3.9.5, Microsoft name: EmfPlusSetPageTransform Record, Index 0x30 flags (LITTLE endian here, manual uses BIG endian) bits 0-7 UnitType enumeration */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header U_FLOAT Scale; //!< Scale factor to convert page space to device space } U_PMF_SETPAGETRANSFORM; /** @brief EMF+ manual 2.3.9.6, Microsoft name: EmfPlusSetWorldTransform Record, Index 0x2A */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header (ignore flags and set to zero) U_PMF_TRANSFORMMATRIX Matrix; //!< Transformation matrix } U_PMF_SETWORLDTRANSFORM; /** @brief EMF+ manual 2.3.9.7, Microsoft name: EmfPlusTranslateWorldTransform Record, Index 0x2D Construct transformation matrix: 1 0 Dx 0 1 Dy Multiply this against current world space transform, result becomes new world space transform. flags (LITTLE endian here, manual uses BIG endian) bit 13 U_PPF_XM Set: Post multiply; Clear: Pre multiply */ typedef struct { U_PMF_CMN_HDR Header; //!< Common header U_FLOAT Dx; //!< X offset U_FLOAT Dy; //!< Y offset } U_PMF_TRANSLATEWORLDTRANSFORM; //! \cond /* EMF+ prototypes (helper functions) */ int U_PMR_write(U_PSEUDO_OBJ *po, U_PSEUDO_OBJ *sum, EMFTRACK *et); int U_PMR_drawline(uint32_t PenID, uint32_t PathID, U_PMF_POINTF Start, U_PMF_POINTF End, int Dashed, U_PSEUDO_OBJ *sum, EMFTRACK *et); int U_PMR_drawstring( const char *string, int Vpos, uint32_t FontID, const U_PSEUDO_OBJ *BrushID, uint32_t FormatID, U_PMF_STRINGFORMAT Sfs, const char *FontName, U_FLOAT Height, U_FontInfoParams *fip, uint32_t FontFlags, U_FLOAT x, U_FLOAT y, U_PSEUDO_OBJ *sum, EMFTRACK *et); U_PMF_POINT *POINTF_To_POINT16_LE(U_PMF_POINTF *points, int count); int U_PMF_LEN_REL715(const char *contents, int Elements); int U_PMF_LEN_FLOATDATA(const char *contents); int U_PMF_LEN_BYTEDATA(const char *contents); int U_PMF_LEN_PENDATA(const char *PenData); int U_PMF_LEN_OPTPENDATA(const char *PenData, uint32_t Flags); char *U_PMF_CURLYGUID_set(uint8_t *GUID); int U_PMF_KNOWNCURLYGUID_set(const char *string); void U_PMF_MEMCPY_SRCSHIFT(void *Dst, const char **Src, size_t Size); void U_PMF_MEMCPY_DSTSHIFT(char **Dst, const void *Src, size_t Size); void U_PMF_REPCPY_DSTSHIFT(char **Dst, const void *Src, size_t Size, size_t Reps); void U_PMF_PTRSAV_SHIFT(const char **Dst, const char **Src, size_t Size); uint16_t U_PMF_HEADERFLAGS_get(const char *contents); int U_PMF_RECORD_SIZE_get(const char *contents); int U_PMF_CMN_HDR_get(const char **contents, U_PMF_CMN_HDR *Header); int U_OID_To_OT(uint32_t OID); int U_OID_To_BT(uint32_t OID); int U_OID_To_CLCDT(uint32_t OID); int U_OID_To_IDT(uint32_t OID); int U_OID_To_RNDT(uint32_t OID); uint8_t *U_OID_To_GUID(uint32_t OID); int U_OA_append(U_OBJ_ACCUM *oa, const char *data, int size, int Type, int Id); int U_OA_clear(U_OBJ_ACCUM *oa); int U_OA_release(U_OBJ_ACCUM *oa); U_PSEUDO_OBJ *U_PO_create(char *Data, size_t Size, size_t Use, uint32_t Type); U_PSEUDO_OBJ *U_PO_append(U_PSEUDO_OBJ *po, const char *Data, size_t Size); U_PSEUDO_OBJ *U_PO_po_append(U_PSEUDO_OBJ *po, U_PSEUDO_OBJ *src, int StripE); int U_PO_free(U_PSEUDO_OBJ **po); U_DPSEUDO_OBJ *U_PATH_create(int Elements, const U_PMF_POINTF *Points, uint8_t First, uint8_t Others); int U_DPO_free(U_DPSEUDO_OBJ **dpo); int U_DPO_clear(U_DPSEUDO_OBJ *dpo); int U_PATH_moveto(U_DPSEUDO_OBJ *path, U_PMF_POINTF Point, uint8_t Flags); int U_PATH_lineto(U_DPSEUDO_OBJ *path, U_PMF_POINTF Point, uint8_t Flags); int U_PATH_closepath(U_DPSEUDO_OBJ *path); int U_PATH_polylineto(U_DPSEUDO_OBJ *path, uint32_t Elements, const U_PMF_POINTF *Points, uint8_t Flags, uint8_t StartSeg); int U_PATH_polybezierto(U_DPSEUDO_OBJ *path, uint32_t Elements, const U_PMF_POINTF *Points, uint8_t Flags, uint8_t StartSeg); int U_PATH_polygon(U_DPSEUDO_OBJ *Path, uint32_t Elements, const U_PMF_POINTF *Points, uint8_t Flags); int U_PATH_arcto(U_DPSEUDO_OBJ *Path, U_FLOAT Start, U_FLOAT Sweep, U_FLOAT Rot, U_PMF_RECTF *Rect, uint8_t Flags, int StartSeg); U_PMF_POINTF *pointfs_transform(U_PMF_POINTF *points, int count, U_XFORM xform); U_PMF_RECTF *rectfs_transform(U_PMF_RECTF *rects, int count, U_XFORM xform); U_PMF_TRANSFORMMATRIX tm_for_gradrect(U_FLOAT Angle, U_FLOAT w, U_FLOAT h, U_FLOAT x, U_FLOAT y, U_FLOAT Periods); U_PSEUDO_OBJ *U_PMR_drawfill(uint32_t PathID, uint32_t PenID, const U_PSEUDO_OBJ *BrushID); char *U_pmr_names(unsigned int idx); /* EMF+ prototypes (objects_set) */ U_PSEUDO_OBJ *U_PMF_BRUSH_set(uint32_t Version, const U_PSEUDO_OBJ *po); U_PSEUDO_OBJ *U_PMF_CUSTOMLINECAP_set(uint32_t Version, const U_PSEUDO_OBJ *po); U_PSEUDO_OBJ *U_PMF_FONT_set(uint32_t Version, U_FLOAT EmSize, uint32_t SizeUnit, int32_t FSFlags, uint32_t Length, const uint16_t *Font); U_PSEUDO_OBJ *U_PMF_IMAGE_set(uint32_t Version, const U_PSEUDO_OBJ *po); U_PSEUDO_OBJ *U_PMF_IMAGEATTRIBUTES_set(uint32_t Version, uint32_t WrapMode, uint32_t ClampColor, uint32_t ObjectClamp); U_PSEUDO_OBJ *U_PMF_PATH_set(uint32_t Version, const U_PSEUDO_OBJ *Points, const U_PSEUDO_OBJ *Types); U_PSEUDO_OBJ *U_PMF_PATH_set2(uint32_t Version, const U_DPSEUDO_OBJ *Path); U_PSEUDO_OBJ *U_PMF_PATH_set3(uint32_t Version, const U_DPSEUDO_OBJ *Path); U_PSEUDO_OBJ *U_PMF_PEN_set(uint32_t Version, const U_PSEUDO_OBJ *PenData, const U_PSEUDO_OBJ *Brush); U_PSEUDO_OBJ *U_PMF_REGION_set(uint32_t Version, uint32_t Count, const U_PSEUDO_OBJ *Nodes); U_PSEUDO_OBJ *U_PMF_STRINGFORMAT_set(U_PMF_STRINGFORMAT *Sfs, const U_PSEUDO_OBJ *Sfd); U_PSEUDO_OBJ *U_PMF_4NUM_set(uint32_t BrushID); U_PSEUDO_OBJ *U_PMF_ARGB_set(uint8_t Alpha, uint8_t Red, uint8_t Green, uint8_t Blue); U_PSEUDO_OBJ *U_PMF_ARGBN_set(uint32_t Count, U_PMF_ARGB *Colors); U_PMF_ARGB U_PMF_ARGBOBJ_set(uint8_t Alpha, uint8_t Red, uint8_t Green, uint8_t Blue); U_PSEUDO_OBJ *U_PMF_BITMAP_set(const U_PMF_BITMAP *Bs, const U_PSEUDO_OBJ *Bm); U_PSEUDO_OBJ *U_PMF_BITMAPDATA_set( const U_PSEUDO_OBJ *Ps, int cbBm, const char *Bm); U_PSEUDO_OBJ *U_PMF_BLENDCOLORS_set(uint32_t Elements, const U_FLOAT *Positions, const U_PSEUDO_OBJ *Colors); U_PSEUDO_OBJ *U_PMF_BLENDCOLORS_linear_set(uint32_t Elements,U_PMF_ARGB StartColor, U_PMF_ARGB EndColor); U_PSEUDO_OBJ *U_PMF_BLENDFACTORS_set(uint32_t Elements, const U_FLOAT *Positions, const U_FLOAT *Factors); U_PSEUDO_OBJ *U_PMF_BLENDFACTORS_linear_set(uint32_t Elements, U_FLOAT StartFactor, U_FLOAT EndFactor); U_PSEUDO_OBJ *U_PMF_BOUNDARYPATHDATA_set(const U_PSEUDO_OBJ *Path); U_PSEUDO_OBJ *U_PMF_BOUNDARYPOINTDATA_set(uint32_t Elements, const U_PMF_POINTF *Points); U_PSEUDO_OBJ *U_PMF_CHARACTERRANGE_set(int32_t First, int32_t Length); U_PSEUDO_OBJ *U_PMF_COMPOUNDLINEDATA_set(int32_t Elements, const char *Widths); U_PSEUDO_OBJ *U_PMF_COMPRESSEDIMAGE_set(int32_t cbImage, const char *Image); U_PSEUDO_OBJ *U_PMF_CUSTOMENDCAPDATA_set(const U_PSEUDO_OBJ *Clc); U_PSEUDO_OBJ *U_PMF_CUSTOMLINECAPARROWDATA_set(U_FLOAT Width, U_FLOAT Height, U_FLOAT MiddleInset, uint32_t FillState, uint32_t StartCap, uint32_t EndCap, uint32_t Join, U_FLOAT MiterLimit, U_FLOAT WidthScale); U_PSEUDO_OBJ *U_PMF_CUSTOMLINECAPDATA_set(uint32_t Flags, uint32_t Cap, U_FLOAT Inset, uint32_t StartCap, uint32_t EndCap, uint32_t Join, U_FLOAT MiterLimit, U_FLOAT WidthScale, const U_PSEUDO_OBJ *Clcod); U_PSEUDO_OBJ *U_PMF_CUSTOMLINECAPOPTIONALDATA_set(const U_PSEUDO_OBJ *Fill, const U_PSEUDO_OBJ *Line); U_PSEUDO_OBJ *U_PMF_CUSTOMSTARTCAPDATA_set(const U_PSEUDO_OBJ *Clc); U_PSEUDO_OBJ *U_PMF_DASHEDLINEDATA_set(int32_t Elements, const U_FLOAT *Lengths); U_PSEUDO_OBJ *U_PMF_DASHEDLINEDATA_set2(U_FLOAT Unit, int StdPat); U_PSEUDO_OBJ *U_PMF_DASHEDLINEDATA_set3(U_FLOAT Unit, uint32_t BitPat); U_PSEUDO_OBJ *U_PMF_FILLPATHOBJ_set(const U_PSEUDO_OBJ *Path); U_PSEUDO_OBJ *U_PMF_FOCUSSCALEDATA_set(U_FLOAT ScaleX, U_FLOAT ScaleY); U_PSEUDO_OBJ *U_PMF_GRAPHICSVERSION_set(int GrfVersion); U_PMF_GRAPHICSVERSION U_PMF_GRAPHICSVERSIONOBJ_set(int GrfVersion); U_PSEUDO_OBJ *U_PMF_HATCHBRUSHDATA_set(uint32_t Style, const U_PSEUDO_OBJ *Fg, const U_PSEUDO_OBJ *Bg); U_PSEUDO_OBJ *U_PMF_INTEGER7_set(int value); U_PSEUDO_OBJ *U_PMF_INTEGER15_set(int value); U_PMF_LANGUAGEIDENTIFIER U_PMF_LANGUAGEIDENTIFIEROBJ_set(int SubLId, int PriLId); U_PSEUDO_OBJ *U_PMF_LANGUAGEIDENTIFIER_set(U_PMF_LANGUAGEIDENTIFIER LId); U_PSEUDO_OBJ *U_PMF_LINEARGRADIENTBRUSHDATA_set(const U_PMF_LINEARGRADIENTBRUSHDATA *Lgbd, const U_PSEUDO_OBJ *Lgbod); U_PSEUDO_OBJ *U_PMF_LINEARGRADIENTBRUSHOPTIONALDATA_set(uint32_t *Flags, const U_PSEUDO_OBJ *Tm, const U_PSEUDO_OBJ *Bc, const U_PSEUDO_OBJ *BfH, const U_PSEUDO_OBJ *BfV); U_PSEUDO_OBJ *U_PMF_LINEPATH_set(const U_PSEUDO_OBJ *Path); U_PSEUDO_OBJ *U_PMF_METAFILE_set(void); U_PSEUDO_OBJ *U_PMF_PALETTE_set(uint32_t Flags, uint32_t Elements, const U_PMF_ARGB *Pd); U_PSEUDO_OBJ *U_PMF_PATHGRADIENTBRUSHDATA_set(uint32_t Flags, int32_t WrapMode, U_PMF_ARGB CenterColor, U_PMF_POINTF Center, const U_PSEUDO_OBJ *Gradient, const U_PSEUDO_OBJ *Boundary, const U_PSEUDO_OBJ *Data); U_PSEUDO_OBJ *U_PMF_PATHGRADIENTBRUSHOPTIONALDATA_set(uint32_t Flags, const U_PSEUDO_OBJ *Tm, const U_PSEUDO_OBJ *Pd, const U_PSEUDO_OBJ *Fsd); U_PSEUDO_OBJ *U_PMF_PATHPOINTTYPE_set(uint32_t Elements, const uint8_t *Ppt); U_PSEUDO_OBJ *U_PMF_PATHPOINTTYPE_set2(uint32_t Elements, uint8_t Start, uint8_t Others); U_PSEUDO_OBJ *U_PMF_PATHPOINTTYPERLE_set(uint32_t Elements, const uint8_t *Bz, const uint8_t *RL, const uint8_t *Ppte); U_PSEUDO_OBJ *U_PMF_PENDATA_set(uint32_t Unit, U_FLOAT Width, const U_PSEUDO_OBJ *Pod); U_PSEUDO_OBJ *U_PMF_PENOPTIONALDATA_set(uint32_t Flags, U_PSEUDO_OBJ *Tm, int32_t StartCap, int32_t EndCap, uint32_t Join, U_FLOAT MiterLimit, int32_t Style, int32_t DLCap, U_FLOAT DLOffset, U_PSEUDO_OBJ *DLData, int32_t PenAlignment, U_PSEUDO_OBJ *CmpndLineData, U_PSEUDO_OBJ *CSCapData, U_PSEUDO_OBJ *CECapData); U_PSEUDO_OBJ *U_PMF_POINT_set(uint32_t Elements, const U_PMF_POINT *Coords); U_PSEUDO_OBJ *U_PMF_POINTF_set(uint32_t Elements, const U_PMF_POINTF *Coords); U_PSEUDO_OBJ *U_PMF_POINTR_set(uint32_t Elements, const U_PMF_POINTF *Coords); U_PSEUDO_OBJ *U_PMF_RECT4_set(int16_t X, int16_t Y, int16_t Width, int16_t Height); U_PSEUDO_OBJ *U_PMF_RECT_set(U_PMF_RECT *Rect); U_PSEUDO_OBJ *U_PMF_RECTN_set(uint32_t Elements, U_PMF_RECT *Rects); U_PSEUDO_OBJ *U_PMF_RECTF4_set(U_FLOAT X, U_FLOAT Y, U_FLOAT Width, U_FLOAT Height); U_PSEUDO_OBJ *U_PMF_RECTF_set(U_PMF_RECTF *Rect); U_PSEUDO_OBJ *U_PMF_RECTFN_set(uint32_t Elements, U_PMF_RECTF *Rects); U_PSEUDO_OBJ *U_PMF_REGIONNODE_set(int32_t Type, const U_PSEUDO_OBJ *Rnd); U_PSEUDO_OBJ *U_PMF_REGIONNODECHILDNODES_set(const U_PSEUDO_OBJ *Left, const U_PSEUDO_OBJ *Right); U_PSEUDO_OBJ *U_PMF_REGIONNODEPATH_set(const U_PSEUDO_OBJ *Path); U_PSEUDO_OBJ *U_PMF_SOLIDBRUSHDATA_set(const U_PSEUDO_OBJ *Color); U_PSEUDO_OBJ *U_PMF_STRINGFORMATDATA_set(uint32_t TabStopCount, U_FLOAT *TabStops, const U_PSEUDO_OBJ *Ranges); U_PSEUDO_OBJ *U_PMF_TEXTUREBRUSHDATA_set(uint32_t Flags, uint32_t WrapMode, const U_PSEUDO_OBJ *Tbod); U_PSEUDO_OBJ *U_PMF_TEXTUREBRUSHOPTIONALDATA_set(const U_PSEUDO_OBJ *Tm, const U_PSEUDO_OBJ *Image); U_PSEUDO_OBJ *U_PMF_TRANSFORMMATRIX_set(U_PMF_TRANSFORMMATRIX *Tm); U_PSEUDO_OBJ *U_PMF_IE_BLUR_set(U_FLOAT Radius, uint32_t ExpandEdge); U_PSEUDO_OBJ *U_PMF_IE_BRIGHTNESSCONTRAST_set(int32_t Brightness, int32_t Contrast); U_PSEUDO_OBJ *U_PMF_IE_COLORBALANCE_set(int32_t CyanRed, int32_t MagentaGreen, int32_t YellowBlue); U_PSEUDO_OBJ *U_PMF_IE_COLORCURVE_set(uint32_t Adjust, uint32_t Channel, int32_t Intensity); U_PSEUDO_OBJ *U_PMF_IE_COLORLOOKUPTABLE_set(const uint8_t *BLUT, const uint8_t *GLUT, const uint8_t *RLUT, const uint8_t *ALUT); U_PSEUDO_OBJ *U_PMF_IE_COLORMATRIX_set(const U_FLOAT *Matrix); U_PSEUDO_OBJ *U_PMF_IE_HUESATURATIONLIGHTNESS_set(int32_t Hue, int32_t Saturation, int32_t Lightness); U_PSEUDO_OBJ *U_PMF_IE_LEVELS_set(int32_t Highlight, int32_t Midtone, int32_t Shadow); U_PSEUDO_OBJ *U_PMF_IE_REDEYECORRECTION_set(uint32_t Elements, const U_RECTL *rects); U_PSEUDO_OBJ *U_PMF_IE_SHARPEN_set(U_FLOAT Radius, int32_t Sharpen); U_PSEUDO_OBJ *U_PMF_IE_TINT_set(int32_t Hue, int32_t Amount); U_PSEUDO_OBJ *U_PMR_SERIALIZABLEOBJECT_set(const U_PSEUDO_OBJ *Siepb); /* EMF+ prototypes (records_set) */ U_PSEUDO_OBJ *U_PMR_OFFSETCLIP_set(U_FLOAT dX, U_FLOAT dY); U_PSEUDO_OBJ *U_PMR_RESETCLIP_set(void); U_PSEUDO_OBJ *U_PMR_SETCLIPPATH_set(uint32_t PathID, uint32_t CMenum); U_PSEUDO_OBJ *U_PMR_SETCLIPRECT_set(uint32_t CMenum, const U_PSEUDO_OBJ *Rect); U_PSEUDO_OBJ *U_PMR_SETCLIPREGION_set(uint32_t PathID, uint32_t CMenum); U_PSEUDO_OBJ *U_PMR_COMMENT_set(size_t cbData, const void *Data); U_PSEUDO_OBJ *U_PMR_ENDOFFILE_set(void); U_PSEUDO_OBJ *U_PMR_GETDC_set(void); U_PSEUDO_OBJ *U_PMR_HEADER_set(int IsDual, int IsVideo, const U_PSEUDO_OBJ *Version, uint32_t LogicalDpiX, uint32_t LogicalDpiY); U_PSEUDO_OBJ *U_PMR_CLEAR_set(const U_PSEUDO_OBJ *Color); U_PSEUDO_OBJ *U_PMR_DRAWARC_set(uint32_t PenID, U_FLOAT Start, U_FLOAT Sweep, const U_PSEUDO_OBJ *Rect); U_PSEUDO_OBJ *U_PMR_DRAWBEZIERS_set(uint32_t PenID, const U_PSEUDO_OBJ *Points); U_PSEUDO_OBJ *U_PMR_DRAWCLOSEDCURVE_set(uint32_t PenID, U_FLOAT Tension, const U_PSEUDO_OBJ *Points); U_PSEUDO_OBJ *U_PMR_DRAWCURVE_set(uint32_t PenID, U_FLOAT Tension,uint32_t Offset, uint32_t NSegs, const U_PSEUDO_OBJ *Points); U_PSEUDO_OBJ *U_PMR_DRAWDRIVERSTRING_set(uint32_t FontID, const U_PSEUDO_OBJ *BrushID, uint32_t DSOFlags, uint32_t HasMatrix, uint32_t GlyphCount, const uint16_t *Glyphs, const U_PSEUDO_OBJ *Points, const U_PSEUDO_OBJ *Tm); U_PSEUDO_OBJ *U_PMR_DRAWELLIPSE_set(uint32_t PenID, const U_PSEUDO_OBJ *Rect); U_PSEUDO_OBJ *U_PMR_DRAWIMAGE_set(uint32_t ImgID, int32_t ImgAttrID, int32_t SrcUnit, const U_PSEUDO_OBJ *SrcRect, const U_PSEUDO_OBJ *DstRect); U_PSEUDO_OBJ *U_PMR_DRAWIMAGEPOINTS_set(uint32_t ImgID, int etype, int32_t ImgAttrID, int32_t SrcUnit, const U_PSEUDO_OBJ *SrcRect, const U_PSEUDO_OBJ *Points); U_PSEUDO_OBJ *U_PMR_DRAWLINES_set(uint32_t PenID, int dtype, const U_PSEUDO_OBJ *Points); U_PSEUDO_OBJ *U_PMR_DRAWPATH_set(uint32_t PathID, uint32_t PenID); U_PSEUDO_OBJ *U_PMR_DRAWPIE_set(uint32_t PenID, U_FLOAT Start, U_FLOAT Sweep, const U_PSEUDO_OBJ *Rect); U_PSEUDO_OBJ *U_PMR_DRAWRECTS_set(uint32_t PenID, const U_PSEUDO_OBJ *Rects); U_PSEUDO_OBJ *U_PMR_DRAWSTRING_set(uint32_t FontID, const U_PSEUDO_OBJ *BrushID, uint32_t FormatID, uint32_t Length, const U_PSEUDO_OBJ *Rect, const uint16_t *Text); U_PSEUDO_OBJ *U_PMR_FILLCLOSEDCURVE_set(int ftype, U_FLOAT Tension, const U_PSEUDO_OBJ * BrushID, const U_PSEUDO_OBJ *Points); U_PSEUDO_OBJ *U_PMR_FILLELLIPSE_set(const U_PSEUDO_OBJ * BrushID, const U_PSEUDO_OBJ *Rect); U_PSEUDO_OBJ *U_PMR_FILLPATH_set(uint32_t PathID, const U_PSEUDO_OBJ * BrushID); U_PSEUDO_OBJ *U_PMR_FILLPIE_set(U_FLOAT Start, U_FLOAT Sweep, const U_PSEUDO_OBJ *BrushID, const U_PSEUDO_OBJ *Rect); U_PSEUDO_OBJ *U_PMR_FILLPOLYGON_set(const U_PSEUDO_OBJ *BrushID, const U_PSEUDO_OBJ *Points); U_PSEUDO_OBJ *U_PMR_FILLRECTS_set(const U_PSEUDO_OBJ *BrushID, const U_PSEUDO_OBJ *Rects); U_PSEUDO_OBJ *U_PMR_FILLREGION_set(uint32_t RgnID, const U_PSEUDO_OBJ *BrushID); U_PSEUDO_OBJ *U_PMR_OBJECT_PO_set(uint32_t ObjID, U_PSEUDO_OBJ *Po); U_PSEUDO_OBJ *U_PMR_OBJECT_set(uint32_t ObjID, int otype, int ntype, uint32_t TSize, size_t cbData, const char *Data); U_PSEUDO_OBJ *U_PMR_SETANTIALIASMODE_set(int SMenum, int aatype); U_PSEUDO_OBJ *U_PMR_SETCOMPOSITINGMODE_set(int CMenum); U_PSEUDO_OBJ *U_PMR_SETCOMPOSITINGQUALITY_set(int CQenum); U_PSEUDO_OBJ *U_PMR_SETINTERPOLATIONMODE_set(int IMenum); U_PSEUDO_OBJ *U_PMR_SETPIXELOFFSETMODE_set(int POMenum); U_PSEUDO_OBJ *U_PMR_SETRENDERINGORIGIN_set(int32_t X, int32_t Y); U_PSEUDO_OBJ *U_PMR_SETTEXTCONTRAST_set(int GC); U_PSEUDO_OBJ *U_PMR_SETTEXTRENDERINGHINT_set(int TRHenum); U_PSEUDO_OBJ *U_PMR_BEGINCONTAINER_set(int UTenum, U_PSEUDO_OBJ *DstRect, U_PSEUDO_OBJ *SrcRect, uint32_t StackID); U_PSEUDO_OBJ *U_PMR_BEGINCONTAINERNOPARAMS_set(int StackID); U_PSEUDO_OBJ *U_PMR_ENDCONTAINER_set(int StackID); U_PSEUDO_OBJ *U_PMR_RESTORE_set(int StackID); U_PSEUDO_OBJ *U_PMR_SAVE_set(int StackID); U_PSEUDO_OBJ *U_PMR_SETTSCLIP_set(U_PSEUDO_OBJ *Rects); U_PSEUDO_OBJ *U_PMR_SETTSGRAPHICS_set(int vgatype, U_PMF_SETTSGRAPHICS *Tsg, U_PSEUDO_OBJ *Palette); U_PSEUDO_OBJ *U_PMR_MULTIPLYWORLDTRANSFORM_set(int xmtype, U_PSEUDO_OBJ *Tm); U_PSEUDO_OBJ *U_PMR_RESETWORLDTRANSFORM_set(void); U_PSEUDO_OBJ *U_PMR_ROTATEWORLDTRANSFORM_set(int xmtype, U_FLOAT Angle); U_PSEUDO_OBJ *U_PMR_SCALEWORLDTRANSFORM_set(int xmtype, U_FLOAT X, U_FLOAT Y); U_PSEUDO_OBJ *U_PMR_SETPAGETRANSFORM_set(int PUenum, U_FLOAT Sale); U_PSEUDO_OBJ *U_PMR_SETWORLDTRANSFORM_set(U_PSEUDO_OBJ *Tm); U_PSEUDO_OBJ *U_PMR_TRANSLATEWORLDTRANSFORM_set(int xmtype, U_FLOAT Dx, U_FLOAT Dy); U_PSEUDO_OBJ *U_PMR_STROKEFILLPATH_set(void); /* EMF+ prototypes (objects_get) */ int U_PMF_BRUSH_get(const char *contents, uint32_t *Version, uint32_t *Type, const char **Data, const char *blimit); int U_PMF_CUSTOMLINECAP_get(const char *contents, uint32_t *Version, uint32_t *Type, const char **Data, const char *blimit); int U_PMF_FONT_get(const char *contents, uint32_t *Version, U_FLOAT *EmSize, uint32_t *SizeUnit, int32_t *FSFlags, uint32_t *Length, const char **Data, const char *blimit); int U_PMF_IMAGE_get(const char *contents, uint32_t *Version, uint32_t *Type, const char **Data, const char *blimit); int U_PMF_IMAGEATTRIBUTES_get(const char *contents, uint32_t *Version, uint32_t *WrapMode, uint32_t *ClampColor, uint32_t *ObjectClamp, const char *blimit); int U_PMF_PATH_get(const char *contents, uint32_t *Version, uint32_t *Count, uint16_t *Flags, const char **Points, const char **Types, const char *blimit); int U_PMF_PEN_get(const char *contents, uint32_t *Version, uint32_t *Type, const char **PenData, const char **Brush, const char *blimit); int U_PMF_REGION_get(const char *contents, uint32_t *Version, uint32_t *Count, const char **Nodes, const char *blimit); int U_PMF_STRINGFORMAT_get(const char *contents, U_PMF_STRINGFORMAT *Sfs, const char **Data, const char *blimit); int U_PMF_ARGB_get(const char *contents, uint8_t *Blue, uint8_t *Green, uint8_t *Red, uint8_t *Alpha, const char *blimit); int U_PMF_BITMAP_get(const char *contents, U_PMF_BITMAP *Bs, const char **Data, const char *blimit); int U_PMF_BITMAPDATA_get(const char *contents, U_PMF_PALETTE *Ps, const char **Colors, const char **Data, const char *blimit); int U_PMF_BLENDCOLORS_get(const char *contents, uint32_t *Elements, U_FLOAT **Positions, const char **Colors, const char *blimit); int U_PMF_BLENDFACTORS_get(const char *contents, uint32_t *Elements, U_FLOAT **Positions, U_FLOAT **Factors, const char *blimit); int U_PMF_BOUNDARYPATHDATA_get(const char *contents, int32_t *Size, const char **Data, const char *blimit); int U_PMF_BOUNDARYPOINTDATA_get(const char *contents, int32_t *Elements, U_PMF_POINTF **Points, const char *blimit); int U_PMF_CHARACTERRANGE_get(const char *contents, int32_t *First, int32_t *Length, const char *blimit); int U_PMF_COMPOUNDLINEDATA_get(const char *contents, int32_t *Elements, U_FLOAT **Widths, const char *blimit); int U_PMF_COMPRESSEDIMAGE_get(const char *contents, const char **Data, const char *blimit); int U_PMF_CUSTOMENDCAPDATA_get(const char *contents, int32_t *Size, const char **Data, const char *blimit); int U_PMF_CUSTOMLINECAPARROWDATA_get(const char *contents, U_PMF_CUSTOMLINECAPARROWDATA *Ccad, const char *blimit); int U_PMF_CUSTOMLINECAPDATA_get(const char *contents, U_PMF_CUSTOMLINECAPDATA *Clcd, const char **Data, const char *blimit); int U_PMF_CUSTOMLINECAPOPTIONALDATA_get(const char *contents, uint32_t Flags, const char **FillData, const char **LineData, const char *blimit); int U_PMF_CUSTOMSTARTCAPDATA_get(const char *contents, int32_t *Size, const char **Data, const char *blimit); int U_PMF_DASHEDLINEDATA_get(const char *contents, int32_t *Elements, U_FLOAT **Lengths, const char *blimit); int U_PMF_FILLPATHOBJ_get(const char *contents, int32_t *Size, const char **Data, const char *blimit); int U_PMF_FOCUSSCALEDATA_get(const char *contents, uint32_t *Count, U_FLOAT *ScaleX, U_FLOAT *ScaleY, const char *blimit); int U_PMF_GRAPHICSVERSION_get(const char *contents, int *Signature, int *GrfVersion, const char *blimit); int U_PMF_HATCHBRUSHDATA_get(const char *contents, uint32_t *Style, U_PMF_ARGB *Foreground, U_PMF_ARGB *Background, const char *blimit); int U_PMF_INTEGER7_get(const char **contents, U_FLOAT *Value, const char *blimit); int U_PMF_INTEGER15_get(const char **contents, U_FLOAT *Value, const char *blimit); int U_PMF_LANGUAGEIDENTIFIER_get(U_PMF_LANGUAGEIDENTIFIER LId, int *SubLId, int *PriLId); int U_PMF_LINEARGRADIENTBRUSHDATA_get(const char *contents, U_PMF_LINEARGRADIENTBRUSHDATA *Lgbd, const char **Data, const char *blimit); int U_PMF_LINEARGRADIENTBRUSHOPTIONALDATA_get(const char *contents, uint32_t Flags, U_PMF_TRANSFORMMATRIX *Tm, const char **Bc, const char **BfH, const char **BfV, const char *blimit); int U_PMF_LINEPATH_get(const char *contents, int32_t *Size, const char **Data, const char *blimit); int U_PMF_METAFILE_get(const char *contents, uint32_t *Type, uint32_t *Size, const char **Data, const char *blimit); int U_PMF_PALETTE_get(const char *contents, uint32_t *Flags, uint32_t *Elements, const char **Data, const char *blimit); int U_PMF_PATHGRADIENTBRUSHDATA_get(const char *contents, U_PMF_PATHGRADIENTBRUSHDATA *Pgbd, const char **Gradient, const char **Boundary, const char **Data, const char *blimit); int U_PMF_PATHGRADIENTBRUSHOPTIONALDATA_get(const char *contents, uint32_t Flags, U_PMF_TRANSFORMMATRIX *Matrix, const char **Pattern, const char **Data, const char *blimit); int U_PMF_PATHPOINTTYPE_get(const char *contents, int *Flags, int *Type, const char *blimit); int U_PMF_PATHPOINTTYPERLE_get(const char *contents, int *Bezier, int *RL, int *Ppt, const char *blimit); int U_PMF_PENDATA_get(const char *contents, uint32_t *Flags, uint32_t *Unit, U_FLOAT *Width, const char **Data, const char *blimit); int U_PMF_PENOPTIONALDATA_get(const char *contents, uint32_t Flags, U_PMF_TRANSFORMMATRIX *Matrix, int32_t *StartCap, int32_t *EndCap, uint32_t *Join, U_FLOAT *MiterLimit, int32_t *Style, int32_t *DLCap, U_FLOAT *DLOffset, const char **DLData, int32_t *Alignment, const char **CmpndLineData, const char **CSCapData, const char **CECapData, const char *blimit); int U_PMF_POINT_get(const char **contents, U_FLOAT *X, U_FLOAT *Y, const char *blimit); int U_PMF_POINTF_get(const char **contents, U_FLOAT *X, U_FLOAT *Y, const char *blimit); int U_PMF_POINTR_get(const char **contents, U_FLOAT *X, U_FLOAT *Y, const char *blimit); int U_PMF_RECT_get(const char **contents, int16_t *X, int16_t *Y, int16_t *Width, int16_t *Height, const char *blimit); int U_PMF_RECTF_get(const char **contents, U_FLOAT *X, U_FLOAT *Y, U_FLOAT *Width, U_FLOAT *Height, const char *blimit); int U_PMF_REGIONNODE_get(const char *contents, uint32_t *Type, const char **Data, const char *blimit); /* There is no U_PMF_REGIONNODECHILDNODES_get, see the note in upmf.c */ int U_PMF_REGIONNODEPATH_get(const char *contents, int32_t *Size, const char **Data, const char *blimit); int U_PMF_SOLIDBRUSHDATA_get(const char *contents, U_PMF_ARGB *Color, const char *blimit); int U_PMF_STRINGFORMATDATA_get(const char *contents, uint32_t TabStopCount, uint32_t RangeCount, const U_FLOAT **TabStops, const U_PMF_CHARACTERRANGE **CharRange, const char *blimit); int U_PMF_TEXTUREBRUSHDATA_get(const char *contents, uint32_t *Flags, int32_t *WrapMode, const char **Data, const char *blimit); int U_PMF_TEXTUREBRUSHOPTIONALDATA_get(const char *contents, int HasImage, U_PMF_TRANSFORMMATRIX *Matrix, const char **Image, const char *blimit); int U_PMF_TRANSFORMMATRIX_get(const char *contents, U_PMF_TRANSFORMMATRIX *Matrix, const char *blimit); int U_PMF_IE_BLUR_get(const char *contents, U_FLOAT *Radius, uint32_t *ExpandEdge, const char *blimit); int U_PMF_IE_BRIGHTNESSCONTRAST_get(const char *contents, int32_t *Brightness, int32_t *Contrast, const char *blimit); int U_PMF_IE_COLORBALANCE_get(const char *contents, int32_t *CyanRed, int32_t *MagentaGreen, int32_t *YellowBlue, const char *blimit); int U_PMF_IE_COLORCURVE_get(const char *contents, uint32_t *Adjust, uint32_t *Channel, int32_t *Intensity, const char *blimit); int U_PMF_IE_COLORLOOKUPTABLE_get(const char *contents, const uint8_t **BLUT, const uint8_t **GLUT, const uint8_t **RLUT, const uint8_t **ALUT, const char *blimit); int U_PMF_IE_COLORMATRIX_get(const char *contents, U_PMF_IE_COLORMATRIX *Matrix, const char *blimit); int U_PMF_IE_HUESATURATIONLIGHTNESS_get(const char *contents, int32_t *Hue, int32_t *Saturation, int32_t *Lightness, const char *blimit); int U_PMF_IE_LEVELS_get(const char *contents, int32_t *Highlight, int32_t *Midtone, int32_t *Shadow, const char *blimit); int U_PMF_IE_REDEYECORRECTION_get(const char *contents, int32_t *Elements, U_RECTL **Rects, const char *blimit); int U_PMF_IE_SHARPEN_get(const char *contents, U_FLOAT *Radius, int32_t *Sharpen, const char *blimit); int U_PMF_IE_TINT_get(const char *contents, int32_t *Hue, int32_t *Amount, const char *blimit); /* EMF+ prototypes (records_get) */ int U_PMR_OFFSETCLIP_get(const char *contents, U_PMF_CMN_HDR *Header, U_FLOAT *dX, U_FLOAT *dY); int U_PMR_RESETCLIP_get(const char *contents, U_PMF_CMN_HDR *Header); int U_PMR_SETCLIPPATH_get(const char *contents, U_PMF_CMN_HDR *Header, uint32_t *PathID, int *CMenum); int U_PMR_SETCLIPRECT_get(const char *contents, U_PMF_CMN_HDR *Header, int *CMenum, U_PMF_RECTF *Rect); int U_PMR_SETCLIPREGION_get(const char *contents, U_PMF_CMN_HDR *Header, uint32_t *PathID, int *CMenum); int U_PMR_COMMENT_get(const char *contents, U_PMF_CMN_HDR *Header, const char **Data); int U_PMR_ENDOFFILE_get(const char *contents, U_PMF_CMN_HDR *Header); int U_PMR_GETDC_get(const char *contents, U_PMF_CMN_HDR *Header); int U_PMR_HEADER_get(const char *contents, U_PMF_CMN_HDR *Header, U_PMF_GRAPHICSVERSION *Version, int *IsDual, int *IsVideo, uint32_t *LogicalDpiX, uint32_t *LogicalDpiY); int U_PMR_CLEAR_get(const char *contents, U_PMF_CMN_HDR *Header, U_PMF_ARGB *Color); int U_PMR_DRAWARC_get(const char *contents, U_PMF_CMN_HDR *Header, uint32_t *PenID, int *ctype, U_FLOAT *Start, U_FLOAT *Sweep, U_PMF_RECTF *Rect); int U_PMR_DRAWBEZIERS_get(const char *contents, U_PMF_CMN_HDR *Header, uint32_t *PenID, int *ctype, int *RelAbs, uint32_t *Elements, U_PMF_POINTF **Points); int U_PMR_DRAWCLOSEDCURVE_get(const char *contents, U_PMF_CMN_HDR *Header, uint32_t *PenID, int *ctype, int *RelAbs, U_FLOAT *Tension, uint32_t *Elements, U_PMF_POINTF **Points); int U_PMR_DRAWCURVE_get(const char *contents, U_PMF_CMN_HDR *Header, uint32_t *PenID, int *ctype, U_FLOAT *Tension, uint32_t *Offset, uint32_t *NSegs, uint32_t *Elements, U_PMF_POINTF **Points); int U_PMR_DRAWDRIVERSTRING_get(const char *contents, U_PMF_CMN_HDR *Header, uint32_t *FontID, int *btype, uint32_t *BrushID, uint32_t *DSOFlags, uint32_t *HasMatrix, uint32_t *Elements, uint16_t **Glyphs, U_PMF_POINTF **Points, U_PMF_TRANSFORMMATRIX **Matrix); int U_PMR_DRAWELLIPSE_get(const char *contents, U_PMF_CMN_HDR *Header, uint32_t *PenID, int *ctype, U_PMF_RECTF *Rect); int U_PMR_DRAWIMAGE_get(const char *contents, U_PMF_CMN_HDR *Header, uint32_t *ImgID, int *ctype, uint32_t *ImgAttrID, int32_t *SrcUnit, U_PMF_RECTF *SrcRect, U_PMF_RECTF *DstRect); int U_PMR_DRAWIMAGEPOINTS_get(const char *contents, U_PMF_CMN_HDR *Header, uint32_t *ImgID, int *ctype, int *etype, int *RelAbs, uint32_t *ImgAttrID, int32_t *SrcUnit, U_PMF_RECTF *SrcRect, uint32_t *Elements, U_PMF_POINTF **Points); int U_PMR_DRAWLINES_get(const char *contents, U_PMF_CMN_HDR *Header, uint32_t *PenID, int *ctype, int *dtype, int *RelAbs, uint32_t *Elements, U_PMF_POINTF **Points); int U_PMR_DRAWPATH_get(const char *contents, U_PMF_CMN_HDR *Header, uint32_t *PathID, uint32_t *PenID); int U_PMR_DRAWPIE_get(const char *contents, U_PMF_CMN_HDR *Header, uint32_t *PenID, int *ctype, U_FLOAT *Start, U_FLOAT *Sweep, U_PMF_RECTF *Rect); int U_PMR_DRAWRECTS_get(const char *contents, U_PMF_CMN_HDR *Header, uint32_t *PenID, int *ctype, uint32_t *Elements, U_PMF_RECTF **Rects); int U_PMR_DRAWSTRING_get(const char *contents, U_PMF_CMN_HDR *Header, uint32_t *FontID, int *btype, uint32_t *BrushID, uint32_t *FormatID, uint32_t *Elements, U_PMF_RECTF *Rect, uint16_t **String); int U_PMR_FILLCLOSEDCURVE_get(const char *contents, U_PMF_CMN_HDR *Header, int *btype, int *ctype, int *ftype, int *RelAbs, uint32_t *BrushID, U_FLOAT *Tension, uint32_t *Elements, U_PMF_POINTF **Points); int U_PMR_FILLELLIPSE_get(const char *contents, U_PMF_CMN_HDR *Header, int *btype, int *ctype, uint32_t *BrushID, U_PMF_RECTF *Rect); int U_PMR_FILLPATH_get(const char *contents, U_PMF_CMN_HDR *Header, uint32_t *PathID, int *btype, uint32_t *BrushID); int U_PMR_FILLPIE_get(const char *contents, U_PMF_CMN_HDR *Header, int *btype, int *ctype, uint32_t *BrushID, U_FLOAT *Start, U_FLOAT *Sweep, U_PMF_RECTF *Rect); int U_PMR_FILLPOLYGON_get(const char *contents, U_PMF_CMN_HDR *Header, int *btype, int *ctype, int *RelAbs, uint32_t *BrushID, uint32_t *Elements, U_PMF_POINTF **Points); int U_PMR_FILLRECTS_get(const char *contents, U_PMF_CMN_HDR *Header, int *btype, int *ctype, uint32_t *BrushID, uint32_t *Elements, U_PMF_RECTF **Rects); int U_PMR_FILLREGION_get(const char *contents, U_PMF_CMN_HDR *Header, uint32_t *RgnID, int *btype, int *ctype, uint32_t *BrushID); int U_PMR_OBJECT_get(const char *contents, U_PMF_CMN_HDR *Header, uint32_t *ObjID, int *otype, int *ntype, uint32_t *TSize, const char **Data); int U_PMR_SERIALIZABLEOBJECT_get(const char *contents, U_PMF_CMN_HDR *Header, uint8_t *GUID, uint32_t *Size, const char **Data); int U_PMR_SETANTIALIASMODE_get(const char *contents, U_PMF_CMN_HDR *Header, int *SMenum, int *aatype); int U_PMR_SETCOMPOSITINGMODE_get(const char *contents, U_PMF_CMN_HDR *Header, int *CMenum); int U_PMR_SETCOMPOSITINGQUALITY_get(const char *contents, U_PMF_CMN_HDR *Header, int *CQenum); int U_PMR_SETINTERPOLATIONMODE_get(const char *contents, U_PMF_CMN_HDR *Header, int *IMenum); int U_PMR_SETPIXELOFFSETMODE_get(const char *contents, U_PMF_CMN_HDR *Header, int *POMenum); int U_PMR_SETRENDERINGORIGIN_get(const char *contents, U_PMF_CMN_HDR *Header, int32_t *X, int32_t *Y); int U_PMR_SETTEXTCONTRAST_get(const char *contents, U_PMF_CMN_HDR *Header, int *TGC); int U_PMR_SETTEXTRENDERINGHINT_get(const char *contents, U_PMF_CMN_HDR *Header, int *TRHenum); int U_PMR_BEGINCONTAINER_get(const char *contents, U_PMF_CMN_HDR *Header, int *UTenum, U_PMF_RECTF *DstRect, U_PMF_RECTF *SrcRect, uint32_t *StackID); int U_PMR_BEGINCONTAINERNOPARAMS_get(const char *contents, U_PMF_CMN_HDR *Header, uint32_t *StackID); int U_PMR_ENDCONTAINER_get(const char *contents, U_PMF_CMN_HDR *Header, uint32_t *StackID); int U_PMR_RESTORE_get(const char *contents, U_PMF_CMN_HDR *Header, uint32_t *StackID); int U_PMR_SAVE_get(const char *contents, U_PMF_CMN_HDR *Header, uint32_t *StackID); int U_PMR_SETTSCLIP_get(const char *contents, U_PMF_CMN_HDR *Header, int *ctype, uint32_t *Elements, U_PMF_RECTF **Rects); int U_PMR_SETTSGRAPHICS_get(const char *contents, U_PMF_CMN_HDR *Header, int *vgatype, int *pptype, uint8_t *AntiAliasMode, uint8_t *TextRenderHint, uint8_t *CompositingMode, uint8_t *CompositingQuality, int16_t *RenderOriginX, int16_t *RenderOriginY, uint16_t *TextContrast, uint8_t *FilterType, uint8_t *PixelOffset, U_PMF_TRANSFORMMATRIX *WorldToDevice, const char **Data); int U_PMR_MULTIPLYWORLDTRANSFORM_get(const char *contents, U_PMF_CMN_HDR *Header, int *xmtype, U_PMF_TRANSFORMMATRIX *Matrix); int U_PMR_RESETWORLDTRANSFORM_get(const char *contents, U_PMF_CMN_HDR *Header); int U_PMR_ROTATEWORLDTRANSFORM_get(const char *contents, U_PMF_CMN_HDR *Header, int *xmtype, U_FLOAT *Angle); int U_PMR_SCALEWORLDTRANSFORM_get(const char *contents, U_PMF_CMN_HDR *Header, int *xmtype, U_FLOAT *Sx, U_FLOAT *Sy); int U_PMR_SETPAGETRANSFORM_get(const char *contents, U_PMF_CMN_HDR *Header, int *PUenum, U_FLOAT *Scale); int U_PMR_SETWORLDTRANSFORM_get(const char *contents, U_PMF_CMN_HDR *Header, U_PMF_TRANSFORMMATRIX *Matrix); int U_PMR_TRANSLATEWORLDTRANSFORM_get(const char *contents, U_PMF_CMN_HDR *Header, int *xmtype, U_FLOAT *Dx, U_FLOAT *Dy); int U_PMR_STROKEFILLPATH_get(const char *contents, U_PMF_CMN_HDR *Header); int U_PMR_MULTIFORMATSTART_get(const char *contents, U_PMF_CMN_HDR *Header); int U_PMR_MULTIFORMATSECTION_get(const char *contents, U_PMF_CMN_HDR *Header); int U_PMR_MULTIFORMATEND_get(const char *contents, U_PMF_CMN_HDR *Header); //! \endcond #ifdef __cplusplus } #endif #endif /* _UPMF_ */