605 lines
19 KiB
OpenEdge ABL
605 lines
19 KiB
OpenEdge ABL
/******************************Module*Header*******************************\
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* Module Name: ntgdistr.h
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*
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* Copyright (c) Microsoft Corporation. All rights reserved.
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\**************************************************************************/
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// PUBLIC Structures and constants
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typedef enum _ARCTYPE
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{
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ARCTYPE_ARC = 0,
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ARCTYPE_ARCTO,
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ARCTYPE_CHORD,
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ARCTYPE_PIE,
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ARCTYPE_MAX
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} ARCTYPE;
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//
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// Font Types
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//
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typedef enum _LFTYPE {
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LF_TYPE_USER, // user (defined by APP)
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LF_TYPE_SYSTEM, // system stock font
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LF_TYPE_SYSTEM_FIXED, // system fixed pitch stock font
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LF_TYPE_OEM, // oem (terminal) stock font
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LF_TYPE_DEVICE_DEFAULT, // device default stock font
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LF_TYPE_ANSI_VARIABLE, // ANSI variable pitch stock font
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LF_TYPE_ANSI_FIXED, // ANSI fixed pitch stock font
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LF_TYPE_DEFAULT_GUI // default GUI stock font
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} LFTYPE;
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// for GetDCDWord
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#define DDW_JOURNAL 0
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#define DDW_RELABS 1
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#define DDW_BREAKEXTRA 2
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#define DDW_CBREAK 3
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#define DDW_ARCDIRECTION 4
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#define DDW_SAVEDEPTH 5
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#define DDW_FONTLANGUAGEINFO 6
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#define DDW_ISMEMDC 7
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#define DDW_MAPMODE 8
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#define DDW_TEXTCHARACTEREXTRA 9
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#define DDW_MAX 10 // must equal highest DDW_XXXXX plus one
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// for GetAndSetDCDword
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#define GASDDW_EPSPRINTESCCALLED 1
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#define GASDDW_COPYCOUNT 2
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#define GASDDW_TEXTALIGN 3
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#define GASDDW_RELABS 4
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#define GASDDW_TEXTCHARACTEREXTRA 5
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#define GASDDW_SELECTFONT 6
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#define GASDDW_MAPPERFLAGS 7
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#define GASDDW_MAPMODE 8
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#define GASDDW_ARCDIRECTION 9
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#define GASDDW_MAX 10 // must equal highest GASDDW_XXXXX plus one
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// for GetDCPoint
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#define DCPT_VPEXT 1
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#define DCPT_WNDEXT 2
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#define DCPT_VPORG 3
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#define DCPT_WNDORG 4
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#define DCPT_ASPECTRATIOFILTER 5
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#define DCPT_DCORG 6
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#define DCPT_MAX 7 // must equal highest DCPT_XXXXX plus one
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// for GetAndSetDCPoint
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#define GASDCPT_CURRENTPOSITION 1
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#define GASDCPT_MAX 2 // must equal highest GASDCPT_XXXXX plus one
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// private ModifyWorldTransform modes
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#define MWT_SET (MWT_MAX+1)
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// modes from converting points
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#define XFP_DPTOLP 0
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#define XFP_LPTODP 1
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#define XFP_LPTODPFX 2
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//BUGBUG private devcaps for client side xform's
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#define HORZSIZEM (int)0x80000000
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#define VERTSIZEM (int)0x80000002
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//
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// Object identifiers
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//
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#define MFEN_IDENTIFIER 0x5845464D /* 'MFEN' */
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#define MFPICT_IDENTIFIER 0x5F50464D /* 'MFP_' */
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//
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// Object types, used for handles.
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//
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// Note: When modifying this list, also please modify list in hmgrapi.cxx!
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//
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#define DEF_TYPE 0
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#define DC_TYPE 1
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#define UNUSED1_TYPE 2 // Unused
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#define UNUSED2_TYPE 3 // Unused
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#define RGN_TYPE 4
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#define SURF_TYPE 5
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#define CLIENTOBJ_TYPE 6
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#define PATH_TYPE 7
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#define PAL_TYPE 8
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#define ICMLCS_TYPE 9
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#define LFONT_TYPE 10
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#define RFONT_TYPE 11
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#define PFE_TYPE 12
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#define PFT_TYPE 13
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#define ICMCXF_TYPE 14
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#define SPRITE_TYPE 15
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#define BRUSH_TYPE 16
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#define UMPD_TYPE 17
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#define UNUSED4_TYPE 18 // Unused
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#define SPACE_TYPE 19
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#define UNUSED5_TYPE 20 // Unused
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#define META_TYPE 21
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#define EFSTATE_TYPE 22
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#define BMFD_TYPE 23 // Unused
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#define VTFD_TYPE 24 // Unused
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#define TTFD_TYPE 25 // Unused
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#define RC_TYPE 26 // Unused
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#define TEMP_TYPE 27 // Unused
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#define DRVOBJ_TYPE 28
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#define DCIOBJ_TYPE 29 // Unused
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#define SPOOL_TYPE 30
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#define MAX_TYPE 30 // Don't go over 31 -- limited by TYPE_BITS
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// SAMEHANDLE/DIFFHANDLE macros
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//
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// These macros should be used to compare engine handles (such as HDCs, etc),
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// when insensitivity to the user defined bits are needed.
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// BUGBUG - this should be accessible to USER
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#define SAMEHANDLE(H,K) (H == K)
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#define DIFFHANDLE(H,K) (H != K)
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// the following define the format of GDI handles. Any information that is needed
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// for the type is here. All other handle information is in gre\hmgr.h.
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#define INDEX_BITS 16
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#define TYPE_BITS 5
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#define ALTTYPE_BITS 2
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#define STOCK_BITS 1
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#define UNIQUE_BITS 8
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#define TYPE_SHIFT (INDEX_BITS)
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#define ALTTYPE_SHIFT (TYPE_SHIFT + TYPE_BITS)
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#define STOCK_SHIFT (ALTTYPE_SHIFT + ALTTYPE_BITS)
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#define MAX_HANDLE_COUNT 0x10000
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#define MIN_HANDLE_QUOTA 0x100
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#define INITIAL_HANDLE_QUOTA 0x3000
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#define MAKE_HMGR_HANDLE(Index,Unique) LongToHandle(((((LONG) Unique) << INDEX_BITS) | ((LONG) Index)))
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#define FULLUNIQUE_MASK 0xffff0000
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#define FULLUNIQUE_STOCK_MASK (1 << (TYPE_BITS+ALTTYPE_BITS))
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// if the GDISTOCKOBJ bit is set in a handle, it is a stock object.
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#define GDISTOCKOBJ (1 << STOCK_SHIFT)
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#define IS_STOCKOBJ(h) ((ULONG_PTR)(h) & GDISTOCKOBJ)
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// LO_TYPE(h) returns the client side type given a GRE handle.
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// GRE_TYPE(h) returns the gre side type given a client type
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#define LO_TYPE(h) (DWORD)((ULONG_PTR)(h) & (((1 << (TYPE_BITS + ALTTYPE_BITS)) - 1) << TYPE_SHIFT))
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#define GRE_TYPE(h) (DWORD)(((ULONG_PTR)(h) >> INDEX_BITS) & ((1 << TYPE_BITS) - 1))
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// ALTTYPEx are modifiers to distinguish client side object types that all map to
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// a single server side type. BRUSH_TYPE maps to LO_BRUSH_TYPE, LO_PEN_TYPE and LO_EXTPEN_TYPE
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#define ALTTYPE1 (1 << ALTTYPE_SHIFT)
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#define ALTTYPE2 (2 << ALTTYPE_SHIFT)
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#define ALTTYPE3 (3 << ALTTYPE_SHIFT)
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#define LO_BRUSH_TYPE (BRUSH_TYPE << TYPE_SHIFT)
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#define LO_DC_TYPE (DC_TYPE << TYPE_SHIFT)
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#define LO_BITMAP_TYPE (SURF_TYPE << TYPE_SHIFT)
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#define LO_PALETTE_TYPE (PAL_TYPE << TYPE_SHIFT)
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#define LO_FONT_TYPE (LFONT_TYPE << TYPE_SHIFT)
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#define LO_REGION_TYPE (RGN_TYPE << TYPE_SHIFT)
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#define LO_ICMLCS_TYPE (ICMLCS_TYPE << TYPE_SHIFT)
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#define LO_CLIENTOBJ_TYPE (CLIENTOBJ_TYPE << TYPE_SHIFT)
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#define LO_ALTDC_TYPE (LO_DC_TYPE | ALTTYPE1)
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#define LO_PEN_TYPE (LO_BRUSH_TYPE | ALTTYPE1)
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#define LO_EXTPEN_TYPE (LO_BRUSH_TYPE | ALTTYPE2)
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#define LO_DIBSECTION_TYPE (LO_BITMAP_TYPE | ALTTYPE1)
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#define LO_METAFILE16_TYPE (LO_CLIENTOBJ_TYPE | ALTTYPE1)
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#define LO_METAFILE_TYPE (LO_CLIENTOBJ_TYPE | ALTTYPE2)
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#define LO_METADC16_TYPE (LO_CLIENTOBJ_TYPE | ALTTYPE3)
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//
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// Format of HGDIOBJ typedef'ed so it
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// is available in the symbol file.
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//
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typedef struct {
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ULONG_PTR Index:INDEX_BITS;
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ULONG_PTR Type:TYPE_BITS;
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ULONG_PTR AltType:ALTTYPE_BITS;
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ULONG_PTR Stock:STOCK_BITS;
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ULONG_PTR Unique:UNIQUE_BITS;
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} GDIHandleBitFields;
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//
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// Enum of object types so the values
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// are available in the symbol file.
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//
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#define ENUMObjType(type) GDIObjType_##type = type
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typedef enum {
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ENUMObjType(DEF_TYPE),
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ENUMObjType(DC_TYPE),
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ENUMObjType(UNUSED1_TYPE),
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ENUMObjType(UNUSED2_TYPE),
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ENUMObjType(RGN_TYPE),
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ENUMObjType(SURF_TYPE),
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ENUMObjType(CLIENTOBJ_TYPE),
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ENUMObjType(PATH_TYPE),
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ENUMObjType(PAL_TYPE),
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ENUMObjType(ICMLCS_TYPE),
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ENUMObjType(LFONT_TYPE),
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ENUMObjType(RFONT_TYPE),
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ENUMObjType(PFE_TYPE),
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ENUMObjType(PFT_TYPE),
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ENUMObjType(ICMCXF_TYPE),
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ENUMObjType(SPRITE_TYPE),
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ENUMObjType(BRUSH_TYPE),
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ENUMObjType(UMPD_TYPE),
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ENUMObjType(UNUSED4_TYPE),
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ENUMObjType(SPACE_TYPE),
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ENUMObjType(UNUSED5_TYPE),
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ENUMObjType(META_TYPE),
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ENUMObjType(EFSTATE_TYPE),
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ENUMObjType(BMFD_TYPE),
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ENUMObjType(VTFD_TYPE),
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ENUMObjType(TTFD_TYPE),
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ENUMObjType(RC_TYPE),
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ENUMObjType(TEMP_TYPE),
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ENUMObjType(DRVOBJ_TYPE),
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ENUMObjType(DCIOBJ_TYPE),
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ENUMObjType(SPOOL_TYPE),
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ENUMObjType(MAX_TYPE),
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GDIObjTypeTotal
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} GDIObjType;
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#define ENUMLoObjType(type) GDILoObjType_##type = type
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typedef enum {
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ENUMLoObjType(LO_BRUSH_TYPE),
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ENUMLoObjType(LO_DC_TYPE),
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ENUMLoObjType(LO_BITMAP_TYPE),
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ENUMLoObjType(LO_PALETTE_TYPE),
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ENUMLoObjType(LO_FONT_TYPE),
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ENUMLoObjType(LO_REGION_TYPE),
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ENUMLoObjType(LO_ICMLCS_TYPE),
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ENUMLoObjType(LO_CLIENTOBJ_TYPE),
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ENUMLoObjType(LO_ALTDC_TYPE),
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ENUMLoObjType(LO_PEN_TYPE),
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ENUMLoObjType(LO_EXTPEN_TYPE),
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ENUMLoObjType(LO_DIBSECTION_TYPE),
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ENUMLoObjType(LO_METAFILE16_TYPE),
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ENUMLoObjType(LO_METAFILE_TYPE),
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ENUMLoObjType(LO_METADC16_TYPE),
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} GDILoObjType;
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// fl values for CreateDIBitmapInternal
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#define CDBI_INTERNAL 0x0001
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#define CDBI_DIBSECTION 0x0002
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#define CDBI_NOPALETTE 0x0004
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// The UFI allows us to identify four different items:
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//
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// Device Fonts: CheckSum = 0 and Index identifies the printer driver index of font to
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// use. Since we assume drivers are identical on both machines we can
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// rely on Index being enough to identify the font.
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//
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// Type1 Device Fonts: This refers to a Type1 font that has been installed on
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// the client machine and is enumerated by the postcript driver
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// as a device font. In this case CheckSum = 1 and Index
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// is the checksum of the Type 1 font file.
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//
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// Type1 Rasterizer: This item identifies not a font, but a Type1 rasterizer.
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// Here CheckSum = 2 and Index is the version number of the
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// Type1 rasterizer. A rasterizer with version number N supports
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// fonts used by a rasterizers with versions 0-N. If a rasterizer
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// exists on a server, this UFI MUST appear FIRST in the list of
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// UFI's returned to the client.
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//
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// Engine Font: This includes bitmap, vector, TT, and Type1 fonts rasterized by
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// a Type1 rasterizer. Here CheckSum is a checksum of the font file
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// and Index is the index of the face in the font file.
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#define DEVICE_FONT_TYPE 0
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#define TYPE1_FONT_TYPE 1
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#define TYPE1_RASTERIZER 2
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#define A_VALID_ENGINE_CHECKSUM 3
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#define UFI_DEVICE_FONT(pufi) ((pufi)->CheckSum == DEVICE_FONT_TYPE)
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#define UFI_TYPE1_FONT(pufi) ((pufi)->CheckSum == TYPE1_FONT_TYPE)
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#define UFI_TYPE1_RASTERIZER(pufi) ((pufi)->CheckSum == TYPE1_RASTERIZER)
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#define UFI_ENGINE_FONT(pufi) ((pufi)->CheckSum > TYPE1_RASTERIZER)
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#define UFI_HASH_VALUE(pufi) (((pufi)->CheckSum==TYPE1_FONT_TYPE) ? \
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(pufi)->Index : (pufi)->CheckSum )
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#define UFI_SAME_FACE(pufi1,pufi2) \
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(((pufi1)->CheckSum == (pufi2)->CheckSum) && ((pufi1)->Index == (pufi2)->Index))
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#define UFI_SAME_FILE(pufi1,pufi2) ((((pufi1)->CheckSum==TYPE1_FONT_TYPE) && ((pufi2)->CheckSum==TYPE1_FONT_TYPE)) ? \
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((pufi1)->Index == (pufi2)->Index) : \
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((pufi1)->CheckSum == (pufi2)->CheckSum))
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#define UFI_SAME_RASTERIZER_VERSION(pufiClient,pufiServer) \
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(((pufiClient)->CheckSum == (pufiServer)->CheckSum) && \
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((pufiClient)->Index <= (pufiServer)->Index))
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#define UFI_CLEAR_ID(pufi) {(pufi)->CheckSum = (pufi)->Index = 0;}
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/*
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/**************************************************************************\
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*
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* // The pointer arithmetic for ENUMFONTDATAW is as follows:
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*
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* sizeof(ENUMLOGFONTEXW)+sizeof(data appended to logfont) =
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* dpNtmi - offsetof(ENUMFONTDATAW,u);
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*
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* sizeof(NTMW_INTERNAL) + sizeof(data appended to NTMW_INTERNAL) =
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* cjEfdw - dpNtmi;
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*
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* // typically, if we are talking about mm font we will have:
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*
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* data appended to logfont = design vector
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* data appended to NTMW_INTERNAL = full axes information
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*
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\**************************************************************************/
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#if (_WIN32_WINNT >= 0x0500)
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typedef struct _ENUMFONTDATAW { // efdw
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ULONG cjEfdw; // size of this structure
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ULONG dpNtmi; // offset to NTMW_INTERNAL from the top of efdw
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FLONG flType;
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ENUMLOGFONTEXDVW elfexw;
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// here follows NTMW_INTERNAL at the offset of dpNtmi
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} ENUMFONTDATAW, *PENUMFONTDATAW;
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#endif
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#define ALIGN4(X) (((X) + 3) & ~3)
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#define ALIGN8(X) (((X) + 7) & ~7)
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// here we define dpNtmi and cjEfdw for "regular", non multiple master fonts:
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#if (_WIN32_WINNT >= 0x0500)
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#define DP_NTMI0 ALIGN4(offsetof(ENUMFONTDATAW,elfexw) + offsetof(ENUMLOGFONTEXDVW,elfDesignVector) + offsetof(DESIGNVECTOR,dvValues))
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#endif
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#define CJ_NTMI0 ALIGN4(offsetof(NTMW_INTERNAL,entmw) + offsetof(ENUMTEXTMETRICW,etmAxesList) + offsetof(AXESLISTW,axlAxisInfo))
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#define CJ_EFDW0 (DP_NTMI0 + CJ_NTMI0)
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// ENUMFONTDATAW.flType internal values:
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//
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// ENUMFONT_SCALE_HACK [Win95 compat] Enumerate font back in several
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// sizes; mask out before doing callback to app.
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#define ENUMFONT_SCALE_HACK 0x80000000
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#define ENUMFONT_FLTYPE_MASK ( DEVICE_FONTTYPE | RASTER_FONTTYPE | TRUETYPE_FONTTYPE )
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// GreGetTextExtentW flags
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#define GGTE_WIN3_EXTENT 0x0001
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#define GGTE_GLYPH_INDEX 0x0002
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/******************************************************************************
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* stuff for client side text extents and charwidths
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******************************************************************************/
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#define GCW_WIN3 0x00000001 // win3 bold simulation off-by-1 hack
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#define GCW_INT 0x00000002 // integer or float
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#define GCW_16BIT 0x00000004 // 16-bit or 32-bit widths
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#define GCW_GLYPH_INDEX 0x00000008 // input are glyph indices
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// stuff for GetCharABCWidths
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#define GCABCW_INT 0x00000001
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#define GCABCW_GLYPH_INDEX 0x00000002
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// stuff for GetTextExtentEx
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#define GTEEX_GLYPH_INDEX 0x0001
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/**************************************************************************\
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*
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* stuff from csgdi.h
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*
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\**************************************************************************/
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#define CJSCAN(width,planes,bits) ((((width)*(planes)*(bits)+31) & ~31) / 8)
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#define CJSCANW(width,planes,bits) ((((width)*(planes)*(bits)+15) & ~15) / 8)
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#define I_ANIMATEPALETTE 0
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#define I_SETPALETTEENTRIES 1
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#define I_GETPALETTEENTRIES 2
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#define I_GETSYSTEMPALETTEENTRIES 3
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#define I_GETDIBCOLORTABLE 4
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#define I_SETDIBCOLORTABLE 5
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#define I_POLYPOLYGON 1
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#define I_POLYPOLYLINE 2
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#define I_POLYBEZIER 3
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#define I_POLYLINETO 4
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#define I_POLYBEZIERTO 5
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#define I_POLYPOLYRGN 6
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HANDLE WINAPI SetObjectOwner(HGDIOBJ, HANDLE);
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// BUGBUG
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// RANDOM floating point stuff - try to cleanup later.
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// BUGBUG
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// We littered modules with __CPLUSPLUS to not conflict with efloat.hxx
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// efloat.hxx should more or less disappear.
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//
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#if defined(_AMD64_) || defined(_IA64_) || defined(BUILD_WOW6432)
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typedef FLOAT EFLOAT_S;
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#define EFLOAT_0 ((FLOAT) 0)
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#define EFLOAT_1Over16 ((FLOAT) 1/16)
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#define EFLOAT_1 ((FLOAT) 1)
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#define EFLOAT_16 ((FLOAT) 16)
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#ifndef __CPLUSPLUS
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extern LONG lCvtWithRound( FLOAT f, LONG l );
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#define efDivEFLOAT(x,y,z) (x=y/z)
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#define vAbsEFLOAT(x) {if (x<0.0f) x=-x;}
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#define vFxToEf(fx,ef) {ef = ((FLOAT) fx) / 16.0f;}
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#define vMulEFLOAT(x,y,z) {x=y*z;}
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#define lEfToF(x) (*(LONG *)(&x)) // Warning: FLOAT typed as LONG!
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|
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#define bIsOneEFLOAT(x) (x==1.0f)
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#define bIsOneSixteenthEFLOAT(x) (x==0.0625f)
|
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#define bEqualEFLOAT(x,y) (x==y)
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|
|
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#define lCvt(ef,ll) (lCvtWithRound(ef,ll))
|
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#endif
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|
|
|
#else
|
|
|
|
typedef struct _EFLOAT_S
|
|
{
|
|
LONG lMant;
|
|
LONG lExp;
|
|
} EFLOAT_S;
|
|
|
|
#define EFLOAT_0 {0, 0}
|
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#define EFLOAT_1Over16 {0x040000000, -2}
|
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#define EFLOAT_1 {0x040000000, 2}
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|
#define EFLOAT_16 {0x040000000, 6}
|
|
|
|
|
|
#ifndef __CPLUSPLUS
|
|
|
|
EFLOAT_S *mulff3_c(EFLOAT_S *,const EFLOAT_S *,const EFLOAT_S *);
|
|
EFLOAT_S *divff3_c(EFLOAT_S *,const EFLOAT_S *,const EFLOAT_S *);
|
|
VOID fxtoef_c(LONG,EFLOAT_S *);
|
|
LONG eftof_c(EFLOAT_S *);
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|
|
|
#define efDivEFLOAT(x,y,z) (*divff3_c(&x,&y,&z))
|
|
#define vAbsEFLOAT(x) {if (x.lMant<0) x.lMant=-x.lMant;}
|
|
#define vFxToEf(fx,ef) (fxtoef_c(fx,&ef))
|
|
#define vMulEFLOAT(x,y,z) {mulff3_c(&x,&y,&z);}
|
|
#define lEfToF(x) (eftof_c(&x)) // Warning: FLOAT typed as LONG!
|
|
|
|
#define bEqualEFLOAT(x,y) ((x.lMant==y.lMant)&&(x.lExp==y.lExp))
|
|
#define bIsOneEFLOAT(x) ((x.lMant==0x40000000L)&&(x.lExp==2))
|
|
#define bIsOneSixteenthEFLOAT(x) ((x.lMant==0x40000000L)&&(x.lExp==-2))
|
|
|
|
LONG lCvt(EFLOAT_S,LONG);
|
|
#endif
|
|
|
|
#endif
|
|
|
|
|
|
|
|
|
|
|
|
typedef struct _WIDTHDATA
|
|
{
|
|
USHORT sOverhang;
|
|
USHORT sHeight;
|
|
USHORT sCharInc;
|
|
USHORT sBreak;
|
|
BYTE iFirst;
|
|
BYTE iLast;
|
|
BYTE iBreak;
|
|
BYTE iDefault;
|
|
USHORT sDBCSInc;
|
|
USHORT sDefaultInc;
|
|
} WIDTHDATA;
|
|
|
|
#define NO_WIDTH 0xFFFF
|
|
|
|
typedef struct _DEVCAPS
|
|
{
|
|
ULONG ulVersion;
|
|
ULONG ulTechnology;
|
|
ULONG ulHorzSizeM;
|
|
ULONG ulVertSizeM;
|
|
ULONG ulHorzSize;
|
|
ULONG ulVertSize;
|
|
ULONG ulHorzRes;
|
|
ULONG ulVertRes;
|
|
ULONG ulBitsPixel;
|
|
ULONG ulPlanes;
|
|
ULONG ulNumPens;
|
|
ULONG ulNumFonts;
|
|
ULONG ulNumColors;
|
|
ULONG ulRasterCaps;
|
|
ULONG ulAspectX;
|
|
ULONG ulAspectY;
|
|
ULONG ulAspectXY;
|
|
ULONG ulLogPixelsX;
|
|
ULONG ulLogPixelsY;
|
|
ULONG ulSizePalette;
|
|
ULONG ulColorRes;
|
|
ULONG ulPhysicalWidth;
|
|
ULONG ulPhysicalHeight;
|
|
ULONG ulPhysicalOffsetX;
|
|
ULONG ulPhysicalOffsetY;
|
|
ULONG ulTextCaps;
|
|
ULONG ulVRefresh;
|
|
ULONG ulDesktopHorzRes;
|
|
ULONG ulDesktopVertRes;
|
|
ULONG ulBltAlignment;
|
|
ULONG ulPanningHorzRes;
|
|
ULONG ulPanningVertRes;
|
|
ULONG xPanningAlignment;
|
|
ULONG yPanningAlignment;
|
|
ULONG ulShadeBlendCaps;
|
|
ULONG ulColorManagementCaps;
|
|
} DEVCAPS, *PDEVCAPS;
|
|
|
|
// This structure is a copy from d3dhal.h. We need it here to have exactly
|
|
// the same offset for pvBuffer in D3DNTHAL_CONTEXTCREATEI
|
|
typedef struct _D3DHAL_CONTEXTCREATEDATA_DUMMY
|
|
{
|
|
LPVOID lpDDGbl;
|
|
LPVOID lpDDS;
|
|
LPVOID lpDDSZ;
|
|
LPVOID dwrstates;
|
|
LPVOID dwhContext;
|
|
HRESULT ddrval;
|
|
} D3DHAL_CONTEXTCREATEDATA_DUMMY;
|
|
|
|
// For D3D context creation information.
|
|
typedef struct _D3DNTHAL_CONTEXTCREATEI
|
|
{
|
|
// Space for a D3DNTHAL_CONTEXTCREATE record.
|
|
// The structure isn't directly declared here to
|
|
// avoid header inclusion problems. This field
|
|
// is asserted to be the same size as the actual type.
|
|
D3DHAL_CONTEXTCREATEDATA_DUMMY ContextCreateData;
|
|
|
|
// Private buffer information.
|
|
PVOID pvBuffer;
|
|
ULONG cjBuffer;
|
|
} D3DNTHAL_CONTEXTCREATEI;
|
|
|
|
//
|
|
// D3D execute buffer batching declarations.
|
|
//
|
|
|
|
#define D3DEX_BATCH_SURFACE_MAX 4
|
|
|
|
typedef struct _D3DEX_BATCH_HEADER
|
|
{
|
|
DWORD nSurfaces;
|
|
DWORD pdds[D3DEX_BATCH_SURFACE_MAX];
|
|
} D3DEX_BATCH_HEADER;
|
|
|
|
#define D3DEX_BATCH_STATE 0
|
|
#define D3DEX_BATCH_PRIMITIVE 1
|
|
#define D3DEX_BATCH_PRIMITIVE_EXE 2
|