/**************************************************************************\ * * Copyright (c) 1998-2000, Microsoft Corp. All Rights Reserved. * * Module Name: * * GdiplusTypes.h * * Abstract: * * Basic types used by GDI+ * \**************************************************************************/ #ifndef _GDIPLUSTYPES_H #define _GDIPLUSTYPES_H #ifndef DCR_USE_NEW_175866 //-------------------------------------------------------------------------- // LIB version initialization functions //-------------------------------------------------------------------------- typedef VOID (__cdecl *DEBUGEVENTFUNCTION)(INT level, CHAR *message); extern "C" BOOL __stdcall InitializeGdiplus(DEBUGEVENTFUNCTION); extern "C" VOID __stdcall UninitializeGdiplus(); #endif //-------------------------------------------------------------------------- // Callback functions //-------------------------------------------------------------------------- extern "C" { typedef BOOL (CALLBACK * ImageAbort)(VOID *); typedef ImageAbort DrawImageAbort; typedef ImageAbort GetThumbnailImageAbort; } // Callback for EnumerateMetafile methods. The parameters are: // recordType WMF, EMF, or EMF+ record type // flags (always 0 for WMF/EMF records) // dataSize size of the record data (in bytes), or 0 if no data // data pointer to the record data, or NULL if no data // callbackData pointer to callbackData, if any // This method can then call Metafile::PlayRecord to play the // record that was just enumerated. If this method returns // FALSE, the enumeration process is aborted. Otherwise, it continues. extern "C" { typedef BOOL (CALLBACK * EnumerateMetafileProc)(EmfPlusRecordType,UINT,UINT,const BYTE*,VOID*); } //-------------------------------------------------------------------------- // Primitive data types // // NOTE: // Types already defined in standard header files: // INT8 // UINT8 // INT16 // UINT16 // INT32 // UINT32 // INT64 // UINT64 // // Avoid using the following types: // LONG - use INT // ULONG - use UINT // DWORD - use UINT32 //-------------------------------------------------------------------------- typedef float REAL; #define REAL_MAX FLT_MAX #define REAL_MIN FLT_MIN #define REAL_TOLERANCE (FLT_MIN * 100) #define REAL_EPSILON 1.192092896e-07F /* FLT_EPSILON */ //-------------------------------------------------------------------------- // Forward declarations of various internal classes //-------------------------------------------------------------------------- class Size; class SizeF; class Point; class PointF; class Rect; class RectF; class CharacterRange; //-------------------------------------------------------------------------- // Return values from any GDI+ API //-------------------------------------------------------------------------- enum Status { Ok = 0, GenericError = 1, InvalidParameter = 2, OutOfMemory = 3, ObjectBusy = 4, InsufficientBuffer = 5, NotImplemented = 6, Win32Error = 7, WrongState = 8, Aborted = 9, #ifdef DCR_USE_NEW_135429 FileNotFound = 10, ValueOverflow = 11, AccessDenied = 12, UnknownImageFormat = 13, FontFamilyNotFound = 14, FontStyleNotFound = 15, NotTrueTypeFont = 16, #else NotFound = 10, ValueOverflow = 11, #endif UnsupportedGdiplusVersion = 17, GdiplusNotInitialized }; //-------------------------------------------------------------------------- // Represents a dimension in a 2D coordinate system // (floating-point coordinates) //-------------------------------------------------------------------------- class SizeF { public: // Default constructor SizeF() { Width = Height = 0.0f; } SizeF(IN const SizeF& size) { Width = size.Width; Height = size.Height; } SizeF(IN REAL width, IN REAL height) { Width = width; Height = height; } SizeF operator+(IN const SizeF& sz) const { return SizeF(Width + sz.Width, Height + sz.Height); } SizeF operator-(IN const SizeF& sz) const { return SizeF(Width - sz.Width, Height - sz.Height); } BOOL Equals(IN const SizeF& sz) const { return (Width == sz.Width) && (Height == sz.Height); } BOOL Empty() const { return (Width == 0.0f && Height == 0.0f); } public: REAL Width; REAL Height; }; //-------------------------------------------------------------------------- // Represents a dimension in a 2D coordinate system // (integer coordinates) //-------------------------------------------------------------------------- class Size { public: // Default constructor Size() { Width = Height = 0; } Size(IN const Size& size) { Width = size.Width; Height = size.Height; } Size(IN INT width, IN INT height) { Width = width; Height = height; } Size operator+(IN const Size& sz) const { return Size(Width + sz.Width, Height + sz.Height); } Size operator-(IN const Size& sz) const { return Size(Width - sz.Width, Height - sz.Height); } BOOL Equals(IN const Size& sz) const { return (Width == sz.Width) && (Height == sz.Height); } BOOL Empty() const { return (Width == 0 && Height == 0); } public: INT Width; INT Height; }; //-------------------------------------------------------------------------- // Represents a location in a 2D coordinate system // (floating-point coordinates) //-------------------------------------------------------------------------- class PointF { public: PointF() { X = Y = 0.0f; } PointF(IN const PointF &point) { X = point.X; Y = point.Y; } PointF(IN const SizeF &size) { X = size.Width; Y = size.Height; } PointF(IN REAL x, IN REAL y) { X = x; Y = y; } PointF operator+(IN const PointF& point) const { return PointF(X + point.X, Y + point.Y); } PointF operator-(IN const PointF& point) const { return PointF(X - point.X, Y - point.Y); } BOOL Equals(IN const PointF& point) { return (X == point.X) && (Y == point.Y); } public: REAL X; REAL Y; }; //-------------------------------------------------------------------------- // Represents a location in a 2D coordinate system // (integer coordinates) //-------------------------------------------------------------------------- class Point { public: Point() { X = Y = 0; } Point(IN const Point &point) { X = point.X; Y = point.Y; } Point(IN const Size &size) { X = size.Width; Y = size.Height; } Point(IN INT x, IN INT y) { X = x; Y = y; } Point operator+(IN const Point& point) const { return Point(X + point.X, Y + point.Y); } Point operator-(IN const Point& point) const { return Point(X - point.X, Y - point.Y); } BOOL Equals(IN const Point& point) { return (X == point.X) && (Y == point.Y); } public: INT X; INT Y; }; //-------------------------------------------------------------------------- // Represents a rectangle in a 2D coordinate system // (floating-point coordinates) //-------------------------------------------------------------------------- class RectF { public: // Default constructor RectF() { X = Y = Width = Height = 0.0f; } RectF(IN REAL x, IN REAL y, IN REAL width, IN REAL height) { X = x; Y = y; Width = width; Height = height; } RectF(IN const PointF& location, IN const SizeF& size) { X = location.X; Y = location.Y; Width = size.Width; Height = size.Height; } RectF* Clone() const { return new RectF(X, Y, Width, Height); } VOID GetLocation(OUT PointF* point) const { point->X = X; point->Y = Y; } VOID GetSize(OUT SizeF* size) const { size->Width = Width; size->Height = Height; } VOID GetBounds(OUT RectF* rect) const { rect->X = X; rect->Y = Y; rect->Width = Width; rect->Height = Height; } // Return the left, top, right, and bottom // coordinates of the rectangle REAL GetLeft() const { return X; } REAL GetTop() const { return Y; } REAL GetRight() const { return X+Width; } REAL GetBottom() const { return Y+Height; } // Determine if the rectangle is empty BOOL IsEmptyArea() const { return (Width <= REAL_EPSILON) || (Height <= REAL_EPSILON); } BOOL Equals(IN const RectF & rect) const { return X == rect.X && Y == rect.Y && Width == rect.Width && Height == rect.Height; } BOOL Contains(IN REAL x, IN REAL y) const { return x >= X && x < X+Width && y >= Y && y < Y+Height; } BOOL Contains(IN const PointF& pt) const { return Contains(pt.X, pt.Y); } BOOL Contains(IN const RectF& rect) const { return (X <= rect.X) && (rect.GetRight() <= GetRight()) && (Y <= rect.Y) && (rect.GetBottom() <= GetBottom()); } VOID Inflate(IN REAL dx, IN REAL dy) { X -= dx; Y -= dy; Width += 2*dx; Height += 2*dy; } VOID Inflate(IN const PointF& point) { Inflate(point.X, point.Y); } // Intersect the current rect with the specified object BOOL Intersect(IN const RectF& rect) { return Intersect(*this, *this, rect); } // Intersect rect a and b and save the result into c // Notice that c may be the same object as a or b. static BOOL Intersect(OUT RectF& c, IN const RectF& a, IN const RectF& b) { REAL right = min(a.GetRight(), b.GetRight()); REAL bottom = min(a.GetBottom(), b.GetBottom()); REAL left = max(a.GetLeft(), b.GetLeft()); REAL top = max(a.GetTop(), b.GetTop()); c.X = left; c.Y = top; c.Width = right - left; c.Height = bottom - top; return !c.IsEmptyArea(); } // Determine if the specified rect intersects with the // current rect object. BOOL IntersectsWith(IN const RectF& rect) const { return (GetLeft() < rect.GetRight() && GetTop() < rect.GetTop() && GetRight() > rect.GetLeft() && GetBottom() > rect.GetTop()); } static BOOL Union(OUT RectF& c, IN const RectF& a, IN const RectF& b) { REAL right = max(a.GetRight(), b.GetRight()); REAL bottom = max(a.GetBottom(), b.GetBottom()); REAL left = min(a.GetLeft(), b.GetLeft()); REAL top = min(a.GetTop(), b.GetTop()); c.X = left; c.Y = top; c.Width = right - left; c.Height = bottom - top; return !c.IsEmptyArea(); } VOID Offset(IN const PointF& point) { Offset(point.X, point.Y); } VOID Offset(IN REAL dx, IN REAL dy) { X += dx; Y += dy; } public: REAL X; REAL Y; REAL Width; REAL Height; }; //-------------------------------------------------------------------------- // Represents a rectangle in a 2D coordinate system // (integer coordinates) //-------------------------------------------------------------------------- class Rect { public: // Default constructor Rect() { X = Y = Width = Height = 0; } Rect(IN INT x, IN INT y, IN INT width, IN INT height) { X = x; Y = y; Width = width; Height = height; } Rect(IN const Point& location, IN const Size& size) { X = location.X; Y = location.Y; Width = size.Width; Height = size.Height; } Rect* Clone() const { return new Rect(X, Y, Width, Height); } VOID GetLocation(OUT Point* point) const { point->X = X; point->Y = Y; } VOID GetSize(OUT Size* size) const { size->Width = Width; size->Height = Height; } VOID GetBounds(OUT Rect* rect) const { rect->X = X; rect->Y = Y; rect->Width = Width; rect->Height = Height; } // Return the left, top, right, and bottom // coordinates of the rectangle INT GetLeft() const { return X; } INT GetTop() const { return Y; } INT GetRight() const { return X+Width; } INT GetBottom() const { return Y+Height; } // Determine if the rectangle is empty BOOL IsEmptyArea() const { return (Width <= 0) || (Height <= 0); } BOOL Equals(IN const Rect & rect) const { return X == rect.X && Y == rect.Y && Width == rect.Width && Height == rect.Height; } BOOL Contains(IN INT x, IN INT y) const { return x >= X && x < X+Width && y >= Y && y < Y+Height; } BOOL Contains(IN const Point& pt) const { return Contains(pt.X, pt.Y); } BOOL Contains(IN Rect& rect) const { return (X <= rect.X) && (rect.GetRight() <= GetRight()) && (Y <= rect.Y) && (rect.GetBottom() <= GetBottom()); } VOID Inflate(IN INT dx, IN INT dy) { X -= dx; Y -= dy; Width += 2*dx; Height += 2*dy; } VOID Inflate(IN const Point& point) { Inflate(point.X, point.Y); } // Intersect the current rect with the specified object BOOL Intersect(IN const Rect& rect) { return Intersect(*this, *this, rect); } // Intersect rect a and b and save the result into c // Notice that c may be the same object as a or b. static BOOL Intersect(OUT Rect& c, IN const Rect& a, IN const Rect& b) { INT right = min(a.GetRight(), b.GetRight()); INT bottom = min(a.GetBottom(), b.GetBottom()); INT left = max(a.GetLeft(), b.GetLeft()); INT top = max(a.GetTop(), b.GetTop()); c.X = left; c.Y = top; c.Width = right - left; c.Height = bottom - top; return !c.IsEmptyArea(); } // Determine if the specified rect intersects with the // current rect object. BOOL IntersectsWith(IN const Rect& rect) const { return (GetLeft() < rect.GetRight() && GetTop() < rect.GetTop() && GetRight() > rect.GetLeft() && GetBottom() > rect.GetTop()); } static BOOL Union(OUT Rect& c, IN const Rect& a, IN const Rect& b) { INT right = max(a.GetRight(), b.GetRight()); INT bottom = max(a.GetBottom(), b.GetBottom()); INT left = min(a.GetLeft(), b.GetLeft()); INT top = min(a.GetTop(), b.GetTop()); c.X = left; c.Y = top; c.Width = right - left; c.Height = bottom - top; return !c.IsEmptyArea(); } VOID Offset(IN const Point& point) { Offset(point.X, point.Y); } VOID Offset(IN INT dx, IN INT dy) { X += dx; Y += dy; } public: INT X; INT Y; INT Width; INT Height; }; // A user must mange memory for PathData. class PathData { public: PathData() { Count = 0; Points = NULL; Types = NULL; } ~PathData() { if (Points != NULL) { delete Points; } if (Types != NULL) { delete Types; } } #ifdef DCR_USE_NEW_250932 private: PathData(const PathData &); PathData& operator=(const PathData &); #endif public: INT Count; PointF* Points; BYTE* Types; }; //----------------------------- // text character range //----------------------------- class CharacterRange { public: CharacterRange( INT first, INT length ) : First (first), Length (length) {} CharacterRange() : First(0), Length(0) {} CharacterRange & operator = (const CharacterRange &rhs) { First = rhs.First; Length = rhs.Length; return *this; } INT First; INT Length; }; #endif // !_GDIPLUSTYPES_HPP