; Gdip standard library v1.38 by tic (Tariq Porter) 28/08/10 ; ;##################################################################################### ;##################################################################################### ; STATUS ENUMERATION ; Return values for functions specified to have status enumerated return type ;##################################################################################### ; ; Ok = = 0 ; GenericError = 1 ; InvalidParameter = 2 ; OutOfMemory = 3 ; ObjectBusy = 4 ; InsufficientBuffer = 5 ; NotImplemented = 6 ; Win32Error = 7 ; WrongState = 8 ; Aborted = 9 ; FileNotFound = 10 ; ValueOverflow = 11 ; AccessDenied = 12 ; UnknownImageFormat = 13 ; FontFamilyNotFound = 14 ; FontStyleNotFound = 15 ; NotTrueTypeFont = 16 ; UnsupportedGdiplusVersion = 17 ; GdiplusNotInitialized = 18 ; PropertyNotFound = 19 ; PropertyNotSupported = 20 ; ProfileNotFound = 21 ; ;##################################################################################### ;##################################################################################### ; FUNCTIONS ;##################################################################################### ; ; UpdateLayeredWindow(hwnd, hdc, x="", y="", w="", h="", Alpha=255) ; BitBlt(ddc, dx, dy, dw, dh, sdc, sx, sy, Raster="") ; StretchBlt(dDC, dx, dy, dw, dh, sDC, sx, sy, sw, sh, Raster="") ; SetImage(hwnd, hBitmap) ; Gdip_BitmapFromScreen(Screen=0, Raster="") ; CreateRectF(ByRef RectF, x, y, w, h) ; CreateSizeF(ByRef SizeF, w, h) ; CreateDIBSection ; ;##################################################################################### ; Function: UpdateLayeredWindow ; Description: Updates a layered window with the handle to the DC of a gdi bitmap ; ; hwnd Handle of the layered window to update ; hdc Handle to the DC of the GDI bitmap to update the window with ; Layeredx x position to place the window ; Layeredy y position to place the window ; Layeredw Width of the window ; Layeredh Height of the window ; Alpha Default = 255 : The transparency (0-255) to set the window transparency ; ; return If the function succeeds, the return value is nonzero ; ; notes If x or y omitted, then layered window will use its current coordinates ; If w or h omitted then current width and height will be used UpdateLayeredWindow(hwnd, hdc, x="", y="", w="", h="", Alpha=255) { if ((x != "") && (y != "")) VarSetCapacity(pt, 8), NumPut(x, pt, 0), NumPut(y, pt, 4) if (w = "") ||(h = "") WinGetPos,,, w, h, ahk_id %hwnd% return DllCall("UpdateLayeredWindow", "uint", hwnd, "uint", 0, "uint", ((x = "") && (y = "")) ? 0 : &pt , "int64*", w|h<<32, "uint", hdc, "int64*", 0, "uint", 0, "uint*", Alpha<<16|1<<24, "uint", 2) } ;##################################################################################### ; Function BitBlt ; Description The BitBlt function performs a bit-block transfer of the color data corresponding to a rectangle ; of pixels from the specified source device context into a destination device context. ; ; dDC handle to destination DC ; dx x-coord of destination upper-left corner ; dy y-coord of destination upper-left corner ; dw width of the area to copy ; dh height of the area to copy ; sDC handle to source DC ; sx x-coordinate of source upper-left corner ; sy y-coordinate of source upper-left corner ; Raster raster operation code ; ; return If the function succeeds, the return value is nonzero ; ; notes If no raster operation is specified, then SRCCOPY is used, which copies the source directly to the destination rectangle ; ; BLACKNESS = 0x00000042 ; NOTSRCERASE = 0x001100A6 ; NOTSRCCOPY = 0x00330008 ; SRCERASE = 0x00440328 ; DSTINVERT = 0x00550009 ; PATINVERT = 0x005A0049 ; SRCINVERT = 0x00660046 ; SRCAND = 0x008800C6 ; MERGEPAINT = 0x00BB0226 ; MERGECOPY = 0x00C000CA ; SRCCOPY = 0x00CC0020 ; SRCPAINT = 0x00EE0086 ; PATCOPY = 0x00F00021 ; PATPAINT = 0x00FB0A09 ; WHITENESS = 0x00FF0062 ; CAPTUREBLT = 0x40000000 ; NOMIRRORBITMAP = 0x80000000 BitBlt(ddc, dx, dy, dw, dh, sdc, sx, sy, Raster="") { return DllCall("gdi32\BitBlt", "uint", dDC, "int", dx, "int", dy, "int", dw, "int", dh , "uint", sDC, "int", sx, "int", sy, "uint", Raster ? Raster : 0x00CC0020) } ;##################################################################################### ; Function StretchBlt ; Description The StretchBlt function copies a bitmap from a source rectangle into a destination rectangle, ; stretching or compressing the bitmap to fit the dimensions of the destination rectangle, if necessary. ; The system stretches or compresses the bitmap according to the stretching mode currently set in the destination device context. ; ; ddc handle to destination DC ; dx x-coord of destination upper-left corner ; dy y-coord of destination upper-left corner ; dw width of destination rectangle ; dh height of destination rectangle ; sdc handle to source DC ; sx x-coordinate of source upper-left corner ; sy y-coordinate of source upper-left corner ; sw width of source rectangle ; sh height of source rectangle ; Raster raster operation code ; ; return If the function succeeds, the return value is nonzero ; ; notes If no raster operation is specified, then SRCCOPY is used. It uses the same raster operations as BitBlt StretchBlt(ddc, dx, dy, dw, dh, sdc, sx, sy, sw, sh, Raster="") { return DllCall("gdi32\StretchBlt", "uint", ddc, "int", dx, "int", dy, "int", dw, "int", dh , "uint", sdc, "int", sx, "int", sy, "int", sw, "int", sh, "uint", Raster ? Raster : 0x00CC0020) } ;##################################################################################### ; Function SetStretchBltMode ; Description The SetStretchBltMode function sets the bitmap stretching mode in the specified device context ; ; hdc handle to the DC ; iStretchMode The stretching mode, describing how the target will be stretched ; ; return If the function succeeds, the return value is the previous stretching mode. If it fails it will return 0 ; ; STRETCH_ANDSCANS = 0x01 ; STRETCH_ORSCANS = 0x02 ; STRETCH_DELETESCANS = 0x03 ; STRETCH_HALFTONE = 0x04 SetStretchBltMode(hdc, iStretchMode=4) { return DllCall("gdi32\SetStretchBltMode", "uint", hdc, "int", iStretchMode) } ;##################################################################################### ; Function SetImage ; Description Associates a new image with a static control ; ; hwnd handle of the control to update ; hBitmap a gdi bitmap to associate the static control with ; ; return If the function succeeds, the return value is nonzero SetImage(hwnd, hBitmap) { SendMessage, 0x172, 0x0, hBitmap,, ahk_id %hwnd% E := ErrorLevel DeleteObject(E) return E } ;##################################################################################### ; Function SetSysColorToControl ; Description Sets a solid colour to a control ; ; hwnd handle of the control to update ; SysColor A system colour to set to the control ; ; return If the function succeeds, the return value is zero ; ; notes A control must have the 0xE style set to it so it is recognised as a bitmap ; By default SysColor=15 is used which is COLOR_3DFACE. This is the standard background for a control ; ; COLOR_3DDKSHADOW = 21 ; COLOR_3DFACE = 15 ; COLOR_3DHIGHLIGHT = 20 ; COLOR_3DHILIGHT = 20 ; COLOR_3DLIGHT = 22 ; COLOR_3DSHADOW = 16 ; COLOR_ACTIVEBORDER = 10 ; COLOR_ACTIVECAPTION = 2 ; COLOR_APPWORKSPACE = 12 ; COLOR_BACKGROUND = 1 ; COLOR_BTNFACE = 15 ; COLOR_BTNHIGHLIGHT = 20 ; COLOR_BTNHILIGHT = 20 ; COLOR_BTNSHADOW = 16 ; COLOR_BTNTEXT = 18 ; COLOR_CAPTIONTEXT = 9 ; COLOR_DESKTOP = 1 ; COLOR_GRADIENTACTIVECAPTION = 27 ; COLOR_GRADIENTINACTIVECAPTION = 28 ; COLOR_GRAYTEXT = 17 ; COLOR_HIGHLIGHT = 13 ; COLOR_HIGHLIGHTTEXT = 14 ; COLOR_HOTLIGHT = 26 ; COLOR_INACTIVEBORDER = 11 ; COLOR_INACTIVECAPTION = 3 ; COLOR_INACTIVECAPTIONTEXT = 19 ; COLOR_INFOBK = 24 ; COLOR_INFOTEXT = 23 ; COLOR_MENU = 4 ; COLOR_MENUHILIGHT = 29 ; COLOR_MENUBAR = 30 ; COLOR_MENUTEXT = 7 ; COLOR_SCROLLBAR = 0 ; COLOR_WINDOW = 5 ; COLOR_WINDOWFRAME = 6 ; COLOR_WINDOWTEXT = 8 SetSysColorToControl(hwnd, SysColor=15) { WinGetPos,,, w, h, ahk_id %hwnd% bc := DllCall("GetSysColor", "Int", SysColor) pBrushClear := Gdip_BrushCreateSolid(0xff000000 | (bc >> 16 | bc & 0xff00 | (bc & 0xff) << 16)) pBitmap := Gdip_CreateBitmap(w, h), G := Gdip_GraphicsFromImage(pBitmap) Gdip_FillRectangle(G, pBrushClear, 0, 0, w, h) hBitmap := Gdip_CreateHBITMAPFromBitmap(pBitmap) SetImage(hwnd, hBitmap) Gdip_DeleteBrush(pBrushClear) Gdip_DeleteGraphics(G), Gdip_DisposeImage(pBitmap), DeleteObject(hBitmap) return 0 } ;##################################################################################### ; Function Gdip_BitmapFromScreen ; Description Gets a gdi+ bitmap from the screen ; ; Screen 0 = All screens ; Any numerical value = Just that screen ; x|y|w|h = Take specific coordinates with a width and height ; Raster raster operation code ; ; return If the function succeeds, the return value is a pointer to a gdi+ bitmap ; -1: one or more of x,y,w,h not passed properly ; ; notes If no raster operation is specified, then SRCCOPY is used to the returned bitmap Gdip_BitmapFromScreen(Screen=0, Raster="") { if (Screen = 0) { Sysget, x, 76 Sysget, y, 77 Sysget, w, 78 Sysget, h, 79 } else if (Screen&1 != "") { Sysget, M, Monitor, %Screen% x := MLeft, y := MTop, w := MRight-MLeft, h := MBottom-MTop } else { StringSplit, S, Screen, | x := S1, y := S2, w := S3, h := S4 } if (x = "") || (y = "") || (w = "") || (h = "") return -1 chdc := CreateCompatibleDC(), hbm := CreateDIBSection(w, h, chdc), obm := SelectObject(chdc, hbm), hhdc := GetDC() BitBlt(chdc, 0, 0, w, h, hhdc, x, y, Raster) ReleaseDC(hhdc) pBitmap := Gdip_CreateBitmapFromHBITMAP(hbm) SelectObject(hhdc, obm), DeleteObject(hbm), DeleteDC(hhdc), DeleteDC(chdc) return pBitmap } ;##################################################################################### ; Function Gdip_BitmapFromHWND ; Description Uses PrintWindow to get a handle to the specified window and return a bitmap from it ; ; hwnd handle to the window to get a bitmap from ; ; return If the function succeeds, the return value is a pointer to a gdi+ bitmap ; ; notes Window must not be not minimised in order to get a handle to it's client area Gdip_BitmapFromHWND(hwnd) { WinGetPos,,, Width, Height, ahk_id %hwnd% hbm := CreateDIBSection(Width, Height), hdc := CreateCompatibleDC(), obm := SelectObject(hdc, hbm) PrintWindow(hwnd, hdc) pBitmap := Gdip_CreateBitmapFromHBITMAP(hbm) SelectObject(hdc, obm), DeleteObject(hbm), DeleteDC(hdc) return pBitmap } ;##################################################################################### ; Function CreateRectF ; Description Creates a RectF object, containing a the coordinates and dimensions of a rectangle ; ; RectF Name to call the RectF object ; x x-coordinate of the upper left corner of the rectangle ; y y-coordinate of the upper left corner of the rectangle ; w Width of the rectangle ; h Height of the rectangle ; ; return No return value CreateRectF(ByRef RectF, x, y, w, h) { VarSetCapacity(RectF, 16) NumPut(x, RectF, 0, "float"), NumPut(y, RectF, 4, "float"), NumPut(w, RectF, 8, "float"), NumPut(h, RectF, 12, "float") } ;##################################################################################### ; Function CreateSizeF ; Description Creates a SizeF object, containing an 2 values ; ; SizeF Name to call the SizeF object ; w w-value for the SizeF object ; h h-value for the SizeF object ; ; return No Return value CreateSizeF(ByRef SizeF, w, h) { VarSetCapacity(SizeF, 8) NumPut(w, SizeF, 0, "float"), NumPut(h, SizeF, 4, "float") } ;##################################################################################### ; Function CreatePointF ; Description Creates a SizeF object, containing an 2 values ; ; SizeF Name to call the SizeF object ; w w-value for the SizeF object ; h h-value for the SizeF object ; ; return No Return value CreatePointF(ByRef PointF, x, y) { VarSetCapacity(PointF, 8) NumPut(x, PointF, 0, "float"), NumPut(y, PointF, 4, "float") } ;##################################################################################### ; Function CreateDIBSection ; Description The CreateDIBSection function creates a DIB (Device Independent Bitmap) that applications can write to directly ; ; w width of the bitmap to create ; h height of the bitmap to create ; hdc a handle to the device context to use the palette from ; bpp bits per pixel (32 = ARGB) ; ppvBits A pointer to a variable that receives a pointer to the location of the DIB bit values ; ; return returns a DIB. A gdi bitmap ; ; notes ppvBits will receive the location of the pixels in the DIB CreateDIBSection(w, h, hdc="", bpp=32, ByRef ppvBits=0) { hdc2 := hdc ? hdc : GetDC() VarSetCapacity(bi, 40, 0) NumPut(w, bi, 4), NumPut(h, bi, 8), NumPut(40, bi, 0), NumPut(1, bi, 12, "ushort"), NumPut(0, bi, 16), NumPut(bpp, bi, 14, "ushort") hbm := DllCall("CreateDIBSection", "uint" , hdc2, "uint" , &bi, "uint" , 0, "uint*", ppvBits, "uint" , 0, "uint" , 0) If !hdc ReleaseDC(hdc2) return hbm } ;##################################################################################### ; Function PrintWindow ; Description The PrintWindow function copies a visual window into the specified device context (DC), typically a printer DC ; ; hwnd A handle to the window that will be copied ; hdc A handle to the device context ; Flags Drawing options ; ; return If the function succeeds, it returns a nonzero value ; ; PW_CLIENTONLY = 1 PrintWindow(hwnd, hdc, Flags=0) { return DllCall("PrintWindow", "uint", hwnd, "uint", hdc, "uint", Flags) } ;##################################################################################### ; Function DestroyIcon ; Description Destroys an icon and frees any memory the icon occupied ; ; hIcon Handle to the icon to be destroyed. The icon must not be in use ; ; return If the function succeeds, the return value is nonzero DestroyIcon(hIcon) { return DllCall("DestroyIcon", "uint", hIcon) } ;##################################################################################### PaintDesktop(hdc) { return DllCall("PaintDesktop", "uint", hdc) } ;##################################################################################### CreateCompatibleBitmap(hdc, w, h) { return DllCall("gdi32\CreateCompatibleBitmap", "uint", hdc, "int", w, "int", h) } ;##################################################################################### ; Function CreateCompatibleDC ; Description This function creates a memory device context (DC) compatible with the specified device ; ; hdc Handle to an existing device context ; ; return returns the handle to a device context or 0 on failure ; ; notes If this handle is 0 (by default), the function creates a memory device context compatible with the application's current screen CreateCompatibleDC(hdc=0) { return DllCall("CreateCompatibleDC", "uint", hdc) } ;##################################################################################### ; Function SelectObject ; Description The SelectObject function selects an object into the specified device context (DC). The new object replaces the previous object of the same type ; ; hdc Handle to a DC ; hgdiobj A handle to the object to be selected into the DC ; ; return If the selected object is not a region and the function succeeds, the return value is a handle to the object being replaced ; ; notes The specified object must have been created by using one of the following functions ; Bitmap - CreateBitmap, CreateBitmapIndirect, CreateCompatibleBitmap, CreateDIBitmap, CreateDIBSection (A single bitmap cannot be selected into more than one DC at the same time) ; Brush - CreateBrushIndirect, CreateDIBPatternBrush, CreateDIBPatternBrushPt, CreateHatchBrush, CreatePatternBrush, CreateSolidBrush ; Font - CreateFont, CreateFontIndirect ; Pen - CreatePen, CreatePenIndirect ; Region - CombineRgn, CreateEllipticRgn, CreateEllipticRgnIndirect, CreatePolygonRgn, CreateRectRgn, CreateRectRgnIndirect ; ; notes If the selected object is a region and the function succeeds, the return value is one of the following value ; ; SIMPLEREGION = 2 Region consists of a single rectangle ; COMPLEXREGION = 3 Region consists of more than one rectangle ; NULLREGION = 1 Region is empty SelectObject(hdc, hgdiobj) { return DllCall("SelectObject", "uint", hdc, "uint", hgdiobj) } ;##################################################################################### ; Function DeleteObject ; Description This function deletes a logical pen, brush, font, bitmap, region, or palette, freeing all system resources associated with the object ; After the object is deleted, the specified handle is no longer valid ; ; hObject Handle to a logical pen, brush, font, bitmap, region, or palette to delete ; ; return Nonzero indicates success. Zero indicates that the specified handle is not valid or that the handle is currently selected into a device context DeleteObject(hObject) { return DllCall("DeleteObject", "uint", hObject) } ;##################################################################################### ; Function GetDC ; Description This function retrieves a handle to a display device context (DC) for the client area of the specified window. ; The display device context can be used in subsequent graphics display interface (GDI) functions to draw in the client area of the window. ; ; hwnd Handle to the window whose device context is to be retrieved. If this value is NULL, GetDC retrieves the device context for the entire screen ; ; return The handle the device context for the specified window's client area indicates success. NULL indicates failure GetDC(hwnd=0) { return DllCall("GetDC", "uint", hwnd) } ;##################################################################################### ; Function ReleaseDC ; Description This function releases a device context (DC), freeing it for use by other applications. The effect of ReleaseDC depends on the type of device context ; ; hdc Handle to the device context to be released ; hwnd Handle to the window whose device context is to be released ; ; return 1 = released ; 0 = not released ; ; notes The application must call the ReleaseDC function for each call to the GetWindowDC function and for each call to the GetDC function that retrieves a common device context ; An application cannot use the ReleaseDC function to release a device context that was created by calling the CreateDC function; instead, it must use the DeleteDC function. ReleaseDC(hdc, hwnd=0) { return DllCall("ReleaseDC", "uint", hwnd, "uint", hdc) } ;##################################################################################### ; Function DeleteDC ; Description The DeleteDC function deletes the specified device context (DC) ; ; hdc A handle to the device context ; ; return If the function succeeds, the return value is nonzero ; ; notes An application must not delete a DC whose handle was obtained by calling the GetDC function. Instead, it must call the ReleaseDC function to free the DC DeleteDC(hdc) { return DllCall("DeleteDC", "uint", hdc) } ;##################################################################################### ; Function Gdip_LibraryVersion ; Description Get the current library version ; ; return the library version ; ; notes This is useful for non compiled programs to ensure that a person doesn't run an old version when testing your scripts Gdip_LibraryVersion() { return 1.38 } ;##################################################################################### ; Function: Gdip_BitmapFromBRA ; Description: Gets a pointer to a gdi+ bitmap from a BRA file ; ; BRAFromMemIn The variable for a BRA file read to memory ; File The name of the file, or its number that you would like (This depends on alternate parameter) ; Alternate Changes whether the File parameter is the file name or its number ; ; return If the function succeeds, the return value is a pointer to a gdi+ bitmap ; -1 = The BRA variable is empty ; -2 = The BRA has an incorrect header ; -3 = The BRA has information missing ; -4 = Could not find file inside the BRA Gdip_BitmapFromBRA(ByRef BRAFromMemIn, File, Alternate=0) { if !BRAFromMemIn return -1 Loop, Parse, BRAFromMemIn, `n { if (A_Index = 1) { StringSplit, Header, A_LoopField, | if (Header0 != 4 || Header2 != "BRA!") return -2 } else if (A_Index = 2) { StringSplit, Info, A_LoopField, | if (Info0 != 3) return -3 } else break } if !Alternate StringReplace, File, File, \, \\, All RegExMatch(BRAFromMemIn, "mi`n)^" (Alternate ? File "\|.+?\|(\d+)\|(\d+)" : "\d+\|" File "\|(\d+)\|(\d+)") "$", FileInfo) if !FileInfo return -4 hData := DllCall("GlobalAlloc", "uint", 2, "uint", FileInfo2) pData := DllCall("GlobalLock", "uint", hData) DllCall("RtlMoveMemory", "uint", pData, "uint", &BRAFromMemIn+Info2+FileInfo1, "uint", FileInfo2) DllCall("GlobalUnlock", "uint", hData) DllCall("ole32\CreateStreamOnHGlobal", "uint", hData, "int", 1, "uint*", pStream) DllCall("gdiplus\GdipCreateBitmapFromStream", "uint", pStream, "uint*", pBitmap) DllCall(NumGet(NumGet(1*pStream)+8), "uint", pStream) return pBitmap } ;##################################################################################### ; Function Gdip_DrawRectangle ; Description This function uses a pen to draw the outline of a rectangle into the Graphics of a bitmap ; ; pGraphics Pointer to the Graphics of a bitmap ; pPen Pointer to a pen ; x x-coordinate of the top left of the rectangle ; y y-coordinate of the top left of the rectangle ; w width of the rectanlge ; h height of the rectangle ; ; return status enumeration. 0 = success ; ; notes as all coordinates are taken from the top left of each pixel, then the entire width/height should be specified as subtracting the pen width Gdip_DrawRectangle(pGraphics, pPen, x, y, w, h) { return DllCall("gdiplus\GdipDrawRectangle", "uint", pGraphics, "uint", pPen, "float", x, "float", y, "float", w, "float", h) } ;##################################################################################### ; Function Gdip_DrawRoundedRectangle ; Description This function uses a pen to draw the outline of a rounded rectangle into the Graphics of a bitmap ; ; pGraphics Pointer to the Graphics of a bitmap ; pPen Pointer to a pen ; x x-coordinate of the top left of the rounded rectangle ; y y-coordinate of the top left of the rounded rectangle ; w width of the rectanlge ; h height of the rectangle ; r radius of the rounded corners ; ; return status enumeration. 0 = success ; ; notes as all coordinates are taken from the top left of each pixel, then the entire width/height should be specified as subtracting the pen width Gdip_DrawRoundedRectangle(pGraphics, pPen, x, y, w, h, r) { Gdip_SetClipRect(pGraphics, x-r, y-r, 2*r, 2*r, 4) Gdip_SetClipRect(pGraphics, x+w-r, y-r, 2*r, 2*r, 4) Gdip_SetClipRect(pGraphics, x-r, y+h-r, 2*r, 2*r, 4) Gdip_SetClipRect(pGraphics, x+w-r, y+h-r, 2*r, 2*r, 4) E := Gdip_DrawRectangle(pGraphics, pPen, x, y, w, h) Gdip_ResetClip(pGraphics) Gdip_SetClipRect(pGraphics, x-(2*r), y+r, w+(4*r), h-(2*r), 4) Gdip_SetClipRect(pGraphics, x+r, y-(2*r), w-(2*r), h+(4*r), 4) Gdip_DrawEllipse(pGraphics, pPen, x, y, 2*r, 2*r) Gdip_DrawEllipse(pGraphics, pPen, x+w-(2*r), y, 2*r, 2*r) Gdip_DrawEllipse(pGraphics, pPen, x, y+h-(2*r), 2*r, 2*r) Gdip_DrawEllipse(pGraphics, pPen, x+w-(2*r), y+h-(2*r), 2*r, 2*r) Gdip_ResetClip(pGraphics) return E } ;##################################################################################### ; Function Gdip_DrawEllipse ; Description This function uses a pen to draw the outline of an ellipse into the Graphics of a bitmap ; ; pGraphics Pointer to the Graphics of a bitmap ; pPen Pointer to a pen ; x x-coordinate of the top left of the rectangle the ellipse will be drawn into ; y y-coordinate of the top left of the rectangle the ellipse will be drawn into ; w width of the ellipse ; h height of the ellipse ; ; return status enumeration. 0 = success ; ; notes as all coordinates are taken from the top left of each pixel, then the entire width/height should be specified as subtracting the pen width Gdip_DrawEllipse(pGraphics, pPen, x, y, w, h) { return DllCall("gdiplus\GdipDrawEllipse", "uint", pGraphics, "uint", pPen, "float", x, "float", y, "float", w, "float", h) } ;##################################################################################### ; Function Gdip_DrawBezier ; Description This function uses a pen to draw the outline of a bezier (a weighted curve) into the Graphics of a bitmap ; ; pGraphics Pointer to the Graphics of a bitmap ; pPen Pointer to a pen ; x1 x-coordinate of the start of the bezier ; y1 y-coordinate of the start of the bezier ; x2 x-coordinate of the first arc of the bezier ; y2 y-coordinate of the first arc of the bezier ; x3 x-coordinate of the second arc of the bezier ; y3 y-coordinate of the second arc of the bezier ; x4 x-coordinate of the end of the bezier ; y4 y-coordinate of the end of the bezier ; ; return status enumeration. 0 = success ; ; notes as all coordinates are taken from the top left of each pixel, then the entire width/height should be specified as subtracting the pen width Gdip_DrawBezier(pGraphics, pPen, x1, y1, x2, y2, x3, y3, x4, y4) { return DllCall("gdiplus\GdipDrawBezier", "uint", pgraphics, "uint", pPen , "float", x1, "float", y1, "float", x2, "float", y2 , "float", x3, "float", y3, "float", x4, "float", y4) } ;##################################################################################### ; Function Gdip_DrawArc ; Description This function uses a pen to draw the outline of an arc into the Graphics of a bitmap ; ; pGraphics Pointer to the Graphics of a bitmap ; pPen Pointer to a pen ; x x-coordinate of the start of the arc ; y y-coordinate of the start of the arc ; w width of the arc ; h height of the arc ; StartAngle specifies the angle between the x-axis and the starting point of the arc ; SweepAngle specifies the angle between the starting and ending points of the arc ; ; return status enumeration. 0 = success ; ; notes as all coordinates are taken from the top left of each pixel, then the entire width/height should be specified as subtracting the pen width Gdip_DrawArc(pGraphics, pPen, x, y, w, h, StartAngle, SweepAngle) { return DllCall("gdiplus\GdipDrawArc", "uint", pGraphics, "uint", pPen, "float", x , "float", y, "float", w, "float", h, "float", StartAngle, "float", SweepAngle) } ;##################################################################################### ; Function Gdip_DrawPie ; Description This function uses a pen to draw the outline of a pie into the Graphics of a bitmap ; ; pGraphics Pointer to the Graphics of a bitmap ; pPen Pointer to a pen ; x x-coordinate of the start of the pie ; y y-coordinate of the start of the pie ; w width of the pie ; h height of the pie ; StartAngle specifies the angle between the x-axis and the starting point of the pie ; SweepAngle specifies the angle between the starting and ending points of the pie ; ; return status enumeration. 0 = success ; ; notes as all coordinates are taken from the top left of each pixel, then the entire width/height should be specified as subtracting the pen width Gdip_DrawPie(pGraphics, pPen, x, y, w, h, StartAngle, SweepAngle) { return DllCall("gdiplus\GdipDrawPie", "uint", pGraphics, "uint", pPen, "float", x, "float", y, "float", w, "float", h, "float", StartAngle, "float", SweepAngle) } ;##################################################################################### ; Function Gdip_DrawLine ; Description This function uses a pen to draw a line into the Graphics of a bitmap ; ; pGraphics Pointer to the Graphics of a bitmap ; pPen Pointer to a pen ; x1 x-coordinate of the start of the line ; y1 y-coordinate of the start of the line ; x2 x-coordinate of the end of the line ; y2 y-coordinate of the end of the line ; ; return status enumeration. 0 = success Gdip_DrawLine(pGraphics, pPen, x1, y1, x2, y2) { return DllCall("gdiplus\GdipDrawLine", "uint", pGraphics, "uint", pPen , "float", x1, "float", y1, "float", x2, "float", y2) } ;##################################################################################### ; Function Gdip_DrawLines ; Description This function uses a pen to draw a series of joined lines into the Graphics of a bitmap ; ; pGraphics Pointer to the Graphics of a bitmap ; pPen Pointer to a pen ; Points the coordinates of all the points passed as x1,y1|x2,y2|x3,y3..... ; ; return status enumeration. 0 = success Gdip_DrawLines(pGraphics, pPen, Points) { StringSplit, Points, Points, | VarSetCapacity(PointF, 8*Points0) Loop, %Points0% { StringSplit, Coord, Points%A_Index%, `, NumPut(Coord1, PointF, 8*(A_Index-1), "float"), NumPut(Coord2, PointF, (8*(A_Index-1))+4, "float") } return DllCall("gdiplus\GdipDrawLines", "uint", pGraphics, "uint", pPen, "uint", &PointF, "int", Points0) } ;##################################################################################### ; Function Gdip_FillRectangle ; Description This function uses a brush to fill a rectangle in the Graphics of a bitmap ; ; pGraphics Pointer to the Graphics of a bitmap ; pBrush Pointer to a brush ; x x-coordinate of the top left of the rectangle ; y y-coordinate of the top left of the rectangle ; w width of the rectanlge ; h height of the rectangle ; ; return status enumeration. 0 = success Gdip_FillRectangle(pGraphics, pBrush, x, y, w, h) { return DllCall("gdiplus\GdipFillRectangle", "uint", pGraphics, "int", pBrush , "float", x, "float", y, "float", w, "float", h) } ;##################################################################################### ; Function Gdip_FillRoundedRectangle ; Description This function uses a brush to fill a rounded rectangle in the Graphics of a bitmap ; ; pGraphics Pointer to the Graphics of a bitmap ; pBrush Pointer to a brush ; x x-coordinate of the top left of the rounded rectangle ; y y-coordinate of the top left of the rounded rectangle ; w width of the rectanlge ; h height of the rectangle ; r radius of the rounded corners ; ; return status enumeration. 0 = success Gdip_FillRoundedRectangle(pGraphics, pBrush, x, y, w, h, r) { Region := Gdip_GetClipRegion(pGraphics) Gdip_SetClipRect(pGraphics, x-r, y-r, 2*r, 2*r, 4) Gdip_SetClipRect(pGraphics, x+w-r, y-r, 2*r, 2*r, 4) Gdip_SetClipRect(pGraphics, x-r, y+h-r, 2*r, 2*r, 4) Gdip_SetClipRect(pGraphics, x+w-r, y+h-r, 2*r, 2*r, 4) E := Gdip_FillRectangle(pGraphics, pBrush, x, y, w, h) Gdip_SetClipRegion(pGraphics, Region, 0) Gdip_SetClipRect(pGraphics, x-(2*r), y+r, w+(4*r), h-(2*r), 4) Gdip_SetClipRect(pGraphics, x+r, y-(2*r), w-(2*r), h+(4*r), 4) Gdip_FillEllipse(pGraphics, pBrush, x, y, 2*r, 2*r) Gdip_FillEllipse(pGraphics, pBrush, x+w-(2*r), y, 2*r, 2*r) Gdip_FillEllipse(pGraphics, pBrush, x, y+h-(2*r), 2*r, 2*r) Gdip_FillEllipse(pGraphics, pBrush, x+w-(2*r), y+h-(2*r), 2*r, 2*r) Gdip_SetClipRegion(pGraphics, Region, 0) Gdip_DeleteRegion(Region) return E } ;##################################################################################### ; Function Gdip_FillPolygon ; Description This function uses a brush to fill a polygon in the Graphics of a bitmap ; ; pGraphics Pointer to the Graphics of a bitmap ; pBrush Pointer to a brush ; Points the coordinates of all the points passed as x1,y1|x2,y2|x3,y3..... ; ; return status enumeration. 0 = success ; ; notes Alternate will fill the polygon as a whole, wheras winding will fill each new "segment" ; Alternate = 0 ; Winding = 1 Gdip_FillPolygon(pGraphics, pBrush, Points, FillMode=0) { StringSplit, Points, Points, | VarSetCapacity(PointF, 8*Points0) Loop, %Points0% { StringSplit, Coord, Points%A_Index%, `, NumPut(Coord1, PointF, 8*(A_Index-1), "float"), NumPut(Coord2, PointF, (8*(A_Index-1))+4, "float") } return DllCall("gdiplus\GdipFillPolygon", "uint", pGraphics, "uint", pBrush, "uint", &PointF, "int", Points0, "int", FillMode) } ;##################################################################################### ; Function Gdip_FillPie ; Description This function uses a brush to fill a pie in the Graphics of a bitmap ; ; pGraphics Pointer to the Graphics of a bitmap ; pBrush Pointer to a brush ; x x-coordinate of the top left of the pie ; y y-coordinate of the top left of the pie ; w width of the pie ; h height of the pie ; StartAngle specifies the angle between the x-axis and the starting point of the pie ; SweepAngle specifies the angle between the starting and ending points of the pie ; ; return status enumeration. 0 = success Gdip_FillPie(pGraphics, pBrush, x, y, w, h, StartAngle, SweepAngle) { return DllCall("gdiplus\GdipFillPie", "uint", pGraphics, "uint", pBrush , "float", x, "float", y, "float", w, "float", h, "float", StartAngle, "float", SweepAngle) } ;##################################################################################### ; Function Gdip_FillEllipse ; Description This function uses a brush to fill an ellipse in the Graphics of a bitmap ; ; pGraphics Pointer to the Graphics of a bitmap ; pBrush Pointer to a brush ; x x-coordinate of the top left of the ellipse ; y y-coordinate of the top left of the ellipse ; w width of the ellipse ; h height of the ellipse ; ; return status enumeration. 0 = success Gdip_FillEllipse(pGraphics, pBrush, x, y, w, h) { return DllCall("gdiplus\GdipFillEllipse", "uint", pGraphics, "uint", pBrush, "float", x, "float", y, "float", w, "float", h) } ;##################################################################################### ; Function Gdip_FillRegion ; Description This function uses a brush to fill a region in the Graphics of a bitmap ; ; pGraphics Pointer to the Graphics of a bitmap ; pBrush Pointer to a brush ; Region Pointer to a Region ; ; return status enumeration. 0 = success ; ; notes You can create a region Gdip_CreateRegion() and then add to this Gdip_FillRegion(pGraphics, pBrush, Region) { return DllCall("gdiplus\GdipFillRegion", "uint", pGraphics, "uint", pBrush, "uint", Region) } ;##################################################################################### ; Function Gdip_FillPath ; Description This function uses a brush to fill a path in the Graphics of a bitmap ; ; pGraphics Pointer to the Graphics of a bitmap ; pBrush Pointer to a brush ; Region Pointer to a Path ; ; return status enumeration. 0 = success Gdip_FillPath(pGraphics, pBrush, Path) { return DllCall("gdiplus\GdipFillPath", "uint", pGraphics, "uint", pBrush, "uint", Path) } ;##################################################################################### ; Function Gdip_DrawImagePointsRect ; Description This function draws a bitmap into the Graphics of another bitmap and skews it ; ; pGraphics Pointer to the Graphics of a bitmap ; pBitmap Pointer to a bitmap to be drawn ; Points Points passed as x1,y1|x2,y2|x3,y3 (3 points: top left, top right, bottom left) describing the drawing of the bitmap ; sx x-coordinate of source upper-left corner ; sy y-coordinate of source upper-left corner ; sw width of source rectangle ; sh height of source rectangle ; Matrix a matrix used to alter image attributes when drawing ; ; return status enumeration. 0 = success ; ; notes if sx,sy,sw,sh are missed then the entire source bitmap will be used ; Matrix can be omitted to just draw with no alteration to ARGB ; Matrix may be passed as a digit from 0 - 1 to change just transparency ; Matrix can be passed as a matrix with any delimiter Gdip_DrawImagePointsRect(pGraphics, pBitmap, Points, sx="", sy="", sw="", sh="", Matrix=1) { StringSplit, Points, Points, | VarSetCapacity(PointF, 8*Points0) Loop, %Points0% { StringSplit, Coord, Points%A_Index%, `, NumPut(Coord1, PointF, 8*(A_Index-1), "float"), NumPut(Coord2, PointF, (8*(A_Index-1))+4, "float") } if (Matrix&1 = "") ImageAttr := Gdip_SetImageAttributesColorMatrix(Matrix) else if (Matrix != 1) ImageAttr := Gdip_SetImageAttributesColorMatrix("1|0|0|0|0|0|1|0|0|0|0|0|1|0|0|0|0|0|" Matrix "|0|0|0|0|0|1") if (sx = "" && sy = "" && sw = "" && sh = "") { sx := 0, sy := 0 sw := Gdip_GetImageWidth(pBitmap) sh := Gdip_GetImageHeight(pBitmap) } E := DllCall("gdiplus\GdipDrawImagePointsRect", "uint", pGraphics, "uint", pBitmap , "uint", &PointF, "int", Points0, "float", sx, "float", sy, "float", sw, "float", sh , "int", 2, "uint", ImageAttr, "uint", 0, "uint", 0) if ImageAttr Gdip_DisposeImageAttributes(ImageAttr) return E } ;##################################################################################### ; Function Gdip_DrawImage ; Description This function draws a bitmap into the Graphics of another bitmap ; ; pGraphics Pointer to the Graphics of a bitmap ; pBitmap Pointer to a bitmap to be drawn ; dx x-coord of destination upper-left corner ; dy y-coord of destination upper-left corner ; dw width of destination image ; dh height of destination image ; sx x-coordinate of source upper-left corner ; sy y-coordinate of source upper-left corner ; sw width of source image ; sh height of source image ; Matrix a matrix used to alter image attributes when drawing ; ; return status enumeration. 0 = success ; ; notes if sx,sy,sw,sh are missed then the entire source bitmap will be used ; Gdip_DrawImage performs faster ; Matrix can be omitted to just draw with no alteration to ARGB ; Matrix may be passed as a digit from 0 - 1 to change just transparency ; Matrix can be passed as a matrix with any delimiter. For example: ; MatrixBright= ; ( ; 1.5 |0 |0 |0 |0 ; 0 |1.5 |0 |0 |0 ; 0 |0 |1.5 |0 |0 ; 0 |0 |0 |1 |0 ; 0.05 |0.05 |0.05 |0 |1 ; ) ; ; notes MatrixBright = 1.5|0|0|0|0|0|1.5|0|0|0|0|0|1.5|0|0|0|0|0|1|0|0.05|0.05|0.05|0|1 ; MatrixGreyScale = 0.299|0.299|0.299|0|0|0.587|0.587|0.587|0|0|0.114|0.114|0.114|0|0|0|0|0|1|0|0|0|0|0|1 ; MatrixNegative = -1|0|0|0|0|0|-1|0|0|0|0|0|-1|0|0|0|0|0|1|0|0|0|0|0|1 Gdip_DrawImage(pGraphics, pBitmap, dx="", dy="", dw="", dh="", sx="", sy="", sw="", sh="", Matrix=1) { if (Matrix&1 = "") ImageAttr := Gdip_SetImageAttributesColorMatrix(Matrix) else if (Matrix != 1) ImageAttr := Gdip_SetImageAttributesColorMatrix("1|0|0|0|0|0|1|0|0|0|0|0|1|0|0|0|0|0|" Matrix "|0|0|0|0|0|1") if (sx = "" && sy = "" && sw = "" && sh = "") { if (dx = "" && dy = "" && dw = "" && dh = "") { sx := dx := 0, sy := dy := 0 sw := dw := Gdip_GetImageWidth(pBitmap) sh := dh := Gdip_GetImageHeight(pBitmap) } else { sx := sy := 0 sw := Gdip_GetImageWidth(pBitmap) sh := Gdip_GetImageHeight(pBitmap) } } E := DllCall("gdiplus\GdipDrawImageRectRect", "uint", pGraphics, "uint", pBitmap , "float", dx, "float", dy, "float", dw, "float", dh , "float", sx, "float", sy, "float", sw, "float", sh , "int", 2, "uint", ImageAttr, "uint", 0, "uint", 0) if ImageAttr Gdip_DisposeImageAttributes(ImageAttr) return E } ;##################################################################################### ; Function Gdip_SetImageAttributesColorMatrix ; Description This function creates an image matrix ready for drawing ; ; Matrix a matrix used to alter image attributes when drawing ; passed with any delimeter ; ; return returns an image matrix on sucess or 0 if it fails ; ; notes MatrixBright = 1.5|0|0|0|0|0|1.5|0|0|0|0|0|1.5|0|0|0|0|0|1|0|0.05|0.05|0.05|0|1 ; MatrixGreyScale = 0.299|0.299|0.299|0|0|0.587|0.587|0.587|0|0|0.114|0.114|0.114|0|0|0|0|0|1|0|0|0|0|0|1 ; MatrixNegative = -1|0|0|0|0|0|-1|0|0|0|0|0|-1|0|0|0|0|0|1|0|0|0|0|0|1 Gdip_SetImageAttributesColorMatrix(Matrix) { VarSetCapacity(ColourMatrix, 100, 0) Matrix := RegExReplace(RegExReplace(Matrix, "^[^\d-\.]+([\d\.])", "$1", "", 1), "[^\d-\.]+", "|") StringSplit, Matrix, Matrix, | Loop, 25 { Matrix := (Matrix%A_Index% != "") ? Matrix%A_Index% : Mod(A_Index-1, 6) ? 0 : 1 NumPut(Matrix, ColourMatrix, (A_Index-1)*4, "float") } DllCall("gdiplus\GdipCreateImageAttributes", "uint*", ImageAttr) DllCall("gdiplus\GdipSetImageAttributesColorMatrix", "uint", ImageAttr, "int", 1, "int", 1, "uint", &ColourMatrix, "int", 0, "int", 0) return ImageAttr } ;##################################################################################### ; Function Gdip_GraphicsFromImage ; Description This function gets the graphics for a bitmap used for drawing functions ; ; pBitmap Pointer to a bitmap to get the pointer to its graphics ; ; return returns a pointer to the graphics of a bitmap ; ; notes a bitmap can be drawn into the graphics of another bitmap Gdip_GraphicsFromImage(pBitmap) { DllCall("gdiplus\GdipGetImageGraphicsContext", "uint", pBitmap, "uint*", pGraphics) return pGraphics } ;##################################################################################### ; Function Gdip_GraphicsFromHDC ; Description This function gets the graphics from the handle to a device context ; ; hdc This is the handle to the device context ; ; return returns a pointer to the graphics of a bitmap ; ; notes You can draw a bitmap into the graphics of another bitmap Gdip_GraphicsFromHDC(hdc) { DllCall("gdiplus\GdipCreateFromHDC", "uint", hdc, "uint*", pGraphics) return pGraphics } ;##################################################################################### ; Function Gdip_GetDC ; Description This function gets the device context of the passed Graphics ; ; hdc This is the handle to the device context ; ; return returns the device context for the graphics of a bitmap Gdip_GetDC(pGraphics) { DllCall("gdiplus\GdipGetDC", "uint", pGraphics, "uint*", hdc) return hdc } ;##################################################################################### ; Function Gdip_ReleaseDC ; Description This function releases a device context from use for further use ; ; pGraphics Pointer to the graphics of a bitmap ; hdc This is the handle to the device context ; ; return status enumeration. 0 = success Gdip_ReleaseDC(pGraphics, hdc) { return DllCall("gdiplus\GdipReleaseDC", "uint", pGraphics, "uint", hdc) } ;##################################################################################### ; Function Gdip_GraphicsClear ; Description Clears the graphics of a bitmap ready for further drawing ; ; pGraphics Pointer to the graphics of a bitmap ; ARGB The colour to clear the graphics to ; ; return status enumeration. 0 = success ; ; notes By default this will make the background invisible ; Using clipping regions you can clear a particular area on the graphics rather than clearing the entire graphics Gdip_GraphicsClear(pGraphics, ARGB=0x00ffffff) { return DllCall("gdiplus\GdipGraphicsClear", "uint", pGraphics, "int", ARGB) } ;##################################################################################### ; Function Gdip_BlurBitmap ; Description Gives a pointer to a blurred bitmap from a pointer to a bitmap ; ; pBitmap Pointer to a bitmap to be blurred ; Blur The Amount to blur a bitmap by from 1 (least blur) to 100 (most blur) ; ; return If the function succeeds, the return value is a pointer to the new blurred bitmap ; -1 = The blur parameter is outside the range 1-100 ; ; notes This function will not dispose of the original bitmap Gdip_BlurBitmap(pBitmap, Blur) { if (Blur > 100) || (Blur < 1) return -1 sWidth := Gdip_GetImageWidth(pBitmap), sHeight := Gdip_GetImageHeight(pBitmap) dWidth := sWidth//Blur, dHeight := sHeight//Blur pBitmap1 := Gdip_CreateBitmap(dWidth, dHeight) G1 := Gdip_GraphicsFromImage(pBitmap1) Gdip_SetInterpolationMode(G1, 7) Gdip_DrawImage(G1, pBitmap, 0, 0, dWidth, dHeight, 0, 0, sWidth, sHeight) Gdip_DeleteGraphics(G1) pBitmap2 := Gdip_CreateBitmap(sWidth, sHeight) G2 := Gdip_GraphicsFromImage(pBitmap2) Gdip_SetInterpolationMode(G2, 7) Gdip_DrawImage(G2, pBitmap1, 0, 0, sWidth, sHeight, 0, 0, dWidth, dHeight) Gdip_DeleteGraphics(G2) Gdip_DisposeImage(pBitmap1) return pBitmap2 } ;##################################################################################### ; Function: Gdip_SaveBitmapToFile ; Description: Saves a bitmap to a file in any supported format onto disk ; ; pBitmap Pointer to a bitmap ; sOutput The name of the file that the bitmap will be saved to. Supported extensions are: .BMP,.DIB,.RLE,.JPG,.JPEG,.JPE,.JFIF,.GIF,.TIF,.TIFF,.PNG ; Quality If saving as jpg (.JPG,.JPEG,.JPE,.JFIF) then quality can be 1-100 with default at maximum quality ; ; return If the function succeeds, the return value is zero, otherwise: ; -1 = Extension supplied is not a supported file format ; -2 = Could not get a list of encoders on system ; -3 = Could not find matching encoder for specified file format ; -4 = Could not get WideChar name of output file ; -5 = Could not save file to disk ; ; notes This function will use the extension supplied from the sOutput parameter to determine the output format Gdip_SaveBitmapToFile(pBitmap, sOutput, Quality=75) { SplitPath, sOutput,,, Extension if Extension not in BMP,DIB,RLE,JPG,JPEG,JPE,JFIF,GIF,TIF,TIFF,PNG return -1 Extension := "." Extension DllCall("gdiplus\GdipGetImageEncodersSize", "uint*", nCount, "uint*", nSize) VarSetCapacity(ci, nSize) DllCall("gdiplus\GdipGetImageEncoders", "uint", nCount, "uint", nSize, "uint", &ci) if !(nCount && nSize) return -2 Loop, %nCount% { Location := NumGet(ci, 76*(A_Index-1)+44) if !A_IsUnicode { nSize := DllCall("WideCharToMultiByte", "uint", 0, "uint", 0, "uint", Location, "int", -1, "uint", 0, "int", 0, "uint", 0, "uint", 0) VarSetCapacity(sString, nSize) DllCall("WideCharToMultiByte", "uint", 0, "uint", 0, "uint", Location, "int", -1, "str", sString, "int", nSize, "uint", 0, "uint", 0) if !InStr(sString, "*" Extension) continue } else { nSize := DllCall("WideCharToMultiByte", "uint", 0, "uint", 0, "uint", Location, "int", -1, "uint", 0, "int", 0, "uint", 0, "uint", 0) sString := "" Loop, %nSize% sString .= Chr(NumGet(Location+0, 2*(A_Index-1), "char")) if !InStr(sString, "*" Extension) continue } pCodec := &ci+76*(A_Index-1) break } if !pCodec return -3 if (Quality != 75) { Quality := (Quality < 0) ? 0 : (Quality > 100) ? 100 : Quality if Extension in .JPG,.JPEG,.JPE,.JFIF { DllCall("gdiplus\GdipGetEncoderParameterListSize", "uint", pBitmap, "uint", pCodec, "uint*", nSize) VarSetCapacity(EncoderParameters, nSize, 0) DllCall("gdiplus\GdipGetEncoderParameterList", "uint", pBitmap, "uint", pCodec, "uint", nSize, "uint", &EncoderParameters) Loop, % NumGet(EncoderParameters) ;% { if (NumGet(EncoderParameters, (28*(A_Index-1))+20) = 1) && (NumGet(EncoderParameters, (28*(A_Index-1))+24) = 6) { p := (28*(A_Index-1))+&EncoderParameters NumPut(Quality, NumGet(NumPut(4, NumPut(1, p+0)+20))) break } } } } if !A_IsUnicode { nSize := DllCall("MultiByteToWideChar", "uint", 0, "uint", 0, "uint", &sOutput, "int", -1, "uint", 0, "int", 0) VarSetCapacity(wOutput, nSize*2) DllCall("MultiByteToWideChar", "uint", 0, "uint", 0, "uint", &sOutput, "int", -1, "uint", &wOutput, "int", nSize) VarSetCapacity(wOutput, -1) if !VarSetCapacity(wOutput) return -4 E := DllCall("gdiplus\GdipSaveImageToFile", "uint", pBitmap, "uint", &wOutput, "uint", pCodec, "uint", p ? p : 0) } else E := DllCall("gdiplus\GdipSaveImageToFile", "uint", pBitmap, "uint", &sOutput, "uint", pCodec, "uint", p ? p : 0) return E ? -5 : 0 } ;##################################################################################### ; Function Gdip_GetPixel ; Description Gets the ARGB of a pixel in a bitmap ; ; pBitmap Pointer to a bitmap ; x x-coordinate of the pixel ; y y-coordinate of the pixel ; ; return Returns the ARGB value of the pixel Gdip_GetPixel(pBitmap, x, y) { DllCall("gdiplus\GdipBitmapGetPixel", "uint", pBitmap, "int", x, "int", y, "uint*", ARGB) return ARGB } ;##################################################################################### ; Function Gdip_SetPixel ; Description Sets the ARGB of a pixel in a bitmap ; ; pBitmap Pointer to a bitmap ; x x-coordinate of the pixel ; y y-coordinate of the pixel ; ; return status enumeration. 0 = success Gdip_SetPixel(pBitmap, x, y, ARGB) { return DllCall("gdiplus\GdipBitmapSetPixel", "uint", pBitmap, "int", x, "int", y, "int", ARGB) } ;##################################################################################### ; Function Gdip_GetImageWidth ; Description Gives the width of a bitmap ; ; pBitmap Pointer to a bitmap ; ; return Returns the width in pixels of the supplied bitmap Gdip_GetImageWidth(pBitmap) { DllCall("gdiplus\GdipGetImageWidth", "uint", pBitmap, "uint*", Width) return Width } ;##################################################################################### ; Function Gdip_GetImageHeight ; Description Gives the height of a bitmap ; ; pBitmap Pointer to a bitmap ; ; return Returns the height in pixels of the supplied bitmap Gdip_GetImageHeight(pBitmap) { DllCall("gdiplus\GdipGetImageHeight", "uint", pBitmap, "uint*", Height) return Height } ;##################################################################################### ; Function Gdip_GetDimensions ; Description Gives the width and height of a bitmap ; ; pBitmap Pointer to a bitmap ; Width ByRef variable. This variable will be set to the width of the bitmap ; Height ByRef variable. This variable will be set to the height of the bitmap ; ; return No return value ; Gdip_GetDimensions(pBitmap, ThisWidth, ThisHeight) will set ThisWidth to the width and ThisHeight to the height Gdip_GetDimensions(pBitmap, ByRef Width, ByRef Height) { Width := Gdip_GetImageWidth(pBitmap) Height := Gdip_GetImageHeight(pBitmap) } ;##################################################################################### Gdip_GetImagePixelFormat(pBitmap) { DllCall("gdiplus\GdipGetImagePixelFormat", "uint", pBitmap, "uint*", Format) return Format } ;##################################################################################### ; Function Gdip_GetDpiX ; Description Gives the horizontal dots per inch of the graphics of a bitmap ; ; pBitmap Pointer to a bitmap ; Width ByRef variable. This variable will be set to the width of the bitmap ; Height ByRef variable. This variable will be set to the height of the bitmap ; ; return No return value ; Gdip_GetDimensions(pBitmap, ThisWidth, ThisHeight) will set ThisWidth to the width and ThisHeight to the height Gdip_GetDpiX(pGraphics) { DllCall("gdiplus\GdipGetDpiX", "uint", pGraphics, "float*", dpix) return Round(dpix) } Gdip_GetDpiY(pGraphics) { DllCall("gdiplus\GdipGetDpiY", "uint", pGraphics, "float*", dpiy) return Round(dpiy) } Gdip_GetImageHorizontalResolution(pBitmap) { DllCall("gdiplus\GdipGetImageHorizontalResolution", "uint", pBitmap, "float*", dpix) return Round(dpix) } Gdip_GetImageVerticalResolution(pBitmap) { DllCall("gdiplus\GdipGetImageVerticalResolution", "uint", pBitmap, "float*", dpiy) return Round(dpiy) } Gdip_CreateBitmapFromFile(sFile, IconNumber=1, IconSize="") { SplitPath, sFile,,, ext if ext in exe,dll { Sizes := IconSize ? IconSize : 256 "|" 128 "|" 64 "|" 48 "|" 32 "|" 16 VarSetCapacity(buf, 40) Loop, Parse, Sizes, | { DllCall("PrivateExtractIcons", "str", sFile, "int", IconNumber-1, "int", A_LoopField, "int", A_LoopField, "uint*", hIcon, "uint*", 0, "uint", 1, "uint", 0) if !hIcon continue if !DllCall("GetIconInfo", "uint", hIcon, "uint", &buf) { DestroyIcon(hIcon) continue } hbmColor := NumGet(buf, 16) hbmMask := NumGet(buf, 12) if !(hbmColor && DllCall("GetObject", "uint", hbmColor, "int", 24, "uint", &buf)) { DestroyIcon(hIcon) continue } break } if !hIcon return -1 Width := NumGet(buf, 4, "int"), Height := NumGet(buf, 8, "int") hbm := CreateDIBSection(Width, -Height), hdc := CreateCompatibleDC(), obm := SelectObject(hdc, hbm) if !DllCall("DrawIconEx", "uint", hdc, "int", 0, "int", 0, "uint", hIcon, "uint", Width, "uint", Height, "uint", 0, "uint", 0, "uint", 3) { DestroyIcon(hIcon) return -2 } VarSetCapacity(dib, 84) DllCall("GetObject", "uint", hbm, "int", 84, "uint", &dib) Stride := NumGet(dib, 12), Bits := NumGet(dib, 20) DllCall("gdiplus\GdipCreateBitmapFromScan0", "int", Width, "int", Height, "int", Stride, "int", 0x26200A, "uint", Bits, "uint*", pBitmapOld) pBitmap := Gdip_CreateBitmap(Width, Height), G := Gdip_GraphicsFromImage(pBitmap) Gdip_DrawImage(G, pBitmapOld, 0, 0, Width, Height, 0, 0, Width, Height) SelectObject(hdc, obm), DeleteObject(hbm), DeleteDC(hdc) Gdip_DeleteGraphics(G), Gdip_DisposeImage(pBitmapOld) DestroyIcon(hIcon) } else { if !A_IsUnicode { VarSetCapacity(wFile, 1023) DllCall("kernel32\MultiByteToWideChar", "uint", 0, "uint", 0, "uint", &sFile, "int", -1, "uint", &wFile, "int", 512) DllCall("gdiplus\GdipCreateBitmapFromFile", "uint", &wFile, "uint*", pBitmap) } else DllCall("gdiplus\GdipCreateBitmapFromFile", "uint", &sFile, "uint*", pBitmap) } return pBitmap } Gdip_CreateBitmapFromHBITMAP(hBitmap, Palette=0) { DllCall("gdiplus\GdipCreateBitmapFromHBITMAP", "uint", hBitmap, "uint", Palette, "uint*", pBitmap) return pBitmap } Gdip_CreateHBITMAPFromBitmap(pBitmap, Background=0xffffffff) { DllCall("gdiplus\GdipCreateHBITMAPFromBitmap", "uint", pBitmap, "uint*", hbm, "int", Background) return hbm } Gdip_CreateBitmapFromHICON(hIcon) { DllCall("gdiplus\GdipCreateBitmapFromHICON", "uint", hIcon, "uint*", pBitmap) return pBitmap } Gdip_CreateHICONFromBitmap(pBitmap) { DllCall("gdiplus\GdipCreateHICONFromBitmap", "uint", pBitmap, "uint*", hIcon) return hIcon } Gdip_CreateBitmap(Width, Height, Format=0x26200A) { DllCall("gdiplus\GdipCreateBitmapFromScan0", "int", Width, "int", Height, "int", 0, "int", Format, "uint", 0, "uint*", pBitmap) Return pBitmap } Gdip_CreateBitmapFromClipboard() { if !DllCall("OpenClipboard", "uint", 0) return -1 if !DllCall("IsClipboardFormatAvailable", "uint", 8) return -2 if !hBitmap := DllCall("GetClipboardData", "uint", 2) return -3 if !pBitmap := Gdip_CreateBitmapFromHBITMAP(hBitmap) return -4 if !DllCall("CloseClipboard") return -5 DeleteObject(hBitmap) return pBitmap } Gdip_SetBitmapToClipboard(pBitmap) { hBitmap := Gdip_CreateHBITMAPFromBitmap(pBitmap) DllCall("GetObject", "uint", hBitmap, "int", VarSetCapacity(oi, 84, 0), "uint", &oi) hdib := DllCall("GlobalAlloc", "uint", 2, "uint", 40+NumGet(oi, 44)) pdib := DllCall("GlobalLock", "uint", hdib) DllCall("RtlMoveMemory", "uint", pdib, "uint", &oi+24, "uint", 40) DllCall("RtlMoveMemory", "Uint", pdib+40, "Uint", NumGet(oi, 20), "uint", NumGet(oi, 44)) DllCall("GlobalUnlock", "uint", hdib) DllCall("DeleteObject", "uint", hBitmap) DllCall("OpenClipboard", "uint", 0) DllCall("EmptyClipboard") DllCall("SetClipboardData", "uint", 8, "uint", hdib) DllCall("CloseClipboard") } Gdip_CloneBitmapArea(pBitmap, x, y, w, h, Format=0x26200A) { DllCall("gdiplus\GdipCloneBitmapArea", "float", x, "float", y, "float", w, "float", h , "int", Format, "uint", pBitmap, "uint*", pBitmapDest) return pBitmapDest } ;##################################################################################### ; Create resources ;##################################################################################### Gdip_CreatePen(ARGB, w) { DllCall("gdiplus\GdipCreatePen1", "int", ARGB, "float", w, "int", 2, "uint*", pPen) return pPen } Gdip_CreatePenFromBrush(pBrush, w) { DllCall("gdiplus\GdipCreatePen2", "uint", pBrush, "float", w, "int", 2, "uint*", pPen) return pPen } Gdip_BrushCreateSolid(ARGB=0xff000000) { DllCall("gdiplus\GdipCreateSolidFill", "int", ARGB, "uint*", pBrush) return pBrush } ; HatchStyleHorizontal = 0 ; HatchStyleVertical = 1 ; HatchStyleForwardDiagonal = 2 ; HatchStyleBackwardDiagonal = 3 ; HatchStyleCross = 4 ; HatchStyleDiagonalCross = 5 ; HatchStyle05Percent = 6 ; HatchStyle10Percent = 7 ; HatchStyle20Percent = 8 ; HatchStyle25Percent = 9 ; HatchStyle30Percent = 10 ; HatchStyle40Percent = 11 ; HatchStyle50Percent = 12 ; HatchStyle60Percent = 13 ; HatchStyle70Percent = 14 ; HatchStyle75Percent = 15 ; HatchStyle80Percent = 16 ; HatchStyle90Percent = 17 ; HatchStyleLightDownwardDiagonal = 18 ; HatchStyleLightUpwardDiagonal = 19 ; HatchStyleDarkDownwardDiagonal = 20 ; HatchStyleDarkUpwardDiagonal = 21 ; HatchStyleWideDownwardDiagonal = 22 ; HatchStyleWideUpwardDiagonal = 23 ; HatchStyleLightVertical = 24 ; HatchStyleLightHorizontal = 25 ; HatchStyleNarrowVertical = 26 ; HatchStyleNarrowHorizontal = 27 ; HatchStyleDarkVertical = 28 ; HatchStyleDarkHorizontal = 29 ; HatchStyleDashedDownwardDiagonal = 30 ; HatchStyleDashedUpwardDiagonal = 31 ; HatchStyleDashedHorizontal = 32 ; HatchStyleDashedVertical = 33 ; HatchStyleSmallConfetti = 34 ; HatchStyleLargeConfetti = 35 ; HatchStyleZigZag = 36 ; HatchStyleWave = 37 ; HatchStyleDiagonalBrick = 38 ; HatchStyleHorizontalBrick = 39 ; HatchStyleWeave = 40 ; HatchStylePlaid = 41 ; HatchStyleDivot = 42 ; HatchStyleDottedGrid = 43 ; HatchStyleDottedDiamond = 44 ; HatchStyleShingle = 45 ; HatchStyleTrellis = 46 ; HatchStyleSphere = 47 ; HatchStyleSmallGrid = 48 ; HatchStyleSmallCheckerBoard = 49 ; HatchStyleLargeCheckerBoard = 50 ; HatchStyleOutlinedDiamond = 51 ; HatchStyleSolidDiamond = 52 ; HatchStyleTotal = 53 Gdip_BrushCreateHatch(ARGBfront, ARGBback, HatchStyle=0) { DllCall("gdiplus\GdipCreateHatchBrush", "int", HatchStyle, "int", ARGBfront, "int", ARGBback, "uint*", pBrush) return pBrush } ;GpStatus WINGDIPAPI GdipCreateTexture2I(GpImage *image, GpWrapMode wrapmode, INT x, INT y, INT width, INT height, GpTexture **texture) ;GpStatus WINGDIPAPI GdipCreateTexture2(GpImage *image, GpWrapMode wrapmode, REAL x, REAL y, REAL width, REAL height, GpTexture **texture) ;GpStatus WINGDIPAPI GdipCreateTexture(GpImage *image, GpWrapMode wrapmode, GpTexture **texture) Gdip_CreateTextureBrush(pBitmap, WrapMode=1, x=0, y=0, w="", h="") { if !(w && h) DllCall("gdiplus\GdipCreateTexture", "uint", pBitmap, "int", WrapMode, "uint*", pBrush) else DllCall("gdiplus\GdipCreateTexture2", "uint", pBitmap, "int", WrapMode, "float", x, "float", y, "float", w, "float", h, "uint*", pBrush) return pBrush } ; WrapModeTile = 0 ; WrapModeTileFlipX = 1 ; WrapModeTileFlipY = 2 ; WrapModeTileFlipXY = 3 ; WrapModeClamp = 4 Gdip_CreateLineBrush(x1, y1, x2, y2, ARGB1, ARGB2, WrapMode=1) { CreatePointF(PointF1, x1, y1), CreatePointF(PointF2, x2, y2) DllCall("gdiplus\GdipCreateLineBrush", "uint", &PointF1, "uint", &PointF2, "int", ARGB1, "int", ARGB2, "int", WrapMode, "uint*", LGpBrush) return LGpBrush } ; LinearGradientModeHorizontal = 0 ; LinearGradientModeVertical = 1 ; LinearGradientModeForwardDiagonal = 2 ; LinearGradientModeBackwardDiagonal = 3 Gdip_CreateLineBrushFromRect(x, y, w, h, ARGB1, ARGB2, LinearGradientMode=1, WrapMode=1) { CreateRectF(RectF, x, y, w, h) DllCall("gdiplus\GdipCreateLineBrushFromRect", "uint", &RectF, "int", ARGB1, "int", ARGB2, "int", LinearGradientMode, "int", WrapMode, "uint*", LGpBrush) return LGpBrush } Gdip_CloneBrush(pBrush) { static pNewBrush VarSetCapacity(pNewBrush, 288, 0) DllCall("RtlMoveMemory", "uint", &pNewBrush, "uint", pBrush, "uint", 288) VarSetCapacity(pNewBrush, -1) return &pNewBrush } ;##################################################################################### ; Delete resources ;##################################################################################### Gdip_DeletePen(pPen) { return DllCall("gdiplus\GdipDeletePen", "uint", pPen) } Gdip_DeleteBrush(pBrush) { return DllCall("gdiplus\GdipDeleteBrush", "uint", pBrush) } Gdip_DisposeImage(pBitmap) { return DllCall("gdiplus\GdipDisposeImage", "uint", pBitmap) } Gdip_DeleteGraphics(pGraphics) { return DllCall("gdiplus\GdipDeleteGraphics", "uint", pGraphics) } Gdip_DisposeImageAttributes(ImageAttr) { return DllCall("gdiplus\GdipDisposeImageAttributes", "uint", ImageAttr) } Gdip_DeleteFont(hFont) { return DllCall("gdiplus\GdipDeleteFont", "uint", hFont) } Gdip_DeleteStringFormat(hFormat) { return DllCall("gdiplus\GdipDeleteStringFormat", "uint", hFormat) } Gdip_DeleteFontFamily(hFamily) { return DllCall("gdiplus\GdipDeleteFontFamily", "uint", hFamily) } Gdip_DeleteMatrix(Matrix) { return DllCall("gdiplus\GdipDeleteMatrix", "uint", Matrix) } ;##################################################################################### ; Text functions ;##################################################################################### Gdip_TextToGraphics(pGraphics, Text, Options, Font="Arial", Width="", Height="", Measure=0) { IWidth := Width, IHeight:= Height RegExMatch(Options, "i)X([\-\d\.]+)(p*)", xpos) RegExMatch(Options, "i)Y([\-\d\.]+)(p*)", ypos) RegExMatch(Options, "i)W([\-\d\.]+)(p*)", Width) RegExMatch(Options, "i)H([\-\d\.]+)(p*)", Height) RegExMatch(Options, "i)C(?!(entre|enter))([a-f\d]+)", Colour) RegExMatch(Options, "i)Top|Up|Bottom|Down|vCentre|vCenter", vPos) RegExMatch(Options, "i)R(\d)", Rendering) RegExMatch(Options, "i)S(\d+)(p*)", Size) if !Gdip_DeleteBrush(Gdip_CloneBrush(Colour2)) PassBrush := 1, pBrush := Colour2 if !(IWidth && IHeight) && (xpos2 || ypos2 || Width2 || Height2 || Size2) return -1 Style := 0, Styles := "Regular|Bold|Italic|BoldItalic|Underline|Strikeout" Loop, Parse, Styles, | { if RegExMatch(Options, "\b" A_loopField) Style |= (A_LoopField != "StrikeOut") ? (A_Index-1) : 8 } Align := 0, Alignments := "Near|Left|Centre|Center|Far|Right" Loop, Parse, Alignments, | { if RegExMatch(Options, "\b" A_loopField) Align |= A_Index//2.1 ; 0|0|1|1|2|2 } xpos := (xpos1 != "") ? xpos2 ? IWidth*(xpos1/100) : xpos1 : 0 ypos := (ypos1 != "") ? ypos2 ? IHeight*(ypos1/100) : ypos1 : 0 Width := Width1 ? Width2 ? IWidth*(Width1/100) : Width1 : IWidth Height := Height1 ? Height2 ? IHeight*(Height1/100) : Height1 : IHeight if !PassBrush Colour := "0x" (Colour2 ? Colour2 : "ff000000") Rendering := ((Rendering1 >= 0) && (Rendering1 <= 5)) ? Rendering1 : 4 Size := (Size1 > 0) ? Size2 ? IHeight*(Size1/100) : Size1 : 12 hFamily := Gdip_FontFamilyCreate(Font) hFont := Gdip_FontCreate(hFamily, Size, Style) hFormat := Gdip_StringFormatCreate(0x4000) pBrush := PassBrush ? pBrush : Gdip_BrushCreateSolid(Colour) if !(hFamily && hFont && hFormat && pBrush && pGraphics) return !pGraphics ? -2 : !hFamily ? -3 : !hFont ? -4 : !hFormat ? -5 : !pBrush ? -6 : 0 CreateRectF(RC, xpos, ypos, Width, Height) Gdip_SetStringFormatAlign(hFormat, Align) Gdip_SetTextRenderingHint(pGraphics, Rendering) ReturnRC := Gdip_MeasureString(pGraphics, Text, hFont, hFormat, RC) if vPos { StringSplit, ReturnRC, ReturnRC, | if (vPos = "vCentre") || (vPos = "vCenter") ypos += (Height-ReturnRC4)//2 else if (vPos = "Top") || (vPos = "Up") ypos := 0 else if (vPos = "Bottom") || (vPos = "Down") ypos := Height-ReturnRC4 CreateRectF(RC, xpos, ypos, Width, ReturnRC4) ReturnRC := Gdip_MeasureString(pGraphics, Text, hFont, hFormat, RC) } if !Measure E := Gdip_DrawString(pGraphics, Text, hFont, hFormat, pBrush, RC) if !PassBrush Gdip_DeleteBrush(pBrush) Gdip_DeleteStringFormat(hFormat) Gdip_DeleteFont(hFont) Gdip_DeleteFontFamily(hFamily) return E ? E : ReturnRC } Gdip_DrawString(pGraphics, sString, hFont, hFormat, pBrush, ByRef RectF) { if !A_IsUnicode { nSize := DllCall("MultiByteToWideChar", "uint", 0, "uint", 0, "uint", &sString, "int", -1, "uint", 0, "int", 0) VarSetCapacity(wString, nSize*2) DllCall("MultiByteToWideChar", "uint", 0, "uint", 0, "uint", &sString, "int", -1, "uint", &wString, "int", nSize) return DllCall("gdiplus\GdipDrawString", "uint", pGraphics , "uint", &wString, "int", -1, "uint", hFont, "uint", &RectF, "uint", hFormat, "uint", pBrush) } else { return DllCall("gdiplus\GdipDrawString", "uint", pGraphics , "uint", &sString, "int", -1, "uint", hFont, "uint", &RectF, "uint", hFormat, "uint", pBrush) } } Gdip_MeasureString(pGraphics, sString, hFont, hFormat, ByRef RectF) { VarSetCapacity(RC, 16) if !A_IsUnicode { nSize := DllCall("MultiByteToWideChar", "uint", 0, "uint", 0, "uint", &sString, "int", -1, "uint", 0, "int", 0) VarSetCapacity(wString, nSize*2) DllCall("MultiByteToWideChar", "uint", 0, "uint", 0, "uint", &sString, "int", -1, "uint", &wString, "int", nSize) DllCall("gdiplus\GdipMeasureString", "uint", pGraphics , "uint", &wString, "int", -1, "uint", hFont, "uint", &RectF, "uint", hFormat, "uint", &RC, "uint*", Chars, "uint*", Lines) } else { DllCall("gdiplus\GdipMeasureString", "uint", pGraphics , "uint", &sString, "int", -1, "uint", hFont, "uint", &RectF, "uint", hFormat, "uint", &RC, "uint*", Chars, "uint*", Lines) } return &RC ? NumGet(RC, 0, "float") "|" NumGet(RC, 4, "float") "|" NumGet(RC, 8, "float") "|" NumGet(RC, 12, "float") "|" Chars "|" Lines : 0 } ; Near = 0 ; Center = 1 ; Far = 2 Gdip_SetStringFormatAlign(hFormat, Align) { return DllCall("gdiplus\GdipSetStringFormatAlign", "uint", hFormat, "int", Align) } Gdip_StringFormatCreate(Format=0, Lang=0) { DllCall("gdiplus\GdipCreateStringFormat", "int", Format, "int", Lang, "uint*", hFormat) return hFormat } ; Regular = 0 ; Bold = 1 ; Italic = 2 ; BoldItalic = 3 ; Underline = 4 ; Strikeout = 8 Gdip_FontCreate(hFamily, Size, Style=0) { DllCall("gdiplus\GdipCreateFont", "uint", hFamily, "float", Size, "int", Style, "int", 0, "uint*", hFont) return hFont } Gdip_FontFamilyCreate(Font) { if !A_IsUnicode { nSize := DllCall("MultiByteToWideChar", "uint", 0, "uint", 0, "uint", &Font, "int", -1, "uint", 0, "int", 0) VarSetCapacity(wFont, nSize*2) DllCall("MultiByteToWideChar", "uint", 0, "uint", 0, "uint", &Font, "int", -1, "uint", &wFont, "int", nSize) DllCall("gdiplus\GdipCreateFontFamilyFromName", "uint", &wFont, "uint", 0, "uint*", hFamily) } else DllCall("gdiplus\GdipCreateFontFamilyFromName", "uint", &Font, "uint", 0, "uint*", hFamily) return hFamily } ;##################################################################################### ; Matrix functions ;##################################################################################### Gdip_CreateAffineMatrix(m11, m12, m21, m22, x, y) { DllCall("gdiplus\GdipCreateMatrix2", "float", m11, "float", m12, "float", m21, "float", m22, "float", x, "float", y, "uint*", Matrix) return Matrix } Gdip_CreateMatrix() { DllCall("gdiplus\GdipCreateMatrix", "uint*", Matrix) return Matrix } ;##################################################################################### ; GraphicsPath functions ;##################################################################################### ; Alternate = 0 ; Winding = 1 Gdip_CreatePath(BrushMode=0) { DllCall("gdiplus\GdipCreatePath", "int", BrushMode, "uint*", Path) return Path } Gdip_AddPathEllipse(Path, x, y, w, h) { return DllCall("gdiplus\GdipAddPathEllipse", "uint", Path, "float", x, "float", y, "float", w, "float", h) } Gdip_AddPathPolygon(Path, Points) { StringSplit, Points, Points, | VarSetCapacity(PointF, 8*Points0) Loop, %Points0% { StringSplit, Coord, Points%A_Index%, `, NumPut(Coord1, PointF, 8*(A_Index-1), "float"), NumPut(Coord2, PointF, (8*(A_Index-1))+4, "float") } return DllCall("gdiplus\GdipAddPathPolygon", "uint", Path, "uint", &PointF, "int", Points0) } Gdip_DeletePath(Path) { return DllCall("gdiplus\GdipDeletePath", "uint", Path) } ;##################################################################################### ; Quality functions ;##################################################################################### ; SystemDefault = 0 ; SingleBitPerPixelGridFit = 1 ; SingleBitPerPixel = 2 ; AntiAliasGridFit = 3 ; AntiAlias = 4 Gdip_SetTextRenderingHint(pGraphics, RenderingHint) { return DllCall("gdiplus\GdipSetTextRenderingHint", "uint", pGraphics, "int", RenderingHint) } ; Default = 0 ; LowQuality = 1 ; HighQuality = 2 ; Bilinear = 3 ; Bicubic = 4 ; NearestNeighbor = 5 ; HighQualityBilinear = 6 ; HighQualityBicubic = 7 Gdip_SetInterpolationMode(pGraphics, InterpolationMode) { return DllCall("gdiplus\GdipSetInterpolationMode", "uint", pGraphics, "int", InterpolationMode) } ; Default = 0 ; HighSpeed = 1 ; HighQuality = 2 ; None = 3 ; AntiAlias = 4 Gdip_SetSmoothingMode(pGraphics, SmoothingMode) { return DllCall("gdiplus\GdipSetSmoothingMode", "uint", pGraphics, "int", SmoothingMode) } ; CompositingModeSourceOver = 0 (blended) ; CompositingModeSourceCopy = 1 (overwrite) Gdip_SetCompositingMode(pGraphics, CompositingMode=0) { return DllCall("gdiplus\GdipSetCompositingMode", "uint", pGraphics, "int", CompositingMode) } ;##################################################################################### ; Extra functions ;##################################################################################### Gdip_Startup() { if !DllCall("GetModuleHandle", "str", "gdiplus") DllCall("LoadLibrary", "str", "gdiplus") VarSetCapacity(si, 16, 0), si := Chr(1) DllCall("gdiplus\GdiplusStartup", "uint*", pToken, "uint", &si, "uint", 0) return pToken } Gdip_Shutdown(pToken) { DllCall("gdiplus\GdiplusShutdown", "uint", pToken) if hModule := DllCall("GetModuleHandle", "str", "gdiplus") DllCall("FreeLibrary", "uint", hModule) return 0 } ; Prepend = 0; The new operation is applied before the old operation. ; Append = 1; The new operation is applied after the old operation. Gdip_RotateWorldTransform(pGraphics, Angle, MatrixOrder=0) { return DllCall("gdiplus\GdipRotateWorldTransform", "uint", pGraphics, "float", Angle, "int", MatrixOrder) } Gdip_ScaleWorldTransform(pGraphics, x, y, MatrixOrder=0) { return DllCall("gdiplus\GdipScaleWorldTransform", "uint", pGraphics, "float", x, "float", y, "int", MatrixOrder) } Gdip_TranslateWorldTransform(pGraphics, x, y, MatrixOrder=0) { return DllCall("gdiplus\GdipTranslateWorldTransform", "uint", pGraphics, "float", x, "float", y, "int", MatrixOrder) } Gdip_ResetWorldTransform(pGraphics) { return DllCall("gdiplus\GdipResetWorldTransform", "uint", pGraphics) } Gdip_GetRotatedTranslation(Width, Height, Angle, ByRef xTranslation, ByRef yTranslation) { pi := 3.14159, TAngle := Angle*(pi/180) Bound := (Angle >= 0) ? Mod(Angle, 360) : 360-Mod(-Angle, -360) if ((Bound >= 0) && (Bound <= 90)) xTranslation := Height*Sin(TAngle), yTranslation := 0 else if ((Bound > 90) && (Bound <= 180)) xTranslation := (Height*Sin(TAngle))-(Width*Cos(TAngle)), yTranslation := -Height*Cos(TAngle) else if ((Bound > 180) && (Bound <= 270)) xTranslation := -(Width*Cos(TAngle)), yTranslation := -(Height*Cos(TAngle))-(Width*Sin(TAngle)) else if ((Bound > 270) && (Bound <= 360)) xTranslation := 0, yTranslation := -Width*Sin(TAngle) } Gdip_GetRotatedDimensions(Width, Height, Angle, ByRef RWidth, ByRef RHeight) { pi := 3.14159, TAngle := Angle*(pi/180) if !(Width && Height) return -1 RWidth := Ceil(Abs(Width*Cos(TAngle))+Abs(Height*Sin(TAngle))) RHeight := Ceil(Abs(Width*Sin(TAngle))+Abs(Height*Cos(Tangle))) } ; Replace = 0 ; Intersect = 1 ; Union = 2 ; Xor = 3 ; Exclude = 4 ; Complement = 5 Gdip_SetClipRect(pGraphics, x, y, w, h, CombineMode=0) { return DllCall("gdiplus\GdipSetClipRect", "uint", pGraphics, "float", x, "float", y, "float", w, "float", h, "int", CombineMode) } Gdip_SetClipPath(pGraphics, Path, CombineMode=0) { return DllCall("gdiplus\GdipSetClipPath", "uint", pGraphics, "uint", Path, "int", CombineMode) } Gdip_ResetClip(pGraphics) { return DllCall("gdiplus\GdipResetClip", "uint", pGraphics) } Gdip_GetClipRegion(pGraphics) { Region := Gdip_CreateRegion() DllCall("gdiplus\GdipGetClip", "uint" pGraphics, "uint*", Region) return Region } Gdip_SetClipRegion(pGraphics, Region, CombineMode=0) { return DllCall("gdiplus\GdipSetClipRegion", "uint", pGraphics, "uint", Region, "int", CombineMode) } Gdip_CreateRegion() { DllCall("gdiplus\GdipCreateRegion", "uint*", Region) return Region } Gdip_DeleteRegion(Region) { return DllCall("gdiplus\GdipDeleteRegion", "uint", Region) }