#ifndef TDx_DrawSurfaceH #define TDx_DrawSurfaceH // ========================================================================== // // File: TDx_DrawSurface.H // Created: 12th February 2009 // Author: BCB_Code_Generator v2.10, // Darren John Dwyer // ( // data entry, // source code, // documentation, // help files, // project files, // tutorials, // demos, // website // ) // // Hugh Dunbar Edwards // ( // data entry creation, // documentation creation, // icon creation // ) // // Description: This file defines the TDx_DrawSurface Component // // "TDx_Library v1.90" // "TDx_Draw_Library v1.90" // // (c) 2009 Darren John Dwyer, Australia. // All Rights Reserved. // // Refer to the 'License.Txt' file for licencing & copyright information. // // ========================================================================== // -------------------------------------------------------------------------- // #includes // -------------------------------------------------------------------------- #include #include #include #include // -------------------------------------------------------------------------- #include "TDx_Library_Defns.H" #include "TDx_Library_Functions.H" // -------------------------------------------------------------------------- #include "TDx_Draw_Library_Defns.H" #include "TDx_Draw_Library_Functions.H" // -------------------------------------------------------------------------- // external classes used by the TDx_DrawSurface component. class TDx_Draw; class TDDSurfaceDesc; // -------------------------------------------------------------------------- // external classes used by TDx_DrawSurface methods. class TDx_DrawSurface; class TDDBltFX; class TDDSCaps; class TDx_DrawClipper; class TDDColorKey; class TDx_DrawPalette; class TDDPixelFormat; class TDDOverlayFX; // -------------------------------------------------------------------------- // -------------------------------------------------------------------------- // Definition for the OnEnumAttachedSurfaces callback event. typedef __fastcall void (__closure* TDx_EnumAttachedSurfacesCallback) ( TObject* Sender, TDx_DrawSurface* Surface, TDDSurfaceDesc* SurfaceDesc, void* Context, bool& Finished ); // Definition for the OnEnumOverlayZOrders callback event. typedef __fastcall void (__closure* TDx_EnumOverlayZOrdersCallback) ( TObject* Sender, TDx_DrawSurface* Surface, TDDSurfaceDesc* SurfaceDesc, void* Context, bool& Finished ); // ========================================================================== // Class: TDx_DrawSurface // Class Type: Interface // Description: The TDx_DrawSurface component wraps the DirectX // IDirectDrawSurface7 interface, which is used for working with // surfaces and surface related system variables. // // It is used to interact with the large variety of tasks and // information relating to the manipulation of surfaces, which // are after all, the means by which all visual effects are // displayed for the user. // // These tasks include: // // Initializing a manually created surface, determining whether // a surface has lost its allocated memory and restoring that // memory if neccessary. // // The addition, removal, retrieval and enumeration of surfaces // within a flip chain or complex surface construct like a // cubemap or mipmap. // Determining the blitter status and blitting using normal or // bltfast techniques. // // Retrieval and definition of the color keys, palettes and // clippers associated with a surface. // Acquisition and release of the GDI compatible device context // handles for the surface. // Lock and unlock regions of a surface for blitting or page // lock and unlock sections of memory for direct memory access // (DMA) blits. // Flipping to the next surface in a flip chain or determining // the status of the last flip. // // Retrieval of the underlying IDirectDraw7 interface used to // create the surface. // Change or retrieve the uniqueness value associated with the // surface. // Retrieve the capabilities, pixel format or description of a // surface and modify an explicitly allocated surface's // description. // // Free, define or retrieve application specific information // associated with the surface. // Change or retrieve an overlays display parameters and // position. // ========================================================================== #if (__BORLANDC__ >= 0x0530) // BCB Version 3 + class PACKAGE TDx_DrawSurface : public TComponent { // -------------------------------------------------------------------------- #else // BCB Version 1 class TDx_DrawSurface : public TComponent { #endif // ========================================================================== __published: // ========================================================================== // ---------------------------------------------------------------------- // Event: OnCreate() // Description: The OnCreate() event is triggered by the // TDx_DrawSurface::Create() method after it has // successfully created the internal LPDIRECTDRAWSURFACE7 // used within the TDx_DrawSurface component. // // Note that since this event is only called upon successful // creation, this event is an ideal place for code that is // to be activated only once, immediately upon the // successful creation of the LPDIRECTDRAWSURFACE7 // interface. // // For example, you could retrieve the TDx_DrawSurface // component's capabilities, Create() dependant components, // allocate memory, etc. // // When used in conjunction with the // TDx_DrawSurface::OnDestroy() event, you can fully // automate and insulate your code on a per-component basis. // ---------------------------------------------------------------------- __property TDx_Event OnCreate = {read=FOnCreate, write=FOnCreate, nodefault}; // ---------------------------------------------------------------------- // Event: OnDestroy() // Description: The OnDestroy() event is triggered by the // TDx_DrawSurface::Destroy() method, just before the // TDx_DrawSurface internal LPDIRECTDRAWSURFACE7 interface // is destroyed. // // Note: This event is an ideal place to place code that // reverses the results of the TDx_DrawSurface::OnCreate() // event. For example, assume you have already setup the // TDx_DrawSurface::OnCreate() event to retrieve the // component's capabilities, Create() a dependant component // and allocate some memory; // You can then fully automate and insulate your code on a // per-component basis by placing code in the // TDx_DrawSurface::OnDestroy() event to deallocate memory, // Destroy() the dependant components and, when required, // destroy the capabilities component. // ---------------------------------------------------------------------- __property TDx_Event OnDestroy = {read=FOnDestroy, write=FOnDestroy, nodefault}; // ---------------------------------------------------------------------- // Event: OnError() // Description: The OnError event is called when an error occurs in the // TDx_DrawSurface component. // ---------------------------------------------------------------------- __property TDx_Error OnError = {read=FOnError, write=FOnError, nodefault}; // ---------------------------------------------------------------------- // Event: OnSurfaceLost() // Description: The OnSurfaceLost event is automatically called when // various TDx_DrawSurface methods determine that the // surface is lost. // This event is ideal for restoring a lost surface to its // previous state. // ---------------------------------------------------------------------- __property TDx_Event OnSurfaceLost = {read=FOnSurfaceLost, write=FOnSurfaceLost, nodefault}; // ---------------------------------------------------------------------- // Callback: OnEnumAttachedSurfaces() // Description: The OnEnumAttachedSurfaces callback is used to process // information returned by the // TDx_DrawSurface::EnumAttachedSurfaces method. // Set the Finished parameter to halt the enumeration // process. // ---------------------------------------------------------------------- __property TDx_EnumAttachedSurfacesCallback OnEnumAttachedSurfaces = {read=FOnEnumAttachedSurfaces, write=FOnEnumAttachedSurfaces, nodefault}; // ---------------------------------------------------------------------- // Callback: OnEnumOverlayZOrders() // Description: The OnEnumOverlayZOrders callback is used to process // information returned by the // TDx_DrawSurface::EnumOverlayZOrders method. // Set the Finished parameter to halt the enumeration // process. // ---------------------------------------------------------------------- __property TDx_EnumOverlayZOrdersCallback OnEnumOverlayZOrders = {read=FOnEnumOverlayZOrders, write=FOnEnumOverlayZOrders, nodefault}; // ========================================================================== public: // ========================================================================== // ---------------------------------------------------------------------- // Property: Created // Description: The Created property is true if the internal // LPDIRECTDRAWSURFACE7 used in this component has been // successfully created, otherwise Created is false. // // To create the internal LPDIRECTDRAWSURFACE7, call the // TDx_DrawSurface::Create() method. // ---------------------------------------------------------------------- __property bool Created = { read=FGetCreated, write=FSetCreated, default=false }; // ---------------------------------------------------------------------- // Property: ErrorValue // Description: The ErrorValue property contains the last error value // returned from a call to a TDx_DrawSurface method or // fget/fset. eg. DD_OK or DDERR_SURFACELOST or TDX_ERROR // ---------------------------------------------------------------------- __property HRESULT ErrorValue = { read=FGetErrorValue, write=FSetErrorValue, default=DD_OK }; // ---------------------------------------------------------------------- // Method: AddAttachedSurface() // Description: The TDx_DrawSurface::AddAttachedSurface method is used // for explicitly attaching the specified z-buffer, alpha // channel or back buffer. // // This method will increment the reference count of the // surface, the attachment can be broken and the reference // count decremented using // TDx_DrawSurface::DeleteAttachedSurface(). // Surfaces attached using this method are not automatically // released, it is the responsibility of the application to // do so. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_CANNOTATTACHSURFACE // DDERR_GENERIC // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // DDERR_SURFACEALREADYATTACHED // DDERR_SURFACELOST // DDERR_WASSTILLDRAWING // Params: pAttachedSurface - // The AttachedSurface parameter references the surface that // is to be attached. // // The possible attachments that can be made include // z-buffers, alpha channels and back buffers, subject to // certain rules. // Some attachments are exclusive and will break other // attachments. For example, a 3D z-buffer may be attached // to one back buffer at a time, thus attaching it to // another surface may cause the original attachment to be // broken. // // You cannot attach a surface to itself and attachments are // not bidirectional. // System memory surfaces cannot be attached to video memory // surfaces and the surfaces being attached must be the same // size unless one is a texture map. // // Flipping surfaces of the same type may not be attached, // although flipping surfaces of differing types can be // attached. For example, a flipping alpha surface may be // attached to a flipping normal surface. // Attaching two nonflipping surfaces of the same type // creates a flip chain, attaching a nonflipping surface to // a flipping surface will add it to the existing flip // chain. // // Each call to TDx_DrawSurface::Flip() will advance one // step through the flip chain in the order the surfaces // were attached. // ---------------------------------------------------------------------- virtual bool __fastcall AddAttachedSurface( TDx_DrawSurface* pAttachedSurface ); // ---------------------------------------------------------------------- // Method: Blt() // Description: The TDx_DrawSurface::Blt method will perform a bit block // transfer. // // Z-buffering or alpha blending during blit operations is // not yet supported. // // This method performs asynchronous blits by default, // specify DDBLT_WAIT to request a synchronous blit. // // Blits can be performed using source and/or destination // color keys and arbitrary shrinking or stretching will be // performed if the source and destination rectangles are of // differing sizes. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_GENERIC // DDERR_INVALIDCLIPLIST // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // DDERR_INVALIDRECT // DDERR_NOALPHAHW // DDERR_NOBLTHW // DDERR_NOCLIPLIST // DDERR_NODDROPSHW // DDERR_NOMIRRORHW // DDERR_NORASTEROPHW // DDERR_NOROTATIONHW // DDERR_NOSTRETCHHW // DDERR_NOZBUFFERHW // DDERR_SURFACEBUSY // DDERR_SURFACELOST // DDERR_UNSUPPORTED // DDERR_WASSTILLDRAWING // Params: pDestRect - // The DestRect parameter references a TRect defining the // target of the blit on the destination surface. // Set this parameter to NULL to blit to the entire // destination surface. // // This parameter is defined so that the right and bottom // members are exclusive. Thus the right value minus the // left value will equal the width, not one less than the // width. // pSrcSurface - // The SrcSurface parameter references the surface that is // to be the source for the blit. // pSrcRect - // The SrcRect parameter references a TRect defining the // source rectangle of the blit. // Set this parameter to NULL to blit from the entire source // surface. // // This parameter is defined so that the right and bottom // members are exclusive. Thus the right value minus the // left value will equal the width, not one less than the // width. // pFlags - // The Flags parameter defines flags indicating what effect // information the blit is to use and from where that // information is to be retrieved. // The described effect applies when the flag is set. // Flags: // DDBLT_ASYNC - // The blit will be performed asynchronously through // the FIFO hardware. // When the FIFO hardware is already full the blit // will fail. // DDBLT_COLORFILL - // The blit will use the TDDBltFX::FillColor // referenced by the BltFX parameter of this method as // the color that fills the destination rectangle // before the blit occurs. // DDBLT_DDFX - // The blit will use the TDDBltFX::FX referenced by // the BltFX parameter of this method to specify the // blit effects used. // DDBLT_DDROPS - // The blit will use the TDDBltFX::DDRops referenced // by the BltFX parameter of this method to specify // non standard raster operations. // DDBLT_DEPTHFILL - // The blit will use the TDDBltFX::FillDepth // referenced by the BltFX parameter of this method as // the depth value that fills the destination // rectangle of the z-buffer surface before the blit // occurs. // DDBLT_KEYDEST - // The blit will use the destination surface color key // for transparency. // DDBLT_KEYDESTOVERRIDE - // The blit will use the TDDBltFX::DestColorKey // referenced by the BltFX parameter of this method as // the destination color key. // DDBLT_KEYSRC - // The blit will use the source surface color key for // transparency effects. // DDBLT_KEYSRCOVERRIDE - // The blit will use the TDDBltFX::SrcColorKey // referenced by the BltFX parameter of this method as // the source color key. // DDBLT_ROP - // The blit will use the TDDBltFX::ROP referenced by // the BltFX parameter of this method to define its // standard raster operation. // The possible ROP's are detailed in the Win32 API. // DDBLT_ROTATIONANGLE - // The blit will use the TDDBltFX::RotationAngle // referenced by the BltFX parameteer of this method // is to be used as the amount of rotation, in // 1/100ths of a degree, applied to the blit. // DDBLT_WAIT - // The blit will wait for the blitter to accept the // command unless an error other than // DDERR_WASSTILLDRAWING occurs. // pBltFx - // The BltFx parameter references a TDDBltFX component // holding the settings that are to be used when blitting if // the corresponding flags are set within the Flags // parameter of this method. // ---------------------------------------------------------------------- virtual bool __fastcall Blt( TRect* pDestRect, TDx_DrawSurface* pSrcSurface, TRect* pSrcRect, dword pFlags, TDDBltFX* pBltFx ); // ---------------------------------------------------------------------- // Method: BltFast() // Description: The TDx_DrawSurface::BltFast method can perform source // copy or color keyed blits. // // The blit will always be unclipped and only works for // display memory surfaces. A 10% speed benefit is gained by // using this method but only when there is no hardware // blitter. // An asychronous blit will be attempted if supported by the // hardware, with the method returning immediately unless // DDBLTFAST_WAIT is specified. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_EXCEPTION // DDERR_GENERIC // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // DDERR_INVALIDRECT // DDERR_NOBLTHW // DDERR_SURFACEBUSY // DDERR_SURFACELOST // DDERR_UNSUPPORTED // DDERR_WASSTILLDRAWING // Params: pX - // The X parameter defines the destination surface X // coordinate for the blit. // pY - // The Y parameter defines the destination surface Y // coordinate for the blit. // pSrcSurface - // The SrcSurface parameter references the source surface to // be blitted from. // pSrcRect - // The SrcRect parameter references a TRect defining the // source rectangle to be blitted from. // Set this parameter to NULL to blit from the whole source // surface. // pTrans - // The Trans parameter defines flags indicating the type of // blit to be performed. // The described effect applies when the flag is set. // Flags: // DDBLTFAST_DESTCOLORKEY - // The blit is to be performed using the destination // color key. // DDBLTFAST_NOCOLORKEY - // The blit is a normal copy blit. // DDBLTFAST_SRCCOLORKEY - // The blit is to be performed using the source color // key. // DDBLTFAST_WAIT - // The blit will wait until it can be set up or an // error other than DDERR_WASSTILLDRAWING occurs. // ---------------------------------------------------------------------- virtual bool __fastcall BltFast( dword pX, dword pY, TDx_DrawSurface* pSrcSurface, TRect* pSrcRect, dword pTrans ); // ---------------------------------------------------------------------- // Method: ChangeUniquenessValue() // Description: The TDx_DrawSurface::ChangeUniquenessValue method will // manually update the surface's uniqueness value. // // The uniqueness value is usually updated whenever the // surface contents change. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_EXCEPTION // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // ---------------------------------------------------------------------- virtual bool __fastcall ChangeUniquenessValue(); // ---------------------------------------------------------------------- // Method: Create() // Description: The Create() method is used to automatically create the // internal LPDIRECTDRAWSURFACE7 interface used in the // TDx_DrawSurface component and must be called before any // methods of the TDx_DrawSurface component will function. // Params: pSurfaceDesc - // The SurfaceDesc parameter describes the requested // surface. // pDraw - // A TDx_Draw object that will manage the created surface. // ---------------------------------------------------------------------- virtual bool __fastcall Create( TDDSurfaceDesc* pSurfaceDesc, TDx_Draw* pDraw ); // ---------------------------------------------------------------------- // Method: CreateFromFile() // Description: The CreateFromFile method is used to create the surface // based on an image from an existing .BMP file. // If the image file does not exist, nothing happens. // If the image file exists, the surface is created or // recreated using the dimensions of the bitmap. // Refer to TDx_DrawPalette::CreateFromFile() for info on // how to load a bitmap's palette. // // This method returns the following error values: // TDX_ERROR // TDX_BADPARAMS // Params: pDraw - // The Draw parameter must be a previously created TDx_Draw // component // pFileName - // The FileName parameter specifies the name of a standard // .BMP file that the image is to be loaded from and can // include a directory path if required. // ---------------------------------------------------------------------- virtual bool __fastcall CreateFromFile( TDx_Draw* pDraw, AnsiString pFileName ); // ---------------------------------------------------------------------- // Method: CreateFromSurface() // Description: The CreateFromSurface method is used to create the // surface based on an existing surface. // If the supplied surface exists, the current surface is // created or recreated using the dimensions of the supplied // surface. Refer to TDx_DrawPalette::CreateFromFile() for // info on how to load a bitmap's palette. // // This method returns the following error values: // TDX_ERROR // TDX_BADPARAMS // Params: pDraw - // The Draw parameter must be a previously created TDx_Draw // component. // pSurface - // The Surface parameter must be a previously created // TDx_DrawSurface component. // ---------------------------------------------------------------------- virtual bool __fastcall CreateFromSurface( TDx_Draw* pDraw, TDx_DrawSurface* pSurface ); // ---------------------------------------------------------------------- // Method: DeleteAttachedSurface() // Description: The TDx_DrawSurface::DeleteAttachedSurface method will // detach attached surfaces, decrementing the reference // count of the surface. // // Surfaces that are detached are not released unless their // reference count is reduced to 0. // // This method will only detach attachments explicitly // formed using TDx_DrawSurface::AddAttachedSurface(). // // Removing surfaces from a chain may change the attachment // order or designation of the surfaces remaining in that // chain. // // For example, removing a front buffer causes the next // surface in the chain to become the front buffer and the // surface after that to become the back buffer. // Detaching a back buffer causes the next surface in the // chain to become the back buffer while detaching a plain // surface merely shortens the chain. // Detaching a surface from a chain containing two surfaces // will destroy the chain and return the surfaces to the // designations they had prior to being placed in the chain. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_CANNOTDETACHSURFACE // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // DDERR_SURFACELOST // DDERR_SURFACENOTATTACHED // Params: pAttachedSurface - // The AttachedSurface parameter references the surface that // is to be detached. // Set this parameter to NULL to detach all attached // surfaces. // ---------------------------------------------------------------------- virtual bool __fastcall DeleteAttachedSurface( TDx_DrawSurface* pAttachedSurface ); // ---------------------------------------------------------------------- // Method: Destroy() // Description: The Destroy() method is used to automatically destroy the // internal LPDIRECTDRAWSURFACE7 interface used in the // TDx_DrawSurface component and should be called when the // internal interface is no longer required. // // Note: This method is called by the component's // destructor. // ---------------------------------------------------------------------- virtual bool __fastcall Destroy(); // ---------------------------------------------------------------------- // Method: EnumAttachedSurfaces() // Description: The TDx_DrawSurface::EnumAttachedSurfaces method will // enumerate attached surfaces. // // This method will only enumerate surfaces directly // attached to this one. // // Instead of writing a manual callback function, just place // your code in the // TDx_DrawSurface::OnEnumAttachedSurfaces() event. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // DDERR_SURFACELOST // Params: pContext - // The Context parameter references an application defined // object passed to the // TDx_DrawSurface::EnumSurfacesCallback() event for each // surface enumerated. // ---------------------------------------------------------------------- virtual bool __fastcall EnumAttachedSurfaces( void* pContext ); // ---------------------------------------------------------------------- // Method: EnumOverlayZOrders() // Description: The TDx_DrawSurface::EnumOverlayZOrders method will // enumerate overlay surfaces. // // Instead of writing a manual callback function, just place // your code in the TDx_DrawSurface::OnEnumOverlayZOrders() // event. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // Params: pFlags - // The Flags parameter defines flags indicating the // enumeration direction. // The described effect applies when the flag is set. // Flags: // DDENUMOVERLAYZ_BACKTOFRONT - // Enumerate overlay surfaces from back to front. // DDENUMOVERLAYZ_FRONTTOBACK - // Enumerate overlay surfaces from front to back. // pContext - // The Context parameter references an application defined // object passed to the // TDx_DrawSurface::EnumSurfacesCallback() event for each // overlay surface enumerated. // ---------------------------------------------------------------------- virtual bool __fastcall EnumOverlayZOrders( dword pFlags, void* pContext ); // ---------------------------------------------------------------------- // Method: Flip() // Description: The TDx_DrawSurface::Flip method will cause the next // surface in a flip chain to become the DDSCAPS_FRONTBUFFER // surface. // // The current DDSCAPS_FRONTBUFFER surface becomes a back // buffer and moves to the back of the flip chain. // // This method may only be called for surfaces with // DDSCAPS_FLIP and DDSCAPS_FRONTBUFFER set. // // Flips are automatically synchronized with the vertical // blank. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_GENERIC // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // DDERR_NOFLIPHW // DDERR_NOTFLIPPABLE // DDERR_SURFACEBUSY // DDERR_SURFACELOST // DDERR_UNSUPPORTED // DDERR_WASSTILLDRAWING // Params: pSurfaceTargetOverride - // The SurfaceTargetOverride parameter references a target // surface for the flip. // Set this parameter to NULL to cycle through the surfaces // using the normal attachment order. // pFlags - // The Flags parameter defines flags indicating flip // options. // The described effect applies when the flag is set. // Flags: // DDFLIP_DONOTWAIT - // Continue with application execution immediately // after the flip is attempted without waiting for a // return value indicating a successful flip. // DDFLIP_EVEN - // The surface being flipped to contains the even // field of a video signal. // Mutually exclusive with DDFLIP_ODD. // DDFLIP_INTERVAL2 - // A flip is to occur only every second VSYNC. // Requires the DDCAPS2_FLIPINTERVAL capability. // DDFLIP_INTERVAL3 - // A flip is to occur only every third VSYNC. // Requires the DDCAPS2_FLIPINTERVAL capability. // DDFLIP_INTERVAL4 - // A flip is to occur only every fourth VSYNC. // Requires the DDCAPS2_FLIPINTERVAL capability. // DDFLIP_NOVSYNC - // The flip will occur as close as possible to the // next scan line, regardless of VSYNC timing. // Requires the DDCAPS2_FLIPNOVSYNC capability. // Using this flag allows flips to be performed faster // than the monitor refresh rate but may cause // artifacts. // DDFLIP_ODD - // The surface being flipped to contains the odd field // of a video signal. // Mutually exclusive with DDFLIP_EVEN. // DDFLIP_WAIT - // The flip will wait until it can be set up or an // error other than DDERR_WASSTILLDRAWING occurs. // This is the default flip behaviour, use // DDFLIP_DONOTWAIT to override. // ---------------------------------------------------------------------- virtual bool __fastcall Flip( TDx_DrawSurface* pSurfaceTargetOverride, dword pFlags ); // ---------------------------------------------------------------------- // Method: FreePrivateData() // Description: The TDx_DrawSurface::FreePrivateData method will free // specified private data. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // DDERR_NOTFOUND // Params: pTag - // The Tag parameter references the GUID of the private data // that is to be freed. // ---------------------------------------------------------------------- virtual bool __fastcall FreePrivateData( REFGUID pTag ); // ---------------------------------------------------------------------- // Method: GetAttachedSurface() // Description: The TDx_DrawSurface::GetAttachedSurface method will // retrieve an attached surface with the specified // capabilities, incrementing its reference count. // // This method will fail if multiple surfaces match the // specified capabilities. If this occurs, use // TDx_DrawSurface::EnumAttachedSurfaces() to obtain the // surface you seek. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // DDERR_NOTFOUND // DDERR_SURFACELOST // Params: pSCaps - // The SCaps parameter references a TDDSCaps component // defining the desired surface's capabilities. // pAttachedSurface - // The AttachedSurface parameter will reference the // retrieved surface if this method returns successfully. // ---------------------------------------------------------------------- virtual bool __fastcall GetAttachedSurface( TDDSCaps* pSCaps, TDx_DrawSurface* pAttachedSurface ); // ---------------------------------------------------------------------- // Method: GetBltStatus() // Description: The TDx_DrawSurface::GetBltStatus method will retrieve // the status of the blitter. // // If the method call fails, one of the following values // will be returned: // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // DDERR_NOBLTHW // DDERR_SURFACEBUSY // DDERR_SURFACELOST // DDERR_UNSUPPORTED // DDERR_WASSTILLDRAWING // Params: pFlags - // The Flags parameter defines flags indicating the type of // status information being requested. // The described effect applies when the flag is set. // Flags: // DDGBS_CANBLT - // A blit involving this surface can occur // immediately. // Returns DD_OK if TRUE. // DDGBS_ISBLTDONE - // The last blit has been completed. // Returns DD_OK if TRUE. // ---------------------------------------------------------------------- virtual HRESULT __fastcall GetBltStatus( dword pFlags ); // ---------------------------------------------------------------------- // Method: GetCaps() // Description: The TDx_DrawSurface::GetCaps method will retrieve surface // capability information. // // The capabilities of a given surface are not neccessarily // related to the capabilities of the display device. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // Params: pSCaps - // The SCaps parameter references a TDDSCaps component for // holding the retrieved surface capabilities if this method // returns successfully. // ---------------------------------------------------------------------- virtual bool __fastcall GetCaps( TDDSCaps* pSCaps ); // ---------------------------------------------------------------------- // Method: GetClipper() // Description: The TDx_DrawSurface::GetClipper method will retrieve the // associated clipper and increment its reference count. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // DDERR_NOCLIPPERATTACHED // Params: pClipper - // The Clipper parameter will reference the associated // clipper if this method returns successfully. // ---------------------------------------------------------------------- virtual bool __fastcall GetClipper( TDx_DrawClipper* pClipper ); // ---------------------------------------------------------------------- // Method: GetColorKey() // Description: The TDx_DrawSurface::GetColorKey method will retrieve the // color key information. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // DDERR_NOCOLORKEY // DDERR_NOCOLORKEYHW // DDERR_SURFACELOST // DDERR_UNSUPPORTED // Params: pFlags - // The Flags parameter defines flags indicating which color // key is being requested. // The described effect applies when the flag is set. // Flags: // DDCKEY_DESTBLT - // Retrieve the destination color key for blits. // DDCKEY_DESTOVERLAY - // Retrieve the destination color key for overlays. // DDCKEY_SRCBLT - // Retrieve the source color key for blits. // DDCKEY_SRCOVERLAY - // Retrieve the source color key for overlays. // pColorKey - // The ColorKey parameter references a TDDColorKey component // which will hold the specified color key information if // this method returns successfully. // ---------------------------------------------------------------------- virtual bool __fastcall GetColorKey( dword pFlags, TDDColorKey* pColorKey ); // ---------------------------------------------------------------------- // Method: GetDC() // Description: The TDx_DrawSurface::GetDC method will create a GDI // compatible device context handle for the surface. // // Calling this method will lock the surface until // TDx_DrawSurface::ReleaseDC() is called. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_DCALREADYCREATED // DDERR_GENERIC // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // DDERR_INVALIDSURFACETYPE // DDERR_SURFACELOST // DDERR_UNSUPPORTED // DDERR_WASSTILLDRAWING // Params: pDC - // The DC parameter will reference the device context handle // for the surface if this method returns successfully. // ---------------------------------------------------------------------- virtual bool __fastcall GetDC( HDC* pDC ); // ---------------------------------------------------------------------- // Method: GetDDInterface() // Description: The TDx_DrawSurface::GetDDInterface method will retrieve // a reference to the surface's parent TDx_Draw component. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // Params: pDD - // The DD parameter will reference the parent TDx_Draw // component if this method returns successfully. // ---------------------------------------------------------------------- virtual bool __fastcall GetDDInterface( void** pDD ); // ---------------------------------------------------------------------- // Method: GetFlipStatus() // Description: The TDx_DrawSurface::GetFlipStatus method will retrieve // the current flip status. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // DDERR_INVALIDSURFACETYPE // DDERR_SURFACEBUSY // DDERR_SURFACELOST // DDERR_UNSUPPORTED // DDERR_WASSTILLDRAWING // Params: pFlags - // The Flags parameter defines flags indicating the type of // status information desired. // The described effect applies when the flag is set. // Flags: // DDGFS_CANFLIP - // A flip can occur immediately. // Returns DD_OK if TRUE. // DDGFS_ISFLIPDONE - // The last flip has been completed. // Returns DD_OK if TRUE. // ---------------------------------------------------------------------- virtual bool __fastcall GetFlipStatus( dword pFlags ); // ---------------------------------------------------------------------- // Method: GetLOD() // Description: The TDx_DrawSurface::GetLOD method will return the // maximum level of detail (LOD) currently set for a managed // mipmap. // // Calling this method on a surface without // DDSCAPS2_TEXTUREMANAGE set will merely result in a // DDERR_INVALIDOBJECT error being returned. // // If successful the MaxLOD parameter will contain a number // indicating the largest mipmap level in the chain the // TDx_3D texture manager should display. // // For example, if this method returned a 3 in the MaxLOD // parameter, it would indicate that only mipmaps of level 3 // or smaller should be displayed. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // Params: pMaxLOD - // The MaxLOD parameter will reference the maximum level of // detail set for the mipmap chain if the method call // succeeds. // ---------------------------------------------------------------------- virtual bool __fastcall GetLOD( dword* pMaxLOD ); // ---------------------------------------------------------------------- // Method: GetOverlayPosition() // Description: The TDx_DrawSurface::GetOverlayPosition method will // retrieve the current display coordinates of an overlay // surface. // // This method will fail unless the surface is a visible, // active surface with DDSCAPS_OVERLAY set. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_GENERIC // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // DDERR_INVALIDPOSITION // DDERR_NOOVERLAYDEST // DDERR_NOTAOVERLAYSURFACE // DDERR_OVERLAYNOTVISIBLE // DDERR_SURFACELOST // Params: pX - // The X parameter will reference the overlay's X axis // display coordinate if this method returns successfully. // pY - // The Y parameter will reference the overlay's Y axis // display coordinate if this method returns successfully. // ---------------------------------------------------------------------- virtual bool __fastcall GetOverlayPosition( long* pX, long* pY ); // ---------------------------------------------------------------------- // Method: GetPalette() // Description: The TDx_DrawSurface::GetPalette method will retrieve the // surface's palette and increment the palette's reference // count. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_GENERIC // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // DDERR_NOEXCLUSIVEMODE // DDERR_NOPALETTEATTACHED // DDERR_SURFACELOST // DDERR_UNSUPPORTED // Params: pPalette - // The Palette parameter will reference the retrieved // palette if this method returns successfully. // NULL will be returned if there is no palette associated // with the surface. // ---------------------------------------------------------------------- virtual bool __fastcall GetPalette( TDx_DrawPalette* pPalette ); // ---------------------------------------------------------------------- // Method: GetPixelFormat() // Description: The TDx_DrawSurface::GetPixelFormat method will retrieve // the surface's color and pixel format information. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // DDERR_INVALIDSURFACETYPE // Params: pPixelFormat - // The PixelFormat parameter references a TDDPixelFormat // component for holding the surface's current pixel and // color format if this method returns successfully. // ---------------------------------------------------------------------- virtual bool __fastcall GetPixelFormat( TDDPixelFormat* pPixelFormat ); // ---------------------------------------------------------------------- // Method: GetPriority() // Description: The TDx_DrawSurface::GetPriority method will retrieve // current management priority level assigned for a texture. // // This method only works with managed textures, which are // removed in order of the least recently used texture // first. The priority level indicates which texture will be // removed first if two textures have the same "last use" // time stamp. // // If the method call fails, the OnError event will be // triggered with the following value: // DDERR_INVALIDOBJECT // Params: pPriority - // The Priority parameter will reference the current texture // priority level if the method returns successfully. // ---------------------------------------------------------------------- virtual bool __fastcall GetPriority( dword* pPriority ); // ---------------------------------------------------------------------- // Method: GetPrivateData() // Description: The TDx_DrawSurface::GetPrivateData method will retrieve // the surface's private data. // // If the method call fails, one of the following values // will be returned: // DDERR_EXPIRED // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // DDERR_MOREDATA // DDERR_NOTFOUND // DDERR_OUTOFMEMORY // Params: pTag - // The Tag parameter references the GUID of the private data // that is to be retrieved. // pBuffer - // The Buffer parameter references a buffer for holding the // retrieved private data if this method returns // successfully. // The buffer must be explicitly allocated and released by // the calling application. // pBufferSize - // The BufferSize parameter defines the size, in bytes, of // the buffer referenced by the Buffer parameter of this // method. // If there is insufficient space for the requested // information, this parameter will be set to the required // size and DDERR_MOREDATA returned. // ---------------------------------------------------------------------- virtual HRESULT __fastcall GetPrivateData( REFGUID pTag, void* pBuffer, dword* pBufferSize ); // ---------------------------------------------------------------------- // Method: GetSurfaceDesc() // Description: The TDx_DrawSurface::GetSurfaceDesc method will retrieve // the current surface description. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // Params: pSurfaceDesc - // The SurfaceDesc parameter references a TDDSurfaceDesc // component for holding the retrieved surface description // if this method returns successfully. // ---------------------------------------------------------------------- virtual bool __fastcall GetSurfaceDesc( TDDSurfaceDesc* pSurfaceDesc ); // ---------------------------------------------------------------------- // Method: GetUniquenessValue() // Description: The TDx_DrawSurface::GetUniquenessValue method will // retrieve the surface's current uniqueness value. // // If the retrieved uniqueness value is different to the // previous one, it indicates that the surface contents have // changed. // // A uniqueness value of zero indicates the surface is // likely to be changing beyond the control of the // TDx_Draw_Library. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // Params: pValue - // The Value parameter will reference the surface's current // uniqueness value if this method returns successfully. // ---------------------------------------------------------------------- virtual bool __fastcall GetUniquenessValue( dword* pValue ); // ---------------------------------------------------------------------- // Method: IsLost() // Description: The TDx_DrawSurface::IsLost method will determine whether // a surface's associated memory has been lost. // // Possible ways memory could be lost may be the changing of // display card mode or another application getting // exclusive access to the display card and freeing all of // the previously allocated surface memory. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // DDERR_SURFACELOST // ---------------------------------------------------------------------- virtual bool __fastcall IsLost(); // ---------------------------------------------------------------------- // Method: LoadFromFile() // Description: The LoadFromFile method is used to load an existing image // from an existing .BMP file. // If the image file does not exist, nothing happens. // If the image file exists, the image data is scaled to the // size of the surface using the StretchBlt() method. // Refer to TDx_DrawPalette::LoadFromFile() for info on how // to load a bitmap's palette. // // This method returns the following error values: // TDX_ERROR // TDX_BADPARAMS // Params: pDraw - // The Draw parameter must be a previously created TDx_Draw // component. // pFileName - // The FileName parameter specifies the name of a standard // .BMP file that the image is to be loaded from and can // include a directory path if required. // ---------------------------------------------------------------------- virtual bool __fastcall LoadFromFile( TDx_Draw* pDraw, AnsiString pFileName ); // ---------------------------------------------------------------------- // Method: LoadFromSurface() // Description: The LoadFromSurface method is used to load the surface // data from an existing surface, without recreating the // current surface. Supplied surface data is scaled to the // size of the current surface using the StretchBlt() // method. // Refer to TDx_DrawPalette::CreateFromFile() for info on // how to load a bitmap's palette. // // This method returns the following error values: // TDX_ERROR // TDX_BADPARAMS // Params: pDraw - // The Draw parameter must be a previously created TDx_Draw // component. // pSurface - // The Surface parameter must be a previously created // TDx_DrawSurface component. // ---------------------------------------------------------------------- virtual bool __fastcall LoadFromSurface( TDx_Draw* pDraw, TDx_DrawSurface* pSurface ); // ---------------------------------------------------------------------- // Method: Lock() // Description: The TDx_DrawSurface::Lock method will obtain a pointer to // the specified portion of surface memory. // // This prevents the system blitter from accessing that // particular area of memory. // // Page flipping is prevented until the surface is unlocked // using TDx_DrawSurface::Unlock(). // // Attempting to blit from a locked region will return // errors and GDI blits will silently fail when used on a // locked video memory surface. // // Specify DDLOCK_NOSYSLOCK to avoid the Win16Mutex // (Win16Lock) being held for non-primary surfaces. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // DDERR_OUTOFMEMORY // DDERR_SURFACEBUSY // DDERR_SURFACELOST // DDERR_WASSTILLDRAWING // Params: pDestRect - // The DestRect parameter references a TRect defining the // portion of the surface that is to be locked. // Set this parameter to NULL to lock an entire surface. // pSurfaceDesc - // The SurfaceDesc parameter references a TDDSurfaceDesc // component for holding the description of the locked // surface if this method returns successfully. // pFlags - // The Flags parameter defines flags indicating the type of // lock to be performed. // The described effect applies when the flag is set. // Flags: // DDLOCK_DISCARDCONTENTS - // No assumptions are made about vertex buffer // contents during this lock. // // This flag is only used in relation to TDx_3D // vertex-buffer locks and is useful when clearing the // vertex buffer and filling it with new data. // TDx_3D or the driver may provide an alternative // memory area for the vertex buffer. // DDLOCK_DONOTWAIT - // Continue with application execution immediately // after the lock is attempted without waiting for a // return value indicating a successful lock. // DDLOCK_EVENT - // This flag has not yet been implemented by // Microsoft. // DDLOCK_NOOVERWRITE - // No 3D vertices referred to since the start of the // frame or the last lock without this flag are // modified during this lock. // This flag is only used in relation to TDx_3D // vertex-buffer locks and is useful when appending // data to the vertex buffer. // DDLOCK_NOSYSLOCK - // Win16Lock will not be taken unless it is // unavoidable. // This flag does not apply when attempting to lock // the primary surface. // DDLOCK_READONLY - // The locked surface will only be read from. // DDLOCK_SURFACEMEMORYPTR - // A memory pointer to the top of the rectangle // specified in the DestRect parameter of this method // will be returned. // Set the DestRect parameter of this method to NULL // to return a pointer to the top of the surface. // DDLOCK_WAIT - // The lock will wait until it can be obtained or an // error other than DDERR_WASSTILLDRAWING occurs. // DDLOCK_WRITEONLY - // The locked surface will only be written to. // ---------------------------------------------------------------------- virtual bool __fastcall Lock( TRect* pDestRect, TDDSurfaceDesc* pSurfaceDesc, dword pFlags ); // ---------------------------------------------------------------------- // Method: PageLock() // Description: The TDx_DrawSurface::PageLock method will prevent a // system memory surface from being paged out while a DMA // blit is taking place. // // The lock count for the surface will be incremented. Use // TDx_DrawSurface::PageUnlock() to decrement the lock // count. Once the lock count reaches zero the surface is // unlocked and can again be paged out by the operating // system. // // Only non-primary system memory surfaces can be // PageLocked. Calling this method on display memory // surfaces will do nothing other than return without error. // // PageLock must be held before using DMA support, otherwise // the blit will use software emulation. // // PageLocking excessive amounts of memory can seriously // impede operating system performance. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_CANTPAGELOCK // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // DDERR_SURFACELOST // ---------------------------------------------------------------------- virtual bool __fastcall PageLock(); // ---------------------------------------------------------------------- // Method: PageUnlock() // Description: The TDx_DrawSurface::PageUnlock method will decrement the // lock count of a locked system memory surface. // // The memory can be paged out when the lock count is // reduced to zero. // // This method will not page unlock display memory or // primary surfaces, doing nothing other than returning // without error. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_CANTPAGEUNLOCK // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // DDERR_NOTPAGELOCKED // DDERR_SURFACELOST // ---------------------------------------------------------------------- virtual bool __fastcall PageUnlock(); // ---------------------------------------------------------------------- // Method: ReleaseDC() // Description: The TDx_DrawSurface::ReleaseDC method will release the // device context handle obtained using // TDx_DrawSurface::GetDC. // // The surface locked by TDx_DrawSurface::GetDC() is also // released. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_GENERIC // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // DDERR_SURFACELOST // DDERR_UNSUPPORTED // Params: pDC - // The DC parameter references the device context handle to // be released. // ---------------------------------------------------------------------- virtual bool __fastcall ReleaseDC( HDC pDC ); // ---------------------------------------------------------------------- // Method: Restore() // Description: The TDx_DrawSurface::Restore method will restore a lost // memory surface by reallocating and reattaching the // memory. // // Allocated surface memory will be restored, but it is the // responsibility of the application to restore the contents // of the surface. // // Lost surfaces may be caused by display card mode changes // or another application acquiring access and freeing all // the display card surface memory. // // All associated implicitly created surfaces will be // restored in a single call, while surfaces that have been // explicitly attached will require individual restoration. // // Attempting to directly restore an implicitly created // surface will result in an error. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_GENERIC // DDERR_IMPLICITLYCREATED // DDERR_INCOMPATIBLEPRIMARY // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // DDERR_NOEXCLUSIVEMODE // DDERR_OUTOFMEMORY // DDERR_UNSUPPORTED // DDERR_WRONGMODE // ---------------------------------------------------------------------- virtual bool __fastcall Restore(); // ---------------------------------------------------------------------- // Method: SaveToFile() // Description: The SaveToFile method is used to create an image file // containing the contents of the current surface. // If the image file already exists, nothing happens. // If the image file can be created, the surface data is // saved into the file. // Refer to TDx_DrawPalette::SaveToFile() for info on how to // save a bitmap's palette. // // This method returns the following error values: // TDX_ERROR // TDX_BADPARAMS // Params: pDraw - // The Draw parameter must be a previously created TDx_Draw // component. // pFileName - // The FileName parameter specifies the name of a standard // .BMP file that the image is to be saved to and can // include a directory path if required. // ---------------------------------------------------------------------- virtual bool __fastcall SaveToFile( TDx_Draw* pDraw, AnsiString pFileName ); // ---------------------------------------------------------------------- // Method: SetClipper() // Description: The TDx_DrawSurface::SetClipper method will attach or // detach a clipper for the surface. // // The initial call to this method will increment the // clippers reference count but further calls associating it // with the same surface will not further affect the // reference count. // // Passing NULL to the Clipper parameter detaches the // clipper and decrements the clippers reference count. If // the surface is released before the clipper is detached, // the clippers reference count will automatically be // decremented. It is the applications responsibility to // release further references to the clipper if it is no // longer needed. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // DDERR_INVALIDSURFACETYPE // DDERR_NOCLIPPERATTACHED // Params: pClipper - // The Clipper parameter references the clipper that is to // be attached. // Set this parameter to NULL to detach the current clipper. // ---------------------------------------------------------------------- virtual bool __fastcall SetClipper( TDx_DrawClipper* pClipper ); // ---------------------------------------------------------------------- // Method: SetColorKey() // Description: The TDx_DrawSurface::SetColorKey method will set the // surface's color key. // // Hardware support for "per surface" color keys must exist. // // When performing transparent blits and overlays, the // destination color key should be set on the destination // surface and the source color key set on the source // surface. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_GENERIC // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // DDERR_INVALIDSURFACETYPE // DDERR_NOOVERLAYHW // DDERR_NOTAOVERLAYSURFACE // DDERR_SURFACELOST // DDERR_UNSUPPORTED // DDERR_WASSTILLDRAWING // Params: pFlags - // The Flags parameter defines flags indicating which color // key is being set. // The described effect applies when the flag is set. // Flags: // DDCKEY_COLORSPACE - // The key being set is a range of color values rather // than a single color. // DDCKEY_DESTBLT - // The key being set is the destination color key for // blits. // DDCKEY_DESTOVERLAY - // The key being set is the destination color key for // overlays. // DDCKEY_SRCBLT - // The key being set is the source color key for // blits. // DDCKEY_SRCOVERLAY - // The key being set is the source color key for // overlays. // pColorKey - // The ColorKey parameter references a TDDColorKey component // holding the color key values to be set. // Set this parameter to NULL to remove the specified color // key. // ---------------------------------------------------------------------- virtual bool __fastcall SetColorKey( dword pFlags, TDDColorKey* pColorKey ); // ---------------------------------------------------------------------- // Method: SetLOD() // Description: The TDx_DrawSurface::SetLOD method is used to define the // maximum level of detail (LOD) that a managed mipmap // should display. // // Calling this method on a surface without // DDSCAPS2_TEXTUREMANAGE set will merely result in a // DDERR_INVALIDOBJECT error being returned. // // For example, if this method set the MaxLOD parameter to // 3, it would mean that only mipmaps of level 3 or smaller // should be displayed. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // Params: pMaxLOD - // The MaxLOD parameter defines the maximum level of detail // to be set for the mipmap chain. // ---------------------------------------------------------------------- virtual bool __fastcall SetLOD( dword pMaxLOD ); // ---------------------------------------------------------------------- // Method: SetOverlayPosition() // Description: The TDx_DrawSurface::SetOverlayPosition method will // change the display coordinates of an overlay surface. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_GENERIC // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // DDERR_INVALIDPOSITION // DDERR_NOOVERLAYDEST // DDERR_NOTAOVERLAYSURFACE // DDERR_OVERLAYNOTVISIBLE // DDERR_SURFACELOST // DDERR_UNSUPPORTED // Params: pX - // The X parameter defines the new X axis display coordinate // for the overlay. // pY - // The Y parameter defines the new Y axis display coordinate // for the overlay. // ---------------------------------------------------------------------- virtual bool __fastcall SetOverlayPosition( long pX, long pY ); // ---------------------------------------------------------------------- // Method: SetPalette() // Description: The TDx_DrawSurface::SetPalette method attaches a palette // to a surface. // // The change will be immediate, without regard to refresh // timing. // // The initial call to this method will increment the // palette's reference count but further calls associating // it with the same surface will not further affect the // reference count. // // Passing NULL to the Palette parameter removes the palette // and decrements the palettes reference count. If the // surface is released before the palette is removed, the // palettes reference count will automatically be // decremented. It is the applications responsibility to // release further references to the palette if it is no // longer needed. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_GENERIC // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // DDERR_INVALIDPIXELFORMAT // DDERR_INVALIDSURFACETYPE // DDERR_NOEXCLUSIVEMODE // DDERR_NOPALETTEATTACHED // DDERR_NOPALETTEHW // DDERR_NOT8BITCOLOR // DDERR_SURFACELOST // DDERR_UNSUPPORTED // Params: pPalette - // The Palette parameter references the palette that is to // be attached. // Set this parameter to NULL to detach the current palette. // ---------------------------------------------------------------------- virtual bool __fastcall SetPalette( TDx_DrawPalette* pPalette ); // ---------------------------------------------------------------------- // Method: SetPriority() // Description: The TDx_DrawSurface::SetPriority method will define the // management priority level for a texture. // // This method only works with managed textures, which are // removed in order of the least recently used texture // first. The priority level indicates which texture will be // removed first if two textures have the same "last use" // time stamp. // // If the method call fails, the OnError event will be // triggered with the following value: // DDERR_INVALIDOBJECT // Params: pPriority - // The Priority parameter defines the new texture-management // priority to be set for the texture. // ---------------------------------------------------------------------- virtual bool __fastcall SetPriority( dword pPriority ); // ---------------------------------------------------------------------- // Method: SetPrivateData() // Description: The TDx_DrawSurface::SetPrivateData method will associate // application specific data with the surface. // // Multiple sets of data may be associated with a surface. // // The memory referenced by the Data parameter is not // managed by TDx_Draw, so if the buffer was dynamically // allocated, it is the applications responsibility to free // the memory. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // DDERR_OUTOFMEMORY // Params: pTag - // The Tag parameter references the GUID of the private data // that is to be set. // pData - // The Data parameter references the buffer holding the // private data that is to be associated with the surface. // pSize - // The Size parameter defines the size, in bytes, of the // buffer referenced by the Data parameter of this method. // pFlags - // The Flags parameter defines flags indicating the type of // data being associated and its lifetime. // The described effect applies when the flag is set. // Setting no flags causes the data to be stored in a buffer // allocated by TDx_Draw, which will be freed when // appropriate. // Flags: // DDSPD_IUNKNOWNPOINTER - // The information referenced by the Data parameter of // this method references an IUnknown interface. // The interface's reference count will be incremented // and then decremented when the data is no longer // needed. // DDSPD_VOLATILE - // The data being associated will only remain valid // until the current state of the surface changes. // Attempts to retrieve the data after the surface has // changed will return DDERR_EXPIRED. // ---------------------------------------------------------------------- virtual bool __fastcall SetPrivateData( REFGUID pTag, void* pData, dword pSize, dword pFlags ); // ---------------------------------------------------------------------- // Method: SetSurfaceDesc() // Description: The TDx_DrawSurface::SetSurfaceDesc method will modify // the surface description of an existing surface. // // Surface data and pixel formats can currently only be set // for explicitly created system memory surfaces. // // The application must allocate the new surface memory and // thus must deallocate it also. // // The surface memory allocated by TDx_Draw when the surface // was originally created will be released. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_INVALIDPARAMS // DDERR_INVALIDOBJECT // DDERR_SURFACELOST // DDERR_SURFACEBUSY // DDERR_INVALIDSURFACETYPE // DDERR_INVALIDPIXELFORMAT // DDERR_INVALIDCAPS // DDERR_UNSUPPORTED // DDERR_GENERIC // Params: pSD - // The SD parameter references a TDDSurfaceDesc component // holding the surface description to be set. // ---------------------------------------------------------------------- virtual bool __fastcall SetSurfaceDesc( TDDSurfaceDesc* pSD ); // ---------------------------------------------------------------------- // Method: Unlock() // Description: The TDx_DrawSurface::Unlock method will unlock surface // memory that was locked using TDx_DrawSurface::Lock(). // // It is possible to hold locks on different regions of the // same surface, thus it is important that the contents of // the Rect parameter be the same as was passed in the Rect // parameter of the corresponding TDx_DrawSurface::Lock(). // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_GENERIC // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // DDERR_INVALIDRECT // DDERR_NOTLOCKED // DDERR_SURFACELOST // Params: pSurfaceData - // The SurfaceData parameter references a TRect defining the // portion of the surface that is to be unlocked. // Set this parameter to NULL only when the DestRect // parameter of TDx_DrawSurface::Lock() was also set to NULL // when the surface was locked. // ---------------------------------------------------------------------- virtual bool __fastcall Unlock( TRect* pSurfaceData ); // ---------------------------------------------------------------------- // Method: UpdateOverlay() // Description: The TDx_DrawSurface::UpdateOverlay method will reposition // and/or modify an overlay surface. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_DEVICEDOESNTOWNSURFACE // DDERR_GENERIC // DDERR_HEIGHTALIGN // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // DDERR_INVALIDRECT // DDERR_INVALIDSURFACETYPE // DDERR_NOSTRETCHHW // DDERR_NOTAOVERLAYSURFACE // DDERR_OUTOFCAPS // DDERR_SURFACELOST // DDERR_UNSUPPORTED // DDERR_XALIGN // Params: pSrcRect - // The SrcRect parameter references a TRect defining a // region of the source surface that is being used for the // overlay. // // Set this parameter to NULL if the entire source surface // is to be used and it conforms to driver boundary and size // alignment restrictions. // This parameter may also be NULL when hiding the overlay. // pDestSurface - // The DestSurface parameter references the surface being // overlaid. // pDestRect - // The DestRect parameter references a TRect defining the // region of destination surface that is to be overlaid. // This parameter may be NULL when hiding the overlay. // pFlags - // The Flags parameter defines flags indicating overlay // settings and effects. // The described effect applies when the flag is set. // Flags: // DDOVER_ADDDIRTYRECT - // Add a dirty rectangle to the overlay. // Only useful when the overlay is being emulated. // DDOVER_ALPHADEST - // The overlay is to be performed using the // destination surface's alpha information as the // alpha channel. // DDOVER_ALPHADESTCONSTOVERRIDE - // The overlay operation's destination alpha channel // is obtained from the TDDOverlayFX::AlphaDestConst // referenced by the OverlayFX parameter of this // method. // DDOVER_ALPHADESTNEG - // The destination surface will increase in // transparency as alpha values increase. // DDOVER_ALPHADESTSURFACEOVERRIDE - // The overlay operation's destination alpha channel // is obtained from the TDDOverlayFX::SAlphaDest // referenced by the OverlayFX parameter of this // method. // DDOVER_ALPHAEDGEBLEND - // The overlay operation's alpha channel for alpha // edge blending is obtained from the // TDDOverlayFX::AlphaEdgeBlend referenced by the // OverlayFX parameter of this method. // DDOVER_ALPHASRC - // The overlay is to be performed using the source // surface's alpha information as the alpha channel. // DDOVER_ALPHASRCCONSTOVERRIDE - // The overlay operation's source alpha channel is // obtained from the TDDOverlayFX::AlphaSrcConst // referenced by the OverlayFX parameter of this // method. // DDOVER_ALPHASRCNEG - // The source surface will increase in transparency as // alpha values increase. // DDOVER_ALPHASRCSURFACEOVERRIDE - // The overlay operation's source alpha channel is // obtained from the TDDOverlayFX::SAlphaSrc // referenced by the OverlayFX parameter of this // method. // DDOVER_ARGBSCALEFACTORS - // The TDDOverlayFX component referenced by the // OverlayFX parameter of this method contains valid // ARGB scaling factors. // DDOVER_AUTOFLIP - // Autoflip to the next surface in the flip chain // every video port VSYNC. // DDOVER_BOB - // Use the bob technique to prevent artifacts when // individually displaying the odd and even fields of // the video stream. // DDOVER_BOBHARDWARE - // The performance of bob operations is hardware, // rather than software or emulation, based. // DDOVER_BOB must also be set. // DDOVER_DDFX - // The special effects flag settings for this overlay // operation is obtained from the TDDOverlayFX::FX // referenced by the OverlayFX parameter of this // method. // DDOVER_DEGRADEARGBSCALING - // Degrade ARGB scaling factors to match the driver // capabilities if neccessary. // DDOVER_HIDE - // The overlay will not be displayed until this method // is called with DDOVER_SHOW set. // DDOVER_INTERLEAVED - // The surface memory is composed of interleaved // fields. // DDOVER_KEYDEST - // The overlay is to be performed using the // destination surface's color key. // DDOVER_KEYDESTOVERRIDE - // The overlay operation's destination color key is // obtained from the TDDOverlayFX::DestColorKey // referenced by the OverlayFX parameter of this // method. // DDOVER_KEYSRC - // The overlay is to be performed using the source // surface's color key. // DDOVER_KEYSRCOVERRIDE - // The overlay operation's source color key is // obtained from the TDDOverlayFX::SrcColorKey // referenced by the OverlayFX parameter of this // method. // DDOVER_OVERRIDEBOBWEAVE - // Decisions about the use of bob/weave techniques // will not be overridden by another component. // DDOVER_REFRESHALL - // The entire emulated overlay surface should be // redrawn. // DDOVER_REFRESHDIRTYRECTS - // All dirty rectangles on the emulated overlay // surface should be redrawn. // DDOVER_SHOW - // The overlay will be displayed until this method is // called with DDOVER_HIDE set. // pOverlayFx - // The OverlayFx parameter references a TDDOverlayFX // component defining values and effects to be used for this // overlay. // DDOVER_DDFX should not be set if this parameter is NULL. // ---------------------------------------------------------------------- virtual bool __fastcall UpdateOverlay( TRect* pSrcRect, TDx_DrawSurface* pDestSurface, TRect* pDestRect, dword pFlags, TDDOverlayFX* pOverlayFx ); // ---------------------------------------------------------------------- // Method: UpdateOverlayZOrder() // Description: The TDx_DrawSurface::UpdateOverlayZOrder method will // define the z-order for an overlay. // // If the method call fails, the OnError event will be // triggered with one of the following values: // DDERR_INVALIDOBJECT // DDERR_INVALIDPARAMS // DDERR_NOTAOVERLAYSURFACE // Params: pFlags - // The Flags parameter defines flags indicating the z-order // position of this overlay, relative to the reference // overlay specified in the Reference parameter of this // method. // The described effect applies when the flag is set. // Flags: // DDOVERZ_INSERTINBACKOF - // The overlay is to be positioned directly behind the // reference overlay. // DDOVERZ_INSERTINFRONTOF - // The overlay is to be positioned directly in front // of the reference overlay. // DDOVERZ_MOVEBACKWARD - // The overlay is to be moved one position backwards // relative to its current position. // DDOVERZ_MOVEFORWARD - // The overlay is to be moved one position forwards // relative to its current position. // DDOVERZ_SENDTOBACK - // The overlay is to be the backmost overlay. // DDOVERZ_SENDTOFRONT - // The overlay is to be the foremost overlay. // pReference - // The Reference parameter references the surface to be used // as a relative position. // This parameter need only be set when using // DDOVERZ_INSERTINBACKOF or DDOVERZ_INSERTINFRONTOF. // ---------------------------------------------------------------------- virtual bool __fastcall UpdateOverlayZOrder( dword pFlags, TDx_DrawSurface* pReference ); // ---------------------------------------------------------------------- // Constructor() and Destructor() // ---------------------------------------------------------------------- __fastcall TDx_DrawSurface(TComponent* Owner); virtual __fastcall ~TDx_DrawSurface(); // ---------------------------------------------------------------------- // The following properties and methods are used internally by // TDx_Draw_Library and should not be used. // ---------------------------------------------------------------------- __property LPDIRECTDRAWSURFACE7 Internal_LPDIRECTDRAWSURFACE7 = { read=FGetInternal_LPDIRECTDRAWSURFACE7, write=FSetInternal_LPDIRECTDRAWSURFACE7, nodefault }; __property LPDIRECTDRAWSURFACE7* Internal_LPDIRECTDRAWSURFACE7_Ptr = { read=FGetInternal_LPDIRECTDRAWSURFACE7_Ptr, nodefault }; void __fastcall Internal_LPDIRECTDRAWSURFACE7_Update(); // ========================================================================== protected: // ========================================================================== // ---------------------------------------------------------------------- // Property Access Methods // ---------------------------------------------------------------------- bool __fastcall FGetCreated(); void __fastcall FSetCreated( bool pCreated ); HRESULT __fastcall FGetErrorValue(); void __fastcall FSetErrorValue( HRESULT pErrorValue ); // ========================================================================== private: // ========================================================================== // ---------------------------------------------------------------------- // Method: Internal_EnumAttachedSurfacesCallback() // Description: The Internal_EnumAttachedSurfacesCallback method is used // internally by the TDx_Draw_Library to redirect a standard // callback function to a BCB style event. // Params: pDDSurface - // Address of the LPDIRECTDRAWSURFACE7 interface for the // attached surface. // pDDSurfaceDesc - // The DDSurfaceDesc parameter describes the enumerated // surface. // pContext - // Application defined data passed to the enumeration method // call. // ---------------------------------------------------------------------- static HRESULT __stdcall Internal_EnumAttachedSurfacesCallback( LPDIRECTDRAWSURFACE7 pDDSurface, LPDDSURFACEDESC2 pDDSurfaceDesc, LPVOID pContext ); // ---------------------------------------------------------------------- // Method: Internal_EnumOverlayZOrdersCallback() // Description: The Internal_EnumOverlayZOrdersCallback method is used // internally by the TDx_Draw_Library to redirect a standard // callback function to a BCB style event. // Params: pDDSurface - // Address of the LPDIRECTDRAWSURFACE7 interface for the // attached surface. // pDDSurfaceDesc - // The DDSurfaceDesc parameter describes the enumerated // surface. // pContext - // Application defined data passed to the enumeration method // call. // ---------------------------------------------------------------------- static HRESULT __stdcall Internal_EnumOverlayZOrdersCallback( LPDIRECTDRAWSURFACE7 pDDSurface, LPDDSURFACEDESC2 pDDSurfaceDesc, LPVOID pContext ); // ---------------------------------------------------------------------- // Internal Interface Access // ---------------------------------------------------------------------- LPDIRECTDRAWSURFACE7 __fastcall FGetInternal_LPDIRECTDRAWSURFACE7(); void __fastcall FSetInternal_LPDIRECTDRAWSURFACE7( LPDIRECTDRAWSURFACE7 pLPDIRECTDRAWSURFACE7 ); LPDIRECTDRAWSURFACE7* __fastcall FGetInternal_LPDIRECTDRAWSURFACE7_Ptr(); // ---------------------------------------------------------------------- // Property Variables // ---------------------------------------------------------------------- bool fCreated; HRESULT fErrorValue; // ---------------------------------------------------------------------- // Interface Variables // ---------------------------------------------------------------------- LPDIRECTDRAWSURFACE7 fLPDIRECTDRAWSURFACE7; // ---------------------------------------------------------------------- // Event Variables // ---------------------------------------------------------------------- TDx_Event FOnCreate; TDx_Event FOnDestroy; TDx_Error FOnError; TDx_Event FOnSurfaceLost; // ---------------------------------------------------------------------- // Callback Variables // ---------------------------------------------------------------------- TDx_EnumAttachedSurfacesCallback FOnEnumAttachedSurfaces; TDx_EnumOverlayZOrdersCallback FOnEnumOverlayZOrders; }; // -------------------------------------------------------------------------- #endif // --------------------------------------------------------------------------