gzdoom-gles/src/win32/fb_d3d9.cpp
Randy Heit bc5f49dd49 - Various fixes for compiling working 64-bit binaries with Visual C++. The
number of changes was pleasantly small, and a cursory check seems to show
  everything working alright.


SVN r948 (trunk)
2008-04-29 02:43:42 +00:00

3187 lines
77 KiB
C++

/*
** fb_d3d9.cpp
** Code to let ZDoom use Direct3D 9 as a simple framebuffer
**
**---------------------------------------------------------------------------
** Copyright 1998-2008 Randy Heit
** All rights reserved.
**
** Redistribution and use in source and binary forms, with or without
** modification, are permitted provided that the following conditions
** are met:
**
** 1. Redistributions of source code must retain the above copyright
** notice, this list of conditions and the following disclaimer.
** 2. Redistributions in binary form must reproduce the above copyright
** notice, this list of conditions and the following disclaimer in the
** documentation and/or other materials provided with the distribution.
** 3. The name of the author may not be used to endorse or promote products
** derived from this software without specific prior written permission.
**
** THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
** IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
** OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
** IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
** INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
** NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
** DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
** THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
** (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
** THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
**---------------------------------------------------------------------------
**
** This file does _not_ implement hardware-acclerated 3D rendering. It is
** just a means of getting the pixel data to the screen in a more reliable
** method on modern hardware by copying the entire frame to a texture,
** drawing that to the screen, and presenting.
*/
// HEADER FILES ------------------------------------------------------------
#ifdef _DEBUG
#define D3D_DEBUG_INFO
#endif
#define DIRECT3D_VERSION 0x0900
#define WIN32_LEAN_AND_MEAN
#include <windows.h>
#include <d3d9.h>
#include <stdio.h>
#define USE_WINDOWS_DWORD
#include "doomtype.h"
#include "c_dispatch.h"
#include "templates.h"
#include "i_system.h"
#include "i_video.h"
#include "i_input.h"
#include "v_video.h"
#include "v_pfx.h"
#include "stats.h"
#include "doomerrors.h"
#include "r_draw.h"
#include "r_translate.h"
#include "f_wipe.h"
#include "st_stuff.h"
#include "win32iface.h"
// MACROS ------------------------------------------------------------------
// The number of points for the vertex buffer.
#define NUM_VERTS 10240
// The number of indices for the index buffer.
#define NUM_INDEXES ((NUM_VERTS * 6) / 4)
// The number of quads we can batch together.
#define MAX_QUAD_BATCH (NUM_INDEXES / 6)
// TYPES -------------------------------------------------------------------
IMPLEMENT_CLASS(D3DFB)
struct D3DFB::PackedTexture
{
D3DFB::PackingTexture *Owner;
PackedTexture *Next, **Prev;
// Pixels this image covers
RECT Area;
// Texture coordinates for this image
float Left, Top, Right, Bottom;
};
struct D3DFB::PackingTexture
{
PackingTexture(D3DFB *fb, int width, int height, D3DFORMAT format);
~PackingTexture();
PackedTexture *GetBestFit(int width, int height, int &area);
void AllocateImage(PackedTexture *box, int width, int height);
PackedTexture *AllocateBox();
void AddEmptyBox(int left, int top, int right, int bottom);
void FreeBox(PackedTexture *box);
PackingTexture *Next;
IDirect3DTexture9 *Tex;
D3DFORMAT Format;
PackedTexture *UsedList; // Boxes that contain images
PackedTexture *EmptyList; // Boxes that contain empty space
PackedTexture *FreeList; // Boxes that are just waiting to be used
int Width, Height;
bool OneUse;
};
class D3DTex : public FNativeTexture
{
public:
D3DTex(FTexture *tex, D3DFB *fb, bool wrapping);
~D3DTex();
FTexture *GameTex;
D3DFB::PackedTexture *Box;
D3DTex **Prev;
D3DTex *Next;
bool IsGray;
bool Create(D3DFB *fb, bool wrapping);
bool Update();
bool CheckWrapping(bool wrapping);
D3DFORMAT GetTexFormat();
FTextureFormat ToTexFmt(D3DFORMAT fmt);
};
class D3DPal : public FNativePalette
{
public:
D3DPal(FRemapTable *remap, D3DFB *fb);
~D3DPal();
D3DPal **Prev;
D3DPal *Next;
IDirect3DTexture9 *Tex;
D3DCOLOR BorderColor;
bool Update();
FRemapTable *Remap;
int RoundedPaletteSize;
};
// Flags for a buffered quad
enum
{
BQF_GamePalette = 1,
BQF_CustomPalette = 7,
BQF_Paletted = 7,
BQF_Bilinear = 8,
BQF_WrapUV = 16,
BQF_InvertSource = 32,
BQF_DisableAlphaTest= 64,
};
// Shaders for a buffered quad
enum
{
BQS_PalTex,
BQS_Plain,
BQS_RedToAlpha,
BQS_ColorOnly
};
// EXTERNAL FUNCTION PROTOTYPES --------------------------------------------
// PUBLIC FUNCTION PROTOTYPES ----------------------------------------------
void DoBlending (const PalEntry *from, PalEntry *to, int count, int r, int g, int b, int a);
// PRIVATE FUNCTION PROTOTYPES ---------------------------------------------
// EXTERNAL DATA DECLARATIONS ----------------------------------------------
extern HWND Window;
extern IVideo *Video;
extern BOOL AppActive;
extern int SessionState;
extern bool VidResizing;
EXTERN_CVAR (Bool, fullscreen)
EXTERN_CVAR (Float, Gamma)
EXTERN_CVAR (Bool, vid_vsync)
EXTERN_CVAR (Float, transsouls)
EXTERN_CVAR (Int, vid_refreshrate)
extern IDirect3D9 *D3D;
extern cycle_t BlitCycles;
// PRIVATE DATA DEFINITIONS ------------------------------------------------
#include "fb_d3d9_shaders.h"
// PUBLIC DATA DEFINITIONS -------------------------------------------------
CUSTOM_CVAR(Bool, vid_hw2d, true, CVAR_NOINITCALL)
{
BorderNeedRefresh = SB_state = screen->GetPageCount();
}
CVAR(Int, d3d_showpacks, 0, 0)
// CODE --------------------------------------------------------------------
D3DFB::D3DFB (int width, int height, bool fullscreen)
: BaseWinFB (width, height)
{
D3DPRESENT_PARAMETERS d3dpp;
D3DDevice = NULL;
VertexBuffer = NULL;
IndexBuffer = NULL;
FBTexture = NULL;
TempRenderTexture = NULL;
InitialWipeScreen = NULL;
ScreenshotTexture = NULL;
ScreenshotSurface = NULL;
FinalWipeScreen = NULL;
PaletteTexture = NULL;
PalTexShader = NULL;
InvPalTexShader = NULL;
PalTexBilinearShader = NULL;
PlainShader = NULL;
InvPlainShader = NULL;
RedToAlphaShader = NULL;
ColorOnlyShader = NULL;
GammaFixerShader = NULL;
BurnShader = NULL;
FBFormat = D3DFMT_UNKNOWN;
PalFormat = D3DFMT_UNKNOWN;
VSync = vid_vsync;
BlendingRect.left = 0;
BlendingRect.top = 0;
BlendingRect.right = FBWidth;
BlendingRect.bottom = FBHeight;
In2D = 0;
Palettes = NULL;
Textures = NULL;
Accel2D = true;
GatheringWipeScreen = false;
ScreenWipe = NULL;
InScene = false;
QuadExtra = new BufferedQuad[MAX_QUAD_BATCH];
Packs = NULL;
PixelDoubling = 0;
Gamma = 1.0;
FlashColor0 = 0;
FlashColor1 = 0xFFFFFFFF;
FlashColor = 0;
FlashAmount = 0;
NeedGammaUpdate = false;
NeedPalUpdate = false;
if (MemBuffer == NULL)
{
return;
}
memcpy (SourcePalette, GPalette.BaseColors, sizeof(PalEntry)*256);
Windowed = !(static_cast<Win32Video *>(Video)->GoFullscreen (fullscreen));
TrueHeight = height;
if (fullscreen)
{
for (Win32Video::ModeInfo *mode = static_cast<Win32Video *>(Video)->m_Modes; mode != NULL; mode = mode->next)
{
if (mode->width == Width && mode->height == Height)
{
TrueHeight = mode->realheight;
PixelDoubling = mode->doubling;
break;
}
}
}
// Offset from top of screen to top of letterboxed screen
LBOffsetI = (TrueHeight - Height) / 2;
LBOffset = float(LBOffsetI);
FillPresentParameters (&d3dpp, fullscreen, VSync);
HRESULT hr;
if (FAILED(hr = D3D->CreateDevice (D3DADAPTER_DEFAULT, D3DDEVTYPE_HAL, Window,
D3DCREATE_HARDWARE_VERTEXPROCESSING | D3DCREATE_FPU_PRESERVE, &d3dpp, &D3DDevice)))
{
if (FAILED(D3D->CreateDevice (D3DADAPTER_DEFAULT, D3DDEVTYPE_HAL, Window,
D3DCREATE_SOFTWARE_VERTEXPROCESSING | D3DCREATE_FPU_PRESERVE, &d3dpp, &D3DDevice)))
{
if (d3dpp.FullScreen_RefreshRateInHz != 0)
{
d3dpp.FullScreen_RefreshRateInHz = 0;
if (FAILED(hr = D3D->CreateDevice (D3DADAPTER_DEFAULT, D3DDEVTYPE_HAL, Window,
D3DCREATE_HARDWARE_VERTEXPROCESSING | D3DCREATE_FPU_PRESERVE, &d3dpp, &D3DDevice)))
{
if (FAILED(D3D->CreateDevice (D3DADAPTER_DEFAULT, D3DDEVTYPE_HAL, Window,
D3DCREATE_SOFTWARE_VERTEXPROCESSING | D3DCREATE_FPU_PRESERVE, &d3dpp, &D3DDevice)))
{
D3DDevice = NULL;
}
}
}
}
}
if (D3DDevice != NULL)
{
CreateResources ();
SetInitialState ();
}
}
D3DFB::~D3DFB ()
{
ReleaseResources ();
SAFE_RELEASE( D3DDevice );
delete[] QuadExtra;
}
// Called after initial device creation and reset, when everything is set
// to D3D's defaults.
void D3DFB::SetInitialState()
{
AlphaBlendEnabled = FALSE;
AlphaBlendOp = D3DBLENDOP_ADD;
AlphaSrcBlend = D3DBLEND(0);
AlphaDestBlend = D3DBLEND(0);
CurPixelShader = NULL;
memset(Constant, 0, sizeof(Constant));
Texture[0] = NULL;
Texture[1] = NULL;
D3DDevice->SetSamplerState(0, D3DSAMP_ADDRESSU, D3DTADDRESS_CLAMP);
D3DDevice->SetSamplerState(0, D3DSAMP_ADDRESSV, D3DTADDRESS_CLAMP);
D3DDevice->SetSamplerState(1, D3DSAMP_ADDRESSU, SM14 ? D3DTADDRESS_BORDER : D3DTADDRESS_CLAMP);
D3DDevice->SetSamplerState(1, D3DSAMP_ADDRESSV, SM14 ? D3DTADDRESS_BORDER : D3DTADDRESS_CLAMP);
D3DDevice->SetRenderState(D3DRS_ANTIALIASEDLINEENABLE, TRUE);
NeedGammaUpdate = true;
NeedPalUpdate = true;
OldRenderTarget = NULL;
if (!Windowed && SM14)
{
// Fix for Radeon 9000, possibly other R200s: When the device is
// reset, it resets the gamma ramp, but the driver apparently keeps a
// cached copy of the ramp that it doesn't update, so when
// SetGammaRamp is called later to handle the NeedGammaUpdate flag,
// it doesn't do anything, because the gamma ramp is the same as the
// one passed in the last call, even though the visible gamma ramp
// actually has changed.
//
// So here we force the gamma ramp to something absolutely horrible and
// trust that we will be able to properly set the gamma later when
// NeedGammaUpdate is handled.
D3DGAMMARAMP ramp;
memset(&ramp, 0, sizeof(ramp));
D3DDevice->SetGammaRamp(0, 0, &ramp);
}
// Used by the inverse color shaders
float ones[4] = { 1, 1, 1, 1 };
D3DDevice->SetPixelShaderConstantF(6, ones, 1);
// D3DRS_ALPHATESTENABLE defaults to FALSE
// D3DRS_ALPHAREF defaults to 0
D3DDevice->SetRenderState(D3DRS_ALPHAFUNC, D3DCMP_NOTEQUAL);
AlphaTestEnabled = FALSE;
CurBorderColor = 0;
}
void D3DFB::FillPresentParameters (D3DPRESENT_PARAMETERS *pp, bool fullscreen, bool vsync)
{
memset (pp, 0, sizeof(*pp));
pp->Windowed = !fullscreen;
pp->SwapEffect = D3DSWAPEFFECT_DISCARD;
pp->BackBufferWidth = Width << PixelDoubling;
pp->BackBufferHeight = TrueHeight << PixelDoubling;
pp->BackBufferFormat = fullscreen ? D3DFMT_A8R8G8B8 : D3DFMT_UNKNOWN;
pp->BackBufferCount = 1;
pp->hDeviceWindow = Window;
pp->PresentationInterval = vsync ? D3DPRESENT_INTERVAL_ONE : D3DPRESENT_INTERVAL_IMMEDIATE;
if (fullscreen)
{
pp->FullScreen_RefreshRateInHz = vid_refreshrate;
}
}
bool D3DFB::CreateResources ()
{
Packs = NULL;
if (!Windowed)
{
// Remove the window border in fullscreen mode
SetWindowLong (Window, GWL_STYLE, WS_POPUP|WS_VISIBLE|WS_SYSMENU);
}
else
{
// Resize the window to match desired dimensions
int sizew = Width + GetSystemMetrics (SM_CXSIZEFRAME)*2;
int sizeh = Height + GetSystemMetrics (SM_CYSIZEFRAME) * 2 +
GetSystemMetrics (SM_CYCAPTION);
LOG2 ("Resize window to %dx%d\n", sizew, sizeh);
VidResizing = true;
// Make sure the window has a border in windowed mode
SetWindowLong (Window, GWL_STYLE, WS_VISIBLE|WS_OVERLAPPEDWINDOW);
if (GetWindowLong (Window, GWL_EXSTYLE) & WS_EX_TOPMOST)
{
// Direct3D 9 will apparently add WS_EX_TOPMOST to fullscreen windows,
// and removing it is a little tricky. Using SetWindowLongPtr to clear it
// will not do the trick, but sending the window behind everything will.
SetWindowPos (Window, HWND_BOTTOM, 0, 0, sizew, sizeh,
SWP_DRAWFRAME | SWP_NOCOPYBITS | SWP_NOMOVE);
SetWindowPos (Window, HWND_TOP, 0, 0, 0, 0, SWP_NOCOPYBITS | SWP_NOMOVE | SWP_NOSIZE);
}
else
{
SetWindowPos (Window, NULL, 0, 0, sizew, sizeh,
SWP_DRAWFRAME | SWP_NOCOPYBITS | SWP_NOMOVE | SWP_NOZORDER);
}
I_RestoreWindowedPos ();
VidResizing = false;
}
SM14 = false;
if (FAILED(D3DDevice->CreatePixelShader (PalTexShader20Def, &PalTexShader)) &&
(SM14 = true, FAILED(D3DDevice->CreatePixelShader (PalTexShader14Def, &PalTexShader))))
{
return false;
}
if (FAILED(D3DDevice->CreatePixelShader (InvPalTexShader20Def, &InvPalTexShader)) &&
(SM14 = true, FAILED(D3DDevice->CreatePixelShader (InvPalTexShader14Def, &InvPalTexShader))))
{
return false;
}
if (FAILED(D3DDevice->CreatePixelShader (PlainShaderDef, &PlainShader)) ||
FAILED(D3DDevice->CreatePixelShader (InvPlainShaderDef, &InvPlainShader)) ||
FAILED(D3DDevice->CreatePixelShader (RedToAlphaDef, &RedToAlphaShader)) ||
FAILED(D3DDevice->CreatePixelShader (ColorOnlyDef, &ColorOnlyShader)))
{
return false;
}
if (FAILED(D3DDevice->CreatePixelShader (GammaFixerDef, &GammaFixerShader)))
{
// Printf ("Using Shader Model 1.4: Windowed mode gamma will not work.\n");
GammaFixerShader = NULL;
}
if (FAILED(D3DDevice->CreatePixelShader(PalTexBilinearDef, &PalTexBilinearShader)))
{
PalTexBilinearShader = PalTexShader;
}
if (FAILED(D3DDevice->CreatePixelShader (BurnShaderDef, &BurnShader)))
{
BurnShader = NULL;
}
if (!CreateFBTexture() ||
!CreatePaletteTexture())
{
return false;
}
if (!CreateVertexes())
{
return false;
}
return true;
}
void D3DFB::ReleaseResources ()
{
I_SaveWindowedPos ();
KillNativeTexs();
KillNativePals();
ReleaseDefaultPoolItems();
SAFE_RELEASE( ScreenshotSurface );
SAFE_RELEASE( ScreenshotTexture );
SAFE_RELEASE( PaletteTexture );
if (PalTexBilinearShader != NULL)
{
if (PalTexBilinearShader != PalTexShader)
{
PalTexBilinearShader->Release();
}
PalTexBilinearShader = NULL;
}
SAFE_RELEASE( PalTexShader );
SAFE_RELEASE( InvPalTexShader );
SAFE_RELEASE( PlainShader );
SAFE_RELEASE( InvPlainShader );
SAFE_RELEASE( RedToAlphaShader );
SAFE_RELEASE( ColorOnlyShader );
SAFE_RELEASE( GammaFixerShader );
SAFE_RELEASE( BurnShader );
if (ScreenWipe != NULL)
{
delete ScreenWipe;
ScreenWipe = NULL;
}
PackingTexture *pack, *next;
for (pack = Packs; pack != NULL; pack = next)
{
next = pack->Next;
delete pack;
}
GatheringWipeScreen = false;
}
// Free resources created with D3DPOOL_DEFAULT.
void D3DFB::ReleaseDefaultPoolItems()
{
SAFE_RELEASE( FBTexture );
if (FinalWipeScreen != NULL)
{
if (FinalWipeScreen != TempRenderTexture)
{
FinalWipeScreen->Release();
}
FinalWipeScreen = NULL;
}
SAFE_RELEASE( TempRenderTexture );
SAFE_RELEASE( InitialWipeScreen );
SAFE_RELEASE( VertexBuffer );
SAFE_RELEASE( IndexBuffer );
}
bool D3DFB::Reset ()
{
D3DPRESENT_PARAMETERS d3dpp;
ReleaseDefaultPoolItems();
FillPresentParameters (&d3dpp, !Windowed, VSync);
if (!SUCCEEDED(D3DDevice->Reset (&d3dpp)))
{
if (d3dpp.FullScreen_RefreshRateInHz != 0)
{
d3dpp.FullScreen_RefreshRateInHz = 0;
if (!SUCCEEDED(D3DDevice->Reset (&d3dpp)))
{
return false;
}
}
else
{
return false;
}
}
LOG("Device was reset\n");
if (!CreateFBTexture() || !CreateVertexes())
{
return false;
}
SetInitialState();
return true;
}
//==========================================================================
//
// D3DFB :: KillNativePals
//
// Frees all native palettes.
//
//==========================================================================
void D3DFB::KillNativePals()
{
while (Palettes != NULL)
{
delete Palettes;
}
}
//==========================================================================
//
// D3DFB :: KillNativeTexs
//
// Frees all native textures.
//
//==========================================================================
void D3DFB::KillNativeTexs()
{
while (Textures != NULL)
{
delete Textures;
}
}
bool D3DFB::CreateFBTexture ()
{
if (FAILED(D3DDevice->CreateTexture (Width, Height, 1, D3DUSAGE_DYNAMIC, D3DFMT_L8, D3DPOOL_DEFAULT, &FBTexture, NULL)))
{
int pow2width, pow2height, i;
for (i = 1; i < Width; i <<= 1) {} pow2width = i;
for (i = 1; i < Height; i <<= 1) {} pow2height = i;
if (FAILED(D3DDevice->CreateTexture (pow2width, pow2height, 1, D3DUSAGE_DYNAMIC, D3DFMT_L8, D3DPOOL_DEFAULT, &FBTexture, NULL)))
{
return false;
}
else
{
FBWidth = pow2width;
FBHeight = pow2height;
}
}
else
{
FBWidth = Width;
FBHeight = Height;
}
if (FAILED(D3DDevice->CreateTexture (FBWidth, FBHeight, 1, D3DUSAGE_RENDERTARGET, D3DFMT_X8R8G8B8, D3DPOOL_DEFAULT, &TempRenderTexture, NULL)))
{
TempRenderTexture = NULL;
}
return true;
}
bool D3DFB::CreatePaletteTexture ()
{
if (FAILED(D3DDevice->CreateTexture (256, 1, 1, 0, D3DFMT_A8R8G8B8, D3DPOOL_MANAGED, &PaletteTexture, NULL)))
{
return false;
}
PalFormat = D3DFMT_A8R8G8B8;
return true;
}
bool D3DFB::CreateVertexes ()
{
VertexPos = -1;
IndexPos = -1;
QuadBatchPos = -1;
BatchType = BATCH_None;
if (FAILED(D3DDevice->CreateVertexBuffer(sizeof(FBVERTEX)*NUM_VERTS,
D3DUSAGE_DYNAMIC | D3DUSAGE_WRITEONLY, D3DFVF_FBVERTEX, D3DPOOL_DEFAULT, &VertexBuffer, NULL)))
{
return false;
}
if (FAILED(D3DDevice->CreateIndexBuffer(sizeof(WORD)*NUM_INDEXES,
D3DUSAGE_DYNAMIC | D3DUSAGE_WRITEONLY, D3DFMT_INDEX16, D3DPOOL_DEFAULT, &IndexBuffer, NULL)))
{
return false;
}
return true;
}
void D3DFB::CalcFullscreenCoords (FBVERTEX verts[4], bool viewarea_only, bool can_double, D3DCOLOR color0, D3DCOLOR color1) const
{
float offset = OldRenderTarget != NULL ? 0 : LBOffset;
float top = offset - 0.5f;
float texright = float(Width) / float(FBWidth);
float texbot = float(Height) / float(FBHeight);
float mxl, mxr, myt, myb, tmxl, tmxr, tmyt, tmyb;
if (viewarea_only)
{ // Just calculate vertices for the viewarea/BlendingRect
mxl = float(BlendingRect.left) - 0.5f;
mxr = float(BlendingRect.right) - 0.5f;
myt = float(BlendingRect.top) + top;
myb = float(BlendingRect.bottom) + top;
tmxl = float(BlendingRect.left) / float(Width) * texright;
tmxr = float(BlendingRect.right) / float(Width) * texright;
tmyt = float(BlendingRect.top) / float(Height) * texbot;
tmyb = float(BlendingRect.bottom) / float(Height) * texbot;
}
else
{ // Calculate vertices for the whole screen
mxl = -0.5f;
mxr = float(Width << (can_double ? PixelDoubling : 0)) - 0.5f;
myt = top;
myb = float(Height << (can_double ? PixelDoubling : 0)) + top;
tmxl = 0;
tmxr = texright;
tmyt = 0;
tmyb = texbot;
}
//{ mxl, myt, 0, 1, 0, 0xFFFFFFFF, tmxl, tmyt },
//{ mxr, myt, 0, 1, 0, 0xFFFFFFFF, tmxr, tmyt },
//{ mxr, myb, 0, 1, 0, 0xFFFFFFFF, tmxr, tmyb },
//{ mxl, myb, 0, 1, 0, 0xFFFFFFFF, tmxl, tmyb },
verts[0].x = mxl;
verts[0].y = myt;
verts[0].z = 0;
verts[0].rhw = 1;
verts[0].color0 = color0;
verts[0].color1 = color1;
verts[0].tu = tmxl;
verts[0].tv = tmyt;
verts[1].x = mxr;
verts[1].y = myt;
verts[1].z = 0;
verts[1].rhw = 1;
verts[1].color0 = color0;
verts[1].color1 = color1;
verts[1].tu = tmxr;
verts[1].tv = tmyt;
verts[2].x = mxr;
verts[2].y = myb;
verts[2].z = 0;
verts[2].rhw = 1;
verts[2].color0 = color0;
verts[2].color1 = color1;
verts[2].tu = tmxr;
verts[2].tv = tmyb;
verts[3].x = mxl;
verts[3].y = myb;
verts[3].z = 0;
verts[3].rhw = 1;
verts[3].color0 = color0;
verts[3].color1 = color1;
verts[3].tu = tmxl;
verts[3].tv = tmyb;
}
int D3DFB::GetPageCount ()
{
return 1;
}
void D3DFB::PaletteChanged ()
{
}
int D3DFB::QueryNewPalette ()
{
return 0;
}
bool D3DFB::IsValid ()
{
return D3DDevice != NULL;
}
HRESULT D3DFB::GetHR ()
{
return 0;
}
bool D3DFB::IsFullscreen ()
{
return !Windowed;
}
bool D3DFB::Lock ()
{
return Lock(true);
}
bool D3DFB::Lock (bool buffered)
{
if (LockCount++ > 0)
{
return false;
}
assert (!In2D);
Accel2D = vid_hw2d;
Buffer = MemBuffer;
return false;
}
void D3DFB::Unlock ()
{
LOG1 ("Unlock <%d>\n", LockCount);
if (LockCount == 0)
{
return;
}
if (UpdatePending && LockCount == 1)
{
Update ();
}
else if (--LockCount == 0)
{
Buffer = NULL;
}
}
// When In2D == 0: Copy buffer to screen and present
// When In2D == 1: Copy buffer to screen but do not present
// When In2D == 2: Set up for 2D drawing but do not draw anything
// When In2D == 3: Present and set In2D to 0
void D3DFB::Update ()
{
if (In2D == 3)
{
if (InScene)
{
DrawRateStuff();
DrawPackedTextures(d3d_showpacks);
EndBatch(); // Make sure all batched primitives are drawn.
DoWindowedGamma();
D3DDevice->EndScene();
D3DDevice->Present(NULL, NULL, NULL, NULL);
InScene = false;
}
In2D = 0;
return;
}
if (LockCount != 1)
{
I_FatalError ("Framebuffer must have exactly 1 lock to be updated");
if (LockCount > 0)
{
UpdatePending = true;
--LockCount;
}
return;
}
if (In2D == 0)
{
DrawRateStuff();
}
if (NeedGammaUpdate)
{
float psgamma[4];
float igamma;
NeedGammaUpdate = false;
igamma = 1 / Gamma;
if (!Windowed)
{
D3DGAMMARAMP ramp;
for (int i = 0; i < 256; ++i)
{
ramp.blue[i] = ramp.green[i] = ramp.red[i] = WORD(65535.f * powf(i / 255.f, igamma));
}
LOG("SetGammaRamp\n");
D3DDevice->SetGammaRamp(0, D3DSGR_CALIBRATE, &ramp);
}
psgamma[2] = psgamma[1] = psgamma[0] = igamma;
psgamma[3] = 1;
D3DDevice->SetPixelShaderConstantF(7, psgamma, 1);
}
if (NeedPalUpdate)
{
UploadPalette();
}
BlitCycles = 0;
clock (BlitCycles);
LockCount = 0;
HRESULT hr = D3DDevice->TestCooperativeLevel();
if (FAILED(hr) && (hr != D3DERR_DEVICENOTRESET || !Reset()))
{
Sleep(1);
return;
}
Draw3DPart(In2D <= 1);
if (In2D == 0)
{
DoWindowedGamma();
D3DDevice->EndScene();
D3DDevice->Present(NULL, NULL, NULL, NULL);
InScene = false;
}
unclock (BlitCycles);
//LOG1 ("cycles = %d\n", BlitCycles);
Buffer = NULL;
UpdatePending = false;
}
bool D3DFB::PaintToWindow ()
{
HRESULT hr;
if (LockCount != 0)
{
return false;
}
hr = D3DDevice->TestCooperativeLevel();
if (FAILED(hr))
{
if (hr != D3DERR_DEVICENOTRESET || !Reset())
{
Sleep (1);
return false;
}
}
Draw3DPart(true);
return true;
}
void D3DFB::Draw3DPart(bool copy3d)
{
if (copy3d)
{
RECT texrect = { 0, 0, Width, Height };
D3DLOCKED_RECT lockrect;
if ((FBWidth == Width && FBHeight == Height &&
SUCCEEDED(FBTexture->LockRect (0, &lockrect, NULL, D3DLOCK_DISCARD))) ||
SUCCEEDED(FBTexture->LockRect (0, &lockrect, &texrect, 0)))
{
if (lockrect.Pitch == Pitch)
{
memcpy (lockrect.pBits, MemBuffer, Width * Height);
}
else
{
BYTE *dest = (BYTE *)lockrect.pBits;
BYTE *src = MemBuffer;
for (int y = 0; y < Height; y++)
{
memcpy (dest, src, Width);
dest += lockrect.Pitch;
src += Pitch;
}
}
FBTexture->UnlockRect (0);
}
}
DrawLetterbox();
InScene = true;
D3DDevice->BeginScene();
assert(OldRenderTarget == NULL);
if (TempRenderTexture != NULL &&
((Windowed && GammaFixerShader && TempRenderTexture != FinalWipeScreen) || GatheringWipeScreen || PixelDoubling))
{
IDirect3DSurface9 *targetsurf;
if (SUCCEEDED(TempRenderTexture->GetSurfaceLevel(0, &targetsurf)))
{
if (SUCCEEDED(D3DDevice->GetRenderTarget(0, &OldRenderTarget)))
{
if (FAILED(D3DDevice->SetRenderTarget(0, targetsurf)))
{
// Setting the render target failed.
}
}
targetsurf->Release();
}
}
SetTexture (0, FBTexture);
SetPaletteTexture(PaletteTexture, 256, BorderColor);
SetPixelShader(PalTexShader);
D3DDevice->SetFVF (D3DFVF_FBVERTEX);
memset(Constant, 0, sizeof(Constant));
SetAlphaBlend(D3DBLENDOP(0));
EnableAlphaTest(FALSE);
if (copy3d)
{
FBVERTEX verts[4];
CalcFullscreenCoords(verts, Accel2D, false, FlashColor0, FlashColor1);
D3DDevice->DrawPrimitiveUP(D3DPT_TRIANGLEFAN, 2, verts, sizeof(FBVERTEX));
}
}
//==========================================================================
//
// D3DFB :: DrawLetterbox
//
// Draws the black bars at the top and bottom of the screen for letterboxed
// modes.
//
//==========================================================================
void D3DFB::DrawLetterbox()
{
if (LBOffsetI != 0)
{
D3DRECT rects[2] = { { 0, 0, Width, LBOffsetI }, { 0, Height + LBOffsetI, Width, TrueHeight } };
D3DDevice->Clear (2, rects, D3DCLEAR_TARGET, D3DCOLOR_XRGB(0,0,0), 1.f, 0);
}
}
//==========================================================================
//
// D3DFB :: DoWindowedGamma
//
// Draws the render target texture to the real back buffer using a gamma-
// correcting pixel shader.
//
//==========================================================================
void D3DFB::DoWindowedGamma()
{
if (OldRenderTarget != NULL)
{
FBVERTEX verts[4];
CalcFullscreenCoords(verts, false, true, 0, 0xFFFFFFFF);
D3DDevice->SetRenderTarget(0, OldRenderTarget);
D3DDevice->SetFVF(D3DFVF_FBVERTEX);
SetTexture(0, TempRenderTexture);
SetPixelShader((Windowed && GammaFixerShader != NULL) ? GammaFixerShader : PlainShader);
SetAlphaBlend(D3DBLENDOP(0));
EnableAlphaTest(FALSE);
D3DDevice->DrawPrimitiveUP(D3DPT_TRIANGLEFAN, 2, verts, sizeof(FBVERTEX));
OldRenderTarget->Release();
OldRenderTarget = NULL;
}
}
void D3DFB::UploadPalette ()
{
D3DLOCKED_RECT lockrect;
if (SUCCEEDED(PaletteTexture->LockRect (0, &lockrect, NULL, 0)))
{
BYTE *pix = (BYTE *)lockrect.pBits;
int i, skipat;
// It is impossible to get the Radeon 9000 to do the proper palette
// lookup. It *will* skip at least one entry in the palette. So we
// let it and have it look at the texture border color for color 255.
// I assume that every other card based on a related graphics chipset
// is similarly affected, which basically means that all Shader Model
// 1.4 cards suffer from this problem, since they all use some variant
// of the ATI R200.
skipat = SM14 ? 256 - 8 : 256;
for (i = 0; i < skipat; ++i, pix += 4)
{
pix[0] = SourcePalette[i].b;
pix[1] = SourcePalette[i].g;
pix[2] = SourcePalette[i].r;
pix[3] = (i == 0 ? 0 : 255);
// To let masked textures work, the first palette entry's alpha is 0.
}
pix += 4;
for (; i < 255; ++i, pix += 4)
{
pix[0] = SourcePalette[i].b;
pix[1] = SourcePalette[i].g;
pix[2] = SourcePalette[i].r;
pix[3] = 255;
}
PaletteTexture->UnlockRect (0);
BorderColor = D3DCOLOR_XRGB(SourcePalette[255].r, SourcePalette[255].g, SourcePalette[255].b);
}
}
PalEntry *D3DFB::GetPalette ()
{
return SourcePalette;
}
void D3DFB::UpdatePalette ()
{
NeedPalUpdate = true;
}
bool D3DFB::SetGamma (float gamma)
{
LOG1 ("SetGamma %g\n", gamma);
Gamma = gamma;
NeedGammaUpdate = true;
return true;
}
bool D3DFB::SetFlash (PalEntry rgb, int amount)
{
FlashColor = rgb;
FlashAmount = amount;
// Fill in the constants for the pixel shader to do linear interpolation between the palette and the flash:
float r = rgb.r / 255.f, g = rgb.g / 255.f, b = rgb.b / 255.f, a = amount / 256.f;
FlashColor0 = D3DCOLOR_COLORVALUE(r * a, g * a, b * a, 0);
a = 1 - a;
FlashColor1 = D3DCOLOR_COLORVALUE(a, a, a, 1);
return true;
}
void D3DFB::GetFlash (PalEntry &rgb, int &amount)
{
rgb = FlashColor;
amount = FlashAmount;
}
void D3DFB::GetFlashedPalette (PalEntry pal[256])
{
memcpy (pal, SourcePalette, 256*sizeof(PalEntry));
if (FlashAmount)
{
DoBlending (pal, pal, 256, FlashColor.r, FlashColor.g, FlashColor.b, FlashAmount);
}
}
void D3DFB::SetVSync (bool vsync)
{
if (VSync != vsync)
{
VSync = vsync;
Reset();
}
}
void D3DFB::NewRefreshRate ()
{
if (!Windowed)
{
Reset();
}
}
void D3DFB::Blank ()
{
// Only used by movie player, which isn't working with D3D9 yet.
}
void D3DFB::SetBlendingRect(int x1, int y1, int x2, int y2)
{
BlendingRect.left = x1;
BlendingRect.top = y1;
BlendingRect.right = x2;
BlendingRect.bottom = y2;
}
//==========================================================================
//
// D3DFB :: GetScreenshotBuffer
//
// Returns a pointer into a surface holding the current screen data.
//
//==========================================================================
void D3DFB::GetScreenshotBuffer(const BYTE *&buffer, int &pitch, ESSType &color_type)
{
D3DLOCKED_RECT lrect;
if (!Accel2D)
{
Super::GetScreenshotBuffer(buffer, pitch, color_type);
return;
}
buffer = NULL;
if ((ScreenshotTexture = GetCurrentScreen()) != NULL)
{
if (FAILED(ScreenshotTexture->GetSurfaceLevel(0, &ScreenshotSurface)))
{
ScreenshotTexture->Release();
ScreenshotTexture = NULL;
}
else if (FAILED(ScreenshotSurface->LockRect(&lrect, NULL, D3DLOCK_READONLY | D3DLOCK_NOSYSLOCK)))
{
ScreenshotSurface->Release();
ScreenshotSurface = NULL;
ScreenshotTexture->Release();
ScreenshotTexture = NULL;
}
else
{
buffer = (const BYTE *)lrect.pBits + lrect.Pitch * LBOffsetI;
pitch = lrect.Pitch;
color_type = SS_BGRA;
}
}
}
//==========================================================================
//
// D3DFB :: ReleaseScreenshotBuffer
//
//==========================================================================
void D3DFB::ReleaseScreenshotBuffer()
{
if (LockCount > 0)
{
Super::ReleaseScreenshotBuffer();
}
if (ScreenshotSurface != NULL)
{
ScreenshotSurface->UnlockRect();
ScreenshotSurface->Release();
ScreenshotSurface = NULL;
}
SAFE_RELEASE( ScreenshotTexture );
}
//==========================================================================
//
// D3DFB :: GetCurrentScreen
//
// Returns a texture containing the pixels currently visible on-screen.
//
//==========================================================================
IDirect3DTexture9 *D3DFB::GetCurrentScreen()
{
IDirect3DTexture9 *tex;
IDirect3DSurface9 *tsurf, *surf;
D3DSURFACE_DESC desc;
if (Windowed || PixelDoubling)
{
// The texture we read into must have the same pixel format as
// the TempRenderTexture.
if (SUCCEEDED(TempRenderTexture->GetSurfaceLevel(0, &tsurf)))
{
if (FAILED(tsurf->GetDesc(&desc)))
{
tsurf->Release();
return NULL;
}
tsurf->Release();
}
else
{
return NULL;
}
}
else
{
if (SUCCEEDED(D3DDevice->GetBackBuffer(0, 0, D3DBACKBUFFER_TYPE_MONO, &tsurf)))
{
if (FAILED(tsurf->GetDesc(&desc)))
{
tsurf->Release();
return NULL;
}
tsurf->Release();
}
else
{
return NULL;
}
// GetFrontBufferData works only with this format
desc.Format = D3DFMT_A8R8G8B8;
}
if (FAILED(D3DDevice->CreateTexture(desc.Width, desc.Height, 1, 0,
desc.Format, D3DPOOL_SYSTEMMEM, &tex, NULL)))
{
return NULL;
}
if (FAILED(tex->GetSurfaceLevel(0, &surf)))
{
tex->Release();
return NULL;
}
if (!Windowed && !PixelDoubling)
{
if (FAILED(D3DDevice->GetFrontBufferData(0, surf)))
{
surf->Release();
tex->Release();
return NULL;
}
}
else
{
if (SUCCEEDED(TempRenderTexture->GetSurfaceLevel(0, &tsurf)))
{
if (FAILED(D3DDevice->GetRenderTargetData(tsurf, surf)))
{
tsurf->Release();
tex->Release();
return NULL;
}
tsurf->Release();
}
else
{
tex->Release();
return NULL;
}
}
surf->Release();
return tex;
}
/**************************************************************************/
/* 2D Stuff */
/**************************************************************************/
//==========================================================================
//
// D3DFB :: DrawPackedTextures
//
// DEBUG: Draws the packing textures to the screen, starting with the
// 1-based packnum.
//
//==========================================================================
void D3DFB::DrawPackedTextures(int packnum)
{
D3DCOLOR empty_colors[8] =
{
0xFFFF9999, 0xFF99FF99, 0xFF9999FF, 0xFFFFFF99,
0xFFFF99FF, 0xFF99FFFF, 0xFFFFCC99, 0xFF99CCFF
};
PackingTexture *pack;
int x = 8, y = 8;
if (packnum <= 0)
{
return;
}
pack = Packs;
while (pack != NULL && pack->OneUse)
{ // Skip textures that aren't used as packing containers
pack = pack->Next;
}
while (pack != NULL && packnum != 1)
{
if (!pack->OneUse)
{ // Skip textures that aren't used as packing containers
packnum--;
}
pack = pack->Next;
}
while (pack != NULL)
{
if (pack->OneUse)
{ // Skip textures that aren't used as packing containers
pack = pack->Next;
continue;
}
AddColorOnlyQuad(x-1, y-1-LBOffsetI, 258, 258, D3DCOLOR_XRGB(255,255,0));
CheckQuadBatch();
BufferedQuad *quad = &QuadExtra[QuadBatchPos];
FBVERTEX *vert = &VertexData[VertexPos];
quad->Group1 = 0;
if (pack->Format == D3DFMT_L8/* && !tex->IsGray*/)
{
quad->Flags = BQF_WrapUV | BQF_GamePalette | BQF_DisableAlphaTest;
quad->ShaderNum = BQS_PalTex;
}
else
{
quad->Flags = BQF_WrapUV | BQF_DisableAlphaTest;
quad->ShaderNum = BQS_Plain;
}
quad->Palette = NULL;
quad->Texture = pack;
float x0 = float(x) - 0.5f;
float y0 = float(y) - 0.5f;
float x1 = x0 + 256.f;
float y1 = y0 + 256.f;
vert[0].x = x0;
vert[0].y = y0;
vert[0].z = 0;
vert[0].rhw = 1;
vert[0].color0 = 0;
vert[0].color1 = 0xFFFFFFFF;
vert[0].tu = 0;
vert[0].tv = 0;
vert[1].x = x1;
vert[1].y = y0;
vert[1].z = 0;
vert[1].rhw = 1;
vert[1].color0 = 0;
vert[1].color1 = 0xFFFFFFFF;
vert[1].tu = 1;
vert[1].tv = 0;
vert[2].x = x1;
vert[2].y = y1;
vert[2].z = 0;
vert[2].rhw = 1;
vert[2].color0 = 0;
vert[2].color1 = 0xFFFFFFFF;
vert[2].tu = 1;
vert[2].tv = 1;
vert[3].x = x0;
vert[3].y = y1;
vert[3].z = 0;
vert[3].rhw = 1;
vert[3].color0 = 0;
vert[3].color1 = 0xFFFFFFFF;
vert[3].tu = 0;
vert[3].tv = 1;
IndexData[IndexPos ] = VertexPos;
IndexData[IndexPos + 1] = VertexPos + 1;
IndexData[IndexPos + 2] = VertexPos + 2;
IndexData[IndexPos + 3] = VertexPos;
IndexData[IndexPos + 4] = VertexPos + 2;
IndexData[IndexPos + 5] = VertexPos + 3;
QuadBatchPos++;
VertexPos += 4;
IndexPos += 6;
// Draw entries in the empty list.
PackedTexture *box;
int emptynum;
for (box = pack->EmptyList, emptynum = 0; box != NULL; box = box->Next, emptynum++)
{
AddColorOnlyQuad(x + box->Area.left, y + box->Area.top - LBOffsetI,
box->Area.right - box->Area.left, box->Area.bottom - box->Area.top,
empty_colors[emptynum & 7]);
}
x += 256 + 8;
if (x > Width - 256)
{
x = 8;
y += 256 + 8;
if (y > TrueHeight - 256)
{
return;
}
}
pack = pack->Next;
}
}
//==========================================================================
//
// D3DFB :: AllocPackedTexture
//
// Finds space to pack an image inside a packing texture and returns it.
// Large images and those that need to wrap always get their own textures.
//
//==========================================================================
D3DFB::PackedTexture *D3DFB::AllocPackedTexture(int w, int h, bool wrapping, D3DFORMAT format)
{
PackingTexture *bestpack;
PackedTexture *bestbox;
int area;
if (w > 256 || h > 256 || wrapping)
{ // Create a new packing texture.
bestpack = new PackingTexture(this, w, h, format);
bestpack->OneUse = true;
bestbox = bestpack->GetBestFit(w, h, area);
}
else
{ // Try to find space in an existing packing texture.
int bestarea = INT_MAX;
int bestareaever = w * h;
bestpack = NULL;
bestbox = NULL;
for (PackingTexture *pack = Packs; pack != NULL; pack = pack->Next)
{
if (pack->Format == format)
{
PackedTexture *box = pack->GetBestFit(w, h, area);
if (area == bestareaever)
{ // An exact fit! Use it!
bestpack = pack;
bestbox = box;
break;
}
if (area < bestarea)
{
bestarea = area;
bestpack = pack;
bestbox = box;
}
}
}
if (bestpack == NULL)
{ // Create a new packing texture.
bestpack = new PackingTexture(this, 256, 256, format);
bestbox = bestpack->GetBestFit(w, h, bestarea);
}
}
bestpack->AllocateImage(bestbox, w, h);
return bestbox;
}
//==========================================================================
//
// PackingTexture Constructor
//
//==========================================================================
D3DFB::PackingTexture::PackingTexture(D3DFB *fb, int w, int h, D3DFORMAT format)
{
Tex = NULL;
Format = format;
UsedList = NULL;
EmptyList = NULL;
FreeList = NULL;
OneUse = false;
Width = 0;
Height = 0;
Next = fb->Packs;
fb->Packs = this;
#if 1
if (FAILED(fb->D3DDevice->CreateTexture(w, h, 1, 0, format, D3DPOOL_MANAGED, &Tex, NULL)))
#endif
{ // Try again, using power-of-2 sizes
int i;
for (i = 1; i < w; i <<= 1) {} w = i;
for (i = 1; i < h; i <<= 1) {} h = i;
if (FAILED(fb->D3DDevice->CreateTexture(w, h, 1, 0, format, D3DPOOL_MANAGED, &Tex, NULL)))
{
return;
}
}
Width = w;
Height = h;
// The whole texture is initially empty.
AddEmptyBox(0, 0, w, h);
}
//==========================================================================
//
// PackingTexture Destructor
//
//==========================================================================
D3DFB::PackingTexture::~PackingTexture()
{
PackedTexture *box, *next;
SAFE_RELEASE( Tex );
for (box = UsedList; box != NULL; box = next)
{
next = box->Next;
delete box;
}
for (box = EmptyList; box != NULL; box = next)
{
next = box->Next;
delete box;
}
for (box = FreeList; box != NULL; box = next)
{
next = box->Next;
delete box;
}
}
//==========================================================================
//
// PackingTexture :: GetBestFit
//
// Returns the empty box that provides the best fit for the requested
// dimensions, or NULL if none of them are large enough.
//
//==========================================================================
D3DFB::PackedTexture *D3DFB::PackingTexture::GetBestFit(int w, int h, int &area)
{
PackedTexture *box;
int smallestarea = INT_MAX;
PackedTexture *smallestbox = NULL;
for (box = EmptyList; box != NULL; box = box->Next)
{
int boxw = box->Area.right - box->Area.left;
int boxh = box->Area.bottom - box->Area.top;
if (boxw >= w && boxh >= h)
{
int boxarea = boxw * boxh;
if (boxarea < smallestarea)
{
smallestarea = boxarea;
smallestbox = box;
if (boxw == w && boxh == h)
{ // An exact fit! Use it!
break;
}
}
}
}
area = smallestarea;
return smallestbox;
}
//==========================================================================
//
// PackingTexture :: AllocateImage
//
// Moves the box from the empty list to the used list, sizing it to the
// requested dimensions and adding additional boxes to the empty list if
// needed.
//
// The passed box *MUST* be in this packing textures empty list.
//
//==========================================================================
void D3DFB::PackingTexture::AllocateImage(D3DFB::PackedTexture *box, int w, int h)
{
RECT start = box->Area;
box->Area.right = box->Area.left + w;
box->Area.bottom = box->Area.top + h;
box->Left = float(box->Area.left) / Width;
box->Right = float(box->Area.right) / Width;
box->Top = float(box->Area.top) / Height;
box->Bottom = float(box->Area.bottom) / Height;
// Remove it from the empty list.
*(box->Prev) = box->Next;
if (box->Next != NULL)
{
box->Next->Prev = box->Prev;
}
// Add it to the used list.
box->Next = UsedList;
if (box->Next != NULL)
{
box->Next->Prev = &box->Next;
}
UsedList = box;
box->Prev = &UsedList;
// If we didn't use the whole box, split the remainder into the empty list.
if (box->Area.bottom + 7 < start.bottom && box->Area.right + 7 < start.right)
{
// Split like this:
// +---+------+
// |###| |
// +---+------+
// | |
// | |
// +----------+
if (box->Area.bottom < start.bottom)
{
AddEmptyBox(start.left, box->Area.bottom, start.right, start.bottom);
}
if (box->Area.right < start.right)
{
AddEmptyBox(box->Area.right, start.top, start.right, box->Area.bottom);
}
}
else
{
// Split like this:
// +---+------+
// |###| |
// +---+ |
// | | |
// | | |
// +---+------+
if (box->Area.bottom < start.bottom)
{
AddEmptyBox(start.left, box->Area.bottom, box->Area.right, start.bottom);
}
if (box->Area.right < start.right)
{
AddEmptyBox(box->Area.right, start.top, start.right, start.bottom);
}
}
}
//==========================================================================
//
// PackingTexture :: AddEmptyBox
//
// Adds a box with the specified dimensions to the empty list.
//
//==========================================================================
void D3DFB::PackingTexture::AddEmptyBox(int left, int top, int right, int bottom)
{
PackedTexture *box = AllocateBox();
box->Area.left = left;
box->Area.top = top;
box->Area.right = right;
box->Area.bottom = bottom;
box->Next = EmptyList;
if (box->Next != NULL)
{
box->Next->Prev = &box->Next;
}
box->Prev = &EmptyList;
EmptyList = box;
}
//==========================================================================
//
// PackingTexture :: AllocateBox
//
// Returns a new PackedTexture box, either by retrieving one off the free
// list or by creating a new one. The box is not linked into a list.
//
//==========================================================================
D3DFB::PackedTexture *D3DFB::PackingTexture::AllocateBox()
{
PackedTexture *box;
if (FreeList != NULL)
{
box = FreeList;
FreeList = box->Next;
if (box->Next != NULL)
{
box->Next->Prev = &FreeList;
}
}
else
{
box = new PackedTexture;
box->Owner = this;
}
return box;
}
//==========================================================================
//
// PackingTexture :: FreeBox
//
// Removes a box from its current list and adds it to the empty list,
// updating EmptyArea. If there are no boxes left in the used list, then
// the empty list is replaced with a single box, so the texture can be
// subdivided again.
//
//==========================================================================
void D3DFB::PackingTexture::FreeBox(D3DFB::PackedTexture *box)
{
*(box->Prev) = box->Next;
if (box->Next != NULL)
{
box->Next->Prev = box->Prev;
}
box->Next = EmptyList;
box->Prev = &EmptyList;
if (EmptyList != NULL)
{
EmptyList->Prev = &box->Next;
}
EmptyList = box;
if (UsedList == NULL)
{ // No more space in use! Move all but this into the free list.
if (box->Next != NULL)
{
D3DFB::PackedTexture *lastbox;
// Find the last box in the free list.
lastbox = FreeList;
if (lastbox != NULL)
{
while (lastbox->Next != NULL)
{
lastbox = lastbox->Next;
}
}
// Chain the empty list to the end of the free list.
if (lastbox != NULL)
{
lastbox->Next = box->Next;
box->Next->Prev = &lastbox->Next;
}
else
{
FreeList = box->Next;
box->Next->Prev = &FreeList;
}
box->Next = NULL;
}
// Now this is the only box in the empty list, so it should
// contain the whole texture.
box->Area.left = 0;
box->Area.top = 0;
box->Area.right = Width;
box->Area.bottom = Height;
}
}
//==========================================================================
//
// D3DTex Constructor
//
//==========================================================================
D3DTex::D3DTex(FTexture *tex, D3DFB *fb, bool wrapping)
{
// Attach to the texture list for the D3DFB
Next = fb->Textures;
if (Next != NULL)
{
Next->Prev = &Next;
}
Prev = &fb->Textures;
fb->Textures = this;
GameTex = tex;
Box = NULL;
IsGray = false;
Create(fb, wrapping);
}
//==========================================================================
//
// D3DTex Destructor
//
//==========================================================================
D3DTex::~D3DTex()
{
if (Box != NULL)
{
Box->Owner->FreeBox(Box);
Box = NULL;
}
// Detach from the texture list
*Prev = Next;
if (Next != NULL)
{
Next->Prev = Prev;
}
// Remove link from the game texture
if (GameTex != NULL)
{
GameTex->Native = NULL;
}
}
//==========================================================================
//
// D3DTex :: CheckWrapping
//
// Returns true if the texture is compatible with the specified wrapping
// mode.
//
//==========================================================================
bool D3DTex::CheckWrapping(bool wrapping)
{
// If it doesn't need to wrap, then it works.
if (!wrapping)
{
return true;
}
// If it needs to wrap, then it can't be packed inside another texture.
return Box->Owner->OneUse;
}
//==========================================================================
//
// D3DTex :: Create
//
// Creates an IDirect3DTexture9 for the texture and copies the image data
// to it. Note that unlike FTexture, this image is row-major.
//
//==========================================================================
bool D3DTex::Create(D3DFB *fb, bool wrapping)
{
if (Box != NULL)
{
Box->Owner->FreeBox(Box);
}
Box = fb->AllocPackedTexture(GameTex->GetWidth(), GameTex->GetHeight(), wrapping, GetTexFormat());
if (Box == NULL)
{
return false;
}
if (!Update())
{
Box->Owner->FreeBox(Box);
Box = NULL;
return false;
}
return true;
}
//==========================================================================
//
// D3DTex :: Update
//
// Copies image data from the underlying FTexture to the D3D texture.
//
//==========================================================================
bool D3DTex::Update()
{
D3DSURFACE_DESC desc;
D3DLOCKED_RECT lrect;
RECT rect;
assert(Box != NULL);
assert(Box->Owner != NULL);
assert(Box->Owner->Tex != NULL);
assert(GameTex != NULL);
if (FAILED(Box->Owner->Tex->GetLevelDesc(0, &desc)))
{
return false;
}
rect = Box->Area;
if (FAILED(Box->Owner->Tex->LockRect(0, &lrect, &rect, 0)))
{
return false;
}
GameTex->FillBuffer((BYTE *)lrect.pBits, lrect.Pitch, GameTex->GetHeight(), ToTexFmt(desc.Format));
Box->Owner->Tex->UnlockRect(0);
return true;
}
//==========================================================================
//
// D3DTex :: GetTexFormat
//
// Returns the texture format that would best fit this texture.
//
//==========================================================================
D3DFORMAT D3DTex::GetTexFormat()
{
FTextureFormat fmt = GameTex->GetFormat();
IsGray = false;
switch (fmt)
{
case TEX_Pal: return D3DFMT_L8;
case TEX_Gray: IsGray = true; return D3DFMT_L8;
case TEX_RGB: return D3DFMT_A8R8G8B8;
case TEX_DXT1: return D3DFMT_DXT1;
case TEX_DXT2: return D3DFMT_DXT2;
case TEX_DXT3: return D3DFMT_DXT3;
case TEX_DXT4: return D3DFMT_DXT4;
case TEX_DXT5: return D3DFMT_DXT5;
default: I_FatalError ("GameTex->GetFormat() returned invalid format.");
}
return D3DFMT_L8;
}
//==========================================================================
//
// D3DTex :: ToTexFmt
//
// Converts a D3DFORMAT constant to something the FTexture system
// understands.
//
//==========================================================================
FTextureFormat D3DTex::ToTexFmt(D3DFORMAT fmt)
{
switch (fmt)
{
case D3DFMT_L8: return IsGray ? TEX_Gray : TEX_Pal;
case D3DFMT_A8R8G8B8: return TEX_RGB;
case D3DFMT_DXT1: return TEX_DXT1;
case D3DFMT_DXT2: return TEX_DXT2;
case D3DFMT_DXT3: return TEX_DXT3;
case D3DFMT_DXT4: return TEX_DXT4;
case D3DFMT_DXT5: return TEX_DXT5;
default:
assert(0); // LOL WUT?
return TEX_Pal;
}
}
//==========================================================================
//
// D3DPal Constructor
//
//==========================================================================
D3DPal::D3DPal(FRemapTable *remap, D3DFB *fb)
: Tex(NULL), Remap(remap)
{
int count;
// Attach to the palette list for the D3DFB
Next = fb->Palettes;
if (Next != NULL)
{
Next->Prev = &Next;
}
Prev = &fb->Palettes;
fb->Palettes = this;
// Palette textures must be 256 entries for Shader Model 1.4
if (fb->SM14)
{
count = 256;
// If the palette isn't big enough, then we don't need to
// worry about setting the gamma ramp.
BorderColor = (remap->NumEntries >= 256 - 8) ? ~0 : 0;
}
else
{
int pow2count;
// Round up to the nearest power of 2.
for (pow2count = 1; pow2count < remap->NumEntries; pow2count <<= 1)
{ }
count = pow2count;
BorderColor = 0;
}
RoundedPaletteSize = count;
if (SUCCEEDED(fb->D3DDevice->CreateTexture(count, 1, 1, 0,
D3DFMT_A8R8G8B8, D3DPOOL_MANAGED, &Tex, NULL)))
{
if (!Update())
{
Tex->Release();
Tex = NULL;
}
}
}
//==========================================================================
//
// D3DPal Destructor
//
//==========================================================================
D3DPal::~D3DPal()
{
SAFE_RELEASE( Tex );
// Detach from the palette list
*Prev = Next;
if (Next != NULL)
{
Next->Prev = Prev;
}
// Remove link from the remap table
if (Remap != NULL)
{
Remap->Native = NULL;
}
}
//==========================================================================
//
// D3DPal :: Update
//
// Copies the palette to the texture.
//
//==========================================================================
bool D3DPal::Update()
{
D3DLOCKED_RECT lrect;
D3DCOLOR *buff;
const PalEntry *pal;
int skipat, i;
assert(Tex != NULL);
if (FAILED(Tex->LockRect(0, &lrect, NULL, 0)))
{
return false;
}
buff = (D3DCOLOR *)lrect.pBits;
pal = Remap->Palette;
// See explanation in UploadPalette() for skipat rationale.
skipat = MIN(Remap->NumEntries, BorderColor != 0 ? 256 - 8 : 256);
for (i = 0; i < skipat; ++i)
{
buff[i] = D3DCOLOR_ARGB(pal[i].a, pal[i].r, pal[i].g, pal[i].b);
}
for (++i; i < Remap->NumEntries; ++i)
{
buff[i] = D3DCOLOR_ARGB(pal[i].a, pal[i-1].r, pal[i-1].g, pal[i-1].b);
}
BorderColor = D3DCOLOR_ARGB(pal[i].a, pal[i-1].r, pal[i-1].g, pal[i-1].b);
Tex->UnlockRect(0);
return true;
}
//==========================================================================
//
// D3DFB :: Begin2D
//
// Begins 2D mode drawing operations. In particular, DrawTexture is
// rerouted to use Direct3D instead of the software renderer.
//
//==========================================================================
bool D3DFB::Begin2D(bool copy3d)
{
if (!Accel2D)
{
return false;
}
if (In2D)
{
return true;
}
In2D = 2 - copy3d;
Update();
In2D = 3;
return true;
}
//==========================================================================
//
// D3DFB :: CreateTexture
//
// Returns a native texture that wraps a FTexture.
//
//==========================================================================
FNativeTexture *D3DFB::CreateTexture(FTexture *gametex, bool wrapping)
{
D3DTex *tex = new D3DTex(gametex, this, wrapping);
if (tex->Box == NULL)
{
delete tex;
return NULL;
}
return tex;
}
//==========================================================================
//
// D3DFB :: CreatePalette
//
// Returns a native texture that contains a palette.
//
//==========================================================================
FNativePalette *D3DFB::CreatePalette(FRemapTable *remap)
{
D3DPal *tex = new D3DPal(remap, this);
if (tex->Tex == NULL)
{
delete tex;
return NULL;
}
return tex;
}
//==========================================================================
//
// D3DFB :: Clear
//
// Fills the specified region with a color.
//
//==========================================================================
void D3DFB::Clear (int left, int top, int right, int bottom, int palcolor, uint32 color)
{
if (In2D < 2)
{
Super::Clear(left, top, right, bottom, palcolor, color);
return;
}
if (!InScene)
{
return;
}
if (palcolor >= 0)
{
color = GPalette.BaseColors[palcolor];
}
else if (APART(color) < 255)
{
Dim(color, APART(color)/255.f, left, top, right - left, bottom - top);
return;
}
AddColorOnlyQuad(left, top, right - left, bottom - top, color | 0xFF000000);
}
//==========================================================================
//
// D3DFB :: Dim
//
//==========================================================================
void D3DFB::Dim (PalEntry color, float amount, int x1, int y1, int w, int h)
{
if (amount <= 0)
{
return;
}
if (In2D < 2)
{
Super::Dim(color, amount, x1, y1, w, h);
return;
}
if (!InScene)
{
return;
}
if (amount > 1)
{
amount = 1;
}
AddColorOnlyQuad(x1, y1, w, h, color | (int(amount * 255) << 24));
}
//==========================================================================
//
// D3DFB :: BeginLineBatch
//
//==========================================================================
void D3DFB::BeginLineBatch()
{
if (In2D < 2 || !InScene || BatchType == BATCH_Lines)
{
return;
}
EndQuadBatch(); // Make sure all quads have been drawn first.
VertexBuffer->Lock(0, 0, (void **)&VertexData, D3DLOCK_DISCARD);
VertexPos = 0;
BatchType = BATCH_Lines;
}
//==========================================================================
//
// D3DFB :: EndLineBatch
//
//==========================================================================
void D3DFB::EndLineBatch()
{
if (In2D < 2 || !InScene || BatchType != BATCH_Lines)
{
return;
}
VertexBuffer->Unlock();
if (VertexPos > 0)
{
SetPixelShader(ColorOnlyShader);
SetAlphaBlend(D3DBLENDOP_ADD, D3DBLEND_SRCALPHA, D3DBLEND_INVSRCALPHA);
D3DDevice->SetStreamSource(0, VertexBuffer, 0, sizeof(FBVERTEX));
D3DDevice->DrawPrimitive(D3DPT_LINELIST, 0, VertexPos / 2);
}
VertexPos = -1;
BatchType = BATCH_None;
}
//==========================================================================
//
// D3DFB :: DrawLine
//
//==========================================================================
void D3DFB::DrawLine(int x0, int y0, int x1, int y1, int palcolor, uint32 color)
{
if (In2D < 2)
{
Super::DrawLine(x0, y0, x1, y1, palcolor, color);
return;
}
if (!InScene)
{
return;
}
if (BatchType != BATCH_Lines)
{
BeginLineBatch();
}
if (VertexPos == NUM_VERTS)
{ // Flush the buffer and refill it.
EndLineBatch();
BeginLineBatch();
}
// Add the endpoints to the vertex buffer.
VertexData[VertexPos].x = float(x0);
VertexData[VertexPos].y = float(y0) + LBOffset;
VertexData[VertexPos].z = 0;
VertexData[VertexPos].rhw = 1;
VertexData[VertexPos].color0 = color;
VertexData[VertexPos].color1 = 0;
VertexData[VertexPos].tu = 0;
VertexData[VertexPos].tv = 0;
VertexData[VertexPos+1].x = float(x1);
VertexData[VertexPos+1].y = float(y1) + LBOffset;
VertexData[VertexPos+1].z = 0;
VertexData[VertexPos+1].rhw = 1;
VertexData[VertexPos+1].color0 = color;
VertexData[VertexPos+1].color1 = 0;
VertexData[VertexPos+1].tu = 0;
VertexData[VertexPos+1].tv = 0;
VertexPos += 2;
}
//==========================================================================
//
// D3DFB :: DrawPixel
//
//==========================================================================
void D3DFB::DrawPixel(int x, int y, int palcolor, uint32 color)
{
if (In2D < 2)
{
Super::DrawPixel(x, y, palcolor, color);
return;
}
if (!InScene)
{
return;
}
FBVERTEX pt =
{
float(x), float(y), 0, 1, color
};
EndBatch(); // Draw out any batched operations.
SetPixelShader(ColorOnlyShader);
SetAlphaBlend(D3DBLENDOP_ADD, D3DBLEND_SRCALPHA, D3DBLEND_INVSRCALPHA);
D3DDevice->DrawPrimitiveUP(D3DPT_POINTLIST, 1, &pt, sizeof(FBVERTEX));
}
//==========================================================================
//
// D3DFB :: DrawTextureV
//
// If not in 2D mode, just call the normal software version.
// If in 2D mode, then use Direct3D calls to perform the drawing.
//
//==========================================================================
void STACK_ARGS D3DFB::DrawTextureV (FTexture *img, int x, int y, uint32 tags_first, va_list tags)
{
if (In2D < 2)
{
Super::DrawTextureV(img, x, y, tags_first, tags);
return;
}
DrawParms parms;
if (!InScene || !ParseDrawTextureTags(img, x, y, tags_first, tags, &parms, true))
{
return;
}
D3DTex *tex = static_cast<D3DTex *>(img->GetNative(false));
if (tex == NULL)
{
assert(tex != NULL);
return;
}
CheckQuadBatch();
float xscale = float(parms.destwidth) / parms.texwidth / 65536.f;
float yscale = float(parms.destheight) / parms.texheight / 65536.f;
float x0 = float(parms.x) / 65536.f - float(parms.left) * xscale;
float y0 = float(parms.y) / 65536.f - float(parms.top) * yscale;
float x1 = x0 + float(parms.destwidth) / 65536.f;
float y1 = y0 + float(parms.destheight) / 65536.f;
float u0 = tex->Box->Left;
float v0 = tex->Box->Top;
float u1 = tex->Box->Right;
float v1 = tex->Box->Bottom;
float uscale = 1.f / tex->Box->Owner->Width;
float vscale = 1.f / tex->Box->Owner->Height / yscale;
if (y0 < parms.uclip)
{
v0 += (float(parms.uclip) - y0) * vscale;
y0 = float(parms.uclip);
}
if (y1 > parms.dclip)
{
v1 -= (y1 - float(parms.dclip)) * vscale;
y1 = float(parms.dclip);
}
if (parms.flipX)
{
swap(u0, u1);
}
if (parms.windowleft > 0 || parms.windowright < parms.texwidth)
{
x0 += parms.windowleft * xscale;
u0 += parms.windowleft * uscale;
x1 -= (parms.texwidth - parms.windowright) * xscale;
u1 -= (parms.texwidth - parms.windowright) * uscale;
}
if (x0 < parms.lclip)
{
u0 += float(parms.lclip - x0) * uscale / xscale;
x0 = float(parms.lclip);
}
if (x1 > parms.rclip)
{
u1 -= float(x1 - parms.rclip) * uscale / xscale;
x1 = float(parms.rclip);
}
parms.bilinear = false;
D3DCOLOR color0, color1;
if (!SetStyle(tex, parms, color0, color1, QuadExtra[QuadBatchPos]))
{
return;
}
QuadExtra[QuadBatchPos].Texture = tex->Box->Owner;
if (parms.bilinear)
{
QuadExtra[QuadBatchPos].Flags |= BQF_Bilinear;
}
float yoffs = GatheringWipeScreen ? 0.5f : 0.5f - LBOffset;
// Coordinates are truncated to integers, because that's effectively
// what the software renderer does. The hardware will instead round
// to nearest, it seems.
x0 = floorf(x0) - 0.5f;
y0 = floorf(y0) - yoffs;
x1 = floorf(x1) - 0.5f;
y1 = floorf(y1) - yoffs;
FBVERTEX *vert = &VertexData[VertexPos];
vert[0].x = x0;
vert[0].y = y0;
vert[0].z = 0;
vert[0].rhw = 1;
vert[0].color0 = color0;
vert[0].color1 = color1;
vert[0].tu = u0;
vert[0].tv = v0;
vert[1].x = x1;
vert[1].y = y0;
vert[1].z = 0;
vert[1].rhw = 1;
vert[1].color0 = color0;
vert[1].color1 = color1;
vert[1].tu = u1;
vert[1].tv = v0;
vert[2].x = x1;
vert[2].y = y1;
vert[2].z = 0;
vert[2].rhw = 1;
vert[2].color0 = color0;
vert[2].color1 = color1;
vert[2].tu = u1;
vert[2].tv = v1;
vert[3].x = x0;
vert[3].y = y1;
vert[3].z = 0;
vert[3].rhw = 1;
vert[3].color0 = color0;
vert[3].color1 = color1;
vert[3].tu = u0;
vert[3].tv = v1;
IndexData[IndexPos ] = VertexPos;
IndexData[IndexPos + 1] = VertexPos + 1;
IndexData[IndexPos + 2] = VertexPos + 2;
IndexData[IndexPos + 3] = VertexPos;
IndexData[IndexPos + 4] = VertexPos + 2;
IndexData[IndexPos + 5] = VertexPos + 3;
QuadBatchPos++;
VertexPos += 4;
IndexPos += 6;
}
//==========================================================================
//
// D3DFB :: FlatFill
//
// Fills an area with a repeating copy of the texture.
//
//==========================================================================
void D3DFB::FlatFill(int left, int top, int right, int bottom, FTexture *src, bool local_origin)
{
if (In2D < 2)
{
Super::FlatFill(left, top, right, bottom, src, local_origin);
return;
}
if (!InScene)
{
return;
}
D3DTex *tex = static_cast<D3DTex *>(src->GetNative(true));
if (tex == NULL)
{
return;
}
float yoffs = GatheringWipeScreen ? 0.5f : 0.5f - LBOffset;
float x0 = float(left);
float y0 = float(top);
float x1 = float(right);
float y1 = float(bottom);
float itw = 1.f / float(src->GetWidth());
float ith = 1.f / float(src->GetHeight());
float xo = local_origin ? x0 : 0;
float yo = local_origin ? y0 : 0;
float u0 = (x0 - xo) * itw;
float v0 = (y0 - yo) * ith;
float u1 = (x1 - xo) * itw;
float v1 = (y1 - yo) * ith;
x0 -= 0.5f;
y0 -= yoffs;
x1 -= 0.5f;
y1 -= yoffs;
CheckQuadBatch();
BufferedQuad *quad = &QuadExtra[QuadBatchPos];
FBVERTEX *vert = &VertexData[VertexPos];
quad->Group1 = 0;
if (tex->GetTexFormat() == D3DFMT_L8 && !tex->IsGray)
{
quad->Flags = BQF_WrapUV | BQF_GamePalette | BQF_DisableAlphaTest;
quad->ShaderNum = BQS_PalTex;
}
else
{
quad->Flags = BQF_WrapUV | BQF_DisableAlphaTest;
quad->ShaderNum = BQS_Plain;
}
quad->Palette = NULL;
quad->Texture = tex->Box->Owner;
vert[0].x = x0;
vert[0].y = y0;
vert[0].z = 0;
vert[0].rhw = 1;
vert[0].color0 = 0;
vert[0].color1 = 0xFFFFFFFF;
vert[0].tu = u0;
vert[0].tv = v0;
vert[1].x = x1;
vert[1].y = y0;
vert[1].z = 0;
vert[1].rhw = 1;
vert[1].color0 = 0;
vert[1].color1 = 0xFFFFFFFF;
vert[1].tu = u1;
vert[1].tv = v0;
vert[2].x = x1;
vert[2].y = y1;
vert[2].z = 0;
vert[2].rhw = 1;
vert[2].color0 = 0;
vert[2].color1 = 0xFFFFFFFF;
vert[2].tu = u1;
vert[2].tv = v1;
vert[3].x = x0;
vert[3].y = y1;
vert[3].z = 0;
vert[3].rhw = 1;
vert[3].color0 = 0;
vert[3].color1 = 0xFFFFFFFF;
vert[3].tu = u0;
vert[3].tv = v1;
IndexData[IndexPos ] = VertexPos;
IndexData[IndexPos + 1] = VertexPos + 1;
IndexData[IndexPos + 2] = VertexPos + 2;
IndexData[IndexPos + 3] = VertexPos;
IndexData[IndexPos + 4] = VertexPos + 2;
IndexData[IndexPos + 5] = VertexPos + 3;
QuadBatchPos++;
VertexPos += 4;
IndexPos += 6;
}
//==========================================================================
//
// D3DFB :: AddColorOnlyQuad
//
// Adds a single-color, untextured quad to the batch.
//
//==========================================================================
void D3DFB::AddColorOnlyQuad(int left, int top, int width, int height, D3DCOLOR color)
{
BufferedQuad *quad;
FBVERTEX *verts;
CheckQuadBatch();
quad = &QuadExtra[QuadBatchPos];
verts = &VertexData[VertexPos];
float x = float(left) - 0.5f;
float y = float(top) - 0.5f + (GatheringWipeScreen ? 0 : LBOffset);
quad->Group1 = 0;
quad->ShaderNum = BQS_ColorOnly;
if ((color & 0xFF000000) != 0xFF000000)
{
quad->BlendOp = D3DBLENDOP_ADD;
quad->SrcBlend = D3DBLEND_SRCALPHA;
quad->DestBlend = D3DBLEND_INVSRCALPHA;
}
quad->Palette = NULL;
quad->Texture = NULL;
verts[0].x = x;
verts[0].y = y;
verts[0].z = 0;
verts[0].rhw = 1;
verts[0].color0 = color;
verts[0].color1 = 0;
verts[0].tu = 0;
verts[0].tv = 0;
verts[1].x = x + width;
verts[1].y = y;
verts[1].z = 0;
verts[1].rhw = 1;
verts[1].color0 = color;
verts[1].color1 = 0;
verts[1].tu = 0;
verts[1].tv = 0;
verts[2].x = x + width;
verts[2].y = y + height;
verts[2].z = 0;
verts[2].rhw = 1;
verts[2].color0 = color;
verts[2].color1 = 0;
verts[2].tu = 0;
verts[2].tv = 0;
verts[3].x = x;
verts[3].y = y + height;
verts[3].z = 0;
verts[3].rhw = 1;
verts[3].color0 = color;
verts[3].color1 = 0;
verts[3].tu = 0;
verts[3].tv = 0;
IndexData[IndexPos ] = VertexPos;
IndexData[IndexPos + 1] = VertexPos + 1;
IndexData[IndexPos + 2] = VertexPos + 2;
IndexData[IndexPos + 3] = VertexPos;
IndexData[IndexPos + 4] = VertexPos + 2;
IndexData[IndexPos + 5] = VertexPos + 3;
QuadBatchPos++;
VertexPos += 4;
IndexPos += 6;
}
//==========================================================================
//
// D3DFB :: CheckQuadBatch
//
// Make sure there's enough room in the batch for one more quad.
//
//==========================================================================
void D3DFB::CheckQuadBatch()
{
if (BatchType == BATCH_Lines)
{
EndLineBatch();
}
else if (QuadBatchPos == MAX_QUAD_BATCH)
{
EndQuadBatch();
}
if (QuadBatchPos < 0)
{
BeginQuadBatch();
}
}
//==========================================================================
//
// D3DFB :: BeginQuadBatch
//
// Locks the vertex buffer for quads and sets the cursor to 0.
//
//==========================================================================
void D3DFB::BeginQuadBatch()
{
if (In2D < 2 || !InScene || QuadBatchPos >= 0)
{
return;
}
EndLineBatch(); // Make sure all lines have been drawn first.
VertexBuffer->Lock(0, 0, (void **)&VertexData, D3DLOCK_DISCARD);
IndexBuffer->Lock(0, 0, (void **)&IndexData, D3DLOCK_DISCARD);
VertexPos = 0;
IndexPos = 0;
QuadBatchPos = 0;
BatchType = BATCH_Quads;
}
//==========================================================================
//
// D3DFB :: EndQuadBatch
//
// Draws all the quads that have been batched up.
//
//==========================================================================
void D3DFB::EndQuadBatch()
{
if (In2D < 2 || !InScene || BatchType != BATCH_Quads)
{
return;
}
BatchType = BATCH_None;
VertexBuffer->Unlock();
IndexBuffer->Unlock();
if (QuadBatchPos == 0)
{
QuadBatchPos = -1;
VertexPos = -1;
IndexPos = -1;
return;
}
D3DDevice->SetStreamSource(0, VertexBuffer, 0, sizeof(FBVERTEX));
D3DDevice->SetIndices(IndexBuffer);
bool uv_wrapped = false;
bool uv_should_wrap;
for (int i = 0; i < QuadBatchPos; )
{
const BufferedQuad *quad = &QuadExtra[i];
int j;
// Quads with matching parameters should be done with a single
// DrawPrimitive call.
for (j = i + 1; j < QuadBatchPos; ++j)
{
const BufferedQuad *q2 = &QuadExtra[j];
if (quad->Texture != q2->Texture ||
quad->Group1 != q2->Group1 ||
quad->Palette != q2->Palette)
{
break;
}
}
// Set the palette (if one)
if ((quad->Flags & BQF_Paletted) == BQF_GamePalette)
{
SetPaletteTexture(PaletteTexture, 256, BorderColor);
}
else if ((quad->Flags & BQF_Paletted) == BQF_CustomPalette)
{
SetPaletteTexture(quad->Palette->Tex, quad->Palette->RoundedPaletteSize, quad->Palette->BorderColor);
}
// Set paletted bilinear filtering (IF IT WORKED RIGHT!)
if ((quad->Flags & (BQF_Paletted | BQF_Bilinear)) == (BQF_Paletted | BQF_Bilinear))
{
SetPalTexBilinearConstants(quad->Texture);
}
// Set the alpha blending
SetAlphaBlend(D3DBLENDOP(quad->BlendOp), D3DBLEND(quad->SrcBlend), D3DBLEND(quad->DestBlend));
// Set the alpha test
EnableAlphaTest(!(quad->Flags & BQF_DisableAlphaTest));
// Set the pixel shader
if (quad->ShaderNum == BQS_PalTex)
{
if (!(quad->Flags & BQF_Bilinear))
{
SetPixelShader((quad->Flags & BQF_InvertSource) ? InvPalTexShader : PalTexShader);
}
else
{
SetPixelShader(PalTexBilinearShader);
}
}
else if (quad->ShaderNum == BQS_Plain)
{
SetPixelShader((quad->Flags & BQF_InvertSource) ? InvPlainShader : PlainShader);
}
else if (quad->ShaderNum == BQS_RedToAlpha)
{
SetPixelShader(RedToAlphaShader);
}
else if (quad->ShaderNum == BQS_ColorOnly)
{
SetPixelShader(ColorOnlyShader);
}
// Set the texture clamp addressing mode
uv_should_wrap = !!(quad->Flags & BQF_WrapUV);
if (uv_wrapped != uv_should_wrap)
{
DWORD mode = uv_should_wrap ? D3DTADDRESS_WRAP : D3DTADDRESS_BORDER;
uv_wrapped = uv_should_wrap;
D3DDevice->SetSamplerState(0, D3DSAMP_ADDRESSU, mode);
D3DDevice->SetSamplerState(0, D3DSAMP_ADDRESSV, mode);
}
// Set the texture
if (quad->Texture != NULL)
{
SetTexture(0, quad->Texture->Tex);
}
// Draw the quad
D3DDevice->DrawIndexedPrimitive(D3DPT_TRIANGLELIST, 0, 4 * i, 4 * (j - i), 6 * i, 2 * (j - i));
i = j;
}
if (uv_wrapped)
{
D3DDevice->SetSamplerState(0, D3DSAMP_ADDRESSU, D3DTADDRESS_BORDER);
D3DDevice->SetSamplerState(0, D3DSAMP_ADDRESSV, D3DTADDRESS_BORDER);
}
QuadBatchPos = -1;
VertexPos = -1;
IndexPos = -1;
}
//==========================================================================
//
// D3DFB :: EndBatch
//
// Draws whichever type of primitive is currently being batched.
//
//==========================================================================
void D3DFB::EndBatch()
{
if (BatchType == BATCH_Quads)
{
EndQuadBatch();
}
else if (BatchType == BATCH_Lines)
{
EndLineBatch();
}
}
//==========================================================================
//
// D3DFB :: SetStyle
//
// Patterned after R_SetPatchStyle.
//
//==========================================================================
bool D3DFB::SetStyle(D3DTex *tex, DrawParms &parms, D3DCOLOR &color0, D3DCOLOR &color1, BufferedQuad &quad)
{
D3DFORMAT fmt = tex->GetTexFormat();
FRenderStyle style = parms.style;
float alpha;
bool stencilling;
if (style.Flags & STYLEF_TransSoulsAlpha)
{
alpha = transsouls;
}
else if (style.Flags & STYLEF_Alpha1)
{
alpha = 1;
}
else
{
alpha = clamp<fixed_t> (parms.alpha, 0, FRACUNIT) / 65536.f;
}
// FIXME: Fuzz effect is not written
if (style.BlendOp == STYLEOP_FuzzOrAdd || style.BlendOp == STYLEOP_Fuzz)
{
style.BlendOp = STYLEOP_Add;
}
else if (style.BlendOp == STYLEOP_FuzzOrSub)
{
style.BlendOp = STYLEOP_Sub;
}
else if (style.BlendOp == STYLEOP_FuzzOrRevSub)
{
style.BlendOp = STYLEOP_RevSub;
}
stencilling = false;
quad.Palette = NULL;
switch (style.BlendOp)
{
default:
case STYLEOP_Add: quad.BlendOp = D3DBLENDOP_ADD; break;
case STYLEOP_Sub: quad.BlendOp = D3DBLENDOP_SUBTRACT; break;
case STYLEOP_RevSub: quad.BlendOp = D3DBLENDOP_REVSUBTRACT; break;
case STYLEOP_None: return false;
}
quad.SrcBlend = GetStyleAlpha(style.SrcAlpha);
quad.DestBlend = GetStyleAlpha(style.DestAlpha);
if (style.Flags & STYLEF_InvertOverlay)
{
// Only the overlay color is inverted, not the overlay alpha.
parms.colorOverlay = D3DCOLOR_ARGB(APART(parms.colorOverlay),
255 - RPART(parms.colorOverlay), 255 - GPART(parms.colorOverlay),
255 - BPART(parms.colorOverlay));
}
SetColorOverlay(parms.colorOverlay, alpha, color0, color1);
if (style.Flags & STYLEF_ColorIsFixed)
{
if (style.Flags & STYLEF_InvertSource)
{ // Since the source color is a constant, we can invert it now
// without spending time doing it in the shader.
parms.fillcolor = D3DCOLOR_XRGB(255 - RPART(parms.fillcolor),
255 - GPART(parms.fillcolor), 255 - BPART(parms.fillcolor));
}
// Set up the color mod to replace the color from the image data.
color0 = (color0 & D3DCOLOR_RGBA(0,0,0,255)) | (parms.fillcolor & D3DCOLOR_RGBA(255,255,255,0));
color1 &= D3DCOLOR_RGBA(0,0,0,255);
if (style.Flags & STYLEF_RedIsAlpha)
{
// Note that if the source texture is paletted, the palette is ignored.
quad.Flags = 0;
quad.ShaderNum = BQS_RedToAlpha;
}
else if (fmt == D3DFMT_L8)
{
quad.Flags = BQF_GamePalette;
quad.ShaderNum = BQS_PalTex;
}
else
{
quad.Flags = 0;
quad.ShaderNum = BQS_Plain;
}
}
else
{
if (style.Flags & STYLEF_RedIsAlpha)
{
quad.Flags = 0;
quad.ShaderNum = BQS_RedToAlpha;
}
else if (fmt == D3DFMT_L8)
{
if (parms.remap != NULL)
{
quad.Flags = BQF_CustomPalette;
quad.Palette = reinterpret_cast<D3DPal *>(parms.remap->GetNative());
quad.ShaderNum = BQS_PalTex;
}
else if (tex->IsGray)
{
quad.Flags = 0;
quad.ShaderNum = BQS_Plain;
}
else
{
quad.Flags = BQF_GamePalette;
quad.ShaderNum = BQS_PalTex;
}
}
else
{
quad.Flags = 0;
quad.ShaderNum = BQS_Plain;
}
if (style.Flags & STYLEF_InvertSource)
{
quad.Flags |= BQF_InvertSource;
}
}
// For unmasked images, force the alpha from the image data to be ignored.
if (!parms.masked)
{
color0 = (color0 & D3DCOLOR_RGBA(255, 255, 255, 0)) | D3DCOLOR_COLORVALUE(0, 0, 0, alpha);
color1 &= D3DCOLOR_RGBA(255, 255, 255, 0);
// If our alpha is one and we are doing normal adding, then we can turn the blend off completely.
if (quad.BlendOp == D3DBLENDOP_ADD &&
((alpha == 1 && quad.SrcBlend == D3DBLEND_SRCALPHA) || quad.SrcBlend == D3DBLEND_ONE) &&
((alpha == 1 && quad.DestBlend == D3DBLEND_INVSRCALPHA) || quad.DestBlend == D3DBLEND_ZERO))
{
quad.BlendOp = D3DBLENDOP(0);
}
quad.Flags |= BQF_DisableAlphaTest;
}
return true;
}
D3DBLEND D3DFB::GetStyleAlpha(int type)
{
switch (type)
{
case STYLEALPHA_Zero: return D3DBLEND_ZERO;
case STYLEALPHA_One: return D3DBLEND_ONE;
case STYLEALPHA_Src: return D3DBLEND_SRCALPHA;
case STYLEALPHA_InvSrc: return D3DBLEND_INVSRCALPHA;
default: return D3DBLEND_ZERO;
}
}
void D3DFB::SetColorOverlay(DWORD color, float alpha, D3DCOLOR &color0, D3DCOLOR &color1)
{
if (APART(color) != 0)
{
int a = APART(color) * 256 / 255;
color0 = D3DCOLOR_RGBA(
(RPART(color) * a) >> 8,
(GPART(color) * a) >> 8,
(BPART(color) * a) >> 8,
0);
a = 256 - a;
color1 = D3DCOLOR_RGBA(a, a, a, int(alpha * 255));
}
else
{
color0 = 0;
color1 = D3DCOLOR_COLORVALUE(1, 1, 1, alpha);
}
}
void D3DFB::EnableAlphaTest(BOOL enabled)
{
if (enabled != AlphaTestEnabled)
{
AlphaTestEnabled = enabled;
D3DDevice->SetRenderState(D3DRS_ALPHATESTENABLE, enabled);
}
}
void D3DFB::SetAlphaBlend(D3DBLENDOP op, D3DBLEND srcblend, D3DBLEND destblend)
{
if (op == 0)
{ // Disable alpha blend
if (AlphaBlendEnabled)
{
AlphaBlendEnabled = FALSE;
D3DDevice->SetRenderState(D3DRS_ALPHABLENDENABLE, FALSE);
}
}
else
{ // Enable alpha blend
assert(srcblend != 0);
assert(destblend != 0);
if (!AlphaBlendEnabled)
{
AlphaBlendEnabled = TRUE;
D3DDevice->SetRenderState(D3DRS_ALPHABLENDENABLE, TRUE);
}
if (AlphaBlendOp != op)
{
AlphaBlendOp = op;
D3DDevice->SetRenderState(D3DRS_BLENDOP, op);
}
if (AlphaSrcBlend != srcblend)
{
AlphaSrcBlend = srcblend;
D3DDevice->SetRenderState(D3DRS_SRCBLEND, srcblend);
}
if (AlphaDestBlend != destblend)
{
AlphaDestBlend = destblend;
D3DDevice->SetRenderState(D3DRS_DESTBLEND, destblend);
}
}
}
void D3DFB::SetConstant(int cnum, float r, float g, float b, float a)
{
if (Constant[cnum][0] != r ||
Constant[cnum][1] != g ||
Constant[cnum][2] != b ||
Constant[cnum][3] != a)
{
Constant[cnum][0] = r;
Constant[cnum][1] = g;
Constant[cnum][2] = b;
Constant[cnum][3] = a;
D3DDevice->SetPixelShaderConstantF(cnum, Constant[cnum], 1);
}
}
void D3DFB::SetPixelShader(IDirect3DPixelShader9 *shader)
{
if (CurPixelShader != shader)
{
CurPixelShader = shader;
D3DDevice->SetPixelShader(shader);
}
}
void D3DFB::SetTexture(int tnum, IDirect3DTexture9 *texture)
{
if (Texture[tnum] != texture)
{
Texture[tnum] = texture;
D3DDevice->SetTexture(tnum, texture);
}
}
CVAR(Float, pal, 0.5f, 0)
CVAR(Float, pc, 255.f, 0)
void D3DFB::SetPaletteTexture(IDirect3DTexture9 *texture, int count, D3DCOLOR border_color)
{
if (SM14)
{
// Shader Model 1.4 only uses 256-color palettes.
SetConstant(2, 1.f, 0.5f / 256.f, 0, 0);
if (border_color != 0 && CurBorderColor != border_color)
{
CurBorderColor = border_color;
D3DDevice->SetSamplerState(1, D3DSAMP_BORDERCOLOR, border_color);
}
}
else
{
// The pixel shader receives color indexes in the range [0.0,1.0].
// The palette texture is also addressed in the range [0.0,1.0],
// HOWEVER the coordinate 1.0 is the right edge of the texture and
// not actually the texture itself. We need to scale and shift
// the palette indexes so they lie exactly in the center of each
// texel. For a normal palette with 256 entries, that means the
// range we use should be [0.5,255.5], adjusted so the coordinate
// is still within [0.0,1.0].
//
// The constant register c2 is used to hold the multiplier in the
// x part and the adder in the y part.
float fcount = 1 / float(count);
SetConstant(2, pc * fcount, pal * fcount, 0, 0);
}
SetTexture(1, texture);
}
void D3DFB::SetPalTexBilinearConstants(PackingTexture *tex)
{
float con[8];
// Don't bother doing anything if the constants won't be used.
if (PalTexShader == PalTexBilinearShader)
{
return;
}
con[0] = float(tex->Width);
con[1] = float(tex->Height);
con[2] = 0;
con[3] = 1 / con[0];
con[4] = 0;
con[5] = 1 / con[1];
con[6] = con[5];
con[7] = con[3];
D3DDevice->SetPixelShaderConstantF(3, con, 2);
}