dolphin/Source/Core/VideoCommon/BPFunctions.cpp

240 lines
6.8 KiB
C++
Raw Normal View History

// Copyright 2009 Dolphin Emulator Project
2015-05-17 17:08:10 -06:00
// Licensed under GPLv2+
// Refer to the license.txt file included.
#include "Common/CommonTypes.h"
#include "Common/Logging/Log.h"
#include "VideoCommon/BPFunctions.h"
#include "VideoCommon/BPMemory.h"
#include "VideoCommon/RenderBase.h"
#include "VideoCommon/VertexManagerBase.h"
#include "VideoCommon/VideoCommon.h"
#include "VideoCommon/VideoConfig.h"
namespace BPFunctions
{
// ----------------------------------------------
// State translation lookup tables
// Reference: Yet Another GameCube Documentation
// ----------------------------------------------
void FlushPipeline()
{
g_vertex_manager->Flush();
}
void SetGenerationMode()
{
g_renderer->SetGenerationMode();
}
void SetScissor()
{
/* NOTE: the minimum value here for the scissor rect and offset is -342.
* GX internally adds on an offset of 342 to both the offset and scissor
* coords to ensure that the register was always unsigned.
*
* The code that was here before tried to "undo" this offset, but
* since we always take the difference, the +342 added to both
* sides cancels out. */
/* The scissor offset is always even, so to save space, the scissor offset
* register is scaled down by 2. So, if somebody calls
* GX_SetScissorBoxOffset(20, 20); the registers will be set to 10, 10. */
const int xoff = bpmem.scissorOffset.x * 2;
const int yoff = bpmem.scissorOffset.y * 2;
EFBRectangle rc(bpmem.scissorTL.x - xoff, bpmem.scissorTL.y - yoff, bpmem.scissorBR.x - xoff + 1,
bpmem.scissorBR.y - yoff + 1);
if (rc.left < 0)
rc.left = 0;
if (rc.top < 0)
rc.top = 0;
if (rc.right > EFB_WIDTH)
rc.right = EFB_WIDTH;
if (rc.bottom > EFB_HEIGHT)
rc.bottom = EFB_HEIGHT;
if (rc.left > rc.right)
rc.right = rc.left;
if (rc.top > rc.bottom)
rc.bottom = rc.top;
g_renderer->SetScissorRect(rc);
}
void SetDepthMode()
{
g_renderer->SetDepthMode();
}
void SetBlendMode()
{
g_renderer->SetBlendMode(false);
}
void SetLogicOpMode()
{
g_renderer->SetLogicOpMode();
}
void SetColorMask()
{
g_renderer->SetColorMask();
}
/* Explanation of the magic behind ClearScreen:
There's numerous possible formats for the pixel data in the EFB.
However, in the HW accelerated backends we're always using RGBA8
for the EFB format, which causes some problems:
- We're using an alpha channel although the game doesn't
- If the actual EFB format is RGBA6_Z24 or R5G6B5_Z16, we are using more bits per channel than the
native HW
To properly emulate the above points, we're doing the following:
(1)
- disable alpha channel writing of any kind of rendering if the actual EFB format doesn't use an
alpha channel
- NOTE: Always make sure that the EFB has been cleared to an alpha value of 0xFF in this case!
- Same for color channels, these need to be cleared to 0x00 though.
(2)
- convert the RGBA8 color to RGBA6/RGB8/RGB565 and convert it to RGBA8 again
- convert the Z24 depth value to Z16 and back to Z24
*/
void ClearScreen(const EFBRectangle& rc)
{
bool colorEnable = (bpmem.blendmode.colorupdate != 0);
bool alphaEnable = (bpmem.blendmode.alphaupdate != 0);
bool zEnable = (bpmem.zmode.updateenable != 0);
auto pixel_format = bpmem.zcontrol.pixel_format;
// (1): Disable unused color channels
if (pixel_format == PEControl::RGB8_Z24 || pixel_format == PEControl::RGB565_Z16 ||
pixel_format == PEControl::Z24)
{
alphaEnable = false;
}
if (colorEnable || alphaEnable || zEnable)
{
u32 color = (bpmem.clearcolorAR << 16) | bpmem.clearcolorGB;
u32 z = bpmem.clearZValue;
// (2) drop additional accuracy
if (pixel_format == PEControl::RGBA6_Z24)
{
color = RGBA8ToRGBA6ToRGBA8(color);
}
else if (pixel_format == PEControl::RGB565_Z16)
{
color = RGBA8ToRGB565ToRGBA8(color);
z = Z24ToZ16ToZ24(z);
}
g_renderer->ClearScreen(rc, colorEnable, alphaEnable, zEnable, color, z);
}
}
void OnPixelFormatChange()
{
int convtype = -1;
// TODO : Check for Z compression format change
// When using 16bit Z, the game may enable a special compression format which we need to handle
// If we don't, Z values will be completely screwed up, currently only Star Wars:RS2 uses that.
/*
* When changing the EFB format, the pixel data won't get converted to the new format but stays
* the same.
* Since we are always using an RGBA8 buffer though, this causes issues in some games.
* Thus, we reinterpret the old EFB data with the new format here.
*/
if (!g_ActiveConfig.bEFBEmulateFormatChanges)
return;
auto old_format = g_renderer->GetPrevPixelFormat();
auto new_format = bpmem.zcontrol.pixel_format;
// no need to reinterpret pixel data in these cases
if (new_format == old_format || old_format == PEControl::INVALID_FMT)
goto skip;
// Check for pixel format changes
switch (old_format)
{
case PEControl::RGB8_Z24:
case PEControl::Z24:
// Z24 and RGB8_Z24 are treated equal, so just return in this case
if (new_format == PEControl::RGB8_Z24 || new_format == PEControl::Z24)
goto skip;
if (new_format == PEControl::RGBA6_Z24)
convtype = 0;
else if (new_format == PEControl::RGB565_Z16)
convtype = 1;
break;
case PEControl::RGBA6_Z24:
if (new_format == PEControl::RGB8_Z24 || new_format == PEControl::Z24)
convtype = 2;
else if (new_format == PEControl::RGB565_Z16)
convtype = 3;
break;
case PEControl::RGB565_Z16:
if (new_format == PEControl::RGB8_Z24 || new_format == PEControl::Z24)
convtype = 4;
else if (new_format == PEControl::RGBA6_Z24)
convtype = 5;
break;
default:
break;
}
if (convtype == -1)
{
ERROR_LOG(VIDEO, "Unhandled EFB format change: %d to %d", static_cast<int>(old_format),
static_cast<int>(new_format));
goto skip;
}
g_renderer->ReinterpretPixelData(convtype);
skip:
DEBUG_LOG(VIDEO, "pixelfmt: pixel=%d, zc=%d", static_cast<int>(new_format),
static_cast<int>(bpmem.zcontrol.zformat));
g_renderer->StorePixelFormat(new_format);
}
void SetInterlacingMode(const BPCmd& bp)
{
// TODO
switch (bp.address)
{
case BPMEM_FIELDMODE:
{
// SDK always sets bpmem.lineptwidth.lineaspect via BPMEM_LINEPTWIDTH
// just before this cmd
const char* action[] = {"don't adjust", "adjust"};
DEBUG_LOG(VIDEO, "BPMEM_FIELDMODE texLOD:%s lineaspect:%s", action[bpmem.fieldmode.texLOD],
action[bpmem.lineptwidth.lineaspect]);
}
break;
case BPMEM_FIELDMASK:
{
// Determines if fields will be written to EFB (always computed)
const char* action[] = {"skip", "write"};
DEBUG_LOG(VIDEO, "BPMEM_FIELDMASK even:%s odd:%s", action[bpmem.fieldmask.even],
action[bpmem.fieldmask.odd]);
}
break;
default:
ERROR_LOG(VIDEO, "SetInterlacingMode default");
break;
}
}
};