pcsx2/plugins/GSdx/GSRendererCL.h

273 lines
6.3 KiB
C++

/*
* Copyright (C) 2007-2009 Gabest
* http://www.gabest.org
*
* This Program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2, or (at your option)
* any later version.
*
* This Program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with GNU Make; see the file COPYING. If not, write to
* the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA USA.
* http://www.gnu.org/copyleft/gpl.html
*
*/
#pragma once
#include "GSRenderer.h"
#ifdef ENABLE_OPENCL
struct alignas(32) GSVertexCL
{
GSVector4 p, t;
};
class GSRendererCL : public GSRenderer
{
static GSVector4 m_pos_scale;
typedef void (GSRendererCL::*ConvertVertexBufferPtr)(GSVertexCL* RESTRICT dst, const GSVertex* RESTRICT src, size_t count);
ConvertVertexBufferPtr m_cvb[4][2][2];
template<uint32 primclass, uint32 tme, uint32 fst>
void ConvertVertexBuffer(GSVertexCL* RESTRICT dst, const GSVertex* RESTRICT src, size_t count);
union PrimSelector
{
struct
{
uint32 prim:2; // 0
};
uint32 key;
operator uint32() const { return key; }
};
union TileSelector
{
struct
{
uint32 prim:2; // 0
uint32 mode:2; // 2
uint32 clear:1; // 4
};
uint32 key;
operator uint32() const { return key; }
};
union TFXSelector
{
struct
{
uint32 fpsm:3; // 0
uint32 zpsm:3; // 3
uint32 ztst:2; // 6 (0: off, 1: write, 2: test (ge), 3: test (g))
uint32 atst:3; // 8
uint32 afail:2; // 11
uint32 iip:1; // 13
uint32 tfx:3; // 14
uint32 tcc:1; // 17
uint32 fst:1; // 18
uint32 ltf:1; // 19
uint32 tlu:1; // 20
uint32 fge:1; // 21
uint32 date:1; // 22
uint32 abe:1; // 23
uint32 aba:2; // 24
uint32 abb:2; // 26
uint32 abc:2; // 28
uint32 abd:2; // 30
uint32 pabe:1; // 32
uint32 aa1:1; // 33
uint32 fwrite:1; // 34
uint32 ftest:1; // 35
uint32 rfb:1; // 36
uint32 zwrite:1; // 37
uint32 ztest:1; // 38
uint32 rzb:1; // 39
uint32 wms:2; // 40
uint32 wmt:2; // 42
uint32 datm:1; // 44
uint32 colclamp:1; // 45
uint32 fba:1; // 46
uint32 dthe:1; // 47
uint32 prim:2; // 48
uint32 lcm:1; // 50
uint32 mmin:2; // 51
uint32 noscissor:1; // 53
uint32 tpsm:4; // 54
uint32 aem:1; // 58
uint32 merged:1; // 59
// TODO
};
struct
{
uint32 _pad1:24;
uint32 ababcd:8;
uint32 _pad2:2;
uint32 fb:2;
uint32 _pad3:1;
uint32 zb:2;
};
struct
{
uint32 lo;
uint32 hi;
};
uint64 key;
operator uint64() const { return key; }
bool IsSolidRect() const
{
return prim == GS_SPRITE_CLASS
&& iip == 0
&& tfx == TFX_NONE
&& abe == 0
&& ztst <= 1
&& atst <= 1
&& date == 0
&& fge == 0;
}
};
struct alignas(32) TFXParameter
{
GSVector4i scissor;
GSVector4i dimx; // 4x4 signed char
TFXSelector sel;
uint32 fbp, zbp, bw;
uint32 fm, zm;
uint32 fog; // rgb
uint8 aref, afix;
uint8 ta0, ta1;
uint32 tbp[7], tbw[7];
int minu, maxu, minv, maxv; // umsk, ufix, vmsk, vfix
int lod; // lcm == 1
int mxl;
float l; // TEX1.L * -0x10000
float k; // TEX1.K * 0x10000
uint32 clut[256];
};
class TFXJob
{
public:
struct { int x, y, z, w; } rect;
TFXSelector sel;
uint32 ib_start;
uint32 prim_count;
GSVector4i* src_pages; // read by any texture level
GSVector4i* dst_pages; // f/z writes to it
uint32 fbp, zbp, bw;
uint32 fpsm, zpsm, tpsm;
#ifdef DEBUG
TFXParameter* pb;
#endif
TFXJob();
virtual ~TFXJob();
GSVector4i* GetSrcPages();
GSVector4i* GetDstPages();
};
class CL
{
std::string kernel_str;
std::map<uint32, cl::Kernel> prim_map;
std::map<uint32, cl::Kernel> tile_map;
std::map<uint64, cl::Kernel> tfx_map;
cl::Kernel Build(const char* entry, std::ostringstream& opt);
void AddDefs(std::ostringstream& opt);
public:
std::vector<OCLDeviceDesc> devs;
cl::Context context;
cl::CommandQueue queue[3];
cl::Buffer vm;
cl::Buffer tex;
struct { cl::Buffer buff[2]; size_t head, tail, size; unsigned char* ptr; void* mapped_ptr; } vb, ib, pb;
cl::Buffer env;
cl::CommandQueue* wq;
int wqidx;
uint32 WIs;
int version;
public:
CL();
virtual ~CL();
cl::Kernel& GetPrimKernel(const PrimSelector& sel);
cl::Kernel& GetTileKernel(const TileSelector& sel);
cl::Kernel& GetTFXKernel(const TFXSelector& sel);
void Map();
void Unmap();
};
CL m_cl;
std::list<std::shared_ptr<TFXJob>> m_jobs;
uint32 m_vb_start;
uint32 m_vb_count;
uint32 m_pb_start;
uint32 m_pb_count;
bool m_synced;
void Enqueue();
void EnqueueTFX(std::list<std::shared_ptr<TFXJob>>& jobs, uint32 bin_count, const cl_uchar4& bin_dim);
void JoinTFX(std::list<std::shared_ptr<TFXJob>>& jobs);
bool UpdateTextureCache(TFXJob* job);
void InvalidateTextureCache(TFXJob* job);
void UsePages(uint32* pages);
void ReleasePages(uint32* pages);
static void CL_CALLBACK ReleasePageEvent(cl_event event, cl_int event_command_exec_status, void* user_data);
protected:
GSTexture* m_texture[2];
uint8* m_output;
GSVector4i m_rw_pages[2][4]; // pages that may be read or modified by the rendering queue, f/z rw, tex r
GSVector4i m_tc_pages[4]; // invalidated texture cache pages (split this into 8:24?) // TODO: this should be block level, too many overlaps inside pages with render targets
GSVector4i m_tmp_pages[4];
uint32 m_tmp_pages2[MAX_PAGES + 1];
std::array<std::atomic<uint32>, 512> m_rw_pages_rendering; // pages that are currently in-use
void Reset();
void VSync(int field);
void ResetDevice();
GSTexture* GetOutput(int i, int& y_offset);
void Draw();
void Sync(int reason);
void InvalidateVideoMem(const GIFRegBITBLTBUF& BITBLTBUF, const GSVector4i& r);
void InvalidateLocalMem(const GIFRegBITBLTBUF& BITBLTBUF, const GSVector4i& r, bool clut = false);
bool SetupParameter(TFXJob* job, TFXParameter* pb, GSVertexCL* vertex, size_t vertex_count, const uint32* index, size_t index_count);
public:
static void InitVectors();
GSRendererCL();
virtual ~GSRendererCL();
};
#endif