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https://github.com/RetroDECK/Supermodel.git
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399 lines
11 KiB
C
399 lines
11 KiB
C
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/**
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** Supermodel
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** A Sega Model 3 Arcade Emulator.
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** Copyright 2011 Bart Trzynadlowski
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**
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** This file is part of Supermodel.
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**
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** Supermodel is free software: you can redistribute it and/or modify it under
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** the terms of the GNU General Public License as published by the Free
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** Software Foundation, either version 3 of the License, or (at your option)
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** any later version.
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**
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** Supermodel is distributed in the hope that it will be useful, but WITHOUT
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** ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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** FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
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** more details.
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**
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** You should have received a copy of the GNU General Public License along
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** with Supermodel. If not, see <http://www.gnu.org/licenses/>.
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**/
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/*
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* Real3D.h
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*
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* Header file defining the CReal3D class: the Model 3's Real3D-based graphics
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* hardware.
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*/
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#ifndef INCLUDED_REAL3D_H
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#define INCLUDED_REAL3D_H
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/*
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* CReal3D:
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*
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* Model 3 Real3D-based graphics hardware. This class manages the hardware
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* state and drives the rendering process (scene database traversal). Actual
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* rasterization and matrix transformations are carried out by the graphics
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* engine.
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*/
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class CReal3D: public CPCIDevice
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{
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public:
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/*
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* SaveState(SaveState):
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*
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* Saves an image of the current device state.
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*
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* Parameters:
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* SaveState Block file to save state information to.
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*/
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void SaveState(CBlockFile *SaveState);
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/*
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* LoadState(SaveState):
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*
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* Loads and a state image.
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*
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* Parameters:
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* SaveState Block file to load state information from.
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*/
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void LoadState(CBlockFile *SaveState);
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/*
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* RenderFrame(void):
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*
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* Traverses the scene database and renders a frame. Must be called after
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* BeginFrame() but before EndFrame().
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*/
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void RenderFrame(void);
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/*
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* BeginFrame(void):
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*
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* Prepare to render a new frame. Must be called once per frame prior to
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* drawing anything.
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*/
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void BeginFrame(void);
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/*
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* EndFrame(void):
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*
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* Signals the end of rendering for this frame. Must be called last during
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* the frame.
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*/
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void EndFrame(void);
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/*
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* Flush(void):
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*
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* Triggers the beginning of a new frame. All textures in the texture FIFO
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* are uploaded and the FIFO is reset. On the real device, this seems to
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* cause a frame to be rendered as well but this is not performed here.
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*
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* This should be called when the command port is written.
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*/
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void Flush(void);
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/*
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* ReadDMARegister8(reg):
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* ReadDMARegister32(reg):
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*
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* Reads from a DMA register. Multi-byte reads are returned as little
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* endian and must be flipped if called by a big endian device.
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*
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* Parameters:
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* reg Register number to read from (0-0xFF only).
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*
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* Returns:
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* Data of the requested size, in little endian.
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*/
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UINT8 ReadDMARegister8(unsigned reg);
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UINT32 ReadDMARegister32(unsigned reg);
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/*
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* WriteDMARegister8(reg, data):
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* WriteDMARegister32(reg, data);
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*
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* Write to a DMA register. Multi-byte writes by big endian devices must be
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* byte reversed (this is a little endian device).
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*
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* Parameters:
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* reg Register number to read from (0-0xFF only).
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* data Data to write.
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*/
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void WriteDMARegister8(unsigned reg, UINT8 data);
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void WriteDMARegister32(unsigned reg, UINT32 data);
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/*
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* WriteLowCullingRAM(addr, data):
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*
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* Writes the low culling RAM region. Because this is a little endian
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* device, big endian devices/buses have to take care to manually reverse
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* the data before writing.
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*
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* Parameters:
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* addr Word (32-bit) aligned address ranging from 0 to 0x3FFFFC.
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* User must ensure address is properly clamped.
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* data Data to write.
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*/
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void WriteLowCullingRAM(UINT32 addr, UINT32 data);
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/*
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* WriteHighCullingRAM(addr, data):
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*
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* Writes the high culling RAM region. Because this is a little endian
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* device, big endian devices/buses have to take care to manually reverse
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* the data before writing.
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*
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* Parameters:
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* addr Word (32-bit) aligned address ranging from 0 to 0xFFFFC.
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* User must ensure address is properly clamped.
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* data Data to write.
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*/
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void WriteHighCullingRAM(UINT32 addr, UINT32 data);
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/*
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* WriteTextureFIFO(data):
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*
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* Writes to the 1MB texture FIFO. Because this is a little endian device,
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* big endian devices/buses have to take care to manually reverse the data
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* before writing.
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*
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* Parameters:
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* data Data to write.
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*/
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void WriteTextureFIFO(UINT32 data);
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/*
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* WriteTexturePort(reg, data):
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*
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* Writes to the VROM texture ports. Register 0 is the word-granular VROM
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* address of the texture, register 4 is the texture information header,
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* and register 8 is the size of the texture in words.
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*
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* Parameters:
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* reg Register number: must be 0, 4, 8, 0xC, 0x10, or 0x14 only.
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* data The 32-bit word to write to the register. A write to
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* register 8 triggers the upload.
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*/
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void WriteTexturePort(unsigned reg, UINT32 data);
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/*
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* WritePolygonRAM(addr, data):
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*
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* Writes the polygon RAM region. Because this is a little endian device,
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* big endian devices/buses have to take care to manually reverse the data
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* before writing.
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*
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* Parameters:
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* addr Word (32-bit) aligned address ranging from 0 to 0x3FFFFC.
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* User must ensure address is properly clamped.
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* data Data to write.
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*/
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void WritePolygonRAM(UINT32 addr, UINT32 data);
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/*
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* ReadTAP(void):
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*
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* Reads the JTAG Test Access Port.
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*
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* Returns:
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* The TDO bit (either 1 or 0).
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*/
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unsigned ReadTAP(void);
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/*
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* void WriteTAP(tck, tms, tdi, trst):
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*
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* Writes to the JTAG TAP. State changes only occur on the rising edge of
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* the clock (tck = 1). Each of the inputs is a single bit only and must be
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* either 0 or 1, or the code will fail.
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*
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* Parameters:
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* tck Clock.
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* tms Test mode select.
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* tdi Serial data input. Must be 0 or 1 only!
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* trst Reset.
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*/
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void WriteTAP(unsigned tck, unsigned tms, unsigned tdi, unsigned trst);
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/*
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* ReadRegister(reg):
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*
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* Reads one of the status registers.
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*
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* Parameters:
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* reg Register offset (32-bit aligned). From 0x00 to 0x3C.
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*
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* Returns:
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* The 32-bit status register.
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*/
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UINT32 ReadRegister(unsigned reg);
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/*
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* ReadPCIConfigSpace(device, reg, bits, offset):
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*
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* Reads a PCI configuration space register. See CPCIDevice definition for
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* more details.
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*
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* Parameters:
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* device Device number (ignored, not needed).
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* reg Register number.
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* bits Bit width of access (8, 16, or 32 only).;
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* offset Byte offset within register, aligned to the specified bit
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* width, and offset from the 32-bit aligned base of the
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* register number.
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*
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* Returns:
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* Register data.
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*/
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UINT32 ReadPCIConfigSpace(unsigned device, unsigned reg, unsigned bits, unsigned width);
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/*
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* WritePCIConfigSpace(device, reg, bits, offset, data):
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*
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* Writes to a PCI configuration space register. See CPCIDevice definition
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* for more details.
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*
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* Parameters:
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* device Device number (ignored, not needed).
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* reg Register number.
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* bits Bit width of access (8, 16, or 32 only).
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* offset Byte offset within register, aligned to the specified bit
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* width, and offset from the 32-bit aligned base of the
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* register number.
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* data Data.
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*/
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void WritePCIConfigSpace(unsigned device, unsigned reg, unsigned bits, unsigned width, UINT32 data);
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/*
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* Reset(void):
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*
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* Resets the Real3D device. Must be called before reading/writing the
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* device.
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*/
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void Reset(void);
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/*
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* AttachRenderer(render2DPtr):
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*
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* Attaches a 3D renderer for the Real3D to use. This function will
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* immediately pass along the information that a CRender3D object needs to
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* work with.
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*
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* Parameters:
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* Render3DPtr Pointer to a 3D renderer object.
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*/
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void AttachRenderer(CRender3D *Render3DPtr);
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/*
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* SetStep(stepID):
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*
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* Sets the Model 3 hardware stepping, which also determines the Real3D
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* functionality. The default is Step 1.0. This should be called prior to
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* any other emulation functions and after Init().
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*
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* Parameters:
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* stepID 0x10 for Step 1.0, 0x15 for Step 1.5, 0x20 for Step 2.0,
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* or 0x21 for Step 2.1. Anything else defaults to 1.0.
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*/
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void SetStep(int stepID);
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/*
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* Init(vromPtr, BusObjectPtr, IRQObjectPtr, dmaIRQBit):
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*
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* One-time initialization of the context. Must be called prior to all
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* other members. Connects the Real3D device to its video ROM and allocates
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* memory for RAM regions.
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*
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* Parameters:
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* vromPtr A pointer to video ROM (with each 32-bit word in
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* its native little endian format).
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* BusObjectPtr Pointer to the bus that the 53C810 has control
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* over. Used to read/write memory.
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* IRQObjectPtr Pointer to the IRQ controller. Used to trigger SCSI
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* and DMA interrupts.
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* dmaIRQBit IRQ identifier bit to pass along to IRQ controller
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* when asserting interrupts.
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*
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* Returns:
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* OKAY if successful otherwise FAIL (not enough memory). Prints own
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* errors.
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*/
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BOOL Init(const UINT8 *vromPtr, CBus *BusObjectPtr, CIRQ *IRQObjectPtr, unsigned dmaIRQBit);
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/*
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* CReal3D(void):
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* ~CReal3D(void):
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*
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* Constructor and destructor.
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*/
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CReal3D(void);
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~CReal3D(void);
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private:
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// Private member functions
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void DMACopy(void);
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void InsertBit(UINT8 *buf, unsigned bitNum, unsigned bit);
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void InsertID(UINT32 id, unsigned startBit);
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unsigned Shift(UINT8 *data, unsigned numBits);
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void StoreTexture(unsigned xPos, unsigned yPos, unsigned width, unsigned height, UINT16 *texData, unsigned bytesPerTexel);
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void UploadTexture(UINT32 header, UINT16 *texData);
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// Renderer attached to the Real3D
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CRender3D *Render3D;
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// Data passed from Model 3 object
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const UINT32 *vrom; // Video ROM
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int step; // hardware stepping (as in GameInfo structure)
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UINT32 pciID; // PCI vendor and device ID
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// Real3D memory
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UINT8 *memoryPool; // all memory allocated here
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UINT32 *cullingRAMLo; // 4MB of culling RAM at 8C000000
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UINT32 *cullingRAMHi; // 1MB of culling RAM at 8E000000
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UINT32 *polyRAM; // 4MB of polygon RAM at 98000000
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UINT16 *textureRAM; // 8MB of internal texture RAM
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UINT32 *textureFIFO; // 1MB texture FIFO at 0x94000000
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unsigned fifoIdx; // index into texture FIFO
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UINT32 vromTextureAddr; // VROM texture port address data
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UINT32 vromTextureHeader; // VROM texture port header data
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// Big endian bus object for DMA memory access
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CBus *Bus;
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// IRQ handling
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CIRQ *IRQ; // IRQ controller
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unsigned dmaIRQ; // IRQ bit to use when calling IRQ handler
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// DMA device
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UINT32 dmaSrc;
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UINT32 dmaDest;
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UINT32 dmaLength;
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UINT32 dmaData;
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UINT32 dmaUnknownReg;
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UINT8 dmaStatus;
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UINT8 dmaConfig;
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// Command port
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BOOL commandPortWritten;
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// Status and command registers
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UINT32 status;
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// JTAG Test Access Port
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UINT64 tapCurrentInstruction; // latched IR (not always equal to IR)
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UINT64 tapIR; // instruction register (46 bits)
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UINT8 tapID[32]; // ASIC ID code data buffer
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unsigned tapIDSize; // size of ID data in bits
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unsigned tapTDO; // bit shifted out to TDO
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int tapState; // current state
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};
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#endif // INCLUDED_REAL3D_H
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