dolphin/Source/Core/DSPCore/Src/DspIntBranch.cpp

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// Copyright (C) 2003-2009 Dolphin Project.
// 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, version 2.0.
// 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 2.0 for more details.
// A copy of the GPL 2.0 should have been included with the program.
// If not, see http://www.gnu.org/licenses/
// Official SVN repository and contact information can be found at
// http://code.google.com/p/dolphin-emu/
// Additional copyrights go to Duddie and Tratax (c) 2004
#include "DSPInterpreter.h"
#include "DSPCore.h"
#include "DSPMemoryMap.h"
#include "DSPStacks.h"
#include "DSPIntCCUtil.h"
#include "DSPIntUtil.h"
namespace DSPInterpreter {
// Generic call implementation
// CALLcc addressA
// 0000 0010 1011 cccc
// aaaa aaaa aaaa aaaa
// Call function if condition cc has been met. Push program counter of
// instruction following "call" to $st0. Set program counter to address
// represented by value that follows this "call" instruction.
void call(const UDSPInstruction& opc)
{
// must be outside the if.
u16 dest = dsp_fetch_code();
if (CheckCondition(opc.hex & 0xf))
{
dsp_reg_store_stack(DSP_STACK_C, g_dsp.pc);
g_dsp.pc = dest;
}
}
// Generic callr implementation
// CALLRcc $R
// 0001 0111 rrr1 cccc
// Call function if condition cc has been met. Push program counter of
// instruction following "call" to call stack $st0. Set program counter to
// register $R.
void callr(const UDSPInstruction& opc)
{
if (CheckCondition(opc.hex & 0xf))
{
u8 reg = (opc.hex >> 5) & 0x7;
u16 addr = dsp_op_read_reg(reg);
dsp_reg_store_stack(DSP_STACK_C, g_dsp.pc);
g_dsp.pc = addr;
}
}
// Generic if implementation
// IFcc
// 0000 0010 0111 cccc
// Execute following opcode if the condition has been met.
void ifcc(const UDSPInstruction& opc)
{
if (!CheckCondition(opc.hex & 0xf))
{
// skip the next opcode - we have to lookup its size.
g_dsp.pc += opSize[dsp_peek_code()];
}
}
// Generic jmp implementation
// Jcc addressA
// 0000 0010 1001 cccc
// aaaa aaaa aaaa aaaa
// Jump to addressA if condition cc has been met. Set program counter to
// address represented by value that follows this "jmp" instruction.
void jcc(const UDSPInstruction& opc)
{
u16 dest = dsp_fetch_code();
if (CheckCondition(opc.hex & 0xf))
{
g_dsp.pc = dest;
}
}
// Generic jmpr implementation
// JMPcc $R
// 0001 0111 rrr0 cccc
// Jump to address; set program counter to a value from register $R.
void jmprcc(const UDSPInstruction& opc)
{
if (CheckCondition(opc.hex & 0xf))
{
u8 reg = (opc.hex >> 5) & 0x7;
g_dsp.pc = dsp_op_read_reg(reg);
}
}
// Generic ret implementation
// RETcc
// 0000 0010 1101 cccc
// Return from subroutine if condition cc has been met. Pops stored PC
// from call stack $st0 and sets $pc to this location.
void ret(const UDSPInstruction& opc)
{
if (CheckCondition(opc.hex & 0xf))
{
g_dsp.pc = dsp_reg_load_stack(DSP_STACK_C);
}
}
// RTI
// 0000 0010 1111 1111
// Return from exception. Pops stored status register $sr from data stack
// $st1 and program counter PC from call stack $st0 and sets $pc to this
// location.
void rti(const UDSPInstruction& opc)
{
g_dsp.r[DSP_REG_SR] = dsp_reg_load_stack(DSP_STACK_D);
g_dsp.pc = dsp_reg_load_stack(DSP_STACK_C);
g_dsp.exception_in_progress_hack = false;
}
// HALT
// 0000 0000 0020 0001
// Stops execution of DSP code. Sets bit DSP_CR_HALT in register DREG_CR.
void halt(const UDSPInstruction& opc)
{
g_dsp.cr |= 0x4;
g_dsp.pc--;
}
// LOOP handling: Loop stack is used to control execution of repeated blocks of
// instructions. Whenever there is value on stack $st2 and current PC is equal
// value at $st2, then value at stack $st3 is decremented. If value is not zero
// then PC is modified with calue from call stack $st0. Otherwise values from
// callstack $st0 and both loop stacks $st2 and $st3 are poped and execution
// continues at next opcode.
// LOOP $R
// 0000 0000 010r rrrr
// Repeatedly execute following opcode until counter specified by value
// from register $R reaches zero. Each execution decrement counter. Register
// $R remains unchanged. If register $R is set to zero at the beginning of loop
// then looped instruction will not get executed.
// Actually, this instruction simply prepares the loop stacks for the above.
// The looping hardware takes care of the rest.
void loop(const UDSPInstruction& opc)
{
u16 reg = opc.hex & 0x1f;
u16 cnt = g_dsp.r[reg];
u16 loop_pc = g_dsp.pc;
if (cnt)
{
dsp_reg_store_stack(0, g_dsp.pc);
dsp_reg_store_stack(2, loop_pc);
dsp_reg_store_stack(3, cnt);
}
}
// LOOPI #I
// 0001 0000 iiii iiii
// Repeatedly execute following opcode until counter specified by
// immediate value I reaches zero. Each execution decrement counter. If
// immediate value I is set to zero at the beginning of loop then looped
// instruction will not get executed.
// Actually, this instruction simply prepares the loop stacks for the above.
// The looping hardware takes care of the rest.
void loopi(const UDSPInstruction& opc)
{
u16 cnt = opc.hex & 0xff;
u16 loop_pc = g_dsp.pc;
if (cnt)
{
dsp_reg_store_stack(0, g_dsp.pc);
dsp_reg_store_stack(2, loop_pc);
dsp_reg_store_stack(3, cnt);
}
}
// BLOOP $R, addrA
// 0000 0000 011r rrrr
// aaaa aaaa aaaa aaaa
// Repeatedly execute block of code starting at following opcode until
// counter specified by value from register $R reaches zero. Block ends at
// specified address addrA inclusive, ie. opcode at addrA is the last opcode
// included in loop. Counter is pushed on loop stack $st3, end of block address
// is pushed on loop stack $st2 and repeat address is pushed on call stack $st0.
// Up to 4 nested loops is allowed.
void bloop(const UDSPInstruction& opc)
{
u16 reg = opc.hex & 0x1f;
u16 cnt = g_dsp.r[reg];
u16 loop_pc = dsp_fetch_code();
if (cnt)
{
dsp_reg_store_stack(0, g_dsp.pc);
dsp_reg_store_stack(2, loop_pc);
dsp_reg_store_stack(3, cnt);
}
else
{
g_dsp.pc = loop_pc;
g_dsp.pc += opSize[dsp_peek_code()];
}
}
// BLOOPI #I, addrA
// 0001 0001 iiii iiii
// aaaa aaaa aaaa aaaa
// Repeatedly execute block of code starting at following opcode until
// counter specified by immediate value I reaches zero. Block ends at specified
// address addrA inclusive, ie. opcode at addrA is the last opcode included in
// loop. Counter is pushed on loop stack $st3, end of block address is pushed
// on loop stack $st2 and repeat address is pushed on call stack $st0. Up to 4
// nested loops is allowed.
void bloopi(const UDSPInstruction& opc)
{
u16 cnt = opc.hex & 0xff;
u16 loop_pc = dsp_fetch_code();
if (cnt)
{
dsp_reg_store_stack(0, g_dsp.pc);
dsp_reg_store_stack(2, loop_pc);
dsp_reg_store_stack(3, cnt);
}
else
{
g_dsp.pc = loop_pc;
g_dsp.pc += opSize[dsp_peek_code()];
}
}
} // namespace