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lxdream.org :: lxdream/src/sh4/sh4core.in
lxdream 0.9.1
released Jun 29
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filename src/sh4/sh4core.in
changeset 1067:d3c00ffccfcd
prev1065:bc1cc0c54917
prev951:63483914846f
next1083:34895c8bab20
author nkeynes
date Sun Jul 05 13:54:48 2009 +1000 (11 years ago)
permissions -rw-r--r--
last change No-op merge lxdream-mem to tip to remove head (Long since merged in
actuality)
file annotate diff log raw
nkeynes@359
     1
/**
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 * $Id$
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 * 
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 * SH4 emulation core, and parent module for all the SH4 peripheral
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 * modules.
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 *
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 * Copyright (c) 2005 Nathan Keynes.
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 *
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 * This program is free software; you can redistribute it and/or modify
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 * it under the terms of the GNU General Public License as published by
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 * the Free Software Foundation; either version 2 of the License, or
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 * (at your option) any later version.
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 *
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 * This program is distributed in the hope that it will be useful,
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 * but WITHOUT ANY WARRANTY; without even the implied warranty of
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 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
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 * GNU General Public License for more details.
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    18
 */
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#define MODULE sh4_module
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#include <assert.h>
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#include <math.h>
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#include "dream.h"
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#include "dreamcast.h"
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#include "eventq.h"
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#include "mem.h"
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#include "clock.h"
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#include "syscall.h"
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#include "sh4/sh4core.h"
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#include "sh4/sh4mmio.h"
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#include "sh4/sh4stat.h"
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#include "sh4/mmu.h"
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#define SH4_CALLTRACE 1
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#define MAX_INT 0x7FFFFFFF
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#define MIN_INT 0x80000000
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#define MAX_INTF 2147483647.0
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#define MIN_INTF -2147483648.0
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/********************** SH4 Module Definition ****************************/
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uint32_t sh4_emulate_run_slice( uint32_t nanosecs ) 
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{
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    int i;
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    if( sh4_breakpoint_count == 0 ) {
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	for( ; sh4r.slice_cycle < nanosecs; sh4r.slice_cycle += sh4_cpu_period ) {
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	    if( SH4_EVENT_PENDING() ) {
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		if( sh4r.event_types & PENDING_EVENT ) {
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		    event_execute();
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		}
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		/* Eventq execute may (quite likely) deliver an immediate IRQ */
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		if( sh4r.event_types & PENDING_IRQ ) {
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		    sh4_accept_interrupt();
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		}
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	    }
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	    if( !sh4_execute_instruction() ) {
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		break;
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	    }
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	}
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    } else {
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	for( ;sh4r.slice_cycle < nanosecs; sh4r.slice_cycle += sh4_cpu_period ) {
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	    if( SH4_EVENT_PENDING() ) {
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		if( sh4r.event_types & PENDING_EVENT ) {
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		    event_execute();
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		}
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		/* Eventq execute may (quite likely) deliver an immediate IRQ */
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		if( sh4r.event_types & PENDING_IRQ ) {
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		    sh4_accept_interrupt();
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		}
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	    }
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	    if( !sh4_execute_instruction() )
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		break;
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#ifdef ENABLE_DEBUG_MODE
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	    for( i=0; i<sh4_breakpoint_count; i++ ) {
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		if( sh4_breakpoints[i].address == sh4r.pc ) {
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		    break;
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		}
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	    }
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	    if( i != sh4_breakpoint_count ) {
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	    	sh4_core_exit( CORE_EXIT_BREAKPOINT );
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	    }
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#endif	
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	}
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    }
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    /* If we aborted early, but the cpu is still technically running,
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     * we're doing a hard abort - cut the timeslice back to what we
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     * actually executed
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     */
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    if( sh4r.slice_cycle != nanosecs && sh4r.sh4_state == SH4_STATE_RUNNING ) {
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	nanosecs = sh4r.slice_cycle;
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    }
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    if( sh4r.sh4_state != SH4_STATE_STANDBY ) {
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	TMU_run_slice( nanosecs );
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	SCIF_run_slice( nanosecs );
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    }
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    return nanosecs;
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}
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/********************** SH4 emulation core  ****************************/
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#if(SH4_CALLTRACE == 1)
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#define MAX_CALLSTACK 32
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static struct call_stack {
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    sh4addr_t call_addr;
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    sh4addr_t target_addr;
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    sh4addr_t stack_pointer;
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} call_stack[MAX_CALLSTACK];
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static int call_stack_depth = 0;
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int sh4_call_trace_on = 0;
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static inline void trace_call( sh4addr_t source, sh4addr_t dest ) 
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{
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    if( call_stack_depth < MAX_CALLSTACK ) {
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	call_stack[call_stack_depth].call_addr = source;
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	call_stack[call_stack_depth].target_addr = dest;
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	call_stack[call_stack_depth].stack_pointer = sh4r.r[15];
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    }
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    call_stack_depth++;
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}
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static inline void trace_return( sh4addr_t source, sh4addr_t dest )
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{
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    if( call_stack_depth > 0 ) {
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	call_stack_depth--;
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    }
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}
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void fprint_stack_trace( FILE *f )
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{
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    int i = call_stack_depth -1;
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    if( i >= MAX_CALLSTACK )
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	i = MAX_CALLSTACK - 1;
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    for( ; i >= 0; i-- ) {
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	fprintf( f, "%d. Call from %08X => %08X, SP=%08X\n", 
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		 (call_stack_depth - i), call_stack[i].call_addr,
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		 call_stack[i].target_addr, call_stack[i].stack_pointer );
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    }
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}
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#define TRACE_CALL( source, dest ) trace_call(source, dest)
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#define TRACE_RETURN( source, dest ) trace_return(source, dest)
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#else
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#define TRACE_CALL( dest, rts ) 
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#define TRACE_RETURN( source, dest )
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#endif
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static gboolean FASTCALL sh4_raise_slot_exception( int normal_code, int slot_code ) {
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    if( sh4r.in_delay_slot ) {
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        sh4_raise_exception(slot_code);
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    } else {
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        sh4_raise_exception(normal_code);
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    }
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    return TRUE;
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   159
}
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#define CHECKPRIV() if( !IS_SH4_PRIVMODE() ) { return sh4_raise_slot_exception( EXC_ILLEGAL, EXC_SLOT_ILLEGAL ); }
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#define CHECKRALIGN16(addr) if( (addr)&0x01 ) { sh4_raise_exception( EXC_DATA_ADDR_READ ); return TRUE; }
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#define CHECKRALIGN32(addr) if( (addr)&0x03 ) { sh4_raise_exception( EXC_DATA_ADDR_READ ); return TRUE; }
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#define CHECKRALIGN64(addr) if( (addr)&0x07 ) { sh4_raise_exception( EXC_DATA_ADDR_READ ); return TRUE; }
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#define CHECKWALIGN16(addr) if( (addr)&0x01 ) { sh4_raise_exception( EXC_DATA_ADDR_WRITE ); return TRUE; }
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#define CHECKWALIGN32(addr) if( (addr)&0x03 ) { sh4_raise_exception( EXC_DATA_ADDR_WRITE ); return TRUE; }
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#define CHECKWALIGN64(addr) if( (addr)&0x07 ) { sh4_raise_exception( EXC_DATA_ADDR_WRITE ); return TRUE; }
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#define CHECKFPUEN() if( !IS_FPU_ENABLED() ) { if( ir == 0xFFFD ) { UNDEF(ir); } else { return sh4_raise_slot_exception( EXC_FPU_DISABLED, EXC_SLOT_FPU_DISABLED ); } }
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#define CHECKDEST(p) if( (p) == 0 ) { ERROR( "%08X: Branch/jump to NULL, CPU halted", sh4r.pc ); sh4_core_exit(CORE_EXIT_HALT); return FALSE; }
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#define CHECKSLOTILLEGAL() if(sh4r.in_delay_slot) { sh4_raise_exception(EXC_SLOT_ILLEGAL); return TRUE; }
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#define ADDRSPACE (IS_SH4_PRIVMODE() ? sh4_address_space : sh4_user_address_space)
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#define SQADDRSPACE (IS_SH4_PRIVMODE() ? storequeue_address_space : storequeue_user_address_space)
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#ifdef HAVE_FRAME_ADDRESS
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static FASTCALL __attribute__((noinline)) void *__first_arg(void *a, void *b) { return a; }
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#define INIT_EXCEPTIONS(label) goto *__first_arg(&&fnstart,&&label); fnstart:
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#define MEM_READ_BYTE( addr, val ) val = ((mem_read_exc_fn_t)ADDRSPACE[(addr)>>12]->read_byte)((addr), &&except)
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#define MEM_READ_WORD( addr, val ) val = ((mem_read_exc_fn_t)ADDRSPACE[(addr)>>12]->read_word)((addr), &&except)
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#define MEM_READ_LONG( addr, val ) val = ((mem_read_exc_fn_t)ADDRSPACE[(addr)>>12]->read_long)((addr), &&except)
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#define MEM_WRITE_BYTE( addr, val ) ((mem_write_exc_fn_t)ADDRSPACE[(addr)>>12]->write_byte)((addr), (val), &&except)
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#define MEM_WRITE_WORD( addr, val ) ((mem_write_exc_fn_t)ADDRSPACE[(addr)>>12]->write_word)((addr), (val), &&except)
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#define MEM_WRITE_LONG( addr, val ) ((mem_write_exc_fn_t)ADDRSPACE[(addr)>>12]->write_long)((addr), (val), &&except)
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#define MEM_PREFETCH( addr ) ((mem_prefetch_exc_fn_t)ADDRSPACE[(addr)>>12]->prefetch)((addr), &&except)
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#else
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#define INIT_EXCEPTIONS(label)
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#define MEM_READ_BYTE( addr, val ) val = ADDRSPACE[(addr)>>12]->read_byte(addr)
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#define MEM_READ_WORD( addr, val ) val = ADDRSPACE[(addr)>>12]->read_word(addr)
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#define MEM_READ_LONG( addr, val ) val = ADDRSPACE[(addr)>>12]->read_long(addr)
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#define MEM_WRITE_BYTE( addr, val ) ADDRSPACE[(addr)>>12]->write_byte(addr, val)
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#define MEM_WRITE_WORD( addr, val ) ADDRSPACE[(addr)>>12]->write_word(addr, val)
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#define MEM_WRITE_LONG( addr, val ) ADDRSPACE[(addr)>>12]->write_long(addr, val)
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#define MEM_PREFETCH( addr ) ADDRSPACE[(addr)>>12]->prefetch(addr)
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#endif
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   198
#define FP_WIDTH (IS_FPU_DOUBLESIZE() ? 8 : 4)
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   200
#define MEM_FP_READ( addr, reg ) \
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    if( IS_FPU_DOUBLESIZE() ) { \
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	CHECKRALIGN64(addr); \
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        if( reg & 1 ) { \
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            MEM_READ_LONG( addr, *((uint32_t *)&XF((reg) & 0x0E)) ); \
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            MEM_READ_LONG( addr+4, *((uint32_t *)&XF(reg)) ); \
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        } else { \
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            MEM_READ_LONG( addr, *((uint32_t *)&FR(reg)) ); \
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            MEM_READ_LONG( addr+4, *((uint32_t *)&FR((reg)|0x01)) ); \
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	} \
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    } else { \
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        CHECKRALIGN32(addr); \
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        MEM_READ_LONG( addr, *((uint32_t *)&FR(reg)) ); \
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   213
    }
nkeynes@732
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#define MEM_FP_WRITE( addr, reg ) \
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   215
    if( IS_FPU_DOUBLESIZE() ) { \
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        CHECKWALIGN64(addr); \
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        if( reg & 1 ) { \
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	    MEM_WRITE_LONG( addr, *((uint32_t *)&XF((reg)&0x0E)) ); \
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	    MEM_WRITE_LONG( addr+4, *((uint32_t *)&XF(reg)) ); \
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   220
        } else { \
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	    MEM_WRITE_LONG( addr, *((uint32_t *)&FR(reg)) ); \
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	    MEM_WRITE_LONG( addr+4, *((uint32_t *)&FR((reg)|0x01)) ); \
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   223
	} \
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   224
    } else { \
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    	CHECKWALIGN32(addr); \
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        MEM_WRITE_LONG(addr, *((uint32_t *)&FR((reg))) ); \
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   227
    }
nkeynes@359
   228
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#define UNDEF(ir)
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#define UNIMP(ir)
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   231
nkeynes@948
   232
/**
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   233
 * Perform instruction-completion following core exit of a partially completed
nkeynes@948
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 * instruction. NOTE: This is only allowed on memory writes, operation is not
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 * guaranteed in any other case.
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   236
 */
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void sh4_finalize_instruction( void )
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   238
{
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   239
    unsigned short ir;
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    uint32_t tmp;
nkeynes@948
   241
nkeynes@1014
   242
    if( IS_SYSCALL(sh4r.pc) ) {
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        return;
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   244
    }
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   245
    assert( IS_IN_ICACHE(sh4r.pc) );
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    ir = *(uint16_t *)GET_ICACHE_PTR(sh4r.pc);
nkeynes@948
   247
    
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   248
    /**
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     * Note - we can't take an exit on a control transfer instruction itself,
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     * which means the exit must have happened in the delay slot. So for these
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   251
     * cases, finalize the delay slot instruction, and re-execute the control transfer.
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   252
     *
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     * For delay slots which modify the argument used in the branch instruction,
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   254
     * we pretty much just assume that that can't have already happened in an exit case.
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   255
     */
nkeynes@948
   256
    
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   257
%%
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   258
BRA disp {: 
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   259
    sh4r.pc += 2; 
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   260
    sh4_finalize_instruction(); 
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   261
    sh4r.pc += disp;
nkeynes@948
   262
:}
nkeynes@948
   263
BRAF Rn {: 
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   264
    sh4r.pc += 2; 
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   265
    tmp = sh4r.r[Rn];
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   266
    sh4_finalize_instruction(); 
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   267
    sh4r.pc += tmp;
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   268
:}
nkeynes@948
   269
BSR disp {: 
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   270
    /* Note: PR is already set */ 
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   271
    sh4r.pc += 2;
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   272
    sh4_finalize_instruction();
nkeynes@948
   273
    sh4r.pc += disp;
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   274
:}
nkeynes@948
   275
BSRF Rn {:
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   276
    /* Note: PR is already set */ 
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   277
    sh4r.pc += 2;
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   278
    tmp = sh4r.r[Rn];
nkeynes@948
   279
    sh4_finalize_instruction();
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   280
    sh4r.pc += tmp;
nkeynes@948
   281
:}
nkeynes@948
   282
BF/S disp {: 
nkeynes@948
   283
    sh4r.pc += 2;
nkeynes@948
   284
    sh4_finalize_instruction();
nkeynes@948
   285
    if( !sh4r.t ) {
nkeynes@948
   286
        sh4r.pc += disp;
nkeynes@948
   287
    }
nkeynes@948
   288
:}
nkeynes@948
   289
BT/S disp {: 
nkeynes@948
   290
    sh4r.pc += 2;
nkeynes@948
   291
    sh4_finalize_instruction();
nkeynes@948
   292
    if( sh4r.t ) {
nkeynes@948
   293
        sh4r.pc += disp;
nkeynes@948
   294
    }
nkeynes@948
   295
:}
nkeynes@948
   296
JMP @Rn {:
nkeynes@948
   297
    sh4r.pc += 2;
nkeynes@948
   298
    tmp = sh4r.r[Rn];
nkeynes@948
   299
    sh4_finalize_instruction();
nkeynes@948
   300
    sh4r.pc = tmp;
nkeynes@948
   301
    sh4r.new_pc = tmp + 2;
nkeynes@974
   302
    sh4r.slice_cycle += sh4_cpu_period;
nkeynes@948
   303
    return;
nkeynes@948
   304
:}
nkeynes@948
   305
JSR @Rn {: 
nkeynes@948
   306
    /* Note: PR is already set */ 
nkeynes@948
   307
    sh4r.pc += 2;
nkeynes@948
   308
    tmp = sh4r.r[Rn];
nkeynes@948
   309
    sh4_finalize_instruction();
nkeynes@948
   310
    sh4r.pc = tmp;
nkeynes@948
   311
    sh4r.new_pc = tmp + 2;
nkeynes@974
   312
    sh4r.slice_cycle += sh4_cpu_period;
nkeynes@948
   313
    return;
nkeynes@948
   314
:}
nkeynes@948
   315
RTS {: 
nkeynes@948
   316
    sh4r.pc += 2;
nkeynes@948
   317
    sh4_finalize_instruction();
nkeynes@948
   318
    sh4r.pc = sh4r.pr;
nkeynes@948
   319
    sh4r.new_pc = sh4r.pr + 2;
nkeynes@974
   320
    sh4r.slice_cycle += sh4_cpu_period;
nkeynes@948
   321
    return;
nkeynes@948
   322
:}
nkeynes@948
   323
RTE {: 
nkeynes@948
   324
    /* SR is already set */
nkeynes@948
   325
    sh4r.pc += 2;
nkeynes@948
   326
    sh4_finalize_instruction();
nkeynes@948
   327
    sh4r.pc = sh4r.spc;
nkeynes@948
   328
    sh4r.new_pc = sh4r.pr + 2;
nkeynes@974
   329
    sh4r.slice_cycle += sh4_cpu_period;
nkeynes@948
   330
    return;
nkeynes@948
   331
:}
nkeynes@948
   332
MOV.B Rm, @-Rn {: sh4r.r[Rn]--; :}
nkeynes@948
   333
MOV.W Rm, @-Rn {: sh4r.r[Rn] -= 2; :}
nkeynes@948
   334
MOV.L Rm, @-Rn {: sh4r.r[Rn] -= 4; :}
nkeynes@970
   335
MOV.B @Rm+, Rn {: if( Rm != Rn ) { sh4r.r[Rm] ++;  } :}
nkeynes@970
   336
MOV.W @Rm+, Rn {: if( Rm != Rn ) { sh4r.r[Rm] += 2; } :}
nkeynes@970
   337
MOV.L @Rm+, Rn {: if( Rm != Rn ) { sh4r.r[Rm] += 4; } :}
nkeynes@948
   338
%%
nkeynes@974
   339
    sh4r.in_delay_slot = 0;
nkeynes@948
   340
    sh4r.pc += 2;
nkeynes@948
   341
    sh4r.new_pc = sh4r.pc+2;
nkeynes@948
   342
    sh4r.slice_cycle += sh4_cpu_period;
nkeynes@948
   343
}
nkeynes@948
   344
nkeynes@986
   345
#undef UNDEF
nkeynes@986
   346
#undef UNIMP
nkeynes@948
   347
nkeynes@948
   348
#define UNDEF(ir) return sh4_raise_slot_exception(EXC_ILLEGAL, EXC_SLOT_ILLEGAL)
nkeynes@948
   349
#define UNIMP(ir) do{ ERROR( "Halted on unimplemented instruction at %08x, opcode = %04x", sh4r.pc, ir ); sh4_core_exit(CORE_EXIT_HALT); return FALSE; }while(0)
nkeynes@948
   350
nkeynes@948
   351
nkeynes@359
   352
gboolean sh4_execute_instruction( void )
nkeynes@359
   353
{
nkeynes@359
   354
    uint32_t pc;
nkeynes@359
   355
    unsigned short ir;
nkeynes@359
   356
    uint32_t tmp;
nkeynes@359
   357
    float ftmp;
nkeynes@359
   358
    double dtmp;
nkeynes@586
   359
    int64_t memtmp; // temporary holder for memory reads
nkeynes@927
   360
nkeynes@927
   361
    INIT_EXCEPTIONS(except)
nkeynes@359
   362
    
nkeynes@359
   363
#define R0 sh4r.r[0]
nkeynes@359
   364
    pc = sh4r.pc;
nkeynes@359
   365
    if( pc > 0xFFFFFF00 ) {
nkeynes@359
   366
	/* SYSCALL Magic */
nkeynes@359
   367
	syscall_invoke( pc );
nkeynes@359
   368
	sh4r.in_delay_slot = 0;
nkeynes@359
   369
	pc = sh4r.pc = sh4r.pr;
nkeynes@359
   370
	sh4r.new_pc = sh4r.pc + 2;
nkeynes@671
   371
        return TRUE;
nkeynes@359
   372
    }
nkeynes@359
   373
    CHECKRALIGN16(pc);
nkeynes@359
   374
nkeynes@671
   375
#ifdef ENABLE_SH4STATS
nkeynes@671
   376
    sh4_stats_add_by_pc(sh4r.pc);
nkeynes@671
   377
#endif
nkeynes@671
   378
nkeynes@359
   379
    /* Read instruction */
nkeynes@586
   380
    if( !IS_IN_ICACHE(pc) ) {
nkeynes@974
   381
        gboolean delay_slot = sh4r.in_delay_slot;
nkeynes@586
   382
	if( !mmu_update_icache(pc) ) {
nkeynes@974
   383
	    if( delay_slot ) {
nkeynes@974
   384
	        sh4r.spc -= 2;
nkeynes@974
   385
	    }
nkeynes@586
   386
	    // Fault - look for the fault handler
nkeynes@586
   387
	    if( !mmu_update_icache(sh4r.pc) ) {
nkeynes@586
   388
		// double fault - halt
nkeynes@586
   389
		ERROR( "Double fault - halting" );
nkeynes@740
   390
		sh4_core_exit(CORE_EXIT_HALT);
nkeynes@586
   391
		return FALSE;
nkeynes@586
   392
	    }
nkeynes@359
   393
	}
nkeynes@586
   394
	pc = sh4r.pc;
nkeynes@359
   395
    }
nkeynes@586
   396
    assert( IS_IN_ICACHE(pc) );
nkeynes@586
   397
    ir = *(uint16_t *)GET_ICACHE_PTR(sh4r.pc);
nkeynes@948
   398
    
nkeynes@948
   399
    /* FIXME: This is a bit of a hack, but the PC of the delay slot should not
nkeynes@948
   400
     * be visible until after the instruction has executed (for exception 
nkeynes@948
   401
     * correctness)
nkeynes@948
   402
     */
nkeynes@948
   403
    if( sh4r.in_delay_slot ) {
nkeynes@948
   404
    	sh4r.pc -= 2;
nkeynes@948
   405
    }
nkeynes@359
   406
%%
nkeynes@359
   407
AND Rm, Rn {: sh4r.r[Rn] &= sh4r.r[Rm]; :}
nkeynes@359
   408
AND #imm, R0 {: R0 &= imm; :}
nkeynes@586
   409
 AND.B #imm, @(R0, GBR) {: MEM_READ_BYTE(R0+sh4r.gbr, tmp); MEM_WRITE_BYTE( R0 + sh4r.gbr, imm & tmp ); :}
nkeynes@359
   410
NOT Rm, Rn {: sh4r.r[Rn] = ~sh4r.r[Rm]; :}
nkeynes@359
   411
OR Rm, Rn {: sh4r.r[Rn] |= sh4r.r[Rm]; :}
nkeynes@359
   412
OR #imm, R0  {: R0 |= imm; :}
nkeynes@586
   413
 OR.B #imm, @(R0, GBR) {: MEM_READ_BYTE(R0+sh4r.gbr, tmp); MEM_WRITE_BYTE( R0 + sh4r.gbr, imm | tmp ); :}
nkeynes@359
   414
TAS.B @Rn {:
nkeynes@586
   415
    MEM_READ_BYTE( sh4r.r[Rn], tmp );
nkeynes@359
   416
    sh4r.t = ( tmp == 0 ? 1 : 0 );
nkeynes@359
   417
    MEM_WRITE_BYTE( sh4r.r[Rn], tmp | 0x80 );
nkeynes@359
   418
:}
nkeynes@359
   419
TST Rm, Rn {: sh4r.t = (sh4r.r[Rn]&sh4r.r[Rm] ? 0 : 1); :}
nkeynes@359
   420
TST #imm, R0 {: sh4r.t = (R0 & imm ? 0 : 1); :}
nkeynes@586
   421
 TST.B #imm, @(R0, GBR) {: MEM_READ_BYTE(R0+sh4r.gbr, tmp); sh4r.t = ( tmp & imm ? 0 : 1 ); :}
nkeynes@359
   422
XOR Rm, Rn {: sh4r.r[Rn] ^= sh4r.r[Rm]; :}
nkeynes@359
   423
XOR #imm, R0 {: R0 ^= imm; :}
nkeynes@586
   424
 XOR.B #imm, @(R0, GBR) {: MEM_READ_BYTE(R0+sh4r.gbr, tmp); MEM_WRITE_BYTE( R0 + sh4r.gbr, imm ^ tmp ); :}
nkeynes@359
   425
XTRCT Rm, Rn {: sh4r.r[Rn] = (sh4r.r[Rn]>>16) | (sh4r.r[Rm]<<16); :}
nkeynes@359
   426
nkeynes@359
   427
ROTL Rn {:
nkeynes@359
   428
    sh4r.t = sh4r.r[Rn] >> 31;
nkeynes@359
   429
    sh4r.r[Rn] <<= 1;
nkeynes@359
   430
    sh4r.r[Rn] |= sh4r.t;
nkeynes@359
   431
:}
nkeynes@359
   432
ROTR Rn {:
nkeynes@359
   433
    sh4r.t = sh4r.r[Rn] & 0x00000001;
nkeynes@359
   434
    sh4r.r[Rn] >>= 1;
nkeynes@359
   435
    sh4r.r[Rn] |= (sh4r.t << 31);
nkeynes@359
   436
:}
nkeynes@359
   437
ROTCL Rn {:
nkeynes@359
   438
    tmp = sh4r.r[Rn] >> 31;
nkeynes@359
   439
    sh4r.r[Rn] <<= 1;
nkeynes@359
   440
    sh4r.r[Rn] |= sh4r.t;
nkeynes@359
   441
    sh4r.t = tmp;
nkeynes@359
   442
:}
nkeynes@359
   443
ROTCR Rn {:
nkeynes@359
   444
    tmp = sh4r.r[Rn] & 0x00000001;
nkeynes@359
   445
    sh4r.r[Rn] >>= 1;
nkeynes@359
   446
    sh4r.r[Rn] |= (sh4r.t << 31 );
nkeynes@359
   447
    sh4r.t = tmp;
nkeynes@359
   448
:}
nkeynes@359
   449
SHAD Rm, Rn {:
nkeynes@359
   450
    tmp = sh4r.r[Rm];
nkeynes@359
   451
    if( (tmp & 0x80000000) == 0 ) sh4r.r[Rn] <<= (tmp&0x1f);
nkeynes@359
   452
    else if( (tmp & 0x1F) == 0 )  
nkeynes@359
   453
        sh4r.r[Rn] = ((int32_t)sh4r.r[Rn]) >> 31;
nkeynes@359
   454
    else 
nkeynes@359
   455
	sh4r.r[Rn] = ((int32_t)sh4r.r[Rn]) >> (((~sh4r.r[Rm]) & 0x1F)+1);
nkeynes@359
   456
:}
nkeynes@359
   457
SHLD Rm, Rn {:
nkeynes@359
   458
    tmp = sh4r.r[Rm];
nkeynes@359
   459
    if( (tmp & 0x80000000) == 0 ) sh4r.r[Rn] <<= (tmp&0x1f);
nkeynes@359
   460
    else if( (tmp & 0x1F) == 0 ) sh4r.r[Rn] = 0;
nkeynes@359
   461
    else sh4r.r[Rn] >>= (((~tmp) & 0x1F)+1);
nkeynes@359
   462
:}
nkeynes@359
   463
SHAL Rn {:
nkeynes@359
   464
    sh4r.t = sh4r.r[Rn] >> 31;
nkeynes@359
   465
    sh4r.r[Rn] <<= 1;
nkeynes@359
   466
:}
nkeynes@359
   467
SHAR Rn {:
nkeynes@359
   468
    sh4r.t = sh4r.r[Rn] & 0x00000001;
nkeynes@359
   469
    sh4r.r[Rn] = ((int32_t)sh4r.r[Rn]) >> 1;
nkeynes@359
   470
:}
nkeynes@359
   471
SHLL Rn {: sh4r.t = sh4r.r[Rn] >> 31; sh4r.r[Rn] <<= 1; :}
nkeynes@359
   472
SHLR Rn {: sh4r.t = sh4r.r[Rn] & 0x00000001; sh4r.r[Rn] >>= 1; :}
nkeynes@359
   473
SHLL2 Rn {: sh4r.r[Rn] <<= 2; :}
nkeynes@359
   474
SHLR2 Rn {: sh4r.r[Rn] >>= 2; :}
nkeynes@359
   475
SHLL8 Rn {: sh4r.r[Rn] <<= 8; :}
nkeynes@359
   476
SHLR8 Rn {: sh4r.r[Rn] >>= 8; :}
nkeynes@359
   477
SHLL16 Rn {: sh4r.r[Rn] <<= 16; :}
nkeynes@359
   478
SHLR16 Rn {: sh4r.r[Rn] >>= 16; :}
nkeynes@359
   479
nkeynes@359
   480
EXTU.B Rm, Rn {: sh4r.r[Rn] = sh4r.r[Rm]&0x000000FF; :}
nkeynes@359
   481
EXTU.W Rm, Rn {: sh4r.r[Rn] = sh4r.r[Rm]&0x0000FFFF; :}
nkeynes@359
   482
EXTS.B Rm, Rn {: sh4r.r[Rn] = SIGNEXT8( sh4r.r[Rm]&0x000000FF ); :}
nkeynes@359
   483
EXTS.W Rm, Rn {: sh4r.r[Rn] = SIGNEXT16( sh4r.r[Rm]&0x0000FFFF ); :}
nkeynes@359
   484
SWAP.B Rm, Rn {: sh4r.r[Rn] = (sh4r.r[Rm]&0xFFFF0000) | ((sh4r.r[Rm]&0x0000FF00)>>8) | ((sh4r.r[Rm]&0x000000FF)<<8); :}
nkeynes@359
   485
SWAP.W Rm, Rn {: sh4r.r[Rn] = (sh4r.r[Rm]>>16) | (sh4r.r[Rm]<<16); :}
nkeynes@359
   486
nkeynes@359
   487
CLRT {: sh4r.t = 0; :}
nkeynes@359
   488
SETT {: sh4r.t = 1; :}
nkeynes@359
   489
CLRMAC {: sh4r.mac = 0; :}
nkeynes@550
   490
LDTLB {: MMU_ldtlb(); :}
nkeynes@359
   491
CLRS {: sh4r.s = 0; :}
nkeynes@359
   492
SETS {: sh4r.s = 1; :}
nkeynes@359
   493
MOVT Rn {: sh4r.r[Rn] = sh4r.t; :}
nkeynes@359
   494
NOP {: /* NOP */ :}
nkeynes@359
   495
nkeynes@359
   496
PREF @Rn {:
nkeynes@946
   497
    MEM_PREFETCH(sh4r.r[Rn]);
nkeynes@359
   498
:}
nkeynes@359
   499
OCBI @Rn {: :}
nkeynes@359
   500
OCBP @Rn {: :}
nkeynes@359
   501
OCBWB @Rn {: :}
nkeynes@359
   502
MOVCA.L R0, @Rn {:
nkeynes@359
   503
    tmp = sh4r.r[Rn];
nkeynes@359
   504
    CHECKWALIGN32(tmp);
nkeynes@359
   505
    MEM_WRITE_LONG( tmp, R0 );
nkeynes@359
   506
:}
nkeynes@359
   507
MOV.B Rm, @(R0, Rn) {: MEM_WRITE_BYTE( R0 + sh4r.r[Rn], sh4r.r[Rm] ); :}
nkeynes@359
   508
MOV.W Rm, @(R0, Rn) {: 
nkeynes@359
   509
    CHECKWALIGN16( R0 + sh4r.r[Rn] );
nkeynes@359
   510
    MEM_WRITE_WORD( R0 + sh4r.r[Rn], sh4r.r[Rm] );
nkeynes@359
   511
:}
nkeynes@359
   512
MOV.L Rm, @(R0, Rn) {:
nkeynes@359
   513
    CHECKWALIGN32( R0 + sh4r.r[Rn] );
nkeynes@359
   514
    MEM_WRITE_LONG( R0 + sh4r.r[Rn], sh4r.r[Rm] );
nkeynes@359
   515
:}
nkeynes@586
   516
MOV.B @(R0, Rm), Rn {: MEM_READ_BYTE( R0 + sh4r.r[Rm], sh4r.r[Rn] ); :}
nkeynes@359
   517
MOV.W @(R0, Rm), Rn {: CHECKRALIGN16( R0 + sh4r.r[Rm] );
nkeynes@586
   518
    MEM_READ_WORD( R0 + sh4r.r[Rm], sh4r.r[Rn] );
nkeynes@359
   519
:}
nkeynes@359
   520
MOV.L @(R0, Rm), Rn {: CHECKRALIGN32( R0 + sh4r.r[Rm] );
nkeynes@586
   521
    MEM_READ_LONG( R0 + sh4r.r[Rm], sh4r.r[Rn] );
nkeynes@359
   522
:}
nkeynes@359
   523
MOV.L Rm, @(disp, Rn) {:
nkeynes@359
   524
    tmp = sh4r.r[Rn] + disp;
nkeynes@359
   525
    CHECKWALIGN32( tmp );
nkeynes@359
   526
    MEM_WRITE_LONG( tmp, sh4r.r[Rm] );
nkeynes@359
   527
:}
nkeynes@359
   528
MOV.B Rm, @Rn {: MEM_WRITE_BYTE( sh4r.r[Rn], sh4r.r[Rm] ); :}
nkeynes@359
   529
MOV.W Rm, @Rn {: CHECKWALIGN16( sh4r.r[Rn] ); MEM_WRITE_WORD( sh4r.r[Rn], sh4r.r[Rm] ); :}
nkeynes@359
   530
MOV.L Rm, @Rn {: CHECKWALIGN32( sh4r.r[Rn] ); MEM_WRITE_LONG( sh4r.r[Rn], sh4r.r[Rm] ); :}
nkeynes@587
   531
 MOV.B Rm, @-Rn {: MEM_WRITE_BYTE( sh4r.r[Rn]-1, sh4r.r[Rm] ); sh4r.r[Rn]--; :}
nkeynes@587
   532
 MOV.W Rm, @-Rn {: CHECKWALIGN16( sh4r.r[Rn] ); MEM_WRITE_WORD( sh4r.r[Rn]-2, sh4r.r[Rm] ); sh4r.r[Rn] -= 2; :}
nkeynes@587
   533
 MOV.L Rm, @-Rn {: CHECKWALIGN32( sh4r.r[Rn] ); MEM_WRITE_LONG( sh4r.r[Rn]-4, sh4r.r[Rm] ); sh4r.r[Rn] -= 4; :}
nkeynes@359
   534
MOV.L @(disp, Rm), Rn {:
nkeynes@359
   535
    tmp = sh4r.r[Rm] + disp;
nkeynes@359
   536
    CHECKRALIGN32( tmp );
nkeynes@586
   537
    MEM_READ_LONG( tmp, sh4r.r[Rn] );
nkeynes@359
   538
:}
nkeynes@586
   539
MOV.B @Rm, Rn {: MEM_READ_BYTE( sh4r.r[Rm], sh4r.r[Rn] ); :}
nkeynes@586
   540
 MOV.W @Rm, Rn {: CHECKRALIGN16( sh4r.r[Rm] ); MEM_READ_WORD( sh4r.r[Rm], sh4r.r[Rn] ); :}
nkeynes@586
   541
 MOV.L @Rm, Rn {: CHECKRALIGN32( sh4r.r[Rm] ); MEM_READ_LONG( sh4r.r[Rm], sh4r.r[Rn] ); :}
nkeynes@359
   542
MOV Rm, Rn {: sh4r.r[Rn] = sh4r.r[Rm]; :}
nkeynes@970
   543
 MOV.B @Rm+, Rn {: MEM_READ_BYTE( sh4r.r[Rm], sh4r.r[Rn] ); if( Rm != Rn ) { sh4r.r[Rm] ++; } :}
nkeynes@970
   544
 MOV.W @Rm+, Rn {: CHECKRALIGN16( sh4r.r[Rm] ); MEM_READ_WORD( sh4r.r[Rm], sh4r.r[Rn] ); if( Rm != Rn ) { sh4r.r[Rm] += 2; } :}
nkeynes@970
   545
 MOV.L @Rm+, Rn {: CHECKRALIGN32( sh4r.r[Rm] ); MEM_READ_LONG( sh4r.r[Rm], sh4r.r[Rn] ); if( Rm != Rn ) { sh4r.r[Rm] += 4; } :}
nkeynes@359
   546
MOV.L @(disp, PC), Rn {:
nkeynes@359
   547
    CHECKSLOTILLEGAL();
nkeynes@359
   548
    tmp = (pc&0xFFFFFFFC) + disp + 4;
nkeynes@586
   549
    MEM_READ_LONG( tmp, sh4r.r[Rn] );
nkeynes@359
   550
:}
nkeynes@359
   551
MOV.B R0, @(disp, GBR) {: MEM_WRITE_BYTE( sh4r.gbr + disp, R0 ); :}
nkeynes@359
   552
MOV.W R0, @(disp, GBR) {:
nkeynes@359
   553
    tmp = sh4r.gbr + disp;
nkeynes@359
   554
    CHECKWALIGN16( tmp );
nkeynes@359
   555
    MEM_WRITE_WORD( tmp, R0 );
nkeynes@359
   556
:}
nkeynes@359
   557
MOV.L R0, @(disp, GBR) {:
nkeynes@359
   558
    tmp = sh4r.gbr + disp;
nkeynes@359
   559
    CHECKWALIGN32( tmp );
nkeynes@359
   560
    MEM_WRITE_LONG( tmp, R0 );
nkeynes@359
   561
:}
nkeynes@586
   562
 MOV.B @(disp, GBR), R0 {: MEM_READ_BYTE( sh4r.gbr + disp, R0 ); :}
nkeynes@359
   563
MOV.W @(disp, GBR), R0 {: 
nkeynes@359
   564
    tmp = sh4r.gbr + disp;
nkeynes@359
   565
    CHECKRALIGN16( tmp );
nkeynes@586
   566
    MEM_READ_WORD( tmp, R0 );
nkeynes@359
   567
:}
nkeynes@359
   568
MOV.L @(disp, GBR), R0 {:
nkeynes@359
   569
    tmp = sh4r.gbr + disp;
nkeynes@359
   570
    CHECKRALIGN32( tmp );
nkeynes@586
   571
    MEM_READ_LONG( tmp, R0 );
nkeynes@359
   572
:}
nkeynes@359
   573
MOV.B R0, @(disp, Rn) {: MEM_WRITE_BYTE( sh4r.r[Rn] + disp, R0 ); :}
nkeynes@359
   574
MOV.W R0, @(disp, Rn) {: 
nkeynes@359
   575
    tmp = sh4r.r[Rn] + disp;
nkeynes@359
   576
    CHECKWALIGN16( tmp );
nkeynes@359
   577
    MEM_WRITE_WORD( tmp, R0 );
nkeynes@359
   578
:}
nkeynes@586
   579
 MOV.B @(disp, Rm), R0 {: MEM_READ_BYTE( sh4r.r[Rm] + disp, R0 ); :}
nkeynes@359
   580
MOV.W @(disp, Rm), R0 {: 
nkeynes@359
   581
    tmp = sh4r.r[Rm] + disp;
nkeynes@359
   582
    CHECKRALIGN16( tmp );
nkeynes@586
   583
    MEM_READ_WORD( tmp, R0 );
nkeynes@359
   584
:}
nkeynes@359
   585
MOV.W @(disp, PC), Rn {:
nkeynes@359
   586
    CHECKSLOTILLEGAL();
nkeynes@359
   587
    tmp = pc + 4 + disp;
nkeynes@586
   588
    MEM_READ_WORD( tmp, sh4r.r[Rn] );
nkeynes@359
   589
:}
nkeynes@359
   590
MOVA @(disp, PC), R0 {:
nkeynes@359
   591
    CHECKSLOTILLEGAL();
nkeynes@359
   592
    R0 = (pc&0xFFFFFFFC) + disp + 4;
nkeynes@359
   593
:}
nkeynes@359
   594
MOV #imm, Rn {:  sh4r.r[Rn] = imm; :}
nkeynes@359
   595
nkeynes@732
   596
FMOV @(R0, Rm), FRn {: MEM_FP_READ( sh4r.r[Rm] + R0, FRn ); :}
nkeynes@732
   597
FMOV FRm, @(R0, Rn) {: MEM_FP_WRITE( sh4r.r[Rn] + R0, FRm ); :}
nkeynes@732
   598
FMOV @Rm, FRn {: MEM_FP_READ( sh4r.r[Rm], FRn ); :}
nkeynes@732
   599
FMOV @Rm+, FRn {: MEM_FP_READ( sh4r.r[Rm], FRn ); sh4r.r[Rm] += FP_WIDTH; :}
nkeynes@732
   600
FMOV FRm, @Rn {: MEM_FP_WRITE( sh4r.r[Rn], FRm ); :}
nkeynes@732
   601
 FMOV FRm, @-Rn {: MEM_FP_WRITE( sh4r.r[Rn] - FP_WIDTH, FRm ); sh4r.r[Rn] -= FP_WIDTH; :}
nkeynes@732
   602
FMOV FRm, FRn {: 
nkeynes@732
   603
    if( IS_FPU_DOUBLESIZE() )
nkeynes@732
   604
	DR(FRn) = DR(FRm);
nkeynes@732
   605
    else
nkeynes@732
   606
	FR(FRn) = FR(FRm);
nkeynes@732
   607
:}
nkeynes@732
   608
nkeynes@359
   609
CMP/EQ #imm, R0 {: sh4r.t = ( R0 == imm ? 1 : 0 ); :}
nkeynes@359
   610
CMP/EQ Rm, Rn {: sh4r.t = ( sh4r.r[Rm] == sh4r.r[Rn] ? 1 : 0 ); :}
nkeynes@359
   611
CMP/GE Rm, Rn {: sh4r.t = ( ((int32_t)sh4r.r[Rn]) >= ((int32_t)sh4r.r[Rm]) ? 1 : 0 ); :}
nkeynes@359
   612
CMP/GT Rm, Rn {: sh4r.t = ( ((int32_t)sh4r.r[Rn]) > ((int32_t)sh4r.r[Rm]) ? 1 : 0 ); :}
nkeynes@359
   613
CMP/HI Rm, Rn {: sh4r.t = ( sh4r.r[Rn] > sh4r.r[Rm] ? 1 : 0 ); :}
nkeynes@359
   614
CMP/HS Rm, Rn {: sh4r.t = ( sh4r.r[Rn] >= sh4r.r[Rm] ? 1 : 0 ); :}
nkeynes@359
   615
CMP/PL Rn {: sh4r.t = ( ((int32_t)sh4r.r[Rn]) > 0 ? 1 : 0 ); :}
nkeynes@359
   616
CMP/PZ Rn {: sh4r.t = ( ((int32_t)sh4r.r[Rn]) >= 0 ? 1 : 0 ); :}
nkeynes@359
   617
CMP/STR Rm, Rn {: 
nkeynes@359
   618
    /* set T = 1 if any byte in RM & RN is the same */
nkeynes@359
   619
    tmp = sh4r.r[Rm] ^ sh4r.r[Rn];
nkeynes@359
   620
    sh4r.t = ((tmp&0x000000FF)==0 || (tmp&0x0000FF00)==0 ||
nkeynes@359
   621
             (tmp&0x00FF0000)==0 || (tmp&0xFF000000)==0)?1:0;
nkeynes@359
   622
:}
nkeynes@359
   623
nkeynes@359
   624
ADD Rm, Rn {: sh4r.r[Rn] += sh4r.r[Rm]; :}
nkeynes@359
   625
ADD #imm, Rn {: sh4r.r[Rn] += imm; :}
nkeynes@359
   626
ADDC Rm, Rn {:
nkeynes@359
   627
    tmp = sh4r.r[Rn];
nkeynes@359
   628
    sh4r.r[Rn] += sh4r.r[Rm] + sh4r.t;
nkeynes@359
   629
    sh4r.t = ( sh4r.r[Rn] < tmp || (sh4r.r[Rn] == tmp && sh4r.t != 0) ? 1 : 0 );
nkeynes@359
   630
:}
nkeynes@359
   631
ADDV Rm, Rn {:
nkeynes@359
   632
    tmp = sh4r.r[Rn] + sh4r.r[Rm];
nkeynes@359
   633
    sh4r.t = ( (sh4r.r[Rn]>>31) == (sh4r.r[Rm]>>31) && ((sh4r.r[Rn]>>31) != (tmp>>31)) );
nkeynes@359
   634
    sh4r.r[Rn] = tmp;
nkeynes@359
   635
:}
nkeynes@359
   636
DIV0U {: sh4r.m = sh4r.q = sh4r.t = 0; :}
nkeynes@359
   637
DIV0S Rm, Rn {: 
nkeynes@359
   638
    sh4r.q = sh4r.r[Rn]>>31;
nkeynes@359
   639
    sh4r.m = sh4r.r[Rm]>>31;
nkeynes@359
   640
    sh4r.t = sh4r.q ^ sh4r.m;
nkeynes@359
   641
:}
nkeynes@359
   642
DIV1 Rm, Rn {:
nkeynes@384
   643
    /* This is derived from the sh4 manual with some simplifications */
nkeynes@359
   644
    uint32_t tmp0, tmp1, tmp2, dir;
nkeynes@359
   645
nkeynes@359
   646
    dir = sh4r.q ^ sh4r.m;
nkeynes@359
   647
    sh4r.q = (sh4r.r[Rn] >> 31);
nkeynes@359
   648
    tmp2 = sh4r.r[Rm];
nkeynes@359
   649
    sh4r.r[Rn] = (sh4r.r[Rn] << 1) | sh4r.t;
nkeynes@359
   650
    tmp0 = sh4r.r[Rn];
nkeynes@359
   651
    if( dir ) {
nkeynes@359
   652
         sh4r.r[Rn] += tmp2;
nkeynes@359
   653
         tmp1 = (sh4r.r[Rn]<tmp0 ? 1 : 0 );
nkeynes@359
   654
    } else {
nkeynes@359
   655
         sh4r.r[Rn] -= tmp2;
nkeynes@359
   656
         tmp1 = (sh4r.r[Rn]>tmp0 ? 1 : 0 );
nkeynes@359
   657
    }
nkeynes@359
   658
    sh4r.q ^= sh4r.m ^ tmp1;
nkeynes@359
   659
    sh4r.t = ( sh4r.q == sh4r.m ? 1 : 0 );
nkeynes@359
   660
:}
nkeynes@359
   661
DMULS.L Rm, Rn {: sh4r.mac = SIGNEXT32(sh4r.r[Rm]) * SIGNEXT32(sh4r.r[Rn]); :}
nkeynes@359
   662
DMULU.L Rm, Rn {: sh4r.mac = ((uint64_t)sh4r.r[Rm]) * ((uint64_t)sh4r.r[Rn]); :}
nkeynes@359
   663
DT Rn {:
nkeynes@359
   664
    sh4r.r[Rn] --;
nkeynes@359
   665
    sh4r.t = ( sh4r.r[Rn] == 0 ? 1 : 0 );
nkeynes@359
   666
:}
nkeynes@359
   667
MAC.W @Rm+, @Rn+ {:
nkeynes@587
   668
    int32_t stmp;
nkeynes@587
   669
    if( Rm == Rn ) {
nkeynes@587
   670
	CHECKRALIGN16(sh4r.r[Rn]);
nkeynes@587
   671
	MEM_READ_WORD( sh4r.r[Rn], tmp );
nkeynes@587
   672
	stmp = SIGNEXT16(tmp);
nkeynes@587
   673
	MEM_READ_WORD( sh4r.r[Rn]+2, tmp );
nkeynes@587
   674
	stmp *= SIGNEXT16(tmp);
nkeynes@587
   675
	sh4r.r[Rn] += 4;
nkeynes@587
   676
    } else {
nkeynes@587
   677
	CHECKRALIGN16( sh4r.r[Rn] );
nkeynes@587
   678
	CHECKRALIGN16( sh4r.r[Rm] );
nkeynes@587
   679
	MEM_READ_WORD(sh4r.r[Rn], tmp);
nkeynes@587
   680
	stmp = SIGNEXT16(tmp);
nkeynes@587
   681
	MEM_READ_WORD(sh4r.r[Rm], tmp);
nkeynes@587
   682
	stmp = stmp * SIGNEXT16(tmp);
nkeynes@587
   683
	sh4r.r[Rn] += 2;
nkeynes@587
   684
	sh4r.r[Rm] += 2;
nkeynes@587
   685
    }
nkeynes@359
   686
    if( sh4r.s ) {
nkeynes@359
   687
	int64_t tmpl = (int64_t)((int32_t)sh4r.mac) + (int64_t)stmp;
nkeynes@359
   688
	if( tmpl > (int64_t)0x000000007FFFFFFFLL ) {
nkeynes@359
   689
	    sh4r.mac = 0x000000017FFFFFFFLL;
nkeynes@359
   690
	} else if( tmpl < (int64_t)0xFFFFFFFF80000000LL ) {
nkeynes@359
   691
	    sh4r.mac = 0x0000000180000000LL;
nkeynes@359
   692
	} else {
nkeynes@359
   693
	    sh4r.mac = (sh4r.mac & 0xFFFFFFFF00000000LL) |
nkeynes@359
   694
		((uint32_t)(sh4r.mac + stmp));
nkeynes@359
   695
	}
nkeynes@359
   696
    } else {
nkeynes@359
   697
	sh4r.mac += SIGNEXT32(stmp);
nkeynes@359
   698
    }
nkeynes@359
   699
:}
nkeynes@359
   700
MAC.L @Rm+, @Rn+ {:
nkeynes@587
   701
    int64_t tmpl;
nkeynes@587
   702
    if( Rm == Rn ) {
nkeynes@587
   703
	CHECKRALIGN32( sh4r.r[Rn] );
nkeynes@587
   704
	MEM_READ_LONG(sh4r.r[Rn], tmp);
nkeynes@587
   705
	tmpl = SIGNEXT32(tmp);
nkeynes@587
   706
	MEM_READ_LONG(sh4r.r[Rn]+4, tmp);
nkeynes@587
   707
	tmpl = tmpl * SIGNEXT32(tmp) + sh4r.mac;
nkeynes@587
   708
	sh4r.r[Rn] += 8;
nkeynes@587
   709
    } else {
nkeynes@587
   710
	CHECKRALIGN32( sh4r.r[Rm] );
nkeynes@587
   711
	CHECKRALIGN32( sh4r.r[Rn] );
nkeynes@587
   712
	MEM_READ_LONG(sh4r.r[Rn], tmp);
nkeynes@587
   713
	tmpl = SIGNEXT32(tmp);
nkeynes@587
   714
	MEM_READ_LONG(sh4r.r[Rm], tmp);
nkeynes@587
   715
	tmpl = tmpl * SIGNEXT32(tmp) + sh4r.mac;
nkeynes@587
   716
	sh4r.r[Rn] += 4;
nkeynes@587
   717
	sh4r.r[Rm] += 4;
nkeynes@587
   718
    }
nkeynes@359
   719
    if( sh4r.s ) {
nkeynes@359
   720
        /* 48-bit Saturation. Yuch */
nkeynes@359
   721
        if( tmpl < (int64_t)0xFFFF800000000000LL )
nkeynes@359
   722
            tmpl = 0xFFFF800000000000LL;
nkeynes@359
   723
        else if( tmpl > (int64_t)0x00007FFFFFFFFFFFLL )
nkeynes@359
   724
            tmpl = 0x00007FFFFFFFFFFFLL;
nkeynes@359
   725
    }
nkeynes@359
   726
    sh4r.mac = tmpl;
nkeynes@359
   727
:}
nkeynes@359
   728
MUL.L Rm, Rn {: sh4r.mac = (sh4r.mac&0xFFFFFFFF00000000LL) |
nkeynes@359
   729
                        (sh4r.r[Rm] * sh4r.r[Rn]); :}
nkeynes@359
   730
MULU.W Rm, Rn {:
nkeynes@359
   731
    sh4r.mac = (sh4r.mac&0xFFFFFFFF00000000LL) |
nkeynes@359
   732
               (uint32_t)((sh4r.r[Rm]&0xFFFF) * (sh4r.r[Rn]&0xFFFF));
nkeynes@359
   733
:}
nkeynes@359
   734
MULS.W Rm, Rn {:
nkeynes@359
   735
    sh4r.mac = (sh4r.mac&0xFFFFFFFF00000000LL) |
nkeynes@359
   736
               (uint32_t)(SIGNEXT32(sh4r.r[Rm]&0xFFFF) * SIGNEXT32(sh4r.r[Rn]&0xFFFF));
nkeynes@359
   737
:}
nkeynes@359
   738
NEGC Rm, Rn {:
nkeynes@359
   739
    tmp = 0 - sh4r.r[Rm];
nkeynes@359
   740
    sh4r.r[Rn] = tmp - sh4r.t;
nkeynes@359
   741
    sh4r.t = ( 0<tmp || tmp<sh4r.r[Rn] ? 1 : 0 );
nkeynes@359
   742
:}
nkeynes@359
   743
NEG Rm, Rn {: sh4r.r[Rn] = 0 - sh4r.r[Rm]; :}
nkeynes@359
   744
SUB Rm, Rn {: sh4r.r[Rn] -= sh4r.r[Rm]; :}
nkeynes@359
   745
SUBC Rm, Rn {: 
nkeynes@359
   746
    tmp = sh4r.r[Rn];
nkeynes@359
   747
    sh4r.r[Rn] = sh4r.r[Rn] - sh4r.r[Rm] - sh4r.t;
nkeynes@359
   748
    sh4r.t = (sh4r.r[Rn] > tmp || (sh4r.r[Rn] == tmp && sh4r.t == 1));
nkeynes@359
   749
:}
nkeynes@359
   750
nkeynes@359
   751
BRAF Rn {:
nkeynes@359
   752
     CHECKSLOTILLEGAL();
nkeynes@359
   753
     CHECKDEST( pc + 4 + sh4r.r[Rn] );
nkeynes@359
   754
     sh4r.in_delay_slot = 1;
nkeynes@359
   755
     sh4r.pc = sh4r.new_pc;
nkeynes@359
   756
     sh4r.new_pc = pc + 4 + sh4r.r[Rn];
nkeynes@359
   757
     return TRUE;
nkeynes@359
   758
:}
nkeynes@359
   759
BSRF Rn {:
nkeynes@359
   760
     CHECKSLOTILLEGAL();
nkeynes@359
   761
     CHECKDEST( pc + 4 + sh4r.r[Rn] );
nkeynes@359
   762
     sh4r.in_delay_slot = 1;
nkeynes@359
   763
     sh4r.pr = sh4r.pc + 4;
nkeynes@359
   764
     sh4r.pc = sh4r.new_pc;
nkeynes@359
   765
     sh4r.new_pc = pc + 4 + sh4r.r[Rn];
nkeynes@359
   766
     TRACE_CALL( pc, sh4r.new_pc );
nkeynes@359
   767
     return TRUE;
nkeynes@359
   768
:}
nkeynes@359
   769
BT disp {:
nkeynes@359
   770
    CHECKSLOTILLEGAL();
nkeynes@359
   771
    if( sh4r.t ) {
nkeynes@359
   772
        CHECKDEST( sh4r.pc + disp + 4 )
nkeynes@359
   773
        sh4r.pc += disp + 4;
nkeynes@359
   774
        sh4r.new_pc = sh4r.pc + 2;
nkeynes@359
   775
        return TRUE;
nkeynes@359
   776
    }
nkeynes@359
   777
:}
nkeynes@359
   778
BF disp {:
nkeynes@359
   779
    CHECKSLOTILLEGAL();
nkeynes@359
   780
    if( !sh4r.t ) {
nkeynes@359
   781
        CHECKDEST( sh4r.pc + disp + 4 )
nkeynes@359
   782
        sh4r.pc += disp + 4;
nkeynes@359
   783
        sh4r.new_pc = sh4r.pc + 2;
nkeynes@359
   784
        return TRUE;
nkeynes@359
   785
    }
nkeynes@359
   786
:}
nkeynes@359
   787
BT/S disp {:
nkeynes@359
   788
    CHECKSLOTILLEGAL();
nkeynes@359
   789
    if( sh4r.t ) {
nkeynes@359
   790
        CHECKDEST( sh4r.pc + disp + 4 )
nkeynes@359
   791
        sh4r.in_delay_slot = 1;
nkeynes@359
   792
        sh4r.pc = sh4r.new_pc;
nkeynes@359
   793
        sh4r.new_pc = pc + disp + 4;
nkeynes@359
   794
        sh4r.in_delay_slot = 1;
nkeynes@359
   795
        return TRUE;
nkeynes@359
   796
    }
nkeynes@359
   797
:}
nkeynes@359
   798
BF/S disp {:
nkeynes@359
   799
    CHECKSLOTILLEGAL();
nkeynes@359
   800
    if( !sh4r.t ) {
nkeynes@359
   801
        CHECKDEST( sh4r.pc + disp + 4 )
nkeynes@359
   802
        sh4r.in_delay_slot = 1;
nkeynes@359
   803
        sh4r.pc = sh4r.new_pc;
nkeynes@359
   804
        sh4r.new_pc = pc + disp + 4;
nkeynes@359
   805
        return TRUE;
nkeynes@359
   806
    }
nkeynes@359
   807
:}
nkeynes@359
   808
BRA disp {:
nkeynes@359
   809
    CHECKSLOTILLEGAL();
nkeynes@359
   810
    CHECKDEST( sh4r.pc + disp + 4 );
nkeynes@359
   811
    sh4r.in_delay_slot = 1;
nkeynes@359
   812
    sh4r.pc = sh4r.new_pc;
nkeynes@359
   813
    sh4r.new_pc = pc + 4 + disp;
nkeynes@359
   814
    return TRUE;
nkeynes@359
   815
:}
nkeynes@359
   816
BSR disp {:
nkeynes@359
   817
    CHECKDEST( sh4r.pc + disp + 4 );
nkeynes@359
   818
    CHECKSLOTILLEGAL();
nkeynes@359
   819
    sh4r.in_delay_slot = 1;
nkeynes@359
   820
    sh4r.pr = pc + 4;
nkeynes@359
   821
    sh4r.pc = sh4r.new_pc;
nkeynes@359
   822
    sh4r.new_pc = pc + 4 + disp;
nkeynes@359
   823
    TRACE_CALL( pc, sh4r.new_pc );
nkeynes@359
   824
    return TRUE;
nkeynes@359
   825
:}
nkeynes@359
   826
TRAPA #imm {:
nkeynes@359
   827
    CHECKSLOTILLEGAL();
nkeynes@359
   828
    sh4r.pc += 2;
nkeynes@586
   829
    sh4_raise_trap( imm );
nkeynes@586
   830
    return TRUE;
nkeynes@359
   831
:}
nkeynes@359
   832
RTS {: 
nkeynes@359
   833
    CHECKSLOTILLEGAL();
nkeynes@359
   834
    CHECKDEST( sh4r.pr );
nkeynes@359
   835
    sh4r.in_delay_slot = 1;
nkeynes@359
   836
    sh4r.pc = sh4r.new_pc;
nkeynes@359
   837
    sh4r.new_pc = sh4r.pr;
nkeynes@359
   838
    TRACE_RETURN( pc, sh4r.new_pc );
nkeynes@359
   839
    return TRUE;
nkeynes@359
   840
:}
nkeynes@359
   841
SLEEP {:
nkeynes@359
   842
    if( MMIO_READ( CPG, STBCR ) & 0x80 ) {
nkeynes@359
   843
	sh4r.sh4_state = SH4_STATE_STANDBY;
nkeynes@359
   844
    } else {
nkeynes@359
   845
	sh4r.sh4_state = SH4_STATE_SLEEP;
nkeynes@359
   846
    }
nkeynes@359
   847
    return FALSE; /* Halt CPU */
nkeynes@359
   848
:}
nkeynes@359
   849
RTE {:
nkeynes@359
   850
    CHECKPRIV();
nkeynes@359
   851
    CHECKDEST( sh4r.spc );
nkeynes@359
   852
    CHECKSLOTILLEGAL();
nkeynes@359
   853
    sh4r.in_delay_slot = 1;
nkeynes@359
   854
    sh4r.pc = sh4r.new_pc;
nkeynes@359
   855
    sh4r.new_pc = sh4r.spc;
nkeynes@374
   856
    sh4_write_sr( sh4r.ssr );
nkeynes@359
   857
    return TRUE;
nkeynes@359
   858
:}
nkeynes@359
   859
JMP @Rn {:
nkeynes@359
   860
    CHECKDEST( sh4r.r[Rn] );
nkeynes@359
   861
    CHECKSLOTILLEGAL();
nkeynes@359
   862
    sh4r.in_delay_slot = 1;
nkeynes@359
   863
    sh4r.pc = sh4r.new_pc;
nkeynes@359
   864
    sh4r.new_pc = sh4r.r[Rn];
nkeynes@359
   865
    return TRUE;
nkeynes@359
   866
:}
nkeynes@359
   867
JSR @Rn {:
nkeynes@359
   868
    CHECKDEST( sh4r.r[Rn] );
nkeynes@359
   869
    CHECKSLOTILLEGAL();
nkeynes@359
   870
    sh4r.in_delay_slot = 1;
nkeynes@359
   871
    sh4r.pc = sh4r.new_pc;
nkeynes@359
   872
    sh4r.new_pc = sh4r.r[Rn];
nkeynes@359
   873
    sh4r.pr = pc + 4;
nkeynes@359
   874
    TRACE_CALL( pc, sh4r.new_pc );
nkeynes@359
   875
    return TRUE;
nkeynes@359
   876
:}
nkeynes@359
   877
STS MACH, Rn {: sh4r.r[Rn] = (sh4r.mac>>32); :}
nkeynes@359
   878
STS.L MACH, @-Rn {:
nkeynes@587
   879
    CHECKWALIGN32( sh4r.r[Rn] );
nkeynes@587
   880
    MEM_WRITE_LONG( sh4r.r[Rn]-4, (sh4r.mac>>32) );
nkeynes@359
   881
    sh4r.r[Rn] -= 4;
nkeynes@359
   882
:}
nkeynes@359
   883
STC.L SR, @-Rn {:
nkeynes@359
   884
    CHECKPRIV();
nkeynes@587
   885
    CHECKWALIGN32( sh4r.r[Rn] );
nkeynes@587
   886
    MEM_WRITE_LONG( sh4r.r[Rn]-4, sh4_read_sr() );
nkeynes@359
   887
    sh4r.r[Rn] -= 4;
nkeynes@359
   888
:}
nkeynes@359
   889
LDS.L @Rm+, MACH {:
nkeynes@359
   890
    CHECKRALIGN32( sh4r.r[Rm] );
nkeynes@586
   891
    MEM_READ_LONG(sh4r.r[Rm], tmp);
nkeynes@359
   892
    sh4r.mac = (sh4r.mac & 0x00000000FFFFFFFF) |
nkeynes@586
   893
	(((uint64_t)tmp)<<32);
nkeynes@359
   894
    sh4r.r[Rm] += 4;
nkeynes@359
   895
:}
nkeynes@359
   896
LDC.L @Rm+, SR {:
nkeynes@359
   897
    CHECKSLOTILLEGAL();
nkeynes@359
   898
    CHECKPRIV();
nkeynes@359
   899
    CHECKWALIGN32( sh4r.r[Rm] );
nkeynes@586
   900
    MEM_READ_LONG(sh4r.r[Rm], tmp);
nkeynes@586
   901
    sh4_write_sr( tmp );
nkeynes@359
   902
    sh4r.r[Rm] +=4;
nkeynes@359
   903
:}
nkeynes@359
   904
LDS Rm, MACH {:
nkeynes@359
   905
    sh4r.mac = (sh4r.mac & 0x00000000FFFFFFFF) |
nkeynes@359
   906
               (((uint64_t)sh4r.r[Rm])<<32);
nkeynes@359
   907
:}
nkeynes@359
   908
LDC Rm, SR {:
nkeynes@359
   909
    CHECKSLOTILLEGAL();
nkeynes@359
   910
    CHECKPRIV();
nkeynes@374
   911
    sh4_write_sr( sh4r.r[Rm] );
nkeynes@359
   912
:}
nkeynes@359
   913
LDC Rm, SGR {:
nkeynes@359
   914
    CHECKPRIV();
nkeynes@359
   915
    sh4r.sgr = sh4r.r[Rm];
nkeynes@359
   916
:}
nkeynes@359
   917
LDC.L @Rm+, SGR {:
nkeynes@359
   918
    CHECKPRIV();
nkeynes@359
   919
    CHECKRALIGN32( sh4r.r[Rm] );
nkeynes@586
   920
    MEM_READ_LONG(sh4r.r[Rm], sh4r.sgr);
nkeynes@359
   921
    sh4r.r[Rm] +=4;
nkeynes@359
   922
:}
nkeynes@359
   923
STS MACL, Rn {: sh4r.r[Rn] = (uint32_t)sh4r.mac; :}
nkeynes@359
   924
STS.L MACL, @-Rn {:
nkeynes@587
   925
    CHECKWALIGN32( sh4r.r[Rn] );
nkeynes@587
   926
    MEM_WRITE_LONG( sh4r.r[Rn]-4, (uint32_t)sh4r.mac );
nkeynes@359
   927
    sh4r.r[Rn] -= 4;
nkeynes@359
   928
:}
nkeynes@359
   929
STC.L GBR, @-Rn {:
nkeynes@587
   930
    CHECKWALIGN32( sh4r.r[Rn] );
nkeynes@587
   931
    MEM_WRITE_LONG( sh4r.r[Rn]-4, sh4r.gbr );
nkeynes@359
   932
    sh4r.r[Rn] -= 4;
nkeynes@359
   933
:}
nkeynes@359
   934
LDS.L @Rm+, MACL {:
nkeynes@359
   935
    CHECKRALIGN32( sh4r.r[Rm] );
nkeynes@586
   936
    MEM_READ_LONG(sh4r.r[Rm], tmp);
nkeynes@359
   937
    sh4r.mac = (sh4r.mac & 0xFFFFFFFF00000000LL) |
nkeynes@586
   938
               (uint64_t)((uint32_t)tmp);
nkeynes@359
   939
    sh4r.r[Rm] += 4;
nkeynes@359
   940
:}
nkeynes@359
   941
LDC.L @Rm+, GBR {:
nkeynes@359
   942
    CHECKRALIGN32( sh4r.r[Rm] );
nkeynes@586
   943
    MEM_READ_LONG(sh4r.r[Rm], sh4r.gbr);
nkeynes@359
   944
    sh4r.r[Rm] +=4;
nkeynes@359
   945
:}
nkeynes@359
   946
LDS Rm, MACL {:
nkeynes@359
   947
    sh4r.mac = (sh4r.mac & 0xFFFFFFFF00000000LL) |
nkeynes@359
   948
               (uint64_t)((uint32_t)(sh4r.r[Rm]));
nkeynes@359
   949
:}
nkeynes@359
   950
LDC Rm, GBR {: sh4r.gbr = sh4r.r[Rm]; :}
nkeynes@359
   951
STS PR, Rn {: sh4r.r[Rn] = sh4r.pr; :}
nkeynes@359
   952
STS.L PR, @-Rn {:
nkeynes@587
   953
    CHECKWALIGN32( sh4r.r[Rn] );
nkeynes@587
   954
    MEM_WRITE_LONG( sh4r.r[Rn]-4, sh4r.pr );
nkeynes@359
   955
    sh4r.r[Rn] -= 4;
nkeynes@359
   956
:}
nkeynes@359
   957
STC.L VBR, @-Rn {:
nkeynes@359
   958
    CHECKPRIV();
nkeynes@587
   959
    CHECKWALIGN32( sh4r.r[Rn] );
nkeynes@587
   960
    MEM_WRITE_LONG( sh4r.r[Rn]-4, sh4r.vbr );
nkeynes@359
   961
    sh4r.r[Rn] -= 4;
nkeynes@359
   962
:}
nkeynes@359
   963
LDS.L @Rm+, PR {:
nkeynes@359
   964
    CHECKRALIGN32( sh4r.r[Rm] );
nkeynes@586
   965
    MEM_READ_LONG( sh4r.r[Rm], sh4r.pr );
nkeynes@359
   966
    sh4r.r[Rm] += 4;
nkeynes@359
   967
:}
nkeynes@359
   968
LDC.L @Rm+, VBR {:
nkeynes@359
   969
    CHECKPRIV();
nkeynes@359
   970
    CHECKRALIGN32( sh4r.r[Rm] );
nkeynes@586
   971
    MEM_READ_LONG(sh4r.r[Rm], sh4r.vbr);
nkeynes@359
   972
    sh4r.r[Rm] +=4;
nkeynes@359
   973
:}
nkeynes@359
   974
LDS Rm, PR {: sh4r.pr = sh4r.r[Rm]; :}
nkeynes@359
   975
LDC Rm, VBR {:
nkeynes@359
   976
    CHECKPRIV();
nkeynes@359
   977
    sh4r.vbr = sh4r.r[Rm];
nkeynes@359
   978
:}
nkeynes@359
   979
STC SGR, Rn {:
nkeynes@359
   980
    CHECKPRIV();
nkeynes@359
   981
    sh4r.r[Rn] = sh4r.sgr;
nkeynes@359
   982
:}
nkeynes@359
   983
STC.L SGR, @-Rn {:
nkeynes@359
   984
    CHECKPRIV();
nkeynes@587
   985
    CHECKWALIGN32( sh4r.r[Rn] );
nkeynes@587
   986
    MEM_WRITE_LONG( sh4r.r[Rn]-4, sh4r.sgr );
nkeynes@359
   987
    sh4r.r[Rn] -= 4;
nkeynes@359
   988
:}
nkeynes@359
   989
STC.L SSR, @-Rn {:
nkeynes@359
   990
    CHECKPRIV();
nkeynes@587
   991
    CHECKWALIGN32( sh4r.r[Rn] );
nkeynes@587
   992
    MEM_WRITE_LONG( sh4r.r[Rn]-4, sh4r.ssr );
nkeynes@359
   993
    sh4r.r[Rn] -= 4;
nkeynes@359
   994
:}
nkeynes@359
   995
LDC.L @Rm+, SSR {:
nkeynes@359
   996
    CHECKPRIV();
nkeynes@359
   997
    CHECKRALIGN32( sh4r.r[Rm] );
nkeynes@586
   998
    MEM_READ_LONG(sh4r.r[Rm], sh4r.ssr);
nkeynes@359
   999
    sh4r.r[Rm] +=4;
nkeynes@359
  1000
:}
nkeynes@359
  1001
LDC Rm, SSR {:
nkeynes@359
  1002
    CHECKPRIV();
nkeynes@359
  1003
    sh4r.ssr = sh4r.r[Rm];
nkeynes@359
  1004
:}
nkeynes@359
  1005
STC.L SPC, @-Rn {:
nkeynes@359
  1006
    CHECKPRIV();
nkeynes@587
  1007
    CHECKWALIGN32( sh4r.r[Rn] );
nkeynes@587
  1008
    MEM_WRITE_LONG( sh4r.r[Rn]-4, sh4r.spc );
nkeynes@359
  1009
    sh4r.r[Rn] -= 4;
nkeynes@359
  1010
:}
nkeynes@359
  1011
LDC.L @Rm+, SPC {:
nkeynes@359
  1012
    CHECKPRIV();
nkeynes@359
  1013
    CHECKRALIGN32( sh4r.r[Rm] );
nkeynes@586
  1014
    MEM_READ_LONG(sh4r.r[Rm], sh4r.spc);
nkeynes@359
  1015
    sh4r.r[Rm] +=4;
nkeynes@359
  1016
:}
nkeynes@359
  1017
LDC Rm, SPC {:
nkeynes@359
  1018
    CHECKPRIV();
nkeynes@359
  1019
    sh4r.spc = sh4r.r[Rm];
nkeynes@359
  1020
:}
nkeynes@626
  1021
STS FPUL, Rn {: 
nkeynes@626
  1022
    CHECKFPUEN();
nkeynes@669
  1023
    sh4r.r[Rn] = FPULi; 
nkeynes@626
  1024
:}
nkeynes@359
  1025
STS.L FPUL, @-Rn {:
nkeynes@626
  1026
    CHECKFPUEN();
nkeynes@587
  1027
    CHECKWALIGN32( sh4r.r[Rn] );
nkeynes@669
  1028
    MEM_WRITE_LONG( sh4r.r[Rn]-4, FPULi );
nkeynes@359
  1029
    sh4r.r[Rn] -= 4;
nkeynes@359
  1030
:}
nkeynes@359
  1031
LDS.L @Rm+, FPUL {:
nkeynes@626
  1032
    CHECKFPUEN();
nkeynes@359
  1033
    CHECKRALIGN32( sh4r.r[Rm] );
nkeynes@669
  1034
    MEM_READ_LONG(sh4r.r[Rm], FPULi);
nkeynes@359
  1035
    sh4r.r[Rm] +=4;
nkeynes@359
  1036
:}
nkeynes@626
  1037
LDS Rm, FPUL {:
nkeynes@626
  1038
    CHECKFPUEN();
nkeynes@669
  1039
    FPULi = sh4r.r[Rm]; 
nkeynes@626
  1040
:}
nkeynes@626
  1041
STS FPSCR, Rn {: 
nkeynes@626
  1042
    CHECKFPUEN();
nkeynes@626
  1043
    sh4r.r[Rn] = sh4r.fpscr; 
nkeynes@626
  1044
:}
nkeynes@359
  1045
STS.L FPSCR, @-Rn {:
nkeynes@626
  1046
    CHECKFPUEN();
nkeynes@587
  1047
    CHECKWALIGN32( sh4r.r[Rn] );
nkeynes@587
  1048
    MEM_WRITE_LONG( sh4r.r[Rn]-4, sh4r.fpscr );
nkeynes@359
  1049
    sh4r.r[Rn] -= 4;
nkeynes@359
  1050
:}
nkeynes@359
  1051
LDS.L @Rm+, FPSCR {:
nkeynes@626
  1052
    CHECKFPUEN();
nkeynes@359
  1053
    CHECKRALIGN32( sh4r.r[Rm] );
nkeynes@669
  1054
    MEM_READ_LONG(sh4r.r[Rm], tmp);
nkeynes@359
  1055
    sh4r.r[Rm] +=4;
nkeynes@669
  1056
    sh4_write_fpscr( tmp );
nkeynes@359
  1057
:}
nkeynes@374
  1058
LDS Rm, FPSCR {: 
nkeynes@626
  1059
    CHECKFPUEN();
nkeynes@669
  1060
    sh4_write_fpscr( sh4r.r[Rm] );
nkeynes@374
  1061
:}
nkeynes@359
  1062
STC DBR, Rn {: CHECKPRIV(); sh4r.r[Rn] = sh4r.dbr; :}
nkeynes@359
  1063
STC.L DBR, @-Rn {:
nkeynes@359
  1064
    CHECKPRIV();
nkeynes@587
  1065
    CHECKWALIGN32( sh4r.r[Rn] );
nkeynes@587
  1066
    MEM_WRITE_LONG( sh4r.r[Rn]-4, sh4r.dbr );
nkeynes@359
  1067
    sh4r.r[Rn] -= 4;
nkeynes@359
  1068
:}
nkeynes@359
  1069
LDC.L @Rm+, DBR {:
nkeynes@359
  1070
    CHECKPRIV();
nkeynes@359
  1071
    CHECKRALIGN32( sh4r.r[Rm] );
nkeynes@586
  1072
    MEM_READ_LONG(sh4r.r[Rm], sh4r.dbr);
nkeynes@359
  1073
    sh4r.r[Rm] +=4;
nkeynes@359
  1074
:}
nkeynes@359
  1075
LDC Rm, DBR {:
nkeynes@359
  1076
    CHECKPRIV();
nkeynes@359
  1077
    sh4r.dbr = sh4r.r[Rm];
nkeynes@359
  1078
:}
nkeynes@359
  1079
STC.L Rm_BANK, @-Rn {:
nkeynes@359
  1080
    CHECKPRIV();
nkeynes@587
  1081
    CHECKWALIGN32( sh4r.r[Rn] );
nkeynes@587
  1082
    MEM_WRITE_LONG( sh4r.r[Rn]-4, sh4r.r_bank[Rm_BANK] );
nkeynes@359
  1083
    sh4r.r[Rn] -= 4;
nkeynes@359
  1084
:}
nkeynes@359
  1085
LDC.L @Rm+, Rn_BANK {:
nkeynes@359
  1086
    CHECKPRIV();
nkeynes@359
  1087
    CHECKRALIGN32( sh4r.r[Rm] );
nkeynes@586
  1088
    MEM_READ_LONG( sh4r.r[Rm], sh4r.r_bank[Rn_BANK] );
nkeynes@359
  1089
    sh4r.r[Rm] += 4;
nkeynes@359
  1090
:}
nkeynes@359
  1091
LDC Rm, Rn_BANK {:
nkeynes@359
  1092
    CHECKPRIV();
nkeynes@359
  1093
    sh4r.r_bank[Rn_BANK] = sh4r.r[Rm];
nkeynes@359
  1094
:}
nkeynes@359
  1095
STC SR, Rn {: 
nkeynes@359
  1096
    CHECKPRIV();
nkeynes@359
  1097
    sh4r.r[Rn] = sh4_read_sr();
nkeynes@359
  1098
:}
nkeynes@359
  1099
STC GBR, Rn {:
nkeynes@359
  1100
    sh4r.r[Rn] = sh4r.gbr;
nkeynes@359
  1101
:}
nkeynes@359
  1102
STC VBR, Rn {:
nkeynes@359
  1103
    CHECKPRIV();
nkeynes@359
  1104
    sh4r.r[Rn] = sh4r.vbr;
nkeynes@359
  1105
:}
nkeynes@359
  1106
STC SSR, Rn {:
nkeynes@359
  1107
    CHECKPRIV();
nkeynes@359
  1108
    sh4r.r[Rn] = sh4r.ssr;
nkeynes@359
  1109
:}
nkeynes@359
  1110
STC SPC, Rn {:
nkeynes@359
  1111
    CHECKPRIV();
nkeynes@359
  1112
    sh4r.r[Rn] = sh4r.spc;
nkeynes@359
  1113
:}
nkeynes@359
  1114
STC Rm_BANK, Rn {:
nkeynes@359
  1115
    CHECKPRIV();
nkeynes@359
  1116
    sh4r.r[Rn] = sh4r.r_bank[Rm_BANK];
nkeynes@359
  1117
:}
nkeynes@359
  1118
nkeynes@359
  1119
FADD FRm, FRn {:
nkeynes@359
  1120
    CHECKFPUEN();
nkeynes@359
  1121
    if( IS_FPU_DOUBLEPREC() ) {
nkeynes@359
  1122
	DR(FRn) += DR(FRm);
nkeynes@359
  1123
    } else {
nkeynes@359
  1124
	FR(FRn) += FR(FRm);
nkeynes@359
  1125
    }
nkeynes@359
  1126
:}
nkeynes@359
  1127
FSUB FRm, FRn {:
nkeynes@359
  1128
    CHECKFPUEN();
nkeynes@359
  1129
    if( IS_FPU_DOUBLEPREC() ) {
nkeynes@359
  1130
	DR(FRn) -= DR(FRm);
nkeynes@359
  1131
    } else {
nkeynes@359
  1132
	FR(FRn) -= FR(FRm);
nkeynes@359
  1133
    }
nkeynes@359
  1134
:}
nkeynes@359
  1135
nkeynes@359
  1136
FMUL FRm, FRn {:
nkeynes@359
  1137
    CHECKFPUEN();
nkeynes@359
  1138
    if( IS_FPU_DOUBLEPREC() ) {
nkeynes@359
  1139
	DR(FRn) *= DR(FRm);
nkeynes@359
  1140
    } else {
nkeynes@359
  1141
	FR(FRn) *= FR(FRm);
nkeynes@359
  1142
    }
nkeynes@359
  1143
:}
nkeynes@359
  1144
nkeynes@359
  1145
FDIV FRm, FRn {:
nkeynes@359
  1146
    CHECKFPUEN();
nkeynes@359
  1147
    if( IS_FPU_DOUBLEPREC() ) {
nkeynes@359
  1148
	DR(FRn) /= DR(FRm);
nkeynes@359
  1149
    } else {
nkeynes@359
  1150
	FR(FRn) /= FR(FRm);
nkeynes@359
  1151
    }
nkeynes@359
  1152
:}
nkeynes@359
  1153
nkeynes@359
  1154
FCMP/EQ FRm, FRn {:
nkeynes@359
  1155
    CHECKFPUEN();
nkeynes@359
  1156
    if( IS_FPU_DOUBLEPREC() ) {
nkeynes@359
  1157
	sh4r.t = ( DR(FRn) == DR(FRm) ? 1 : 0 );
nkeynes@359
  1158
    } else {
nkeynes@359
  1159
	sh4r.t = ( FR(FRn) == FR(FRm) ? 1 : 0 );
nkeynes@359
  1160
    }
nkeynes@359
  1161
:}
nkeynes@359
  1162
nkeynes@359
  1163
FCMP/GT FRm, FRn {:
nkeynes@359
  1164
    CHECKFPUEN();
nkeynes@359
  1165
    if( IS_FPU_DOUBLEPREC() ) {
nkeynes@359
  1166
	sh4r.t = ( DR(FRn) > DR(FRm) ? 1 : 0 );
nkeynes@359
  1167
    } else {
nkeynes@359
  1168
	sh4r.t = ( FR(FRn) > FR(FRm) ? 1 : 0 );
nkeynes@359
  1169
    }
nkeynes@359
  1170
:}
nkeynes@359
  1171
nkeynes@359
  1172
FSTS FPUL, FRn {: CHECKFPUEN(); FR(FRn) = FPULf; :}
nkeynes@359
  1173
FLDS FRm, FPUL {: CHECKFPUEN(); FPULf = FR(FRm); :}
nkeynes@359
  1174
FLOAT FPUL, FRn {: 
nkeynes@359
  1175
    CHECKFPUEN();
nkeynes@374
  1176
    if( IS_FPU_DOUBLEPREC() ) {
nkeynes@374
  1177
	if( FRn&1 ) { // No, really...
nkeynes@374
  1178
	    dtmp = (double)FPULi;
nkeynes@374
  1179
	    FR(FRn) = *(((float *)&dtmp)+1);
nkeynes@374
  1180
	} else {
nkeynes@374
  1181
	    DRF(FRn>>1) = (double)FPULi;
nkeynes@374
  1182
	}
nkeynes@374
  1183
    } else {
nkeynes@359
  1184
	FR(FRn) = (float)FPULi;
nkeynes@374
  1185
    }
nkeynes@359
  1186
:}
nkeynes@359
  1187
FTRC FRm, FPUL {:
nkeynes@359
  1188
    CHECKFPUEN();
nkeynes@359
  1189
    if( IS_FPU_DOUBLEPREC() ) {
nkeynes@374
  1190
	if( FRm&1 ) {
nkeynes@374
  1191
	    dtmp = 0;
nkeynes@374
  1192
	    *(((float *)&dtmp)+1) = FR(FRm);
nkeynes@374
  1193
	} else {
nkeynes@374
  1194
	    dtmp = DRF(FRm>>1);
nkeynes@374
  1195
	}
nkeynes@359
  1196
        if( dtmp >= MAX_INTF )
nkeynes@359
  1197
            FPULi = MAX_INT;
nkeynes@359
  1198
        else if( dtmp <= MIN_INTF )
nkeynes@359
  1199
            FPULi = MIN_INT;
nkeynes@359
  1200
        else 
nkeynes@359
  1201
            FPULi = (int32_t)dtmp;
nkeynes@359
  1202
    } else {
nkeynes@359
  1203
	ftmp = FR(FRm);
nkeynes@359
  1204
	if( ftmp >= MAX_INTF )
nkeynes@359
  1205
	    FPULi = MAX_INT;
nkeynes@359
  1206
	else if( ftmp <= MIN_INTF )
nkeynes@359
  1207
	    FPULi = MIN_INT;
nkeynes@359
  1208
	else
nkeynes@359
  1209
	    FPULi = (int32_t)ftmp;
nkeynes@359
  1210
    }
nkeynes@359
  1211
:}
nkeynes@359
  1212
FNEG FRn {:
nkeynes@359
  1213
    CHECKFPUEN();
nkeynes@359
  1214
    if( IS_FPU_DOUBLEPREC() ) {
nkeynes@359
  1215
	DR(FRn) = -DR(FRn);
nkeynes@359
  1216
    } else {
nkeynes@359
  1217
        FR(FRn) = -FR(FRn);
nkeynes@359
  1218
    }
nkeynes@359
  1219
:}
nkeynes@359
  1220
FABS FRn {:
nkeynes@359
  1221
    CHECKFPUEN();
nkeynes@359
  1222
    if( IS_FPU_DOUBLEPREC() ) {
nkeynes@359
  1223
	DR(FRn) = fabs(DR(FRn));
nkeynes@359
  1224
    } else {
nkeynes@359
  1225
        FR(FRn) = fabsf(FR(FRn));
nkeynes@359
  1226
    }
nkeynes@359
  1227
:}
nkeynes@359
  1228
FSQRT FRn {:
nkeynes@359
  1229
    CHECKFPUEN();
nkeynes@359
  1230
    if( IS_FPU_DOUBLEPREC() ) {
nkeynes@359
  1231
	DR(FRn) = sqrt(DR(FRn));
nkeynes@359
  1232
    } else {
nkeynes@359
  1233
        FR(FRn) = sqrtf(FR(FRn));
nkeynes@359
  1234
    }
nkeynes@359
  1235
:}
nkeynes@359
  1236
FLDI0 FRn {:
nkeynes@359
  1237
    CHECKFPUEN();
nkeynes@359
  1238
    if( IS_FPU_DOUBLEPREC() ) {
nkeynes@359
  1239
	DR(FRn) = 0.0;
nkeynes@359
  1240
    } else {
nkeynes@359
  1241
        FR(FRn) = 0.0;
nkeynes@359
  1242
    }
nkeynes@359
  1243
:}
nkeynes@359
  1244
FLDI1 FRn {:
nkeynes@359
  1245
    CHECKFPUEN();
nkeynes@359
  1246
    if( IS_FPU_DOUBLEPREC() ) {
nkeynes@359
  1247
	DR(FRn) = 1.0;
nkeynes@359
  1248
    } else {
nkeynes@359
  1249
        FR(FRn) = 1.0;
nkeynes@359
  1250
    }
nkeynes@359
  1251
:}
nkeynes@359
  1252
FMAC FR0, FRm, FRn {:
nkeynes@359
  1253
    CHECKFPUEN();
nkeynes@359
  1254
    if( IS_FPU_DOUBLEPREC() ) {
nkeynes@359
  1255
        DR(FRn) += DR(FRm)*DR(0);
nkeynes@359
  1256
    } else {
nkeynes@359
  1257
	FR(FRn) += FR(FRm)*FR(0);
nkeynes@359
  1258
    }
nkeynes@359
  1259
:}
nkeynes@374
  1260
FRCHG {: 
nkeynes@374
  1261
    CHECKFPUEN(); 
nkeynes@374
  1262
    sh4r.fpscr ^= FPSCR_FR; 
nkeynes@669
  1263
    sh4_switch_fr_banks();
nkeynes@374
  1264
:}
nkeynes@359
  1265
FSCHG {: CHECKFPUEN(); sh4r.fpscr ^= FPSCR_SZ; :}
nkeynes@359
  1266
FCNVSD FPUL, FRn {:
nkeynes@359
  1267
    CHECKFPUEN();
nkeynes@359
  1268
    if( IS_FPU_DOUBLEPREC() && !IS_FPU_DOUBLESIZE() ) {
nkeynes@359
  1269
	DR(FRn) = (double)FPULf;
nkeynes@359
  1270
    }
nkeynes@359
  1271
:}
nkeynes@359
  1272
FCNVDS FRm, FPUL {:
nkeynes@359
  1273
    CHECKFPUEN();
nkeynes@359
  1274
    if( IS_FPU_DOUBLEPREC() && !IS_FPU_DOUBLESIZE() ) {
nkeynes@359
  1275
	FPULf = (float)DR(FRm);
nkeynes@359
  1276
    }
nkeynes@359
  1277
:}
nkeynes@359
  1278
nkeynes@359
  1279
FSRRA FRn {:
nkeynes@359
  1280
    CHECKFPUEN();
nkeynes@359
  1281
    if( !IS_FPU_DOUBLEPREC() ) {
nkeynes@359
  1282
	FR(FRn) = 1.0/sqrtf(FR(FRn));
nkeynes@359
  1283
    }
nkeynes@359
  1284
:}
nkeynes@359
  1285
FIPR FVm, FVn {:
nkeynes@359
  1286
    CHECKFPUEN();
nkeynes@359
  1287
    if( !IS_FPU_DOUBLEPREC() ) {
nkeynes@359
  1288
        int tmp2 = FVn<<2;
nkeynes@359
  1289
        tmp = FVm<<2;
nkeynes@359
  1290
        FR(tmp2+3) = FR(tmp)*FR(tmp2) +
nkeynes@359
  1291
            FR(tmp+1)*FR(tmp2+1) +
nkeynes@359
  1292
            FR(tmp+2)*FR(tmp2+2) +
nkeynes@359
  1293
            FR(tmp+3)*FR(tmp2+3);
nkeynes@359
  1294
    }
nkeynes@359
  1295
:}
nkeynes@359
  1296
FSCA FPUL, FRn {:
nkeynes@359
  1297
    CHECKFPUEN();
nkeynes@359
  1298
    if( !IS_FPU_DOUBLEPREC() ) {
nkeynes@758
  1299
	sh4_fsca( FPULi, (float *)&(DRF(FRn>>1)) );
nkeynes@359
  1300
    }
nkeynes@359
  1301
:}
nkeynes@359
  1302
FTRV XMTRX, FVn {:
nkeynes@359
  1303
    CHECKFPUEN();
nkeynes@359
  1304
    if( !IS_FPU_DOUBLEPREC() ) {
nkeynes@758
  1305
	sh4_ftrv((float *)&(DRF(FVn<<1)) );
nkeynes@359
  1306
    }
nkeynes@359
  1307
:}
nkeynes@359
  1308
UNDEF {:
nkeynes@359
  1309
    UNDEF(ir);
nkeynes@359
  1310
:}
nkeynes@359
  1311
%%
nkeynes@359
  1312
    sh4r.pc = sh4r.new_pc;
nkeynes@359
  1313
    sh4r.new_pc += 2;
nkeynes@927
  1314
nkeynes@927
  1315
except:
nkeynes@359
  1316
    sh4r.in_delay_slot = 0;
nkeynes@359
  1317
    return TRUE;
nkeynes@359
  1318
}
.