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lxdream.org :: lxdream/src/sh4/sh4core.h
lxdream 0.9.1
released Jun 29
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filename src/sh4/sh4core.h
changeset 589:045ba6eb6df1
prev586:2a3ba82cf243
next591:7b9612fd2395
author nkeynes
date Wed Jan 16 09:37:47 2008 +0000 (14 years ago)
permissions -rw-r--r--
last change Fix vma lookups after itlb exception
file annotate diff log raw
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/**
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 * $Id$
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 * 
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 * This file defines the internal functions exported/used by the SH4 core, 
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 * except for disassembly functions defined in sh4dasm.h
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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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 */
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#ifndef sh4core_H
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#define sh4core_H 1
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#include <glib/gtypes.h>
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#include <stdint.h>
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#include <stdio.h>
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#include "mem.h"
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#include "sh4/sh4.h"
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#ifdef __cplusplus
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extern "C" {
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#endif
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/* Breakpoint data structure */
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extern struct breakpoint_struct sh4_breakpoints[MAX_BREAKPOINTS];
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extern int sh4_breakpoint_count;
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extern sh4ptr_t sh4_main_ram;
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/**
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 * Cached direct pointer to the current instruction page. If AT is on, this
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 * is derived from the ITLB, otherwise this will be the entire memory region.
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 * This is actually a fairly useful optimization, as we can make a lot of
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 * assumptions about the "current page" that we can't make in general for
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 * arbitrary virtual addresses.
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 */
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struct sh4_icache_struct {
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    sh4ptr_t page; // Page pointer (NULL if no page)
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    sh4vma_t page_vma; // virtual address of the page.
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    sh4addr_t page_ppa; // physical address of the page
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    uint32_t mask;  // page mask 
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};
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extern struct sh4_icache_struct sh4_icache;
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/**
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 * Test if a given address is contained in the current icache entry
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 */
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#define IS_IN_ICACHE(addr) (sh4_icache.page_vma == ((addr) & sh4_icache.mask))
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/**
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 * Return a pointer for the given vma, under the assumption that it is
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 * actually contained in the current icache entry.
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 */
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#define GET_ICACHE_PTR(addr) (sh4_icache.page + ((addr)-sh4_icache.page_vma))
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/**
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 * Return the physical (external) address for the given vma, assuming that it is
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 * actually contained in the current icache entry.
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 */
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#define GET_ICACHE_PHYS(addr) (sh4_icache.page_ppa + ((addr)-sh4_icache.page_vma))
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/**
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 * Return the virtual (vma) address for the first address past the end of the 
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 * cache entry. Assumes that there is in fact a current icache entry.
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 */
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#define GET_ICACHE_END() (sh4_icache.page_vma + (~sh4_icache.mask) + 1)
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/* SH4 module functions */
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void sh4_init( void );
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void sh4_reset( void );
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void sh4_run( void );
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void sh4_stop( void );
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/* SH4 peripheral module functions */
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void CPG_reset( void );
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void DMAC_reset( void );
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void DMAC_run_slice( uint32_t );
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void DMAC_save_state( FILE * );
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int DMAC_load_state( FILE * );
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void INTC_reset( void );
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void INTC_save_state( FILE *f );
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int INTC_load_state( FILE *f );
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void MMU_init( void );
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void MMU_reset( void );
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void MMU_save_state( FILE *f );
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int MMU_load_state( FILE *f );
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void MMU_ldtlb();
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void SCIF_reset( void );
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void SCIF_run_slice( uint32_t );
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void SCIF_save_state( FILE *f );
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int SCIF_load_state( FILE *f );
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void SCIF_update_line_speed(void);
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void TMU_reset( void );
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void TMU_run_slice( uint32_t );
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void TMU_save_state( FILE * );
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int TMU_load_state( FILE * );
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void TMU_update_clocks( void );
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/* SH4 instruction support methods */
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void sh4_sleep( void );
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void sh4_fsca( uint32_t angle, float *fr );
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void sh4_ftrv( float *fv, float *xmtrx );
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uint32_t sh4_read_sr(void);
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void sh4_write_sr(uint32_t val);
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void signsat48(void);
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/* SH4 Memory */
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#define MMU_VMA_ERROR 0x8000000
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/**
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 * Update the sh4_icache structure to contain the specified vma. If the vma
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 * cannot be resolved, an MMU exception is raised and the function returns
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 * FALSE. Otherwise, returns TRUE and updates sh4_icache accordingly.
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 * Note: If the vma resolves to a non-memory area, sh4_icache will be 
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 * invalidated, but the function will still return TRUE.
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 * @return FALSE if an MMU exception was raised, otherwise TRUE.
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 */
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gboolean mmu_update_icache( sh4vma_t addr );
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/**
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 * Resolve a virtual address through the TLB for a read operation, returning 
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 * the resultant P4 or external address. If the resolution fails, the 
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 * appropriate MMU exception is raised and the value MMU_VMA_ERROR is returned.
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 * @return An external address (0x00000000-0x1FFFFFFF), a P4 address
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 * (0xE0000000 - 0xFFFFFFFF), or MMU_VMA_ERROR.
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 */
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sh4addr_t mmu_vma_to_phys_read( sh4vma_t addr );
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sh4addr_t mmu_vma_to_phys_write( sh4vma_t addr );
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int64_t sh4_read_quad( sh4addr_t addr );
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int32_t sh4_read_long( sh4addr_t addr );
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int32_t sh4_read_word( sh4addr_t addr );
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int32_t sh4_read_byte( sh4addr_t addr );
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void sh4_write_quad( sh4addr_t addr, uint64_t val );
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void sh4_write_long( sh4addr_t addr, uint32_t val );
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void sh4_write_word( sh4addr_t addr, uint32_t val );
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void sh4_write_byte( sh4addr_t addr, uint32_t val );
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int32_t sh4_read_phys_word( sh4addr_t addr );
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gboolean sh4_flush_store_queue( sh4addr_t addr );
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/* SH4 Exceptions */
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#define EXC_POWER_RESET     0x000 /* reset vector */
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#define EXC_MANUAL_RESET    0x020 /* reset vector */
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#define EXC_TLB_MISS_READ   0x040 /* TLB vector */
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#define EXC_TLB_MISS_WRITE  0x060 /* TLB vector */
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#define EXC_INIT_PAGE_WRITE 0x080
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#define EXC_TLB_PROT_READ   0x0A0
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#define EXC_TLB_PROT_WRITE  0x0C0
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#define EXC_DATA_ADDR_READ  0x0E0
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#define EXC_DATA_ADDR_WRITE 0x100
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#define EXC_TLB_MULTI_HIT   0x140
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#define EXC_SLOT_ILLEGAL    0x1A0
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#define EXC_ILLEGAL         0x180
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#define EXC_TRAP            0x160
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#define EXC_FPU_DISABLED    0x800
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#define EXC_SLOT_FPU_DISABLED 0x820
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#define EXV_EXCEPTION    0x100  /* General exception vector */
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#define EXV_TLBMISS      0x400  /* TLB-miss exception vector */
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#define EXV_INTERRUPT    0x600  /* External interrupt vector */
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gboolean sh4_raise_exception( int );
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gboolean sh4_raise_reset( int );
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gboolean sh4_raise_trap( int );
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gboolean sh4_raise_slot_exception( int, int );
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gboolean sh4_raise_tlb_exception( int );
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void sh4_accept_interrupt( void );
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#define SIGNEXT4(n) ((((int32_t)(n))<<28)>>28)
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#define SIGNEXT8(n) ((int32_t)((int8_t)(n)))
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#define SIGNEXT12(n) ((((int32_t)(n))<<20)>>20)
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#define SIGNEXT16(n) ((int32_t)((int16_t)(n)))
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#define SIGNEXT32(n) ((int64_t)((int32_t)(n)))
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#define SIGNEXT48(n) ((((int64_t)(n))<<16)>>16)
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#define ZEROEXT32(n) ((int64_t)((uint64_t)((uint32_t)(n))))
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/* Status Register (SR) bits */
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#define SR_MD    0x40000000 /* Processor mode ( User=0, Privileged=1 ) */ 
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#define SR_RB    0x20000000 /* Register bank (priviledged mode only) */
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#define SR_BL    0x10000000 /* Exception/interupt block (1 = masked) */
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#define SR_FD    0x00008000 /* FPU disable */
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#define SR_M     0x00000200
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#define SR_Q     0x00000100
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#define SR_IMASK 0x000000F0 /* Interrupt mask level */
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#define SR_S     0x00000002 /* Saturation operation for MAC instructions */
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#define SR_T     0x00000001 /* True/false or carry/borrow */
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#define SR_MASK  0x700083F3
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#define SR_MQSTMASK 0xFFFFFCFC /* Mask to clear the flags we're keeping separately */
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#define SR_MDRB  0x60000000 /* MD+RB mask for convenience */
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#define IS_SH4_PRIVMODE() (sh4r.sr&SR_MD)
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#define SH4_INTMASK() ((sh4r.sr&SR_IMASK)>>4)
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#define SH4_EVENT_PENDING() (sh4r.event_pending <= sh4r.slice_cycle && !sh4r.in_delay_slot)
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#define FPSCR_FR     0x00200000 /* FPU register bank */
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#define FPSCR_SZ     0x00100000 /* FPU transfer size (0=32 bits, 1=64 bits) */
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#define FPSCR_PR     0x00080000 /* Precision (0=32 bites, 1=64 bits) */
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#define FPSCR_DN     0x00040000 /* Denormalization mode (1 = treat as 0) */
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#define FPSCR_CAUSE  0x0003F000
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#define FPSCR_ENABLE 0x00000F80
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#define FPSCR_FLAG   0x0000007C
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#define FPSCR_RM     0x00000003 /* Rounding mode (0=nearest, 1=to zero) */
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#define IS_FPU_DOUBLEPREC() (sh4r.fpscr&FPSCR_PR)
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#define IS_FPU_DOUBLESIZE() (sh4r.fpscr&FPSCR_SZ)
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#define IS_FPU_ENABLED() ((sh4r.sr&SR_FD)==0)
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#define FR(x) sh4r.fr_bank[(x)^1]
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#define DRF(x) ((double *)sh4r.fr_bank)[x]
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#define XF(x) sh4r.fr[((~sh4r.fpscr)&FPSCR_FR)>>21][(x)^1]
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#define XDR(x) ((double *)(sh4r.fr[((~sh4r.fpscr)&FPSCR_FR)>>21]))[x]
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#define DRb(x,b) ((double *)(sh4r.fr[((b ? (~sh4r.fpscr) : sh4r.fpscr)&FPSCR_FR)>>21]))[x]
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#define DR(x) DRb((x>>1), (x&1))
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#define FPULf   *((float *)&sh4r.fpul)
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#define FPULi    (sh4r.fpul)
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#define SH4_WRITE_STORE_QUEUE(addr,val) sh4r.store_queue[(addr>>2)&0xF] = val;
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#ifdef __cplusplus
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}
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#endif
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#endif
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