diff options
Diffstat (limited to 'src/devices/cpu/sh4/sh4comn.c')
-rw-r--r-- | src/devices/cpu/sh4/sh4comn.c | 1238 |
1 files changed, 1238 insertions, 0 deletions
diff --git a/src/devices/cpu/sh4/sh4comn.c b/src/devices/cpu/sh4/sh4comn.c new file mode 100644 index 00000000000..5052622e2d4 --- /dev/null +++ b/src/devices/cpu/sh4/sh4comn.c @@ -0,0 +1,1238 @@ +// license:BSD-3-Clause +// copyright-holders:R. Belmont +/***************************************************************************** + * + * sh4comn.c + * + * SH-4 non-specific components + * + *****************************************************************************/ + +#include "emu.h" +#include "debugger.h" +#include "sh4.h" +#include "sh4regs.h" +#include "sh4comn.h" +#include "sh3comn.h" +#include "sh4tmu.h" +#include "sh4dmac.h" + +static const int rtcnt_div[8] = { 0, 4, 16, 64, 256, 1024, 2048, 4096 }; +static const int daysmonth[12] = { 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 }; + + + +static const UINT32 exception_priority_default[] = { + EXPPRI(1,1,0,0), /* Power-on Reset */ + EXPPRI(1,2,0,1), /* Manual Reset */ + EXPPRI(1,1,0,2), /* H-UDI Reset */ + EXPPRI(1,3,0,3), /* Inst TLB Multiple Hit */ + EXPPRI(1,4,0,4), /* Data TLB Multiple Hit */ + + EXPPRI(2,0,0,5), /* User break Before Instruction */ + EXPPRI(2,1,0,6), /* Inst Address Error */ + EXPPRI(2,2,0,7), /* Inst TLB Miss */ + EXPPRI(2,3,0,8), /* Inst TLB Protection Violation */ + EXPPRI(2,4,0,9), /* Illegal Instruction */ + EXPPRI(2,4,0,10), /* Slot Illegal Instruction */ + EXPPRI(2,4,0,11), /* FPU Disable */ + EXPPRI(2,4,0,12), /* Slot FPU Disable */ + EXPPRI(2,5,0,13), /* Data Address Error (Read) */ + EXPPRI(2,5,0,14), /* Data Address Error (Write) */ + EXPPRI(2,6,0,15), /* Data TBL Miss Read */ + EXPPRI(2,6,0,16), /* Data TBL Miss Write */ + EXPPRI(2,7,0,17), /* Data TBL Protection Violation Read */ + EXPPRI(2,7,0,18), /* Data TBL Protection Violation Write */ + EXPPRI(2,8,0,19), /* FPU Exception */ + EXPPRI(2,9,0,20), /* Initial Page Write exception */ + + EXPPRI(2,4,0,21), /* Unconditional TRAP */ + EXPPRI(2,10,0,22), /* User break After Instruction */ + + EXPPRI(3,0,16,SH4_INTC_NMI) /* NMI */ + /* This is copied to a table, and the IRQ priorities filled in later */ +}; + +static const int exception_codes[] = + +{ 0x000, /* Power-on Reset */ + 0x020, /* Manual Reset */ + 0x000, /* H-UDI Reset */ + 0x140, /* Inst TLB Multiple Hit */ + 0x140, /* Data TLB Multiple Hit */ + + 0x1E0, /* User break Before Instruction */ + 0x0E0, /* Inst Address Error */ + 0x040, /* Inst TLB Miss */ + 0x0A0, /* Inst TLB Protection Violation */ + 0x180, /* Illegal Instruction */ + 0x1A0, /* Slot Illegal Instruction */ + 0x800, /* FPU Disable */ + 0x820, /* Slot FPU Disable */ + 0x0E0, /* Data Address Error (Read) */ + 0x100, /* Data Address Error (Write) */ + 0x040, /* Data TBL Miss Read */ + 0x060, /* Data TBL Miss Write */ + 0x0A0, /* Data TBL Protection Violation Read */ + 0x0C0, /* Data TBL Protection Violation Write */ + 0x120, /* FPU Exception */ + 0x080, /* Initial Page Write exception */ + + 0x160, /* Unconditional TRAP */ + 0x1E0, /* User break After Instruction */ + + 0x1C0, /* NMI */ /* SH4_INTC_NMI=23 represents this location in this list.. */ + + 0x200, /* EX Irq 0 */ + 0x220, /* 1 */ + 0x240, /* 2 */ + 0x260, /* 3 */ + 0x280, /* 4 */ + 0x2A0, /* 5 */ + 0x2C0, /* 6 */ + 0x2E0, /* 7 */ + 0x300, /* 8 */ + 0x320, /* 9 */ + 0x340, /* A */ + 0x360, /* B */ + 0x380, /* C */ + 0x3A0, /* D */ + 0x3C0, /* E */ + + 0x240, /* SH4_INTC_IRL0 */ + 0x2A0, /* SH4_INTC_IRL1 */ + 0x300, /* SH4_INTC_IRL2 */ + 0x360, /* SH4_INTC_IRL3 */ + + 0x600, /* HUDI */ + 0x620, /* SH4_INTC_GPOI */ + 0x640, /* SH4_INTC_DMTE0 */ + 0x660, /* SH4_INTC_DMTE1 */ + 0x680, /* SH4_INTC_DMTE2 */ + 0x6A0, /* SH4_INTC_DMTE3 */ + + 0x780, /* SH4_INTC_DMTE4 */ + 0x7A0, /* SH4_INTC_DMTE5 */ + 0x7C0, /* SH4_INTC_DMTE6 */ + 0x7E0, /* SH4_INTC_DMTE7 */ + + 0x6C0, /* SH4_INTC_DMAE */ + + 0xB00, /* SH4_INTC_TUNI3 */ + 0xB80, /* SH4_INTC_TUNI4 */ + 0x400, /* SH4_INTC_TUNI0 */ + 0x420, /* SH4_INTC_TUNI1 */ + 0x440, /* SH4_INTC_TUNI2 */ + 0x460, /* SH4_INTC_TICPI2 */ + 0x480, /* SH4_INTC_ATI */ + 0x4A0, /* SH4_INTC_PRI */ + 0x4C0, /* SH4_INTC_CUI */ + 0x4E0, /* SH4_INTC_SCI1ERI */ + 0x500, /* SH4_INTC_SCI1RXI */ + 0x520, /* SH4_INTC_SCI1TXI */ + 0x540, /* SH4_INTC_SCI1TEI */ + + 0x700, /* SH4_INTC_SCIFERI */ + 0x720, /* SH4_INTC_SCIFRXI */ + 0x740, /* SH4_INTC_SCIFBRI */ + 0x760, /* SH4_INTC_SCIFTXI */ + 0x560, /* SH4_INTC_ITI */ + 0x580, /* SH4_INTC_RCMI */ + 0x5A0 /* SH4_INTC_ROVI */ +}; + +/* SH3 INTEVT2 uses a different table - values of -1 aren't filled in yet, some may not exist on the sh3. */ +/* The above table should differ too, some things depend on the interrupt level rather than beign fixed values */ + +static const int sh3_intevt2_exception_codes[] = + +{ 0x000, /* Power-on Reset */ + -1, /* Manual Reset */ + -1, /* H-UDI Reset */ + -1, /* Inst TLB Multiple Hit */ + -1, /* Data TLB Multiple Hit */ + + -1, /* User break Before Instruction */ + -1, /* Inst Address Error */ + -1, /* Inst TLB Miss */ + -1, /* Inst TLB Protection Violation */ + -1, /* Illegal Instruction */ + -1, /* Slot Illegal Instruction */ + -1, /* FPU Disable */ + -1, /* Slot FPU Disable */ + -1, /* Data Address Error (Read) */ + -1, /* Data Address Error (Write) */ + -1, /* Data TBL Miss Read */ + -1, /* Data TBL Miss Write */ + -1, /* Data TBL Protection Violation Read */ + -1, /* Data TBL Protection Violation Write */ + -1, /* FPU Exception */ + -1, /* Initial Page Write exception */ + + -1, /* Unconditional TRAP */ + -1, /* User break After Instruction */ + + -1, /* NMI */ /* SH4_INTC_NMI=23 represents this location in this list.. */ + + -1, /* EX Irq 0 */ + -1, /* 1 */ + -1, /* 2 */ + -1, /* 3 */ + -1, /* 4 */ + -1, /* 5 */ + -1, /* 6 */ + -1, /* 7 */ + -1, /* 8 */ + -1, /* 9 */ + -1, /* A */ + -1, /* B */ + -1, /* C */ + -1, /* D */ + -1, /* E */ + + 0x600, /* SH4_INTC_IRL0 */ + 0x620, /* SH4_INTC_IRL1 */ + 0x640, /* SH4_INTC_IRL2 */ + 0x660, /* SH4_INTC_IRL3 */ + /* todo: SH3 should have lines 4+5 too? */ + + -1, /* HUDI */ + -1, /* SH4_INTC_GPOI */ + -1, /* SH4_INTC_DMTE0 */ + -1, /* SH4_INTC_DMTE1 */ + -1, /* SH4_INTC_DMTE2 */ + -1, /* SH4_INTC_DMTE3 */ + + -1, /* SH4_INTC_DMTE4 */ + -1, /* SH4_INTC_DMTE5 */ + -1, /* SH4_INTC_DMTE6 */ + -1, /* SH4_INTC_DMTE7 */ + + -1, /* SH4_INTC_DMAE */ + + -1, /* SH4_INTC_TUNI3 */ + -1, /* SH4_INTC_TUNI4 */ + 0x400, /* SH4_INTC_TUNI0 */ + 0x420, /* SH4_INTC_TUNI1 */ + 0x440, /* SH4_INTC_TUNI2 */ + 0x460, /* SH4_INTC_TICPI2 */ + -1, /* SH4_INTC_ATI */ + -1, /* SH4_INTC_PRI */ + -1, /* SH4_INTC_CUI */ + -1, /* SH4_INTC_SCI1ERI */ + -1, /* SH4_INTC_SCI1RXI */ + -1, /* SH4_INTC_SCI1TXI */ + -1, /* SH4_INTC_SCI1TEI */ + + -1, /* SH4_INTC_SCIFERI */ + -1, /* SH4_INTC_SCIFRXI */ + -1, /* SH4_INTC_SCIFBRI */ + -1, /* SH4_INTC_SCIFTXI */ + -1, /* SH4_INTC_ITI */ + -1, /* SH4_INTC_RCMI */ + -1 /* SH4_INTC_ROVI */ +}; + + + +void sh34_base_device::sh4_change_register_bank(int to) +{ + int s; + + if (to) // 0 -> 1 + { + for (s = 0;s < 8;s++) + { + m_rbnk[0][s] = m_r[s]; + m_r[s] = m_rbnk[1][s]; + } + } + else // 1 -> 0 + { + for (s = 0;s < 8;s++) + { + m_rbnk[1][s] = m_r[s]; + m_r[s] = m_rbnk[0][s]; + } + } +} + +void sh34_base_device::sh4_swap_fp_registers() +{ + int s; + UINT32 z; + + for (s = 0;s <= 15;s++) + { + z = m_fr[s]; + m_fr[s] = m_xf[s]; + m_xf[s] = z; + } +} + +void sh34_base_device::sh4_swap_fp_couples() +{ + int s; + UINT32 z; + + for (s = 0;s <= 15;s = s+2) + { + z = m_fr[s]; + m_fr[s] = m_fr[s + 1]; + m_fr[s + 1] = z; + z = m_xf[s]; + m_xf[s] = m_xf[s + 1]; + m_xf[s + 1] = z; + } +} + +void sh34_base_device::sh4_syncronize_register_bank(int to) +{ + int s; + + for (s = 0;s < 8;s++) + { + m_rbnk[to][s] = m_r[s]; + } +} + +void sh34_base_device::sh4_default_exception_priorities() // setup default priorities for exceptions +{ + int a; + + for (a=0;a <= SH4_INTC_NMI;a++) + m_exception_priority[a] = exception_priority_default[a]; + for (a=SH4_INTC_IRLn0;a <= SH4_INTC_IRLnE;a++) + m_exception_priority[a] = INTPRI(15-(a-SH4_INTC_IRLn0), a); + m_exception_priority[SH4_INTC_IRL0] = INTPRI(13, SH4_INTC_IRL0); + m_exception_priority[SH4_INTC_IRL1] = INTPRI(10, SH4_INTC_IRL1); + m_exception_priority[SH4_INTC_IRL2] = INTPRI(7, SH4_INTC_IRL2); + m_exception_priority[SH4_INTC_IRL3] = INTPRI(4, SH4_INTC_IRL3); + for (a=SH4_INTC_HUDI;a <= SH4_INTC_ROVI;a++) + m_exception_priority[a] = INTPRI(0, a); +} + +void sh34_base_device::sh4_exception_recompute() // checks if there is any interrupt with high enough priority +{ + int a,z; + + m_test_irq = 0; + if ((!m_pending_irq) || ((m_sr & BL) && (m_exception_requesting[SH4_INTC_NMI] == 0))) + return; + z = (m_sr >> 4) & 15; + for (a=0;a <= SH4_INTC_ROVI;a++) + { + if (m_exception_requesting[a]) + { + int pri = (((int)m_exception_priority[a] >> 8) & 255); + //logerror("pri is %02x z is %02x\n",pri,z); + if (pri > z) + { + //logerror("will test\n"); + m_test_irq = 1; // will check for exception at end of instructions + break; + } + } + } +} + +void sh34_base_device::sh4_exception_request(int exception) // start requesting an exception +{ + //logerror("sh4_exception_request a\n"); + if (!m_exception_requesting[exception]) + { + //logerror("sh4_exception_request b\n"); + m_exception_requesting[exception] = 1; + m_pending_irq++; + sh4_exception_recompute(); + } +} + +void sh34_base_device::sh4_exception_unrequest(int exception) // stop requesting an exception +{ + if (m_exception_requesting[exception]) + { + m_exception_requesting[exception] = 0; + m_pending_irq--; + sh4_exception_recompute(); + } +} + +void sh34_base_device::sh4_exception_checkunrequest(int exception) +{ + if (exception == SH4_INTC_NMI) + sh4_exception_unrequest(exception); + if ((exception == SH4_INTC_DMTE0) || (exception == SH4_INTC_DMTE1) || + (exception == SH4_INTC_DMTE2) || (exception == SH4_INTC_DMTE3)) + sh4_exception_unrequest(exception); +} + +void sh34_base_device::sh4_exception(const char *message, int exception) // handle exception +{ + UINT32 vector; + + + if (m_cpu_type == CPU_TYPE_SH4) + { + if (exception < SH4_INTC_NMI) + return; // Not yet supported + if (exception == SH4_INTC_NMI) { + if ((m_sr & BL) && (!(m_m[ICR] & 0x200))) + return; + + m_m[ICR] &= ~0x200; + m_m[INTEVT] = 0x1c0; + + + vector = 0x600; + standard_irq_callback(INPUT_LINE_NMI); + LOG(("SH-4 '%s' nmi exception after [%s]\n", tag(), message)); + } else { + // if ((m_m[ICR] & 0x4000) && (m_nmi_line_state == ASSERT_LINE)) + // return; + if (m_sr & BL) + return; + if (((m_exception_priority[exception] >> 8) & 255) <= ((m_sr >> 4) & 15)) + return; + m_m[INTEVT] = exception_codes[exception]; + vector = 0x600; + if ((exception >= SH4_INTC_IRL0) && (exception <= SH4_INTC_IRL3)) + standard_irq_callback((exception-SH4_INTC_IRL0)+SH4_IRL0); + else + standard_irq_callback(SH4_IRL3+1); + LOG(("SH-4 '%s' interrupt exception #%d after [%s]\n", tag(), exception, message)); + } + } + else /* SH3 exceptions */ + { + /***** ASSUME THIS TO BE WRONG FOR NOW *****/ + + if (exception < SH4_INTC_NMI) + return; // Not yet supported + if (exception == SH4_INTC_NMI) + { + return; + } + else + { + if (m_sr & BL) + return; + if (((m_exception_priority[exception] >> 8) & 255) <= ((m_sr >> 4) & 15)) + return; + + + vector = 0x600; + + if ((exception >= SH4_INTC_IRL0) && (exception <= SH4_INTC_IRL3)) + standard_irq_callback((exception-SH4_INTC_IRL0)+SH4_IRL0); + else + standard_irq_callback(SH4_IRL3+1); + + if (sh3_intevt2_exception_codes[exception]==-1) + fatalerror("sh3_intevt2_exception_codes unpopulated for exception %02x\n", exception); + + m_sh3internal_lower[INTEVT2] = sh3_intevt2_exception_codes[exception]; + m_sh3internal_upper[SH3_EXPEVT_ADDR] = exception_codes[exception]; + + + LOG(("SH-3 '%s' interrupt exception #%d after [%s]\n", tag(), exception, message)); + } + + /***** END ASSUME THIS TO BE WRONG FOR NOW *****/ + } + sh4_exception_checkunrequest(exception); + + m_spc = m_pc; + m_ssr = m_sr; + m_sgr = m_r[15]; + + m_sr |= MD; + if ((machine().debug_flags & DEBUG_FLAG_ENABLED) != 0) + sh4_syncronize_register_bank((m_sr & sRB) >> 29); + if (!(m_sr & sRB)) + sh4_change_register_bank(1); + m_sr |= sRB; + m_sr |= BL; + sh4_exception_recompute(); + + /* fetch PC */ + m_pc = m_vbr + vector; + /* wake up if a sleep opcode is triggered */ + if(m_sleep_mode == 1) { m_sleep_mode = 2; } +} + + +UINT32 sh34_base_device::compute_ticks_refresh_timer(emu_timer *timer, int hertz, int base, int divisor) +{ + // elapsed:total = x : ticks + // x=elapsed*tics/total -> x=elapsed*(double)100000000/rtcnt_div[(m_m[RTCSR] >> 3) & 7] + // ticks/total=ticks / ((rtcnt_div[(m_m[RTCSR] >> 3) & 7] * ticks) / 100000000)=1/((rtcnt_div[(m_m[RTCSR] >> 3) & 7] / 100000000)=100000000/rtcnt_div[(m_m[RTCSR] >> 3) & 7] + return base + (UINT32)((timer->elapsed().as_double() * (double)hertz) / (double)divisor); +} + +void sh34_base_device::sh4_refresh_timer_recompute() +{ + UINT32 ticks; + + if (m_cpu_type != CPU_TYPE_SH4) + fatalerror("sh4_refresh_timer_recompute uses m_m[] with SH3\n"); + + + //if rtcnt < rtcor then rtcor-rtcnt + //if rtcnt >= rtcor then 256-rtcnt+rtcor=256+rtcor-rtcnt + ticks = m_m[RTCOR]-m_m[RTCNT]; + if (ticks <= 0) + ticks = 256 + ticks; + m_refresh_timer->adjust(attotime::from_hz(m_bus_clock) * rtcnt_div[(m_m[RTCSR] >> 3) & 7] * ticks); + m_refresh_timer_base = m_m[RTCNT]; +} + + +TIMER_CALLBACK_MEMBER( sh34_base_device::sh4_refresh_timer_callback ) +{ + if (m_cpu_type != CPU_TYPE_SH4) + fatalerror("sh4_refresh_timer_callback uses m_m[] with SH3\n"); + + m_m[RTCNT] = 0; + sh4_refresh_timer_recompute(); + m_m[RTCSR] |= 128; + if ((m_m[MCR] & 4) && !(m_m[MCR] & 2)) + { + m_m[RFCR] = (m_m[RFCR] + 1) & 1023; + if (((m_m[RTCSR] & 1) && (m_m[RFCR] == 512)) || (m_m[RFCR] == 0)) + { + m_m[RFCR] = 0; + m_m[RTCSR] |= 4; + } + } +} + +void sh34_base_device::increment_rtc_time(int mode) +{ + int carry, year, leap, days; + + if (m_cpu_type != CPU_TYPE_SH4) + fatalerror("increment_rtc_time uses m_m[] with SH3\n"); + + if (mode == 0) + { + carry = 0; + m_m[RSECCNT] = m_m[RSECCNT] + 1; + if ((m_m[RSECCNT] & 0xf) == 0xa) + m_m[RSECCNT] = m_m[RSECCNT] + 6; + if (m_m[RSECCNT] == 0x60) + { + m_m[RSECCNT] = 0; + carry=1; + } + else + return; + } + else + carry = 1; + + m_m[RMINCNT] = m_m[RMINCNT] + carry; + if ((m_m[RMINCNT] & 0xf) == 0xa) + m_m[RMINCNT] = m_m[RMINCNT] + 6; + carry=0; + if (m_m[RMINCNT] == 0x60) + { + m_m[RMINCNT] = 0; + carry = 1; + } + + m_m[RHRCNT] = m_m[RHRCNT] + carry; + if ((m_m[RHRCNT] & 0xf) == 0xa) + m_m[RHRCNT] = m_m[RHRCNT] + 6; + carry = 0; + if (m_m[RHRCNT] == 0x24) + { + m_m[RHRCNT] = 0; + carry = 1; + } + + m_m[RWKCNT] = m_m[RWKCNT] + carry; + if (m_m[RWKCNT] == 0x7) + { + m_m[RWKCNT] = 0; + } + + days = 0; + year = (m_m[RYRCNT] & 0xf) + ((m_m[RYRCNT] & 0xf0) >> 4)*10 + ((m_m[RYRCNT] & 0xf00) >> 8)*100 + ((m_m[RYRCNT] & 0xf000) >> 12)*1000; + leap = 0; + if (!(year%100)) + { + if (!(year%400)) + leap = 1; + } + else if (!(year%4)) + leap = 1; + if (m_m[RMONCNT] != 2) + leap = 0; + if (m_m[RMONCNT]) + days = daysmonth[(m_m[RMONCNT] & 0xf) + ((m_m[RMONCNT] & 0xf0) >> 4)*10 - 1]; + + m_m[RDAYCNT] = m_m[RDAYCNT] + carry; + if ((m_m[RDAYCNT] & 0xf) == 0xa) + m_m[RDAYCNT] = m_m[RDAYCNT] + 6; + carry = 0; + if (m_m[RDAYCNT] > (days+leap)) + { + m_m[RDAYCNT] = 1; + carry = 1; + } + + m_m[RMONCNT] = m_m[RMONCNT] + carry; + if ((m_m[RMONCNT] & 0xf) == 0xa) + m_m[RMONCNT] = m_m[RMONCNT] + 6; + carry=0; + if (m_m[RMONCNT] == 0x13) + { + m_m[RMONCNT] = 1; + carry = 1; + } + + m_m[RYRCNT] = m_m[RYRCNT] + carry; + if ((m_m[RYRCNT] & 0xf) >= 0xa) + m_m[RYRCNT] = m_m[RYRCNT] + 6; + if ((m_m[RYRCNT] & 0xf0) >= 0xa0) + m_m[RYRCNT] = m_m[RYRCNT] + 0x60; + if ((m_m[RYRCNT] & 0xf00) >= 0xa00) + m_m[RYRCNT] = m_m[RYRCNT] + 0x600; + if ((m_m[RYRCNT] & 0xf000) >= 0xa000) + m_m[RYRCNT] = 0; +} + +TIMER_CALLBACK_MEMBER( sh34_base_device::sh4_rtc_timer_callback ) +{ + if (m_cpu_type != CPU_TYPE_SH4) + { + logerror("sh4_rtc_timer_callback uses m_m[] with SH3\n"); + return; + } + + m_rtc_timer->adjust(attotime::from_hz(128)); + m_m[R64CNT] = (m_m[R64CNT]+1) & 0x7f; + if (m_m[R64CNT] == 64) + { + m_m[RCR1] |= 0x80; + increment_rtc_time(0); + //sh4_exception_request(SH4_INTC_NMI); // TEST + } +} + + +void sh34_base_device::sh4_dmac_nmi() // manage dma when nmi gets asserted +{ + int s; + + m_SH4_DMAOR |= DMAOR_NMIF; + for (s = 0;s < 4;s++) + { + if (m_dma_timer_active[s]) + { + logerror("SH4: DMA %d cancelled due to NMI but all data transferred", s); + m_dma_timer[s]->adjust(attotime::never, s); + m_dma_timer_active[s] = 0; + } + } +} + +void sh34_base_device::sh4_handler_ipra_w(UINT32 data, UINT32 mem_mask) +{ + COMBINE_DATA(&m_SH4_IPRA); + /* 15 - 12 TMU0 */ + /* 11 - 8 TMU1 */ + /* 7 - 4 TMU2 */ + /* 3 - 0 RTC */ + m_exception_priority[SH4_INTC_ATI] = INTPRI(m_SH4_IPRA & 0x000f, SH4_INTC_ATI); + m_exception_priority[SH4_INTC_PRI] = INTPRI(m_SH4_IPRA & 0x000f, SH4_INTC_PRI); + m_exception_priority[SH4_INTC_CUI] = INTPRI(m_SH4_IPRA & 0x000f, SH4_INTC_CUI); + + m_exception_priority[SH4_INTC_TUNI2] = INTPRI((m_SH4_IPRA & 0x00f0) >> 4, SH4_INTC_TUNI2); + m_exception_priority[SH4_INTC_TICPI2] = INTPRI((m_SH4_IPRA & 0x00f0) >> 4, SH4_INTC_TICPI2); + + m_exception_priority[SH4_INTC_TUNI1] = INTPRI((m_SH4_IPRA & 0x0f00) >> 8, SH4_INTC_TUNI1); + + m_exception_priority[SH4_INTC_TUNI0] = INTPRI((m_SH4_IPRA & 0xf000) >> 12, SH4_INTC_TUNI0); + + logerror("setting priorities TMU0 %01x TMU1 %01x TMU2 %01x RTC %01x\n", (m_SH4_IPRA & 0xf000)>>12, (m_SH4_IPRA & 0x0f00)>>8, (m_SH4_IPRA & 0x00f0)>>4, (m_SH4_IPRA & 0x000f)>>0); + + sh4_exception_recompute(); +} + + +WRITE32_MEMBER( sh4_base_device::sh4_internal_w ) +{ + int a; + UINT32 addr = (offset << 2) + 0xfe000000; + offset = ((addr & 0xfc) >> 2) | ((addr & 0x1fe0000) >> 11); + + if (m_cpu_type != CPU_TYPE_SH4) + fatalerror("sh4_internal_w uses m_m[] with SH3\n"); + + UINT32 old = m_m[offset]; + COMBINE_DATA(m_m+offset); + +// printf("sh4_internal_w: Write %08x (%x), %08x @ %08x\n", 0xfe000000+((offset & 0x3fc0) << 11)+((offset & 0x3f) << 2), offset, data, mem_mask); + + switch( offset ) + { + case MMUCR: // MMU Control + if (data & MMUCR_AT) + { + printf("SH4 MMU Enabled\n"); + printf("If you're seeing this, but running something other than a Naomi GD-ROM game then chances are it won't work\n"); + printf("The MMU emulation is a hack specific to that system\n"); + m_sh4_mmu_enabled = 1; + + // should be a different bit! + { + int i; + for (i=0;i<64;i++) + { + m_sh4_tlb_address[i] = 0; + m_sh4_tlb_data[i] = 0; + } + + } + } + else + { + m_sh4_mmu_enabled = 0; + } + + break; + + // Memory refresh + case RTCSR: + m_m[RTCSR] &= 255; + if ((old >> 3) & 7) + m_m[RTCNT] = compute_ticks_refresh_timer(m_refresh_timer, m_bus_clock, m_refresh_timer_base, rtcnt_div[(old >> 3) & 7]) & 0xff; + if ((m_m[RTCSR] >> 3) & 7) + { // activated + sh4_refresh_timer_recompute(); + } + else + { + m_refresh_timer->adjust(attotime::never); + } + break; + + case RTCNT: + m_m[RTCNT] &= 255; + if ((m_m[RTCSR] >> 3) & 7) + { // active + sh4_refresh_timer_recompute(); + } + break; + + case RTCOR: + m_m[RTCOR] &= 255; + if ((m_m[RTCSR] >> 3) & 7) + { // active + m_m[RTCNT] = compute_ticks_refresh_timer(m_refresh_timer, m_bus_clock, m_refresh_timer_base, rtcnt_div[(m_m[RTCSR] >> 3) & 7]) & 0xff; + sh4_refresh_timer_recompute(); + } + break; + + case RFCR: + m_m[RFCR] &= 1023; + break; + + // RTC + case RCR1: + if ((m_m[RCR1] & 8) && (~old & 8)) // 0 -> 1 + m_m[RCR1] ^= 1; + break; + + case RCR2: + if (m_m[RCR2] & 2) + { + m_m[R64CNT] = 0; + m_m[RCR2] ^= 2; + } + if (m_m[RCR2] & 4) + { + m_m[R64CNT] = 0; + if (m_m[RSECCNT] >= 30) + increment_rtc_time(1); + m_m[RSECCNT] = 0; + } + if ((m_m[RCR2] & 8) && (~old & 8)) + { // 0 -> 1 + m_rtc_timer->adjust(attotime::from_hz(128)); + } + else if (~(m_m[RCR2]) & 8) + { // 0 + m_rtc_timer->adjust(attotime::never); + } + break; + +/********************************************************************************************************************* + TMU (Timer Unit) +*********************************************************************************************************************/ + case SH4_TSTR_ADDR: sh4_handle_tstr_addr_w(data,mem_mask); break; + case SH4_TCR0_ADDR: sh4_handle_tcr0_addr_w(data,mem_mask); break; + case SH4_TCR1_ADDR: sh4_handle_tcr1_addr_w(data,mem_mask); break; + case SH4_TCR2_ADDR: sh4_handle_tcr2_addr_w(data,mem_mask); break; + case SH4_TCOR0_ADDR: sh4_handle_tcor0_addr_w(data,mem_mask); break; + case SH4_TCNT0_ADDR: sh4_handle_tcnt0_addr_w(data,mem_mask); break; + case SH4_TCOR1_ADDR: sh4_handle_tcor1_addr_w(data,mem_mask); break; + case SH4_TCNT1_ADDR: sh4_handle_tcnt1_addr_w(data,mem_mask); break; + case SH4_TCOR2_ADDR: sh4_handle_tcor2_addr_w(data,mem_mask); break; + case SH4_TCNT2_ADDR: sh4_handle_tcnt2_addr_w(data,mem_mask); break; + case SH4_TOCR_ADDR: sh4_handle_tocr_addr_w(data,mem_mask); break; // not supported + case SH4_TCPR2_ADDR: sh4_handle_tcpr2_addr_w(data,mem_mask); break; // not supported +/********************************************************************************************************************* + INTC (Interrupt Controller) +*********************************************************************************************************************/ + case ICR: + m_m[ICR] = (m_m[ICR] & 0x7fff) | (old & 0x8000); + break; + case IPRA: sh4_handler_ipra_w(data, mem_mask); break; + case IPRB: + m_exception_priority[SH4_INTC_SCI1ERI] = INTPRI((m_m[IPRB] & 0x00f0) >> 4, SH4_INTC_SCI1ERI); + m_exception_priority[SH4_INTC_SCI1RXI] = INTPRI((m_m[IPRB] & 0x00f0) >> 4, SH4_INTC_SCI1RXI); + m_exception_priority[SH4_INTC_SCI1TXI] = INTPRI((m_m[IPRB] & 0x00f0) >> 4, SH4_INTC_SCI1TXI); + m_exception_priority[SH4_INTC_SCI1TEI] = INTPRI((m_m[IPRB] & 0x00f0) >> 4, SH4_INTC_SCI1TEI); + m_exception_priority[SH4_INTC_RCMI] = INTPRI((m_m[IPRB] & 0x0f00) >> 8, SH4_INTC_RCMI); + m_exception_priority[SH4_INTC_ROVI] = INTPRI((m_m[IPRB] & 0x0f00) >> 8, SH4_INTC_ROVI); + m_exception_priority[SH4_INTC_ITI] = INTPRI((m_m[IPRB] & 0xf000) >> 12, SH4_INTC_ITI); + sh4_exception_recompute(); + break; + case IPRC: + m_exception_priority[SH4_INTC_HUDI] = INTPRI(m_m[IPRC] & 0x000f, SH4_INTC_HUDI); + m_exception_priority[SH4_INTC_SCIFERI] = INTPRI((m_m[IPRC] & 0x00f0) >> 4, SH4_INTC_SCIFERI); + m_exception_priority[SH4_INTC_SCIFRXI] = INTPRI((m_m[IPRC] & 0x00f0) >> 4, SH4_INTC_SCIFRXI); + m_exception_priority[SH4_INTC_SCIFBRI] = INTPRI((m_m[IPRC] & 0x00f0) >> 4, SH4_INTC_SCIFBRI); + m_exception_priority[SH4_INTC_SCIFTXI] = INTPRI((m_m[IPRC] & 0x00f0) >> 4, SH4_INTC_SCIFTXI); + m_exception_priority[SH4_INTC_DMTE0] = INTPRI((m_m[IPRC] & 0x0f00) >> 8, SH4_INTC_DMTE0); + m_exception_priority[SH4_INTC_DMTE1] = INTPRI((m_m[IPRC] & 0x0f00) >> 8, SH4_INTC_DMTE1); + m_exception_priority[SH4_INTC_DMTE2] = INTPRI((m_m[IPRC] & 0x0f00) >> 8, SH4_INTC_DMTE2); + m_exception_priority[SH4_INTC_DMTE3] = INTPRI((m_m[IPRC] & 0x0f00) >> 8, SH4_INTC_DMTE3); + m_exception_priority[SH4_INTC_DMAE] = INTPRI((m_m[IPRC] & 0x0f00) >> 8, SH4_INTC_DMAE); + m_exception_priority[SH4_INTC_GPOI] = INTPRI((m_m[IPRC] & 0xf000) >> 12, SH4_INTC_GPOI); + sh4_exception_recompute(); + break; +/********************************************************************************************************************* + DMAC (DMA Controller) +*********************************************************************************************************************/ + case SH4_SAR0_ADDR: sh4_handle_sar0_addr_w(data,mem_mask); break; + case SH4_SAR1_ADDR: sh4_handle_sar1_addr_w(data,mem_mask); break; + case SH4_SAR2_ADDR: sh4_handle_sar2_addr_w(data,mem_mask); break; + case SH4_SAR3_ADDR: sh4_handle_sar3_addr_w(data,mem_mask); break; + case SH4_DAR0_ADDR: sh4_handle_dar0_addr_w(data,mem_mask); break; + case SH4_DAR1_ADDR: sh4_handle_dar1_addr_w(data,mem_mask); break; + case SH4_DAR2_ADDR: sh4_handle_dar2_addr_w(data,mem_mask); break; + case SH4_DAR3_ADDR: sh4_handle_dar3_addr_w(data,mem_mask); break; + case SH4_DMATCR0_ADDR: sh4_handle_dmatcr0_addr_w(data,mem_mask); break; + case SH4_DMATCR1_ADDR: sh4_handle_dmatcr1_addr_w(data,mem_mask); break; + case SH4_DMATCR2_ADDR: sh4_handle_dmatcr2_addr_w(data,mem_mask); break; + case SH4_DMATCR3_ADDR: sh4_handle_dmatcr3_addr_w(data,mem_mask); break; + case SH4_CHCR0_ADDR: sh4_handle_chcr0_addr_w(data,mem_mask); break; + case SH4_CHCR1_ADDR: sh4_handle_chcr1_addr_w(data,mem_mask); break; + case SH4_CHCR2_ADDR: sh4_handle_chcr2_addr_w(data,mem_mask); break; + case SH4_CHCR3_ADDR: sh4_handle_chcr3_addr_w(data,mem_mask); break; + case SH4_DMAOR_ADDR: sh4_handle_dmaor_addr_w(data,mem_mask); break; +/********************************************************************************************************************* + Store Queues +*********************************************************************************************************************/ + case QACR0: + case QACR1: + break; +/********************************************************************************************************************* + I/O +*********************************************************************************************************************/ + case PCTRA: + m_ioport16_pullup = 0; + m_ioport16_direction = 0; + for (a=0;a < 16;a++) { + m_ioport16_direction |= (m_m[PCTRA] & (1 << (a*2))) >> a; + m_ioport16_pullup |= (m_m[PCTRA] & (1 << (a*2+1))) >> (a+1); + } + m_ioport16_direction &= 0xffff; + m_ioport16_pullup = (m_ioport16_pullup | m_ioport16_direction) ^ 0xffff; + if (m_m[BCR2] & 1) + m_io->write_dword(SH4_IOPORT_16, (UINT64)(m_m[PDTRA] & m_ioport16_direction) | ((UINT64)m_m[PCTRA] << 16)); + break; + case PDTRA: + if (m_m[BCR2] & 1) + m_io->write_dword(SH4_IOPORT_16, (UINT64)(m_m[PDTRA] & m_ioport16_direction) | ((UINT64)m_m[PCTRA] << 16)); + break; + case PCTRB: + m_ioport4_pullup = 0; + m_ioport4_direction = 0; + for (a=0;a < 4;a++) { + m_ioport4_direction |= (m_m[PCTRB] & (1 << (a*2))) >> a; + m_ioport4_pullup |= (m_m[PCTRB] & (1 << (a*2+1))) >> (a+1); + } + m_ioport4_direction &= 0xf; + m_ioport4_pullup = (m_ioport4_pullup | m_ioport4_direction) ^ 0xf; + if (m_m[BCR2] & 1) + m_io->write_dword(SH4_IOPORT_4, (m_m[PDTRB] & m_ioport4_direction) | (m_m[PCTRB] << 16)); + break; + case PDTRB: + if (m_m[BCR2] & 1) + m_io->write_dword(SH4_IOPORT_4, (m_m[PDTRB] & m_ioport4_direction) | (m_m[PCTRB] << 16)); + break; + + case SCBRR2: + break; + + case SCSPTR2: //trips often in aristocrat mk-6 + break; + + default: + logerror("sh4_internal_w: Unmapped write %08x, %08x @ %08x\n", 0xfe000000+((offset & 0x3fc0) << 11)+((offset & 0x3f) << 2), data, mem_mask); + break; + } +} + +READ32_MEMBER( sh4_base_device::sh4_internal_r ) +{ + if (m_cpu_type != CPU_TYPE_SH4) + fatalerror("sh4_internal_r uses m_m[] with SH3\n"); + + UINT32 addr = (offset << 2) + 0xfe000000; + offset = ((addr & 0xfc) >> 2) | ((addr & 0x1fe0000) >> 11); + +// printf("sh4_internal_r: Read %08x (%x) @ %08x\n", 0xfe000000+((offset & 0x3fc0) << 11)+((offset & 0x3f) << 2), offset, mem_mask); + + switch( offset ) + { + case VERSION: + return PVR_SH7091; // 0x040205c1, this is what a real SH7091 in a Dreamcast returns - the later Naomi BIOSes check and care! + case PRR: + return 0; + case IPRD: + return 0x00000000; // SH7750 ignores writes here and always returns zero + case RTCNT: + if ((m_m[RTCSR] >> 3) & 7) + { // activated + //((double)rtcnt_div[(m_m[RTCSR] >> 3) & 7] / (double)100000000) + //return (refresh_timer_base + (m_refresh_timer->elapsed() * (double)100000000) / (double)rtcnt_div[(m_m[RTCSR] >> 3) & 7]) & 0xff; + return compute_ticks_refresh_timer(m_refresh_timer, m_bus_clock, m_refresh_timer_base, rtcnt_div[(m_m[RTCSR] >> 3) & 7]) & 0xff; + } + else + return m_m[RTCNT]; + +/********************************************************************************************************************* + INTC (Interrupt Controller) +*********************************************************************************************************************/ + + case IPRA: + return m_SH4_IPRA; + +/********************************************************************************************************************* + TMU (Timer Unit) +*********************************************************************************************************************/ + case SH4_TSTR_ADDR: return sh4_handle_tstr_addr_r(mem_mask); + case SH4_TCR0_ADDR: return sh4_handle_tcr0_addr_r(mem_mask); + case SH4_TCR1_ADDR: return sh4_handle_tcr1_addr_r(mem_mask); + case SH4_TCR2_ADDR: return sh4_handle_tcr2_addr_r(mem_mask); + case SH4_TCNT0_ADDR: return sh4_handle_tcnt0_addr_r(mem_mask); + case SH4_TCNT1_ADDR: return sh4_handle_tcnt1_addr_r(mem_mask); + case SH4_TCNT2_ADDR: return sh4_handle_tcnt2_addr_r(mem_mask); + case SH4_TCOR0_ADDR: return sh4_handle_tcor0_addr_r(mem_mask); + case SH4_TCOR1_ADDR: return sh4_handle_tcor1_addr_r(mem_mask); + case SH4_TCOR2_ADDR: return sh4_handle_tcor2_addr_r(mem_mask); + case SH4_TOCR_ADDR: return sh4_handle_tocr_addr_r(mem_mask); // not supported + case SH4_TCPR2_ADDR: return sh4_handle_tcpr2_addr_r(mem_mask); // not supported +/********************************************************************************************************************* + DMAC (DMA Controller) +*********************************************************************************************************************/ + case SH4_SAR0_ADDR: return sh4_handle_sar0_addr_r(mem_mask); + case SH4_SAR1_ADDR: return sh4_handle_sar1_addr_r(mem_mask); + case SH4_SAR2_ADDR: return sh4_handle_sar2_addr_r(mem_mask); + case SH4_SAR3_ADDR: return sh4_handle_sar3_addr_r(mem_mask); + case SH4_DAR0_ADDR: return sh4_handle_dar0_addr_r(mem_mask); + case SH4_DAR1_ADDR: return sh4_handle_dar1_addr_r(mem_mask); + case SH4_DAR2_ADDR: return sh4_handle_dar2_addr_r(mem_mask); + case SH4_DAR3_ADDR: return sh4_handle_dar3_addr_r(mem_mask); + case SH4_DMATCR0_ADDR: return sh4_handle_dmatcr0_addr_r(mem_mask); + case SH4_DMATCR1_ADDR: return sh4_handle_dmatcr1_addr_r(mem_mask); + case SH4_DMATCR2_ADDR: return sh4_handle_dmatcr2_addr_r(mem_mask); + case SH4_DMATCR3_ADDR: return sh4_handle_dmatcr3_addr_r(mem_mask); + case SH4_CHCR0_ADDR: return sh4_handle_chcr0_addr_r(mem_mask); + case SH4_CHCR1_ADDR: return sh4_handle_chcr1_addr_r(mem_mask); + case SH4_CHCR2_ADDR: return sh4_handle_chcr2_addr_r(mem_mask); + case SH4_CHCR3_ADDR: return sh4_handle_chcr3_addr_r(mem_mask); + case SH4_DMAOR_ADDR: return sh4_handle_dmaor_addr_r(mem_mask); +/********************************************************************************************************************* + I/O Ports +*********************************************************************************************************************/ + + case PDTRA: + if (m_m[BCR2] & 1) + return (m_io->read_dword(SH4_IOPORT_16) & ~m_ioport16_direction) | (m_m[PDTRA] & m_ioport16_direction); + break; + case PDTRB: + if (m_m[BCR2] & 1) + return (m_io->read_dword(SH4_IOPORT_4) & ~m_ioport4_direction) | (m_m[PDTRB] & m_ioport4_direction); + break; + + // SCIF (UART with FIFO) + case SCFSR2: + return 0x60; //read-only status register + } + return m_m[offset]; +} + +void sh34_base_device::sh4_set_frt_input(int state) +{ + if (m_cpu_type != CPU_TYPE_SH4) + fatalerror("sh4_set_frt_input uses m_m[] with SH3\n"); + + if(state == PULSE_LINE) + { + sh4_set_frt_input(ASSERT_LINE); + sh4_set_frt_input(CLEAR_LINE); + return; + } + + if(m_frt_input == state) { + return; + } + + m_frt_input = state; + + if (m_cpu_type == CPU_TYPE_SH4) + { + if(m_m[5] & 0x8000) { + if(state == CLEAR_LINE) { + return; + } + } else { + if(state == ASSERT_LINE) { + return; + } + } + } + else + { + fatalerror("sh4_set_frt_input uses m_m[] with SH3\n"); + } + +#if 0 + sh4_timer_resync(); + m_icr = m_frc; + m_m[4] |= ICF; + logerror("SH4 '%s': ICF activated (%x)\n", tag(), m_pc & AM); + sh4_recalc_irq(); +#endif +} + +void sh34_base_device::sh4_set_irln_input(int value) +{ + if (m_irln == value) + return; + m_irln = value; + set_input_line(SH4_IRLn, ASSERT_LINE); + set_input_line(SH4_IRLn, CLEAR_LINE); +} + +void sh34_base_device::execute_set_input(int irqline, int state) // set state of external interrupt line +{ + if (m_cpu_type == CPU_TYPE_SH3) + { + /***** ASSUME THIS TO BE WRONG FOR NOW *****/ + + if (irqline == INPUT_LINE_NMI) + { + fatalerror("SH3 NMI Unimplemented\n"); + } + else + { + //if (irqline > SH4_IRL3) + // return; + if (m_irq_line_state[irqline] == state) + return; + m_irq_line_state[irqline] = state; + + if( state == CLEAR_LINE ) + { + LOG(("SH-4 '%s' cleared external irq IRL%d\n", tag(), irqline)); + sh4_exception_unrequest(SH4_INTC_IRL0+irqline-SH4_IRL0); + } + else + { + LOG(("SH-4 '%s' assert external irq IRL%d\n", tag(), irqline)); + sh4_exception_request(SH4_INTC_IRL0+irqline-SH4_IRL0); + } + + } + + /***** END ASSUME THIS TO BE WRONG FOR NOW *****/ + } + else + { + int s; + + if (irqline == INPUT_LINE_NMI) + { + if (m_nmi_line_state == state) + return; + if (m_m[ICR] & 0x100) + { + if ((state == CLEAR_LINE) && (m_nmi_line_state == ASSERT_LINE)) // rising + { + LOG(("SH-4 '%s' assert nmi\n", tag())); + sh4_exception_request(SH4_INTC_NMI); + sh4_dmac_nmi(); + } + } + else + { + if ((state == ASSERT_LINE) && (m_nmi_line_state == CLEAR_LINE)) // falling + { + LOG(("SH-4 '%s' assert nmi\n", tag())); + sh4_exception_request(SH4_INTC_NMI); + sh4_dmac_nmi(); + } + } + if (state == CLEAR_LINE) + m_m[ICR] ^= 0x8000; + else + m_m[ICR] |= 0x8000; + m_nmi_line_state = state; + } + else + { + if (m_m[ICR] & 0x80) // four independent external interrupt sources + { + if (irqline > SH4_IRL3) + return; + if (m_irq_line_state[irqline] == state) + return; + m_irq_line_state[irqline] = state; + + if( state == CLEAR_LINE ) + { + LOG(("SH-4 '%s' cleared external irq IRL%d\n", tag(), irqline)); + sh4_exception_unrequest(SH4_INTC_IRL0+irqline-SH4_IRL0); + } + else + { + LOG(("SH-4 '%s' assert external irq IRL%d\n", tag(), irqline)); + sh4_exception_request(SH4_INTC_IRL0+irqline-SH4_IRL0); + } + } + else // level-encoded interrupt + { + if (irqline != SH4_IRLn) + return; + if ((m_irln > 15) || (m_irln < 0)) + return; + for (s = 0; s < 15; s++) + sh4_exception_unrequest(SH4_INTC_IRLn0+s); + if (m_irln < 15) + sh4_exception_request(SH4_INTC_IRLn0+m_irln); + LOG(("SH-4 '%s' IRLn0-IRLn3 level #%d\n", tag(), m_irln)); + } + } + if (m_test_irq && (!m_delay)) + sh4_check_pending_irq("sh4_set_irq_line"); + } +} + +void sh34_base_device::sh4_parse_configuration() +{ + if(c_clock > 0) + { + switch((c_md2 << 2) | (c_md1 << 1) | (c_md0)) + { + case 0: + m_cpu_clock = c_clock; + m_bus_clock = c_clock / 4; + m_pm_clock = c_clock / 4; + break; + case 1: + m_cpu_clock = c_clock; + m_bus_clock = c_clock / 6; + m_pm_clock = c_clock / 6; + break; + case 2: + m_cpu_clock = c_clock; + m_bus_clock = c_clock / 3; + m_pm_clock = c_clock / 6; + break; + case 3: + m_cpu_clock = c_clock; + m_bus_clock = c_clock / 3; + m_pm_clock = c_clock / 6; + break; + case 4: + m_cpu_clock = c_clock; + m_bus_clock = c_clock / 2; + m_pm_clock = c_clock / 4; + break; + case 5: + m_cpu_clock = c_clock; + m_bus_clock = c_clock / 2; + m_pm_clock = c_clock / 4; + break; + } + m_is_slave = (~(c_md7)) & 1; + } + else + { + m_cpu_clock = 200000000; + m_bus_clock = 100000000; + m_pm_clock = 50000000; + m_is_slave = 0; + } +} + +UINT32 sh34_base_device::sh4_getsqremap(UINT32 address) +{ + if (!m_sh4_mmu_enabled) + return address; + else + { + int i; + UINT32 topaddr = address&0xfff00000; + + for (i=0;i<64;i++) + { + UINT32 topcmp = m_sh4_tlb_address[i]&0xfff00000; + if (topcmp==topaddr) + return (address&0x000fffff) | ((m_sh4_tlb_data[i])&0xfff00000); + } + + } + + return address; +} + +READ64_MEMBER( sh4_base_device::sh4_tlb_r ) +{ + int offs = offset*8; + + if (offs >= 0x01000000) + { + UINT8 i = (offs>>8)&63; + return m_sh4_tlb_data[i]; + } + else + { + UINT8 i = (offs>>8)&63; + return m_sh4_tlb_address[i]; + } +} + +WRITE64_MEMBER( sh4_base_device::sh4_tlb_w ) +{ + int offs = offset*8; + + if (offs >= 0x01000000) + { + UINT8 i = (offs>>8)&63; + m_sh4_tlb_data[i] = data&0xffffffff; + } + else + { + UINT8 i = (offs>>8)&63; + m_sh4_tlb_address[i] = data&0xffffffff; + } +} |