#include "../sh2.h" #ifdef DRC_CMP #include "../compiler.c" #define BUSY_LOOP_HACKS 0 #else #define BUSY_LOOP_HACKS 1 #endif // MAME types #ifndef INT8 typedef signed char INT8; typedef signed short INT16; typedef signed int INT32; typedef unsigned int UINT32; typedef unsigned short UINT16; typedef unsigned char UINT8; #endif #ifdef DRC_SH2 // this nasty conversion is needed for drc-expecting memhandlers #define MAKE_READFUNC(name, cname) \ static inline unsigned int name(SH2 *sh2, unsigned int a) \ { \ unsigned int ret; \ sh2->sr |= sh2->icount << 12; \ ret = cname(a, sh2); \ sh2->icount = (signed int)sh2->sr >> 12; \ sh2->sr &= 0x3f3; \ return ret; \ } #define MAKE_WRITEFUNC(name, cname) \ static inline void name(SH2 *sh2, unsigned int a, unsigned int d) \ { \ sh2->sr |= sh2->icount << 12; \ cname(a, d, sh2); \ sh2->icount = (signed int)sh2->sr >> 12; \ sh2->sr &= 0x3f3; \ } MAKE_READFUNC(RB, p32x_sh2_read8) MAKE_READFUNC(RW, p32x_sh2_read16) MAKE_READFUNC(RL, p32x_sh2_read32) MAKE_WRITEFUNC(WB, p32x_sh2_write8) MAKE_WRITEFUNC(WW, p32x_sh2_write16) MAKE_WRITEFUNC(WL, p32x_sh2_write32) #else #define RB(sh2, a) p32x_sh2_read8(a, sh2) #define RW(sh2, a) p32x_sh2_read16(a, sh2) #define RL(sh2, a) p32x_sh2_read32(a, sh2) #define WB(sh2, a, d) p32x_sh2_write8(a, d, sh2) #define WW(sh2, a, d) p32x_sh2_write16(a, d, sh2) #define WL(sh2, a, d) p32x_sh2_write32(a, d, sh2) #endif // some stuff from sh2comn.h #define T 0x00000001 #define S 0x00000002 #define I 0x000000f0 #define Q 0x00000100 #define M 0x00000200 #define AM 0xc7ffffff #define FLAGS (M|Q|I|S|T) #define Rn ((opcode>>8)&15) #define Rm ((opcode>>4)&15) #define sh2_state SH2 extern void lprintf(const char *fmt, ...); #define logerror lprintf #ifdef SH2_STATS static SH2 sh2_stats; static unsigned int op_refs[0x10000]; # define LRN 1 # define LRM 2 # define LRNM (LRN|LRM) # define rlog(rnm) { \ int op = opcode; \ if ((rnm) & LRN) { \ op &= ~0x0f00; \ sh2_stats.r[Rn]++; \ } \ if ((rnm) & LRM) { \ op &= ~0x00f0; \ sh2_stats.r[Rm]++; \ } \ op_refs[op]++; \ } # define rlog1(x) sh2_stats.r[x]++ # define rlog2(x1,x2) sh2_stats.r[x1]++; sh2_stats.r[x2]++ #else # define rlog(x) # define rlog1(...) # define rlog2(...) #endif #include "sh2.inc" #ifndef DRC_CMP int sh2_execute_interpreter(SH2 *sh2, int cycles) { UINT32 opcode; sh2->icount = cycles; if (sh2->icount <= 0) goto out; do { if (sh2->delay) { sh2->ppc = sh2->delay; opcode = RW(sh2, sh2->delay); sh2->pc -= 2; } else { sh2->ppc = sh2->pc; opcode = RW(sh2, sh2->pc); } sh2->delay = 0; sh2->pc += 2; switch (opcode & ( 15 << 12)) { case 0<<12: op0000(sh2, opcode); break; case 1<<12: op0001(sh2, opcode); break; case 2<<12: op0010(sh2, opcode); break; case 3<<12: op0011(sh2, opcode); break; case 4<<12: op0100(sh2, opcode); break; case 5<<12: op0101(sh2, opcode); break; case 6<<12: op0110(sh2, opcode); break; case 7<<12: op0111(sh2, opcode); break; case 8<<12: op1000(sh2, opcode); break; case 9<<12: op1001(sh2, opcode); break; case 10<<12: op1010(sh2, opcode); break; case 11<<12: op1011(sh2, opcode); break; case 12<<12: op1100(sh2, opcode); break; case 13<<12: op1101(sh2, opcode); break; case 14<<12: op1110(sh2, opcode); break; default: op1111(sh2, opcode); break; } sh2->icount--; if (sh2->test_irq && !sh2->delay && sh2->pending_level > ((sh2->sr >> 4) & 0x0f)) { int level = sh2->pending_level; int vector = sh2->irq_callback(sh2, level); sh2_do_irq(sh2, level, vector); sh2->test_irq = 0; } } while (sh2->icount > 0 || sh2->delay); /* can't interrupt before delay */ out: return sh2->icount; } #else // if DRC_CMP int sh2_execute_interpreter(SH2 *sh2, int cycles) { static unsigned int base_pc_[2] = { 0, 0 }; static unsigned int end_pc_[2] = { 0, 0 }; static unsigned char op_flags_[2][BLOCK_INSN_LIMIT]; unsigned int *base_pc = &base_pc_[sh2->is_slave]; unsigned int *end_pc = &end_pc_[sh2->is_slave]; unsigned char *op_flags = op_flags_[sh2->is_slave]; unsigned int pc_expect; UINT32 opcode; sh2->icount = sh2->cycles_timeslice = cycles; if (sh2->pending_level > ((sh2->sr >> 4) & 0x0f)) { int level = sh2->pending_level; int vector = sh2->irq_callback(sh2, level); sh2_do_irq(sh2, level, vector); } pc_expect = sh2->pc; if (sh2->icount <= 0) goto out; do { if (!sh2->delay) { if (sh2->pc < *base_pc || sh2->pc >= *end_pc) { *base_pc = sh2->pc; scan_block(*base_pc, sh2->is_slave, op_flags, end_pc, NULL); } if ((op_flags[(sh2->pc - *base_pc) / 2] & OF_BTARGET) || sh2->pc == *base_pc || pc_expect != sh2->pc) // branched { pc_expect = sh2->pc; if (sh2->icount < 0) break; } do_sh2_trace(sh2, sh2->icount); } pc_expect += 2; if (sh2->delay) { sh2->ppc = sh2->delay; opcode = RW(sh2, sh2->delay); sh2->pc -= 2; } else { sh2->ppc = sh2->pc; opcode = RW(sh2, sh2->pc); } sh2->delay = 0; sh2->pc += 2; switch (opcode & ( 15 << 12)) { case 0<<12: op0000(sh2, opcode); break; case 1<<12: op0001(sh2, opcode); break; case 2<<12: op0010(sh2, opcode); break; case 3<<12: op0011(sh2, opcode); break; case 4<<12: op0100(sh2, opcode); break; case 5<<12: op0101(sh2, opcode); break; case 6<<12: op0110(sh2, opcode); break; case 7<<12: op0111(sh2, opcode); break; case 8<<12: op1000(sh2, opcode); break; case 9<<12: op1001(sh2, opcode); break; case 10<<12: op1010(sh2, opcode); break; case 11<<12: op1011(sh2, opcode); break; case 12<<12: op1100(sh2, opcode); break; case 13<<12: op1101(sh2, opcode); break; case 14<<12: op1110(sh2, opcode); break; default: op1111(sh2, opcode); break; } sh2->icount--; if (sh2->test_irq && !sh2->delay && sh2->pending_level > ((sh2->sr >> 4) & 0x0f)) { int level = sh2->pending_level; int vector = sh2->irq_callback(sh2, level); sh2_do_irq(sh2, level, vector); sh2->test_irq = 0; } } while (1); out: return sh2->icount; } #endif // DRC_CMP #ifdef SH2_STATS #include #include #include "sh2dasm.h" void sh2_dump_stats(void) { static const char *rnames[] = { "R0", "R1", "R2", "R3", "R4", "R5", "R6", "R7", "R8", "R9", "R10", "R11", "R12", "R13", "R14", "SP", "PC", "", "PR", "SR", "GBR", "VBR", "MACH", "MACL" }; long long total; char buff[64]; int u, i; // dump reg usage total = 0; for (i = 0; i < 24; i++) total += sh2_stats.r[i]; for (i = 0; i < 24; i++) { if (i == 16 || i == 17 || i == 19) continue; printf("r %6.3f%% %-4s %9d\n", (double)sh2_stats.r[i] * 100.0 / total, rnames[i], sh2_stats.r[i]); } memset(&sh2_stats, 0, sizeof(sh2_stats)); // dump ops printf("\n"); total = 0; for (i = 0; i < 0x10000; i++) total += op_refs[i]; for (u = 0; u < 16; u++) { int max = 0, op = 0; for (i = 0; i < 0x10000; i++) { if (op_refs[i] > max) { max = op_refs[i]; op = i; } } DasmSH2(buff, 0, op); printf("i %6.3f%% %9d %s\n", (double)op_refs[op] * 100.0 / total, op_refs[op], buff); op_refs[op] = 0; } memset(op_refs, 0, sizeof(op_refs)); } #endif