-// 187 blocks, 12072 bytes
-// 14 IRAM blocks
#include "../../PicoInt.h"
#include "compiler.h"
static unsigned int *block_table_iram[15][0x800/2];
static unsigned int *tcache_ptr = NULL;
-static int had_jump = 0;
static int nblocks = 0;
static int iram_context = 0;
#ifndef ARM
-#define DUMP_BLOCK 0x84a
+#define DUMP_BLOCK 0x0c9a
unsigned int tcache[512*1024];
void regfile_load(void){}
void regfile_store(void){}
#define GET_PC() rPC
#define GET_PPC_OFFS() (GET_PC()*2 - 2)
-#define SET_PC(d) { had_jump = 1; rPC = d; } /* must return to dispatcher after this */
+#define SET_PC(d) { rPC = d; } /* must return to dispatcher after this */
//#define GET_PC() (PC - (unsigned short *)svp->iram_rom)
//#define GET_PPC_OFFS() ((unsigned int)PC - (unsigned int)svp->iram_rom - 2)
//#define SET_PC(d) PC = (unsigned short *)svp->iram_rom + d
NULL, op79, NULL, NULL, op7c, NULL, NULL, NULL,
};
+
+static u32 ssp_pm_read(int reg)
+{
+ u32 d = 0, mode;
+
+ if (ssp->emu_status & SSP_PMC_SET)
+ {
+ ssp->pmac_read[reg] = rPMC.v;
+ ssp->emu_status &= ~SSP_PMC_SET;
+ return 0;
+ }
+
+ // just in case
+ ssp->emu_status &= ~SSP_PMC_HAVE_ADDR;
+
+ mode = ssp->pmac_read[reg]>>16;
+ if ((mode & 0xfff0) == 0x0800) // ROM
+ {
+ d = ((unsigned short *)Pico.rom)[ssp->pmac_read[reg]&0xfffff];
+ ssp->pmac_read[reg] += 1;
+ }
+ else if ((mode & 0x47ff) == 0x0018) // DRAM
+ {
+ unsigned short *dram = (unsigned short *)svp->dram;
+ int inc = get_inc(mode);
+ d = dram[ssp->pmac_read[reg]&0xffff];
+ ssp->pmac_read[reg] += inc;
+ }
+
+ // PMC value corresponds to last PMR accessed
+ rPMC.v = ssp->pmac_read[reg];
+
+ return d;
+}
+
+static void ssp_pm_write(u32 d, int reg)
+{
+ unsigned short *dram;
+ int mode, addr;
+
+ if (ssp->emu_status & SSP_PMC_SET)
+ {
+ ssp->pmac_write[reg] = rPMC.v;
+ ssp->emu_status &= ~SSP_PMC_SET;
+ return;
+ }
+
+ // just in case
+ ssp->emu_status &= ~SSP_PMC_HAVE_ADDR;
+
+ dram = (unsigned short *)svp->dram;
+ mode = ssp->pmac_write[reg]>>16;
+ addr = ssp->pmac_write[reg]&0xffff;
+ if ((mode & 0x43ff) == 0x0018) // DRAM
+ {
+ int inc = get_inc(mode);
+ if (mode & 0x0400) {
+ overwrite_write(dram[addr], d);
+ } else dram[addr] = d;
+ ssp->pmac_write[reg] += inc;
+ }
+ else if ((mode & 0xfbff) == 0x4018) // DRAM, cell inc
+ {
+ if (mode & 0x0400) {
+ overwrite_write(dram[addr], d);
+ } else dram[addr] = d;
+ ssp->pmac_write[reg] += (addr&1) ? 31 : 1;
+ }
+ else if ((mode & 0x47ff) == 0x001c) // IRAM
+ {
+ int inc = get_inc(mode);
+ ((unsigned short *)svp->iram_rom)[addr&0x3ff] = d;
+ ssp->pmac_write[reg] += inc;
+ ssp->drc.iram_dirty = 1;
+ }
+
+ rPMC.v = ssp->pmac_write[reg];
+}
+
+
// -----------------------------------------------------
+// 14 IRAM blocks
static unsigned char iram_context_map[] =
{
0, 0, 0, 0, 1, 0, 0, 0, // 04
}
// -----------------------------------------------------
-/*
-enum {
- SSP_GR0, SSP_X, SSP_Y, SSP_A,
- SSP_ST, SSP_STACK, SSP_PC, SSP_P,
- SSP_PM0, SSP_PM1, SSP_PM2, SSP_XST,
- SSP_PM4, SSP_gr13, SSP_PMC, SSP_AL
-};
-*/
+
/* regs with known values */
static struct
{
ssp_reg_t gr[8];
unsigned char r[8];
-} const_regs;
-
-#define CRREG_X (1 << SSP_X)
-#define CRREG_Y (1 << SSP_Y)
-#define CRREG_A (1 << SSP_A) /* AH only */
-#define CRREG_ST (1 << SSP_ST)
-#define CRREG_STACK (1 << SSP_STACK)
-#define CRREG_PC (1 << SSP_PC)
-#define CRREG_P (1 << SSP_P)
-#define CRREG_PR0 (1 << 8)
-#define CRREG_PR4 (1 << 12)
-#define CRREG_AL (1 << 16)
-
-static u32 const_regb = 0; /* bitfield of known register values */
-static u32 dirty_regb = 0; /* known vals, which need to be flushed (only r0-r7) */
+ unsigned int pmac_read[5];
+ unsigned int pmac_write[5];
+ ssp_reg_t pmc;
+ unsigned int emu_status;
+} known_regs;
+
+#define KRREG_X (1 << SSP_X)
+#define KRREG_Y (1 << SSP_Y)
+#define KRREG_A (1 << SSP_A) /* AH only */
+#define KRREG_ST (1 << SSP_ST)
+#define KRREG_STACK (1 << SSP_STACK)
+#define KRREG_PC (1 << SSP_PC)
+#define KRREG_P (1 << SSP_P)
+#define KRREG_PR0 (1 << 8)
+#define KRREG_PR4 (1 << 12)
+#define KRREG_AL (1 << 16)
+#define KRREG_PMCM (1 << 18) /* only mode word of PMC */
+#define KRREG_PMC (1 << 19)
+#define KRREG_PM0R (1 << 20)
+#define KRREG_PM1R (1 << 21)
+#define KRREG_PM2R (1 << 22)
+#define KRREG_PM3R (1 << 23)
+#define KRREG_PM4R (1 << 24)
+#define KRREG_PM0W (1 << 25)
+#define KRREG_PM1W (1 << 26)
+#define KRREG_PM2W (1 << 27)
+#define KRREG_PM3W (1 << 28)
+#define KRREG_PM4W (1 << 29)
+
+/* bitfield of known register values */
+static u32 known_regb = 0;
+
+/* known vals, which need to be flushed
+ * (only ST, P, r0-r7, PMCx, PMxR, PMxW)
+ * ST means flags are being held in ARM PSR
+ * P means that it needs to be recalculated
+ */
+static u32 dirty_regb = 0;
/* known values of host regs.
- * -1 - unknown
- * 00000-0ffff - 16bit value
- * 10000-1ffff - base reg (r7) + 16bit val
- * 20000 - means reg (low) eq AH
+ * -1 - unknown
+ * 000000-00ffff - 16bit value
+ * 100000-10ffff - base reg (r7) + 16bit val
+ * 0r0000 - means reg (low) eq gr[r].h, r != AL
*/
static int hostreg_r[4];
hostreg_r[i] = -1;
}
-/*static*/ void hostreg_ah_changed(void)
+static void hostreg_sspreg_changed(int sspreg)
{
int i;
for (i = 0; i < 4; i++)
- if (hostreg_r[i] == 0x20000) hostreg_r[i] = -1;
+ if (hostreg_r[i] == (sspreg<<16)) hostreg_r[i] = -1;
}
-#define PROGRAM(x) ((unsigned short *)svp->iram_rom)[x]
+#define PROGRAM(x) ((unsigned short *)svp->iram_rom)[x]
+#define PROGRAM_P(x) ((unsigned short *)svp->iram_rom + (x))
-/* load 16bit val into host reg r0-r3. Nothing is trashed */
-static void tr_mov16(int r, int val)
+static void tr_unhandled(void)
{
- if (hostreg_r[r] != val) {
- emit_mov_const(r, val);
- hostreg_r[r] = val;
+ FILE *f = fopen("tcache.bin", "wb");
+ fwrite(tcache, 1, (tcache_ptr - tcache)*4, f);
+ fclose(f);
+ printf("unhandled @ %04x\n", known_regs.gr[SSP_PC].h<<1);
+ exit(1);
+}
+
+/* update P, if needed. Trashes r0 */
+static void tr_flush_dirty_P(void)
+{
+ // TODO: const regs
+ if (!(dirty_regb & KRREG_P)) return;
+ EOP_MOV_REG_ASR(10, 4, 16); // mov r10, r4, asr #16
+ EOP_MOV_REG_LSL( 0, 4, 16); // mov r0, r4, lsl #16
+ EOP_MOV_REG_ASR( 0, 0, 15); // mov r0, r0, asr #15
+ EOP_MUL(10, 0, 10); // mul r10, r0, r10
+ dirty_regb &= ~KRREG_P;
+ hostreg_r[0] = -1;
+}
+
+/* write dirty pr to host reg. Nothing is trashed */
+static void tr_flush_dirty_pr(int r)
+{
+ int ror = 0, reg;
+
+ if (!(dirty_regb & (1 << (r+8)))) return;
+
+ switch (r&3) {
+ case 0: ror = 0; break;
+ case 1: ror = 24/2; break;
+ case 2: ror = 16/2; break;
}
+ reg = (r < 4) ? 8 : 9;
+ EOP_BIC_IMM(reg,reg,ror,0xff);
+ if (known_regs.r[r] != 0)
+ EOP_ORR_IMM(reg,reg,ror,known_regs.r[r]);
+ dirty_regb &= ~(1 << (r+8));
}
-/* write dirty r0-r7 to host regs. Nothing is trashed */
-static void tr_flush_dirty(void)
+/* write all dirty pr0-pr7 to host regs. Nothing is trashed */
+static void tr_flush_dirty_prs(void)
{
int i, ror = 0, reg;
- dirty_regb >>= 8;
+ int dirty = dirty_regb >> 8;
/* r0-r7 */
- for (i = 0; dirty_regb && i < 8; i++, dirty_regb >>= 1)
+ for (i = 0; dirty && i < 8; i++, dirty >>= 1)
{
- if (!(dirty_regb&1)) continue;
+ if (!(dirty&1)) continue;
switch (i&3) {
case 0: ror = 0; break;
case 1: ror = 24/2; break;
}
reg = (i < 4) ? 8 : 9;
EOP_BIC_IMM(reg,reg,ror,0xff);
- if (const_regs.r[i] != 0)
- EOP_ORR_IMM(reg,reg,ror,const_regs.r[i]);
+ if (known_regs.r[i] != 0)
+ EOP_ORR_IMM(reg,reg,ror,known_regs.r[i]);
}
+ dirty_regb &= ~0xff00;
}
-/* read bank word to r0 (MSW may contain trash). Thrashes r1. */
-static void tr_bank_read(int addr) /* word addr 0-0x1ff */
+/* write dirty pr and "forget" it. Nothing is trashed. */
+static void tr_release_pr(int r)
+{
+ tr_flush_dirty_pr(r);
+ known_regb &= ~(1 << (r+8));
+}
+
+/* fush ARM PSR to r6. Trashes r1 */
+static void tr_flush_dirty_ST(void)
+{
+ if (!(dirty_regb & KRREG_ST)) return;
+ EOP_BIC_IMM(6,6,0,0x0f);
+ EOP_MRS(1);
+ EOP_ORR_REG_LSR(6,6,1,28);
+ dirty_regb &= ~KRREG_ST;
+ hostreg_r[1] = -1;
+}
+
+/* inverse of above. Trashes r1 */
+static void tr_make_dirty_ST(void)
+{
+ if (dirty_regb & KRREG_ST) return;
+ if (known_regb & KRREG_ST) {
+ int flags = 0;
+ if (known_regs.gr[SSP_ST].h & SSP_FLAG_N) flags |= 8;
+ if (known_regs.gr[SSP_ST].h & SSP_FLAG_Z) flags |= 4;
+ EOP_MSR_IMM(4/2, flags);
+ } else {
+ EOP_MOV_REG_LSL(1, 6, 28);
+ EOP_MSR_REG(1);
+ hostreg_r[1] = -1;
+ }
+ dirty_regb |= KRREG_ST;
+}
+
+/* load 16bit val into host reg r0-r3. Nothing is trashed */
+static void tr_mov16(int r, int val)
+{
+ if (hostreg_r[r] != val) {
+ emit_mov_const(A_COND_AL, r, val);
+ hostreg_r[r] = val;
+ }
+}
+
+static void tr_mov16_cond(int cond, int r, int val)
+{
+ emit_mov_const(cond, r, val);
+ hostreg_r[r] = -1;
+}
+
+/* trashes r0 */
+static void tr_flush_dirty_pmcrs(void)
{
- if (addr&1) {
- int breg = 7;
- if (addr > 0x7f) {
- if (hostreg_r[1] != (0x10000|((addr&0x180)<<1))) {
- EOP_ADD_IMM(1,7,30/2,(addr&0x180)>>1); // add r1, r7, ((op&0x180)<<1)
- hostreg_r[1] = 0x10000|((addr&0x180)<<1);
+ u32 i, val = (u32)-1;
+ if (!(dirty_regb & 0x3ff80000)) return;
+
+ if (dirty_regb & KRREG_PMC) {
+ val = known_regs.pmc.v;
+ emit_mov_const(A_COND_AL, 1, val);
+ EOP_STR_IMM(1,7,0x400+SSP_PMC*4);
+
+ if (known_regs.emu_status & (SSP_PMC_SET|SSP_PMC_HAVE_ADDR)) {
+ printf("!! SSP_PMC_SET|SSP_PMC_HAVE_ADDR set on flush\n");
+ tr_unhandled();
+ }
+ }
+ for (i = 0; i < 5; i++)
+ {
+ if (dirty_regb & (1 << (20+i))) {
+ if (val != known_regs.pmac_read[i]) {
+ val = known_regs.pmac_read[i];
+ emit_mov_const(A_COND_AL, 1, val);
}
- breg = 1;
+ EOP_STR_IMM(1,7,0x454+i*4); // pmac_read
}
- EOP_LDRH_IMM(0,breg,(addr&0x7f)<<1); // ldrh r0, [r1, (op&0x7f)<<1]
- } else {
- EOP_LDR_IMM(0,7,(addr&0x1ff)<<1); // ldr r0, [r1, (op&0x1ff)<<1]
+ if (dirty_regb & (1 << (25+i))) {
+ if (val != known_regs.pmac_write[i]) {
+ val = known_regs.pmac_write[i];
+ emit_mov_const(A_COND_AL, 1, val);
+ }
+ EOP_STR_IMM(1,7,0x46c+i*4); // pmac_write
+ }
+ }
+ dirty_regb &= ~0x3ff80000;
+ hostreg_r[1] = -1;
+}
+
+/* read bank word to r0 (upper bits zero). Thrashes r1. */
+static void tr_bank_read(int addr) /* word addr 0-0x1ff */
+{
+ int breg = 7;
+ if (addr > 0x7f) {
+ if (hostreg_r[1] != (0x100000|((addr&0x180)<<1))) {
+ EOP_ADD_IMM(1,7,30/2,(addr&0x180)>>1); // add r1, r7, ((op&0x180)<<1)
+ hostreg_r[1] = 0x100000|((addr&0x180)<<1);
+ }
+ breg = 1;
}
+ EOP_LDRH_IMM(0,breg,(addr&0x7f)<<1); // ldrh r0, [r1, (op&0x7f)<<1]
hostreg_r[0] = -1;
}
{
int breg = 7;
if (addr > 0x7f) {
- if (hostreg_r[1] != (0x10000|((addr&0x180)<<1))) {
+ if (hostreg_r[1] != (0x100000|((addr&0x180)<<1))) {
EOP_ADD_IMM(1,7,30/2,(addr&0x180)>>1); // add r1, r7, ((op&0x180)<<1)
- hostreg_r[1] = 0x10000|((addr&0x180)<<1);
+ hostreg_r[1] = 0x100000|((addr&0x180)<<1);
}
breg = 1;
}
EOP_STRH_IMM(0,breg,(addr&0x7f)<<1); // strh r0, [r1, (op&0x7f)<<1]
}
-/* handle RAM bank pointer modifiers. Nothing is trashed. */
-static void tr_ptrr_mod(int r, int mod, int need_modulo)
+/* handle RAM bank pointer modifiers. if need_modulo, trash r1-r3, else nothing */
+static void tr_ptrr_mod(int r, int mod, int need_modulo, int count)
{
- int modulo = -1, modulo_shift = -1; /* unknown */
+ int modulo_shift = -1; /* unknown */
if (mod == 0) return;
if (!need_modulo || mod == 1) // +!
modulo_shift = 8;
- else if (need_modulo && (const_regb & CRREG_ST)) {
- modulo_shift = const_regs.gr[SSP_ST].h & 7;
+ else if (need_modulo && (known_regb & KRREG_ST)) {
+ modulo_shift = known_regs.gr[SSP_ST].h & 7;
if (modulo_shift == 0) modulo_shift = 8;
}
- if (mod > 1 && modulo_shift == -1) { printf("need var modulo\n"); exit(1); }
- modulo = (1 << modulo_shift) - 1;
-
- if (const_regb & (1 << (r + 8))) {
+ if (modulo_shift == -1)
+ {
+ int reg = (r < 4) ? 8 : 9;
+ tr_release_pr(r);
+ if (dirty_regb & KRREG_ST) {
+ // avoid flushing ARM flags
+ EOP_AND_IMM(1, 6, 0, 0x70);
+ EOP_SUB_IMM(1, 1, 0, 0x10);
+ EOP_AND_IMM(1, 1, 0, 0x70);
+ EOP_ADD_IMM(1, 1, 0, 0x10);
+ } else {
+ EOP_C_DOP_IMM(A_COND_AL,A_OP_AND,1,6,1,0,0x70); // ands r1, r6, #0x70
+ EOP_C_DOP_IMM(A_COND_EQ,A_OP_MOV,0,0,1,0,0x80); // moveq r1, #0x80
+ }
+ EOP_MOV_REG_LSR(1, 1, 4); // mov r1, r1, lsr #4
+ EOP_RSB_IMM(2, 1, 0, 8); // rsb r1, r1, #8
+ EOP_MOV_IMM(3, 8/2, count); // mov r3, #0x01000000
+ if (r&3)
+ EOP_ADD_IMM(1, 1, 0, (r&3)*8); // add r1, r1, #(r&3)*8
+ EOP_MOV_REG2_ROR(reg,reg,1); // mov reg, reg, ror r1
if (mod == 2)
- const_regs.r[r] = (const_regs.r[r] & ~modulo) | ((const_regs.r[r] - 1) & modulo);
- else const_regs.r[r] = (const_regs.r[r] & ~modulo) | ((const_regs.r[r] + 1) & modulo);
- } else {
+ EOP_SUB_REG2_LSL(reg,reg,3,2); // sub reg, reg, #0x01000000 << r2
+ else EOP_ADD_REG2_LSL(reg,reg,3,2);
+ EOP_RSB_IMM(1, 1, 0, 32); // rsb r1, r1, #32
+ EOP_MOV_REG2_ROR(reg,reg,1); // mov reg, reg, ror r1
+ hostreg_r[1] = hostreg_r[2] = hostreg_r[3] = -1;
+ }
+ else if (known_regb & (1 << (r + 8)))
+ {
+ int modulo = (1 << modulo_shift) - 1;
+ if (mod == 2)
+ known_regs.r[r] = (known_regs.r[r] & ~modulo) | ((known_regs.r[r] - count) & modulo);
+ else known_regs.r[r] = (known_regs.r[r] & ~modulo) | ((known_regs.r[r] + count) & modulo);
+ }
+ else
+ {
int reg = (r < 4) ? 8 : 9;
int ror = ((r&3) + 1)*8 - (8 - modulo_shift);
EOP_MOV_REG_ROR(reg,reg,ror);
// {add|sub} reg, reg, #1<<shift
- EOP_C_DOP_IMM(A_COND_AL,(mod==2)?A_OP_SUB:A_OP_ADD,0,reg,reg, 8/2, 1<<(8 - modulo_shift));
+ EOP_C_DOP_IMM(A_COND_AL,(mod==2)?A_OP_SUB:A_OP_ADD,0,reg,reg, 8/2, count << (8 - modulo_shift));
EOP_MOV_REG_ROR(reg,reg,32-ror);
}
}
-// SSP_GR0, SSP_X, SSP_Y, SSP_A,
-// SSP_ST, SSP_STACK, SSP_PC, SSP_P,
+/* handle writes r0 to (rX). Trashes r1.
+ * fortunately we can ignore modulo increment modes for writes. */
+static void tr_rX_write(int op)
+{
+ if ((op&3) == 3)
+ {
+ int mod = (op>>2) & 3; // direct addressing
+ tr_bank_write((op & 0x100) + mod);
+ }
+ else
+ {
+ int r = (op&3) | ((op>>6)&4);
+ if (known_regb & (1 << (r + 8))) {
+ tr_bank_write((op&0x100) | known_regs.r[r]);
+ } else {
+ int reg = (r < 4) ? 8 : 9;
+ int ror = ((4 - (r&3))*8) & 0x1f;
+ EOP_AND_IMM(1,reg,ror/2,0xff); // and r1, r{7,8}, <mask>
+ if (r >= 4)
+ EOP_ORR_IMM(1,1,((ror-8)&0x1f)/2,1); // orr r1, r1, 1<<shift
+ if (r&3) EOP_ADD_REG_LSR(1,7,1, (r&3)*8-1); // add r1, r7, r1, lsr #lsr
+ else EOP_ADD_REG_LSL(1,7,1,1);
+ EOP_STRH_SIMPLE(0,1); // strh r0, [r1]
+ hostreg_r[1] = -1;
+ }
+ tr_ptrr_mod(r, (op>>2) & 3, 0, 1);
+ }
+}
+
+/* read (rX) to r0. Trashes r1-r3. */
+static void tr_rX_read(int r, int mod)
+{
+ if ((r&3) == 3)
+ {
+ tr_bank_read(((r << 6) & 0x100) + mod); // direct addressing
+ }
+ else
+ {
+ if (known_regb & (1 << (r + 8))) {
+ tr_bank_read(((r << 6) & 0x100) | known_regs.r[r]);
+ } else {
+ int reg = (r < 4) ? 8 : 9;
+ int ror = ((4 - (r&3))*8) & 0x1f;
+ EOP_AND_IMM(1,reg,ror/2,0xff); // and r1, r{7,8}, <mask>
+ if (r >= 4)
+ EOP_ORR_IMM(1,1,((ror-8)&0x1f)/2,1); // orr r1, r1, 1<<shift
+ if (r&3) EOP_ADD_REG_LSR(1,7,1, (r&3)*8-1); // add r1, r7, r1, lsr #lsr
+ else EOP_ADD_REG_LSL(1,7,1,1);
+ EOP_LDRH_SIMPLE(0,1); // ldrh r0, [r1]
+ hostreg_r[0] = hostreg_r[1] = -1;
+ }
+ tr_ptrr_mod(r, mod, 1, 1);
+ }
+}
+
+/* read ((rX)) to r0. Trashes r1,r2. */
+static void tr_rX_read2(int op)
+{
+ int r = (op&3) | ((op>>6)&4); // src
+
+ if ((r&3) == 3) {
+ tr_bank_read((op&0x100) | ((op>>2)&3));
+ } else if (known_regb & (1 << (r+8))) {
+ tr_bank_read((op&0x100) | known_regs.r[r]);
+ } else {
+ int reg = (r < 4) ? 8 : 9;
+ int ror = ((4 - (r&3))*8) & 0x1f;
+ EOP_AND_IMM(1,reg,ror/2,0xff); // and r1, r{7,8}, <mask>
+ if (r >= 4)
+ EOP_ORR_IMM(1,1,((ror-8)&0x1f)/2,1); // orr r1, r1, 1<<shift
+ if (r&3) EOP_ADD_REG_LSR(1,7,1, (r&3)*8-1); // add r1, r7, r1, lsr #lsr
+ else EOP_ADD_REG_LSL(1,7,1,1);
+ EOP_LDRH_SIMPLE(0,1); // ldrh r0, [r1]
+ }
+ EOP_LDR_IMM(2,7,0x48c); // ptr_iram_rom
+ EOP_ADD_REG_LSL(2,2,0,1); // add r2, r2, r0, lsl #1
+ EOP_ADD_IMM(0,0,0,1); // add r0, r0, #1
+ if ((r&3) == 3) {
+ tr_bank_write((op&0x100) | ((op>>2)&3));
+ } else if (known_regb & (1 << (r+8))) {
+ tr_bank_write((op&0x100) | known_regs.r[r]);
+ } else {
+ EOP_STRH_SIMPLE(0,1); // strh r0, [r1]
+ hostreg_r[1] = -1;
+ }
+ EOP_LDRH_SIMPLE(0,2); // ldrh r0, [r2]
+ hostreg_r[0] = hostreg_r[2] = -1;
+}
+
+/* get ARM cond which would mean that SSP cond is satisfied. No trash. */
+static int tr_cond_check(int op)
+{
+ int f = (op & 0x100) >> 8;
+ switch (op&0xf0) {
+ case 0x00: return A_COND_AL; /* always true */
+ case 0x50: /* Z matches f(?) bit */
+ if (dirty_regb & KRREG_ST) return f ? A_COND_EQ : A_COND_NE;
+ EOP_TST_IMM(6, 0, 4);
+ return f ? A_COND_NE : A_COND_EQ;
+ case 0x70: /* N matches f(?) bit */
+ if (dirty_regb & KRREG_ST) return f ? A_COND_MI : A_COND_PL;
+ EOP_TST_IMM(6, 0, 8);
+ return f ? A_COND_NE : A_COND_EQ;
+ default:
+ printf("unimplemented cond?\n");
+ tr_unhandled();
+ return 0;
+ }
+}
+
+static int tr_neg_cond(int cond)
+{
+ switch (cond) {
+ case A_COND_AL: printf("neg for AL?\n"); exit(1);
+ case A_COND_EQ: return A_COND_NE;
+ case A_COND_NE: return A_COND_EQ;
+ case A_COND_MI: return A_COND_PL;
+ case A_COND_PL: return A_COND_MI;
+ default: printf("bad cond for neg\n"); exit(1);
+ }
+ return 0;
+}
+
+static int tr_aop_ssp2arm(int op)
+{
+ switch (op) {
+ case 1: return A_OP_SUB;
+ case 3: return A_OP_CMP;
+ case 4: return A_OP_ADD;
+ case 5: return A_OP_AND;
+ case 6: return A_OP_ORR;
+ case 7: return A_OP_EOR;
+ }
+
+ tr_unhandled();
+ return 0;
+}
+
+// -----------------------------------------------------
+
//@ r4: XXYY
//@ r5: A
//@ r6: STACK and emu flags
//@ r7: SSP context
//@ r10: P
-// write r0 to general reg handlers. Trashes r1
-static void tr_r0_unhandled(void)
+// read general reg to r0. Trashes r1
+static void tr_GR0_to_r0(int op)
{
- printf("unhandled\n");
- exit(1);
+ tr_mov16(0, 0xffff);
+}
+
+static void tr_X_to_r0(int op)
+{
+ if (hostreg_r[0] != (SSP_X<<16)) {
+ EOP_MOV_REG_LSR(0, 4, 16); // mov r0, r4, lsr #16
+ hostreg_r[0] = SSP_X<<16;
+ }
+}
+
+static void tr_Y_to_r0(int op)
+{
+ if (hostreg_r[0] != (SSP_Y<<16)) {
+ EOP_MOV_REG_SIMPLE(0, 4); // mov r0, r4
+ hostreg_r[0] = SSP_Y<<16;
+ }
+}
+
+static void tr_A_to_r0(int op)
+{
+ if (hostreg_r[0] != (SSP_A<<16)) {
+ EOP_MOV_REG_LSR(0, 5, 16); // mov r0, r5, lsr #16 @ AH
+ hostreg_r[0] = SSP_A<<16;
+ }
+}
+
+static void tr_ST_to_r0(int op)
+{
+ // VR doesn't need much accuracy here..
+ EOP_MOV_REG_LSR(0, 6, 4); // mov r0, r6, lsr #4
+ EOP_AND_IMM(0, 0, 0, 0x67); // and r0, r0, #0x67
+ hostreg_r[0] = -1;
+}
+
+static void tr_STACK_to_r0(int op)
+{
+ // 448
+ EOP_SUB_IMM(6, 6, 8/2, 0x20); // sub r6, r6, #1<<29
+ EOP_ADD_IMM(1, 7, 24/2, 0x04); // add r1, r7, 0x400
+ EOP_ADD_IMM(1, 1, 0, 0x48); // add r1, r1, 0x048
+ EOP_ADD_REG_LSR(1, 1, 6, 28); // add r1, r1, r6, lsr #28
+ EOP_LDRH_SIMPLE(0, 1); // ldrh r0, [r1]
+ hostreg_r[0] = hostreg_r[1] = -1;
+}
+
+static void tr_PC_to_r0(int op)
+{
+ tr_mov16(0, known_regs.gr[SSP_PC].h);
+}
+
+static void tr_P_to_r0(int op)
+{
+ tr_flush_dirty_P();
+ EOP_MOV_REG_LSR(0, 10, 16); // mov r0, r10, lsr #16
+ hostreg_r[0] = -1;
+}
+
+static void tr_AL_to_r0(int op)
+{
+ if (op == 0x000f) {
+ if (known_regb & KRREG_PMC) {
+ known_regs.emu_status &= ~(SSP_PMC_SET|SSP_PMC_HAVE_ADDR);
+ } else {
+ EOP_LDR_IMM(0,7,0x484); // ldr r1, [r7, #0x484] // emu_status
+ EOP_BIC_IMM(0,0,0,SSP_PMC_SET|SSP_PMC_HAVE_ADDR);
+ EOP_STR_IMM(0,7,0x484);
+ }
+ }
+
+ if (hostreg_r[0] != (SSP_AL<<16)) {
+ EOP_MOV_REG_SIMPLE(0, 5); // mov r0, r5
+ hostreg_r[0] = SSP_AL<<16;
+ }
}
-static void tr_r0_to_GR0(void)
+static void tr_PMX_to_r0(int reg)
+{
+ if ((known_regb & KRREG_PMC) && (known_regs.emu_status & SSP_PMC_SET))
+ {
+ known_regs.pmac_read[reg] = known_regs.pmc.v;
+ known_regs.emu_status &= ~SSP_PMC_SET;
+ known_regb |= 1 << (20+reg);
+ dirty_regb |= 1 << (20+reg);
+ return;
+ }
+
+ if ((known_regb & KRREG_PMC) && (known_regb & (1 << (20+reg))))
+ {
+ u32 pmcv = known_regs.pmac_read[reg];
+ int mode = pmcv>>16;
+ known_regs.emu_status &= ~SSP_PMC_HAVE_ADDR;
+
+ if ((mode & 0xfff0) == 0x0800)
+ {
+ EOP_LDR_IMM(1,7,0x488); // rom_ptr
+ emit_mov_const(A_COND_AL, 0, (pmcv&0xfffff)<<1);
+ EOP_LDRH_REG(0,1,0); // ldrh r0, [r1, r0]
+ known_regs.pmac_read[reg] += 1;
+ }
+ else if ((mode & 0x47ff) == 0x0018) // DRAM
+ {
+ int inc = get_inc(mode);
+ EOP_LDR_IMM(1,7,0x490); // dram_ptr
+ emit_mov_const(A_COND_AL, 0, (pmcv&0xffff)<<1);
+ EOP_LDRH_REG(0,1,0); // ldrh r0, [r1, r0]
+ if (reg == 4 && (pmcv == 0x187f03 || pmcv == 0x187f04)) // wait loop detection
+ {
+ int flag = (pmcv == 0x187f03) ? SSP_WAIT_30FE06 : SSP_WAIT_30FE08;
+ tr_flush_dirty_ST();
+ EOP_LDR_IMM(1,7,0x484); // ldr r1, [r7, #0x484] // emu_status
+ EOP_TST_REG_SIMPLE(0,0);
+ EOP_C_DOP_IMM(A_COND_EQ,A_OP_ADD,0,11,11,22/2,1); // addeq r11, r11, #1024
+ EOP_C_DOP_IMM(A_COND_EQ,A_OP_ORR,0, 1, 1,24/2,flag>>8); // orreq r1, r1, #SSP_WAIT_30FE08
+ EOP_STR_IMM(1,7,0x484); // str r1, [r7, #0x484] // emu_status
+ }
+ known_regs.pmac_read[reg] += inc;
+ }
+ else
+ {
+ tr_unhandled();
+ }
+ known_regs.pmc.v = known_regs.pmac_read[reg];
+ //known_regb |= KRREG_PMC;
+ dirty_regb |= KRREG_PMC;
+ dirty_regb |= 1 << (20+reg);
+ hostreg_r[0] = hostreg_r[1] = -1;
+ return;
+ }
+
+ known_regb &= ~KRREG_PMC;
+ dirty_regb &= ~KRREG_PMC;
+ known_regb &= ~(1 << (20+reg));
+ dirty_regb &= ~(1 << (20+reg));
+
+ // call the C code to handle this
+ tr_flush_dirty_ST();
+ //tr_flush_dirty_pmcrs();
+ tr_mov16(0, reg);
+ emit_call(ssp_pm_read);
+ hostreg_clear();
+}
+
+static void tr_PM0_to_r0(int op)
+{
+ tr_PMX_to_r0(0);
+}
+
+static void tr_PM1_to_r0(int op)
+{
+ tr_PMX_to_r0(1);
+}
+
+static void tr_PM2_to_r0(int op)
+{
+ tr_PMX_to_r0(2);
+}
+
+static void tr_XST_to_r0(int op)
+{
+ EOP_ADD_IMM(0, 7, 24/2, 4); // add r0, r7, #0x400
+ EOP_LDRH_IMM(0, 0, SSP_XST*4+2);
+}
+
+static void tr_PM4_to_r0(int op)
+{
+ tr_PMX_to_r0(4);
+}
+
+static void tr_PMC_to_r0(int op)
+{
+ if (known_regb & KRREG_PMC)
+ {
+ if (known_regs.emu_status & SSP_PMC_HAVE_ADDR) {
+ known_regs.emu_status |= SSP_PMC_SET;
+ known_regs.emu_status &= ~SSP_PMC_HAVE_ADDR;
+ // do nothing - this is handled elsewhere
+ } else {
+ tr_mov16(0, known_regs.pmc.l);
+ known_regs.emu_status |= SSP_PMC_HAVE_ADDR;
+ }
+ }
+ else
+ {
+ EOP_LDR_IMM(1,7,0x484); // ldr r1, [r7, #0x484] // emu_status
+ tr_flush_dirty_ST();
+ if (op != 0x000e)
+ EOP_LDR_IMM(0, 7, 0x400+SSP_PMC*4);
+ EOP_TST_IMM(1, 0, SSP_PMC_HAVE_ADDR);
+ EOP_C_DOP_IMM(A_COND_EQ,A_OP_ORR,0, 1, 1, 0, SSP_PMC_HAVE_ADDR); // orreq r1, r1, #..
+ EOP_C_DOP_IMM(A_COND_NE,A_OP_BIC,0, 1, 1, 0, SSP_PMC_HAVE_ADDR); // bicne r1, r1, #..
+ EOP_C_DOP_IMM(A_COND_NE,A_OP_ORR,0, 1, 1, 0, SSP_PMC_SET); // orrne r1, r1, #..
+ EOP_STR_IMM(1,7,0x484);
+ hostreg_r[0] = hostreg_r[1] = -1;
+ }
+}
+
+
+typedef void (tr_read_func)(int op);
+
+static tr_read_func *tr_read_funcs[16] =
+{
+ tr_GR0_to_r0,
+ tr_X_to_r0,
+ tr_Y_to_r0,
+ tr_A_to_r0,
+ tr_ST_to_r0,
+ tr_STACK_to_r0,
+ tr_PC_to_r0,
+ tr_P_to_r0,
+ tr_PM0_to_r0,
+ tr_PM1_to_r0,
+ tr_PM2_to_r0,
+ tr_XST_to_r0,
+ tr_PM4_to_r0,
+ (tr_read_func *)tr_unhandled,
+ tr_PMC_to_r0,
+ tr_AL_to_r0
+};
+
+
+// write r0 to general reg handlers. Trashes r1
+#define TR_WRITE_R0_TO_REG(reg) \
+{ \
+ hostreg_sspreg_changed(reg); \
+ hostreg_r[0] = (reg)<<16; \
+ if (const_val != -1) { \
+ known_regs.gr[reg].h = const_val; \
+ known_regb |= 1 << (reg); \
+ } else { \
+ known_regb &= ~(1 << (reg)); \
+ } \
+}
+
+static void tr_r0_to_GR0(int const_val)
{
// do nothing
}
-static void tr_r0_to_X(void)
+static void tr_r0_to_X(int const_val)
{
EOP_MOV_REG_LSL(4, 4, 16); // mov r4, r4, lsl #16
EOP_MOV_REG_LSR(4, 4, 16); // mov r4, r4, lsr #16
EOP_ORR_REG_LSL(4, 4, 0, 16); // orr r4, r4, r0, lsl #16
+ dirty_regb |= KRREG_P; // touching X or Y makes P dirty.
+ TR_WRITE_R0_TO_REG(SSP_X);
}
-static void tr_r0_to_Y(void)
+static void tr_r0_to_Y(int const_val)
{
EOP_MOV_REG_LSR(4, 4, 16); // mov r4, r4, lsr #16
EOP_ORR_REG_LSL(4, 4, 0, 16); // orr r4, r4, r0, lsl #16
EOP_MOV_REG_ROR(4, 4, 16); // mov r4, r4, ror #16
+ dirty_regb |= KRREG_P;
+ TR_WRITE_R0_TO_REG(SSP_Y);
}
-static void tr_r0_to_A(void)
+static void tr_r0_to_A(int const_val)
{
EOP_MOV_REG_LSL(5, 5, 16); // mov r5, r5, lsl #16
- EOP_MOV_REG_LSR(5, 5, 16); // mov r5, r5, lsl #16 @ AL
+ EOP_MOV_REG_LSR(5, 5, 16); // mov r5, r5, lsr #16 @ AL
EOP_ORR_REG_LSL(5, 5, 0, 16); // orr r5, r5, r0, lsl #16
- hostreg_r[0] = 0x20000;
+ TR_WRITE_R0_TO_REG(SSP_A);
}
-static void tr_r0_to_ST(void)
+static void tr_r0_to_ST(int const_val)
{
// VR doesn't need much accuracy here..
EOP_AND_IMM(1, 0, 0, 0x67); // and r1, r0, #0x67
EOP_AND_IMM(6, 6, 8/2, 0xe0); // and r6, r6, #7<<29 @ preserve STACK
EOP_ORR_REG_LSL(6, 6, 1, 4); // orr r6, r6, r1, lsl #4
+ TR_WRITE_R0_TO_REG(SSP_ST);
hostreg_r[1] = -1;
+ dirty_regb &= ~KRREG_ST;
}
-static void tr_r0_to_STACK(void)
+static void tr_r0_to_STACK(int const_val)
{
// 448
EOP_ADD_IMM(1, 7, 24/2, 0x04); // add r1, r7, 0x400
EOP_ADD_IMM(1, 1, 0, 0x48); // add r1, r1, 0x048
- EOP_ADD_REG_LSR(1, 1, 6, 28); // add r1, r1, r6, lsr #26
+ EOP_ADD_REG_LSR(1, 1, 6, 28); // add r1, r1, r6, lsr #28
EOP_STRH_SIMPLE(0, 1); // strh r0, [r1]
- EOP_ADD_IMM(6, 6, 24/2, 0x20); // add r6, r6, #1<<29
+ EOP_ADD_IMM(6, 6, 8/2, 0x20); // add r6, r6, #1<<29
hostreg_r[1] = -1;
}
-static void tr_r0_to_PC(void)
+static void tr_r0_to_PC(int const_val)
{
EOP_MOV_REG_LSL(1, 0, 16); // mov r1, r0, lsl #16
- EOP_STR_IMM(0,7,0x400+6*4); // str r0, [r7, #(0x400+6*8)]
+ EOP_STR_IMM(1,7,0x400+6*4); // str r1, [r7, #(0x400+6*8)]
hostreg_r[1] = -1;
}
-typedef void (tr_write_func)(void);
+static void tr_r0_to_AL(int const_val)
+{
+ EOP_MOV_REG_LSR(5, 5, 16); // mov r5, r5, lsr #16
+ EOP_ORR_REG_LSL(5, 5, 0, 16); // orr r5, r5, r0, lsl #16
+ EOP_MOV_REG_ROR(5, 5, 16); // mov r5, r5, ror #16
+ hostreg_sspreg_changed(SSP_AL);
+ if (const_val != -1) {
+ known_regs.gr[SSP_A].l = const_val;
+ known_regb |= 1 << SSP_AL;
+ } else
+ known_regb &= ~(1 << SSP_AL);
+}
+
+static void tr_r0_to_PMX(int reg)
+{
+ if ((known_regb & KRREG_PMC) && (known_regs.emu_status & SSP_PMC_SET))
+ {
+ known_regs.pmac_write[reg] = known_regs.pmc.v;
+ known_regs.emu_status &= ~SSP_PMC_SET;
+ known_regb |= 1 << (25+reg);
+ dirty_regb |= 1 << (25+reg);
+ return;
+ }
+
+ if ((known_regb & KRREG_PMC) && (known_regb & (1 << (25+reg))))
+ {
+ int mode, addr;
+
+ known_regs.emu_status &= ~SSP_PMC_HAVE_ADDR;
+
+ mode = known_regs.pmac_write[reg]>>16;
+ addr = known_regs.pmac_write[reg]&0xffff;
+ if ((mode & 0x43ff) == 0x0018) // DRAM
+ {
+ int inc = get_inc(mode);
+ if (mode & 0x0400) tr_unhandled();
+ EOP_LDR_IMM(1,7,0x490); // dram_ptr
+ emit_mov_const(A_COND_AL, 2, addr<<1);
+ EOP_STRH_REG(0,1,2); // strh r0, [r1, r2]
+ known_regs.pmac_write[reg] += inc;
+ }
+ else if ((mode & 0xfbff) == 0x4018) // DRAM, cell inc
+ {
+ if (mode & 0x0400) tr_unhandled();
+ EOP_LDR_IMM(1,7,0x490); // dram_ptr
+ emit_mov_const(A_COND_AL, 2, addr<<1);
+ EOP_STRH_REG(0,1,2); // strh r0, [r1, r2]
+ known_regs.pmac_write[reg] += (addr&1) ? 31 : 1;
+ }
+ else if ((mode & 0x47ff) == 0x001c) // IRAM
+ {
+ int inc = get_inc(mode);
+ EOP_LDR_IMM(1,7,0x48c); // iram_ptr
+ emit_mov_const(A_COND_AL, 2, (addr&0x3ff)<<1);
+ EOP_STRH_REG(0,1,2); // strh r0, [r1, r2]
+ EOP_MOV_IMM(1,0,1);
+ EOP_STR_IMM(1,7,0x494); // iram_dirty
+ known_regs.pmac_write[reg] += inc;
+ }
+ else
+ tr_unhandled();
+
+ known_regs.pmc.v = known_regs.pmac_write[reg];
+ //known_regb |= KRREG_PMC;
+ dirty_regb |= KRREG_PMC;
+ dirty_regb |= 1 << (25+reg);
+ hostreg_r[1] = hostreg_r[2] = -1;
+ return;
+ }
+
+ known_regb &= ~KRREG_PMC;
+ dirty_regb &= ~KRREG_PMC;
+ known_regb &= ~(1 << (25+reg));
+ dirty_regb &= ~(1 << (25+reg));
+
+ // call the C code to handle this
+ tr_flush_dirty_ST();
+ //tr_flush_dirty_pmcrs();
+ tr_mov16(1, reg);
+ emit_call(ssp_pm_write);
+ hostreg_clear();
+}
+
+static void tr_r0_to_PM0(int const_val)
+{
+ tr_r0_to_PMX(0);
+}
+
+static void tr_r0_to_PM1(int const_val)
+{
+ tr_r0_to_PMX(1);
+}
+
+static void tr_r0_to_PM2(int const_val)
+{
+ tr_r0_to_PMX(2);
+}
+
+static void tr_r0_to_PM4(int const_val)
+{
+ tr_r0_to_PMX(4);
+}
+
+static void tr_r0_to_PMC(int const_val)
+{
+ if ((known_regb & KRREG_PMC) && const_val != -1)
+ {
+ if (known_regs.emu_status & SSP_PMC_HAVE_ADDR) {
+ known_regs.emu_status |= SSP_PMC_SET;
+ known_regs.emu_status &= ~SSP_PMC_HAVE_ADDR;
+ known_regs.pmc.h = const_val;
+ } else {
+ known_regs.emu_status |= SSP_PMC_HAVE_ADDR;
+ known_regs.pmc.l = const_val;
+ }
+ }
+ else
+ {
+ tr_flush_dirty_ST();
+ if (known_regb & KRREG_PMC) {
+ emit_mov_const(A_COND_AL, 1, known_regs.pmc.v);
+ EOP_STR_IMM(1,7,0x400+SSP_PMC*4);
+ known_regb &= ~KRREG_PMC;
+ dirty_regb &= ~KRREG_PMC;
+ }
+ EOP_LDR_IMM(1,7,0x484); // ldr r1, [r7, #0x484] // emu_status
+ EOP_ADD_IMM(2,7,24/2,4); // add r2, r7, #0x400
+ EOP_TST_IMM(1, 0, SSP_PMC_HAVE_ADDR);
+ EOP_C_AM3_IMM(A_COND_EQ,1,0,2,0,0,1,SSP_PMC*4); // strxx r0, [r2, #SSP_PMC]
+ EOP_C_AM3_IMM(A_COND_NE,1,0,2,0,0,1,SSP_PMC*4+2);
+ EOP_C_DOP_IMM(A_COND_EQ,A_OP_ORR,0, 1, 1, 0, SSP_PMC_HAVE_ADDR); // orreq r1, r1, #..
+ EOP_C_DOP_IMM(A_COND_NE,A_OP_BIC,0, 1, 1, 0, SSP_PMC_HAVE_ADDR); // bicne r1, r1, #..
+ EOP_C_DOP_IMM(A_COND_NE,A_OP_ORR,0, 1, 1, 0, SSP_PMC_SET); // orrne r1, r1, #..
+ EOP_STR_IMM(1,7,0x484);
+ hostreg_r[1] = hostreg_r[2] = -1;
+ }
+}
+
+typedef void (tr_write_func)(int const_val);
-static tr_write_func *tr_write_funcs[8] =
+static tr_write_func *tr_write_funcs[16] =
{
tr_r0_to_GR0,
tr_r0_to_X,
tr_r0_to_ST,
tr_r0_to_STACK,
tr_r0_to_PC,
- tr_r0_unhandled
+ (tr_write_func *)tr_unhandled,
+ tr_r0_to_PM0,
+ tr_r0_to_PM1,
+ tr_r0_to_PM2,
+ (tr_write_func *)tr_unhandled,
+ tr_r0_to_PM4,
+ (tr_write_func *)tr_unhandled,
+ tr_r0_to_PMC,
+ tr_r0_to_AL
};
+static void tr_mac_load_XY(int op)
+{
+ tr_rX_read(op&3, (op>>2)&3); // X
+ EOP_MOV_REG_LSL(4, 0, 16);
+ tr_rX_read(((op>>4)&3)|4, (op>>6)&3); // Y
+ EOP_ORR_REG_SIMPLE(4, 0);
+ dirty_regb |= KRREG_P;
+ hostreg_sspreg_changed(SSP_X);
+ hostreg_sspreg_changed(SSP_Y);
+ known_regb &= ~KRREG_X;
+ known_regb &= ~KRREG_Y;
+}
+
+// -----------------------------------------------------
+
+static int tr_detect_set_pm(unsigned int op, int *pc, int imm)
+{
+ u32 pmcv, tmpv;
+ if (!((op&0xfef0) == 0x08e0 && (PROGRAM(*pc)&0xfef0) == 0x08e0)) return 0;
+
+ // programming PMC:
+ // ldi PMC, imm1
+ // ldi PMC, imm2
+ (*pc)++;
+ pmcv = imm | (PROGRAM((*pc)++) << 16);
+ known_regs.pmc.v = pmcv;
+ known_regb |= KRREG_PMC;
+ dirty_regb |= KRREG_PMC;
+ known_regs.emu_status |= SSP_PMC_SET;
+
+ // check for possible reg programming
+ tmpv = PROGRAM(*pc);
+ if ((tmpv & 0xfff8) == 0x08 || (tmpv & 0xff8f) == 0x80)
+ {
+ int is_write = (tmpv & 0xff8f) == 0x80;
+ int reg = is_write ? ((tmpv>>4)&0x7) : (tmpv&0x7);
+ if (reg > 4) tr_unhandled();
+ if ((tmpv & 0x0f) != 0 && (tmpv & 0xf0) != 0) tr_unhandled();
+ known_regs.pmac_read[is_write ? reg + 5 : reg] = pmcv;
+ known_regb |= is_write ? (1 << (reg+25)) : (1 << (reg+20));
+ dirty_regb |= is_write ? (1 << (reg+25)) : (1 << (reg+20));
+ known_regs.emu_status &= ~SSP_PMC_SET;
+ (*pc)++;
+ return 5;
+ }
+
+ tr_unhandled();
+ return 4;
+}
+
+static const short pm0_block_seq[] = { 0x0880, 0, 0x0880, 0, 0x0840, 0x60 };
+
+static int tr_detect_pm0_block(unsigned int op, int *pc, int imm)
+{
+ // ldi ST, 0
+ // ldi PM0, 0
+ // ldi PM0, 0
+ // ldi ST, 60h
+ unsigned short *pp;
+ if (op != 0x0840 || imm != 0) return 0;
+ pp = PROGRAM_P(*pc);
+ if (memcmp(pp, pm0_block_seq, sizeof(pm0_block_seq)) != 0) return 0;
+
+ EOP_AND_IMM(6, 6, 8/2, 0xe0); // and r6, r6, #7<<29 @ preserve STACK
+ EOP_ORR_IMM(6, 6, 24/2, 6); // orr r6, r6, 0x600
+ hostreg_sspreg_changed(SSP_ST);
+ known_regs.gr[SSP_ST].h = 0x60;
+ known_regb |= 1 << SSP_ST;
+ dirty_regb &= ~KRREG_ST;
+ (*pc) += 3*2;
+ return 4*2;
+}
+
+static int tr_detect_rotate(unsigned int op, int *pc, int imm)
+{
+ // @ 3DA2 and 426A
+ // ld PMC, (r3|00)
+ // ld (r3|00), PMC
+ // ld -, AL
+ if (op != 0x02e3 || PROGRAM(*pc) != 0x04e3 || PROGRAM(*pc + 1) != 0x000f) return 0;
+
+ tr_bank_read(0);
+ EOP_MOV_REG_LSL(0, 0, 4);
+ EOP_ORR_REG_LSR(0, 0, 0, 16);
+ tr_bank_write(0);
+ (*pc) += 2;
+ return 3;
+}
+
+// -----------------------------------------------------
static int translate_op(unsigned int op, int *pc, int imm)
{
- u32 tmpv;
+ u32 tmpv, tmpv2, tmpv3;
int ret = 0;
+ known_regs.gr[SSP_PC].h = *pc;
switch (op >> 9)
{
// ld d, s
case 0x00:
if (op == 0) { ret++; break; } // nop
- break;
+ tmpv = op & 0xf; // src
+ tmpv2 = (op >> 4) & 0xf; // dst
+ if (tmpv2 == SSP_A && tmpv == SSP_P) { // ld A, P
+ tr_flush_dirty_P();
+ EOP_MOV_REG_SIMPLE(5, 10);
+ hostreg_sspreg_changed(SSP_A);
+ known_regb &= ~(KRREG_A|KRREG_AL);
+ ret++; break;
+ }
+ tr_read_funcs[tmpv](op);
+ tr_write_funcs[tmpv2]((known_regb & (1 << tmpv)) ? known_regs.gr[tmpv].h : -1);
+ if (tmpv2 == SSP_PC) ret |= 0x10000;
+ ret++; break;
+
+ // ld d, (ri)
+ case 0x01: {
+ int r = (op&3) | ((op>>6)&4);
+ int mod = (op>>2)&3;
+ tmpv = (op >> 4) & 0xf; // dst
+ ret = tr_detect_rotate(op, pc, imm);
+ if (ret > 0) break;
+ if (tmpv != 0)
+ tr_rX_read(r, mod);
+ else tr_ptrr_mod(r, mod, 1, 1);
+ tr_write_funcs[tmpv](-1);
+ if (tmpv == SSP_PC) ret |= 0x10000;
+ ret++; break;
+ }
+
+ // ld (ri), s
+ case 0x02:
+ tmpv = (op >> 4) & 0xf; // src
+ tr_read_funcs[tmpv](op);
+ tr_rX_write(op);
+ ret++; break;
// ld a, adr
case 0x03:
tr_bank_read(op&0x1ff);
- tr_r0_to_A();
- const_regb &= ~CRREG_A;
- hostreg_r[0] = 0x20000;
+ tr_r0_to_A(-1);
ret++; break;
// ldi d, imm
case 0x04:
- tmpv = (op & 0xf0) >> 4;
- if (tmpv < 8)
- {
- tr_mov16(0, imm);
- tr_write_funcs[tmpv]();
- const_regs.gr[tmpv].h = imm;
- const_regb |= 1 << tmpv;
- ret++; break;
- }
- else if (tmpv == 0xe && (PROGRAM(*pc) >> 9) == 4)
- {
- // programming PMC..
- (*pc)++;
- tmpv = imm | (PROGRAM((*pc)++) << 16);
- emit_mov_const(0, tmpv);
- EOP_LDR_IMM(1,7,0x484); // ldr r0, [r7, #0x484] // emu_status
- EOP_STR_IMM(0,7,0x400+14*4); // PMC
- // TODO: do this only on reads
- if (tmpv == 0x187f04) { // fe08
- EOP_LDR_IMM(0,7,0x490); // dram_ptr
- EOP_ADD_IMM(0,0,24/2,0xfe); // add r0, r0, #0xfe00
- EOP_LDRH_IMM(0,0,8); // ldrh r0, [r0, #8]
- EOP_TST_REG_SIMPLE(0,0);
- EOP_C_DOP_IMM(A_COND_EQ,A_OP_ADD,0,11,11,22/2,1); // add r11, r11, #1024
- EOP_C_DOP_IMM(A_COND_EQ,A_OP_ORR,0, 1, 1,24/2,SSP_WAIT_30FE08>>8); // orr r1, r1, #SSP_WAIT_30FE08
- }
- EOP_ORR_IMM(1,1,0,SSP_PMC_SET); // orr r1, r1, #SSP_PMC_SET
- EOP_STR_IMM(1,7,0x484); // str r1, [r7, #0x484] // emu_status
- hostreg_r[0] = hostreg_r[1] = -1;
- ret += 2; break;
- }
- else
- return -1; /* TODO.. */
-
+ tmpv = (op & 0xf0) >> 4; // dst
+ ret = tr_detect_pm0_block(op, pc, imm);
+ if (ret > 0) break;
+ ret = tr_detect_set_pm(op, pc, imm);
+ if (ret > 0) break;
+ tr_mov16(0, imm);
+ tr_write_funcs[tmpv](imm);
+ if (tmpv == SSP_PC) ret |= 0x10000;
+ ret += 2; break;
+
+ // ld d, ((ri))
+ case 0x05:
+ tmpv2 = (op >> 4) & 0xf; // dst
+ tr_rX_read2(op);
+ tr_write_funcs[tmpv2](-1);
+ if (tmpv2 == SSP_PC) ret |= 0x10000;
+ ret += 3; break;
// ldi (ri), imm
case 0x06:
- // int t = (op&3) | ((op>>6)&4) | ((op<<1)&0x18);
tr_mov16(0, imm);
- if ((op&3) == 3)
- {
- tmpv = (op>>2) & 3; // direct addressing
- if (op & 0x100) {
- if (hostreg_r[1] != 0x10200) {
- EOP_ADD_IMM(1,7,30/2,0x200>>2); // add r1, r7, 0x200
- hostreg_r[1] = 0x10200;
- }
- EOP_STRH_IMM(0,1,tmpv<<1); // str r0, [r1, {0,2,4,6}]
- } else {
- EOP_STRH_IMM(0,7,tmpv<<1); // str r0, [r7, {0,2,4,6}]
- }
- }
- else
- {
- int r = (op&3) | ((op>>6)&4);
- if (const_regb & (1 << (r + 8))) {
- tr_bank_write(const_regs.r[r] | ((r < 4) ? 0 : 0x100));
- } else {
- int reg = (r < 4) ? 8 : 9;
- int ror = ((4 - (r&3))*8) & 0x1f;
- EOP_AND_IMM(1,reg,ror/2,0xff); // and r1, r{7,8}, <mask>
- if (r >= 4)
- EOP_ORR_IMM(1,1,((ror-8)&0x1f)/2,1); // orr r1, r1, 1<<shift
- if (r&3) EOP_ADD_REG_LSR(1,7,1, (r&3)*8-1); // add r1, r7, r1, lsr #lsr
- else EOP_ADD_REG_LSL(1,7,1,1);
- EOP_STRH_SIMPLE(0,1); // strh r0, [r1]
- hostreg_r[1] = -1;
- }
- tr_ptrr_mod(r, (op>>2) & 3, 0);
- }
- ret++; break;
+ tr_rX_write(op);
+ ret += 2; break;
// ld adr, a
case 0x07:
- if (hostreg_r[0] != 0x20000) {
- EOP_MOV_REG_LSR(0, 5, 16); // mov r0, r5, lsr #16 @ A
- hostreg_r[0] = 0x20000;
- }
+ tr_A_to_r0(op);
tr_bank_write(op&0x1ff);
ret++; break;
+ // ld d, ri
+ case 0x09: {
+ int r;
+ r = (op&3) | ((op>>6)&4); // src
+ tmpv2 = (op >> 4) & 0xf; // dst
+ if ((r&3) == 3) tr_unhandled();
+
+ if (known_regb & (1 << (r+8))) {
+ tr_mov16(0, known_regs.r[r]);
+ tr_write_funcs[tmpv2](known_regs.r[r]);
+ } else {
+ int reg = (r < 4) ? 8 : 9;
+ if (r&3) EOP_MOV_REG_LSR(0, reg, (r&3)*8); // mov r0, r{7,8}, lsr #lsr
+ EOP_AND_IMM(0, (r&3)?0:reg, 0, 0xff); // and r0, r{7,8}, <mask>
+ hostreg_r[0] = -1;
+ tr_write_funcs[tmpv2](-1);
+ }
+ ret++; break;
+ }
+
+ // ld ri, s
+ case 0x0a: {
+ int r;
+ r = (op&3) | ((op>>6)&4); // dst
+ tmpv = (op >> 4) & 0xf; // src
+ if ((r&3) == 3) tr_unhandled();
+
+ if (known_regb & (1 << tmpv)) {
+ known_regs.r[r] = known_regs.gr[tmpv].h;
+ known_regb |= 1 << (r + 8);
+ dirty_regb |= 1 << (r + 8);
+ } else {
+ int reg = (r < 4) ? 8 : 9;
+ int ror = ((4 - (r&3))*8) & 0x1f;
+ tr_read_funcs[tmpv](op);
+ EOP_BIC_IMM(reg, reg, ror/2, 0xff); // bic r{7,8}, r{7,8}, <mask>
+ EOP_AND_IMM(0, 0, 0, 0xff); // and r0, r0, 0xff
+ EOP_ORR_REG_LSL(reg, reg, 0, (r&3)*8); // orr r{7,8}, r{7,8}, r0, lsl #lsl
+ hostreg_r[0] = -1;
+ known_regb &= ~(1 << (r+8));
+ dirty_regb &= ~(1 << (r+8));
+ }
+ ret++; break;
+ }
+
// ldi ri, simm
case 0x0c ... 0x0f:
tmpv = (op>>8)&7;
- const_regs.r[tmpv] = op;
- const_regb |= 1 << (tmpv + 8);
+ known_regs.r[tmpv] = op;
+ known_regb |= 1 << (tmpv + 8);
dirty_regb |= 1 << (tmpv + 8);
ret++; break;
+
+ // call cond, addr
+ case 0x24: {
+ u32 *jump_op = NULL;
+ tmpv = tr_cond_check(op);
+ if (tmpv != A_COND_AL) {
+ jump_op = tcache_ptr;
+ EOP_MOV_IMM(0, 0, 0); // placeholder for branch
+ }
+ tr_mov16(0, *pc);
+ tr_r0_to_STACK(*pc);
+ if (tmpv != A_COND_AL) {
+ u32 *real_ptr = tcache_ptr;
+ tcache_ptr = jump_op;
+ EOP_C_B(tr_neg_cond(tmpv),0,real_ptr - jump_op - 2);
+ tcache_ptr = real_ptr;
+ }
+ tr_mov16_cond(tmpv, 0, imm);
+ if (tmpv != A_COND_AL) {
+ tr_mov16_cond(tr_neg_cond(tmpv), 0, *pc);
+ }
+ tr_r0_to_PC(tmpv == A_COND_AL ? imm : -1);
+ ret |= 0x10000;
+ ret += 2; break;
+ }
+
+ // ld d, (a)
+ case 0x25:
+ tmpv2 = (op >> 4) & 0xf; // dst
+ tr_A_to_r0(op);
+ EOP_LDR_IMM(1,7,0x48c); // ptr_iram_rom
+ EOP_ADD_REG_LSL(0,1,0,1); // add r0, r1, r0, lsl #1
+ EOP_LDRH_SIMPLE(0,0); // ldrh r0, [r0]
+ hostreg_r[0] = hostreg_r[1] = -1;
+ tr_write_funcs[tmpv2](-1);
+ if (tmpv2 == SSP_PC) ret |= 0x10000;
+ ret += 3; break;
+
+ // bra cond, addr
+ case 0x26:
+ tmpv = tr_cond_check(op);
+ tr_mov16_cond(tmpv, 0, imm);
+ if (tmpv != A_COND_AL) {
+ tr_mov16_cond(tr_neg_cond(tmpv), 0, *pc);
+ }
+ tr_r0_to_PC(tmpv == A_COND_AL ? imm : -1);
+ ret |= 0x10000;
+ ret += 2; break;
+
+ // mod cond, op
+ case 0x48: {
+ // check for repeats of this op
+ tmpv = 1; // count
+ while (PROGRAM(*pc) == op && (op & 7) != 6) {
+ (*pc)++; tmpv++;
+ }
+ if ((op&0xf0) != 0) // !always
+ tr_make_dirty_ST();
+
+ tmpv2 = tr_cond_check(op);
+ switch (op & 7) {
+ case 2: EOP_C_DOP_REG_XIMM(tmpv2,A_OP_MOV,1,0,5,tmpv,A_AM1_ASR,5); break; // shr (arithmetic)
+ case 3: EOP_C_DOP_REG_XIMM(tmpv2,A_OP_MOV,1,0,5,tmpv,A_AM1_LSL,5); break; // shl
+ case 6: EOP_C_DOP_IMM(tmpv2,A_OP_RSB,1,5,5,0,0); break; // neg
+ case 7: EOP_C_DOP_REG_XIMM(tmpv2,A_OP_EOR,0,5,1,31,A_AM1_ASR,5); // eor r1, r5, r5, asr #31
+ EOP_C_DOP_REG_XIMM(tmpv2,A_OP_ADD,1,1,5,31,A_AM1_LSR,5); // adds r5, r1, r5, lsr #31
+ hostreg_r[1] = -1; break; // abs
+ default: tr_unhandled();
+ }
+
+ hostreg_sspreg_changed(SSP_A);
+ dirty_regb |= KRREG_ST;
+ known_regb &= ~KRREG_ST;
+ known_regb &= ~(KRREG_A|KRREG_AL);
+ ret += tmpv; break;
+ }
+
+ // mpys?
+ case 0x1b:
+ tr_flush_dirty_P();
+ tr_mac_load_XY(op);
+ tr_make_dirty_ST();
+ EOP_C_DOP_REG_XIMM(A_COND_AL,A_OP_SUB,1,5,5,0,A_AM1_LSL,10); // subs r5, r5, r10
+ hostreg_sspreg_changed(SSP_A);
+ known_regb &= ~(KRREG_A|KRREG_AL);
+ dirty_regb |= KRREG_ST;
+ ret++; break;
+
+ // mpya (rj), (ri), b
+ case 0x4b:
+ tr_flush_dirty_P();
+ tr_mac_load_XY(op);
+ tr_make_dirty_ST();
+ EOP_C_DOP_REG_XIMM(A_COND_AL,A_OP_ADD,1,5,5,0,A_AM1_LSL,10); // adds r5, r5, r10
+ hostreg_sspreg_changed(SSP_A);
+ known_regb &= ~(KRREG_A|KRREG_AL);
+ dirty_regb |= KRREG_ST;
+ ret++; break;
+
+ // mld (rj), (ri), b
+ case 0x5b:
+ EOP_C_DOP_IMM(A_COND_AL,A_OP_MOV,1,0,5,0,0); // movs r5, #0
+ hostreg_sspreg_changed(SSP_A);
+ known_regs.gr[SSP_A].v = 0;
+ known_regb |= (KRREG_A|KRREG_AL);
+ dirty_regb |= KRREG_ST;
+ tr_mac_load_XY(op);
+ ret++; break;
+
+ // OP a, s
+ case 0x10:
+ case 0x30:
+ case 0x40:
+ case 0x50:
+ case 0x60:
+ case 0x70:
+ tmpv = op & 0xf; // src
+ tmpv2 = tr_aop_ssp2arm(op>>13); // op
+ tmpv3 = (tmpv2 == A_OP_CMP) ? 0 : 5;
+ if (tmpv == SSP_P) {
+ tr_flush_dirty_P();
+ EOP_C_DOP_REG_XIMM(A_COND_AL,tmpv2,1,5,tmpv3, 0,A_AM1_LSL,10); // OPs r5, r5, r10
+ } else if (tmpv == SSP_A) {
+ EOP_C_DOP_REG_XIMM(A_COND_AL,tmpv2,1,5,tmpv3, 0,A_AM1_LSL, 5); // OPs r5, r5, r5
+ } else {
+ tr_read_funcs[tmpv](op);
+ EOP_C_DOP_REG_XIMM(A_COND_AL,tmpv2,1,5,tmpv3,16,A_AM1_LSL, 0); // OPs r5, r5, r0, lsl #16
+ }
+ hostreg_sspreg_changed(SSP_A);
+ known_regb &= ~(KRREG_A|KRREG_AL|KRREG_ST);
+ dirty_regb |= KRREG_ST;
+ ret++; break;
+
+ // OP a, (ri)
+ case 0x11:
+ case 0x31:
+ case 0x41:
+ case 0x51:
+ case 0x61:
+ case 0x71:
+ tmpv2 = tr_aop_ssp2arm(op>>13); // op
+ tmpv3 = (tmpv2 == A_OP_CMP) ? 0 : 5;
+ tr_rX_read((op&3)|((op>>6)&4), (op>>2)&3);
+ EOP_C_DOP_REG_XIMM(A_COND_AL,tmpv2,1,5,tmpv3,16,A_AM1_LSL,0); // OPs r5, r5, r0, lsl #16
+ hostreg_sspreg_changed(SSP_A);
+ known_regb &= ~(KRREG_A|KRREG_AL|KRREG_ST);
+ dirty_regb |= KRREG_ST;
+ ret++; break;
+
+ // OP a, adr
+ case 0x13:
+ case 0x33:
+ case 0x43:
+ case 0x53:
+ case 0x63:
+ case 0x73:
+ tmpv2 = tr_aop_ssp2arm(op>>13); // op
+ tmpv3 = (tmpv2 == A_OP_CMP) ? 0 : 5;
+ tr_bank_read(op&0x1ff);
+ EOP_C_DOP_REG_XIMM(A_COND_AL,tmpv2,1,5,tmpv3,16,A_AM1_LSL,0); // OPs r5, r5, r0, lsl #16
+ hostreg_sspreg_changed(SSP_A);
+ known_regb &= ~(KRREG_A|KRREG_AL|KRREG_ST);
+ dirty_regb |= KRREG_ST;
+ ret++; break;
+
+ // OP a, imm
+ case 0x14:
+ case 0x34:
+ case 0x44:
+ case 0x54:
+ case 0x64:
+ case 0x74:
+ tmpv = (op & 0xf0) >> 4;
+ tmpv2 = tr_aop_ssp2arm(op>>13); // op
+ tmpv3 = (tmpv2 == A_OP_CMP) ? 0 : 5;
+ tr_mov16(0, imm);
+ EOP_C_DOP_REG_XIMM(A_COND_AL,tmpv2,1,5,tmpv3,16,A_AM1_LSL,0); // OPs r5, r5, r0, lsl #16
+ hostreg_sspreg_changed(SSP_A);
+ known_regb &= ~(KRREG_A|KRREG_AL|KRREG_ST);
+ dirty_regb |= KRREG_ST;
+ ret += 2; break;
+
+ // OP a, ((ri))
+ case 0x15:
+ case 0x35:
+ case 0x45:
+ case 0x55:
+ case 0x65:
+ case 0x75:
+ tmpv2 = tr_aop_ssp2arm(op>>13); // op
+ tmpv3 = (tmpv2 == A_OP_CMP) ? 0 : 5;
+ tr_rX_read2(op);
+ EOP_C_DOP_REG_XIMM(A_COND_AL,tmpv2,1,5,tmpv3,16,A_AM1_LSL,0); // OPs r5, r5, r0, lsl #16
+ hostreg_sspreg_changed(SSP_A);
+ known_regb &= ~(KRREG_A|KRREG_AL|KRREG_ST);
+ dirty_regb |= KRREG_ST;
+ ret += 3; break;
+
+ // OP a, ri
+ case 0x19:
+ case 0x39:
+ case 0x49:
+ case 0x59:
+ case 0x69:
+ case 0x79: {
+ int r;
+ tmpv2 = tr_aop_ssp2arm(op>>13); // op
+ tmpv3 = (tmpv2 == A_OP_CMP) ? 0 : 5;
+ r = (op&3) | ((op>>6)&4); // src
+ if ((r&3) == 3) tr_unhandled();
+
+ if (known_regb & (1 << (r+8))) {
+ EOP_C_DOP_IMM(A_COND_AL,tmpv2,1,5,tmpv3,16/2,known_regs.r[r]); // OPs r5, r5, #val<<16
+ } else {
+ int reg = (r < 4) ? 8 : 9;
+ if (r&3) EOP_MOV_REG_LSR(0, reg, (r&3)*8); // mov r0, r{7,8}, lsr #lsr
+ EOP_AND_IMM(0, (r&3)?0:reg, 0, 0xff); // and r0, r{7,8}, <mask>
+ EOP_C_DOP_REG_XIMM(A_COND_AL,tmpv2,1,5,tmpv3,16,A_AM1_LSL,0); // OPs r5, r5, r0, lsl #16
+ hostreg_r[0] = -1;
+ }
+ hostreg_sspreg_changed(SSP_A);
+ known_regb &= ~(KRREG_A|KRREG_AL|KRREG_ST);
+ dirty_regb |= KRREG_ST;
+ ret++; break;
+ }
+
+ // OP simm
+ case 0x1c:
+ case 0x3c:
+ case 0x4c:
+ case 0x5c:
+ case 0x6c:
+ case 0x7c:
+ tmpv2 = tr_aop_ssp2arm(op>>13); // op
+ tmpv3 = (tmpv2 == A_OP_CMP) ? 0 : 5;
+ EOP_C_DOP_IMM(A_COND_AL,tmpv2,1,5,tmpv3,16/2,op & 0xff); // OPs r5, r5, #val<<16
+ hostreg_sspreg_changed(SSP_A);
+ known_regb &= ~(KRREG_A|KRREG_AL|KRREG_ST);
+ dirty_regb |= KRREG_ST;
+ ret++; break;
}
return ret;
{
unsigned int op, op1, imm, ccount = 0;
unsigned int *block_start;
- int ret;
-
- // create .pool
- //*tcache_ptr++ = (u32) in_funcs; // -1 func pool
+ int ret, ret_prev = -1, tpc;
printf("translate %04x -> %04x\n", pc<<1, (tcache_ptr-tcache)<<2);
block_start = tcache_ptr;
- const_regb = dirty_regb = 0;
+ known_regb = 0;
+ dirty_regb = KRREG_P;
+ known_regs.emu_status = 0;
hostreg_clear();
emit_block_prologue();
for (; ccount < 100;)
{
- //printf(" insn #%i\n", icount);
op = PROGRAM(pc++);
op1 = op >> 9;
imm = (u32)-1;
if ((op1 & 0xf) == 4 || (op1 & 0xf) == 6)
imm = PROGRAM(pc++); // immediate
+ tpc = pc;
ret = translate_op(op, &pc, imm);
if (ret <= 0)
{
- tr_flush_dirty();
+ tr_flush_dirty_prs();
+ tr_flush_dirty_ST();
+ tr_flush_dirty_pmcrs();
+ known_regs.emu_status = 0;
- emit_mov_const(0, op);
+ emit_mov_const(A_COND_AL, 0, op);
// need immediate?
if (imm != (u32)-1)
- emit_mov_const(1, imm);
+ emit_mov_const(A_COND_AL, 1, imm);
// dump PC
emit_pc_dump(pc);
- emit_interpreter_call(in_funcs[op1]);
+ if (ret_prev > 0) emit_call(regfile_store);
+ emit_call(in_funcs[op1]);
+ emit_call(regfile_load);
if (in_funcs[op1] == NULL) {
printf("NULL func! op=%08x (%02x)\n", op, op1);
}
ccount++;
hostreg_clear();
+ dirty_regb |= KRREG_P;
+ known_regb = 0;
}
else
- ccount += ret;
-
- if (op1 == 0x24 || op1 == 0x26 || // call, bra
- ((op1 == 0 || op1 == 1 || op1 == 4 || op1 == 5 || op1 == 9 || op1 == 0x25) &&
- (op & 0xf0) == 0x60)) { // ld PC
- break;
+ {
+ ccount += ret & 0xffff;
+ if (ret & 0x10000) break;
}
+
+ ret_prev = ret;
}
- tr_flush_dirty();
+ if (ccount >= 100)
+ emit_pc_dump(pc);
+
+ tr_flush_dirty_prs();
+ tr_flush_dirty_ST();
+ tr_flush_dirty_pmcrs();
emit_block_epilogue(ccount + 1);
*tcache_ptr++ = 0xffffffff; // end of block
- //printf(" %i inst\n", icount);
if (tcache_ptr - tcache > TCACHE_SIZE/4) {
printf("tcache overflow!\n");
// stats
nblocks++;
- //if (pc >= 0x400)
printf("%i blocks, %i bytes\n", nblocks, (tcache_ptr - tcache)*4);
- //printf("%p %p\n", tcache_ptr, emit_block_epilogue);
#ifdef DUMP_BLOCK
{
tcache_ptr = tcache;
*tcache_ptr++ = 0xffffffff;
+#ifdef ARM
+ // hle'd blocks
+ block_table[0x400] = (void *) ssp_hle_800;
+#endif
+
+// TODO: rm
+{
+static unsigned short dummy = 0;
+PC = &dummy;
+}
return 0;
}
void ssp1601_dyn_reset(ssp1601_t *ssp)
{
ssp1601_reset_local(ssp);
- ssp->rom_ptr = (unsigned int) Pico.rom;
- ssp->iram_ptr = (unsigned int) svp->iram_rom;
- ssp->dram_ptr = (unsigned int) svp->dram;
+ ssp->drc.ptr_rom = (unsigned int) Pico.rom;
+ ssp->drc.ptr_iram_rom = (unsigned int) svp->iram_rom;
+ ssp->drc.ptr_dram = (unsigned int) svp->dram;
+ ssp->drc.iram_dirty = 0;
}
void ssp1601_dyn_run(int cycles)
{
if (ssp->emu_status & SSP_WAIT_MASK) return;
- //{ printf("%i wait\n", Pico.m.frame_count); return; }
- //printf("%i %04x\n", Pico.m.frame_count, rPC<<1);
#ifdef DUMP_BLOCK
rPC = DUMP_BLOCK >> 1;
int (*trans_entry)(void);
if (rPC < 0x800/2)
{
- if (iram_dirty) {
+ if (ssp->drc.iram_dirty) {
iram_context = get_iram_context();
- iram_dirty--;
+ ssp->drc.iram_dirty--;
}
if (block_table_iram[iram_context][rPC] == NULL)
block_table_iram[iram_context][rPC] = translate_block(rPC);
trans_entry = (void *) block_table[rPC];
}
- had_jump = 0;
-
- //printf("enter %04x\n", rPC<<1);
cycles -= trans_entry();
- //printf("leave %04x\n", rPC<<1);
}
-// debug_dump2file("tcache.bin", tcache, (tcache_ptr - tcache) << 1);
-// exit(1);
}