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[RFA] Add sh4a to sh-sim (2nd iteration)
- From: Michael Snyder <msnyder at redhat dot com>
- To: joern dot rennecke at superh dot com
- Cc: amylaar at fairadsl dot co dot uk, andrew dot stubbs at superh dot com, gdb-patches at sources dot redhat dot com
- Date: Wed, 07 Jan 2004 13:56:40 -0800
- Subject: [RFA] Add sh4a to sh-sim (2nd iteration)
- Organization: Red Hat, Inc.
OK, following up on the last round of changes, here is a resubmit
of the simulator port for sh4a. Also changed 'Hitachi' to 'Renesas'
in the comments.
Testsuite updates to follow.
Michael
2004-01-07 Michael Snyder <msnyder@redhat.com>
* gencode.c: Replace 'Hitachi' with 'Renesas'.
(op tab): Add new instructions for sh4a, DBR, SBR.
(expand_opcode): Add handling for new movxy combinations.
(gensym_caselist): Ditto.
(expand_ppi_movxy): Remove movx/movy expansions,
now handled in expand_opcode.
(gensym): Add some helpful macros.
(expand_ppi_code): Flatten loop for simplicity, tweak for 12-bit
instead of 8-bit table (some insns are ambiguous to 8 bits).
(ppi_gensim, main): Generate 12-bit instead of 8-bit ppi table.
* interp.c: Replace 'Hitachi' with 'Renesas'.
(union saved_state_type): Add dbr, sgr, ldst.
(get_loop_bounds_ext): New function.
(init_dsp): Add bfd_mach_sh4al_dsp.
(sim_resume): Handle extended loop bounds.
Index: gencode.c
===================================================================
RCS file: /cvs/src/src/sim/sh/gencode.c,v
retrieving revision 1.22
diff -p -r1.22 gencode.c
*** gencode.c 6 Jan 2004 01:05:02 -0000 1.22
--- gencode.c 7 Jan 2004 21:38:26 -0000
***************
*** 1,4 ****
! /* Simulator/Opcode generator for the Hitachi Super-H architecture.
Written by Steve Chamberlain of Cygnus Support.
sac@cygnus.com
--- 1,5 ----
! /* Simulator/Opcode generator for the Renesas
! (formerly Hitachi) Super-H architecture.
Written by Steve Chamberlain of Cygnus Support.
sac@cygnus.com
*************** op tab[] =
*** 151,156 ****
--- 152,162 ----
"SET_SR_T (0);",
},
+ /* sh4a */
+ { "", "", "clrdmxy", "0000000010001000",
+ "saved_state.asregs.cregs.named.sr &= ~(SR_MASK_DMX | SR_MASK_DMY);"
+ },
+
{ "", "0", "cmp/eq #<imm>,R0", "10001000i8*1....",
"SET_SR_T (R0 == SEXT (i));",
},
*************** op tab[] =
*** 195,201 ****
"SET_SR_T (0);",
},
! { "", "nm", "div1 <REG_M>,<REG_N>", "0011nnnnmmmm0100", /* ? MVS */
"div1 (R, m, n/*, T*/);",
},
--- 201,207 ----
"SET_SR_T (0);",
},
! { "", "nm", "div1 <REG_M>,<REG_N>", "0011nnnnmmmm0100",
"div1 (R, m, n/*, T*/);",
},
*************** op tab[] =
*** 285,294 ****
},
/* sh4 */
! { "", "", "fipr <FV_M>,<FV_N>", "1111nnmm11101101",
! "/* FIXME: not implemented */",
! "RAISE_EXCEPTION (SIGILL);",
! "/* FIXME: check for DP and (n & 1) == 0? */",
},
/* sh2e */
--- 291,309 ----
},
/* sh4 */
! { "", "", "fipr <FV_M>,<FV_N>", "1111vvVV11101101",
! "if (FPSCR_PR)",
! " RAISE_EXCEPTION (SIGILL);",
! "else",
! "{",
! " double fsum = 0;",
! " /* FIXME: check for nans and infinities. */",
! " fsum += FR (v1+0) * FR (v2+0);",
! " fsum += FR (v1+1) * FR (v2+1);",
! " fsum += FR (v1+2) * FR (v2+2);",
! " fsum += FR (v1+3) * FR (v2+3);",
! " SET_FR (v1+3, fsum);",
! "}",
},
/* sh2e */
*************** op tab[] =
*** 440,445 ****
--- 455,465 ----
"FP_UNARY(n, -);",
},
+ /* sh4a */
+ { "", "", "fpchg", "1111011111111101",
+ "SET_FPSCR (GET_FPSCR() ^ FPSCR_MASK_PR);",
+ },
+
/* sh4 */
{ "", "", "frchg", "1111101111111101",
"if (FPSCR_PR)",
*************** op tab[] =
*** 498,503 ****
--- 518,534 ----
" FPUL = (int)FR(n);",
},
+ /* sh4a */
+ { "", "", "ftrv <FV_N>", "1111vv0111111101",
+ "if (FPSCR_PR)",
+ " RAISE_EXCEPTION (SIGILL);",
+ "else",
+ "{",
+ " /* FIXME not implemented. */",
+ " printf (\"ftrv xmtrx, FV%d\\n\", v1);",
+ "}",
+ },
+
/* sh2e */
{ "", "", "fsts FPUL,<FREG_N>", "1111nnnn00001101",
" union",
*************** op tab[] =
*** 535,546 ****
{ "", "n", "ldc <REG_N>,MOD", "0100nnnn01011110",
"SET_MOD (R[n]);",
},
- #if 0
{ "", "n", "ldc <REG_N>,DBR", "0100nnnn11111010",
! "DBR = R[n];",
! "/* FIXME: user mode */",
},
- #endif
{ "n", "n", "ldc.l @<REG_N>+,<CREG_M>", "0100nnnnmmmm0111",
"MA (1);",
"CREG (m) = RLAT (R[n]);",
--- 566,583 ----
{ "", "n", "ldc <REG_N>,MOD", "0100nnnn01011110",
"SET_MOD (R[n]);",
},
{ "", "n", "ldc <REG_N>,DBR", "0100nnnn11111010",
! "if (SR_MD)",
! " DBR = R[n]; /* priv mode */",
! "else",
! " RAISE_EXCEPTION (SIGILL); /* user mode */",
! },
! { "", "n", "ldc <REG_N>,SGR", "0100nnnn00111010",
! "if (SR_MD)",
! " SGR = R[n]; /* priv mode */",
! "else",
! " RAISE_EXCEPTION (SIGILL); /* user mode */",
},
{ "n", "n", "ldc.l @<REG_N>+,<CREG_M>", "0100nnnnmmmm0111",
"MA (1);",
"CREG (m) = RLAT (R[n]);",
*************** op tab[] =
*** 558,571 ****
"SET_MOD (RLAT (R[n]));",
"R[n] += 4;",
},
- #if 0
{ "n", "n", "ldc.l @<REG_N>+,DBR", "0100nnnn11110110",
"MA (1);",
"DBR = RLAT (R[n]);",
"R[n] += 4;",
"/* FIXME: user mode */",
},
! #endif
/* sh-dsp */
{ "", "", "ldre @(<disp>,PC)", "10001110i8p1....",
--- 595,626 ----
"SET_MOD (RLAT (R[n]));",
"R[n] += 4;",
},
{ "n", "n", "ldc.l @<REG_N>+,DBR", "0100nnnn11110110",
"MA (1);",
"DBR = RLAT (R[n]);",
"R[n] += 4;",
"/* FIXME: user mode */",
},
! { "n", "n", "ldc.l @<REG_N>+,DBR", "0100nnnn11110110",
! "if (SR_MD)",
! "{ /* priv mode */",
! " MA (1);",
! " DBR = RLAT (R[n]);",
! " R[n] += 4;",
! "}",
! "else",
! " RAISE_EXCEPTION (SIGILL); /* user mode */",
! },
! { "n", "n", "ldc.l @<REG_N>+,SGR", "0100nnnn00110110",
! "if (SR_MD)",
! "{ /* priv mode */",
! " MA (1);",
! " SGR = RLAT (R[n]);",
! " R[n] += 4;",
! "}",
! "else",
! " RAISE_EXCEPTION (SIGILL); /* user mode */",
! },
/* sh-dsp */
{ "", "", "ldre @(<disp>,PC)", "10001110i8p1....",
*************** op tab[] =
*** 575,580 ****
--- 630,649 ----
"RS = SEXT (i) * 2 + 4 + PH2T (PC);",
},
+ /* sh4a */
+ { "", "n", "ldrc <REG_N>", "0100nnnn00110100",
+ "SET_RC (R[n]);",
+ "loop = get_loop_bounds_ext (RS, RE, memory, mem_end, maskw, endianw);",
+ "CHECK_INSN_PTR (insn_ptr);",
+ "RE |= 1;",
+ },
+ { "", "", "ldrc #<imm>", "10001010i8*1....",
+ "SET_RC (i);",
+ "loop = get_loop_bounds_ext (RS, RE, memory, mem_end, maskw, endianw);",
+ "CHECK_INSN_PTR (insn_ptr);",
+ "RE |= 1;",
+ },
+
{ "", "n", "lds <REG_N>,<SREG_M>", "0100nnnnssss1010",
"SREG (m) = R[n];",
},
*************** op tab[] =
*** 777,794 ****
"WLAT (R[n], R[0]);",
},
{ "n", "", "movt <REG_N>", "0000nnnn00101001",
"R[n] = T;",
},
! { "", "mn", "mul.l <REG_M>,<REG_N>", "0000nnnnmmmm0111",
! "MACL = ((int)R[n]) * ((int)R[m]);",
},
! #if 0
! { "", "nm", "mul.l <REG_M>,<REG_N>", "0000nnnnmmmm0111",
! "MACL = R[n] * R[m];",
},
- #endif
/* muls.w - see muls */
{ "", "mn", "muls <REG_M>,<REG_N>", "0010nnnnmmmm1111",
--- 846,892 ----
"WLAT (R[n], R[0]);",
},
+ { "n", "0", "movco.l R0, @<REG_N>", "0000nnnn01110011",
+ "/* LDST -> T */",
+ "SET_SR_T (LDST);",
+ "/* if (T) R0 -> (Rn) */",
+ "if (T)",
+ " WLAT (R[n], R[0]);",
+ "/* 0 -> LDST */",
+ "SET_LDST (0);",
+ },
+
+ { "0", "n", "movli.l @<REG_N>, R0", "0000nnnn01100011",
+ "/* 1 -> LDST */",
+ "SET_LDST (1);",
+ "/* (Rn) -> R0 */",
+ "R[0] = RLAT (R[n]);",
+ "/* if (interrupt/exception) 0 -> LDST */",
+ "/* (we don't simulate asynchronous interrupts/exceptions) */",
+ },
+
{ "n", "", "movt <REG_N>", "0000nnnn00101001",
"R[n] = T;",
},
! { "0", "n", "movua.l @<REG_N>,R0", "0100nnnn10101001",
! "int regn = R[n];",
! "MA (1);",
! "R[0] = (RBAT (regn) << 24) + (RBAT (regn + 1) << 16) + ",
! " (RBAT (regn + 2) << 8) + RBAT (regn + 3);",
! "L (n);",
},
! { "0n", "n", "movua.l @<REG_N>+,R0", "0100nnnn11101001",
! "int regn = R[n];",
! "MA (1);",
! "R[0] = (RBAT (regn) << 24) + (RBAT (regn + 1) << 16) + ",
! " (RBAT (regn + 2) << 8) + RBAT (regn + 3);",
! "R[n] += 4;",
! "L (n);",
! },
! { "", "mn", "mul.l <REG_M>,<REG_N>", "0000nnnnmmmm0111",
! "MACL = ((int) R[n]) * ((int) R[m]);",
},
/* muls.w - see muls */
{ "", "mn", "muls <REG_M>,<REG_N>", "0010nnnnmmmm1111",
*************** op tab[] =
*** 820,825 ****
--- 918,929 ----
"R[n] = ~R[m];",
},
+ /* sh4a */
+ { "", "n", "icbi @<REG_N>", "0000nnnn11100011",
+ "/* Except for the effect on the cache - which is not simulated -",
+ " this is like a nop. */",
+ },
+
{ "", "n", "ocbi @<REG_N>", "0000nnnn10010011",
"RSBAT (R[n]); /* Take exceptions like byte load, otherwise noop. */",
"/* FIXME: Cache not implemented */",
*************** op tab[] =
*** 851,856 ****
--- 955,972 ----
" this is like a nop. */",
},
+ /* sh4a */
+ { "", "n", "prefi @<REG_N>", "0000nnnn11010011",
+ "/* Except for the effect on the cache - which is not simulated -",
+ " this is like a nop. */",
+ },
+
+ /* sh4a */
+ { "", "", "synco", "0000000010101011",
+ "/* Except for the effect on the pipeline - which is not simulated -",
+ " this is like a nop. */",
+ },
+
{ "n", "n", "rotcl <REG_N>", "0100nnnn00100100",
"ult = R[n] < 0;",
"R[n] = (R[n] << 1) | T;",
*************** op tab[] =
*** 898,903 ****
--- 1014,1031 ----
"Delay_Slot (PC + 2);",
},
+ /* sh4a */
+ { "", "", "setdmx", "0000000010011000",
+ "saved_state.asregs.cregs.named.sr |= SR_MASK_DMX;"
+ "saved_state.asregs.cregs.named.sr &= ~SR_MASK_DMY;"
+ },
+
+ /* sh4a */
+ { "", "", "setdmy", "0000000011001000",
+ "saved_state.asregs.cregs.named.sr |= SR_MASK_DMY;"
+ "saved_state.asregs.cregs.named.sr &= ~SR_MASK_DMX;"
+ },
+
/* sh-dsp */
{ "", "n", "setrc <REG_N>", "0100nnnn00010100",
"SET_RC (R[n]);",
*************** op tab[] =
*** 980,1010 ****
"R[n] = CREG (m);",
},
- #if 0
{ "n", "", "stc SGR,<REG_N>", "0000nnnn00111010",
! "R[n] = SGR;",
},
{ "n", "", "stc DBR,<REG_N>", "0000nnnn11111010",
! "R[n] = DBR;",
},
- #endif
{ "n", "n", "stc.l <CREG_M>,@-<REG_N>", "0100nnnnmmmm0011",
"MA (1);",
"R[n] -= 4;",
"WLAT (R[n], CREG (m));",
},
- #if 0
{ "n", "n", "stc.l SGR,@-<REG_N>", "0100nnnn00110010",
! "MA (1);",
! "R[n] -= 4;",
! "WLAT (R[n], SGR);",
},
{ "n", "n", "stc.l DBR,@-<REG_N>", "0100nnnn11110010",
! "MA (1);",
! "R[n] -= 4;",
! "WLAT (R[n], DBR);",
},
- #endif
{ "n", "", "sts <SREG_M>,<REG_N>", "0000nnnnssss1010",
"R[n] = SREG (m);",
--- 1108,1150 ----
"R[n] = CREG (m);",
},
{ "n", "", "stc SGR,<REG_N>", "0000nnnn00111010",
! "if (SR_MD)",
! " R[n] = SGR; /* priv mode */",
! "else",
! " RAISE_EXCEPTION (SIGILL); /* user mode */",
},
{ "n", "", "stc DBR,<REG_N>", "0000nnnn11111010",
! "if (SR_MD)",
! " R[n] = DBR; /* priv mode */",
! "else",
! " RAISE_EXCEPTION (SIGILL); /* user mode */",
},
{ "n", "n", "stc.l <CREG_M>,@-<REG_N>", "0100nnnnmmmm0011",
"MA (1);",
"R[n] -= 4;",
"WLAT (R[n], CREG (m));",
},
{ "n", "n", "stc.l SGR,@-<REG_N>", "0100nnnn00110010",
! "if (SR_MD)",
! "{ /* priv mode */",
! " MA (1);",
! " R[n] -= 4;",
! " WLAT (R[n], SGR);",
! "}",
! "else",
! " RAISE_EXCEPTION (SIGILL); /* user mode */",
},
{ "n", "n", "stc.l DBR,@-<REG_N>", "0100nnnn11110010",
! "if (SR_MD)",
! "{ /* priv mode */",
! " MA (1);",
! " R[n] -= 4;",
! " WLAT (R[n], DBR);",
! "}",
! "else",
! " RAISE_EXCEPTION (SIGILL); /* user mode */",
},
{ "n", "", "sts <SREG_M>,<REG_N>", "0000nnnnssss1010",
"R[n] = SREG (m);",
*************** op movsxy_tab[] =
*** 1258,1313 ****
"WLAT (R[n], SEXT (DSP_R (m)));",
"R[n] += R[8];",
},
! { "", "n", "movx.w @<REG_x>,<DSP_XX>", "111100xxXX000100",
"DSP_R (m) = RSWAT (R[n]) << 16;",
! "iword &= 0xfd53; goto top;",
},
! { "n", "n", "movx.w @<REG_x>+,<DSP_XX>", "111100xxXX001000",
"DSP_R (m) = RSWAT (R[n]) << 16;",
"R[n] += ((R[n] & 0xffff) == MOD_ME) ? MOD_DELTA : 2;",
! "iword &= 0xfd53; goto top;",
},
! { "n", "n8","movx.w @<REG_x>+REG_8,<DSP_XX>", "111100xxXX001100",
"DSP_R (m) = RSWAT (R[n]) << 16;",
"R[n] += ((R[n] & 0xffff) == MOD_ME) ? MOD_DELTA : R[8];",
! "iword &= 0xfd53; goto top;",
},
! { "", "n", "movx.w <DSP_Aa>,@<REG_x>", "111100xxaa100100",
"WWAT (R[n], DSP_R (m) >> 16);",
! "iword &= 0xfd53; goto top;",
},
! { "n", "n", "movx.w <DSP_Aa>,@<REG_x>+", "111100xxaa101000",
"WWAT (R[n], DSP_R (m) >> 16);",
"R[n] += ((R[n] & 0xffff) == MOD_ME) ? MOD_DELTA : 2;",
! "iword &= 0xfd53; goto top;",
},
! { "n", "n8","movx.w <DSP_Aa>,@<REG_x>+REG_8","111100xxaa101100",
"WWAT (R[n], DSP_R (m) >> 16);",
"R[n] += ((R[n] & 0xffff) == MOD_ME) ? MOD_DELTA : R[8];",
! "iword &= 0xfd53; goto top;",
},
! { "", "n", "movy.w @<REG_y>,<DSP_YY>", "111100yyYY000001",
"DSP_R (m) = RSWAT (R[n]) << 16;",
},
! { "n", "n", "movy.w @<REG_y>+,<DSP_YY>", "111100yyYY000010",
"DSP_R (m) = RSWAT (R[n]) << 16;",
"R[n] += ((R[n] | ~0xffff) == MOD_ME) ? MOD_DELTA : 2;",
},
! { "n", "n9","movy.w @<REG_y>+REG_9,<DSP_YY>", "111100yyYY000011",
"DSP_R (m) = RSWAT (R[n]) << 16;",
"R[n] += ((R[n] | ~0xffff) == MOD_ME) ? MOD_DELTA : R[9];",
},
! { "", "n", "movy.w <DSP_Aa>,@<REG_y>", "111100yyAA010001",
"WWAT (R[n], DSP_R (m) >> 16);",
},
! { "n", "n", "movy.w <DSP_Aa>,@<REG_y>+", "111100yyAA010010",
"WWAT (R[n], DSP_R (m) >> 16);",
"R[n] += ((R[n] | ~0xffff) == MOD_ME) ? MOD_DELTA : 2;",
},
! { "n", "n9", "movy.w <DSP_Aa>,@<REG_y>+REG_9", "111100yyAA010011",
"WWAT (R[n], DSP_R (m) >> 16);",
"R[n] += ((R[n] | ~0xffff) == MOD_ME) ? MOD_DELTA : R[9];",
},
{ "", "", "nopx nopy", "1111000000000000",
"/* nop */",
},
--- 1398,1515 ----
"WLAT (R[n], SEXT (DSP_R (m)));",
"R[n] += R[8];",
},
! { "", "n", "movx.w @<REG_xy>,<DSP_XY>", "111100xyXY0001??",
"DSP_R (m) = RSWAT (R[n]) << 16;",
! "if (iword & 3)",
! " {",
! " iword &= 0xfd53; goto top;",
! " }",
! },
! { "", "n", "movx.l @<REG_xy>,<DSP_XY>", "111100xyXY010100",
! "DSP_R (m) = RLAT (R[n]);",
},
! { "n", "n", "movx.w @<REG_xy>+,<DSP_XY>", "111100xyXY0010??",
"DSP_R (m) = RSWAT (R[n]) << 16;",
"R[n] += ((R[n] & 0xffff) == MOD_ME) ? MOD_DELTA : 2;",
! "if (iword & 3)",
! " {",
! " iword &= 0xfd53; goto top;",
! " }",
! },
! { "n", "n", "movx.l @<REG_xy>+,<DSP_XY>", "111100xyXY011000",
! "DSP_R (m) = RLAT (R[n]);",
! "R[n] += ((R[n] & 0xffff) == MOD_ME) ? MOD_DELTA : 4;",
},
! { "n", "n8","movx.w @<REG_xy>+REG_8,<DSP_XY>", "111100xyXY0011??",
"DSP_R (m) = RSWAT (R[n]) << 16;",
"R[n] += ((R[n] & 0xffff) == MOD_ME) ? MOD_DELTA : R[8];",
! "if (iword & 3)",
! " {",
! " iword &= 0xfd53; goto top;",
! " }",
! },
! { "n", "n8","movx.l @<REG_xy>+REG_8,<DSP_XY>", "111100xyXY011100",
! "DSP_R (m) = RLAT (R[n]);",
! "R[n] += ((R[n] & 0xffff) == MOD_ME) ? MOD_DELTA : R[8];",
},
! { "", "n", "movx.w <DSP_Ax>,@<REG_xy>", "111100xyax1001??",
"WWAT (R[n], DSP_R (m) >> 16);",
! "if (iword & 3)",
! " {",
! " iword &= 0xfd53; goto top;",
! " }",
! },
! { "", "n", "movx.l <DSP_Ax>,@<REG_xy>", "111100xyax110100",
! "WLAT (R[n], DSP_R (m));",
},
! { "n", "n", "movx.w <DSP_Ax>,@<REG_xy>+", "111100xyax1010??",
"WWAT (R[n], DSP_R (m) >> 16);",
"R[n] += ((R[n] & 0xffff) == MOD_ME) ? MOD_DELTA : 2;",
! "if (iword & 3)",
! " {",
! " iword &= 0xfd53; goto top;",
! " }",
},
! { "n", "n", "movx.l <DSP_Ax>,@<REG_xy>+", "111100xyax111000",
! "WLAT (R[n], DSP_R (m));",
! "R[n] += ((R[n] & 0xffff) == MOD_ME) ? MOD_DELTA : 4;",
! },
! { "n", "n8","movx.w <DSP_Ax>,@<REG_xy>+REG_8","111100xyax1011??",
"WWAT (R[n], DSP_R (m) >> 16);",
"R[n] += ((R[n] & 0xffff) == MOD_ME) ? MOD_DELTA : R[8];",
! "if (iword & 3)",
! " {",
! " iword &= 0xfd53; goto top;",
! " }",
! },
! { "n", "n8","movx.l <DSP_Ax>,@<REG_xy>+REG_8","111100xyax111100",
! "WLAT (R[n], DSP_R (m));",
! "R[n] += ((R[n] & 0xffff) == MOD_ME) ? MOD_DELTA : R[8];",
},
! { "", "n", "movy.w @<REG_yx>,<DSP_YX>", "111100yxYX000001",
"DSP_R (m) = RSWAT (R[n]) << 16;",
},
! { "n", "n", "movy.w @<REG_yx>+,<DSP_YX>", "111100yxYX000010",
"DSP_R (m) = RSWAT (R[n]) << 16;",
"R[n] += ((R[n] | ~0xffff) == MOD_ME) ? MOD_DELTA : 2;",
},
! { "n", "n9","movy.w @<REG_yx>+REG_9,<DSP_YX>", "111100yxYX000011",
"DSP_R (m) = RSWAT (R[n]) << 16;",
"R[n] += ((R[n] | ~0xffff) == MOD_ME) ? MOD_DELTA : R[9];",
},
! { "", "n", "movy.w <DSP_Ay>,@<REG_yx>", "111100yxAY010001",
"WWAT (R[n], DSP_R (m) >> 16);",
},
! { "n", "n", "movy.w <DSP_Ay>,@<REG_yx>+", "111100yxAY010010",
"WWAT (R[n], DSP_R (m) >> 16);",
"R[n] += ((R[n] | ~0xffff) == MOD_ME) ? MOD_DELTA : 2;",
},
! { "n", "n9", "movy.w <DSP_Ay>,@<REG_yx>+REG_9", "111100yxAY010011",
"WWAT (R[n], DSP_R (m) >> 16);",
"R[n] += ((R[n] | ~0xffff) == MOD_ME) ? MOD_DELTA : R[9];",
},
+ { "", "n", "movy.l @<REG_yx>,<DSP_YX>", "111100yxYX100001",
+ "DSP_R (m) = RLAT (R[n]);",
+ },
+ { "n", "n", "movy.l @<REG_yx>+,<DSP_YX>", "111100yxYX100010",
+ "DSP_R (m) = RLAT (R[n]);",
+ "R[n] += ((R[n] | ~0xffff) == MOD_ME) ? MOD_DELTA : 4;",
+ },
+ { "n", "n9","movy.l @<REG_yx>+REG_9,<DSP_YX>", "111100yxYX100011",
+ "DSP_R (m) = RLAT (R[n]);",
+ "R[n] += ((R[n] | ~0xffff) == MOD_ME) ? MOD_DELTA : R[9];",
+ },
+ { "", "n", "movy.l <DSP_Ay>,@<REG_yx>", "111100yxAY110001",
+ "WLAT (R[n], DSP_R (m));",
+ },
+ { "n", "n", "movy.l <DSP_Ay>,@<REG_yx>+", "111100yxAY110010",
+ "WLAT (R[n], DSP_R (m));",
+ "R[n] += ((R[n] | ~0xffff) == MOD_ME) ? MOD_DELTA : 4;",
+ },
+ { "n", "n9", "movy.l <DSP_Ay>,@<REG_yx>+REG_9", "111100yxAY110011",
+ "WLAT (R[n], DSP_R (m));",
+ "R[n] += ((R[n] | ~0xffff) == MOD_ME) ? MOD_DELTA : R[9];",
+ },
{ "", "", "nopx nopy", "1111000000000000",
"/* nop */",
},
*************** op ppi_tab[] =
*** 1379,1385 ****
"COMPUTE_OVERFLOW;",
"greater_equal = 0;",
},
! { "","", "pmuls Se,Sf,Dg", "0100eeffxxyygguu",
"res = (DSP_R (e) >> 16) * (DSP_R (f) >> 16) * 2;",
"if (res == 0x80000000)",
" res = 0x7fffffff;",
--- 1581,1587 ----
"COMPUTE_OVERFLOW;",
"greater_equal = 0;",
},
! { "","", "pmuls Se,Sf,Dg", "0100eeff0000gguu",
"res = (DSP_R (e) >> 16) * (DSP_R (f) >> 16) * 2;",
"if (res == 0x80000000)",
" res = 0x7fffffff;",
*************** op ppi_tab[] =
*** 1462,1468 ****
"DSR |= carry;\n",
"goto assign_z;\n",
},
! { "","", "pcmp Sx,Sy", "10000100xxyy....",
"int Sx = DSP_R (x);",
"int Sx_grd = GET_DSP_GRD (x);",
"int Sy = DSP_R (y);",
--- 1664,1670 ----
"DSR |= carry;\n",
"goto assign_z;\n",
},
! { "","", "pcmp Sx,Sy", "10000100xxyyzzzz",
"int Sx = DSP_R (x);",
"int Sx_grd = GET_DSP_GRD (x);",
"int Sy = DSP_R (y);",
*************** op ppi_tab[] =
*** 1479,1484 ****
--- 1681,1704 ----
},
{ "","", "pwad Sx,Sy,Dz", "10110100xxyyzzzz",
},
+ { "","", "(if cc) pabs Sx,Dz", "100010ccxx01zzzz",
+ "/* FIXME: duplicate code pabs. */",
+ "res = DSP_R (x);",
+ "res_grd = GET_DSP_GRD (x);",
+ "if (res >= 0)",
+ " carry = 0;",
+ "else",
+ " {",
+ " res = -res;",
+ " carry = (res != 0); /* The manual has a bug here. */",
+ " res_grd = -res_grd - carry;",
+ " }",
+ "COMPUTE_OVERFLOW;",
+ "/* ??? The re-computing of overflow after",
+ " saturation processing is specific to pabs. */",
+ "overflow = res_grd != SIGN32 (res) ? DSR_MASK_V : 0;",
+ "ADD_SUB_GE;",
+ },
{ "","", "pabs Sx,Dz", "10001000xx..zzzz",
"res = DSP_R (x);",
"res_grd = GET_DSP_GRD (x);",
*************** op ppi_tab[] =
*** 1496,1501 ****
--- 1716,1733 ----
"overflow = res_grd != SIGN32 (res) ? DSR_MASK_V : 0;",
"ADD_SUB_GE;",
},
+
+ { "","", "(if cc) prnd Sx,Dz", "100110ccxx01zzzz",
+ "/* FIXME: duplicate code prnd. */",
+ "int Sx = DSP_R (x);",
+ "int Sx_grd = GET_DSP_GRD (x);",
+ "",
+ "res = (Sx + 0x8000) & 0xffff0000;",
+ "carry = (unsigned) res < (unsigned) Sx;",
+ "res_grd = Sx_grd + carry;",
+ "COMPUTE_OVERFLOW;",
+ "ADD_SUB_GE;",
+ },
{ "","", "prnd Sx,Dz", "10011000xx..zzzz",
"int Sx = DSP_R (x);",
"int Sx_grd = GET_DSP_GRD (x);",
*************** op ppi_tab[] =
*** 1506,1511 ****
--- 1738,1768 ----
"COMPUTE_OVERFLOW;",
"ADD_SUB_GE;",
},
+
+ { "","", "(if cc) pabs Sy,Dz", "101010cc01yyzzzz",
+ "/* FIXME: duplicate code pabs. */",
+ "res = DSP_R (y);",
+ "res_grd = 0;",
+ "overflow = 0;",
+ "greater_equal = DSR_MASK_G;",
+ "if (res >= 0)",
+ " carry = 0;",
+ "else",
+ " {",
+ " res = -res;",
+ " carry = 1;",
+ " if (res < 0)",
+ " {",
+ " if (S)",
+ " res = 0x7fffffff;",
+ " else",
+ " {",
+ " overflow = DSR_MASK_V;",
+ " greater_equal = 0;",
+ " }",
+ " }",
+ " }",
+ },
{ "","", "pabs Sy,Dz", "10101000..yyzzzz",
"res = DSP_R (y);",
"res_grd = 0;",
*************** op ppi_tab[] =
*** 1529,1534 ****
--- 1786,1802 ----
" }",
" }",
},
+ { "","", "(if cc) prnd Sy,Dz", "101110cc01yyzzzz",
+ "/* FIXME: duplicate code prnd. */",
+ "int Sy = DSP_R (y);",
+ "int Sy_grd = SIGN32 (Sy);",
+ "",
+ "res = (Sy + 0x8000) & 0xffff0000;",
+ "carry = (unsigned) res < (unsigned) Sy;",
+ "res_grd = Sy_grd + carry;",
+ "COMPUTE_OVERFLOW;",
+ "ADD_SUB_GE;",
+ },
{ "","", "prnd Sy,Dz", "10111000..yyzzzz",
"int Sy = DSP_R (y);",
"int Sy_grd = SIGN32 (Sy);",
*************** op ppi_tab[] =
*** 1609,1614 ****
--- 1877,1894 ----
"COMPUTE_OVERFLOW;",
"ADD_SUB_GE;",
},
+ { "","", "(if cc) psub Sy,Sx,Dz", "100001ccxxyyzzzz",
+ "int Sx = DSP_R (x);",
+ "int Sx_grd = GET_DSP_GRD (x);",
+ "int Sy = DSP_R (y);",
+ "int Sy_grd = SIGN32 (Sy);",
+ "",
+ "res = Sy - Sx;",
+ "carry = (unsigned) res > (unsigned) Sy;",
+ "res_grd = Sy_grd - Sx_grd - carry;",
+ "COMPUTE_OVERFLOW;",
+ "ADD_SUB_GE;",
+ },
{ "","", "(if cc) padd Sx,Sy,Dz", "101100ccxxyyzzzz",
"int Sx = DSP_R (x);",
"int Sx_grd = GET_DSP_GRD (x);",
*************** op ppi_tab[] =
*** 1698,1703 ****
--- 1978,1998 ----
"overflow = 0;",
"greater_equal = 1;",
},
+ { "","", "pclr Du pmuls Se,Sf,Dg", "0100eeff0001gguu",
+ "/* Do multiply. */",
+ "res = (DSP_R (e) >> 16) * (DSP_R (f) >> 16) * 2;",
+ "if (res == 0x80000000)",
+ " res = 0x7fffffff;",
+ "DSP_R (g) = res;",
+ "DSP_GRD (g) = SIGN32 (res);",
+ "/* FIXME: update DSR based on results of multiply! */",
+ "",
+ "/* Do clr. */",
+ "z = u;",
+ "res = 0;",
+ "res_grd = 0;",
+ "goto assign_z;",
+ },
{ "","", "(if cc) pdmsb Sx,Dz", "100111ccxx..zzzz",
"unsigned Sx = DSP_R (x);",
"int Sx_grd = GET_DSP_GRD (x);",
*************** op ppi_tab[] =
*** 1813,1818 ****
--- 2108,2134 ----
" MACL = DSP_R (z) = res;",
"return;",
},
+ /* sh4a */
+ { "","", "(if cc) pswap Sx,Dz", "100111ccxx01zzzz",
+ "int Sx = DSP_R (x);",
+ "",
+ "res = ((Sx & 0xffff) * 65536) + ((Sx >> 16) & 0xffff);",
+ "res_grd = GET_DSP_GRD (x);",
+ "carry = 0;",
+ "overflow = 0;",
+ "greater_equal = res & 0x80000000 ? 0 : DSR_MASK_G;",
+ },
+ /* sh4a */
+ { "","", "(if cc) pswap Sy,Dz", "101111cc01yyzzzz",
+ "int Sy = DSP_R (y);",
+ "",
+ "res = ((Sy & 0xffff) * 65536) + ((Sy >> 16) & 0xffff);",
+ "res_grd = SIGN32 (Sy);",
+ "carry = 0;",
+ "overflow = 0;",
+ "greater_equal = res & 0x80000000 ? 0 : DSR_MASK_G;",
+ },
+
{0, 0}
};
*************** expand_opcode (val, i, s)
*** 1976,2001 ****
exit (1);
case '0':
case '1':
! /* Consume an arbitrary number of ones and zeros. */
! do {
! j = (j << 1) + (s[m++] - '0');
! } while (s[m] == '0' || s[m] == '1');
! expand_opcode ((val << m) | j, i, s + m);
! break;
!
case 'N': /* NN -- four-way fork */
for (j = 0; j < 4; j++)
expand_opcode ((val << 2) | j, i, s + 2);
break;
! case 'x': /* xx -- 2-way fork */
! /* Cross-breeding with movy moved to separate function. */
! for (j = 0; j < 4; j += 2)
expand_opcode ((val << 2) | j, i, s + 2);
break;
! case 'y': /* yy -- two-way fork */
! for (j = 0; j < 2; j++)
expand_opcode ((val << 2) | j, i, s + 2);
break;
case 'i': /* eg. "i8*1" */
case '.': /* "...." is a wildcard */
case 'n':
--- 2292,2323 ----
exit (1);
case '0':
case '1':
! /* Consume an arbitrary number of ones and zeros. */
! do {
! j = (j << 1) + (s[m++] - '0');
! } while (s[m] == '0' || s[m] == '1');
! expand_opcode ((val << m) | j, i, s + m);
! break;
case 'N': /* NN -- four-way fork */
for (j = 0; j < 4; j++)
expand_opcode ((val << 2) | j, i, s + 2);
break;
! case 'x': /* xx or xy -- two-way or four-way fork */
! for (j = 0; j < 4; j += (s[1] == 'x' ? 2 : 1))
expand_opcode ((val << 2) | j, i, s + 2);
break;
! case 'y': /* yy or yx -- two-way or four-way fork */
! for (j = 0; j < (s[1] == 'x' ? 4 : 2); j++)
expand_opcode ((val << 2) | j, i, s + 2);
break;
+ case '?': /* Seven-way "wildcard" fork for movxy */
+ expand_opcode ((val << 2), i, s + 2);
+ for (j = 1; j < 4; j++)
+ {
+ expand_opcode ((val << 2) | j, i, s + 2);
+ expand_opcode ((val << 2) | (j + 16), i, s + 2);
+ }
+ break;
case 'i': /* eg. "i8*1" */
case '.': /* "...." is a wildcard */
case 'n':
*************** expand_opcode (val, i, s)
*** 2033,2049 ****
expand_opcode ((val << 4) | j, i, s + 4);
break;
case 'X':
case 'a':
! /* XX, aa -- two-way fork */
! for (j = 0; j < 4; j += 2)
expand_opcode ((val << 2) | j, i, s + 2);
break;
case 'Y':
case 'A':
! /* YY, AA -- two-way fork */
! for (j = 0; j < 2; j++)
expand_opcode ((val << 2) | j, i, s + 2);
break;
}
}
}
--- 2355,2395 ----
expand_opcode ((val << 4) | j, i, s + 4);
break;
case 'X':
+ /* XX/XY -- 2/4 way fork. */
+ for (j = 0; j < 4; j += (s[1] == 'X' ? 2 : 1))
+ expand_opcode ((val << 2) | j, i, s + 2);
+ break;
case 'a':
! /* aa/ax -- 2/4 way fork. */
! for (j = 0; j < 4; j += (s[1] == 'a' ? 2 : 1))
expand_opcode ((val << 2) | j, i, s + 2);
break;
case 'Y':
+ /* YY/YX -- 2/4 way fork. */
+ for (j = 0; j < (s[1] == 'Y' ? 2 : 4); j += 1)
+ expand_opcode ((val << 2) | j, i, s + 2);
+ break;
case 'A':
! /* AA/AY: 2/4 way fork. */
! for (j = 0; j < (s[1] == 'A' ? 2 : 4); j += 1)
expand_opcode ((val << 2) | j, i, s + 2);
break;
+ case 'v':
+ /* vv(VV) -- 4(16) way fork. */
+ /* Vector register fv0/4/8/12. */
+ if (s[2] == 'V')
+ {
+ /* 2 vector registers. */
+ for (j = 0; j < 15; j++)
+ expand_opcode ((val << 4) | j, i, s + 4);
+ }
+ else
+ {
+ /* 1 vector register. */
+ for (j = 0; j < 4; j += 1)
+ expand_opcode ((val << 2) | j, i, s + 2);
+ }
+ break;
}
}
}
*************** expand_ppi_movxy ()
*** 2113,2136 ****
int i;
for (i = 0xf000; i < 0xf400; i++)
- if ((i & 3) == 0 && (i & 12) != 0 && table[i] != 0)
- {
- /* A movx insn, which needs to be filled out with the
- corresponding movy insns. This used to be done in
- expand_opcode. */
- int m, mv;
-
- for (m = 0; m < 32; m++)
- {
- /* Ignore illegal nopy */
- if ((m & 7) == 0 && m != 0)
- continue;
- mv = m & 3 | (m & 4) << 2 | (m & 8) << 3 | (m & 16) << 4;
- table [i | mv] = table [i];
- }
- }
-
- for (i = 0xf000; i < 0xf400; i++)
if (table[i])
table[i + 0x800] = table[0xf800];
}
--- 2459,2464 ----
*************** gensim_caselist (p)
*** 2161,2166 ****
--- 2489,2506 ----
*s);
exit (1);
break;
+ case '?':
+ /* Wildcard expansion, nothing to do here. */
+ s += 2;
+ break;
+ case 'v':
+ printf (" int v1 = ((iword >> 10) & 3) * 4;\n");
+ s += 2;
+ break;
+ case 'V':
+ printf (" int v2 = ((iword >> 8) & 3) * 4;\n");
+ s += 2;
+ break;
case '0':
case '1':
s += 2;
*************** gensim_caselist (p)
*** 2179,2190 ****
s += 2;
break;
case 'x':
! printf (" int n = ((iword >> 9) & 1) + 4;\n");
needn = 1;
s += 2;
break;
case 'y':
! printf (" int n = ((iword >> 8) & 1) + 6;\n");
needn = 1;
s += 2;
break;
--- 2519,2544 ----
s += 2;
break;
case 'x':
! if (s[1] == 'y') /* xy */
! {
! printf (" int n = (iword & 3) ? \n");
! printf (" ((iword >> 9) & 1) + 4 : \n");
! printf (" REG_xy ((iword >> 8) & 3);\n");
! }
! else
! printf (" int n = ((iword >> 9) & 1) + 4;\n");
needn = 1;
s += 2;
break;
case 'y':
! if (s[1] == 'x') /* yx */
! {
! printf (" int n = (iword & 0xc) ? \n");
! printf (" ((iword >> 8) & 1) + 6 : \n");
! printf (" REG_yx ((iword >> 8) & 3);\n");
! }
! else
! printf (" int n = ((iword >> 8) & 1) + 6;\n");
needn = 1;
s += 2;
break;
*************** gensim_caselist (p)
*** 2197,2215 ****
s += 4;
break;
case 'X':
! printf (" int m = ((iword >> 7) & 1) + 8;\n");
s += 2;
break;
case 'a':
! printf (" int m = 7 - ((iword >> 6) & 2);\n");
s += 2;
break;
case 'Y':
! printf (" int m = ((iword >> 6) & 1) + 10;\n");
s += 2;
break;
case 'A':
! printf (" int m = 7 - ((iword >> 5) & 2);\n");
s += 2;
break;
--- 2551,2597 ----
s += 4;
break;
case 'X':
! if (s[1] == 'Y') /* XY */
! {
! printf (" int m = (iword & 3) ? \n");
! printf (" ((iword >> 7) & 1) + 8 : \n");
! printf (" DSP_xy ((iword >> 6) & 3);\n");
! }
! else
! printf (" int m = ((iword >> 7) & 1) + 8;\n");
s += 2;
break;
case 'a':
! if (s[1] == 'x') /* ax */
! {
! printf (" int m = (iword & 3) ? \n");
! printf (" 7 - ((iword >> 6) & 2) : \n");
! printf (" DSP_ax ((iword >> 6) & 3);\n");
! }
! else
! printf (" int m = 7 - ((iword >> 6) & 2);\n");
s += 2;
break;
case 'Y':
! if (s[1] == 'X') /* YX */
! {
! printf (" int m = (iword & 0xc) ? \n");
! printf (" ((iword >> 6) & 1) + 10 : \n");
! printf (" DSP_yx ((iword >> 6) & 3);\n");
! }
! else
! printf (" int m = ((iword >> 6) & 1) + 10;\n");
s += 2;
break;
case 'A':
! if (s[1] == 'Y') /* AY */
! {
! printf (" int m = (iword & 0xc) ? \n");
! printf (" 7 - ((iword >> 5) & 2) : \n");
! printf (" DSP_ay ((iword >> 6) & 3);\n");
! }
! else
! printf (" int m = 7 - ((iword >> 5) & 2);\n");
s += 2;
break;
*************** static void
*** 2303,2308 ****
--- 2685,2702 ----
gensim ()
{
printf ("{\n");
+ printf ("/* REG_xy = [r4, r5, r0, r1]. */\n");
+ printf ("#define REG_xy(R) ((R)==0 ? 4 : (R)==2 ? 5 : (R)==1 ? 0 : 1)\n");
+ printf ("/* REG_yx = [r6, r7, r2, r3]. */\n");
+ printf ("#define REG_yx(R) ((R)==0 ? 6 : (R)==1 ? 7 : (R)==2 ? 2 : 3)\n");
+ printf ("/* DSP_ax = [a0, a1, x0, x1]. */\n");
+ printf ("#define DSP_ax(R) ((R)==0 ? 7 : (R)==2 ? 5 : (R)==1 ? 8 : 9)\n");
+ printf ("/* DSP_ay = [a0, a1, y0, y1]. */\n");
+ printf ("#define DSP_ay(R) ((R)==0 ? 7 : (R)==1 ? 5 : (R)==2 ? 10 : 11)\n");
+ printf ("/* DSP_xy = [x0, x1, y0, y1]. */\n");
+ printf ("#define DSP_xy(R) ((R)==0 ? 8 : (R)==2 ? 9 : (R)==1 ? 10 : 11)\n");
+ printf ("/* DSP_yx = [y0, y1, x0, x1]. */\n");
+ printf ("#define DSP_yx(R) ((R)==0 ? 10 : (R)==1 ? 11 : (R)==2 ? 8 : 9)\n");
printf (" switch (jump_table[iword]) {\n");
gensim_caselist (tab);
*************** gendefines ()
*** 2341,2347 ****
static int ppi_index;
/* Take a ppi code, expand all varying fields in it and fill all the
! right entries in 'table' with the opcode index. */
static void
expand_ppi_code (val, i, s)
--- 2735,2742 ----
static int ppi_index;
/* Take a ppi code, expand all varying fields in it and fill all the
! right entries in 'table' with the opcode index.
! NOTE: tail recursion optimization removed for simplicity. */
static void
expand_ppi_code (val, i, s)
*************** expand_ppi_code (val, i, s)
*** 2351,2396 ****
{
int j;
! for (;;)
{
! switch (s[0])
! {
! default:
! fprintf (stderr, "gencode/expand_ppi_code: Illegal char '%c'\n",
! s[0]);
! exit (2);
! break;
! /* The last eight bits are disregarded for the switch table. */
! case 'm':
! case 'x':
! case '.':
! table[val] = i;
! return;
! case '0':
! val += val;
! s++;
! break;
! case '1':
! val += val + 1;
! s++;
! break;
! case 'i':
! case 'e': case 'f':
! val += val;
! s++;
! expand_ppi_code (val, i, s);
! val++;
! break;
! case 'c':
! val <<= 2;
! s += 2;
! val++;
! expand_ppi_code (val, ppi_index++, s);
! val++;
! expand_ppi_code (val, i, s);
! val++;
! break;
! }
}
}
--- 2746,2785 ----
{
int j;
! switch (s[0])
{
! default:
! fprintf (stderr, "gencode/expand_ppi_code: Illegal char '%c'\n", s[0]);
! exit (2);
! break;
! case 'g':
! case 'z':
! /* The last four bits are disregarded for the switch table. */
! table[val] = i;
! return;
! case 'm':
! /* Four-bit expansion. */
! for (j = 0; j < 16; j++)
! expand_ppi_code ((val << 4) + j, i, s + 4);
! break;
! case '.':
! case '0':
! expand_ppi_code ((val << 1), i, s + 1);
! break;
! case '1':
! expand_ppi_code ((val << 1) + 1, i, s + 1);
! break;
! case 'i':
! case 'e': case 'f':
! case 'x': case 'y':
! expand_ppi_code ((val << 1), i, s + 1);
! expand_ppi_code ((val << 1) + 1, i, s + 1);
! break;
! case 'c':
! expand_ppi_code ((val << 2) + 1, ppi_index++, s + 2);
! expand_ppi_code ((val << 2) + 2, i, s + 2);
! expand_ppi_code ((val << 2) + 3, i, s + 2);
! break;
}
}
*************** ppi_gensim ()
*** 2442,2459 ****
printf ("ppi_insn (iword)\n");
printf (" int iword;\n");
printf ("{\n");
printf (" static char e_tab[] = { 8, 9, 10, 5};\n");
printf (" static char f_tab[] = {10, 11, 8, 5};\n");
printf (" static char x_tab[] = { 8, 9, 7, 5};\n");
printf (" static char y_tab[] = {10, 11, 12, 14};\n");
printf (" static char g_tab[] = {12, 14, 7, 5};\n");
printf (" static char u_tab[] = { 8, 10, 7, 5};\n");
printf ("\n");
printf (" int z;\n");
printf (" int res, res_grd;\n");
printf (" int carry, overflow, greater_equal;\n");
printf ("\n");
! printf (" switch (ppi_table[iword >> 8]) {\n");
for (; p->name; p++)
{
--- 2831,2854 ----
printf ("ppi_insn (iword)\n");
printf (" int iword;\n");
printf ("{\n");
+ printf (" /* 'ee' = [x0, x1, y0, a1] (FIXME [x0, x1, a1, m1]) */\n");
printf (" static char e_tab[] = { 8, 9, 10, 5};\n");
+ printf (" /* 'ff' = [y0, y1, x0, a1] (FIXME [y0, y1, a1, m1]) */\n");
printf (" static char f_tab[] = {10, 11, 8, 5};\n");
+ printf (" /* 'xx'(?) = [x0, x1, a0, a1] */\n");
printf (" static char x_tab[] = { 8, 9, 7, 5};\n");
+ printf (" /* 'yy'(?) = [y0, y1, m0, m1] */\n");
printf (" static char y_tab[] = {10, 11, 12, 14};\n");
+ printf (" /* 'gg' = [m0, m1, a0, a1] */\n");
printf (" static char g_tab[] = {12, 14, 7, 5};\n");
+ printf (" /* 'uu' = [x0, y0, a0, a1] (FIXME [m1, x1, a0, a1]) */\n");
printf (" static char u_tab[] = { 8, 10, 7, 5};\n");
printf ("\n");
printf (" int z;\n");
printf (" int res, res_grd;\n");
printf (" int carry, overflow, greater_equal;\n");
printf ("\n");
! printf (" switch (ppi_table[iword >> 4]) {\n");
for (; p->name; p++)
{
*************** main (ac, av)
*** 2614,2620 ****
memset (table, 0, sizeof table);
ppi_filltable ();
! dumptable ("ppi_table", 1 << 8, 0);
}
else if (strcmp (av[1], "-x") == 0)
{
--- 3009,3015 ----
memset (table, 0, sizeof table);
ppi_filltable ();
! dumptable ("ppi_table", 1 << 12, 0);
}
else if (strcmp (av[1], "-x") == 0)
{
Index: interp.c
===================================================================
RCS file: /cvs/src/src/sim/sh/interp.c,v
retrieving revision 1.12
diff -p -r1.12 interp.c
*** interp.c 3 Nov 2003 14:14:15 -0000 1.12
--- interp.c 7 Jan 2004 21:38:27 -0000
***************
*** 1,4 ****
! /* Simulator for the Hitachi SH architecture.
Written by Steve Chamberlain of Cygnus Support.
sac@cygnus.com
--- 1,4 ----
! /* Simulator for the Renesas (formerly Hitachi) SH architecture.
Written by Steve Chamberlain of Cygnus Support.
sac@cygnus.com
*************** typedef union
*** 120,125 ****
--- 120,128 ----
int re;
/* sh3 */
int bank[8];
+ int dbr; /* debug base register */
+ int sgr; /* saved gr15 */
+ int ldst; /* load/store flag (boolean) */
} named;
int i[16];
} cregs;
*************** static int target_dsp;
*** 167,176 ****
static int host_little_endian;
static char **prog_argv;
- #if 1
static int maskw = 0;
static int maskl = 0;
- #endif
static SIM_OPEN_KIND sim_kind;
static char *myname;
--- 170,177 ----
*************** static char *myname;
*** 189,196 ****
--- 190,199 ----
#define CREG(n) (saved_state.asregs.cregs.i[(n)])
#define GBR saved_state.asregs.cregs.named.gbr
#define VBR saved_state.asregs.cregs.named.vbr
+ #define DBR saved_state.asregs.cregs.named.dbr
#define SSR saved_state.asregs.cregs.named.ssr
#define SPC saved_state.asregs.cregs.named.spc
+ #define SGR saved_state.asregs.cregs.named.sgr
#define SREG(n) (saved_state.asregs.sregs.i[(n)])
#define MACH saved_state.asregs.sregs.named.mach
#define MACL saved_state.asregs.sregs.named.macl
*************** static char *myname;
*** 228,233 ****
--- 231,237 ----
#define Q ((saved_state.asregs.cregs.named.sr & SR_MASK_Q) != 0)
#define S ((saved_state.asregs.cregs.named.sr & SR_MASK_S) != 0)
#define T ((saved_state.asregs.cregs.named.sr & SR_MASK_T) != 0)
+ #define LDST ((saved_state.asregs.cregs.named.ldst) != 0)
#define SR_BL ((saved_state.asregs.cregs.named.sr & SR_MASK_BL) != 0)
#define SR_RB ((saved_state.asregs.cregs.named.sr & SR_MASK_RB) != 0)
*************** do { \
*** 249,254 ****
--- 253,259 ----
#define SET_SR_Q(EXP) SET_SR_BIT ((EXP), SR_MASK_Q)
#define SET_SR_S(EXP) SET_SR_BIT ((EXP), SR_MASK_S)
#define SET_SR_T(EXP) SET_SR_BIT ((EXP), SR_MASK_T)
+ #define SET_LDST(EXP) (saved_state.asregs.cregs.named.ldst = ((EXP) != 0))
/* stc currently relies on being able to read SR without modifications. */
#define GET_SR() (saved_state.asregs.cregs.named.sr - 0)
*************** macl (regs, memory, n, m)
*** 1411,1416 ****
--- 1416,1447 ----
MACH = mach;
}
+
+ /* GET_LOOP_BOUNDS {EXTENDED}
+ These two functions compute the actual starting and ending point
+ of the repeat loop, based on the RS and RE registers (repeat start,
+ repeat stop). The extended version is called for LDRC, and the
+ regular version is called for SETRC. The difference is that for
+ LDRC, the loop start and end instructions are literally the ones
+ pointed to by RS and RE -- for SETRC, they're not (see docs). */
+
+ static struct loop_bounds
+ get_loop_bounds_ext (rs, re, memory, mem_end, maskw, endianw)
+ int rs, re;
+ unsigned char *memory, *mem_end;
+ int maskw, endianw;
+ {
+ struct loop_bounds loop;
+
+ /* FIXME: should I verify RS < RE? */
+ loop.start = PT2H (RS); /* FIXME not using the params? */
+ loop.end = PT2H (RE & ~1); /* Ignore bit 0 of RE. */
+ SKIP_INSN (loop.end);
+ if (loop.end >= mem_end)
+ loop.end = PT2H (0);
+ return loop;
+ }
+
float
fsca_s (int in, double (*f) (double))
{
*************** init_dsp (abfd)
*** 1541,1547 ****
int was_dsp = target_dsp;
unsigned long mach = bfd_get_mach (abfd);
! if (mach == bfd_mach_sh_dsp || mach == bfd_mach_sh3_dsp)
{
int ram_area_size, xram_start, yram_start;
int new_select;
--- 1572,1580 ----
int was_dsp = target_dsp;
unsigned long mach = bfd_get_mach (abfd);
! if (mach == bfd_mach_sh_dsp ||
! mach == bfd_mach_sh4al_dsp ||
! mach == bfd_mach_sh3_dsp)
{
int ram_area_size, xram_start, yram_start;
int new_select;
*************** init_dsp (abfd)
*** 1556,1562 ****
xram_start = 0x0800f000;
ram_area_size = 0x1000;
}
! if (mach == bfd_mach_sh3_dsp)
{
/* SH7612:
8KB each for X & Y memory;
--- 1589,1595 ----
xram_start = 0x0800f000;
ram_area_size = 0x1000;
}
! if (mach == bfd_mach_sh3_dsp || mach == bfd_mach_sh4al_dsp)
{
/* SH7612:
8KB each for X & Y memory;
*************** sim_resume (sd, step, siggnal)
*** 1740,1746 ****
memory = saved_state.asregs.memory;
mem_end = memory + saved_state.asregs.msize;
! loop = get_loop_bounds (RS, RE, memory, mem_end, maskw, endianw);
insn_ptr = PT2H (saved_state.asregs.pc);
CHECK_INSN_PTR (insn_ptr);
--- 1773,1783 ----
memory = saved_state.asregs.memory;
mem_end = memory + saved_state.asregs.msize;
! if (RE & 1)
! loop = get_loop_bounds_ext (RS, RE, memory, mem_end, maskw, endianw);
! else
! loop = get_loop_bounds (RS, RE, memory, mem_end, maskw, endianw);
!
insn_ptr = PT2H (saved_state.asregs.pc);
CHECK_INSN_PTR (insn_ptr);