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| author | DJ Delorie <dj@redhat.com> | 2008-02-06 00:40:05 +0000 |
|---|---|---|
| committer | DJ Delorie <dj@redhat.com> | 2008-02-06 00:40:05 +0000 |
| commit | c5fbc25baf8de20a337383d4785dd4e15da428b0 (patch) | |
| tree | 949d697d1bf9d65ba3a3bbabde25ec43fe9c9c49 /sim/v850/simops.c | |
| parent | e5c4eb7a6c1d03decdb318b5a9e43719f207f460 (diff) | |
| download | gdb-c5fbc25baf8de20a337383d4785dd4e15da428b0.zip gdb-c5fbc25baf8de20a337383d4785dd4e15da428b0.tar.gz gdb-c5fbc25baf8de20a337383d4785dd4e15da428b0.tar.bz2 | |
Index: ChangeLog
* configure.ac (v850): V850 now has a testsuite.
* configure (v850): Likewise.
Index: testsuite/ChangeLog
* sim/v850/: New directory.
* sim/v850/allinsns.exp: New.
* sim/v850/bsh.cgs: New.
* sim/v850/div.cgs: New.
* sim/v850/divh.cgs: New.
* sim/v850/divh_3.cgs: New.
* sim/v850/divhu.cgs: New.
* sim/v850/divu.cgs: New.
* sim/v850/sar.cgs: New.
* sim/v850/satadd.cgs: New.
* sim/v850/satsub.cgs: New.
* sim/v850/satsubi.cgs: New.
* sim/v850/satsubr.cgs: New.
* sim/v850/shl.cgs: New.
* sim/v850/shr.cgs: New.
* sim/v850/testutils.cgs: New.
* sim/v850/testutils.inc: New.
Index: v850/ChangeLog
* simops.c (OP_C0): Correct saturation logic.
(OP_220): Likewise.
(OP_A0): Likewise.
(OP_660): Likewise.
(OP_80): Likewise.
* simops.c (OP_2A0): If the shift count is zero, clear the
carry.
(OP_A007E0): Likewise.
(OP_2C0): Likewise.
(OP_C007E0): Likewise.
(OP_280): Likewise.
(OP_8007E0): Likewise.
* simops.c (OP_2C207E0): Correct PSW flags for special divu
conditions.
(OP_2C007E0): Likewise, for div.
(OP_28207E0): Likewise, for divhu.
(OP_28007E0): Likewise, for divh. Also, sign-extend the correct
operand.
* v850.igen (divh): Likewise, for 2-op divh.
* v850.igen (bsh): Fix carry logic.
Diffstat (limited to 'sim/v850/simops.c')
| -rw-r--r-- | sim/v850/simops.c | 233 |
1 files changed, 151 insertions, 82 deletions
diff --git a/sim/v850/simops.c b/sim/v850/simops.c index 38ec0a6..5513341 100644 --- a/sim/v850/simops.c +++ b/sim/v850/simops.c @@ -864,18 +864,29 @@ OP_C0 () && (op0 & 0x80000000) != (result & 0x80000000)); sat = ov; + /* Handle saturated results. */ + if (sat && s) + { + /* An overflow that results in a negative result implies that we + became too positive. */ + result = 0x7fffffff; + s = 0; + } + else if (sat) + { + /* Any other overflow must have thus been too negative. */ + result = 0x80000000; + s = 1; + z = 0; + } + /* Store the result and condition codes. */ State.regs[OP[1]] = result; PSW &= ~(PSW_Z | PSW_S | PSW_CY | PSW_OV); PSW |= ((z ? PSW_Z : 0) | (s ? PSW_S : 0) | (cy ? PSW_CY : 0) | (ov ? PSW_OV : 0) | (sat ? PSW_SAT : 0)); - - /* Handle saturated results. */ - if (sat && s) - State.regs[OP[1]] = 0x80000000; - else if (sat) - State.regs[OP[1]] = 0x7fffffff; + trace_output (OP_REG_REG); return 2; @@ -905,18 +916,28 @@ OP_220 () && (op0 & 0x80000000) != (result & 0x80000000)); sat = ov; + /* Handle saturated results. */ + if (sat && s) + { + /* An overflow that results in a negative result implies that we + became too positive. */ + result = 0x7fffffff; + s = 0; + } + else if (sat) + { + /* Any other overflow must have thus been too negative. */ + result = 0x80000000; + s = 1; + z = 0; + } + /* Store the result and condition codes. */ State.regs[OP[1]] = result; PSW &= ~(PSW_Z | PSW_S | PSW_CY | PSW_OV); PSW |= ((z ? PSW_Z : 0) | (s ? PSW_S : 0) | (cy ? PSW_CY : 0) | (ov ? PSW_OV : 0) | (sat ? PSW_SAT : 0)); - - /* Handle saturated results. */ - if (sat && s) - State.regs[OP[1]] = 0x80000000; - else if (sat) - State.regs[OP[1]] = 0x7fffffff; trace_output (OP_IMM_REG); return 2; @@ -942,7 +963,23 @@ OP_A0 () ov = ((op1 & 0x80000000) != (op0 & 0x80000000) && (op1 & 0x80000000) != (result & 0x80000000)); sat = ov; - + + /* Handle saturated results. */ + if (sat && s) + { + /* An overflow that results in a negative result implies that we + became too positive. */ + result = 0x7fffffff; + s = 0; + } + else if (sat) + { + /* Any other overflow must have thus been too negative. */ + result = 0x80000000; + s = 1; + z = 0; + } + /* Store the result and condition codes. */ State.regs[OP[1]] = result; PSW &= ~(PSW_Z | PSW_S | PSW_CY | PSW_OV); @@ -950,11 +987,6 @@ OP_A0 () | (cy ? PSW_CY : 0) | (ov ? PSW_OV : 0) | (sat ? PSW_SAT : 0)); - /* Handle saturated results. */ - if (sat && s) - State.regs[OP[1]] = 0x80000000; - else if (sat) - State.regs[OP[1]] = 0x7fffffff; trace_output (OP_REG_REG); return 2; } @@ -982,6 +1014,22 @@ OP_660 () && (op1 & 0x80000000) != (result & 0x80000000)); sat = ov; + /* Handle saturated results. */ + if (sat && s) + { + /* An overflow that results in a negative result implies that we + became too positive. */ + result = 0x7fffffff; + s = 0; + } + else if (sat) + { + /* Any other overflow must have thus been too negative. */ + result = 0x80000000; + s = 1; + z = 0; + } + /* Store the result and condition codes. */ State.regs[OP[1]] = result; PSW &= ~(PSW_Z | PSW_S | PSW_CY | PSW_OV); @@ -989,11 +1037,6 @@ OP_660 () | (cy ? PSW_CY : 0) | (ov ? PSW_OV : 0) | (sat ? PSW_SAT : 0)); - /* Handle saturated results. */ - if (sat && s) - State.regs[OP[1]] = 0x80000000; - else if (sat) - State.regs[OP[1]] = 0x7fffffff; trace_output (OP_IMM_REG); return 4; @@ -1015,10 +1058,26 @@ OP_80 () /* Compute the condition codes. */ z = (result == 0); s = (result & 0x80000000); - cy = (result < op0); - ov = ((op1 & 0x80000000) != (op0 & 0x80000000) - && (op1 & 0x80000000) != (result & 0x80000000)); + cy = (op0 < op1); + ov = ((op0 & 0x80000000) != (op1 & 0x80000000) + && (op0 & 0x80000000) != (result & 0x80000000)); sat = ov; + + /* Handle saturated results. */ + if (sat && s) + { + /* An overflow that results in a negative result implies that we + became too positive. */ + result = 0x7fffffff; + s = 0; + } + else if (sat) + { + /* Any other overflow must have thus been too negative. */ + result = 0x80000000; + s = 1; + z = 0; + } /* Store the result and condition codes. */ State.regs[OP[1]] = result; @@ -1027,11 +1086,6 @@ OP_80 () | (cy ? PSW_CY : 0) | (ov ? PSW_OV : 0) | (sat ? PSW_SAT : 0)); - /* Handle saturated results. */ - if (sat && s) - State.regs[OP[1]] = 0x80000000; - else if (sat) - State.regs[OP[1]] = 0x7fffffff; trace_output (OP_REG_REG); return 2; @@ -1104,7 +1158,7 @@ OP_2A0 () /* Compute the condition codes. */ z = (result == 0); s = (result & 0x80000000); - cy = (op1 & (1 << (op0 - 1))); + cy = op0 ? (op1 & (1 << (op0 - 1))) : 0; /* Store the result and condition codes. */ State.regs[ OP[1] ] = result; @@ -1131,7 +1185,7 @@ OP_A007E0 () /* Compute the condition codes. */ z = (result == 0); s = (result & 0x80000000); - cy = (op1 & (1 << (op0 - 1))); + cy = op0 ? (op1 & (1 << (op0 - 1))) : 0; /* Store the result and condition codes. */ State.regs[OP[1]] = result; @@ -1157,7 +1211,7 @@ OP_2C0 () /* Compute the condition codes. */ z = (result == 0); s = (result & 0x80000000); - cy = (op1 & (1 << (32 - op0))); + cy = op0 ? (op1 & (1 << (32 - op0))) : 0; /* Store the result and condition codes. */ State.regs[OP[1]] = result; @@ -1183,7 +1237,7 @@ OP_C007E0 () /* Compute the condition codes. */ z = (result == 0); s = (result & 0x80000000); - cy = (op1 & (1 << (32 - op0))); + cy = op0 ? (op1 & (1 << (32 - op0))) : 0; /* Store the result and condition codes. */ State.regs[OP[1]] = result; @@ -1209,7 +1263,7 @@ OP_280 () /* Compute the condition codes. */ z = (result == 0); s = (result & 0x80000000); - cy = (op1 & (1 << (op0 - 1))); + cy = op0 ? (op1 & (1 << (op0 - 1))) : 0; /* Store the result and condition codes. */ State.regs[OP[1]] = result; @@ -1235,7 +1289,7 @@ OP_8007E0 () /* Compute the condition codes. */ z = (result == 0); s = (result & 0x80000000); - cy = (op1 & (1 << (op0 - 1))); + cy = op0 ? (op1 & (1 << (op0 - 1))) : 0; /* Store the result and condition codes. */ State.regs[OP[1]] = result; @@ -2264,19 +2318,20 @@ OP_2C207E0 (void) if (divide_by == 0) { - overflow = 1; - divide_by = 1; + PSW |= PSW_OV; } + else + { + State.regs[ OP[1] ] = quotient = divide_this / divide_by; + State.regs[ OP[2] >> 11 ] = remainder = divide_this % divide_by; - State.regs[ OP[1] ] = quotient = divide_this / divide_by; - State.regs[ OP[2] >> 11 ] = remainder = divide_this % divide_by; + /* Set condition codes. */ + PSW &= ~(PSW_Z | PSW_S | PSW_OV); - /* Set condition codes. */ - PSW &= ~(PSW_Z | PSW_S | PSW_OV); - - if (overflow) PSW |= PSW_OV; - if (quotient == 0) PSW |= PSW_Z; - if (quotient & 0x80000000) PSW |= PSW_S; + if (overflow) PSW |= PSW_OV; + if (quotient == 0) PSW |= PSW_Z; + if (quotient & 0x80000000) PSW |= PSW_S; + } trace_output (OP_REG_REG_REG); @@ -2291,7 +2346,6 @@ OP_2C007E0 (void) signed long int remainder; signed long int divide_by; signed long int divide_this; - int overflow = 0; trace_input ("div", OP_REG_REG_REG, 0); @@ -2300,21 +2354,28 @@ OP_2C007E0 (void) divide_by = State.regs[ OP[0] ]; divide_this = State.regs[ OP[1] ]; - if (divide_by == 0 || (divide_by == -1 && divide_this == (1 << 31))) + if (divide_by == 0) { - overflow = 1; - divide_by = 1; + PSW |= PSW_OV; } + else if (divide_by == -1 && divide_this == (1 << 31)) + { + PSW &= ~PSW_Z; + PSW |= PSW_OV | PSW_S; + State.regs[ OP[1] ] = (1 << 31); + State.regs[ OP[2] >> 11 ] = 0; + } + else + { + State.regs[ OP[1] ] = quotient = divide_this / divide_by; + State.regs[ OP[2] >> 11 ] = remainder = divide_this % divide_by; - State.regs[ OP[1] ] = quotient = divide_this / divide_by; - State.regs[ OP[2] >> 11 ] = remainder = divide_this % divide_by; - - /* Set condition codes. */ - PSW &= ~(PSW_Z | PSW_S | PSW_OV); + /* Set condition codes. */ + PSW &= ~(PSW_Z | PSW_S | PSW_OV); - if (overflow) PSW |= PSW_OV; - if (quotient == 0) PSW |= PSW_Z; - if (quotient < 0) PSW |= PSW_S; + if (quotient == 0) PSW |= PSW_Z; + if (quotient < 0) PSW |= PSW_S; + } trace_output (OP_REG_REG_REG); @@ -2340,19 +2401,20 @@ OP_28207E0 (void) if (divide_by == 0) { - overflow = 1; - divide_by = 1; + PSW |= PSW_OV; } + else + { + State.regs[ OP[1] ] = quotient = divide_this / divide_by; + State.regs[ OP[2] >> 11 ] = remainder = divide_this % divide_by; - State.regs[ OP[1] ] = quotient = divide_this / divide_by; - State.regs[ OP[2] >> 11 ] = remainder = divide_this % divide_by; - - /* Set condition codes. */ - PSW &= ~(PSW_Z | PSW_S | PSW_OV); + /* Set condition codes. */ + PSW &= ~(PSW_Z | PSW_S | PSW_OV); - if (overflow) PSW |= PSW_OV; - if (quotient == 0) PSW |= PSW_Z; - if (quotient & 0x80000000) PSW |= PSW_S; + if (overflow) PSW |= PSW_OV; + if (quotient == 0) PSW |= PSW_Z; + if (quotient & 0x80000000) PSW |= PSW_S; + } trace_output (OP_REG_REG_REG); @@ -2373,24 +2435,31 @@ OP_28007E0 (void) /* Compute the result. */ - divide_by = State.regs[ OP[0] ]; - divide_this = EXTEND16 (State.regs[ OP[1] ]); + divide_by = EXTEND16 (State.regs[ OP[0] ]); + divide_this = State.regs[ OP[1] ]; - if (divide_by == 0 || (divide_by == -1 && divide_this == (1 << 31))) + if (divide_by == 0) + { + PSW |= PSW_OV; + } + else if (divide_by == -1 && divide_this == (1 << 31)) { - overflow = 1; - divide_by = 1; + PSW &= ~PSW_Z; + PSW |= PSW_OV | PSW_S; + State.regs[ OP[1] ] = (1 << 31); + State.regs[ OP[2] >> 11 ] = 0; } + else + { + State.regs[ OP[1] ] = quotient = divide_this / divide_by; + State.regs[ OP[2] >> 11 ] = remainder = divide_this % divide_by; - State.regs[ OP[1] ] = quotient = divide_this / divide_by; - State.regs[ OP[2] >> 11 ] = remainder = divide_this % divide_by; + /* Set condition codes. */ + PSW &= ~(PSW_Z | PSW_S | PSW_OV); - /* Set condition codes. */ - PSW &= ~(PSW_Z | PSW_S | PSW_OV); - - if (overflow) PSW |= PSW_OV; - if (quotient == 0) PSW |= PSW_Z; - if (quotient < 0) PSW |= PSW_S; + if (quotient == 0) PSW |= PSW_Z; + if (quotient < 0) PSW |= PSW_S; + } trace_output (OP_REG_REG_REG); |