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authorGabe Black <gblack@eecs.umich.edu>2009-08-09 01:01:18 -0700
committerGabe Black <gblack@eecs.umich.edu>2009-08-09 01:01:18 -0700
commitbbf117b20e32ca827ee3b00b019d3a88f39f9cec (patch)
treeb913fe2fa048af1cfae7ccccb959da877e66be98 /src/arch/x86/isa/insts
parent3b07a5829d9e5b88aa9aec2fcfe2311050dc64b2 (diff)
downloadgem5-bbf117b20e32ca827ee3b00b019d3a88f39f9cec.tar.xz
X86: Don't clobber the original dividend when doing signed divide.
Diffstat (limited to 'src/arch/x86/isa/insts')
-rw-r--r--src/arch/x86/isa/insts/general_purpose/arithmetic/multiply_and_divide.py44
1 files changed, 18 insertions, 26 deletions
diff --git a/src/arch/x86/isa/insts/general_purpose/arithmetic/multiply_and_divide.py b/src/arch/x86/isa/insts/general_purpose/arithmetic/multiply_and_divide.py
index dbc803350..47ad1d53c 100644
--- a/src/arch/x86/isa/insts/general_purpose/arithmetic/multiply_and_divide.py
+++ b/src/arch/x86/isa/insts/general_purpose/arithmetic/multiply_and_divide.py
@@ -388,7 +388,6 @@ def macroop IDIV_B_R
sub t2, t2, t4
#Find the sign of the divisor
- #FIXME!!! This depends on shifts setting the carry flag correctly.
slli t0, reg, 1, flags=(ECF,), dataSize=1
# Negate divisor
@@ -397,7 +396,6 @@ def macroop IDIV_B_R
mov t3, t3, reg, flags=(nCECF,), dataSize=1
#Find the sign of the dividend
- #FIXME!!! This depends on shifts setting the carry flag correctly.
slli t0, ah, 1, flags=(ECF,), dataSize=1
# Put the dividend's absolute value into t1 and t2
@@ -440,7 +438,7 @@ divLoopTop:
mov t5, t5, t4, (CECF,), dataSize=1
# Check the sign of the divisor
- slli t0, t3, 1, flags=(ECF,), dataSize=1
+ slli t0, reg, 1, flags=(ECF,), dataSize=1
# Negate the (possibly already negated) quotient
sub t4, t0, t5, dataSize=1
@@ -458,19 +456,17 @@ def macroop IDIV_B_M
sub t2, t0, ah, dataSize=1
sub t2, t2, t4
- ld t3, seg, sib, disp
+ ld t8, seg, sib, disp
#Find the sign of the divisor
- #FIXME!!! This depends on shifts setting the carry flag correctly.
slli t0, t3, 1, flags=(ECF,), dataSize=1
# Negate divisor
- sub t4, t0, t3, dataSize=1
+ sub t3, t0, t8, dataSize=1
# Put the divisor's absolute value into t3
- mov t3, t3, t4, flags=(CECF,), dataSize=1
+ mov t3, t3, t8, flags=(nCECF,), dataSize=1
#Find the sign of the dividend
- #FIXME!!! This depends on shifts setting the carry flag correctly.
slli t0, ah, 1, flags=(ECF,), dataSize=1
# Put the dividend's absolute value into t1 and t2
@@ -513,7 +509,7 @@ divLoopTop:
mov t5, t5, t4, (CECF,), dataSize=1
# Check the sign of the divisor
- slli t0, t3, 1, flags=(ECF,), dataSize=1
+ slli t0, t8, 1, flags=(ECF,), dataSize=1
# Negate the (possibly already negated) quotient
sub t4, t0, t5, dataSize=1
@@ -532,19 +528,17 @@ def macroop IDIV_B_P
sub t2, t2, t4
rdip t7
- ld t3, seg, riprel, disp
+ ld t8, seg, riprel, disp
#Find the sign of the divisor
- #FIXME!!! This depends on shifts setting the carry flag correctly.
slli t0, t3, 1, flags=(ECF,), dataSize=1
# Negate divisor
- sub t4, t0, t3, dataSize=1
+ sub t3, t0, t8, dataSize=1
# Put the divisor's absolute value into t3
- mov t3, t3, t4, flags=(CECF,), dataSize=1
+ mov t3, t3, t8, flags=(nCECF,), dataSize=1
#Find the sign of the dividend
- #FIXME!!! This depends on shifts setting the carry flag correctly.
slli t0, ah, 1, flags=(ECF,), dataSize=1
# Put the dividend's absolute value into t1 and t2
@@ -587,7 +581,7 @@ divLoopTop:
mov t5, t5, t4, (CECF,), dataSize=1
# Check the sign of the divisor
- slli t0, t3, 1, flags=(ECF,), dataSize=1
+ slli t0, t8, 1, flags=(ECF,), dataSize=1
# Negate the (possibly already negated) quotient
sub t4, t0, t5, dataSize=1
@@ -610,7 +604,6 @@ def macroop IDIV_R
sub t2, t2, t4
#Find the sign of the divisor
- #FIXME!!! This depends on shifts setting the carry flag correctly.
slli t0, reg, 1, flags=(ECF,)
# Negate divisor
@@ -619,7 +612,6 @@ def macroop IDIV_R
mov t3, t3, reg, flags=(nCECF,)
#Find the sign of the dividend
- #FIXME!!! This depends on shifts setting the carry flag correctly.
slli t0, rdx, 1, flags=(ECF,)
# Put the dividend's absolute value into t1 and t2
@@ -664,7 +656,7 @@ divLoopTop:
mov t5, t5, t4, (CECF,)
# Check the sign of the divisor
- slli t0, t3, 1, flags=(ECF,)
+ slli t0, reg, 1, flags=(ECF,)
# Negate the (possibly already negated) quotient
sub t4, t0, t5
@@ -682,16 +674,16 @@ def macroop IDIV_M
sub t2, t0, rdx
sub t2, t2, t4
- ld t3, seg, sib, disp
+ ld t8, seg, sib, disp
#Find the sign of the divisor
#FIXME!!! This depends on shifts setting the carry flag correctly.
slli t0, t3, 1, flags=(ECF,)
# Negate divisor
- sub t4, t0, t3
+ sub t3, t0, t8
# Put the divisor's absolute value into t3
- mov t3, t3, t4, flags=(CECF,)
+ mov t3, t3, t8, flags=(nCECF,)
#Find the sign of the dividend
#FIXME!!! This depends on shifts setting the carry flag correctly.
@@ -739,7 +731,7 @@ divLoopTop:
mov t5, t5, t4, (CECF,)
# Check the sign of the divisor
- slli t0, t3, 1, flags=(ECF,)
+ slli t0, t8, 1, flags=(ECF,)
# Negate the (possibly already negated) quotient
sub t4, t0, t5
@@ -758,16 +750,16 @@ def macroop IDIV_P
sub t2, t2, t4
rdip t7
- ld t3, seg, riprel, disp
+ ld t8, seg, riprel, disp
#Find the sign of the divisor
#FIXME!!! This depends on shifts setting the carry flag correctly.
slli t0, t3, 1, flags=(ECF,)
# Negate divisor
- sub t4, t0, t3
+ sub t3, t0, t8
# Put the divisor's absolute value into t3
- mov t3, t3, t4, flags=(CECF,)
+ mov t3, t3, t4, flags=(nCECF,)
#Find the sign of the dividend
#FIXME!!! This depends on shifts setting the carry flag correctly.
@@ -815,7 +807,7 @@ divLoopTop:
mov t5, t5, t4, (CECF,)
# Check the sign of the divisor
- slli t0, t3, 1, flags=(ECF,)
+ slli t0, t8, 1, flags=(ECF,)
# Negate the (possibly already negated) quotient
sub t4, t0, t5