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authorTom Musta <tommusta@gmail.com>2014-03-31 16:04:02 -0500
committerAlexander Graf <agraf@suse.de>2014-04-08 11:20:03 +0200
commitd1dec5ef550802f76ffb8cdec50e6d50467e877e (patch)
treeeee614496179cfa6c117ed9486b38f6a814f6997 /target-ppc
parent6bbad7a91efe49b080391a45bc6305449050465a (diff)
downloadqemu-arm-d1dec5ef550802f76ffb8cdec50e6d50467e877e.tar.gz
target-ppc: Correct VSX FP to Integer Conversion
This patch corrects the VSX floating point to integer conversion instructions by using the endian correct accessors. The auxiliary "j" index used by the existing macros is now obsolete and is removed. Signed-off-by: Tom Musta <tommusta@gmail.com> Tested-by: Tom Musta <tommusta@gmail.com> Signed-off-by: Alexander Graf <agraf@suse.de>
Diffstat (limited to 'target-ppc')
-rw-r--r--target-ppc/fpu_helper.c36
1 files changed, 15 insertions, 21 deletions
diff --git a/target-ppc/fpu_helper.c b/target-ppc/fpu_helper.c
index 12bec903b9..abba703752 100644
--- a/target-ppc/fpu_helper.c
+++ b/target-ppc/fpu_helper.c
@@ -2555,10 +2555,9 @@ uint64_t helper_xscvspdpn(CPUPPCState *env, uint64_t xb)
* ttp - target type (int32, uint32, int64 or uint64)
* sfld - source vsr_t field
* tfld - target vsr_t field
- * jdef - definition of the j index (i or 2*i)
* rnan - resulting NaN
*/
-#define VSX_CVT_FP_TO_INT(op, nels, stp, ttp, sfld, tfld, jdef, rnan) \
+#define VSX_CVT_FP_TO_INT(op, nels, stp, ttp, sfld, tfld, rnan) \
void helper_##op(CPUPPCState *env, uint32_t opcode) \
{ \
ppc_vsr_t xt, xb; \
@@ -2568,7 +2567,6 @@ void helper_##op(CPUPPCState *env, uint32_t opcode) \
getVSR(xT(opcode), &xt, env); \
\
for (i = 0; i < nels; i++) { \
- int j = jdef; \
if (unlikely(stp##_is_any_nan(xb.sfld))) { \
if (stp##_is_signaling_nan(xb.sfld)) { \
fload_invalid_op_excp(env, POWERPC_EXCP_FP_VXSNAN, 0); \
@@ -2588,27 +2586,23 @@ void helper_##op(CPUPPCState *env, uint32_t opcode) \
helper_float_check_status(env); \
}
-VSX_CVT_FP_TO_INT(xscvdpsxds, 1, float64, int64, f64[j], u64[i], i, \
+VSX_CVT_FP_TO_INT(xscvdpsxds, 1, float64, int64, VsrD(0), VsrD(0), \
0x8000000000000000ULL)
-VSX_CVT_FP_TO_INT(xscvdpsxws, 1, float64, int32, f64[i], u32[j], \
- 2*i + JOFFSET, 0x80000000U)
-VSX_CVT_FP_TO_INT(xscvdpuxds, 1, float64, uint64, f64[j], u64[i], i, 0ULL)
-VSX_CVT_FP_TO_INT(xscvdpuxws, 1, float64, uint32, f64[i], u32[j], \
- 2*i + JOFFSET, 0U)
-VSX_CVT_FP_TO_INT(xvcvdpsxds, 2, float64, int64, f64[j], u64[i], i, \
+VSX_CVT_FP_TO_INT(xscvdpsxws, 1, float64, int32, VsrD(0), VsrW(1), \
+ 0x80000000U)
+VSX_CVT_FP_TO_INT(xscvdpuxds, 1, float64, uint64, VsrD(0), VsrD(0), 0ULL)
+VSX_CVT_FP_TO_INT(xscvdpuxws, 1, float64, uint32, VsrD(0), VsrW(1), 0U)
+VSX_CVT_FP_TO_INT(xvcvdpsxds, 2, float64, int64, VsrD(i), VsrD(i), \
0x8000000000000000ULL)
-VSX_CVT_FP_TO_INT(xvcvdpsxws, 2, float64, int32, f64[i], u32[j], \
- 2*i + JOFFSET, 0x80000000U)
-VSX_CVT_FP_TO_INT(xvcvdpuxds, 2, float64, uint64, f64[j], u64[i], i, 0ULL)
-VSX_CVT_FP_TO_INT(xvcvdpuxws, 2, float64, uint32, f64[i], u32[j], \
- 2*i + JOFFSET, 0U)
-VSX_CVT_FP_TO_INT(xvcvspsxds, 2, float32, int64, f32[j], u64[i], \
- 2*i + JOFFSET, 0x8000000000000000ULL)
-VSX_CVT_FP_TO_INT(xvcvspsxws, 4, float32, int32, f32[j], u32[j], i, \
+VSX_CVT_FP_TO_INT(xvcvdpsxws, 2, float64, int32, VsrD(i), VsrW(2*i), \
0x80000000U)
-VSX_CVT_FP_TO_INT(xvcvspuxds, 2, float32, uint64, f32[j], u64[i], \
- 2*i + JOFFSET, 0ULL)
-VSX_CVT_FP_TO_INT(xvcvspuxws, 4, float32, uint32, f32[j], u32[i], i, 0U)
+VSX_CVT_FP_TO_INT(xvcvdpuxds, 2, float64, uint64, VsrD(i), VsrD(i), 0ULL)
+VSX_CVT_FP_TO_INT(xvcvdpuxws, 2, float64, uint32, VsrD(i), VsrW(2*i), 0U)
+VSX_CVT_FP_TO_INT(xvcvspsxds, 2, float32, int64, VsrW(2*i), VsrD(i), \
+ 0x8000000000000000ULL)
+VSX_CVT_FP_TO_INT(xvcvspsxws, 4, float32, int32, VsrW(i), VsrW(i), 0x80000000U)
+VSX_CVT_FP_TO_INT(xvcvspuxds, 2, float32, uint64, VsrW(2*i), VsrD(i), 0ULL)
+VSX_CVT_FP_TO_INT(xvcvspuxws, 4, float32, uint32, VsrW(i), VsrW(i), 0U)
/* VSX_CVT_INT_TO_FP - VSX integer to floating point conversion
* op - instruction mnemonic