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[09/28] target-ppc: Altivec 2.07: Change VMUL_DO to Support 64-bit Integers

Message ID 1392240199-2454-10-git-send-email-tommusta@gmail.com
State New
Headers show

Commit Message

Tom Musta Feb. 12, 2014, 9:23 p.m. UTC 
This VMUL_DO macro provides support for the various vmule* and vmulo*
instructions.  These instructions multiply vector elements, producing
products that are one size larger; e.g. vmuleub multiplies unsigned 8-bit
elements and produces a 16 bit unsigned element.

The existing macro works correctly for the existing instructions (8-bit,
and 16-bit source elements) but does not work correctly for 32-bit
source elements.

This patch adds an explicit cast to the multiplicands, forcing them to be
of the target element type.  This is required for the forthcoming patches
that add the vmul[eo][us]w instructions.

Signed-off-by: Tom Musta <tommusta@gmail.com>
---
 target-ppc/int_helper.c |   26 ++++++++++++++------------
 1 files changed, 14 insertions(+), 12 deletions(-)
diff mbox

Patch

diff --git a/target-ppc/int_helper.c b/target-ppc/int_helper.c
index 3e36c0a..20d34e6 100644
--- a/target-ppc/int_helper.c
+++ b/target-ppc/int_helper.c
@@ -983,28 +983,30 @@  void helper_vmsumuhs(CPUPPCState *env, ppc_avr_t *r, ppc_avr_t *a,
     }
 }
 
-#define VMUL_DO(name, mul_element, prod_element, evenp)                 \
+#define VMUL_DO(name, mul_element, prod_element, cast, evenp)           \
     void helper_v##name(ppc_avr_t *r, ppc_avr_t *a, ppc_avr_t *b)       \
     {                                                                   \
         int i;                                                          \
                                                                         \
         VECTOR_FOR_INORDER_I(i, prod_element) {                         \
             if (evenp) {                                                \
-                r->prod_element[i] = a->mul_element[i * 2 + HI_IDX] *   \
-                    b->mul_element[i * 2 + HI_IDX];                     \
+                r->prod_element[i] =                                    \
+                    (cast)a->mul_element[i * 2 + HI_IDX] *              \
+                    (cast)b->mul_element[i * 2 + HI_IDX];               \
             } else {                                                    \
-                r->prod_element[i] = a->mul_element[i * 2 + LO_IDX] *   \
-                    b->mul_element[i * 2 + LO_IDX];                     \
+                r->prod_element[i] =                                    \
+                    (cast)a->mul_element[i * 2 + LO_IDX] *              \
+                    (cast)b->mul_element[i * 2 + LO_IDX];               \
             }                                                           \
         }                                                               \
     }
-#define VMUL(suffix, mul_element, prod_element)         \
-    VMUL_DO(mule##suffix, mul_element, prod_element, 1) \
-    VMUL_DO(mulo##suffix, mul_element, prod_element, 0)
-VMUL(sb, s8, s16)
-VMUL(sh, s16, s32)
-VMUL(ub, u8, u16)
-VMUL(uh, u16, u32)
+#define VMUL(suffix, mul_element, prod_element, cast)            \
+    VMUL_DO(mule##suffix, mul_element, prod_element, cast, 1)    \
+    VMUL_DO(mulo##suffix, mul_element, prod_element, cast, 0)
+VMUL(sb, s8, s16, int16_t)
+VMUL(sh, s16, s32, int32_t)
+VMUL(ub, u8, u16, uint16_t)
+VMUL(uh, u16, u32, uint32_t)
 #undef VMUL_DO
 #undef VMUL