[Nouveau] [PATCH v5] nv50/ir: Handle OP_CVT when folding constant expressions

Sat Jul 5 18:52:52 PDT 2014

Folding for conversions: F32/64->(U16/32, S16/32) and (U16/32, S16/32)->F32
No piglit regressions observed on nv50 and nvc0!

Signed-off-by: Tobias Klausmann <tobias.johannes.klausmann at mni.thm.de>
---
V2: fix usage of wrong variable
V3: enable F64 support
V4: 
 - disable F64 support again
 - handle saturate flag: clamp to min/max if needed
V5: clamp before rounding to nearest uint/int

 .../drivers/nouveau/codegen/nv50_ir_peephole.cpp   | 121 +++++++++++++++++++++
 1 file changed, 121 insertions(+)

diff --git a/src/gallium/drivers/nouveau/codegen/nv50_ir_peephole.cpp b/src/gallium/drivers/nouveau/codegen/nv50_ir_peephole.cpp
index b89da43..c162ac4 100644
--- a/src/gallium/drivers/nouveau/codegen/nv50_ir_peephole.cpp
+++ b/src/gallium/drivers/nouveau/codegen/nv50_ir_peephole.cpp
@@ -970,6 +970,127 @@ ConstantFolding::opnd(Instruction *i, ImmediateValue &imm0, int s)
       i->op = OP_MOV;
       break;
    }
+   case OP_CVT: {
+      Storage res;
+      bld.setPosition(i, true); /* make sure bld is init'ed */
+      switch(i->dType) {
+      case TYPE_U16:
+         switch (i->sType) {
+         case TYPE_F32:
+            if (i->saturate)
+               res.data.u16 = util_iround(CLAMP(imm0.reg.data.f32, 0,
+                                                UINT16_MAX));
+            else
+               res.data.u16 = util_iround(imm0.reg.data.f32);
+            break;
+         case TYPE_F64:
+            if (i->saturate)
+               res.data.u16 = util_iround(CLAMP(imm0.reg.data.f64, 0,
+                                                UINT16_MAX));
+            else
+               res.data.u16 = util_iround(imm0.reg.data.f64);
+            break;
+         default:
+            return;
+         }
+         i->setSrc(0, bld.mkImm(res.data.u16));
+         break;
+      case TYPE_U32:
+         switch (i->sType) {
+         case TYPE_F32:
+            if (i->saturate)
+               res.data.u32 = util_iround(CLAMP(imm0.reg.data.f32, 0,
+                                                UINT32_MAX));
+            else
+               res.data.u32 = util_iround(imm0.reg.data.f32);
+            break;
+         case TYPE_F64:
+            if (i->saturate)
+               res.data.u32 = util_iround(CLAMP(imm0.reg.data.f64, 0,
+                                                UINT32_MAX));
+            else
+               res.data.u32 = util_iround(imm0.reg.data.f64);
+         break;
+         default:
+            return;
+         }
+         i->setSrc(0, bld.mkImm(res.data.u32));
+         break;
+      case TYPE_S16:
+         switch (i->sType) {
+         case TYPE_F32:
+            if (i->saturate)
+               res.data.s16 = util_iround(CLAMP(imm0.reg.data.f32, INT16_MIN,
+                                                INT16_MAX));
+            else
+               res.data.s16 = util_iround(imm0.reg.data.f32);
+            break;
+         case TYPE_F64:
+            if (i->saturate)
+               res.data.s16 = util_iround(CLAMP(imm0.reg.data.f64, INT16_MIN,
+                                                INT16_MAX));
+            else
+               res.data.s16 = util_iround(imm0.reg.data.f64);
+         break;
+         default:
+            return;
+         }
+         i->setSrc(0, bld.mkImm(res.data.s16));
+         break;
+      case TYPE_S32:
+         switch (i->sType) {
+         case TYPE_F32:
+            if (i->saturate)
+               res.data.s32 = util_iround(CLAMP(imm0.reg.data.f32, INT32_MIN,
+                                               INT32_MAX));
+            else
+               res.data.s32 = util_iround(imm0.reg.data.f32);
+            break;
+         case TYPE_F64:
+            if (i->saturate)
+               res.data.s32 = util_iround(CLAMP(imm0.reg.data.f64, INT32_MIN,
+                                               INT32_MAX));
+            else
+               res.data.s32 = util_iround(imm0.reg.data.f64);
+            break;
+         default:
+            return;
+         }
+         i->setSrc(0, bld.mkImm(res.data.s32));
+         break;
+      case TYPE_F32:
+         switch (i->sType) {
+         case TYPE_U16: res.data.f32 = (float) imm0.reg.data.u16; break;
+         case TYPE_U32: res.data.f32 = (float) imm0.reg.data.u32; break;
+         case TYPE_S16: res.data.f32 = (float) imm0.reg.data.s16; break;
+         case TYPE_S32: res.data.f32 = (float) imm0.reg.data.s32; break;
+         default:
+            return;
+         }
+         i->setSrc(0, bld.mkImm(res.data.f32));
+         break;
+      /* TODO: Check if this works, after F64 support is available */
+      /*case TYPE_F64:
+         switch (i->sType) {
+         case TYPE_U16: res.data.f64 = (double) imm0.reg.data.u16; break;
+         case TYPE_U32: res.data.f64 = (double) imm0.reg.data.u32; break;
+         case TYPE_S16: res.data.f64 = (double) imm0.reg.data.s16; break;
+         case TYPE_S32: res.data.f64 = (double) imm0.reg.data.s32; break;
+         default:
+            return;
+         }
+         i->setSrc(0, bld.mkImm(res.data.f64));
+         break;*/
+      default:
+         return;
+      }
+      i->setType(i->dType); /* Remove i->sType, which we don't need anymore */
+      i->setSrc(1, NULL);
+      i->op = OP_MOV;
+
+      i->src(0).mod = Modifier(0); /* Clear the already applied modifier */
+      break;
+   }
    default:
       return;
    }
-- 
1.8.4.5

