[mlir][emitc] Set default dialect to emitc in ops with block

mlir/include/mlir/Dialect/EmitC/IR/EmitC.td

@@ -386,8 +386,8 @@ def EmitC_DivOp : EmitC_BinaryOp<"div", [CExpression]> {
 }
 
 def EmitC_ExpressionOp : EmitC_Op<"expression",
-      [HasOnlyGraphRegion, SingleBlockImplicitTerminator<"emitc::YieldOp">,
-       NoRegionArguments]> {
+      [HasOnlyGraphRegion, OpAsmOpInterface,
+       SingleBlockImplicitTerminator<"emitc::YieldOp">, NoRegionArguments]> {
   let summary = "Expression operation";
   let description = [{
     The `emitc.expression` operation returns a single SSA value which is yielded by
@@ -453,12 +453,21 @@ def EmitC_ExpressionOp : EmitC_Op<"expression",
       return llvm::any_of(getRegion().front().without_terminator(), predicate);
     };
     Operation *getRootOp();
+
+    //===------------------------------------------------------------------===//
+    // OpAsmOpInterface Methods
+    //===------------------------------------------------------------------===//
+
+    /// EmitC ops in the body can omit their 'emitc.' prefix in the assembly.
+    static ::llvm::StringRef getDefaultDialect() {
+      return "emitc";
+    }
   }];
 }
 
 def EmitC_ForOp : EmitC_Op<"for",
       [AllTypesMatch<["lowerBound", "upperBound", "step"]>,
-       SingleBlockImplicitTerminator<"emitc::YieldOp">,
+       OpAsmOpInterface, SingleBlockImplicitTerminator<"emitc::YieldOp">,
        RecursiveMemoryEffects]> {
   let summary = "For operation";
   let description = [{
@@ -510,6 +519,15 @@ def EmitC_ForOp : EmitC_Op<"for",
     void setLowerBound(Value bound) { getOperation()->setOperand(0, bound); }
     void setUpperBound(Value bound) { getOperation()->setOperand(1, bound); }
     void setStep(Value step) { getOperation()->setOperand(2, step); }
+
+    //===------------------------------------------------------------------===//
+    // OpAsmOpInterface Methods
+    //===------------------------------------------------------------------===//
+
+    /// EmitC ops in the body can omit their 'emitc.' prefix in the assembly.
+    static ::llvm::StringRef getDefaultDialect() {
+      return "emitc";
+    }
   }];
 
   let hasCanonicalizer = 1;
@@ -1257,7 +1275,7 @@ def EmitC_YieldOp : EmitC_Op<"yield",
 def EmitC_IfOp : EmitC_Op<"if",
     [DeclareOpInterfaceMethods<RegionBranchOpInterface, [
     "getNumRegionInvocations", "getRegionInvocationBounds",
-    "getEntrySuccessorRegions"]>, SingleBlock,
+    "getEntrySuccessorRegions"]>, OpAsmOpInterface, SingleBlock,
     SingleBlockImplicitTerminator<"emitc::YieldOp">,
     RecursiveMemoryEffects, NoRegionArguments]> {
   let summary = "If-then-else operation";
@@ -1305,6 +1323,15 @@ def EmitC_IfOp : EmitC_Op<"if",
       Block* body = getBody(1);
       return OpBuilder::atBlockEnd(body, listener);
     }
+
+    //===------------------------------------------------------------------===//
+    // OpAsmOpInterface Methods
+    //===------------------------------------------------------------------===//
+
+    /// EmitC ops in the body can omit their 'emitc.' prefix in the assembly.
+    static ::llvm::StringRef getDefaultDialect() {
+      return "emitc";
+    }
   }];
   let hasCustomAssemblyFormat = 1;
 }
@@ -1360,7 +1387,7 @@ def EmitC_SubscriptOp : EmitC_Op<"subscript", []> {
 }
 
 def EmitC_SwitchOp : EmitC_Op<"switch", [RecursiveMemoryEffects,
-    SingleBlockImplicitTerminator<"emitc::YieldOp">,
+    OpAsmOpInterface, SingleBlockImplicitTerminator<"emitc::YieldOp">,
     DeclareOpInterfaceMethods<RegionBranchOpInterface,
                               ["getRegionInvocationBounds",
                                "getEntrySuccessorRegions"]>]> {
@@ -1438,6 +1465,15 @@ def EmitC_SwitchOp : EmitC_Op<"switch", [RecursiveMemoryEffects,
 
     /// Get the body of a case region.
     Block &getCaseBlock(unsigned idx);
+
+    //===------------------------------------------------------------------===//
+    // OpAsmOpInterface Methods
+    //===------------------------------------------------------------------===//
+
+    /// EmitC ops in the body can omit their 'emitc.' prefix in the assembly.
+    static ::llvm::StringRef getDefaultDialect() {
+      return "emitc";
+    }
   }];
 
   let hasVerifier = 1;

mlir/test/Conversion/ArithToEmitC/arith-to-emitc.mlir

@@ -152,11 +152,12 @@ func.func @arith_shift_left(%arg0: i32, %arg1: i32) {
   // CHECK-DAG: %[[SizeConstant:[^ ]*]] = "emitc.constant"{{.*}}value = 32
   // CHECK-DAG: %[[CmpNoExcess:[^ ]*]] = emitc.cmp lt, %[[C2]], %[[SizeConstant]] : (ui32, ui32) -> i1
   // CHECK-DAG: %[[Zero:[^ ]*]] = "emitc.constant"{{.*}}value = 0
-  // CHECK: %[[ShiftRes:[^ ]*]] = emitc.expression : ui32
-  // CHECK: %[[SHL:[^ ]*]] = emitc.bitwise_left_shift %[[C1]], %[[C2]] : (ui32, ui32) -> ui32
-  // CHECK: %[[Ternary:[^ ]*]] = emitc.conditional %[[CmpNoExcess]], %[[SHL]], %[[Zero]] : ui32
-  // CHECK: emitc.yield %[[Ternary]] : ui32
-  // CHECK: emitc.cast %[[ShiftRes]] : ui32 to i32
+  // CHECK:      %[[ShiftRes:[^ ]*]] = emitc.expression : ui32 {
+  // CHECK-NEXT:   %[[SHL:[^ ]*]] = bitwise_left_shift %[[C1]], %[[C2]] : (ui32, ui32) -> ui32
+  // CHECK-NEXT:   %[[Ternary:[^ ]*]] = conditional %[[CmpNoExcess]], %[[SHL]], %[[Zero]] : ui32
+  // CHECK-NEXT:   yield %[[Ternary]] : ui32
+  // CHECK-NEXT: }
+  // CHECK-NEXT: emitc.cast %[[ShiftRes]] : ui32 to i32
   %1 = arith.shli %arg0, %arg1 : i32
   return
 }
@@ -171,21 +172,23 @@ func.func @arith_shift_right(%arg0: i32, %arg1: i32) {
   // CHECK-DAG: %[[SizeConstant:[^ ]*]] = "emitc.constant"{{.*}}value = 32{{.*}}ui32
   // CHECK-DAG: %[[CmpNoExcess:[^ ]*]] = emitc.cmp lt, %[[C2]], %[[SizeConstant]] : (ui32, ui32) -> i1
   // CHECK-DAG: %[[Zero:[^ ]*]] = "emitc.constant"{{.*}}value = 0{{.*}}ui32
-  // CHECK: %[[ShiftRes:[^ ]*]] = emitc.expression : ui32
-  // CHECK: %[[SHR:[^ ]*]] = emitc.bitwise_right_shift %[[C1]], %[[C2]] : (ui32, ui32) -> ui32
-  // CHECK: %[[Ternary:[^ ]*]] = emitc.conditional %[[CmpNoExcess]], %[[SHR]], %[[Zero]] : ui32
-  // CHECK: emitc.yield %[[Ternary]] : ui32
-  // CHECK: emitc.cast %[[ShiftRes]] : ui32 to i32
+  // CHECK:      %[[ShiftRes:[^ ]*]] = emitc.expression : ui32 {
+  // CHECK-NEXT:   %[[SHR:[^ ]*]] = bitwise_right_shift %[[C1]], %[[C2]] : (ui32, ui32) -> ui32
+  // CHECK-NEXT:   %[[Ternary:[^ ]*]] = conditional %[[CmpNoExcess]], %[[SHR]], %[[Zero]] : ui32
+  // CHECK-NEXT:   yield %[[Ternary]] : ui32
+  // CHECK-NEXT: }
+  // CHECK-NEXT: emitc.cast %[[ShiftRes]] : ui32 to i32
   %2 = arith.shrui %arg0, %arg1 : i32
 
   // CHECK-DAG: %[[SC2:[^ ]*]] = emitc.cast %[[ARG1]] : i32 to ui32
   // CHECK-DAG: %[[SSizeConstant:[^ ]*]] = "emitc.constant"{{.*}}value = 32{{.*}}ui32
   // CHECK-DAG: %[[SCmpNoExcess:[^ ]*]] = emitc.cmp lt, %[[SC2]], %[[SSizeConstant]] : (ui32, ui32) -> i1
   // CHECK-DAG: %[[SZero:[^ ]*]] = "emitc.constant"{{.*}}value = 0{{.*}}i32
-  // CHECK: %[[SShiftRes:[^ ]*]] = emitc.expression : i32
-  // CHECK: %[[SHRSI:[^ ]*]] = emitc.bitwise_right_shift %[[ARG0]], %[[SC2]] : (i32, ui32) -> i32
-  // CHECK: %[[STernary:[^ ]*]] = emitc.conditional %[[SCmpNoExcess]], %[[SHRSI]], %[[SZero]] : i32
-  // CHECK: emitc.yield %[[STernary]] : i32
+  // CHECK:      %[[SShiftRes:[^ ]*]] = emitc.expression : i32 {
+  // CHECK-NEXT:   %[[SHRSI:[^ ]*]] = bitwise_right_shift %[[ARG0]], %[[SC2]] : (i32, ui32) -> i32
+  // CHECK-NEXT:   %[[STernary:[^ ]*]] = conditional %[[SCmpNoExcess]], %[[SHRSI]], %[[SZero]] : i32
+  // CHECK-NEXT:   yield %[[STernary]] : i32
+  // CHECK-NEXT: }
   %3 = arith.shrsi %arg0, %arg1 : i32
 
   return
@@ -206,10 +209,11 @@ func.func @arith_shift_left_index(%amount: i32) {
   // CHECK-DAG: %[[SizeConstant:[^ ]*]] = emitc.mul %[[Byte]], %[[SizeOf]] : (!emitc.size_t, !emitc.size_t) -> !emitc.size_t
   // CHECK-DAG: %[[CmpNoExcess:[^ ]*]] = emitc.cmp lt, %[[AmountIdx]], %[[SizeConstant]] : (!emitc.size_t, !emitc.size_t) -> i1
   // CHECK-DAG: %[[Zero:[^ ]*]] = "emitc.constant"{{.*}}value = 0
-  // CHECK: %[[ShiftRes:[^ ]*]] = emitc.expression : !emitc.size_t
-  // CHECK: %[[SHL:[^ ]*]] = emitc.bitwise_left_shift %[[C1]], %[[AmountIdx]] : (!emitc.size_t, !emitc.size_t) -> !emitc.size_t
-  // CHECK: %[[Ternary:[^ ]*]] = emitc.conditional %[[CmpNoExcess]], %[[SHL]], %[[Zero]] : !emitc.size_t
-  // CHECK: emitc.yield %[[Ternary]] : !emitc.size_t
+  // CHECK:      %[[ShiftRes:[^ ]*]] = emitc.expression : !emitc.size_t {
+  // CHECK-NEXT:   %[[SHL:[^ ]*]] = bitwise_left_shift %[[C1]], %[[AmountIdx]] : (!emitc.size_t, !emitc.size_t) -> !emitc.size_t
+  // CHECK-NEXT:   %[[Ternary:[^ ]*]] = conditional %[[CmpNoExcess]], %[[SHL]], %[[Zero]] : !emitc.size_t
+  // CHECK-NEXT:   yield %[[Ternary]] : !emitc.size_t
+  // CHECK-NEXT: }
   %1 = arith.shli %cst0, %cast1 : index
   return
 }
@@ -230,10 +234,11 @@ func.func @arith_shift_right_index(%amount: i32) {
   // CHECK-DAG: %[[SizeConstant:[^ ]*]] = emitc.mul %[[Byte]], %[[SizeOf]] : (!emitc.size_t, !emitc.size_t) -> !emitc.size_t
   // CHECK-DAG: %[[CmpNoExcess:[^ ]*]] = emitc.cmp lt, %[[AmountIdx]], %[[SizeConstant]] : (!emitc.size_t, !emitc.size_t) -> i1
   // CHECK-DAG: %[[Zero:[^ ]*]] = "emitc.constant"{{.*}}value = 0{{.*}}!emitc.size_t
-  // CHECK: %[[ShiftRes:[^ ]*]] = emitc.expression : !emitc.size_t
-  // CHECK: %[[SHR:[^ ]*]] = emitc.bitwise_right_shift %[[C1]], %[[AmountIdx]] : (!emitc.size_t, !emitc.size_t) -> !emitc.size_t
-  // CHECK: %[[Ternary:[^ ]*]] = emitc.conditional %[[CmpNoExcess]], %[[SHR]], %[[Zero]] : !emitc.size_t
-  // CHECK: emitc.yield %[[Ternary]] : !emitc.size_t
+  // CHECK:      %[[ShiftRes:[^ ]*]] = emitc.expression : !emitc.size_t {
+  // CHECK-NEXT:   %[[SHR:[^ ]*]] = bitwise_right_shift %[[C1]], %[[AmountIdx]] : (!emitc.size_t, !emitc.size_t) -> !emitc.size_t
+  // CHECK-NEXT:   %[[Ternary:[^ ]*]] = conditional %[[CmpNoExcess]], %[[SHR]], %[[Zero]] : !emitc.size_t
+  // CHECK-NEXT:   yield %[[Ternary]] : !emitc.size_t
+  // CHECK-NEXT: }
   %2 = arith.shrui %arg0, %arg1 : index
 
   // CHECK-DAG: %[[SC1:[^ ]*]] = emitc.cast %[[C1]] : !emitc.size_t to !emitc.ptrdiff_t
@@ -242,11 +247,12 @@ func.func @arith_shift_right_index(%amount: i32) {
   // CHECK-DAG: %[[SSizeConstant:[^ ]*]] = emitc.mul %[[SByte]], %[[SSizeOf]] : (!emitc.size_t, !emitc.size_t) -> !emitc.size_t
   // CHECK-DAG: %[[SCmpNoExcess:[^ ]*]] = emitc.cmp lt, %[[AmountIdx]], %[[SSizeConstant]] : (!emitc.size_t, !emitc.size_t) -> i1
   // CHECK-DAG: %[[SZero:[^ ]*]] = "emitc.constant"{{.*}}value = 0{{.*}}!emitc.ptrdiff_t
-  // CHECK: %[[SShiftRes:[^ ]*]] = emitc.expression : !emitc.ptrdiff_t
-  // CHECK: %[[SHRSI:[^ ]*]] = emitc.bitwise_right_shift %[[SC1]], %[[AmountIdx]] : (!emitc.ptrdiff_t, !emitc.size_t) -> !emitc.ptrdiff_t
-  // CHECK: %[[STernary:[^ ]*]] = emitc.conditional %[[SCmpNoExcess]], %[[SHRSI]], %[[SZero]] : !emitc.ptrdiff_t
-  // CHECK: emitc.yield %[[STernary]] : !emitc.ptrdiff_t
-  // CHECK: emitc.cast %[[SShiftRes]] : !emitc.ptrdiff_t to !emitc.size_t
+  // CHECK:      %[[SShiftRes:[^ ]*]] = emitc.expression : !emitc.ptrdiff_t {
+  // CHECK-NEXT:   %[[SHRSI:[^ ]*]] = bitwise_right_shift %[[SC1]], %[[AmountIdx]] : (!emitc.ptrdiff_t, !emitc.size_t) -> !emitc.ptrdiff_t
+  // CHECK-NEXT:   %[[STernary:[^ ]*]] = conditional %[[SCmpNoExcess]], %[[SHRSI]], %[[SZero]] : !emitc.ptrdiff_t
+  // CHECK-NEXT:   yield %[[STernary]] : !emitc.ptrdiff_t
+  // CHECK-NEXT: }
+  // CHECK-NEXT: emitc.cast %[[SShiftRes]] : !emitc.ptrdiff_t to !emitc.size_t
   %3 = arith.shrsi %arg0, %arg1 : index
 
   return

mlir/test/Conversion/SCFToEmitC/for.mlir

@@ -33,7 +33,7 @@ func.func @simple_std_2_for_loops(%arg0 : index, %arg1 : index, %arg2 : index) {
 // CHECK-NEXT:    %[[VAL_0:.*]] = builtin.unrealized_conversion_cast %[[ARG_0]] : index to !emitc.size_t
 // CHECK-NEXT:    emitc.for %[[VAL_3:.*]] = %[[VAL_0]] to %[[VAL_1]] step %[[VAL_2]] : !emitc.size_t {
 // CHECK-NEXT:      %[[VAL_4:.*]] = arith.constant 1 : index
-// CHECK-NEXT:      emitc.for %[[VAL_5:.*]] = %[[VAL_0]] to %[[VAL_1]] step %[[VAL_2]] : !emitc.size_t {
+// CHECK-NEXT:      for %[[VAL_5:.*]] = %[[VAL_0]] to %[[VAL_1]] step %[[VAL_2]] : !emitc.size_t {
 // CHECK-NEXT:        %[[VAL_6:.*]] = arith.constant 1 : index
 // CHECK-NEXT:      }
 // CHECK-NEXT:    }
@@ -61,11 +61,11 @@ func.func @for_yield(%arg0 : index, %arg1 : index, %arg2 : index) -> (f32, f32)
 // CHECK-NEXT:    emitc.assign %[[VAL_3]] : f32 to %[[VAL_5]] : <f32>
 // CHECK-NEXT:    emitc.assign %[[VAL_4]] : f32 to %[[VAL_6]] : <f32>
 // CHECK-NEXT:    emitc.for %[[VAL_7:.*]] = %[[VAL_0]] to %[[VAL_1]] step %[[VAL_2]] : !emitc.size_t {
-// CHECK-NEXT:      %[[VAL_8:.*]] = emitc.load %[[VAL_5]] : <f32>
-// CHECK-NEXT:      %[[VAL_9:.*]] = emitc.load %[[VAL_6]] : <f32>
+// CHECK-NEXT:      %[[VAL_8:.*]] = load %[[VAL_5]] : <f32>
+// CHECK-NEXT:      %[[VAL_9:.*]] = load %[[VAL_6]] : <f32>
 // CHECK-NEXT:      %[[VAL_10:.*]] = arith.addf %[[VAL_8]], %[[VAL_9]] : f32
-// CHECK-NEXT:      emitc.assign %[[VAL_10]] : f32 to %[[VAL_5]] : <f32>
-// CHECK-NEXT:      emitc.assign %[[VAL_10]] : f32 to %[[VAL_6]] : <f32>
+// CHECK-NEXT:      assign %[[VAL_10]] : f32 to %[[VAL_5]] : <f32>
+// CHECK-NEXT:      assign %[[VAL_10]] : f32 to %[[VAL_6]] : <f32>
 // CHECK-NEXT:    }
 // CHECK-NEXT:    %[[VAL_11:.*]] = emitc.load %[[VAL_5]] : <f32>
 // CHECK-NEXT:    %[[VAL_12:.*]] = emitc.load %[[VAL_6]] : <f32>
@@ -92,16 +92,16 @@ func.func @nested_for_yield(%arg0 : index, %arg1 : index, %arg2 : index) -> f32
 // CHECK-NEXT:    %[[VAL_4:.*]] = "emitc.variable"() <{value = #emitc.opaque<"">}> : () -> !emitc.lvalue<f32>
 // CHECK-NEXT:    emitc.assign %[[VAL_3]] : f32 to %[[VAL_4]] : <f32>
 // CHECK-NEXT:    emitc.for %[[VAL_5:.*]] = %[[VAL_0]] to %[[VAL_1]] step %[[VAL_2]] : !emitc.size_t {
-// CHECK-NEXT:      %[[VAL_6:.*]] = emitc.load %[[VAL_4]] : <f32>
+// CHECK-NEXT:      %[[VAL_6:.*]] = load %[[VAL_4]] : <f32>
 // CHECK-NEXT:      %[[VAL_7:.*]] = "emitc.variable"() <{value = #emitc.opaque<"">}> : () -> !emitc.lvalue<f32>
-// CHECK-NEXT:      emitc.assign %[[VAL_6]] : f32 to %[[VAL_7]] : <f32>
-// CHECK-NEXT:      emitc.for %[[VAL_8:.*]] = %[[VAL_0]] to %[[VAL_1]] step %[[VAL_2]] : !emitc.size_t {
-// CHECK-NEXT:        %[[VAL_9:.*]] = emitc.load %[[VAL_7]] : <f32>  
+// CHECK-NEXT:      assign %[[VAL_6]] : f32 to %[[VAL_7]] : <f32>
+// CHECK-NEXT:      for %[[VAL_8:.*]] = %[[VAL_0]] to %[[VAL_1]] step %[[VAL_2]] : !emitc.size_t {
+// CHECK-NEXT:        %[[VAL_9:.*]] = load %[[VAL_7]] : <f32>  
 // CHECK-NEXT:        %[[VAL_10:.*]] = arith.addf %[[VAL_9]], %[[VAL_9]] : f32
-// CHECK-NEXT:        emitc.assign %[[VAL_10]] : f32 to %[[VAL_7]] : <f32>
+// CHECK-NEXT:        assign %[[VAL_10]] : f32 to %[[VAL_7]] : <f32>
 // CHECK-NEXT:      }
-// CHECK-NEXT:      %[[VAL_11:.*]] = emitc.load %[[VAL_7]] : <f32>  
-// CHECK-NEXT:      emitc.assign %[[VAL_11]] : f32 to %[[VAL_4]] : <f32>
+// CHECK-NEXT:      %[[VAL_11:.*]] = load %[[VAL_7]] : <f32>  
+// CHECK-NEXT:      assign %[[VAL_11]] : f32 to %[[VAL_4]] : <f32>
 // CHECK-NEXT:    }
 // CHECK-NEXT:    %[[VAL_12:.*]] = emitc.load %[[VAL_4]] : <f32>  
 // CHECK-NEXT:    return %[[VAL_12]] : f32
@@ -125,8 +125,8 @@ func.func @for_yield_index(%arg0 : index, %arg1 : index, %arg2 : index) -> index
 // CHECK:     %[[VAL_4:.*]] = "emitc.variable"() <{value = #emitc.opaque<"">}> : () -> !emitc.lvalue<!emitc.size_t>
 // CHECK:     emitc.assign %[[VAL_3]] : !emitc.size_t to %[[VAL_4]] : <!emitc.size_t>
 // CHECK:     emitc.for %[[VAL_5:.*]] = %[[VAL_2]] to %[[VAL_1]] step %[[VAL_0]] : !emitc.size_t {
-// CHECK:       %[[V:.*]] = emitc.load %[[VAL_4]] : <!emitc.size_t>
-// CHECK:       emitc.assign %[[V]] : !emitc.size_t to %[[VAL_4]] : <!emitc.size_t>
+// CHECK:       %[[V:.*]] = load %[[VAL_4]] : <!emitc.size_t>
+// CHECK:       assign %[[V]] : !emitc.size_t to %[[VAL_4]] : <!emitc.size_t>
 // CHECK:     }
 // CHECK:     %[[V2:.*]] = emitc.load %[[VAL_4]] : <!emitc.size_t>
 // CHECK:     %[[VAL_8:.*]] = builtin.unrealized_conversion_cast %[[V2]] : !emitc.size_t to index
@@ -153,11 +153,11 @@ func.func @for_yield_update_loop_carried_var(%arg0 : index, %arg1 : index, %arg2
 // CHECK:   %[[VAL_4:.*]] = "emitc.variable"() <{value = #emitc.opaque<"">}> : () -> !emitc.lvalue<!emitc.size_t>
 // CHECK:   emitc.assign %[[VAL_3]] : !emitc.size_t to %[[VAL_4]] : <!emitc.size_t>
 // CHECK:   emitc.for %[[ARG_3:.*]] = %[[VAL_2]] to %[[VAL_1]] step %[[VAL_0]] : !emitc.size_t {
-// CHECK:     %[[V:.*]] = emitc.load %[[VAL_4]] : <!emitc.size_t>
+// CHECK:     %[[V:.*]] = load %[[VAL_4]] : <!emitc.size_t>
 // CHECK:     %[[VAL_5:.*]] = builtin.unrealized_conversion_cast %[[V]] : !emitc.size_t to index
 // CHECK:     %[[VAL_6:.*]] = arith.addi %[[VAL_5]], %[[VAL_5]] : index
 // CHECK:     %[[VAL_8:.*]] = builtin.unrealized_conversion_cast %[[VAL_6]] : index to !emitc.size_t
-// CHECK:     emitc.assign %[[VAL_8]] : !emitc.size_t to %[[VAL_4]] : <!emitc.size_t>
+// CHECK:     assign %[[VAL_8]] : !emitc.size_t to %[[VAL_4]] : <!emitc.size_t>
 // CHECK:   }
 // CHECK:   %[[V2:.*]] = emitc.load %[[VAL_4]] : <!emitc.size_t>
 // CHECK:   %[[VAL_9:.*]] = builtin.unrealized_conversion_cast %[[V2]] : !emitc.size_t to index

mlir/test/Conversion/SCFToEmitC/if.mlir

@@ -10,7 +10,7 @@ func.func @test_if(%arg0: i1, %arg1: f32) {
 // CHECK-SAME:                     %[[VAL_0:.*]]: i1,
 // CHECK-SAME:                     %[[VAL_1:.*]]: f32) {
 // CHECK-NEXT:    emitc.if %[[VAL_0]] {
-// CHECK-NEXT:      %[[VAL_2:.*]] = emitc.call_opaque "func_const"(%[[VAL_1]]) : (f32) -> i32
+// CHECK-NEXT:      %[[VAL_2:.*]] = call_opaque "func_const"(%[[VAL_1]]) : (f32) -> i32
 // CHECK-NEXT:    }
 // CHECK-NEXT:    return
 // CHECK-NEXT:  }
@@ -28,9 +28,9 @@ func.func @test_if_else(%arg0: i1, %arg1: f32) {
 // CHECK-SAME:                          %[[VAL_0:.*]]: i1,
 // CHECK-SAME:                          %[[VAL_1:.*]]: f32) {
 // CHECK-NEXT:    emitc.if %[[VAL_0]] {
-// CHECK-NEXT:      %[[VAL_2:.*]] = emitc.call_opaque "func_true"(%[[VAL_1]]) : (f32) -> i32
+// CHECK-NEXT:      %[[VAL_2:.*]] = call_opaque "func_true"(%[[VAL_1]]) : (f32) -> i32
 // CHECK-NEXT:    } else {
-// CHECK-NEXT:      %[[VAL_3:.*]] = emitc.call_opaque "func_false"(%[[VAL_1]]) : (f32) -> i32
+// CHECK-NEXT:      %[[VAL_3:.*]] = call_opaque "func_false"(%[[VAL_1]]) : (f32) -> i32
 // CHECK-NEXT:    }
 // CHECK-NEXT:    return
 // CHECK-NEXT:  }
@@ -56,15 +56,15 @@ func.func @test_if_yield(%arg0: i1, %arg1: f32) -> (i32, f64) {
 // CHECK-NEXT:    %[[VAL_3:.*]] = "emitc.variable"() <{value = #emitc.opaque<"">}> : () -> !emitc.lvalue<i32>
 // CHECK-NEXT:    %[[VAL_4:.*]] = "emitc.variable"() <{value = #emitc.opaque<"">}> : () -> !emitc.lvalue<f64>
 // CHECK-NEXT:    emitc.if %[[VAL_0]] {
-// CHECK-NEXT:      %[[VAL_5:.*]] = emitc.call_opaque "func_true_1"(%[[VAL_1]]) : (f32) -> i32
-// CHECK-NEXT:      %[[VAL_6:.*]] = emitc.call_opaque "func_true_2"(%[[VAL_1]]) : (f32) -> f64
-// CHECK-NEXT:      emitc.assign %[[VAL_5]] : i32 to %[[VAL_3]] : <i32>
-// CHECK-NEXT:      emitc.assign %[[VAL_6]] : f64 to %[[VAL_4]] : <f64>
+// CHECK-NEXT:      %[[VAL_5:.*]] = call_opaque "func_true_1"(%[[VAL_1]]) : (f32) -> i32
+// CHECK-NEXT:      %[[VAL_6:.*]] = call_opaque "func_true_2"(%[[VAL_1]]) : (f32) -> f64
+// CHECK-NEXT:      assign %[[VAL_5]] : i32 to %[[VAL_3]] : <i32>
+// CHECK-NEXT:      assign %[[VAL_6]] : f64 to %[[VAL_4]] : <f64>
 // CHECK-NEXT:    } else {
-// CHECK-NEXT:      %[[VAL_7:.*]] = emitc.call_opaque "func_false_1"(%[[VAL_1]]) : (f32) -> i32
-// CHECK-NEXT:      %[[VAL_8:.*]] = emitc.call_opaque "func_false_2"(%[[VAL_1]]) : (f32) -> f64
-// CHECK-NEXT:      emitc.assign %[[VAL_7]] : i32 to %[[VAL_3]] : <i32>
-// CHECK-NEXT:      emitc.assign %[[VAL_8]] : f64 to %[[VAL_4]] : <f64>
+// CHECK-NEXT:      %[[VAL_7:.*]] = call_opaque "func_false_1"(%[[VAL_1]]) : (f32) -> i32
+// CHECK-NEXT:      %[[VAL_8:.*]] = call_opaque "func_false_2"(%[[VAL_1]]) : (f32) -> f64
+// CHECK-NEXT:      assign %[[VAL_7]] : i32 to %[[VAL_3]] : <i32>
+// CHECK-NEXT:      assign %[[VAL_8]] : f64 to %[[VAL_4]] : <f64>
 // CHECK-NEXT:    }
 // CHECK-NEXT:    %[[VAL_9:.*]] = emitc.load %[[VAL_3]] : <i32>
 // CHECK-NEXT:    %[[VAL_10:.*]] = emitc.load %[[VAL_4]] : <f64>