[Mlir-commits] [mlir] 46672c1 - [mlir][emitc] arith.cmpf to EmitC conversion (#93671)

[llvmlistbot at llvm.org]

Author: Tina Jung
Date: 2024-06-04T08:10:28+02:00
New Revision: 46672c1dc3272adda838caa87bf3fb17411986fb

URL: https://github.com/llvm/llvm-project/commit/46672c1dc3272adda838caa87bf3fb17411986fb
DIFF: https://github.com/llvm/llvm-project/commit/46672c1dc3272adda838caa87bf3fb17411986fb.diff

LOG: [mlir][emitc] arith.cmpf to EmitC conversion (#93671)

Convert all arith.cmpf on floats (not vectors/tensors thereof) to EmitC.

---------

Co-authored-by: Matthias Gehre <matthias.gehre at amd.com>
Co-authored-by: Jose Lopes <jose.lopes at amd.com>

Added: 
    

Modified: 
    mlir/lib/Conversion/ArithToEmitC/ArithToEmitC.cpp
    mlir/test/Conversion/ArithToEmitC/arith-to-emitc-unsupported.mlir
    mlir/test/Conversion/ArithToEmitC/arith-to-emitc.mlir

Removed: 
    


################################################################################
diff  --git a/mlir/lib/Conversion/ArithToEmitC/ArithToEmitC.cpp b/mlir/lib/Conversion/ArithToEmitC/ArithToEmitC.cpp
index 9b1e47147861c..74f0f61d04a1a 100644
--- a/mlir/lib/Conversion/ArithToEmitC/ArithToEmitC.cpp
+++ b/mlir/lib/Conversion/ArithToEmitC/ArithToEmitC.cpp
@@ -15,7 +15,9 @@
 
 #include "mlir/Dialect/Arith/IR/Arith.h"
 #include "mlir/Dialect/EmitC/IR/EmitC.h"
-#include "mlir/Tools/PDLL/AST/Types.h"
+#include "mlir/IR/BuiltinAttributes.h"
+#include "mlir/IR/BuiltinTypes.h"
+#include "mlir/Support/LogicalResult.h"
 #include "mlir/Transforms/DialectConversion.h"
 
 using namespace mlir;
@@ -59,6 +61,160 @@ Value adaptValueType(Value val, ConversionPatternRewriter &rewriter, Type ty) {
   return rewriter.createOrFold<emitc::CastOp>(val.getLoc(), ty, val);
 }
 
+class CmpFOpConversion : public OpConversionPattern<arith::CmpFOp> {
+public:
+  using OpConversionPattern::OpConversionPattern;
+
+  LogicalResult
+  matchAndRewrite(arith::CmpFOp op, OpAdaptor adaptor,
+                  ConversionPatternRewriter &rewriter) const override {
+
+    if (!isa<FloatType>(adaptor.getRhs().getType())) {
+      return rewriter.notifyMatchFailure(op.getLoc(),
+                                         "cmpf currently only supported on "
+                                         "floats, not tensors/vectors thereof");
+    }
+
+    bool unordered = false;
+    emitc::CmpPredicate predicate;
+    switch (op.getPredicate()) {
+    case arith::CmpFPredicate::AlwaysFalse: {
+      auto constant = rewriter.create<emitc::ConstantOp>(
+          op.getLoc(), rewriter.getI1Type(),
+          rewriter.getBoolAttr(/*value=*/false));
+      rewriter.replaceOp(op, constant);
+      return success();
+    }
+    case arith::CmpFPredicate::OEQ:
+      unordered = false;
+      predicate = emitc::CmpPredicate::eq;
+      break;
+    case arith::CmpFPredicate::OGT:
+      unordered = false;
+      predicate = emitc::CmpPredicate::gt;
+      break;
+    case arith::CmpFPredicate::OGE:
+      unordered = false;
+      predicate = emitc::CmpPredicate::ge;
+      break;
+    case arith::CmpFPredicate::OLT:
+      unordered = false;
+      predicate = emitc::CmpPredicate::lt;
+      break;
+    case arith::CmpFPredicate::OLE:
+      unordered = false;
+      predicate = emitc::CmpPredicate::le;
+      break;
+    case arith::CmpFPredicate::ONE:
+      unordered = false;
+      predicate = emitc::CmpPredicate::ne;
+      break;
+    case arith::CmpFPredicate::ORD: {
+      // ordered, i.e. none of the operands is NaN
+      auto cmp = createCheckIsOrdered(rewriter, op.getLoc(), adaptor.getLhs(),
+                                      adaptor.getRhs());
+      rewriter.replaceOp(op, cmp);
+      return success();
+    }
+    case arith::CmpFPredicate::UEQ:
+      unordered = true;
+      predicate = emitc::CmpPredicate::eq;
+      break;
+    case arith::CmpFPredicate::UGT:
+      unordered = true;
+      predicate = emitc::CmpPredicate::gt;
+      break;
+    case arith::CmpFPredicate::UGE:
+      unordered = true;
+      predicate = emitc::CmpPredicate::ge;
+      break;
+    case arith::CmpFPredicate::ULT:
+      unordered = true;
+      predicate = emitc::CmpPredicate::lt;
+      break;
+    case arith::CmpFPredicate::ULE:
+      unordered = true;
+      predicate = emitc::CmpPredicate::le;
+      break;
+    case arith::CmpFPredicate::UNE:
+      unordered = true;
+      predicate = emitc::CmpPredicate::ne;
+      break;
+    case arith::CmpFPredicate::UNO: {
+      // unordered, i.e. either operand is nan
+      auto cmp = createCheckIsUnordered(rewriter, op.getLoc(), adaptor.getLhs(),
+                                        adaptor.getRhs());
+      rewriter.replaceOp(op, cmp);
+      return success();
+    }
+    case arith::CmpFPredicate::AlwaysTrue: {
+      auto constant = rewriter.create<emitc::ConstantOp>(
+          op.getLoc(), rewriter.getI1Type(),
+          rewriter.getBoolAttr(/*value=*/true));
+      rewriter.replaceOp(op, constant);
+      return success();
+    }
+    }
+
+    // Compare the values naively
+    auto cmpResult =
+        rewriter.create<emitc::CmpOp>(op.getLoc(), op.getType(), predicate,
+                                      adaptor.getLhs(), adaptor.getRhs());
+
+    // Adjust the results for unordered/ordered semantics
+    if (unordered) {
+      auto isUnordered = createCheckIsUnordered(
+          rewriter, op.getLoc(), adaptor.getLhs(), adaptor.getRhs());
+      rewriter.replaceOpWithNewOp<emitc::LogicalOrOp>(op, op.getType(),
+                                                      isUnordered, cmpResult);
+      return success();
+    }
+
+    auto isOrdered = createCheckIsOrdered(rewriter, op.getLoc(),
+                                          adaptor.getLhs(), adaptor.getRhs());
+    rewriter.replaceOpWithNewOp<emitc::LogicalAndOp>(op, op.getType(),
+                                                     isOrdered, cmpResult);
+    return success();
+  }
+
+private:
+  /// Return a value that is true if \p operand is NaN.
+  Value isNaN(ConversionPatternRewriter &rewriter, Location loc,
+              Value operand) const {
+    // A value is NaN exactly when it compares unequal to itself.
+    return rewriter.create<emitc::CmpOp>(
+        loc, rewriter.getI1Type(), emitc::CmpPredicate::ne, operand, operand);
+  }
+
+  /// Return a value that is true if \p operand is not NaN.
+  Value isNotNaN(ConversionPatternRewriter &rewriter, Location loc,
+                 Value operand) const {
+    // A value is not NaN exactly when it compares equal to itself.
+    return rewriter.create<emitc::CmpOp>(
+        loc, rewriter.getI1Type(), emitc::CmpPredicate::eq, operand, operand);
+  }
+
+  /// Return a value that is true if the operands \p first and \p second are
+  /// unordered (i.e., at least one of them is NaN).
+  Value createCheckIsUnordered(ConversionPatternRewriter &rewriter,
+                               Location loc, Value first, Value second) const {
+    auto firstIsNaN = isNaN(rewriter, loc, first);
+    auto secondIsNaN = isNaN(rewriter, loc, second);
+    return rewriter.create<emitc::LogicalOrOp>(loc, rewriter.getI1Type(),
+                                               firstIsNaN, secondIsNaN);
+  }
+
+  /// Return a value that is true if the operands \p first and \p second are
+  /// both ordered (i.e., none one of them is NaN).
+  Value createCheckIsOrdered(ConversionPatternRewriter &rewriter, Location loc,
+                             Value first, Value second) const {
+    auto firstIsNotNaN = isNotNaN(rewriter, loc, first);
+    auto secondIsNotNaN = isNotNaN(rewriter, loc, second);
+    return rewriter.create<emitc::LogicalAndOp>(loc, rewriter.getI1Type(),
+                                                firstIsNotNaN, secondIsNotNaN);
+  }
+};
+
 class CmpIOpConversion : public OpConversionPattern<arith::CmpIOp> {
 public:
   using OpConversionPattern::OpConversionPattern;
@@ -463,6 +619,7 @@ void mlir::populateArithToEmitCPatterns(TypeConverter &typeConverter,
     BitwiseOpConversion<arith::AndIOp, emitc::BitwiseAndOp>,
     BitwiseOpConversion<arith::OrIOp, emitc::BitwiseOrOp>,
     BitwiseOpConversion<arith::XOrIOp, emitc::BitwiseXorOp>,
+    CmpFOpConversion,
     CmpIOpConversion,
     SelectOpConversion,
     // Truncation is guaranteed for unsigned types.

diff  --git a/mlir/test/Conversion/ArithToEmitC/arith-to-emitc-unsupported.mlir b/mlir/test/Conversion/ArithToEmitC/arith-to-emitc-unsupported.mlir
index 97e4593f97b90..c07289109e6dd 100644
--- a/mlir/test/Conversion/ArithToEmitC/arith-to-emitc-unsupported.mlir
+++ b/mlir/test/Conversion/ArithToEmitC/arith-to-emitc-unsupported.mlir
@@ -65,6 +65,22 @@ func.func @arith_cast_fptoui_i1(%arg0: f32) -> i1 {
 
 // -----
 
+func.func @arith_cmpf_vector(%arg0: vector<5xf32>, %arg1: vector<5xf32>) -> vector<5xi1> {
+  // expected-error @+1 {{failed to legalize operation 'arith.cmpf'}}
+  %t = arith.cmpf uno, %arg0, %arg1 : vector<5xf32>
+  return %t: vector<5xi1>
+}
+
+// -----
+
+func.func @arith_cmpf_tensor(%arg0: tensor<5xf32>, %arg1: tensor<5xf32>) -> tensor<5xi1> {
+  // expected-error @+1 {{failed to legalize operation 'arith.cmpf'}}
+  %t = arith.cmpf uno, %arg0, %arg1 : tensor<5xf32>
+  return %t: tensor<5xi1>
+}
+
+// -----
+
 func.func @arith_extsi_i1_to_i32(%arg0: i1) {
   // expected-error @+1 {{failed to legalize operation 'arith.extsi'}}
   %idx = arith.extsi %arg0 : i1 to i32

diff  --git a/mlir/test/Conversion/ArithToEmitC/arith-to-emitc.mlir b/mlir/test/Conversion/ArithToEmitC/arith-to-emitc.mlir
index 5b1a1860b0f91..71f1a6abd913b 100644
--- a/mlir/test/Conversion/ArithToEmitC/arith-to-emitc.mlir
+++ b/mlir/test/Conversion/ArithToEmitC/arith-to-emitc.mlir
@@ -146,6 +146,234 @@ func.func @arith_select(%arg0: i1, %arg1: tensor<8xi32>, %arg2: tensor<8xi32>) -
 
 // -----
 
+func.func @arith_cmpf_false(%arg0: f32, %arg1: f32) -> i1 {
+  // CHECK-LABEL: arith_cmpf_false
+  // CHECK-SAME: ([[Arg0:[^ ]*]]: f32, [[Arg1:[^ ]*]]: f32)
+  // CHECK-DAG: [[False:[^ ]*]] = "emitc.constant"() <{value = false}> : () -> i1
+  %false = arith.cmpf false, %arg0, %arg1 : f32
+  // CHECK: return [[False]]
+  return %false: i1
+}
+
+// -----
+
+func.func @arith_cmpf_oeq(%arg0: f32, %arg1: f32) -> i1 {
+  // CHECK-LABEL: arith_cmpf_oeq
+  // CHECK-SAME: ([[Arg0:[^ ]*]]: f32, [[Arg1:[^ ]*]]: f32)
+  // CHECK-DAG: [[EQ:[^ ]*]] = emitc.cmp eq, [[Arg0]], [[Arg1]] : (f32, f32) -> i1
+  // CHECK-DAG: [[NotNaNArg0:[^ ]*]] = emitc.cmp eq, [[Arg0]], [[Arg0]] : (f32, f32) -> i1
+  // CHECK-DAG: [[NotNaNArg1:[^ ]*]] = emitc.cmp eq, [[Arg1]], [[Arg1]] : (f32, f32) -> i1
+  // CHECK-DAG: [[Ordered:[^ ]*]] = emitc.logical_and [[NotNaNArg0]], [[NotNaNArg1]] : i1, i1
+  // CHECK-DAG: [[OEQ:[^ ]*]] = emitc.logical_and [[Ordered]], [[EQ]] : i1, i1
+  %oeq = arith.cmpf oeq, %arg0, %arg1 : f32
+  // CHECK: return [[OEQ]]
+  return %oeq: i1
+}
+
+// -----
+
+func.func @arith_cmpf_ogt(%arg0: f32, %arg1: f32) -> i1 {
+  // CHECK-LABEL: arith_cmpf_ogt
+  // CHECK-SAME: ([[Arg0:[^ ]*]]: f32, [[Arg1:[^ ]*]]: f32)
+  // CHECK-DAG: [[GT:[^ ]*]] = emitc.cmp gt, [[Arg0]], [[Arg1]] : (f32, f32) -> i1
+  // CHECK-DAG: [[NotNaNArg0:[^ ]*]] = emitc.cmp eq, [[Arg0]], [[Arg0]] : (f32, f32) -> i1
+  // CHECK-DAG: [[NotNaNArg1:[^ ]*]] = emitc.cmp eq, [[Arg1]], [[Arg1]] : (f32, f32) -> i1
+  // CHECK-DAG: [[Ordered:[^ ]*]] = emitc.logical_and [[NotNaNArg0]], [[NotNaNArg1]] : i1, i1
+  // CHECK-DAG: [[OGT:[^ ]*]] = emitc.logical_and [[Ordered]], [[GT]] : i1, i1
+  %ogt = arith.cmpf ogt, %arg0, %arg1 : f32
+  // CHECK: return [[OGT]]
+  return %ogt: i1
+}
+
+// -----
+
+func.func @arith_cmpf_oge(%arg0: f32, %arg1: f32) -> i1 {
+  // CHECK-LABEL: arith_cmpf_oge
+  // CHECK-SAME: ([[Arg0:[^ ]*]]: f32, [[Arg1:[^ ]*]]: f32)
+  // CHECK-DAG: [[GE:[^ ]*]] = emitc.cmp ge, [[Arg0]], [[Arg1]] : (f32, f32) -> i1
+  // CHECK-DAG: [[NotNaNArg0:[^ ]*]] = emitc.cmp eq, [[Arg0]], [[Arg0]] : (f32, f32) -> i1
+  // CHECK-DAG: [[NotNaNArg1:[^ ]*]] = emitc.cmp eq, [[Arg1]], [[Arg1]] : (f32, f32) -> i1
+  // CHECK-DAG: [[Ordered:[^ ]*]] = emitc.logical_and [[NotNaNArg0]], [[NotNaNArg1]] : i1, i1
+  // CHECK-DAG: [[OGE:[^ ]*]] = emitc.logical_and [[Ordered]], [[GE]] : i1, i1
+  %oge = arith.cmpf oge, %arg0, %arg1 : f32
+  // CHECK: return [[OGE]]
+  return %oge: i1
+}
+
+// -----
+
+func.func @arith_cmpf_olt(%arg0: f32, %arg1: f32) -> i1 {
+  // CHECK-LABEL: arith_cmpf_olt
+  // CHECK-SAME: ([[Arg0:[^ ]*]]: f32, [[Arg1:[^ ]*]]: f32)
+  // CHECK-DAG: [[LT:[^ ]*]] = emitc.cmp lt, [[Arg0]], [[Arg1]] : (f32, f32) -> i1
+  // CHECK-DAG: [[NotNaNArg0:[^ ]*]] = emitc.cmp eq, [[Arg0]], [[Arg0]] : (f32, f32) -> i1
+  // CHECK-DAG: [[NotNaNArg1:[^ ]*]] = emitc.cmp eq, [[Arg1]], [[Arg1]] : (f32, f32) -> i1
+  // CHECK-DAG: [[Ordered:[^ ]*]] = emitc.logical_and [[NotNaNArg0]], [[NotNaNArg1]] : i1, i1
+  // CHECK-DAG: [[OLT:[^ ]*]] = emitc.logical_and [[Ordered]], [[LT]] : i1, i1
+  %olt = arith.cmpf olt, %arg0, %arg1 : f32
+  // CHECK: return [[OLT]]
+  return %olt: i1
+}
+
+// -----
+
+func.func @arith_cmpf_ole(%arg0: f32, %arg1: f32) -> i1 {
+  // CHECK-LABEL: arith_cmpf_ole
+  // CHECK-SAME: ([[Arg0:[^ ]*]]: f32, [[Arg1:[^ ]*]]: f32)
+  // CHECK-DAG: [[LT:[^ ]*]] = emitc.cmp le, [[Arg0]], [[Arg1]] : (f32, f32) -> i1
+  // CHECK-DAG: [[NotNaNArg0:[^ ]*]] = emitc.cmp eq, [[Arg0]], [[Arg0]] : (f32, f32) -> i1
+  // CHECK-DAG: [[NotNaNArg1:[^ ]*]] = emitc.cmp eq, [[Arg1]], [[Arg1]] : (f32, f32) -> i1
+  // CHECK-DAG: [[Ordered:[^ ]*]] = emitc.logical_and [[NotNaNArg0]], [[NotNaNArg1]] : i1, i1
+  // CHECK-DAG: [[OLE:[^ ]*]] = emitc.logical_and [[Ordered]], [[LT]] : i1, i1
+  %ole = arith.cmpf ole, %arg0, %arg1 : f32
+  // CHECK: return [[OLE]]
+  return %ole: i1
+}
+
+// -----
+
+func.func @arith_cmpf_one(%arg0: f32, %arg1: f32) -> i1 {
+  // CHECK-LABEL: arith_cmpf_one
+  // CHECK-SAME: ([[Arg0:[^ ]*]]: f32, [[Arg1:[^ ]*]]: f32)
+  // CHECK-DAG: [[NEQ:[^ ]*]] = emitc.cmp ne, [[Arg0]], [[Arg1]] : (f32, f32) -> i1
+  // CHECK-DAG: [[NotNaNArg0:[^ ]*]] = emitc.cmp eq, [[Arg0]], [[Arg0]] : (f32, f32) -> i1
+  // CHECK-DAG: [[NotNaNArg1:[^ ]*]] = emitc.cmp eq, [[Arg1]], [[Arg1]] : (f32, f32) -> i1
+  // CHECK-DAG: [[Ordered:[^ ]*]] = emitc.logical_and [[NotNaNArg0]], [[NotNaNArg1]] : i1, i1
+  // CHECK-DAG: [[ONE:[^ ]*]] = emitc.logical_and [[Ordered]], [[NEQ]] : i1, i1
+  %one = arith.cmpf one, %arg0, %arg1 : f32
+  // CHECK: return [[ONE]]
+  return %one: i1
+}
+
+// -----
+
+func.func @arith_cmpf_ord(%arg0: f32, %arg1: f32) -> i1 {
+  // CHECK-LABEL: arith_cmpf_ord
+  // CHECK-SAME: ([[Arg0:[^ ]*]]: f32, [[Arg1:[^ ]*]]: f32)
+  // CHECK-DAG: [[NotNaNArg0:[^ ]*]] = emitc.cmp eq, [[Arg0]], [[Arg0]] : (f32, f32) -> i1
+  // CHECK-DAG: [[NotNaNArg1:[^ ]*]] = emitc.cmp eq, [[Arg1]], [[Arg1]] : (f32, f32) -> i1
+  // CHECK-DAG: [[Ordered:[^ ]*]] = emitc.logical_and [[NotNaNArg0]], [[NotNaNArg1]] : i1, i1
+  %ord = arith.cmpf ord, %arg0, %arg1 : f32
+  // CHECK: return [[Ordered]]
+  return %ord: i1
+}
+
+// -----
+
+func.func @arith_cmpf_ueq(%arg0: f32, %arg1: f32) -> i1 {
+  // CHECK-LABEL: arith_cmpf_ueq
+  // CHECK-SAME: ([[Arg0:[^ ]*]]: f32, [[Arg1:[^ ]*]]: f32)
+  // CHECK-DAG: [[EQ:[^ ]*]] = emitc.cmp eq, [[Arg0]], [[Arg1]] : (f32, f32) -> i1
+  // CHECK-DAG: [[NaNArg0:[^ ]*]] = emitc.cmp ne, [[Arg0]], [[Arg0]] : (f32, f32) -> i1
+  // CHECK-DAG: [[NaNArg1:[^ ]*]] = emitc.cmp ne, [[Arg1]], [[Arg1]] : (f32, f32) -> i1
+  // CHECK-DAG: [[Unordered:[^ ]*]] = emitc.logical_or [[NaNArg0]], [[NaNArg1]] : i1, i1
+  // CHECK-DAG: [[UEQ:[^ ]*]] = emitc.logical_or [[Unordered]], [[EQ]] : i1, i1
+  %ueq = arith.cmpf ueq, %arg0, %arg1 : f32
+  // CHECK: return [[UEQ]]
+  return %ueq: i1
+}
+
+// -----
+
+func.func @arith_cmpf_ugt(%arg0: f32, %arg1: f32) -> i1 {
+  // CHECK-LABEL: arith_cmpf_ugt
+  // CHECK-SAME: ([[Arg0:[^ ]*]]: f32, [[Arg1:[^ ]*]]: f32)
+  // CHECK-DAG: [[GT:[^ ]*]] = emitc.cmp gt, [[Arg0]], [[Arg1]] : (f32, f32) -> i1
+  // CHECK-DAG: [[NaNArg0:[^ ]*]] = emitc.cmp ne, [[Arg0]], [[Arg0]] : (f32, f32) -> i1
+  // CHECK-DAG: [[NaNArg1:[^ ]*]] = emitc.cmp ne, [[Arg1]], [[Arg1]] : (f32, f32) -> i1
+  // CHECK-DAG: [[Unordered:[^ ]*]] = emitc.logical_or [[NaNArg0]], [[NaNArg1]] : i1, i1
+  // CHECK-DAG: [[UGT:[^ ]*]] = emitc.logical_or [[Unordered]], [[GT]] : i1, i1
+  %ugt = arith.cmpf ugt, %arg0, %arg1 : f32
+  // CHECK: return [[UGT]]
+  return %ugt: i1
+}
+
+// -----
+
+func.func @arith_cmpf_uge(%arg0: f32, %arg1: f32) -> i1 {
+  // CHECK-LABEL: arith_cmpf_uge
+  // CHECK-SAME: ([[Arg0:[^ ]*]]: f32, [[Arg1:[^ ]*]]: f32)
+  // CHECK-DAG: [[GE:[^ ]*]] = emitc.cmp ge, [[Arg0]], [[Arg1]] : (f32, f32) -> i1
+  // CHECK-DAG: [[NaNArg0:[^ ]*]] = emitc.cmp ne, [[Arg0]], [[Arg0]] : (f32, f32) -> i1
+  // CHECK-DAG: [[NaNArg1:[^ ]*]] = emitc.cmp ne, [[Arg1]], [[Arg1]] : (f32, f32) -> i1
+  // CHECK-DAG: [[Unordered:[^ ]*]] = emitc.logical_or [[NaNArg0]], [[NaNArg1]] : i1, i1
+  // CHECK-DAG: [[UGE:[^ ]*]] = emitc.logical_or [[Unordered]], [[GE]] : i1, i1
+  %uge = arith.cmpf uge, %arg0, %arg1 : f32
+  // CHECK: return [[UGE]]
+  return %uge: i1
+}
+
+// -----
+
+func.func @arith_cmpf_ult(%arg0: f32, %arg1: f32) -> i1 {
+  // CHECK-LABEL: arith_cmpf_ult
+  // CHECK-SAME: ([[Arg0:[^ ]*]]: f32, [[Arg1:[^ ]*]]: f32)
+  // CHECK-DAG: [[LT:[^ ]*]] = emitc.cmp lt, [[Arg0]], [[Arg1]] : (f32, f32) -> i1
+  // CHECK-DAG: [[NaNArg0:[^ ]*]] = emitc.cmp ne, [[Arg0]], [[Arg0]] : (f32, f32) -> i1
+  // CHECK-DAG: [[NaNArg1:[^ ]*]] = emitc.cmp ne, [[Arg1]], [[Arg1]] : (f32, f32) -> i1
+  // CHECK-DAG: [[Unordered:[^ ]*]] = emitc.logical_or [[NaNArg0]], [[NaNArg1]] : i1, i1
+  // CHECK-DAG: [[ULT:[^ ]*]] = emitc.logical_or [[Unordered]], [[LT]] : i1, i1
+  %ult = arith.cmpf ult, %arg0, %arg1 : f32
+  // CHECK: return [[ULT]]
+  return %ult: i1
+}
+
+// -----
+
+func.func @arith_cmpf_ule(%arg0: f32, %arg1: f32) -> i1 {
+  // CHECK-LABEL: arith_cmpf_ule
+  // CHECK-SAME: ([[Arg0:[^ ]*]]: f32, [[Arg1:[^ ]*]]: f32)
+  // CHECK-DAG: [[LE:[^ ]*]] = emitc.cmp le, [[Arg0]], [[Arg1]] : (f32, f32) -> i1
+  // CHECK-DAG: [[NaNArg0:[^ ]*]] = emitc.cmp ne, [[Arg0]], [[Arg0]] : (f32, f32) -> i1
+  // CHECK-DAG: [[NaNArg1:[^ ]*]] = emitc.cmp ne, [[Arg1]], [[Arg1]] : (f32, f32) -> i1
+  // CHECK-DAG: [[Unordered:[^ ]*]] = emitc.logical_or [[NaNArg0]], [[NaNArg1]] : i1, i1
+  // CHECK-DAG: [[ULE:[^ ]*]] = emitc.logical_or [[Unordered]], [[LE]] : i1, i1
+  %ule = arith.cmpf ule, %arg0, %arg1 : f32
+  // CHECK: return [[ULE]]
+  return %ule: i1
+}
+
+// -----
+
+func.func @arith_cmpf_une(%arg0: f32, %arg1: f32) -> i1 {
+  // CHECK-LABEL: arith_cmpf_une
+  // CHECK-SAME: ([[Arg0:[^ ]*]]: f32, [[Arg1:[^ ]*]]: f32)
+  // CHECK-DAG: [[NEQ:[^ ]*]] = emitc.cmp ne, [[Arg0]], [[Arg1]] : (f32, f32) -> i1
+  // CHECK-DAG: [[NaNArg0:[^ ]*]] = emitc.cmp ne, [[Arg0]], [[Arg0]] : (f32, f32) -> i1
+  // CHECK-DAG: [[NaNArg1:[^ ]*]] = emitc.cmp ne, [[Arg1]], [[Arg1]] : (f32, f32) -> i1
+  // CHECK-DAG: [[Unordered:[^ ]*]] = emitc.logical_or [[NaNArg0]], [[NaNArg1]] : i1, i1
+  // CHECK-DAG: [[UNE:[^ ]*]] = emitc.logical_or [[Unordered]], [[NEQ]] : i1, i1
+  %une = arith.cmpf une, %arg0, %arg1 : f32
+  // CHECK: return [[UNE]]
+  return %une: i1
+}
+
+// -----
+
+func.func @arith_cmpf_uno(%arg0: f32, %arg1: f32) -> i1 {
+  // CHECK-LABEL: arith_cmpf_uno
+  // CHECK-SAME: ([[Arg0:[^ ]*]]: f32, [[Arg1:[^ ]*]]: f32)
+  // CHECK-DAG: [[NaNArg0:[^ ]*]] = emitc.cmp ne, [[Arg0]], [[Arg0]] : (f32, f32) -> i1
+  // CHECK-DAG: [[NaNArg1:[^ ]*]] = emitc.cmp ne, [[Arg1]], [[Arg1]] : (f32, f32) -> i1
+  // CHECK-DAG: [[Unordered:[^ ]*]] = emitc.logical_or [[NaNArg0]], [[NaNArg1]] : i1, i1
+  %uno = arith.cmpf uno, %arg0, %arg1 : f32
+  // CHECK: return [[Unordered]]
+  return %uno: i1
+}
+
+// -----
+
+func.func @arith_cmpf_true(%arg0: f32, %arg1: f32) -> i1 {
+  // CHECK-LABEL: arith_cmpf_true
+  // CHECK-SAME: ([[Arg0:[^ ]*]]: f32, [[Arg1:[^ ]*]]: f32)
+  // CHECK-DAG: [[True:[^ ]*]] = "emitc.constant"() <{value = true}> : () -> i1
+  %ueq = arith.cmpf true, %arg0, %arg1 : f32
+  // CHECK: return [[True]]
+  return %ueq: i1
+}
+
+// -----
+
 func.func @arith_cmpi_eq(%arg0: i32, %arg1: i32) -> i1 {
   // CHECK-LABEL: arith_cmpi_eq
   // CHECK-SAME: ([[Arg0:[^ ]*]]: i32, [[Arg1:[^ ]*]]: i32)