mlir/test/Dialect/LLVMIR/roundtrip.mlir - llvm-project - Git at Google

 // RUN: mlir-opt %s | mlir-opt | FileCheck %s

 // CHECK-LABEL: func @ops(%arg0: !llvm.i32, %arg1: !llvm.float)
 func @ops(%arg0 : !llvm.i32, %arg1 : !llvm.float) {
 // Integer arithmetic binary operations.
 //
 // CHECK-NEXT:  %0 = llvm.add %arg0, %arg0 : !llvm.i32
 // CHECK-NEXT:  %1 = llvm.sub %arg0, %arg0 : !llvm.i32
 // CHECK-NEXT:  %2 = llvm.mul %arg0, %arg0 : !llvm.i32
 // CHECK-NEXT:  %3 = llvm.udiv %arg0, %arg0 : !llvm.i32
 // CHECK-NEXT:  %4 = llvm.sdiv %arg0, %arg0 : !llvm.i32
 // CHECK-NEXT:  %5 = llvm.urem %arg0, %arg0 : !llvm.i32
 // CHECK-NEXT:  %6 = llvm.srem %arg0, %arg0 : !llvm.i32
 // CHECK-NEXT:  %7 = llvm.icmp "ne" %arg0, %arg0 : !llvm.i32
   %0 = llvm.add %arg0, %arg0 : !llvm.i32
   %1 = llvm.sub %arg0, %arg0 : !llvm.i32
   %2 = llvm.mul %arg0, %arg0 : !llvm.i32
   %3 = llvm.udiv %arg0, %arg0 : !llvm.i32
   %4 = llvm.sdiv %arg0, %arg0 : !llvm.i32
   %5 = llvm.urem %arg0, %arg0 : !llvm.i32
   %6 = llvm.srem %arg0, %arg0 : !llvm.i32
   %7 = llvm.icmp "ne" %arg0, %arg0 : !llvm.i32

 // Floating point binary operations.
 //
 // CHECK-NEXT:  %8 = llvm.fadd %arg1, %arg1 : !llvm.float
 // CHECK-NEXT:  %9 = llvm.fsub %arg1, %arg1 : !llvm.float
 // CHECK-NEXT:  %10 = llvm.fmul %arg1, %arg1 : !llvm.float
 // CHECK-NEXT:  %11 = llvm.fdiv %arg1, %arg1 : !llvm.float
 // CHECK-NEXT:  %12 = llvm.frem %arg1, %arg1 : !llvm.float
   %8 = llvm.fadd %arg1, %arg1 : !llvm.float
   %9 = llvm.fsub %arg1, %arg1 : !llvm.float
   %10 = llvm.fmul %arg1, %arg1 : !llvm.float
   %11 = llvm.fdiv %arg1, %arg1 : !llvm.float
   %12 = llvm.frem %arg1, %arg1 : !llvm.float

 // Memory-related operations.
 //
 // CHECK-NEXT:  %13 = llvm.alloca %arg0 x !llvm.double : (!llvm.i32) -> !llvm<"double*">
 // CHECK-NEXT:  %14 = llvm.getelementptr %13[%arg0, %arg0] : (!llvm<"double*">, !llvm.i32, !llvm.i32) -> !llvm<"double*">
 // CHECK-NEXT:  %15 = llvm.load %14 : !llvm<"double*">
 // CHECK-NEXT:  llvm.store %15, %13 : !llvm<"double*">
 // CHECK-NEXT:  %16 = llvm.bitcast %13 : !llvm<"double*"> to !llvm<"i64*">
   %13 = llvm.alloca %arg0 x !llvm.double : (!llvm.i32) -> !llvm<"double*">
   %14 = llvm.getelementptr %13[%arg0, %arg0] : (!llvm<"double*">, !llvm.i32, !llvm.i32) -> !llvm<"double*">
   %15 = llvm.load %14 : !llvm<"double*">
   llvm.store %15, %13 : !llvm<"double*">
   %16 = llvm.bitcast %13 : !llvm<"double*"> to !llvm<"i64*">

 // Function call-related operations.
 //
 // CHECK-NEXT:  %17 = llvm.call @foo(%arg0) : (!llvm.i32) -> !llvm<"{ i32, double, i32 }">
 // CHECK-NEXT:  %18 = llvm.extractvalue %17[0] : !llvm<"{ i32, double, i32 }">
 // CHECK-NEXT:  %19 = llvm.insertvalue %18, %17[2] : !llvm<"{ i32, double, i32 }">
 // CHECK-NEXT:  %20 = llvm.mlir.constant(@foo) : !llvm<"{ i32, double, i32 } (i32)*">
 // CHECK-NEXT:  %21 = llvm.call %20(%arg0) : (!llvm.i32) -> !llvm<"{ i32, double, i32 }">
   %17 = llvm.call @foo(%arg0) : (!llvm.i32) -> !llvm<"{ i32, double, i32 }">
   %18 = llvm.extractvalue %17[0] : !llvm<"{ i32, double, i32 }">
   %19 = llvm.insertvalue %18, %17[2] : !llvm<"{ i32, double, i32 }">
   %20 = llvm.mlir.constant(@foo) : !llvm<"{ i32, double, i32 } (i32)*">
   %21 = llvm.call %20(%arg0) : (!llvm.i32) -> !llvm<"{ i32, double, i32 }">


 // Terminator operations and their successors.
 //
 // CHECK: llvm.br ^bb1
   llvm.br ^bb1

 ^bb1:
 // CHECK: llvm.cond_br %7, ^bb2, ^bb1
   llvm.cond_br %7, ^bb2, ^bb1

 ^bb2:
 // CHECK:       %22 = llvm.mlir.undef : !llvm<"{ i32, double, i32 }">
 // CHECK-NEXT:  %23 = llvm.mlir.constant(42 : i64) : !llvm.i47
   %22 = llvm.mlir.undef : !llvm<"{ i32, double, i32 }">
   %23 = llvm.mlir.constant(42) : !llvm.i47

 // Misc operations.
 // CHECK:       %24 = llvm.select %7, %0, %1 : !llvm.i1, !llvm.i32
   %24 = llvm.select %7, %0, %1 : !llvm.i1, !llvm.i32

 // Integer to pointer and pointer to integer conversions.
 //
 // CHECK:       %25 = llvm.inttoptr %arg0 : !llvm.i32 to !llvm<"i32*">
 // CHECK-NEXT:  %26 = llvm.ptrtoint %25 : !llvm<"i32*"> to !llvm.i32
   %25 = llvm.inttoptr %arg0 : !llvm.i32 to !llvm<"i32*">
   %26 = llvm.ptrtoint %25 : !llvm<"i32*"> to !llvm.i32

 // Extended and Quad floating point
 //
 // CHECK:       %27 = llvm.fpext %arg1 : !llvm.float to !llvm.x86_fp80
 // CHECK-NEXT:  %28 = llvm.fpext %arg1 : !llvm.float to !llvm.fp128
   %27 = llvm.fpext %arg1 : !llvm.float to !llvm.x86_fp80
   %28 = llvm.fpext %arg1 : !llvm.float to !llvm.fp128

 // CHECK:  %29 = llvm.fneg %arg1 : !llvm.float
   %29 = llvm.fneg %arg1 : !llvm.float

 // CHECK:  llvm.return
   llvm.return
 }

 // An larger self-contained function.
 // CHECK-LABEL:func @foo(%arg0: !llvm.i32) -> !llvm<"{ i32, double, i32 }"> {
 func @foo(%arg0: !llvm.i32) -> !llvm<"{ i32, double, i32 }"> {
 // CHECK-NEXT:  %0 = llvm.mlir.constant(3 : i64) : !llvm.i32
 // CHECK-NEXT:  %1 = llvm.mlir.constant(3 : i64) : !llvm.i32
 // CHECK-NEXT:  %2 = llvm.mlir.constant(4.200000e+01 : f64) : !llvm.double
 // CHECK-NEXT:  %3 = llvm.mlir.constant(4.200000e+01 : f64) : !llvm.double
 // CHECK-NEXT:  %4 = llvm.add %0, %1 : !llvm.i32
 // CHECK-NEXT:  %5 = llvm.mul %4, %1 : !llvm.i32
 // CHECK-NEXT:  %6 = llvm.fadd %2, %3 : !llvm.double
 // CHECK-NEXT:  %7 = llvm.fsub %3, %6 : !llvm.double
 // CHECK-NEXT:  %8 = llvm.mlir.constant(1 : i64) : !llvm.i1
 // CHECK-NEXT:  llvm.cond_br %8, ^bb1(%4 : !llvm.i32), ^bb2(%4 : !llvm.i32)
   %0 = llvm.mlir.constant(3) : !llvm.i32
   %1 = llvm.mlir.constant(3) : !llvm.i32
   %2 = llvm.mlir.constant(4.200000e+01) : !llvm.double
   %3 = llvm.mlir.constant(4.200000e+01) : !llvm.double
   %4 = llvm.add %0, %1 : !llvm.i32
   %5 = llvm.mul %4, %1 : !llvm.i32
   %6 = llvm.fadd %2, %3 : !llvm.double
   %7 = llvm.fsub %3, %6 : !llvm.double
   %8 = llvm.mlir.constant(1) : !llvm.i1
   llvm.cond_br %8, ^bb1(%4 : !llvm.i32), ^bb2(%4 : !llvm.i32)

 // CHECK-NEXT:^bb1(%9: !llvm.i32):
 // CHECK-NEXT:  %10 = llvm.call @foo(%9) : (!llvm.i32) -> !llvm<"{ i32, double, i32 }">
 // CHECK-NEXT:  %11 = llvm.extractvalue %10[0] : !llvm<"{ i32, double, i32 }">
 // CHECK-NEXT:  %12 = llvm.extractvalue %10[1] : !llvm<"{ i32, double, i32 }">
 // CHECK-NEXT:  %13 = llvm.extractvalue %10[2] : !llvm<"{ i32, double, i32 }">
 // CHECK-NEXT:  %14 = llvm.mlir.undef : !llvm<"{ i32, double, i32 }">
 // CHECK-NEXT:  %15 = llvm.insertvalue %5, %14[0] : !llvm<"{ i32, double, i32 }">
 // CHECK-NEXT:  %16 = llvm.insertvalue %7, %15[1] : !llvm<"{ i32, double, i32 }">
 // CHECK-NEXT:  %17 = llvm.insertvalue %11, %16[2] : !llvm<"{ i32, double, i32 }">
 // CHECK-NEXT:  llvm.return %17 : !llvm<"{ i32, double, i32 }">
 ^bb1(%9: !llvm.i32):
   %10 = llvm.call @foo(%9) : (!llvm.i32) -> !llvm<"{ i32, double, i32 }">
   %11 = llvm.extractvalue %10[0] : !llvm<"{ i32, double, i32 }">
   %12 = llvm.extractvalue %10[1] : !llvm<"{ i32, double, i32 }">
   %13 = llvm.extractvalue %10[2] : !llvm<"{ i32, double, i32 }">
   %14 = llvm.mlir.undef : !llvm<"{ i32, double, i32 }">
   %15 = llvm.insertvalue %5, %14[0] : !llvm<"{ i32, double, i32 }">
   %16 = llvm.insertvalue %7, %15[1] : !llvm<"{ i32, double, i32 }">
   %17 = llvm.insertvalue %11, %16[2] : !llvm<"{ i32, double, i32 }">
   llvm.return %17 : !llvm<"{ i32, double, i32 }">

 // CHECK-NEXT:^bb2(%18: !llvm.i32):	// pred: ^bb0
 // CHECK-NEXT:  %19 = llvm.mlir.undef : !llvm<"{ i32, double, i32 }">
 // CHECK-NEXT:  %20 = llvm.insertvalue %18, %19[0] : !llvm<"{ i32, double, i32 }">
 // CHECK-NEXT:  %21 = llvm.insertvalue %7, %20[1] : !llvm<"{ i32, double, i32 }">
 // CHECK-NEXT:  %22 = llvm.insertvalue %5, %21[2] : !llvm<"{ i32, double, i32 }">
 // CHECK-NEXT:  llvm.return %22 : !llvm<"{ i32, double, i32 }">
 ^bb2(%18: !llvm.i32):	// pred: ^bb0
   %19 = llvm.mlir.undef : !llvm<"{ i32, double, i32 }">
   %20 = llvm.insertvalue %18, %19[0] : !llvm<"{ i32, double, i32 }">
   %21 = llvm.insertvalue %7, %20[1] : !llvm<"{ i32, double, i32 }">
   %22 = llvm.insertvalue %5, %21[2] : !llvm<"{ i32, double, i32 }">
   llvm.return %22 : !llvm<"{ i32, double, i32 }">
 }

 // CHECK-LABEL: @casts
 func @casts(%arg0: !llvm.i32, %arg1: !llvm.i64, %arg2: !llvm<"<4 x i32>">,
             %arg3: !llvm<"<4 x i64>">, %arg4: !llvm<"i32*">) {
 // CHECK-NEXT:  = llvm.sext %arg0 : !llvm.i32 to !llvm.i56
   %0 = llvm.sext %arg0 : !llvm.i32 to !llvm.i56
 // CHECK-NEXT:  = llvm.zext %arg0 : !llvm.i32 to !llvm.i64
   %1 = llvm.zext %arg0 : !llvm.i32 to !llvm.i64
 // CHECK-NEXT:  = llvm.trunc %arg1 : !llvm.i64 to !llvm.i56
   %2 = llvm.trunc %arg1 : !llvm.i64 to !llvm.i56
 // CHECK-NEXT:  = llvm.sext %arg2 : !llvm<"<4 x i32>"> to !llvm<"<4 x i56>">
   %3 = llvm.sext %arg2 : !llvm<"<4 x i32>"> to !llvm<"<4 x i56>">
 // CHECK-NEXT:  = llvm.zext %arg2 : !llvm<"<4 x i32>"> to !llvm<"<4 x i64>">
   %4 = llvm.zext %arg2 : !llvm<"<4 x i32>"> to !llvm<"<4 x i64>">
 // CHECK-NEXT:  = llvm.trunc %arg3 : !llvm<"<4 x i64>"> to !llvm<"<4 x i56>">
   %5 = llvm.trunc %arg3 : !llvm<"<4 x i64>"> to !llvm<"<4 x i56>">
 // CHECK-NEXT:  = llvm.sitofp %arg0 : !llvm.i32 to !llvm.float
   %6 = llvm.sitofp %arg0 : !llvm.i32 to !llvm.float
 // CHECK-NEXT:  = llvm.uitofp %arg0 : !llvm.i32 to !llvm.float
   %7 = llvm.uitofp %arg0 : !llvm.i32 to !llvm.float
 // CHECK-NEXT:  = llvm.fptosi %7 : !llvm.float to !llvm.i32
   %8 = llvm.fptosi %7 : !llvm.float to !llvm.i32
 // CHECK-NEXT:  = llvm.fptoui %7 : !llvm.float to !llvm.i32
   %9 = llvm.fptoui %7 : !llvm.float to !llvm.i32
 // CHECK-NEXT:  = llvm.addrspacecast %arg4 : !llvm<"i32*"> to !llvm<"i32 addrspace(2)*">
   %10 = llvm.addrspacecast %arg4 : !llvm<"i32*"> to !llvm<"i32 addrspace(2)*">
   llvm.return
 }

 // CHECK-LABEL: @vect
 func @vect(%arg0: !llvm<"<4 x float>">, %arg1: !llvm.i32, %arg2: !llvm.float) {
 // CHECK-NEXT:  = llvm.extractelement {{.*}} : !llvm<"<4 x float>">
   %0 = llvm.extractelement %arg0[%arg1 : !llvm.i32] : !llvm<"<4 x float>">
 // CHECK-NEXT:  = llvm.insertelement {{.*}} : !llvm<"<4 x float>">
   %1 = llvm.insertelement %arg2, %arg0[%arg1 : !llvm.i32] : !llvm<"<4 x float>">
 // CHECK-NEXT:  = llvm.shufflevector {{.*}} [0 : i32, 0 : i32, 0 : i32, 0 : i32, 7 : i32] : !llvm<"<4 x float>">, !llvm<"<4 x float>">
   %2 = llvm.shufflevector %arg0, %arg0 [0 : i32, 0 : i32, 0 : i32, 0 : i32, 7 : i32] : !llvm<"<4 x float>">, !llvm<"<4 x float>">
 // CHECK-NEXT:  = llvm.mlir.constant(dense<1.000000e+00> : vector<4xf32>) : !llvm<"<4 x float>">
   %3 = llvm.mlir.constant(dense<1.0> : vector<4xf32>) : !llvm<"<4 x float>">
   return
 }

 // CHECK-LABEL: @alloca
 func @alloca(%size : !llvm.i64) {
   //      CHECK: llvm.alloca %{{.*}} x !llvm.i32 : (!llvm.i64) -> !llvm<"i32*">
   llvm.alloca %size x !llvm.i32 {alignment = 0} : (!llvm.i64) -> (!llvm<"i32*">)
   // CHECK-NEXT: llvm.alloca %{{.*}} x !llvm.i32 {alignment = 8 : i64} : (!llvm.i64) -> !llvm<"i32*">
   llvm.alloca %size x !llvm.i32 {alignment = 8} : (!llvm.i64) -> (!llvm<"i32*">)
   llvm.return
 }

 // CHECK-LABEL: @null
 func @null() {
   // CHECK: llvm.mlir.null : !llvm<"i8*">
   %0 = llvm.mlir.null : !llvm<"i8*">
   // CHECK: llvm.mlir.null : !llvm<"{ void (i32, void ()*)*, i64 }*">
   %1 = llvm.mlir.null : !llvm<"{void(i32, void()*)*, i64}*">
   llvm.return
 }

 // CHECK-LABEL: @atomicrmw
 func @atomicrmw(%ptr : !llvm<"float*">, %val : !llvm.float) {
   // CHECK: llvm.atomicrmw fadd %{{.*}}, %{{.*}} unordered : !llvm.float
   %0 = llvm.atomicrmw fadd %ptr, %val unordered : !llvm.float
   llvm.return
 }

 // CHECK-LABEL: @cmpxchg
 func @cmpxchg(%ptr : !llvm<"float*">, %cmp : !llvm.float, %new : !llvm.float) {
   // CHECK: llvm.cmpxchg %{{.*}}, %{{.*}}, %{{.*}} acq_rel monotonic : !llvm.float
   %0 = llvm.cmpxchg %ptr, %cmp, %new acq_rel monotonic : !llvm.float
   llvm.return
 }

 llvm.mlir.global external constant @_ZTIi() : !llvm<"i8*">
 llvm.func @bar(!llvm<"i8*">, !llvm<"i8*">, !llvm<"i8*">)
 llvm.func @__gxx_personality_v0(...) -> !llvm.i32

 // CHECK-LABEL: @invokeLandingpad
 llvm.func @invokeLandingpad() -> !llvm.i32 {
 // CHECK-NEXT: %[[a0:[0-9]+]] = llvm.mlir.constant(0 : i32) : !llvm.i32
 // CHECK-NEXT: %{{[0-9]+}} = llvm.mlir.constant(3 : i32) : !llvm.i32
 // CHECK-NEXT: %[[a2:[0-9]+]] = llvm.mlir.constant("\01") : !llvm<"[1 x i8]">
 // CHECK-NEXT: %[[a3:[0-9]+]] = llvm.mlir.null : !llvm<"i8**">
 // CHECK-NEXT: %[[a4:[0-9]+]] = llvm.mlir.null : !llvm<"i8*">
 // CHECK-NEXT: %[[a5:[0-9]+]] = llvm.mlir.addressof @_ZTIi : !llvm<"i8**">
 // CHECK-NEXT: %[[a6:[0-9]+]] = llvm.bitcast %[[a5]] : !llvm<"i8**"> to !llvm<"i8*">
 // CHECK-NEXT: %[[a7:[0-9]+]] = llvm.mlir.constant(1 : i32) : !llvm.i32
 // CHECK-NEXT: %[[a8:[0-9]+]] = llvm.alloca %[[a7]] x !llvm.i8 : (!llvm.i32) -> !llvm<"i8*">
 // CHECK-NEXT: %{{[0-9]+}} = llvm.invoke @foo(%[[a7]]) to ^bb2 unwind ^bb1 : (!llvm.i32) -> !llvm<"{ i32, double, i32 }">
   %0 = llvm.mlir.constant(0 : i32) : !llvm.i32
   %1 = llvm.mlir.constant(3 : i32) : !llvm.i32
   %2 = llvm.mlir.constant("\01") : !llvm<"[1 x i8]">
   %3 = llvm.mlir.null : !llvm<"i8**">
   %4 = llvm.mlir.null : !llvm<"i8*">
   %5 = llvm.mlir.addressof @_ZTIi : !llvm<"i8**">
   %6 = llvm.bitcast %5 : !llvm<"i8**"> to !llvm<"i8*">
   %7 = llvm.mlir.constant(1 : i32) : !llvm.i32
   %8 = llvm.alloca %7 x !llvm.i8 : (!llvm.i32) -> !llvm<"i8*">
   %9 = llvm.invoke @foo(%7) to ^bb2 unwind ^bb1 : (!llvm.i32) -> !llvm<"{ i32, double, i32 }">

 // CHECK-NEXT: ^bb1:
 // CHECK-NEXT:   %{{[0-9]+}} = llvm.landingpad cleanup (catch %[[a3]] : !llvm<"i8**">) (catch %[[a6]] : !llvm<"i8*">) (filter %[[a2]] : !llvm<"[1 x i8]">) : !llvm<"{ i8*, i32 }">
 // CHECK-NEXT:   llvm.br ^bb3
 ^bb1:
   %10 = llvm.landingpad cleanup (catch %3 : !llvm<"i8**">) (catch %6 : !llvm<"i8*">) (filter %2 : !llvm<"[1 x i8]">) : !llvm<"{ i8*, i32 }">
   llvm.br ^bb3

 // CHECK-NEXT: ^bb2:
 // CHECK-NEXT:   llvm.return %[[a7]] : !llvm.i32
 ^bb2:
   llvm.return %7 : !llvm.i32

 // CHECK-NEXT: ^bb3:
 // CHECK-NEXT:   llvm.invoke @bar(%[[a8]], %[[a6]], %[[a4]]) to ^bb2 unwind ^bb1 : (!llvm<"i8*">, !llvm<"i8*">, !llvm<"i8*">) -> ()
 ^bb3:
   llvm.invoke @bar(%8, %6, %4) to ^bb2 unwind ^bb1 : (!llvm<"i8*">, !llvm<"i8*">, !llvm<"i8*">) -> ()

 // CHECK-NEXT: ^bb4:
 // CHECK-NEXT:   llvm.return %[[a0]] : !llvm.i32
 ^bb4:
   llvm.return %0 : !llvm.i32
 }
	// RUN: mlir-opt %s \| mlir-opt \| FileCheck %s

	// CHECK-LABEL: func @ops(%arg0: !llvm.i32, %arg1: !llvm.float)
	func @ops(%arg0 : !llvm.i32, %arg1 : !llvm.float) {
	// Integer arithmetic binary operations.
	//
	// CHECK-NEXT: %0 = llvm.add %arg0, %arg0 : !llvm.i32
	// CHECK-NEXT: %1 = llvm.sub %arg0, %arg0 : !llvm.i32
	// CHECK-NEXT: %2 = llvm.mul %arg0, %arg0 : !llvm.i32
	// CHECK-NEXT: %3 = llvm.udiv %arg0, %arg0 : !llvm.i32
	// CHECK-NEXT: %4 = llvm.sdiv %arg0, %arg0 : !llvm.i32
	// CHECK-NEXT: %5 = llvm.urem %arg0, %arg0 : !llvm.i32
	// CHECK-NEXT: %6 = llvm.srem %arg0, %arg0 : !llvm.i32
	// CHECK-NEXT: %7 = llvm.icmp "ne" %arg0, %arg0 : !llvm.i32
	%0 = llvm.add %arg0, %arg0 : !llvm.i32
	%1 = llvm.sub %arg0, %arg0 : !llvm.i32
	%2 = llvm.mul %arg0, %arg0 : !llvm.i32
	%3 = llvm.udiv %arg0, %arg0 : !llvm.i32
	%4 = llvm.sdiv %arg0, %arg0 : !llvm.i32
	%5 = llvm.urem %arg0, %arg0 : !llvm.i32
	%6 = llvm.srem %arg0, %arg0 : !llvm.i32
	%7 = llvm.icmp "ne" %arg0, %arg0 : !llvm.i32

	// Floating point binary operations.
	//
	// CHECK-NEXT: %8 = llvm.fadd %arg1, %arg1 : !llvm.float
	// CHECK-NEXT: %9 = llvm.fsub %arg1, %arg1 : !llvm.float
	// CHECK-NEXT: %10 = llvm.fmul %arg1, %arg1 : !llvm.float
	// CHECK-NEXT: %11 = llvm.fdiv %arg1, %arg1 : !llvm.float
	// CHECK-NEXT: %12 = llvm.frem %arg1, %arg1 : !llvm.float
	%8 = llvm.fadd %arg1, %arg1 : !llvm.float
	%9 = llvm.fsub %arg1, %arg1 : !llvm.float
	%10 = llvm.fmul %arg1, %arg1 : !llvm.float
	%11 = llvm.fdiv %arg1, %arg1 : !llvm.float
	%12 = llvm.frem %arg1, %arg1 : !llvm.float

	// Memory-related operations.
	//
	// CHECK-NEXT: %13 = llvm.alloca %arg0 x !llvm.double : (!llvm.i32) -> !llvm<"double*">
	// CHECK-NEXT: %14 = llvm.getelementptr %13[%arg0, %arg0] : (!llvm<"double">, !llvm.i32, !llvm.i32) -> !llvm<"double">
	// CHECK-NEXT: %15 = llvm.load %14 : !llvm<"double*">
	// CHECK-NEXT: llvm.store %15, %13 : !llvm<"double*">
	// CHECK-NEXT: %16 = llvm.bitcast %13 : !llvm<"double"> to !llvm<"i64">
	%13 = llvm.alloca %arg0 x !llvm.double : (!llvm.i32) -> !llvm<"double*">
	%14 = llvm.getelementptr %13[%arg0, %arg0] : (!llvm<"double">, !llvm.i32, !llvm.i32) -> !llvm<"double">
	%15 = llvm.load %14 : !llvm<"double*">
	llvm.store %15, %13 : !llvm<"double*">
	%16 = llvm.bitcast %13 : !llvm<"double"> to !llvm<"i64">

	// Function call-related operations.
	//
	// CHECK-NEXT: %17 = llvm.call @foo(%arg0) : (!llvm.i32) -> !llvm<"{ i32, double, i32 }">
	// CHECK-NEXT: %18 = llvm.extractvalue %17[0] : !llvm<"{ i32, double, i32 }">
	// CHECK-NEXT: %19 = llvm.insertvalue %18, %17[2] : !llvm<"{ i32, double, i32 }">
	// CHECK-NEXT: %20 = llvm.mlir.constant(@foo) : !llvm<"{ i32, double, i32 } (i32)*">
	// CHECK-NEXT: %21 = llvm.call %20(%arg0) : (!llvm.i32) -> !llvm<"{ i32, double, i32 }">
	%17 = llvm.call @foo(%arg0) : (!llvm.i32) -> !llvm<"{ i32, double, i32 }">
	%18 = llvm.extractvalue %17[0] : !llvm<"{ i32, double, i32 }">
	%19 = llvm.insertvalue %18, %17[2] : !llvm<"{ i32, double, i32 }">
	%20 = llvm.mlir.constant(@foo) : !llvm<"{ i32, double, i32 } (i32)*">
	%21 = llvm.call %20(%arg0) : (!llvm.i32) -> !llvm<"{ i32, double, i32 }">


	// Terminator operations and their successors.
	//
	// CHECK: llvm.br ^bb1
	llvm.br ^bb1

	^bb1:
	// CHECK: llvm.cond_br %7, ^bb2, ^bb1
	llvm.cond_br %7, ^bb2, ^bb1

	^bb2:
	// CHECK: %22 = llvm.mlir.undef : !llvm<"{ i32, double, i32 }">
	// CHECK-NEXT: %23 = llvm.mlir.constant(42 : i64) : !llvm.i47
	%22 = llvm.mlir.undef : !llvm<"{ i32, double, i32 }">
	%23 = llvm.mlir.constant(42) : !llvm.i47

	// Misc operations.
	// CHECK: %24 = llvm.select %7, %0, %1 : !llvm.i1, !llvm.i32
	%24 = llvm.select %7, %0, %1 : !llvm.i1, !llvm.i32

	// Integer to pointer and pointer to integer conversions.
	//
	// CHECK: %25 = llvm.inttoptr %arg0 : !llvm.i32 to !llvm<"i32*">
	// CHECK-NEXT: %26 = llvm.ptrtoint %25 : !llvm<"i32*"> to !llvm.i32
	%25 = llvm.inttoptr %arg0 : !llvm.i32 to !llvm<"i32*">
	%26 = llvm.ptrtoint %25 : !llvm<"i32*"> to !llvm.i32

	// Extended and Quad floating point
	//
	// CHECK: %27 = llvm.fpext %arg1 : !llvm.float to !llvm.x86_fp80
	// CHECK-NEXT: %28 = llvm.fpext %arg1 : !llvm.float to !llvm.fp128
	%27 = llvm.fpext %arg1 : !llvm.float to !llvm.x86_fp80
	%28 = llvm.fpext %arg1 : !llvm.float to !llvm.fp128

	// CHECK: %29 = llvm.fneg %arg1 : !llvm.float
	%29 = llvm.fneg %arg1 : !llvm.float

	// CHECK: llvm.return
	llvm.return
	}

	// An larger self-contained function.
	// CHECK-LABEL:func @foo(%arg0: !llvm.i32) -> !llvm<"{ i32, double, i32 }"> {
	func @foo(%arg0: !llvm.i32) -> !llvm<"{ i32, double, i32 }"> {
	// CHECK-NEXT: %0 = llvm.mlir.constant(3 : i64) : !llvm.i32
	// CHECK-NEXT: %1 = llvm.mlir.constant(3 : i64) : !llvm.i32
	// CHECK-NEXT: %2 = llvm.mlir.constant(4.200000e+01 : f64) : !llvm.double
	// CHECK-NEXT: %3 = llvm.mlir.constant(4.200000e+01 : f64) : !llvm.double
	// CHECK-NEXT: %4 = llvm.add %0, %1 : !llvm.i32
	// CHECK-NEXT: %5 = llvm.mul %4, %1 : !llvm.i32
	// CHECK-NEXT: %6 = llvm.fadd %2, %3 : !llvm.double
	// CHECK-NEXT: %7 = llvm.fsub %3, %6 : !llvm.double
	// CHECK-NEXT: %8 = llvm.mlir.constant(1 : i64) : !llvm.i1
	// CHECK-NEXT: llvm.cond_br %8, ^bb1(%4 : !llvm.i32), ^bb2(%4 : !llvm.i32)
	%0 = llvm.mlir.constant(3) : !llvm.i32
	%1 = llvm.mlir.constant(3) : !llvm.i32
	%2 = llvm.mlir.constant(4.200000e+01) : !llvm.double
	%3 = llvm.mlir.constant(4.200000e+01) : !llvm.double
	%4 = llvm.add %0, %1 : !llvm.i32
	%5 = llvm.mul %4, %1 : !llvm.i32
	%6 = llvm.fadd %2, %3 : !llvm.double
	%7 = llvm.fsub %3, %6 : !llvm.double
	%8 = llvm.mlir.constant(1) : !llvm.i1
	llvm.cond_br %8, ^bb1(%4 : !llvm.i32), ^bb2(%4 : !llvm.i32)

	// CHECK-NEXT:^bb1(%9: !llvm.i32):
	// CHECK-NEXT: %10 = llvm.call @foo(%9) : (!llvm.i32) -> !llvm<"{ i32, double, i32 }">
	// CHECK-NEXT: %11 = llvm.extractvalue %10[0] : !llvm<"{ i32, double, i32 }">
	// CHECK-NEXT: %12 = llvm.extractvalue %10[1] : !llvm<"{ i32, double, i32 }">
	// CHECK-NEXT: %13 = llvm.extractvalue %10[2] : !llvm<"{ i32, double, i32 }">
	// CHECK-NEXT: %14 = llvm.mlir.undef : !llvm<"{ i32, double, i32 }">
	// CHECK-NEXT: %15 = llvm.insertvalue %5, %14[0] : !llvm<"{ i32, double, i32 }">
	// CHECK-NEXT: %16 = llvm.insertvalue %7, %15[1] : !llvm<"{ i32, double, i32 }">
	// CHECK-NEXT: %17 = llvm.insertvalue %11, %16[2] : !llvm<"{ i32, double, i32 }">
	// CHECK-NEXT: llvm.return %17 : !llvm<"{ i32, double, i32 }">
	^bb1(%9: !llvm.i32):
	%10 = llvm.call @foo(%9) : (!llvm.i32) -> !llvm<"{ i32, double, i32 }">
	%11 = llvm.extractvalue %10[0] : !llvm<"{ i32, double, i32 }">
	%12 = llvm.extractvalue %10[1] : !llvm<"{ i32, double, i32 }">
	%13 = llvm.extractvalue %10[2] : !llvm<"{ i32, double, i32 }">
	%14 = llvm.mlir.undef : !llvm<"{ i32, double, i32 }">
	%15 = llvm.insertvalue %5, %14[0] : !llvm<"{ i32, double, i32 }">
	%16 = llvm.insertvalue %7, %15[1] : !llvm<"{ i32, double, i32 }">
	%17 = llvm.insertvalue %11, %16[2] : !llvm<"{ i32, double, i32 }">
	llvm.return %17 : !llvm<"{ i32, double, i32 }">

	// CHECK-NEXT:^bb2(%18: !llvm.i32): // pred: ^bb0
	// CHECK-NEXT: %19 = llvm.mlir.undef : !llvm<"{ i32, double, i32 }">
	// CHECK-NEXT: %20 = llvm.insertvalue %18, %19[0] : !llvm<"{ i32, double, i32 }">
	// CHECK-NEXT: %21 = llvm.insertvalue %7, %20[1] : !llvm<"{ i32, double, i32 }">
	// CHECK-NEXT: %22 = llvm.insertvalue %5, %21[2] : !llvm<"{ i32, double, i32 }">
	// CHECK-NEXT: llvm.return %22 : !llvm<"{ i32, double, i32 }">
	^bb2(%18: !llvm.i32): // pred: ^bb0
	%19 = llvm.mlir.undef : !llvm<"{ i32, double, i32 }">
	%20 = llvm.insertvalue %18, %19[0] : !llvm<"{ i32, double, i32 }">
	%21 = llvm.insertvalue %7, %20[1] : !llvm<"{ i32, double, i32 }">
	%22 = llvm.insertvalue %5, %21[2] : !llvm<"{ i32, double, i32 }">
	llvm.return %22 : !llvm<"{ i32, double, i32 }">
	}

	// CHECK-LABEL: @casts
	func @casts(%arg0: !llvm.i32, %arg1: !llvm.i64, %arg2: !llvm<"<4 x i32>">,
	%arg3: !llvm<"<4 x i64>">, %arg4: !llvm<"i32*">) {
	// CHECK-NEXT: = llvm.sext %arg0 : !llvm.i32 to !llvm.i56
	%0 = llvm.sext %arg0 : !llvm.i32 to !llvm.i56
	// CHECK-NEXT: = llvm.zext %arg0 : !llvm.i32 to !llvm.i64
	%1 = llvm.zext %arg0 : !llvm.i32 to !llvm.i64
	// CHECK-NEXT: = llvm.trunc %arg1 : !llvm.i64 to !llvm.i56
	%2 = llvm.trunc %arg1 : !llvm.i64 to !llvm.i56
	// CHECK-NEXT: = llvm.sext %arg2 : !llvm<"<4 x i32>"> to !llvm<"<4 x i56>">
	%3 = llvm.sext %arg2 : !llvm<"<4 x i32>"> to !llvm<"<4 x i56>">
	// CHECK-NEXT: = llvm.zext %arg2 : !llvm<"<4 x i32>"> to !llvm<"<4 x i64>">
	%4 = llvm.zext %arg2 : !llvm<"<4 x i32>"> to !llvm<"<4 x i64>">
	// CHECK-NEXT: = llvm.trunc %arg3 : !llvm<"<4 x i64>"> to !llvm<"<4 x i56>">
	%5 = llvm.trunc %arg3 : !llvm<"<4 x i64>"> to !llvm<"<4 x i56>">
	// CHECK-NEXT: = llvm.sitofp %arg0 : !llvm.i32 to !llvm.float
	%6 = llvm.sitofp %arg0 : !llvm.i32 to !llvm.float
	// CHECK-NEXT: = llvm.uitofp %arg0 : !llvm.i32 to !llvm.float
	%7 = llvm.uitofp %arg0 : !llvm.i32 to !llvm.float
	// CHECK-NEXT: = llvm.fptosi %7 : !llvm.float to !llvm.i32
	%8 = llvm.fptosi %7 : !llvm.float to !llvm.i32
	// CHECK-NEXT: = llvm.fptoui %7 : !llvm.float to !llvm.i32
	%9 = llvm.fptoui %7 : !llvm.float to !llvm.i32
	// CHECK-NEXT: = llvm.addrspacecast %arg4 : !llvm<"i32"> to !llvm<"i32 addrspace(2)">
	%10 = llvm.addrspacecast %arg4 : !llvm<"i32"> to !llvm<"i32 addrspace(2)">
	llvm.return
	}

	// CHECK-LABEL: @vect
	func @vect(%arg0: !llvm<"<4 x float>">, %arg1: !llvm.i32, %arg2: !llvm.float) {
	// CHECK-NEXT: = llvm.extractelement {{.*}} : !llvm<"<4 x float>">
	%0 = llvm.extractelement %arg0[%arg1 : !llvm.i32] : !llvm<"<4 x float>">
	// CHECK-NEXT: = llvm.insertelement {{.*}} : !llvm<"<4 x float>">
	%1 = llvm.insertelement %arg2, %arg0[%arg1 : !llvm.i32] : !llvm<"<4 x float>">
	// CHECK-NEXT: = llvm.shufflevector {{.*}} [0 : i32, 0 : i32, 0 : i32, 0 : i32, 7 : i32] : !llvm<"<4 x float>">, !llvm<"<4 x float>">
	%2 = llvm.shufflevector %arg0, %arg0 [0 : i32, 0 : i32, 0 : i32, 0 : i32, 7 : i32] : !llvm<"<4 x float>">, !llvm<"<4 x float>">
	// CHECK-NEXT: = llvm.mlir.constant(dense<1.000000e+00> : vector<4xf32>) : !llvm<"<4 x float>">
	%3 = llvm.mlir.constant(dense<1.0> : vector<4xf32>) : !llvm<"<4 x float>">
	return
	}

	// CHECK-LABEL: @alloca
	func @alloca(%size : !llvm.i64) {
	// CHECK: llvm.alloca %{{.}} x !llvm.i32 : (!llvm.i64) -> !llvm<"i32">
	llvm.alloca %size x !llvm.i32 {alignment = 0} : (!llvm.i64) -> (!llvm<"i32*">)
	// CHECK-NEXT: llvm.alloca %{{.}} x !llvm.i32 {alignment = 8 : i64} : (!llvm.i64) -> !llvm<"i32">
	llvm.alloca %size x !llvm.i32 {alignment = 8} : (!llvm.i64) -> (!llvm<"i32*">)
	llvm.return
	}

	// CHECK-LABEL: @null
	func @null() {
	// CHECK: llvm.mlir.null : !llvm<"i8*">
	%0 = llvm.mlir.null : !llvm<"i8*">
	// CHECK: llvm.mlir.null : !llvm<"{ void (i32, void ()), i64 }*">
	%1 = llvm.mlir.null : !llvm<"{void(i32, void()), i64}*">
	llvm.return
	}

	// CHECK-LABEL: @atomicrmw
	func @atomicrmw(%ptr : !llvm<"float*">, %val : !llvm.float) {
	// CHECK: llvm.atomicrmw fadd %{{.}}, %{{.}} unordered : !llvm.float
	%0 = llvm.atomicrmw fadd %ptr, %val unordered : !llvm.float
	llvm.return
	}

	// CHECK-LABEL: @cmpxchg
	func @cmpxchg(%ptr : !llvm<"float*">, %cmp : !llvm.float, %new : !llvm.float) {
	// CHECK: llvm.cmpxchg %{{.}}, %{{.}}, %{{.*}} acq_rel monotonic : !llvm.float
	%0 = llvm.cmpxchg %ptr, %cmp, %new acq_rel monotonic : !llvm.float
	llvm.return
	}

	llvm.mlir.global external constant @_ZTIi() : !llvm<"i8*">
	llvm.func @bar(!llvm<"i8">, !llvm<"i8">, !llvm<"i8*">)
	llvm.func @__gxx_personality_v0(...) -> !llvm.i32

	// CHECK-LABEL: @invokeLandingpad
	llvm.func @invokeLandingpad() -> !llvm.i32 {
	// CHECK-NEXT: %[[a0:[0-9]+]] = llvm.mlir.constant(0 : i32) : !llvm.i32
	// CHECK-NEXT: %{{[0-9]+}} = llvm.mlir.constant(3 : i32) : !llvm.i32
	// CHECK-NEXT: %[[a2:[0-9]+]] = llvm.mlir.constant("\01") : !llvm<"[1 x i8]">
	// CHECK-NEXT: %[[a3:[0-9]+]] = llvm.mlir.null : !llvm<"i8**">
	// CHECK-NEXT: %[[a4:[0-9]+]] = llvm.mlir.null : !llvm<"i8*">
	// CHECK-NEXT: %[[a5:[0-9]+]] = llvm.mlir.addressof @_ZTIi : !llvm<"i8**">
	// CHECK-NEXT: %[[a6:[0-9]+]] = llvm.bitcast %[[a5]] : !llvm<"i8*"> to !llvm<"i8">
	// CHECK-NEXT: %[[a7:[0-9]+]] = llvm.mlir.constant(1 : i32) : !llvm.i32
	// CHECK-NEXT: %[[a8:[0-9]+]] = llvm.alloca %[[a7]] x !llvm.i8 : (!llvm.i32) -> !llvm<"i8*">
	// CHECK-NEXT: %{{[0-9]+}} = llvm.invoke @foo(%[[a7]]) to ^bb2 unwind ^bb1 : (!llvm.i32) -> !llvm<"{ i32, double, i32 }">
	%0 = llvm.mlir.constant(0 : i32) : !llvm.i32
	%1 = llvm.mlir.constant(3 : i32) : !llvm.i32
	%2 = llvm.mlir.constant("\01") : !llvm<"[1 x i8]">
	%3 = llvm.mlir.null : !llvm<"i8**">
	%4 = llvm.mlir.null : !llvm<"i8*">
	%5 = llvm.mlir.addressof @_ZTIi : !llvm<"i8**">
	%6 = llvm.bitcast %5 : !llvm<"i8*"> to !llvm<"i8">
	%7 = llvm.mlir.constant(1 : i32) : !llvm.i32
	%8 = llvm.alloca %7 x !llvm.i8 : (!llvm.i32) -> !llvm<"i8*">
	%9 = llvm.invoke @foo(%7) to ^bb2 unwind ^bb1 : (!llvm.i32) -> !llvm<"{ i32, double, i32 }">

	// CHECK-NEXT: ^bb1:
	// CHECK-NEXT: %{{[0-9]+}} = llvm.landingpad cleanup (catch %[[a3]] : !llvm<"i8*">) (catch %[[a6]] : !llvm<"i8">) (filter %[[a2]] : !llvm<"[1 x i8]">) : !llvm<"{ i8*, i32 }">
	// CHECK-NEXT: llvm.br ^bb3
	^bb1:
	%10 = llvm.landingpad cleanup (catch %3 : !llvm<"i8*">) (catch %6 : !llvm<"i8">) (filter %2 : !llvm<"[1 x i8]">) : !llvm<"{ i8*, i32 }">
	llvm.br ^bb3

	// CHECK-NEXT: ^bb2:
	// CHECK-NEXT: llvm.return %[[a7]] : !llvm.i32
	^bb2:
	llvm.return %7 : !llvm.i32

	// CHECK-NEXT: ^bb3:
	// CHECK-NEXT: llvm.invoke @bar(%[[a8]], %[[a6]], %[[a4]]) to ^bb2 unwind ^bb1 : (!llvm<"i8">, !llvm<"i8">, !llvm<"i8*">) -> ()
	^bb3:
	llvm.invoke @bar(%8, %6, %4) to ^bb2 unwind ^bb1 : (!llvm<"i8">, !llvm<"i8">, !llvm<"i8*">) -> ()

	// CHECK-NEXT: ^bb4:
	// CHECK-NEXT: llvm.return %[[a0]] : !llvm.i32
	^bb4:
	llvm.return %0 : !llvm.i32
	}