// RUN: mlir-opt -allow-unregistered-dialect %s -pass-pipeline='func(canonicalize)' -split-input-file | FileCheck %s // Check the simple case of single operation blocks with a return. // CHECK-LABEL: func @return_blocks( func @return_blocks() { // CHECK: "foo.cond_br"()[^bb1, ^bb1] // CHECK: ^bb1: // CHECK-NEXT: return // CHECK-NOT: ^bb2 "foo.cond_br"() [^bb1, ^bb2] : () -> () ^bb1: return ^bb2: return } // Check the case of identical blocks with matching arguments. // CHECK-LABEL: func @matching_arguments( func @matching_arguments() -> i32 { // CHECK: "foo.cond_br"()[^bb1, ^bb1] // CHECK: ^bb1(%{{.*}}: i32): // CHECK-NEXT: return // CHECK-NOT: ^bb2 "foo.cond_br"() [^bb1, ^bb2] : () -> () ^bb1(%arg0 : i32): return %arg0 : i32 ^bb2(%arg1 : i32): return %arg1 : i32 } // Check that no merging occurs if there is an operand mismatch and we can't // update th predecessor. // CHECK-LABEL: func @mismatch_unknown_terminator func @mismatch_unknown_terminator(%arg0 : i32, %arg1 : i32) -> i32 { // CHECK: "foo.cond_br"()[^bb1, ^bb2] "foo.cond_br"() [^bb1, ^bb2] : () -> () ^bb1: return %arg0 : i32 ^bb2: return %arg1 : i32 } // Check that merging does occurs if there is an operand mismatch and we can // update th predecessor. // CHECK-LABEL: func @mismatch_operands // CHECK-SAME: %[[COND:.*]]: i1, %[[ARG0:.*]]: i32, %[[ARG1:.*]]: i32 func @mismatch_operands(%cond : i1, %arg0 : i32, %arg1 : i32) -> i32 { // CHECK: %[[RES:.*]] = select %[[COND]], %[[ARG0]], %[[ARG1]] // CHECK: return %[[RES]] cond_br %cond, ^bb1, ^bb2 ^bb1: return %arg0 : i32 ^bb2: return %arg1 : i32 } // Check the same as above, but with pre-existing arguments. // CHECK-LABEL: func @mismatch_operands_matching_arguments( // CHECK-SAME: %[[COND:.*]]: i1, %[[ARG0:.*]]: i32, %[[ARG1:.*]]: i32 func @mismatch_operands_matching_arguments(%cond : i1, %arg0 : i32, %arg1 : i32) -> (i32, i32) { // CHECK: %[[RES0:.*]] = select %[[COND]], %[[ARG1]], %[[ARG0]] // CHECK: %[[RES1:.*]] = select %[[COND]], %[[ARG0]], %[[ARG1]] // CHECK: return %[[RES1]], %[[RES0]] cond_br %cond, ^bb1(%arg1 : i32), ^bb2(%arg0 : i32) ^bb1(%arg2 : i32): return %arg0, %arg2 : i32, i32 ^bb2(%arg3 : i32): return %arg1, %arg3 : i32, i32 } // Check that merging does not occur if the uses of the arguments differ. // CHECK-LABEL: func @mismatch_argument_uses( func @mismatch_argument_uses(%cond : i1, %arg0 : i32, %arg1 : i32) -> (i32, i32) { // CHECK: cond_br %{{.*}}, ^bb1(%{{.*}}), ^bb2 cond_br %cond, ^bb1(%arg1 : i32), ^bb2(%arg0 : i32) ^bb1(%arg2 : i32): return %arg0, %arg2 : i32, i32 ^bb2(%arg3 : i32): return %arg3, %arg1 : i32, i32 } // Check that merging does not occur if the types of the arguments differ. // CHECK-LABEL: func @mismatch_argument_types( func @mismatch_argument_types(%cond : i1, %arg0 : i32, %arg1 : i16) { // CHECK: cond_br %{{.*}}, ^bb1(%{{.*}}), ^bb2 cond_br %cond, ^bb1(%arg0 : i32), ^bb2(%arg1 : i16) ^bb1(%arg2 : i32): "foo.return"(%arg2) : (i32) -> () ^bb2(%arg3 : i16): "foo.return"(%arg3) : (i16) -> () } // Check that merging does not occur if the number of the arguments differ. // CHECK-LABEL: func @mismatch_argument_count( func @mismatch_argument_count(%cond : i1, %arg0 : i32) { // CHECK: cond_br %{{.*}}, ^bb1(%{{.*}}), ^bb2 cond_br %cond, ^bb1(%arg0 : i32), ^bb2 ^bb1(%arg2 : i32): "foo.return"(%arg2) : (i32) -> () ^bb2: "foo.return"() : () -> () } // Check that merging does not occur if the operations differ. // CHECK-LABEL: func @mismatch_operations( func @mismatch_operations(%cond : i1) { // CHECK: cond_br %{{.*}}, ^bb1, ^bb2 cond_br %cond, ^bb1, ^bb2 ^bb1: "foo.return"() : () -> () ^bb2: return } // Check that merging does not occur if the number of operations differ. // CHECK-LABEL: func @mismatch_operation_count( func @mismatch_operation_count(%cond : i1) { // CHECK: cond_br %{{.*}}, ^bb1, ^bb2 cond_br %cond, ^bb1, ^bb2 ^bb1: "foo.op"() : () -> () return ^bb2: return } // Check that merging does not occur if the blocks contain regions. // CHECK-LABEL: func @contains_regions( func @contains_regions(%cond : i1) { // CHECK: cond_br %{{.*}}, ^bb1, ^bb2 cond_br %cond, ^bb1, ^bb2 ^bb1: scf.if %cond { "foo.op"() : () -> () } return ^bb2: scf.if %cond { "foo.op"() : () -> () } return } // Check that properly handles back edges. // CHECK-LABEL: func @mismatch_loop( // CHECK-SAME: %[[ARG:.*]]: i1, %[[ARG2:.*]]: i1 func @mismatch_loop(%cond : i1, %cond2 : i1) { // CHECK-NEXT: %[[LOOP_CARRY:.*]] = "foo.op" // CHECK: cond_br %{{.*}}, ^bb1(%[[ARG2]] : i1), ^bb2 %cond3 = "foo.op"() : () -> (i1) cond_br %cond, ^bb2, ^bb3 ^bb1: // CHECK: ^bb1(%[[ARG3:.*]]: i1): // CHECK-NEXT: cond_br %[[ARG3]], ^bb1(%[[LOOP_CARRY]] : i1), ^bb2 cond_br %cond3, ^bb1, ^bb3 ^bb2: cond_br %cond2, ^bb1, ^bb3 ^bb3: // CHECK: ^bb2: // CHECK-NEXT: return return } // Check that blocks are not merged if the types of the operands differ. // CHECK-LABEL: func @mismatch_operand_types( func @mismatch_operand_types(%arg0 : i1, %arg1 : memref, %arg2 : memref) { %c0_i32 = constant 0 : i32 %true = constant true br ^bb1 ^bb1: cond_br %arg0, ^bb2, ^bb3 ^bb2: // CHECK: store %{{.*}}, %{{.*}} : memref store %c0_i32, %arg1[] : memref br ^bb1 ^bb3: // CHECK: store %{{.*}}, %{{.*}} : memref store %true, %arg2[] : memref br ^bb1 } // Check that it is illegal to merge blocks containing an operand // with an external user. Incorrectly performing the optimization // anyways will result in print(merged, merged) rather than // distinct operands. func private @print(%arg0: i32, %arg1: i32) // CHECK-LABEL: @nomerge func @nomerge(%arg0: i32, %i: i32) { %c1_i32 = constant 1 : i32 %icmp = cmpi "slt", %i, %arg0 : i32 cond_br %icmp, ^bb2, ^bb3 ^bb2: // pred: ^bb1 %ip1 = addi %i, %c1_i32 : i32 br ^bb4(%ip1 : i32) ^bb7: // pred: ^bb5 %jp1 = addi %j, %c1_i32 : i32 br ^bb4(%jp1 : i32) ^bb4(%j: i32): // 2 preds: ^bb2, ^bb7 %jcmp = cmpi "slt", %j, %arg0 : i32 // CHECK-NOT: call @print(%[[arg1:.+]], %[[arg1]]) call @print(%j, %ip1) : (i32, i32) -> () cond_br %jcmp, ^bb7, ^bb3 ^bb3: // pred: ^bb1 return }