mlir/test/Transforms/sccp.mlir - llvm-project - Git at Google

 // RUN: mlir-opt -allow-unregistered-dialect %s -pass-pipeline="builtin.func(sccp)" -split-input-file | FileCheck %s

 /// Check simple forward constant propagation without any control flow.

 // CHECK-LABEL: func @no_control_flow
 func @no_control_flow(%arg0: i32) -> i32 {
   // CHECK: %[[CST:.*]] = arith.constant 1 : i32
   // CHECK: return %[[CST]] : i32

   %cond = arith.constant true
   %cst_1 = arith.constant 1 : i32
   %select = select %cond, %cst_1, %arg0 : i32
   return %select : i32
 }

 /// Check that a constant is properly propagated when only one edge of a branch
 /// is taken.

 // CHECK-LABEL: func @simple_control_flow
 func @simple_control_flow(%arg0 : i32) -> i32 {
   // CHECK: %[[CST:.*]] = arith.constant 1 : i32

   %cond = arith.constant true
   %1 = arith.constant 1 : i32
   cond_br %cond, ^bb1, ^bb2(%arg0 : i32)

 ^bb1:
   br ^bb2(%1 : i32)

 ^bb2(%arg : i32):
   // CHECK: ^bb2(%{{.*}}: i32):
   // CHECK: return %[[CST]] : i32

   return %arg : i32
 }

 /// Check that the arguments go to overdefined if the branch cannot detect when
 /// a specific successor is taken.

 // CHECK-LABEL: func @simple_control_flow_overdefined
 func @simple_control_flow_overdefined(%arg0 : i32, %arg1 : i1) -> i32 {
   %1 = arith.constant 1 : i32
   cond_br %arg1, ^bb1, ^bb2(%arg0 : i32)

 ^bb1:
   br ^bb2(%1 : i32)

 ^bb2(%arg : i32):
   // CHECK: ^bb2(%[[ARG:.*]]: i32):
   // CHECK: return %[[ARG]] : i32

   return %arg : i32
 }

 /// Check that the arguments go to overdefined if there are conflicting
 /// constants.

 // CHECK-LABEL: func @simple_control_flow_constant_overdefined
 func @simple_control_flow_constant_overdefined(%arg0 : i32, %arg1 : i1) -> i32 {
   %1 = arith.constant 1 : i32
   %2 = arith.constant 2 : i32
   cond_br %arg1, ^bb1, ^bb2(%arg0 : i32)

 ^bb1:
   br ^bb2(%2 : i32)

 ^bb2(%arg : i32):
   // CHECK: ^bb2(%[[ARG:.*]]: i32):
   // CHECK: return %[[ARG]] : i32

   return %arg : i32
 }

 /// Check that the arguments go to overdefined if the branch is unknown.

 // CHECK-LABEL: func @unknown_terminator
 func @unknown_terminator(%arg0 : i32, %arg1 : i1) -> i32 {
   %1 = arith.constant 1 : i32
   "foo.cond_br"() [^bb1, ^bb2] : () -> ()

 ^bb1:
   br ^bb2(%1 : i32)

 ^bb2(%arg : i32):
   // CHECK: ^bb2(%[[ARG:.*]]: i32):
   // CHECK: return %[[ARG]] : i32

   return %arg : i32
 }

 /// Check that arguments are properly merged across loop-like control flow.

 func private @ext_cond_fn() -> i1

 // CHECK-LABEL: func @simple_loop
 func @simple_loop(%arg0 : i32, %cond1 : i1) -> i32 {
   // CHECK: %[[CST:.*]] = arith.constant 1 : i32

   %cst_1 = arith.constant 1 : i32
   cond_br %cond1, ^bb1(%cst_1 : i32), ^bb2(%cst_1 : i32)

 ^bb1(%iv: i32):
   // CHECK: ^bb1(%{{.*}}: i32):
   // CHECK-NEXT: %[[COND:.*]] = call @ext_cond_fn()
   // CHECK-NEXT: cond_br %[[COND]], ^bb1(%[[CST]] : i32), ^bb2(%[[CST]] : i32)

   %cst_0 = arith.constant 0 : i32
   %res = arith.addi %iv, %cst_0 : i32
   %cond2 = call @ext_cond_fn() : () -> i1
   cond_br %cond2, ^bb1(%res : i32), ^bb2(%res : i32)

 ^bb2(%arg : i32):
   // CHECK: ^bb2(%{{.*}}: i32):
   // CHECK: return %[[CST]] : i32

   return %arg : i32
 }

 /// Test that we can properly propagate within inner control, and in situations
 /// where the executable edges within the CFG are sensitive to the current state
 /// of the analysis.

 // CHECK-LABEL: func @simple_loop_inner_control_flow
 func @simple_loop_inner_control_flow(%arg0 : i32) -> i32 {
   // CHECK-DAG: %[[CST:.*]] = arith.constant 1 : i32
   // CHECK-DAG: %[[TRUE:.*]] = arith.constant true

   %cst_1 = arith.constant 1 : i32
   br ^bb1(%cst_1 : i32)

 ^bb1(%iv: i32):
   %cond2 = call @ext_cond_fn() : () -> i1
   cond_br %cond2, ^bb5(%iv : i32), ^bb2

 ^bb2:
   // CHECK: ^bb2:
   // CHECK: cond_br %[[TRUE]], ^bb3, ^bb4

   %cst_20 = arith.constant 20 : i32
   %cond = arith.cmpi ult, %iv, %cst_20 : i32
   cond_br %cond, ^bb3, ^bb4

 ^bb3:
   // CHECK: ^bb3:
   // CHECK: br ^bb1(%[[CST]] : i32)

   %cst_1_2 = arith.constant 1 : i32
   br ^bb1(%cst_1_2 : i32)

 ^bb4:
   %iv_inc = arith.addi %iv, %cst_1 : i32
   br ^bb1(%iv_inc : i32)

 ^bb5(%result: i32):
   // CHECK: ^bb5(%{{.*}}: i32):
   // CHECK: return %[[CST]] : i32

   return %result : i32
 }

 /// Check that arguments go to overdefined when loop backedges produce a
 /// conflicting value.

 func private @ext_cond_and_value_fn() -> (i1, i32)

 // CHECK-LABEL: func @simple_loop_overdefined
 func @simple_loop_overdefined(%arg0 : i32, %cond1 : i1) -> i32 {
   %cst_1 = arith.constant 1 : i32
   cond_br %cond1, ^bb1(%cst_1 : i32), ^bb2(%cst_1 : i32)

 ^bb1(%iv: i32):
   %cond2, %res = call @ext_cond_and_value_fn() : () -> (i1, i32)
   cond_br %cond2, ^bb1(%res : i32), ^bb2(%res : i32)

 ^bb2(%arg : i32):
   // CHECK: ^bb2(%[[ARG:.*]]: i32):
   // CHECK: return %[[ARG]] : i32

   return %arg : i32
 }

 // Check that we reprocess executable edges when information changes.

 // CHECK-LABEL: func @recheck_executable_edge
 func @recheck_executable_edge(%cond0: i1) -> (i1, i1) {
   %true = arith.constant true
   %false = arith.constant false
   cond_br %cond0, ^bb_1a, ^bb2(%false : i1)
 ^bb_1a:
   br ^bb2(%true : i1)

 ^bb2(%x: i1):
   // CHECK: ^bb2(%[[X:.*]]: i1):
   br ^bb3(%x : i1)

 ^bb3(%y: i1):
   // CHECK: ^bb3(%[[Y:.*]]: i1):
   // CHECK: return %[[X]], %[[Y]]
   return %x, %y : i1, i1
 }
	// RUN: mlir-opt -allow-unregistered-dialect %s -pass-pipeline="builtin.func(sccp)" -split-input-file \| FileCheck %s

	/// Check simple forward constant propagation without any control flow.

	// CHECK-LABEL: func @no_control_flow
	func @no_control_flow(%arg0: i32) -> i32 {
	// CHECK: %[[CST:.*]] = arith.constant 1 : i32
	// CHECK: return %[[CST]] : i32

	%cond = arith.constant true
	%cst_1 = arith.constant 1 : i32
	%select = select %cond, %cst_1, %arg0 : i32
	return %select : i32
	}

	/// Check that a constant is properly propagated when only one edge of a branch
	/// is taken.

	// CHECK-LABEL: func @simple_control_flow
	func @simple_control_flow(%arg0 : i32) -> i32 {
	// CHECK: %[[CST:.*]] = arith.constant 1 : i32

	%cond = arith.constant true
	%1 = arith.constant 1 : i32
	cond_br %cond, ^bb1, ^bb2(%arg0 : i32)

	^bb1:
	br ^bb2(%1 : i32)

	^bb2(%arg : i32):
	// CHECK: ^bb2(%{{.*}}: i32):
	// CHECK: return %[[CST]] : i32

	return %arg : i32
	}

	/// Check that the arguments go to overdefined if the branch cannot detect when
	/// a specific successor is taken.

	// CHECK-LABEL: func @simple_control_flow_overdefined
	func @simple_control_flow_overdefined(%arg0 : i32, %arg1 : i1) -> i32 {
	%1 = arith.constant 1 : i32
	cond_br %arg1, ^bb1, ^bb2(%arg0 : i32)

	^bb1:
	br ^bb2(%1 : i32)

	^bb2(%arg : i32):
	// CHECK: ^bb2(%[[ARG:.*]]: i32):
	// CHECK: return %[[ARG]] : i32

	return %arg : i32
	}

	/// Check that the arguments go to overdefined if there are conflicting
	/// constants.

	// CHECK-LABEL: func @simple_control_flow_constant_overdefined
	func @simple_control_flow_constant_overdefined(%arg0 : i32, %arg1 : i1) -> i32 {
	%1 = arith.constant 1 : i32
	%2 = arith.constant 2 : i32
	cond_br %arg1, ^bb1, ^bb2(%arg0 : i32)

	^bb1:
	br ^bb2(%2 : i32)

	^bb2(%arg : i32):
	// CHECK: ^bb2(%[[ARG:.*]]: i32):
	// CHECK: return %[[ARG]] : i32

	return %arg : i32
	}

	/// Check that the arguments go to overdefined if the branch is unknown.

	// CHECK-LABEL: func @unknown_terminator
	func @unknown_terminator(%arg0 : i32, %arg1 : i1) -> i32 {
	%1 = arith.constant 1 : i32
	"foo.cond_br"() [^bb1, ^bb2] : () -> ()

	^bb1:
	br ^bb2(%1 : i32)

	^bb2(%arg : i32):
	// CHECK: ^bb2(%[[ARG:.*]]: i32):
	// CHECK: return %[[ARG]] : i32

	return %arg : i32
	}

	/// Check that arguments are properly merged across loop-like control flow.

	func private @ext_cond_fn() -> i1

	// CHECK-LABEL: func @simple_loop
	func @simple_loop(%arg0 : i32, %cond1 : i1) -> i32 {
	// CHECK: %[[CST:.*]] = arith.constant 1 : i32

	%cst_1 = arith.constant 1 : i32
	cond_br %cond1, ^bb1(%cst_1 : i32), ^bb2(%cst_1 : i32)

	^bb1(%iv: i32):
	// CHECK: ^bb1(%{{.*}}: i32):
	// CHECK-NEXT: %[[COND:.*]] = call @ext_cond_fn()
	// CHECK-NEXT: cond_br %[[COND]], ^bb1(%[[CST]] : i32), ^bb2(%[[CST]] : i32)

	%cst_0 = arith.constant 0 : i32
	%res = arith.addi %iv, %cst_0 : i32
	%cond2 = call @ext_cond_fn() : () -> i1
	cond_br %cond2, ^bb1(%res : i32), ^bb2(%res : i32)

	^bb2(%arg : i32):
	// CHECK: ^bb2(%{{.*}}: i32):
	// CHECK: return %[[CST]] : i32

	return %arg : i32
	}

	/// Test that we can properly propagate within inner control, and in situations
	/// where the executable edges within the CFG are sensitive to the current state
	/// of the analysis.

	// CHECK-LABEL: func @simple_loop_inner_control_flow
	func @simple_loop_inner_control_flow(%arg0 : i32) -> i32 {
	// CHECK-DAG: %[[CST:.*]] = arith.constant 1 : i32
	// CHECK-DAG: %[[TRUE:.*]] = arith.constant true

	%cst_1 = arith.constant 1 : i32
	br ^bb1(%cst_1 : i32)

	^bb1(%iv: i32):
	%cond2 = call @ext_cond_fn() : () -> i1
	cond_br %cond2, ^bb5(%iv : i32), ^bb2

	^bb2:
	// CHECK: ^bb2:
	// CHECK: cond_br %[[TRUE]], ^bb3, ^bb4

	%cst_20 = arith.constant 20 : i32
	%cond = arith.cmpi ult, %iv, %cst_20 : i32
	cond_br %cond, ^bb3, ^bb4

	^bb3:
	// CHECK: ^bb3:
	// CHECK: br ^bb1(%[[CST]] : i32)

	%cst_1_2 = arith.constant 1 : i32
	br ^bb1(%cst_1_2 : i32)

	^bb4:
	%iv_inc = arith.addi %iv, %cst_1 : i32
	br ^bb1(%iv_inc : i32)

	^bb5(%result: i32):
	// CHECK: ^bb5(%{{.*}}: i32):
	// CHECK: return %[[CST]] : i32

	return %result : i32
	}

	/// Check that arguments go to overdefined when loop backedges produce a
	/// conflicting value.

	func private @ext_cond_and_value_fn() -> (i1, i32)

	// CHECK-LABEL: func @simple_loop_overdefined
	func @simple_loop_overdefined(%arg0 : i32, %cond1 : i1) -> i32 {
	%cst_1 = arith.constant 1 : i32
	cond_br %cond1, ^bb1(%cst_1 : i32), ^bb2(%cst_1 : i32)

	^bb1(%iv: i32):
	%cond2, %res = call @ext_cond_and_value_fn() : () -> (i1, i32)
	cond_br %cond2, ^bb1(%res : i32), ^bb2(%res : i32)

	^bb2(%arg : i32):
	// CHECK: ^bb2(%[[ARG:.*]]: i32):
	// CHECK: return %[[ARG]] : i32

	return %arg : i32
	}

	// Check that we reprocess executable edges when information changes.

	// CHECK-LABEL: func @recheck_executable_edge
	func @recheck_executable_edge(%cond0: i1) -> (i1, i1) {
	%true = arith.constant true
	%false = arith.constant false
	cond_br %cond0, ^bb_1a, ^bb2(%false : i1)
	^bb_1a:
	br ^bb2(%true : i1)

	^bb2(%x: i1):
	// CHECK: ^bb2(%[[X:.*]]: i1):
	br ^bb3(%x : i1)

	^bb3(%y: i1):
	// CHECK: ^bb3(%[[Y:.*]]: i1):
	// CHECK: return %[[X]], %[[Y]]
	return %x, %y : i1, i1
	}