test/SILOptimizer/simplify_cfg_jump_thread_crash.sil - third_party/swift - Git at Google

 // RUN: %target-sil-opt -enable-sil-verify-all %s -jumpthread-simplify-cfg | %FileCheck %s

 sil_stage canonical

 import Builtin
 import Swift
 import SwiftShims

 // CHECK-LABEL: sil @test_jump_threading
 // CHECK: bb4(%{{[0-9]+}} : $Builtin.Int64):
 // CHECK-NEXT: br bb1
 sil @test_jump_threading : $@convention(thin)  (Builtin.Int1) -> () {
 bb0(%0 : $Builtin.Int1):
   cond_br %0, bb2, bb3

 // Blocks are handled from last to first. Block bb1 is placed here so that its argument
 // is not optimized before jump threading is done in bb2 and bb3.
 bb1(%i4 : $Builtin.Int64):
   %f3 = function_ref @get_condition : $@convention(thin)  (Builtin.Int64) -> Builtin.Int1
   %c1 = apply %f3(%i3) : $@convention(thin)  (Builtin.Int64) -> Builtin.Int1
   %i5 = integer_literal $Builtin.Int64, 27
   cond_br %c1, bb1(%i5 : $Builtin.Int64), bb5

 bb2:
   %f1 = function_ref @get_int1 : $@convention(thin)  () -> Builtin.Int64
   %i1 = apply %f1() : $@convention(thin)  () -> Builtin.Int64
   br bb4(%i1 : $Builtin.Int64)

 bb3:
   %f2 = function_ref @get_int1 : $@convention(thin)  () -> Builtin.Int64
   %i2 = apply %f2() : $@convention(thin)  () -> Builtin.Int64
   br bb4(%i2 : $Builtin.Int64)

 // Jump threading must not be done for this block because the argument %i3 is also
 // used in bb1.
 bb4(%i3 : $Builtin.Int64):
   br bb1(%i3 : $Builtin.Int64)

 bb5:
   %r1 = tuple ()
   return %r1 : $()

 }

 sil @get_int1 : $@convention(thin)  () -> Builtin.Int64
 sil @get_int2 : $@convention(thin)  () -> Builtin.Int64
 sil @get_condition : $@convention(thin)  (Builtin.Int64) -> Builtin.Int1


 public final class AA {
 }
 public final class BB {
   @_hasStorage internal weak final var n:  BB!
   @_hasStorage internal final var o: AA!
 }

 // Test that SimplifyCFG does not hang when compiling an infinite loop with switch_enum.
 // CHECK-LABEL: test_inifite_loop
 sil hidden @test_inifite_loop : $@convention(method) (@owned BB) -> () {
 bb0(%0 : $BB):
   %31 = enum $Optional<BB>, #Optional.some!enumelt.1, %0 : $BB
   br bb4(%31 : $Optional<BB>)

 bb4(%36 : $Optional<BB>):
   switch_enum %36 : $Optional<BB>, case #Optional.some!enumelt.1: bb6, default bb5

 bb5:
   br bb7

 bb6:
   %39 = unchecked_enum_data %36 : $Optional<BB>, #Optional.some!enumelt.1
   %40 = ref_element_addr %39 : $BB, #BB.o
   %41 = load %40 : $*Optional<AA>
   release_value %41 : $Optional<AA>
   br bb7

 bb7:
   switch_enum %36 : $Optional<BB>, case #Optional.none!enumelt: bb8, case #Optional.some!enumelt.1: bb9

 bb8:
   br bb4(%36 : $Optional<BB>)

 bb9:
   %48 = unchecked_enum_data %36 : $Optional<BB>, #Optional.some!enumelt.1
   %49 = ref_element_addr %48 : $BB, #BB.n
   %50 = load_weak %49 : $*@sil_weak Optional<BB>
   release_value %36 : $Optional<BB>
   switch_enum %50 : $Optional<BB>, case #Optional.some!enumelt.1: bb11, case #Optional.none!enumelt: bb10

 bb10:
   br bb4(%50 : $Optional<BB>)

 bb11:
   %54 = unchecked_enum_data %50 : $Optional<BB>, #Optional.some!enumelt.1
   %55 = ref_to_raw_pointer %54 : $BB to $Builtin.RawPointer
   %56 = ref_to_raw_pointer %0 : $BB to $Builtin.RawPointer
   %57 = builtin "cmp_eq_RawPointer"(%55 : $Builtin.RawPointer, %56 : $Builtin.RawPointer) : $Builtin.Int1
   cond_br %57, bb13, bb12

 bb12:
   br bb4(%50 : $Optional<BB>)

 bb13:
   release_value %50 : $Optional<BB>
   strong_release %0 : $BB
   %65 = tuple ()
   return %65 : $()
 }

 sil @some_function : $@convention(thin) (AA) -> Optional<AA>

 // Another test for checking that SimplifyCFG does not hang.
 // CHECK-LABEL: test_other_infinite_loop
 sil hidden @test_other_infinite_loop : $@convention(method) (@owned AA) -> () {
 bb0(%5 : $AA):
   strong_retain %5 : $AA
   %6 = enum $Optional<AA>, #Optional.some!enumelt.1, %5 : $AA
   br bb1(%6 : $Optional<AA>)

 bb1(%8 : $Optional<AA>):
   retain_value %8 : $Optional<AA>
   switch_enum %8 : $Optional<AA>, case #Optional.some!enumelt.1: bb3, default bb2

 bb2:
   release_value %8 : $Optional<AA>
   br bb6

 bb3:
   cond_br undef, bb4, bb5

 bb4:
   %85 = tuple ()
   return %85 : $()

 bb5:
   br bb6

 bb6:
   switch_enum %8 : $Optional<AA>, case #Optional.none!enumelt: bb7, default bb8

 bb7:
   br bb9(%8 : $Optional<AA>)

 bb8:
   %23 = unchecked_enum_data %8 : $Optional<AA>, #Optional.some!enumelt.1
   strong_retain %23 : $AA
   %25 = function_ref @some_function : $@convention(thin) (AA) -> Optional<AA>
   %26 = apply %25(%23) : $@convention(thin) (AA) -> Optional<AA>
   strong_release %23 : $AA
   br bb9(%26 : $Optional<AA>)

 bb9(%29 : $Optional<AA>):
   release_value %8 : $Optional<AA>
   br bb1(%29 : $Optional<AA>)

 }
	// RUN: %target-sil-opt -enable-sil-verify-all %s -jumpthread-simplify-cfg \| %FileCheck %s

	sil_stage canonical

	import Builtin
	import Swift
	import SwiftShims

	// CHECK-LABEL: sil @test_jump_threading
	// CHECK: bb4(%{{[0-9]+}} : $Builtin.Int64):
	// CHECK-NEXT: br bb1
	sil @test_jump_threading : $@convention(thin) (Builtin.Int1) -> () {
	bb0(%0 : $Builtin.Int1):
	cond_br %0, bb2, bb3

	// Blocks are handled from last to first. Block bb1 is placed here so that its argument
	// is not optimized before jump threading is done in bb2 and bb3.
	bb1(%i4 : $Builtin.Int64):
	%f3 = function_ref @get_condition : $@convention(thin) (Builtin.Int64) -> Builtin.Int1
	%c1 = apply %f3(%i3) : $@convention(thin) (Builtin.Int64) -> Builtin.Int1
	%i5 = integer_literal $Builtin.Int64, 27
	cond_br %c1, bb1(%i5 : $Builtin.Int64), bb5

	bb2:
	%f1 = function_ref @get_int1 : $@convention(thin) () -> Builtin.Int64
	%i1 = apply %f1() : $@convention(thin) () -> Builtin.Int64
	br bb4(%i1 : $Builtin.Int64)

	bb3:
	%f2 = function_ref @get_int1 : $@convention(thin) () -> Builtin.Int64
	%i2 = apply %f2() : $@convention(thin) () -> Builtin.Int64
	br bb4(%i2 : $Builtin.Int64)

	// Jump threading must not be done for this block because the argument %i3 is also
	// used in bb1.
	bb4(%i3 : $Builtin.Int64):
	br bb1(%i3 : $Builtin.Int64)

	bb5:
	%r1 = tuple ()
	return %r1 : $()

	}

	sil @get_int1 : $@convention(thin) () -> Builtin.Int64
	sil @get_int2 : $@convention(thin) () -> Builtin.Int64
	sil @get_condition : $@convention(thin) (Builtin.Int64) -> Builtin.Int1


	public final class AA {
	}
	public final class BB {
	@_hasStorage internal weak final var n: BB!
	@_hasStorage internal final var o: AA!
	}

	// Test that SimplifyCFG does not hang when compiling an infinite loop with switch_enum.
	// CHECK-LABEL: test_inifite_loop
	sil hidden @test_inifite_loop : $@convention(method) (@owned BB) -> () {
	bb0(%0 : $BB):
	%31 = enum $Optional<BB>, #Optional.some!enumelt.1, %0 : $BB
	br bb4(%31 : $Optional<BB>)

	bb4(%36 : $Optional<BB>):
	switch_enum %36 : $Optional<BB>, case #Optional.some!enumelt.1: bb6, default bb5

	bb5:
	br bb7

	bb6:
	%39 = unchecked_enum_data %36 : $Optional<BB>, #Optional.some!enumelt.1
	%40 = ref_element_addr %39 : $BB, #BB.o
	%41 = load %40 : $*Optional<AA>
	release_value %41 : $Optional<AA>
	br bb7

	bb7:
	switch_enum %36 : $Optional<BB>, case #Optional.none!enumelt: bb8, case #Optional.some!enumelt.1: bb9

	bb8:
	br bb4(%36 : $Optional<BB>)

	bb9:
	%48 = unchecked_enum_data %36 : $Optional<BB>, #Optional.some!enumelt.1
	%49 = ref_element_addr %48 : $BB, #BB.n
	%50 = load_weak %49 : $*@sil_weak Optional<BB>
	release_value %36 : $Optional<BB>
	switch_enum %50 : $Optional<BB>, case #Optional.some!enumelt.1: bb11, case #Optional.none!enumelt: bb10

	bb10:
	br bb4(%50 : $Optional<BB>)

	bb11:
	%54 = unchecked_enum_data %50 : $Optional<BB>, #Optional.some!enumelt.1
	%55 = ref_to_raw_pointer %54 : $BB to $Builtin.RawPointer
	%56 = ref_to_raw_pointer %0 : $BB to $Builtin.RawPointer
	%57 = builtin "cmp_eq_RawPointer"(%55 : $Builtin.RawPointer, %56 : $Builtin.RawPointer) : $Builtin.Int1
	cond_br %57, bb13, bb12

	bb12:
	br bb4(%50 : $Optional<BB>)

	bb13:
	release_value %50 : $Optional<BB>
	strong_release %0 : $BB
	%65 = tuple ()
	return %65 : $()
	}

	sil @some_function : $@convention(thin) (AA) -> Optional<AA>

	// Another test for checking that SimplifyCFG does not hang.
	// CHECK-LABEL: test_other_infinite_loop
	sil hidden @test_other_infinite_loop : $@convention(method) (@owned AA) -> () {
	bb0(%5 : $AA):
	strong_retain %5 : $AA
	%6 = enum $Optional<AA>, #Optional.some!enumelt.1, %5 : $AA
	br bb1(%6 : $Optional<AA>)

	bb1(%8 : $Optional<AA>):
	retain_value %8 : $Optional<AA>
	switch_enum %8 : $Optional<AA>, case #Optional.some!enumelt.1: bb3, default bb2

	bb2:
	release_value %8 : $Optional<AA>
	br bb6

	bb3:
	cond_br undef, bb4, bb5

	bb4:
	%85 = tuple ()
	return %85 : $()

	bb5:
	br bb6

	bb6:
	switch_enum %8 : $Optional<AA>, case #Optional.none!enumelt: bb7, default bb8

	bb7:
	br bb9(%8 : $Optional<AA>)

	bb8:
	%23 = unchecked_enum_data %8 : $Optional<AA>, #Optional.some!enumelt.1
	strong_retain %23 : $AA
	%25 = function_ref @some_function : $@convention(thin) (AA) -> Optional<AA>
	%26 = apply %25(%23) : $@convention(thin) (AA) -> Optional<AA>
	strong_release %23 : $AA
	br bb9(%26 : $Optional<AA>)

	bb9(%29 : $Optional<AA>):
	release_value %8 : $Optional<AA>
	br bb1(%29 : $Optional<AA>)

	}