test/CodeGen/WebAssembly/irreducible-cfg.mir - llvm - Git at Google

 # RUN: llc -mtriple=wasm32-unknown-unknown -run-pass wasm-fix-irreducible-control-flow %s -o - | FileCheck %s

 # This tests if we correctly create at most 2 routing blocks per entry block,
 # and also whether those routing blocks are generated in the correct place. If
 # one of the predecessor is the layout predecessor of an entry, a routing block
 # for the entry should be generated right after the layout predecessor.

 --- |
   target datalayout = "e-m:e-p:32:32-i64:64-n32:64-S128"
   target triple = "wasm32-unknown-unknown"

   define void @test0() {
   pred0:
     ret void
   pred1:
     ret void
   entry0:
     ret void
   entry1:
     ret void
   }
 ...

 ---
 # CHECK-LABEL: test0
 name: test0
 liveins:
   - { reg: '$arguments' }
 body: |
   bb.0.pred0:
     successors: %bb.1, %bb.2
     liveins: $arguments
     %0:i32 = CONST_I32 100, implicit-def $arguments
     BR_IF %bb.2, %0:i32, implicit-def $arguments
   ; CHECK: bb.0.pred0:
     ; CHECK: BR_IF %bb.2, %0, implicit-def $arguments

   bb.1.pred1:
   ; predecessors: %bb.1
     successors: %bb.2, %bb.3
     BR_IF %bb.3, %0:i32, implicit-def $arguments
   ; CHECK: bb.1.pred1:
     ; CHECK: BR_IF %bb.7, %0, implicit-def $arguments
     ; This falls through to bb.2, so we don't need an additional BR here
     ; CHECK-NOT: BR

   ; Routing block for entry0, when predecessor is outside the loop
   ; This routing block is shared between the two predecessors: pred0 and pred1.
   ; CHECK: bb.2:
     ; CHECK: %1:i32 = CONST_I32 0, implicit-def $arguments
     ; CHECK: BR %bb.6, implicit-def $arguments

   bb.2.entry0:
   ; predecessors: %bb.0, %bb.1, %bb.1
     successors: %bb.3
     BR %bb.3, implicit-def $arguments
   ; CHECK: bb.3.entry0:
     ; CHECK: BR %bb.4, implicit-def $arguments

   ; Routing block for entry1, when predecessor is inside the loop
   ; CHECK: bb.4:
     ; CHECK: %1:i32 = CONST_I32 1, implicit-def $arguments
     ; CHECK: BR %bb.6, implicit-def $arguments

   bb.3.entry1:
   ; predecessors: %bb.1, %bb.2
     successors: %bb.2
     BR %bb.2, implicit-def $arguments
   ; CHECK: bb.5.entry1:
     ; CHECK: BR %bb.8, implicit-def $arguments

   ; Dispatch block
   ; CHECK: bb.6:
     ; CHECK: BR_TABLE_I32 %1, %bb.3, %bb.5, %bb.5, implicit-def $arguments

   ; Routing block for entry1, when predecessor is outside the loop
   ; CHECK: bb.7:
     ; CHECK: %1:i32 = CONST_I32 1, implicit-def $arguments
     ; CHECK: BR %bb.6, implicit-def $arguments

   ; Routing block for entry0, when predecessor is inside the loop
   ; CHECK: bb.8:
     ; CHECK: %1:i32 = CONST_I32 0, implicit-def $arguments
     ; CHECK: BR %bb.6, implicit-def $arguments
	# RUN: llc -mtriple=wasm32-unknown-unknown -run-pass wasm-fix-irreducible-control-flow %s -o - \| FileCheck %s

	# This tests if we correctly create at most 2 routing blocks per entry block,
	# and also whether those routing blocks are generated in the correct place. If
	# one of the predecessor is the layout predecessor of an entry, a routing block
	# for the entry should be generated right after the layout predecessor.

	--- \|
	target datalayout = "e-m:e-p:32:32-i64:64-n32:64-S128"
	target triple = "wasm32-unknown-unknown"

	define void @test0() {
	pred0:
	ret void
	pred1:
	ret void
	entry0:
	ret void
	entry1:
	ret void
	}
	...

	---
	# CHECK-LABEL: test0
	name: test0
	liveins:
	- { reg: '$arguments' }
	body: \|
	bb.0.pred0:
	successors: %bb.1, %bb.2
	liveins: $arguments
	%0:i32 = CONST_I32 100, implicit-def $arguments
	BR_IF %bb.2, %0:i32, implicit-def $arguments
	; CHECK: bb.0.pred0:
	; CHECK: BR_IF %bb.2, %0, implicit-def $arguments

	bb.1.pred1:
	; predecessors: %bb.1
	successors: %bb.2, %bb.3
	BR_IF %bb.3, %0:i32, implicit-def $arguments
	; CHECK: bb.1.pred1:
	; CHECK: BR_IF %bb.7, %0, implicit-def $arguments
	; This falls through to bb.2, so we don't need an additional BR here
	; CHECK-NOT: BR

	; Routing block for entry0, when predecessor is outside the loop
	; This routing block is shared between the two predecessors: pred0 and pred1.
	; CHECK: bb.2:
	; CHECK: %1:i32 = CONST_I32 0, implicit-def $arguments
	; CHECK: BR %bb.6, implicit-def $arguments

	bb.2.entry0:
	; predecessors: %bb.0, %bb.1, %bb.1
	successors: %bb.3
	BR %bb.3, implicit-def $arguments
	; CHECK: bb.3.entry0:
	; CHECK: BR %bb.4, implicit-def $arguments

	; Routing block for entry1, when predecessor is inside the loop
	; CHECK: bb.4:
	; CHECK: %1:i32 = CONST_I32 1, implicit-def $arguments
	; CHECK: BR %bb.6, implicit-def $arguments

	bb.3.entry1:
	; predecessors: %bb.1, %bb.2
	successors: %bb.2
	BR %bb.2, implicit-def $arguments
	; CHECK: bb.5.entry1:
	; CHECK: BR %bb.8, implicit-def $arguments

	; Dispatch block
	; CHECK: bb.6:
	; CHECK: BR_TABLE_I32 %1, %bb.3, %bb.5, %bb.5, implicit-def $arguments

	; Routing block for entry1, when predecessor is outside the loop
	; CHECK: bb.7:
	; CHECK: %1:i32 = CONST_I32 1, implicit-def $arguments
	; CHECK: BR %bb.6, implicit-def $arguments

	; Routing block for entry0, when predecessor is inside the loop
	; CHECK: bb.8:
	; CHECK: %1:i32 = CONST_I32 0, implicit-def $arguments
	; CHECK: BR %bb.6, implicit-def $arguments