; NOTE: Assertions have been autogenerated by utils/update_test_checks.py ; RUN: opt %s -callbrprepare -S -o - | FileCheck %s ; RUN: opt %s -passes=callbrprepare -S -o - | FileCheck %s define i32 @test0() { ; CHECK-LABEL: @test0( ; CHECK-NEXT: entry: ; CHECK-NEXT: [[OUT:%.*]] = callbr i32 asm "# $0", "=r,!i"() ; CHECK-NEXT: to label [[DIRECT:%.*]] [label %entry.indirect_crit_edge] ; CHECK: entry.indirect_crit_edge: ; CHECK-NEXT: [[TMP0:%.*]] = call i32 @llvm.callbr.landingpad.i32(i32 [[OUT]]) ; CHECK-NEXT: br label [[INDIRECT:%.*]] ; CHECK: direct: ; CHECK-NEXT: [[OUT2:%.*]] = callbr i32 asm "# $0", "=r,!i"() ; CHECK-NEXT: to label [[DIRECT2:%.*]] [label %direct.indirect_crit_edge] ; CHECK: direct.indirect_crit_edge: ; CHECK-NEXT: [[TMP1:%.*]] = call i32 @llvm.callbr.landingpad.i32(i32 [[OUT2]]) ; CHECK-NEXT: br label [[INDIRECT]] ; CHECK: direct2: ; CHECK-NEXT: ret i32 0 ; CHECK: indirect: ; CHECK-NEXT: [[OUT3:%.*]] = phi i32 [ [[TMP0]], [[ENTRY_INDIRECT_CRIT_EDGE:%.*]] ], [ [[TMP1]], [[DIRECT_INDIRECT_CRIT_EDGE:%.*]] ] ; CHECK-NEXT: ret i32 [[OUT3]] ; entry: %out = callbr i32 asm "# $0", "=r,!i"() to label %direct [label %indirect] direct: %out2 = callbr i32 asm "# $0", "=r,!i"() to label %direct2 [label %indirect] direct2: ret i32 0 indirect: %out3 = phi i32 [%out, %entry], [%out2, %direct] ret i32 %out3 } ; Don't split edges unless they are critical, and callbr produces output, and ; that output is used. ; Here we have none of the above. define i32 @dont_split0() { ; CHECK-LABEL: @dont_split0( ; CHECK-NEXT: entry: ; CHECK-NEXT: callbr void asm "", "!i"() ; CHECK-NEXT: to label [[X:%.*]] [label %y] ; CHECK: x: ; CHECK-NEXT: ret i32 42 ; CHECK: y: ; CHECK-NEXT: ret i32 0 ; entry: callbr void asm "", "!i"() to label %x [label %y] x: ret i32 42 y: ret i32 0 } ; Don't split edges unless they are critical, and callbr produces output, and ; that output is used. ; Here we have output, but no critical edge. ; That said, we ought to insert a callbr landing pad intrinsic call and update ; to use the correct SSA value. define i32 @dont_split1() { ; CHECK-LABEL: @dont_split1( ; CHECK-NEXT: entry: ; CHECK-NEXT: [[TMP0:%.*]] = callbr i32 asm "", "=r,!i"() ; CHECK-NEXT: to label [[X:%.*]] [label %y] ; CHECK: x: ; CHECK-NEXT: ret i32 42 ; CHECK: y: ; CHECK-NEXT: [[TMP1:%.*]] = call i32 @llvm.callbr.landingpad.i32(i32 [[TMP0]]) ; CHECK-NEXT: ret i32 [[TMP1]] ; entry: %0 = callbr i32 asm "", "=r,!i"() to label %x [label %y] x: ret i32 42 y: ret i32 %0 } ; Don't split edges unless they are critical, and callbr produces output, and ; that output is used. ; Here we have a critical edge along an indirect branch, but no output. define i32 @dont_split2() { ; CHECK-LABEL: @dont_split2( ; CHECK-NEXT: entry: ; CHECK-NEXT: callbr void asm "", "!i"() ; CHECK-NEXT: to label [[X:%.*]] [label %y] ; CHECK: x: ; CHECK-NEXT: br label [[Y:%.*]] ; CHECK: y: ; CHECK-NEXT: [[TMP0:%.*]] = phi i32 [ 0, [[X]] ], [ 42, [[ENTRY:%.*]] ] ; CHECK-NEXT: ret i32 [[TMP0]] ; entry: callbr void asm "", "!i"() to label %x [label %y] x: br label %y y: %0 = phi i32 [ 0, %x ], [ 42, %entry ] ret i32 %0 } ; Don't split edges unless they are critical, and callbr produces output, and ; that output is used. ; Here we're missing a use. define i32 @dont_split3() { ; CHECK-LABEL: @dont_split3( ; CHECK-NEXT: entry: ; CHECK-NEXT: [[TMP0:%.*]] = callbr i32 asm "", "=r,!i"() ; CHECK-NEXT: to label [[X:%.*]] [label %v] ; CHECK: x: ; CHECK-NEXT: br label [[V:%.*]] ; CHECK: v: ; CHECK-NEXT: ret i32 42 ; entry: %0 = callbr i32 asm "", "=r,!i"() to label %x [label %v] x: br label %v v: ret i32 42 } ; Don't split edges unless they are critical, and callbr produces output, and ; that output is used. ; Here we have output and a critical edge along an indirect branch. define i32 @split_me0() { ; CHECK-LABEL: @split_me0( ; CHECK-NEXT: entry: ; CHECK-NEXT: [[TMP0:%.*]] = callbr i32 asm "", "=r,!i"() ; CHECK-NEXT: to label [[X:%.*]] [label %entry.y_crit_edge] ; CHECK: entry.y_crit_edge: ; CHECK-NEXT: [[TMP1:%.*]] = call i32 @llvm.callbr.landingpad.i32(i32 [[TMP0]]) ; CHECK-NEXT: br label [[Y:%.*]] ; CHECK: x: ; CHECK-NEXT: br label [[Y]] ; CHECK: y: ; CHECK-NEXT: [[TMP2:%.*]] = phi i32 [ [[TMP1]], [[ENTRY_Y_CRIT_EDGE:%.*]] ], [ 42, [[X]] ] ; CHECK-NEXT: ret i32 [[TMP2]] ; entry: %0 = callbr i32 asm "", "=r,!i"() to label %x [label %y] x: br label %y y: %1 = phi i32 [ %0, %entry ], [ 42, %x ] ret i32 %1 } ; Here we have output and a critical edge along an indirect branch. ; Ensure that if we repeat the indirect destination, that we only split it ; once. define i32 @split_me1(i1 %z) { ; CHECK-LABEL: @split_me1( ; CHECK-NEXT: entry: ; CHECK-NEXT: br i1 [[Z:%.*]], label [[W:%.*]], label [[V:%.*]] ; CHECK: w: ; CHECK-NEXT: [[TMP0:%.*]] = callbr i32 asm "", "=r,!i,!i"() ; CHECK-NEXT: to label [[X:%.*]] [label [[W_V_CRIT_EDGE:%.*]], label %w.v_crit_edge] ; CHECK: w.v_crit_edge: ; CHECK-NEXT: [[TMP1:%.*]] = call i32 @llvm.callbr.landingpad.i32(i32 [[TMP0]]) ; CHECK-NEXT: br label [[V]] ; CHECK: x: ; CHECK-NEXT: ret i32 42 ; CHECK: v: ; CHECK-NEXT: [[TMP2:%.*]] = phi i32 [ [[TMP1]], [[W_V_CRIT_EDGE]] ], [ undef, [[ENTRY:%.*]] ] ; CHECK-NEXT: ret i32 [[TMP2]] ; entry: br i1 %z, label %w, label %v w: %0 = callbr i32 asm "", "=r,!i,!i"() to label %x [label %v, label %v] x: ret i32 42 v: %1 = phi i32 [%0, %w], [%0, %w], [undef, %entry] ret i32 %1 } ; A more interessting case of @split_me1. Check that we still only split the ; critical edge from w to v once. define i32 @split_me2(i1 %z) { ; CHECK-LABEL: @split_me2( ; CHECK-NEXT: entry: ; CHECK-NEXT: br i1 [[Z:%.*]], label [[W:%.*]], label [[V:%.*]] ; CHECK: w: ; CHECK-NEXT: [[TMP0:%.*]] = callbr i32 asm "", "=r,!i,!i"() ; CHECK-NEXT: to label [[X:%.*]] [label [[W_V_CRIT_EDGE:%.*]], label %w.v_crit_edge] ; CHECK: w.v_crit_edge: ; CHECK-NEXT: [[TMP1:%.*]] = call i32 @llvm.callbr.landingpad.i32(i32 [[TMP0]]) ; CHECK-NEXT: br label [[V]] ; CHECK: x: ; CHECK-NEXT: ret i32 42 ; CHECK: v: ; CHECK-NEXT: [[TMP2:%.*]] = phi i32 [ [[TMP1]], [[W_V_CRIT_EDGE]] ], [ 42, [[ENTRY:%.*]] ] ; CHECK-NEXT: ret i32 [[TMP2]] ; entry: br i1 %z, label %w, label %v w: %0 = callbr i32 asm "", "=r,!i,!i"() to label %x [label %v, label %v] x: ret i32 42 v: %1 = phi i32 [ %0, %w ], [ 42, %entry ], [ %0, %w ] ret i32 %1 } ; Here we have a diamond with no phi. define i32 @dont_split4() { ; CHECK-LABEL: @dont_split4( ; CHECK-NEXT: entry: ; CHECK-NEXT: [[TMP0:%.*]] = callbr i32 asm "", "=r,!i"() ; CHECK-NEXT: to label [[X:%.*]] [label %y] ; CHECK: x: ; CHECK-NEXT: br label [[OUT:%.*]] ; CHECK: y: ; CHECK-NEXT: [[TMP1:%.*]] = call i32 @llvm.callbr.landingpad.i32(i32 [[TMP0]]) ; CHECK-NEXT: br label [[OUT]] ; CHECK: out: ; CHECK-NEXT: [[TMP2:%.*]] = phi i32 [ [[TMP1]], [[Y:%.*]] ], [ [[TMP0]], [[X]] ] ; CHECK-NEXT: ret i32 [[TMP2]] ; entry: %0 = callbr i32 asm "", "=r,!i"() to label %x [label %y] x: br label %out y: br label %out out: ret i32 %0 } ; Triangle with no phi. define i32 @dont_split5() { ; CHECK-LABEL: @dont_split5( ; CHECK-NEXT: entry: ; CHECK-NEXT: [[TMP0:%.*]] = callbr i32 asm "", "=r,!i"() ; CHECK-NEXT: to label [[OUT:%.*]] [label %y] ; CHECK: y: ; CHECK-NEXT: [[TMP1:%.*]] = call i32 @llvm.callbr.landingpad.i32(i32 [[TMP0]]) ; CHECK-NEXT: br label [[OUT]] ; CHECK: out: ; CHECK-NEXT: [[TMP2:%.*]] = phi i32 [ [[TMP1]], [[Y:%.*]] ], [ [[TMP0]], [[ENTRY:%.*]] ] ; CHECK-NEXT: ret i32 [[TMP2]] ; entry: %0 = callbr i32 asm "", "=r,!i"() to label %out [label %y] y: br label %out out: ret i32 %0 } ; Triangle the other way with no phi. define i32 @split_me3() { ; CHECK-LABEL: @split_me3( ; CHECK-NEXT: entry: ; CHECK-NEXT: [[TMP0:%.*]] = callbr i32 asm "", "=r,!i"() ; CHECK-NEXT: to label [[Y:%.*]] [label %entry.out_crit_edge] ; CHECK: entry.out_crit_edge: ; CHECK-NEXT: [[TMP1:%.*]] = call i32 @llvm.callbr.landingpad.i32(i32 [[TMP0]]) ; CHECK-NEXT: br label [[OUT:%.*]] ; CHECK: y: ; CHECK-NEXT: br label [[OUT]] ; CHECK: out: ; CHECK-NEXT: [[TMP2:%.*]] = phi i32 [ [[TMP1]], [[ENTRY_OUT_CRIT_EDGE:%.*]] ], [ [[TMP0]], [[Y]] ] ; CHECK-NEXT: ret i32 [[TMP2]] ; entry: %0 = callbr i32 asm "", "=r,!i"() to label %y [label %out] y: br label %out out: ret i32 %0 } ; Test callbr looping back on itself. define i32 @dont_split6(i32 %0) { ; CHECK-LABEL: @dont_split6( ; CHECK-NEXT: entry: ; CHECK-NEXT: br label [[LOOP:%.*]] ; CHECK: loop: ; CHECK-NEXT: [[TMP1:%.*]] = phi i32 [ [[TMP0:%.*]], [[ENTRY:%.*]] ], [ [[TMP3:%.*]], [[LOOP_LOOP_CRIT_EDGE:%.*]] ] ; CHECK-NEXT: [[TMP2:%.*]] = callbr i32 asm "", "=r,0,!i"(i32 [[TMP1]]) ; CHECK-NEXT: to label [[EXIT:%.*]] [label %loop.loop_crit_edge] ; CHECK: loop.loop_crit_edge: ; CHECK-NEXT: [[TMP3]] = call i32 @llvm.callbr.landingpad.i32(i32 [[TMP2]]) ; CHECK-NEXT: br label [[LOOP]] ; CHECK: exit: ; CHECK-NEXT: ret i32 0 ; entry: br label %loop loop: %1 = phi i32 [%0, %entry], [%2, %loop] %2 = callbr i32 asm "", "=r,0,!i"(i32 %1) to label %exit [label %loop] exit: ret i32 0 } ; Test same direct+indirect dest no phi. define i32 @split_me4() { ; CHECK-LABEL: @split_me4( ; CHECK-NEXT: entry: ; CHECK-NEXT: [[TMP0:%.*]] = callbr i32 asm "", "=r,!i"() ; CHECK-NEXT: to label [[SAME:%.*]] [label %entry.same_crit_edge] ; CHECK: entry.same_crit_edge: ; CHECK-NEXT: [[TMP1:%.*]] = call i32 @llvm.callbr.landingpad.i32(i32 [[TMP0]]) ; CHECK-NEXT: br label [[SAME]] ; CHECK: same: ; CHECK-NEXT: [[TMP2:%.*]] = phi i32 [ [[TMP1]], [[ENTRY_SAME_CRIT_EDGE:%.*]] ], [ [[TMP0]], [[ENTRY:%.*]] ] ; CHECK-NEXT: ret i32 [[TMP2]] ; entry: %0 = callbr i32 asm "", "=r,!i"() to label %same [label %same] same: ret i32 %0 } ; Test same direct+indirect dest w/ phi. define i32 @split_me5() { ; CHECK-LABEL: @split_me5( ; CHECK-NEXT: entry: ; CHECK-NEXT: [[TMP0:%.*]] = callbr i32 asm "", "=r,!i"() ; CHECK-NEXT: to label [[SAME:%.*]] [label %entry.same_crit_edge] ; CHECK: entry.same_crit_edge: ; CHECK-NEXT: [[TMP1:%.*]] = call i32 @llvm.callbr.landingpad.i32(i32 [[TMP0]]) ; CHECK-NEXT: br label [[SAME]] ; CHECK: same: ; CHECK-NEXT: [[TMP2:%.*]] = phi i32 [ [[TMP1]], [[ENTRY_SAME_CRIT_EDGE:%.*]] ], [ [[TMP0]], [[ENTRY:%.*]] ] ; CHECK-NEXT: ret i32 [[TMP2]] ; entry: %0 = callbr i32 asm "", "=r,!i"() to label %same [label %same] same: %1 = phi i32 [%0, %entry], [%0, %entry] ret i32 %1 } ; "The Devil's cross" (i.e. two asm goto with conflicting physreg constraints ; going to the same destination). define i64 @split_me6() { ; CHECK-LABEL: @split_me6( ; CHECK-NEXT: entry: ; CHECK-NEXT: [[TMP0:%.*]] = callbr i64 asm "# $0 $1", "={dx},!i"() ; CHECK-NEXT: to label [[ASM_FALLTHROUGH:%.*]] [label %entry.foo_crit_edge] ; CHECK: entry.foo_crit_edge: ; CHECK-NEXT: [[TMP1:%.*]] = call i64 @llvm.callbr.landingpad.i64(i64 [[TMP0]]) ; CHECK-NEXT: br label [[FOO:%.*]] ; CHECK: asm.fallthrough: ; CHECK-NEXT: [[TMP2:%.*]] = callbr i64 asm "# $0 $1", "={bx},!i"() ; CHECK-NEXT: to label [[FOO]] [label %asm.fallthrough.foo_crit_edge] ; CHECK: asm.fallthrough.foo_crit_edge: ; CHECK-NEXT: [[TMP3:%.*]] = call i64 @llvm.callbr.landingpad.i64(i64 [[TMP2]]) ; CHECK-NEXT: br label [[FOO]] ; CHECK: foo: ; CHECK-NEXT: [[X_0:%.*]] = phi i64 [ [[TMP1]], [[ENTRY_FOO_CRIT_EDGE:%.*]] ], [ [[TMP3]], [[ASM_FALLTHROUGH_FOO_CRIT_EDGE:%.*]] ], [ [[TMP2]], [[ASM_FALLTHROUGH]] ] ; CHECK-NEXT: ret i64 [[X_0]] ; entry: %0 = callbr i64 asm "# $0 $1", "={dx},!i"() to label %asm.fallthrough [label %foo] asm.fallthrough: %1 = callbr i64 asm "# $0 $1", "={bx},!i"() to label %foo [label %foo] foo: %x.0 = phi i64 [ %0, %entry ], [ %1, %asm.fallthrough ], [ %1, %asm.fallthrough ] ret i64 %x.0 } ; Test the result of the callbr having multiple uses to avoid iterator ; invalidation bugs in CallBrPrepare::UpdateSSA. define i32 @multiple_split() { ; CHECK-LABEL: @multiple_split( ; CHECK-NEXT: entry: ; CHECK-NEXT: [[TMP0:%.*]] = callbr i32 asm "", "=r,!i"() ; CHECK-NEXT: to label [[X:%.*]] [label %y] ; CHECK: x: ; CHECK-NEXT: ret i32 42 ; CHECK: y: ; CHECK-NEXT: [[TMP1:%.*]] = call i32 @llvm.callbr.landingpad.i32(i32 [[TMP0]]) ; CHECK-NEXT: [[TMP2:%.*]] = add nsw i32 [[TMP1]], [[TMP1]] ; CHECK-NEXT: ret i32 [[TMP2]] ; entry: %0 = callbr i32 asm "", "=r,!i"() to label %x [label %y] x: ret i32 42 y: %1 = add nsw i32 %0, %0 ret i32 %1 }