third_party/llvm-7.0/llvm/test/Analysis/BlockFrequencyInfo/irreducible.ll - SwiftShader - Git at Google

 ; RUN: opt < %s -analyze -block-freq | FileCheck %s
 ; RUN: opt < %s -passes='print<block-freq>' -disable-output 2>&1 | FileCheck %s

 ; A loop with multiple exits isn't irreducible.  It should be handled
 ; correctly.
 ;
 ; CHECK-LABEL: Printing analysis {{.*}} for function 'multiexit':
 ; CHECK-NEXT: block-frequency-info: multiexit
 define void @multiexit(i1 %x) {
 ; CHECK-NEXT: entry: float = 1.0, int = [[ENTRY:[0-9]+]]
 entry:
   br label %loop.1

 ; CHECK-NEXT: loop.1: float = 2.0,
 loop.1:
   br i1 %x, label %exit.1, label %loop.2, !prof !0

 ; CHECK-NEXT: loop.2: float = 1.75,
 loop.2:
   br i1 %x, label %exit.2, label %loop.1, !prof !1

 ; CHECK-NEXT: exit.1: float = 0.25,
 exit.1:
   br label %return

 ; CHECK-NEXT: exit.2: float = 0.75,
 exit.2:
   br label %return

 ; CHECK-NEXT: return: float = 1.0, int = [[ENTRY]]
 return:
   ret void
 }

 !0 = !{!"branch_weights", i32 1, i32 7}
 !1 = !{!"branch_weights", i32 3, i32 4}

 ; Irreducible control flow
 ; ========================
 ;
 ; LoopInfo defines a loop as a non-trivial SCC dominated by a single block,
 ; called the header.  A given loop, L, can have sub-loops, which are loops
 ; within the subgraph of L that excludes the header.
 ;
 ; In addition to loops, -block-freq has limited support for irreducible SCCs,
 ; which are SCCs with multiple entry blocks.  Irreducible SCCs are discovered
 ; on they fly, and modelled as loops with multiple headers.
 ;
 ; The headers of irreducible sub-SCCs consist of its entry blocks and all nodes
 ; that are targets of a backedge within it (excluding backedges within true
 ; sub-loops).
 ;
 ; -block-freq is currently designed to act like a block is inserted that
 ; intercepts all the edges to the headers.  All backedges and entries point to
 ; this block.  Its successors are the headers, which split the frequency
 ; evenly.
 ;
 ; There are a number of testcases below.  Only the first two have detailed
 ; explanations.
 ;
 ; Testcase #1
 ; ===========
 ;
 ; In this case c1 and c2 should have frequencies of 15/7 and 13/7,
 ; respectively.  To calculate this, consider assigning 1.0 to entry, and
 ; distributing frequency iteratively (to infinity).  At the first iteration,
 ; entry gives 3/4 to c1 and 1/4 to c2.  At every step after, c1 and c2 give 3/4
 ; of what they have to each other.  Somehow, all of it comes out to exit.
 ;
 ;       c1 = 3/4 + 1/4*3/4 + 3/4*3^2/4^2 + 1/4*3^3/4^3 + 3/4*3^3/4^3 + ...
 ;       c2 = 1/4 + 3/4*3/4 + 1/4*3^2/4^2 + 3/4*3^3/4^3 + 1/4*3^3/4^3 + ...
 ;
 ; Simplify by splitting up the odd and even terms of the series and taking out
 ; factors so that the infite series matches:
 ;
 ;       c1 =  3/4 *(9^0/16^0 + 9^1/16^1 + 9^2/16^2 + ...)
 ;          +  3/16*(9^0/16^0 + 9^1/16^1 + 9^2/16^2 + ...)
 ;       c2 =  1/4 *(9^0/16^0 + 9^1/16^1 + 9^2/16^2 + ...)
 ;          +  9/16*(9^0/16^0 + 9^1/16^1 + 9^2/16^2 + ...)
 ;
 ;       c1 = 15/16*(9^0/16^0 + 9^1/16^1 + 9^2/16^2 + ...)
 ;       c2 = 13/16*(9^0/16^0 + 9^1/16^1 + 9^2/16^2 + ...)
 ;
 ; Since this geometric series sums to 16/7:
 ;
 ;       c1 = 15/7
 ;       c2 = 13/7
 ;
 ; If we treat c1 and c2 as members of the same loop, the exit frequency of the
 ; loop as a whole is 1/4, so the loop scale should be 4.  Summing c1 and c2
 ; gives 28/7, or 4.0, which is nice confirmation of the math above.
 ;
 ; -block-freq currently treats the two nodes as equals.
 define void @multientry(i1 %x) {
 ; CHECK-LABEL: Printing analysis {{.*}} for function 'multientry':
 ; CHECK-NEXT: block-frequency-info: multientry
 entry:
 ; CHECK-NEXT: entry: float = 1.0, int = [[ENTRY:[0-9]+]]
   br i1 %x, label %c1, label %c2, !prof !2

 c1:
 ; CHECK-NEXT: c1: float = 2.0,
 ; The "correct" answer is: float = 2.142857{{[0-9]*}},
   br i1 %x, label %c2, label %exit, !prof !2

 c2:
 ; CHECK-NEXT: c2: float = 2.0,
 ; The "correct" answer is: float = 1.857142{{[0-9]*}},
   br i1 %x, label %c1, label %exit, !prof !2

 exit:
 ; CHECK-NEXT: exit: float = 1.0, int = [[ENTRY]]
   ret void
 }

 !2 = !{!"branch_weights", i32 3, i32 1}

 ; Testcase #2
 ; ===========
 ;
 ; In this case c1 and c2 should be treated as equals in a single loop.  The
 ; exit frequency is 1/3, so the scaling factor for the loop should be 3.0.  The
 ; loop is entered 2/3 of the time, and c1 and c2 split the total loop frequency
 ; evenly (1/2), so they should each have frequencies of 1.0 (3.0*2/3*1/2).
 ; Another way of computing this result is by assigning 1.0 to entry and showing
 ; that c1 and c2 should accumulate frequencies of:
 ;
 ;       1/3   +   2/9   +   4/27  +   8/81  + ...
 ;     2^0/3^1 + 2^1/3^2 + 2^2/3^3 + 2^3/3^4 + ...
 ;
 ; At the first step, c1 and c2 each get 1/3 of the entry.  At each subsequent
 ; step, c1 and c2 each get 1/3 of what's left in c1 and c2 combined.  This
 ; infinite series sums to 1.
 define void @crossloops(i2 %x) {
 ; CHECK-LABEL: Printing analysis {{.*}} for function 'crossloops':
 ; CHECK-NEXT: block-frequency-info: crossloops
 entry:
 ; CHECK-NEXT: entry: float = 1.0, int = [[ENTRY:[0-9]+]]
   switch i2 %x, label %exit [ i2 1, label %c1
                               i2 2, label %c2 ], !prof !3

 c1:
 ; CHECK-NEXT: c1: float = 1.0,
   switch i2 %x, label %exit [ i2 1, label %c1
                               i2 2, label %c2 ], !prof !3

 c2:
 ; CHECK-NEXT: c2: float = 1.0,
   switch i2 %x, label %exit [ i2 1, label %c1
                               i2 2, label %c2 ], !prof !3

 exit:
 ; CHECK-NEXT: exit: float = 1.0, int = [[ENTRY]]
   ret void
 }

 !3 = !{!"branch_weights", i32 2, i32 2, i32 2}

 ; A true loop with irreducible control flow inside.
 define void @loop_around_irreducible(i1 %x) {
 ; CHECK-LABEL: Printing analysis {{.*}} for function 'loop_around_irreducible':
 ; CHECK-NEXT: block-frequency-info: loop_around_irreducible
 entry:
 ; CHECK-NEXT: entry: float = 1.0, int = [[ENTRY:[0-9]+]]
   br label %loop

 loop:
 ; CHECK-NEXT: loop: float = 4.0, int = [[HEAD:[0-9]+]]
   br i1 %x, label %left, label %right, !prof !4

 left:
 ; CHECK-NEXT: left: float = 8.0,
   br i1 %x, label %right, label %loop.end, !prof !5

 right:
 ; CHECK-NEXT: right: float = 8.0,
   br i1 %x, label %left, label %loop.end, !prof !5

 loop.end:
 ; CHECK-NEXT: loop.end: float = 4.0, int = [[HEAD]]
   br i1 %x, label %loop, label %exit, !prof !5

 exit:
 ; CHECK-NEXT: exit: float = 1.0, int = [[ENTRY]]
   ret void
 }
 !4 = !{!"branch_weights", i32 1, i32 1}
 !5 = !{!"branch_weights", i32 3, i32 1}

 ; Two unrelated irreducible SCCs.
 define void @two_sccs(i1 %x) {
 ; CHECK-LABEL: Printing analysis {{.*}} for function 'two_sccs':
 ; CHECK-NEXT: block-frequency-info: two_sccs
 entry:
 ; CHECK-NEXT: entry: float = 1.0, int = [[ENTRY:[0-9]+]]
   br i1 %x, label %a, label %b, !prof !6

 a:
 ; CHECK-NEXT: a: float = 0.75,
   br i1 %x, label %a.left, label %a.right, !prof !7

 a.left:
 ; CHECK-NEXT: a.left: float = 1.5,
   br i1 %x, label %a.right, label %exit, !prof !6

 a.right:
 ; CHECK-NEXT: a.right: float = 1.5,
   br i1 %x, label %a.left, label %exit, !prof !6

 b:
 ; CHECK-NEXT: b: float = 0.25,
   br i1 %x, label %b.left, label %b.right, !prof !7

 b.left:
 ; CHECK-NEXT: b.left: float = 0.625,
   br i1 %x, label %b.right, label %exit, !prof !8

 b.right:
 ; CHECK-NEXT: b.right: float = 0.625,
   br i1 %x, label %b.left, label %exit, !prof !8

 exit:
 ; CHECK-NEXT: exit: float = 1.0, int = [[ENTRY]]
   ret void
 }
 !6 = !{!"branch_weights", i32 3, i32 1}
 !7 = !{!"branch_weights", i32 1, i32 1}
 !8 = !{!"branch_weights", i32 4, i32 1}

 ; A true loop inside irreducible control flow.
 define void @loop_inside_irreducible(i1 %x) {
 ; CHECK-LABEL: Printing analysis {{.*}} for function 'loop_inside_irreducible':
 ; CHECK-NEXT: block-frequency-info: loop_inside_irreducible
 entry:
 ; CHECK-NEXT: entry: float = 1.0, int = [[ENTRY:[0-9]+]]
   br i1 %x, label %left, label %right, !prof !9

 left:
 ; CHECK-NEXT: left: float = 2.0,
   br i1 %x, label %right, label %exit, !prof !10

 right:
 ; CHECK-NEXT: right: float = 2.0, int = [[RIGHT:[0-9]+]]
   br label %loop

 loop:
 ; CHECK-NEXT: loop: float = 6.0,
   br i1 %x, label %loop, label %right.end, !prof !11

 right.end:
 ; CHECK-NEXT: right.end: float = 2.0, int = [[RIGHT]]
   br i1 %x, label %left, label %exit, !prof !10

 exit:
 ; CHECK-NEXT: exit: float = 1.0, int = [[ENTRY]]
   ret void
 }
 !9 = !{!"branch_weights", i32 1, i32 1}
 !10 = !{!"branch_weights", i32 3, i32 1}
 !11 = !{!"branch_weights", i32 2, i32 1}

 ; Irreducible control flow in a branch that's in a true loop.
 define void @loop_around_branch_with_irreducible(i1 %x) {
 ; CHECK-LABEL: Printing analysis {{.*}} for function 'loop_around_branch_with_irreducible':
 ; CHECK-NEXT: block-frequency-info: loop_around_branch_with_irreducible
 entry:
 ; CHECK-NEXT: entry: float = 1.0, int = [[ENTRY:[0-9]+]]
   br label %loop

 loop:
 ; CHECK-NEXT: loop: float = 2.0, int = [[LOOP:[0-9]+]]
   br i1 %x, label %normal, label %irreducible.entry, !prof !12

 normal:
 ; CHECK-NEXT: normal: float = 1.5,
   br label %loop.end

 irreducible.entry:
 ; CHECK-NEXT: irreducible.entry: float = 0.5, int = [[IRREDUCIBLE:[0-9]+]]
   br i1 %x, label %left, label %right, !prof !13

 left:
 ; CHECK-NEXT: left: float = 1.0,
   br i1 %x, label %right, label %irreducible.exit, !prof !12

 right:
 ; CHECK-NEXT: right: float = 1.0,
   br i1 %x, label %left, label %irreducible.exit, !prof !12

 irreducible.exit:
 ; CHECK-NEXT: irreducible.exit: float = 0.5, int = [[IRREDUCIBLE]]
   br label %loop.end

 loop.end:
 ; CHECK-NEXT: loop.end: float = 2.0, int = [[LOOP]]
   br i1 %x, label %loop, label %exit, !prof !13

 exit:
 ; CHECK-NEXT: exit: float = 1.0, int = [[ENTRY]]
   ret void
 }
 !12 = !{!"branch_weights", i32 3, i32 1}
 !13 = !{!"branch_weights", i32 1, i32 1}

 ; Irreducible control flow between two true loops.
 define void @loop_around_branch_with_irreducible_around_loop(i1 %x) {
 ; CHECK-LABEL: Printing analysis {{.*}} for function 'loop_around_branch_with_irreducible_around_loop':
 ; CHECK-NEXT: block-frequency-info: loop_around_branch_with_irreducible_around_loop
 entry:
 ; CHECK-NEXT: entry: float = 1.0, int = [[ENTRY:[0-9]+]]
   br label %loop

 loop:
 ; CHECK-NEXT: loop: float = 3.0, int = [[LOOP:[0-9]+]]
   br i1 %x, label %normal, label %irreducible, !prof !14

 normal:
 ; CHECK-NEXT: normal: float = 2.0,
   br label %loop.end

 irreducible:
 ; CHECK-NEXT: irreducible: float = 1.0,
   br i1 %x, label %left, label %right, !prof !15

 left:
 ; CHECK-NEXT: left: float = 2.0,
   br i1 %x, label %right, label %loop.end, !prof !16

 right:
 ; CHECK-NEXT: right: float = 2.0, int = [[RIGHT:[0-9]+]]
   br label %right.loop

 right.loop:
 ; CHECK-NEXT: right.loop: float = 10.0,
   br i1 %x, label %right.loop, label %right.end, !prof !17

 right.end:
 ; CHECK-NEXT: right.end: float = 2.0, int = [[RIGHT]]
   br i1 %x, label %left, label %loop.end, !prof !16

 loop.end:
 ; CHECK-NEXT: loop.end: float = 3.0, int = [[LOOP]]
   br i1 %x, label %loop, label %exit, !prof !14

 exit:
 ; CHECK-NEXT: exit: float = 1.0, int = [[ENTRY]]
   ret void
 }
 !14 = !{!"branch_weights", i32 2, i32 1}
 !15 = !{!"branch_weights", i32 1, i32 1}
 !16 = !{!"branch_weights", i32 3, i32 1}
 !17 = !{!"branch_weights", i32 4, i32 1}

 ; An irreducible SCC with a non-header.
 define void @nonheader(i1 %x) {
 ; CHECK-LABEL: Printing analysis {{.*}} for function 'nonheader':
 ; CHECK-NEXT: block-frequency-info: nonheader
 entry:
 ; CHECK-NEXT: entry: float = 1.0, int = [[ENTRY:[0-9]+]]
   br i1 %x, label %left, label %right, !prof !18

 left:
 ; CHECK-NEXT: left: float = 1.0,
   br i1 %x, label %bottom, label %exit, !prof !19

 right:
 ; CHECK-NEXT: right: float = 1.0,
   br i1 %x, label %bottom, label %exit, !prof !20

 bottom:
 ; CHECK-NEXT: bottom: float = 1.0,
   br i1 %x, label %left, label %right, !prof !18

 exit:
 ; CHECK-NEXT: exit: float = 1.0, int = [[ENTRY]]
   ret void
 }
 !18 = !{!"branch_weights", i32 1, i32 1}
 !19 = !{!"branch_weights", i32 1, i32 3}
 !20 = !{!"branch_weights", i32 3, i32 1}

 ; An irreducible SCC with an irreducible sub-SCC.  In the current version of
 ; -block-freq, this means an extra header.
 ;
 ; This testcases uses non-trivial branch weights.  The CHECK statements here
 ; will start to fail if we change -block-freq to be more accurate.  Currently,
 ; loop headers are affected by the weight of their corresponding back edges.
 define void @nonentry_header(i1 %x, i2 %y) {
 ; CHECK-LABEL: Printing analysis {{.*}} for function 'nonentry_header':
 ; CHECK-NEXT: block-frequency-info: nonentry_header
 entry:
 ; CHECK-NEXT: entry: float = 1.0, int = [[ENTRY:[0-9]+]]
   br i1 %x, label %left, label %right, !prof !21

 left:
 ; CHECK-NEXT: left: float = 0.14
   br i1 %x, label %top, label %bottom, !prof !22

 right:
 ; CHECK-NEXT: right: float = 0.42
   br i1 %x, label %top, label %bottom, !prof !22

 top:
 ; CHECK-NEXT: top: float = 8.43
   switch i2 %y, label %exit [ i2 0, label %left
                               i2 1, label %right
                               i2 2, label %bottom ], !prof !23

 bottom:
 ; CHECK-NEXT: bottom: float = 4.5,
   br label %top

 exit:
 ; CHECK-NEXT: exit: float = 1.0, int = [[ENTRY]]
   ret void
 }
 !21 = !{!"branch_weights", i32 2, i32 1}
 !22 = !{!"branch_weights", i32 1, i32 1}
 !23 = !{!"branch_weights", i32 8, i32 1, i32 3, i32 12}
	; RUN: opt < %s -analyze -block-freq \| FileCheck %s
	; RUN: opt < %s -passes='print<block-freq>' -disable-output 2>&1 \| FileCheck %s

	; A loop with multiple exits isn't irreducible. It should be handled
	; correctly.
	;
	; CHECK-LABEL: Printing analysis {{.*}} for function 'multiexit':
	; CHECK-NEXT: block-frequency-info: multiexit
	define void @multiexit(i1 %x) {
	; CHECK-NEXT: entry: float = 1.0, int = [[ENTRY:[0-9]+]]
	entry:
	br label %loop.1

	; CHECK-NEXT: loop.1: float = 2.0,
	loop.1:
	br i1 %x, label %exit.1, label %loop.2, !prof !0

	; CHECK-NEXT: loop.2: float = 1.75,
	loop.2:
	br i1 %x, label %exit.2, label %loop.1, !prof !1

	; CHECK-NEXT: exit.1: float = 0.25,
	exit.1:
	br label %return

	; CHECK-NEXT: exit.2: float = 0.75,
	exit.2:
	br label %return

	; CHECK-NEXT: return: float = 1.0, int = [[ENTRY]]
	return:
	ret void
	}

	!0 = !{!"branch_weights", i32 1, i32 7}
	!1 = !{!"branch_weights", i32 3, i32 4}

	; Irreducible control flow
	; ========================
	;
	; LoopInfo defines a loop as a non-trivial SCC dominated by a single block,
	; called the header. A given loop, L, can have sub-loops, which are loops
	; within the subgraph of L that excludes the header.
	;
	; In addition to loops, -block-freq has limited support for irreducible SCCs,
	; which are SCCs with multiple entry blocks. Irreducible SCCs are discovered
	; on they fly, and modelled as loops with multiple headers.
	;
	; The headers of irreducible sub-SCCs consist of its entry blocks and all nodes
	; that are targets of a backedge within it (excluding backedges within true
	; sub-loops).
	;
	; -block-freq is currently designed to act like a block is inserted that
	; intercepts all the edges to the headers. All backedges and entries point to
	; this block. Its successors are the headers, which split the frequency
	; evenly.
	;
	; There are a number of testcases below. Only the first two have detailed
	; explanations.
	;
	; Testcase #1
	; ===========
	;
	; In this case c1 and c2 should have frequencies of 15/7 and 13/7,
	; respectively. To calculate this, consider assigning 1.0 to entry, and
	; distributing frequency iteratively (to infinity). At the first iteration,
	; entry gives 3/4 to c1 and 1/4 to c2. At every step after, c1 and c2 give 3/4
	; of what they have to each other. Somehow, all of it comes out to exit.
	;
	; c1 = 3/4 + 1/43/4 + 3/43^2/4^2 + 1/43^3/4^3 + 3/43^3/4^3 + ...
	; c2 = 1/4 + 3/43/4 + 1/43^2/4^2 + 3/43^3/4^3 + 1/43^3/4^3 + ...
	;
	; Simplify by splitting up the odd and even terms of the series and taking out
	; factors so that the infite series matches:
	;
	; c1 = 3/4 *(9^0/16^0 + 9^1/16^1 + 9^2/16^2 + ...)
	; + 3/16*(9^0/16^0 + 9^1/16^1 + 9^2/16^2 + ...)
	; c2 = 1/4 *(9^0/16^0 + 9^1/16^1 + 9^2/16^2 + ...)
	; + 9/16*(9^0/16^0 + 9^1/16^1 + 9^2/16^2 + ...)
	;
	; c1 = 15/16*(9^0/16^0 + 9^1/16^1 + 9^2/16^2 + ...)
	; c2 = 13/16*(9^0/16^0 + 9^1/16^1 + 9^2/16^2 + ...)
	;
	; Since this geometric series sums to 16/7:
	;
	; c1 = 15/7
	; c2 = 13/7
	;
	; If we treat c1 and c2 as members of the same loop, the exit frequency of the
	; loop as a whole is 1/4, so the loop scale should be 4. Summing c1 and c2
	; gives 28/7, or 4.0, which is nice confirmation of the math above.
	;
	; -block-freq currently treats the two nodes as equals.
	define void @multientry(i1 %x) {
	; CHECK-LABEL: Printing analysis {{.*}} for function 'multientry':
	; CHECK-NEXT: block-frequency-info: multientry
	entry:
	; CHECK-NEXT: entry: float = 1.0, int = [[ENTRY:[0-9]+]]
	br i1 %x, label %c1, label %c2, !prof !2

	c1:
	; CHECK-NEXT: c1: float = 2.0,
	; The "correct" answer is: float = 2.142857{{[0-9]*}},
	br i1 %x, label %c2, label %exit, !prof !2

	c2:
	; CHECK-NEXT: c2: float = 2.0,
	; The "correct" answer is: float = 1.857142{{[0-9]*}},
	br i1 %x, label %c1, label %exit, !prof !2

	exit:
	; CHECK-NEXT: exit: float = 1.0, int = [[ENTRY]]
	ret void
	}

	!2 = !{!"branch_weights", i32 3, i32 1}

	; Testcase #2
	; ===========
	;
	; In this case c1 and c2 should be treated as equals in a single loop. The
	; exit frequency is 1/3, so the scaling factor for the loop should be 3.0. The
	; loop is entered 2/3 of the time, and c1 and c2 split the total loop frequency
	; evenly (1/2), so they should each have frequencies of 1.0 (3.02/31/2).
	; Another way of computing this result is by assigning 1.0 to entry and showing
	; that c1 and c2 should accumulate frequencies of:
	;
	; 1/3 + 2/9 + 4/27 + 8/81 + ...
	; 2^0/3^1 + 2^1/3^2 + 2^2/3^3 + 2^3/3^4 + ...
	;
	; At the first step, c1 and c2 each get 1/3 of the entry. At each subsequent
	; step, c1 and c2 each get 1/3 of what's left in c1 and c2 combined. This
	; infinite series sums to 1.
	define void @crossloops(i2 %x) {
	; CHECK-LABEL: Printing analysis {{.*}} for function 'crossloops':
	; CHECK-NEXT: block-frequency-info: crossloops
	entry:
	; CHECK-NEXT: entry: float = 1.0, int = [[ENTRY:[0-9]+]]
	switch i2 %x, label %exit [ i2 1, label %c1
	i2 2, label %c2 ], !prof !3

	c1:
	; CHECK-NEXT: c1: float = 1.0,
	switch i2 %x, label %exit [ i2 1, label %c1
	i2 2, label %c2 ], !prof !3

	c2:
	; CHECK-NEXT: c2: float = 1.0,
	switch i2 %x, label %exit [ i2 1, label %c1
	i2 2, label %c2 ], !prof !3

	exit:
	; CHECK-NEXT: exit: float = 1.0, int = [[ENTRY]]
	ret void
	}

	!3 = !{!"branch_weights", i32 2, i32 2, i32 2}

	; A true loop with irreducible control flow inside.
	define void @loop_around_irreducible(i1 %x) {
	; CHECK-LABEL: Printing analysis {{.*}} for function 'loop_around_irreducible':
	; CHECK-NEXT: block-frequency-info: loop_around_irreducible
	entry:
	; CHECK-NEXT: entry: float = 1.0, int = [[ENTRY:[0-9]+]]
	br label %loop

	loop:
	; CHECK-NEXT: loop: float = 4.0, int = [[HEAD:[0-9]+]]
	br i1 %x, label %left, label %right, !prof !4

	left:
	; CHECK-NEXT: left: float = 8.0,
	br i1 %x, label %right, label %loop.end, !prof !5

	right:
	; CHECK-NEXT: right: float = 8.0,
	br i1 %x, label %left, label %loop.end, !prof !5

	loop.end:
	; CHECK-NEXT: loop.end: float = 4.0, int = [[HEAD]]
	br i1 %x, label %loop, label %exit, !prof !5

	exit:
	; CHECK-NEXT: exit: float = 1.0, int = [[ENTRY]]
	ret void
	}
	!4 = !{!"branch_weights", i32 1, i32 1}
	!5 = !{!"branch_weights", i32 3, i32 1}

	; Two unrelated irreducible SCCs.
	define void @two_sccs(i1 %x) {
	; CHECK-LABEL: Printing analysis {{.*}} for function 'two_sccs':
	; CHECK-NEXT: block-frequency-info: two_sccs
	entry:
	; CHECK-NEXT: entry: float = 1.0, int = [[ENTRY:[0-9]+]]
	br i1 %x, label %a, label %b, !prof !6

	a:
	; CHECK-NEXT: a: float = 0.75,
	br i1 %x, label %a.left, label %a.right, !prof !7

	a.left:
	; CHECK-NEXT: a.left: float = 1.5,
	br i1 %x, label %a.right, label %exit, !prof !6

	a.right:
	; CHECK-NEXT: a.right: float = 1.5,
	br i1 %x, label %a.left, label %exit, !prof !6

	b:
	; CHECK-NEXT: b: float = 0.25,
	br i1 %x, label %b.left, label %b.right, !prof !7

	b.left:
	; CHECK-NEXT: b.left: float = 0.625,
	br i1 %x, label %b.right, label %exit, !prof !8

	b.right:
	; CHECK-NEXT: b.right: float = 0.625,
	br i1 %x, label %b.left, label %exit, !prof !8

	exit:
	; CHECK-NEXT: exit: float = 1.0, int = [[ENTRY]]
	ret void
	}
	!6 = !{!"branch_weights", i32 3, i32 1}
	!7 = !{!"branch_weights", i32 1, i32 1}
	!8 = !{!"branch_weights", i32 4, i32 1}

	; A true loop inside irreducible control flow.
	define void @loop_inside_irreducible(i1 %x) {
	; CHECK-LABEL: Printing analysis {{.*}} for function 'loop_inside_irreducible':
	; CHECK-NEXT: block-frequency-info: loop_inside_irreducible
	entry:
	; CHECK-NEXT: entry: float = 1.0, int = [[ENTRY:[0-9]+]]
	br i1 %x, label %left, label %right, !prof !9

	left:
	; CHECK-NEXT: left: float = 2.0,
	br i1 %x, label %right, label %exit, !prof !10

	right:
	; CHECK-NEXT: right: float = 2.0, int = [[RIGHT:[0-9]+]]
	br label %loop

	loop:
	; CHECK-NEXT: loop: float = 6.0,
	br i1 %x, label %loop, label %right.end, !prof !11

	right.end:
	; CHECK-NEXT: right.end: float = 2.0, int = [[RIGHT]]
	br i1 %x, label %left, label %exit, !prof !10

	exit:
	; CHECK-NEXT: exit: float = 1.0, int = [[ENTRY]]
	ret void
	}
	!9 = !{!"branch_weights", i32 1, i32 1}
	!10 = !{!"branch_weights", i32 3, i32 1}
	!11 = !{!"branch_weights", i32 2, i32 1}

	; Irreducible control flow in a branch that's in a true loop.
	define void @loop_around_branch_with_irreducible(i1 %x) {
	; CHECK-LABEL: Printing analysis {{.*}} for function 'loop_around_branch_with_irreducible':
	; CHECK-NEXT: block-frequency-info: loop_around_branch_with_irreducible
	entry:
	; CHECK-NEXT: entry: float = 1.0, int = [[ENTRY:[0-9]+]]
	br label %loop

	loop:
	; CHECK-NEXT: loop: float = 2.0, int = [[LOOP:[0-9]+]]
	br i1 %x, label %normal, label %irreducible.entry, !prof !12

	normal:
	; CHECK-NEXT: normal: float = 1.5,
	br label %loop.end

	irreducible.entry:
	; CHECK-NEXT: irreducible.entry: float = 0.5, int = [[IRREDUCIBLE:[0-9]+]]
	br i1 %x, label %left, label %right, !prof !13

	left:
	; CHECK-NEXT: left: float = 1.0,
	br i1 %x, label %right, label %irreducible.exit, !prof !12

	right:
	; CHECK-NEXT: right: float = 1.0,
	br i1 %x, label %left, label %irreducible.exit, !prof !12

	irreducible.exit:
	; CHECK-NEXT: irreducible.exit: float = 0.5, int = [[IRREDUCIBLE]]
	br label %loop.end

	loop.end:
	; CHECK-NEXT: loop.end: float = 2.0, int = [[LOOP]]
	br i1 %x, label %loop, label %exit, !prof !13

	exit:
	; CHECK-NEXT: exit: float = 1.0, int = [[ENTRY]]
	ret void
	}
	!12 = !{!"branch_weights", i32 3, i32 1}
	!13 = !{!"branch_weights", i32 1, i32 1}

	; Irreducible control flow between two true loops.
	define void @loop_around_branch_with_irreducible_around_loop(i1 %x) {
	; CHECK-LABEL: Printing analysis {{.*}} for function 'loop_around_branch_with_irreducible_around_loop':
	; CHECK-NEXT: block-frequency-info: loop_around_branch_with_irreducible_around_loop
	entry:
	; CHECK-NEXT: entry: float = 1.0, int = [[ENTRY:[0-9]+]]
	br label %loop

	loop:
	; CHECK-NEXT: loop: float = 3.0, int = [[LOOP:[0-9]+]]
	br i1 %x, label %normal, label %irreducible, !prof !14

	normal:
	; CHECK-NEXT: normal: float = 2.0,
	br label %loop.end

	irreducible:
	; CHECK-NEXT: irreducible: float = 1.0,
	br i1 %x, label %left, label %right, !prof !15

	left:
	; CHECK-NEXT: left: float = 2.0,
	br i1 %x, label %right, label %loop.end, !prof !16

	right:
	; CHECK-NEXT: right: float = 2.0, int = [[RIGHT:[0-9]+]]
	br label %right.loop

	right.loop:
	; CHECK-NEXT: right.loop: float = 10.0,
	br i1 %x, label %right.loop, label %right.end, !prof !17

	right.end:
	; CHECK-NEXT: right.end: float = 2.0, int = [[RIGHT]]
	br i1 %x, label %left, label %loop.end, !prof !16

	loop.end:
	; CHECK-NEXT: loop.end: float = 3.0, int = [[LOOP]]
	br i1 %x, label %loop, label %exit, !prof !14

	exit:
	; CHECK-NEXT: exit: float = 1.0, int = [[ENTRY]]
	ret void
	}
	!14 = !{!"branch_weights", i32 2, i32 1}
	!15 = !{!"branch_weights", i32 1, i32 1}
	!16 = !{!"branch_weights", i32 3, i32 1}
	!17 = !{!"branch_weights", i32 4, i32 1}

	; An irreducible SCC with a non-header.
	define void @nonheader(i1 %x) {
	; CHECK-LABEL: Printing analysis {{.*}} for function 'nonheader':
	; CHECK-NEXT: block-frequency-info: nonheader
	entry:
	; CHECK-NEXT: entry: float = 1.0, int = [[ENTRY:[0-9]+]]
	br i1 %x, label %left, label %right, !prof !18

	left:
	; CHECK-NEXT: left: float = 1.0,
	br i1 %x, label %bottom, label %exit, !prof !19

	right:
	; CHECK-NEXT: right: float = 1.0,
	br i1 %x, label %bottom, label %exit, !prof !20

	bottom:
	; CHECK-NEXT: bottom: float = 1.0,
	br i1 %x, label %left, label %right, !prof !18

	exit:
	; CHECK-NEXT: exit: float = 1.0, int = [[ENTRY]]
	ret void
	}
	!18 = !{!"branch_weights", i32 1, i32 1}
	!19 = !{!"branch_weights", i32 1, i32 3}
	!20 = !{!"branch_weights", i32 3, i32 1}

	; An irreducible SCC with an irreducible sub-SCC. In the current version of
	; -block-freq, this means an extra header.
	;
	; This testcases uses non-trivial branch weights. The CHECK statements here
	; will start to fail if we change -block-freq to be more accurate. Currently,
	; loop headers are affected by the weight of their corresponding back edges.
	define void @nonentry_header(i1 %x, i2 %y) {
	; CHECK-LABEL: Printing analysis {{.*}} for function 'nonentry_header':
	; CHECK-NEXT: block-frequency-info: nonentry_header
	entry:
	; CHECK-NEXT: entry: float = 1.0, int = [[ENTRY:[0-9]+]]
	br i1 %x, label %left, label %right, !prof !21

	left:
	; CHECK-NEXT: left: float = 0.14
	br i1 %x, label %top, label %bottom, !prof !22

	right:
	; CHECK-NEXT: right: float = 0.42
	br i1 %x, label %top, label %bottom, !prof !22

	top:
	; CHECK-NEXT: top: float = 8.43
	switch i2 %y, label %exit [ i2 0, label %left
	i2 1, label %right
	i2 2, label %bottom ], !prof !23

	bottom:
	; CHECK-NEXT: bottom: float = 4.5,
	br label %top

	exit:
	; CHECK-NEXT: exit: float = 1.0, int = [[ENTRY]]
	ret void
	}
	!21 = !{!"branch_weights", i32 2, i32 1}
	!22 = !{!"branch_weights", i32 1, i32 1}
	!23 = !{!"branch_weights", i32 8, i32 1, i32 3, i32 12}