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| ; RUN: llc < %s -asm-verbose=false -disable-wasm-fallthrough-return-opt -wasm-disable-explicit-locals -wasm-keep-registers -verify-machineinstrs | FileCheck %s
; RUN: llc < %s -asm-verbose=false -disable-wasm-fallthrough-return-opt -verify-machineinstrs | FileCheck %s --check-prefix=NOREGS
; Test the register stackifier pass.
; We have two sets of tests, one with registers and implicit locals, and
; a stack / explicit locals based version (NOREGS).
target datalayout = "e-m:e-p:32:32-i64:64-n32:64-S128"
target triple = "wasm32-unknown-unknown"
; No because of pointer aliasing.
; CHECK-LABEL: no0:
; CHECK: return $1{{$}}
; NOREGS-LABEL: no0:
; NOREGS: return{{$}}
define i32 @no0(i32* %p, i32* %q) {
%t = load i32, i32* %q
store i32 0, i32* %p
ret i32 %t
}
; No because of side effects.
; CHECK-LABEL: no1:
; CHECK: return $1{{$}}
; NOREGS-LABEL: no1:
; NOREGS: return{{$}}
define i32 @no1(i32* %p, i32* dereferenceable(4) %q) {
%t = load volatile i32, i32* %q, !invariant.load !0
store volatile i32 0, i32* %p
ret i32 %t
}
; Yes because of invariant load and no side effects.
; CHECK-LABEL: yes0:
; CHECK: return $pop{{[0-9]+}}{{$}}
; NOREGS-LABEL: yes0:
; NOREGS: return{{$}}
define i32 @yes0(i32* %p, i32* dereferenceable(4) %q) {
%t = load i32, i32* %q, !invariant.load !0
store i32 0, i32* %p
ret i32 %t
}
; Yes because of no intervening side effects.
; CHECK-LABEL: yes1:
; CHECK: return $pop0{{$}}
; NOREGS-LABEL: yes1:
; NOREGS: return{{$}}
define i32 @yes1(i32* %q) {
%t = load volatile i32, i32* %q
ret i32 %t
}
; Yes because undefined behavior can be sunk past a store.
; CHECK-LABEL: sink_trap:
; CHECK: return $pop{{[0-9]+}}{{$}}
; NOREGS-LABEL: sink_trap:
; NOREGS: return{{$}}
define i32 @sink_trap(i32 %x, i32 %y, i32* %p) {
%t = sdiv i32 %x, %y
store volatile i32 0, i32* %p
ret i32 %t
}
; Yes because the call is readnone.
; CHECK-LABEL: sink_readnone_call:
; CHECK: return $pop0{{$}}
; NOREGS-LABEL: sink_readnone_call:
; NOREGS: return{{$}}
declare i32 @readnone_callee() readnone nounwind
define i32 @sink_readnone_call(i32 %x, i32 %y, i32* %p) {
%t = call i32 @readnone_callee()
store volatile i32 0, i32* %p
ret i32 %t
}
; No because the call is readonly and there's an intervening store.
; CHECK-LABEL: no_sink_readonly_call:
; CHECK: return ${{[0-9]+}}{{$}}
; NOREGS-LABEL: no_sink_readonly_call:
; NOREGS: return{{$}}
declare i32 @readonly_callee() readonly nounwind
define i32 @no_sink_readonly_call(i32 %x, i32 %y, i32* %p) {
%t = call i32 @readonly_callee()
store i32 0, i32* %p
ret i32 %t
}
; Don't schedule stack uses into the stack. To reduce register pressure, the
; scheduler might be tempted to move the definition of $2 down. However, this
; would risk getting incorrect liveness if the instructions are later
; rearranged to make the stack contiguous.
; CHECK-LABEL: stack_uses:
; CHECK: .functype stack_uses (i32, i32, i32, i32) -> (i32){{$}}
; CHECK-NEXT: block {{$}}
; CHECK-NEXT: i32.const $push[[L13:[0-9]+]]=, 1{{$}}
; CHECK-NEXT: i32.lt_s $push[[L0:[0-9]+]]=, $0, $pop[[L13]]{{$}}
; CHECK-NEXT: i32.const $push[[L1:[0-9]+]]=, 2{{$}}
; CHECK-NEXT: i32.lt_s $push[[L2:[0-9]+]]=, $1, $pop[[L1]]{{$}}
; CHECK-NEXT: i32.xor $push[[L5:[0-9]+]]=, $pop[[L0]], $pop[[L2]]{{$}}
; CHECK-NEXT: i32.const $push[[L12:[0-9]+]]=, 1{{$}}
; CHECK-NEXT: i32.lt_s $push[[L3:[0-9]+]]=, $2, $pop[[L12]]{{$}}
; CHECK-NEXT: i32.const $push[[L11:[0-9]+]]=, 2{{$}}
; CHECK-NEXT: i32.lt_s $push[[L4:[0-9]+]]=, $3, $pop[[L11]]{{$}}
; CHECK-NEXT: i32.xor $push[[L6:[0-9]+]]=, $pop[[L3]], $pop[[L4]]{{$}}
; CHECK-NEXT: i32.xor $push[[L7:[0-9]+]]=, $pop[[L5]], $pop[[L6]]{{$}}
; CHECK-NEXT: i32.const $push10=, 1{{$}}
; CHECK-NEXT: i32.ne $push8=, $pop7, $pop10{{$}}
; CHECK-NEXT: br_if 0, $pop8{{$}}
; CHECK-NEXT: i32.const $push9=, 0{{$}}
; CHECK-NEXT: return $pop9{{$}}
; CHECK-NEXT: .LBB{{[0-9]+}}_2:
; CHECK-NEXT: end_block{{$}}
; CHECK-NEXT: i32.const $push14=, 1{{$}}
; CHECK-NEXT: return $pop14{{$}}
; NOREGS-LABEL: stack_uses:
; NOREGS: .functype stack_uses (i32, i32, i32, i32) -> (i32){{$}}
; NOREGS-NEXT: block {{$}}
; NOREGS-NEXT: local.get 0{{$}}
; NOREGS-NEXT: i32.const 1{{$}}
; NOREGS-NEXT: i32.lt_s
; NOREGS-NEXT: local.get 1{{$}}
; NOREGS-NEXT: i32.const 2{{$}}
; NOREGS-NEXT: i32.lt_s
; NOREGS-NEXT: i32.xor {{$}}
; NOREGS-NEXT: local.get 2{{$}}
; NOREGS-NEXT: i32.const 1{{$}}
; NOREGS-NEXT: i32.lt_s
; NOREGS-NEXT: local.get 3{{$}}
; NOREGS-NEXT: i32.const 2{{$}}
; NOREGS-NEXT: i32.lt_s
; NOREGS-NEXT: i32.xor {{$}}
; NOREGS-NEXT: i32.xor {{$}}
; NOREGS-NEXT: i32.const 1{{$}}
; NOREGS-NEXT: i32.ne {{$}}
; NOREGS-NEXT: br_if 0{{$}}
; NOREGS-NEXT: i32.const 0{{$}}
; NOREGS-NEXT: return{{$}}
; NOREGS-NEXT: .LBB{{[0-9]+}}_2:
; NOREGS-NEXT: end_block{{$}}
; NOREGS-NEXT: i32.const 1{{$}}
; NOREGS-NEXT: return{{$}}
define i32 @stack_uses(i32 %x, i32 %y, i32 %z, i32 %w) {
entry:
%c = icmp sle i32 %x, 0
%d = icmp sle i32 %y, 1
%e = icmp sle i32 %z, 0
%f = icmp sle i32 %w, 1
%g = xor i1 %c, %d
%h = xor i1 %e, %f
%i = xor i1 %g, %h
br i1 %i, label %true, label %false
true:
ret i32 0
false:
ret i32 1
}
; Test an interesting case where the load has multiple uses and cannot
; be trivially stackified. However, it can be stackified with a local.tee.
; CHECK-LABEL: multiple_uses:
; CHECK: .functype multiple_uses (i32, i32, i32) -> (){{$}}
; CHECK-NEXT: block {{$}}
; CHECK-NEXT: i32.load $push[[NUM0:[0-9]+]]=, 0($2){{$}}
; CHECK-NEXT: local.tee $push[[NUM1:[0-9]+]]=, $3=, $pop[[NUM0]]{{$}}
; CHECK-NEXT: i32.ge_u $push[[NUM2:[0-9]+]]=, $pop[[NUM1]], $1{{$}}
; CHECK-NEXT: br_if 0, $pop[[NUM2]]{{$}}
; CHECK-NEXT: i32.lt_u $push[[NUM3:[0-9]+]]=, $3, $0{{$}}
; CHECK-NEXT: br_if 0, $pop[[NUM3]]{{$}}
; CHECK-NEXT: i32.store 0($2), $3{{$}}
; CHECK-NEXT: .LBB{{[0-9]+}}_3:
; CHECK-NEXT: end_block{{$}}
; CHECK-NEXT: return{{$}}
; NOREGS-LABEL: multiple_uses:
; NOREGS: .functype multiple_uses (i32, i32, i32) -> (){{$}}
; NOREGS: .local i32{{$}}
; NOREGS-NEXT: block {{$}}
; NOREGS-NEXT: local.get 2{{$}}
; NOREGS-NEXT: i32.load 0{{$}}
; NOREGS-NEXT: local.tee 3{{$}}
; NOREGS-NEXT: local.get 1{{$}}
; NOREGS-NEXT: i32.ge_u
; NOREGS-NEXT: br_if 0{{$}}
; NOREGS-NEXT: local.get 3{{$}}
; NOREGS-NEXT: local.get 0{{$}}
; NOREGS-NEXT: i32.lt_u
; NOREGS-NEXT: br_if 0{{$}}
; NOREGS-NEXT: local.get 2{{$}}
; NOREGS-NEXT: local.get 3{{$}}
; NOREGS-NEXT: i32.store 0{{$}}
; NOREGS-NEXT: .LBB{{[0-9]+}}_3:
; NOREGS-NEXT: end_block{{$}}
; NOREGS-NEXT: return{{$}}
define void @multiple_uses(i32* %arg0, i32* %arg1, i32* %arg2) nounwind {
bb:
br label %loop
loop:
%tmp7 = load i32, i32* %arg2
%tmp8 = inttoptr i32 %tmp7 to i32*
%tmp9 = icmp uge i32* %tmp8, %arg1
%tmp10 = icmp ult i32* %tmp8, %arg0
%tmp11 = or i1 %tmp9, %tmp10
br i1 %tmp11, label %back, label %then
then:
store i32 %tmp7, i32* %arg2
br label %back
back:
br i1 undef, label %return, label %loop
return:
ret void
}
; Don't stackify stores effects across other instructions with side effects.
; CHECK: side_effects:
; CHECK: store
; CHECK: call
; CHECK: store
; CHECK-NEXT: call
; NOREGS: side_effects:
; NOREGS: store
; NOREGS: call
; NOREGS: store
; NOREGS-NEXT: call
declare void @evoke_side_effects()
define hidden void @stackify_store_across_side_effects(double* nocapture %d) {
entry:
store double 2.0, double* %d
call void @evoke_side_effects()
store double 2.0, double* %d
call void @evoke_side_effects()
ret void
}
; Div instructions have side effects and can't be reordered, but this entire
; function should still be able to be stackified because it's already in
; tree order.
; CHECK-LABEL: div_tree:
; CHECK: .functype div_tree (i32, i32, i32, i32, i32, i32, i32, i32, i32, i32, i32, i32, i32, i32, i32, i32) -> (i32){{$}}
; CHECK-NEXT: i32.div_s $push[[L0:[0-9]+]]=, $0, $1{{$}}
; CHECK-NEXT: i32.div_s $push[[L1:[0-9]+]]=, $2, $3{{$}}
; CHECK-NEXT: i32.div_s $push[[L2:[0-9]+]]=, $pop[[L0]], $pop[[L1]]{{$}}
; CHECK-NEXT: i32.div_s $push[[L3:[0-9]+]]=, $4, $5{{$}}
; CHECK-NEXT: i32.div_s $push[[L4:[0-9]+]]=, $6, $7{{$}}
; CHECK-NEXT: i32.div_s $push[[L5:[0-9]+]]=, $pop[[L3]], $pop[[L4]]{{$}}
; CHECK-NEXT: i32.div_s $push[[L6:[0-9]+]]=, $pop[[L2]], $pop[[L5]]{{$}}
; CHECK-NEXT: i32.div_s $push[[L7:[0-9]+]]=, $8, $9{{$}}
; CHECK-NEXT: i32.div_s $push[[L8:[0-9]+]]=, $10, $11{{$}}
; CHECK-NEXT: i32.div_s $push[[L9:[0-9]+]]=, $pop[[L7]], $pop[[L8]]{{$}}
; CHECK-NEXT: i32.div_s $push[[L10:[0-9]+]]=, $12, $13{{$}}
; CHECK-NEXT: i32.div_s $push[[L11:[0-9]+]]=, $14, $15{{$}}
; CHECK-NEXT: i32.div_s $push[[L12:[0-9]+]]=, $pop[[L10]], $pop[[L11]]{{$}}
; CHECK-NEXT: i32.div_s $push[[L13:[0-9]+]]=, $pop[[L9]], $pop[[L12]]{{$}}
; CHECK-NEXT: i32.div_s $push[[L14:[0-9]+]]=, $pop[[L6]], $pop[[L13]]{{$}}
; CHECK-NEXT: return $pop[[L14]]{{$}}
; NOREGS-LABEL: div_tree:
; NOREGS: .functype div_tree (i32, i32, i32, i32, i32, i32, i32, i32, i32, i32, i32, i32, i32, i32, i32, i32) -> (i32){{$}}
; NOREGS-NEXT: local.get 0{{$}}
; NOREGS-NEXT: local.get 1{{$}}
; NOREGS-NEXT: i32.div_s{{$}}
; NOREGS-NEXT: local.get 2{{$}}
; NOREGS-NEXT: local.get 3{{$}}
; NOREGS-NEXT: i32.div_s{{$}}
; NOREGS-NEXT: i32.div_s{{$}}
; NOREGS-NEXT: local.get 4{{$}}
; NOREGS-NEXT: local.get 5{{$}}
; NOREGS-NEXT: i32.div_s{{$}}
; NOREGS-NEXT: local.get 6{{$}}
; NOREGS-NEXT: local.get 7{{$}}
; NOREGS-NEXT: i32.div_s{{$}}
; NOREGS-NEXT: i32.div_s{{$}}
; NOREGS-NEXT: i32.div_s{{$}}
; NOREGS-NEXT: local.get 8{{$}}
; NOREGS-NEXT: local.get 9{{$}}
; NOREGS-NEXT: i32.div_s{{$}}
; NOREGS-NEXT: local.get 10{{$}}
; NOREGS-NEXT: local.get 11{{$}}
; NOREGS-NEXT: i32.div_s{{$}}
; NOREGS-NEXT: i32.div_s{{$}}
; NOREGS-NEXT: local.get 12{{$}}
; NOREGS-NEXT: local.get 13{{$}}
; NOREGS-NEXT: i32.div_s{{$}}
; NOREGS-NEXT: local.get 14{{$}}
; NOREGS-NEXT: local.get 15{{$}}
; NOREGS-NEXT: i32.div_s{{$}}
; NOREGS-NEXT: i32.div_s{{$}}
; NOREGS-NEXT: i32.div_s{{$}}
; NOREGS-NEXT: i32.div_s{{$}}
; NOREGS-NEXT: return{{$}}
define i32 @div_tree(i32 %a, i32 %b, i32 %c, i32 %d, i32 %e, i32 %f, i32 %g, i32 %h, i32 %i, i32 %j, i32 %k, i32 %l, i32 %m, i32 %n, i32 %o, i32 %p) {
entry:
%div = sdiv i32 %a, %b
%div1 = sdiv i32 %c, %d
%div2 = sdiv i32 %div, %div1
%div3 = sdiv i32 %e, %f
%div4 = sdiv i32 %g, %h
%div5 = sdiv i32 %div3, %div4
%div6 = sdiv i32 %div2, %div5
%div7 = sdiv i32 %i, %j
%div8 = sdiv i32 %k, %l
%div9 = sdiv i32 %div7, %div8
%div10 = sdiv i32 %m, %n
%div11 = sdiv i32 %o, %p
%div12 = sdiv i32 %div10, %div11
%div13 = sdiv i32 %div9, %div12
%div14 = sdiv i32 %div6, %div13
ret i32 %div14
}
; A simple multiple-use case.
; CHECK-LABEL: simple_multiple_use:
; CHECK: .functype simple_multiple_use (i32, i32) -> (){{$}}
; CHECK-NEXT: i32.mul $push[[NUM0:[0-9]+]]=, $1, $0{{$}}
; CHECK-NEXT: local.tee $push[[NUM1:[0-9]+]]=, $[[NUM2:[0-9]+]]=, $pop[[NUM0]]{{$}}
; CHECK-NEXT: call use_a, $pop[[NUM1]]{{$}}
; CHECK-NEXT: call use_b, $[[NUM2]]{{$}}
; CHECK-NEXT: return{{$}}
; NOREGS-LABEL: simple_multiple_use:
; NOREGS: .functype simple_multiple_use (i32, i32) -> (){{$}}
; NOREGS-NEXT: local.get 1{{$}}
; NOREGS-NEXT: local.get 0{{$}}
; NOREGS-NEXT: i32.mul
; NOREGS-NEXT: local.tee 1{{$}}
; NOREGS-NEXT: call use_a{{$}}
; NOREGS-NEXT: local.get 1{{$}}
; NOREGS-NEXT: call use_b{{$}}
; NOREGS-NEXT: return{{$}}
declare void @use_a(i32)
declare void @use_b(i32)
define void @simple_multiple_use(i32 %x, i32 %y) {
%mul = mul i32 %y, %x
call void @use_a(i32 %mul)
call void @use_b(i32 %mul)
ret void
}
; Multiple uses of the same value in one instruction.
; CHECK-LABEL: multiple_uses_in_same_insn:
; CHECK: .functype multiple_uses_in_same_insn (i32, i32) -> (){{$}}
; CHECK-NEXT: i32.mul $push[[NUM0:[0-9]+]]=, $1, $0{{$}}
; CHECK-NEXT: local.tee $push[[NUM1:[0-9]+]]=, $[[NUM2:[0-9]+]]=, $pop[[NUM0]]{{$}}
; CHECK-NEXT: call use_2, $pop[[NUM1]], $[[NUM2]]{{$}}
; CHECK-NEXT: return{{$}}
; NOREGS-LABEL: multiple_uses_in_same_insn:
; NOREGS: .functype multiple_uses_in_same_insn (i32, i32) -> (){{$}}
; NOREGS-NEXT: local.get 1{{$}}
; NOREGS-NEXT: local.get 0{{$}}
; NOREGS-NEXT: i32.mul
; NOREGS-NEXT: local.tee 1{{$}}
; NOREGS-NEXT: local.get 1{{$}}
; NOREGS-NEXT: call use_2{{$}}
; NOREGS-NEXT: return{{$}}
declare void @use_2(i32, i32)
define void @multiple_uses_in_same_insn(i32 %x, i32 %y) {
%mul = mul i32 %y, %x
call void @use_2(i32 %mul, i32 %mul)
ret void
}
; Commute operands to achieve better stackifying.
; CHECK-LABEL: commute:
; CHECK: .functype commute () -> (i32){{$}}
; CHECK-NEXT: i32.call $push0=, red{{$}}
; CHECK-NEXT: i32.call $push1=, green{{$}}
; CHECK-NEXT: i32.add $push2=, $pop0, $pop1{{$}}
; CHECK-NEXT: i32.call $push3=, blue{{$}}
; CHECK-NEXT: i32.add $push4=, $pop2, $pop3{{$}}
; CHECK-NEXT: return $pop4{{$}}
; NOREGS-LABEL: commute:
; NOREGS: .functype commute () -> (i32){{$}}
; NOREGS-NEXT: i32.call red{{$}}
; NOREGS-NEXT: i32.call green{{$}}
; NOREGS-NEXT: i32.add {{$}}
; NOREGS-NEXT: i32.call blue{{$}}
; NOREGS-NEXT: i32.add {{$}}
; NOREGS-NEXT: return{{$}}
declare i32 @red()
declare i32 @green()
declare i32 @blue()
define i32 @commute() {
%call = call i32 @red()
%call1 = call i32 @green()
%add = add i32 %call1, %call
%call2 = call i32 @blue()
%add3 = add i32 %add, %call2
ret i32 %add3
}
; Don't stackify a register when it would move a the def of the register past
; an implicit local.get for the register.
; CHECK-LABEL: no_stackify_past_use:
; CHECK: i32.call $1=, callee, $0
; CHECK-NEXT: i32.const $push0=, 1
; CHECK-NEXT: i32.add $push1=, $0, $pop0
; CHECK-NEXT: i32.call $push2=, callee, $pop1
; CHECK-NEXT: i32.sub $push3=, $pop2, $1
; CHECK-NEXT: i32.div_s $push4=, $pop3, $1
; CHECK-NEXT: return $pop4
; NOREGS-LABEL: no_stackify_past_use:
; NOREGS: local.get 0{{$}}
; NOREGS-NEXT: i32.call callee
; NOREGS-NEXT: local.set 1{{$}}
; NOREGS-NEXT: local.get 0{{$}}
; NOREGS-NEXT: i32.const 1
; NOREGS-NEXT: i32.add
; NOREGS-NEXT: i32.call callee
; NOREGS-NEXT: local.get 1{{$}}
; NOREGS-NEXT: i32.sub
; NOREGS-NEXT: local.get 1{{$}}
; NOREGS-NEXT: i32.div_s
; NOREGS-NEXT: return
declare i32 @callee(i32)
define i32 @no_stackify_past_use(i32 %arg) {
%tmp1 = call i32 @callee(i32 %arg)
%tmp2 = add i32 %arg, 1
%tmp3 = call i32 @callee(i32 %tmp2)
%tmp5 = sub i32 %tmp3, %tmp1
%tmp6 = sdiv i32 %tmp5, %tmp1
ret i32 %tmp6
}
; This is the same as no_stackify_past_use, except using a commutative operator,
; so we can reorder the operands and stackify.
; CHECK-LABEL: commute_to_fix_ordering:
; CHECK: i32.call $push[[L0:.+]]=, callee, $0
; CHECK: local.tee $push[[L1:.+]]=, $1=, $pop[[L0]]
; CHECK: i32.const $push0=, 1
; CHECK: i32.add $push1=, $0, $pop0
; CHECK: i32.call $push2=, callee, $pop1
; CHECK: i32.add $push3=, $1, $pop2
; CHECK: i32.mul $push4=, $pop[[L1]], $pop3
; CHECK: return $pop4
; NOREGS-LABEL: commute_to_fix_ordering:
; NOREGS: local.get 0{{$}}
; NOREGS: i32.call callee
; NOREGS: local.tee 1
; NOREGS: local.get 1{{$}}
; NOREGS: local.get 0{{$}}
; NOREGS: i32.const 1
; NOREGS: i32.add
; NOREGS: i32.call callee
; NOREGS: i32.add
; NOREGS: i32.mul
; NOREGS: return
define i32 @commute_to_fix_ordering(i32 %arg) {
%tmp1 = call i32 @callee(i32 %arg)
%tmp2 = add i32 %arg, 1
%tmp3 = call i32 @callee(i32 %tmp2)
%tmp5 = add i32 %tmp3, %tmp1
%tmp6 = mul i32 %tmp5, %tmp1
ret i32 %tmp6
}
; Stackify individual defs of virtual registers with multiple defs.
; CHECK-LABEL: multiple_defs:
; CHECK: f64.add $push[[NUM0:[0-9]+]]=, ${{[0-9]+}}, $pop{{[0-9]+}}{{$}}
; CHECK-NEXT: local.tee $push[[NUM1:[0-9]+]]=, $[[NUM2:[0-9]+]]=, $pop[[NUM0]]{{$}}
; CHECK-NEXT: f64.select $push{{[0-9]+}}=, $pop{{[0-9]+}}, $pop[[NUM1]], ${{[0-9]+}}{{$}}
; CHECK: $[[NUM2]]=,
; NOREGS-LABEL: multiple_defs:
; NOREGS: f64.add
; NOREGS: local.tee
; NOREGS: f64.select
define void @multiple_defs(i32 %arg, i32 %arg1, i1 %arg2, i1 %arg3, i1 %arg4) {
bb:
br label %bb5
bb5: ; preds = %bb21, %bb
%tmp = phi double [ 0.000000e+00, %bb ], [ %tmp22, %bb21 ]
%tmp6 = phi double [ 0.000000e+00, %bb ], [ %tmp23, %bb21 ]
%tmp7 = fcmp olt double %tmp6, 2.323450e+01
br i1 %tmp7, label %bb8, label %bb21
bb8: ; preds = %bb17, %bb5
%tmp9 = phi double [ %tmp19, %bb17 ], [ %tmp, %bb5 ]
%tmp10 = fadd double %tmp6, -1.000000e+00
%tmp11 = select i1 %arg2, double -1.135357e+04, double %tmp10
%tmp12 = fadd double %tmp11, %tmp9
br i1 %arg3, label %bb17, label %bb13
bb13: ; preds = %bb8
%tmp14 = or i32 %arg1, 2
%tmp15 = icmp eq i32 %tmp14, 14
%tmp16 = select i1 %tmp15, double -1.135357e+04, double 0xBFCE147AE147B000
br label %bb17
bb17: ; preds = %bb13, %bb8
%tmp18 = phi double [ %tmp16, %bb13 ], [ %tmp10, %bb8 ]
%tmp19 = fadd double %tmp18, %tmp12
%tmp20 = fcmp olt double %tmp6, 2.323450e+01
br i1 %tmp20, label %bb8, label %bb21
bb21: ; preds = %bb17, %bb5
%tmp22 = phi double [ %tmp, %bb5 ], [ %tmp9, %bb17 ]
%tmp23 = fadd double %tmp6, 1.000000e+00
br i1 %arg4, label %exit, label %bb5
exit:
ret void
}
; Don't move calls past loads
; CHECK-LABEL: no_stackify_call_past_load:
; CHECK: i32.call $0=, red
; CHECK: i32.const $push0=, 0
; CHECK: i32.load $1=, count($pop0)
; NOREGS-LABEL: no_stackify_call_past_load:
; NOREGS: i32.call red
; NOREGS: i32.const 0
; NOREGS: i32.load count
@count = hidden global i32 0, align 4
define i32 @no_stackify_call_past_load() {
%a = call i32 @red()
%b = load i32, i32* @count, align 4
call i32 @callee(i32 %a)
ret i32 %b
; use of a
}
; Don't move stores past loads if there may be aliasing
; CHECK-LABEL: no_stackify_store_past_load
; CHECK: i32.store 0($1), $0
; CHECK: i32.load {{.*}}, 0($2)
; CHECK: i32.call {{.*}}, callee, $0{{$}}
; NOREGS-LABEL: no_stackify_store_past_load
; NOREGS: i32.store 0
; NOREGS: i32.load 0
; NOREGS: i32.call callee{{$}}
define i32 @no_stackify_store_past_load(i32 %a, i32* %p1, i32* %p2) {
store i32 %a, i32* %p1
%b = load i32, i32* %p2, align 4
call i32 @callee(i32 %a)
ret i32 %b
}
; Can still stackify past invariant loads.
; CHECK-LABEL: store_past_invar_load
; CHECK: i32.store 0($1), $0
; CHECK: i32.call {{.*}}, callee, $0
; CHECK: i32.load $push{{.*}}, 0($2)
; CHECK: return $pop
; NOREGS-LABEL: store_past_invar_load
; NOREGS: i32.store 0
; NOREGS: i32.call callee
; NOREGS: i32.load 0
; NOREGS: return
define i32 @store_past_invar_load(i32 %a, i32* %p1, i32* dereferenceable(4) %p2) {
store i32 %a, i32* %p1
%b = load i32, i32* %p2, !invariant.load !0
call i32 @callee(i32 %a)
ret i32 %b
}
; CHECK-LABEL: ignore_dbg_value:
; CHECK: .Lfunc_begin
; CHECK: unreachable
; NOREGS-LABEL: ignore_dbg_value:
; NOREGS: .Lfunc_begin
; NOREGS: unreachable
declare void @llvm.dbg.value(metadata, i64, metadata, metadata)
define void @ignore_dbg_value() {
call void @llvm.dbg.value(metadata i32 0, i64 0, metadata !7, metadata !9), !dbg !10
unreachable
}
; Don't stackify an expression that might use the stack into a return, since we
; might insert a prologue before the return.
; CHECK-LABEL: no_stackify_past_epilogue:
; CHECK: return ${{[0-9]+}}{{$}}
; NOREGS-LABEL: no_stackify_past_epilogue:
; NOREGS: return{{$}}
declare i32 @use_memory(i32*)
define i32 @no_stackify_past_epilogue() {
%x = alloca i32
%call = call i32 @use_memory(i32* %x)
ret i32 %call
}
; Stackify a loop induction variable into a loop comparison.
; CHECK-LABEL: stackify_indvar:
; CHECK: i32.const $push[[L5:.+]]=, 1{{$}}
; CHECK-NEXT: i32.add $push[[L4:.+]]=, $[[R0:.+]], $pop[[L5]]{{$}}
; CHECK-NEXT: local.tee $push[[L3:.+]]=, $[[R0]]=, $pop[[L4]]{{$}}
; CHECK-NEXT: i32.ne $push[[L2:.+]]=, $0, $pop[[L3]]{{$}}
; NOREGS-LABEL: stackify_indvar:
; NOREGS: i32.const 1{{$}}
; NOREGS-NEXT: i32.add
; NOREGS-NEXT: local.tee 2{{$}}
; NOREGS-NEXT: i32.ne
define void @stackify_indvar(i32 %tmp, i32* %v) #0 {
bb:
br label %bb3
bb3: ; preds = %bb3, %bb2
%tmp4 = phi i32 [ %tmp7, %bb3 ], [ 0, %bb ]
%tmp5 = load volatile i32, i32* %v, align 4
%tmp6 = add nsw i32 %tmp5, %tmp4
store volatile i32 %tmp6, i32* %v, align 4
%tmp7 = add nuw nsw i32 %tmp4, 1
%tmp8 = icmp eq i32 %tmp7, %tmp
br i1 %tmp8, label %bb10, label %bb3
bb10: ; preds = %bb9, %bb
ret void
}
; Don't stackify a call past a __stack_pointer store.
; CHECK-LABEL: stackpointer_dependency:
; CHECK: call {{.+}}, stackpointer_callee,
; CHECK-NEXT: global.set __stack_pointer,
; NOREGS-LABEL: stackpointer_dependency:
; NOREGS: call stackpointer_callee
; NOREGS: global.set __stack_pointer
declare i32 @stackpointer_callee(i8* readnone, i8* readnone) nounwind readnone
declare i8* @llvm.frameaddress(i32)
define i32 @stackpointer_dependency(i8* readnone) {
%2 = tail call i8* @llvm.frameaddress(i32 0)
%3 = tail call i32 @stackpointer_callee(i8* %0, i8* %2)
ret i32 %3
}
; Stackify a call_indirect with respect to its ordering
; CHECK-LABEL: call_indirect_stackify:
; CHECK: i32.load $push[[L4:.+]]=, 0($0)
; CHECK-NEXT: local.tee $push[[L3:.+]]=, $0=, $pop[[L4]]
; CHECK-NEXT: i32.load $push[[L0:.+]]=, 0($0)
; CHECK-NEXT: i32.load $push[[L1:.+]]=, 0($pop[[L0]])
; CHECK-NEXT: i32.call_indirect $push{{.+}}=, $pop[[L3]], $1, $pop[[L1]]
; NOREGS-LABEL: call_indirect_stackify:
; NOREGS: i32.load 0
; NOREGS-NEXT: local.tee 0
; NOREGS: i32.load 0
; NOREGS-NEXT: i32.load 0
; NOREGS-NEXT: i32.call_indirect (i32, i32) -> (i32)
%class.call_indirect = type { i32 (...)** }
define i32 @call_indirect_stackify(%class.call_indirect** %objptr, i32 %arg) {
%obj = load %class.call_indirect*, %class.call_indirect** %objptr
%addr = bitcast %class.call_indirect* %obj to i32(%class.call_indirect*, i32)***
%vtable = load i32(%class.call_indirect*, i32)**, i32(%class.call_indirect*, i32)*** %addr
%vfn = getelementptr inbounds i32(%class.call_indirect*, i32)*, i32(%class.call_indirect*, i32)** %vtable, i32 0
%f = load i32(%class.call_indirect*, i32)*, i32(%class.call_indirect*, i32)** %vfn
%ret = call i32 %f(%class.call_indirect* %obj, i32 %arg)
ret i32 %ret
}
!llvm.module.flags = !{!0}
!llvm.dbg.cu = !{!1}
!0 = !{i32 2, !"Debug Info Version", i32 3}
!1 = distinct !DICompileUnit(language: DW_LANG_C99, file: !2, producer: "clang version 3.9.0 (trunk 266005) (llvm/trunk 266105)", isOptimized: false, runtimeVersion: 0, emissionKind: FullDebug, enums: !3)
!2 = !DIFile(filename: "test.c", directory: "/")
!3 = !{}
!5 = distinct !DISubprogram(name: "test", scope: !2, file: !2, line: 10, type: !6, isLocal: false, isDefinition: true, scopeLine: 11, flags: DIFlagPrototyped, isOptimized: true, unit: !1, retainedNodes: !3)
!6 = !DISubroutineType(types: !3)
!7 = !DILocalVariable(name: "nzcnt", scope: !5, file: !2, line: 15, type: !8)
!8 = !DIBasicType(name: "int", size: 32, align: 32, encoding: DW_ATE_signed)
!9 = !DIExpression()
!10 = !DILocation(line: 15, column: 6, scope: !5)
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