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llvm-mirror/test/CodeGen/WebAssembly/reg-stackify.ll
Thomas Lively 81bb5f99ad [WebAssembly] Remove datalayout strings from llc tests
The data layout strings do not have any effect on llc tests and will become
misleadingly out of date as we continue to update the canonical data layout, so
remove them from the tests.

Differential Revision: https://reviews.llvm.org/D105842
2021-07-14 11:17:08 -07:00

678 lines
23 KiB
LLVM

; 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 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 $pop1{{$}}
; 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.eq $push7=, $pop[[L5]], $pop[[L6]]{{$}}
; CHECK-NEXT: br_if 0, $pop7{{$}}
; CHECK-NEXT: i32.const $push8=, 0{{$}}
; CHECK-NEXT: return $pop8{{$}}
; CHECK-NEXT: .LBB{{[0-9]+}}_2:
; CHECK-NEXT: end_block{{$}}
; CHECK-NEXT: i32.const $push12=, 1{{$}}
; CHECK-NEXT: return $pop12{{$}}
; 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.eq {{$}}
; NOREGS-NEXT: br_if 0{{$}}
; 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: call $push0=, red{{$}}
; CHECK-NEXT: call $push1=, green{{$}}
; CHECK-NEXT: i32.add $push2=, $pop0, $pop1{{$}}
; CHECK-NEXT: call $push3=, blue{{$}}
; CHECK-NEXT: i32.add $push4=, $pop2, $pop3{{$}}
; CHECK-NEXT: return $pop4{{$}}
; NOREGS-LABEL: commute:
; NOREGS: .functype commute () -> (i32){{$}}
; NOREGS-NEXT: call red{{$}}
; NOREGS-NEXT: call green{{$}}
; NOREGS-NEXT: i32.add {{$}}
; NOREGS-NEXT: 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: call $1=, callee, $0
; CHECK-NEXT: i32.const $push0=, 1
; CHECK-NEXT: i32.add $push1=, $0, $pop0
; CHECK-NEXT: 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: call callee
; NOREGS-NEXT: local.set 1{{$}}
; NOREGS-NEXT: local.get 0{{$}}
; NOREGS-NEXT: i32.const 1
; NOREGS-NEXT: i32.add
; NOREGS-NEXT: 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: 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: 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: call callee
; NOREGS: local.tee 1
; NOREGS: local.get 1{{$}}
; NOREGS: local.get 0{{$}}
; NOREGS: i32.const 1
; NOREGS: i32.add
; NOREGS: 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: call $0=, red
; CHECK: i32.const $push0=, 0
; CHECK: i32.load $1=, count($pop0)
; NOREGS-LABEL: no_stackify_call_past_load:
; NOREGS: 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: call {{.*}}, callee, $0{{$}}
; NOREGS-LABEL: no_stackify_store_past_load
; NOREGS: i32.store 0
; NOREGS: i32.load 0
; NOREGS: 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: call {{.*}}, callee, $0
; CHECK: i32.load $push{{.*}}, 0($2)
; CHECK: return $pop
; NOREGS-LABEL: store_past_invar_load
; NOREGS: i32.store 0
; NOREGS: 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: 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: 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)