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670 lines
20 KiB
670 lines
20 KiB
; RUN: llc < %s -asm-verbose=false -wasm-disable-explicit-locals -wasm-keep-registers -disable-wasm-fallthrough-return-opt | FileCheck %s
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; Test constant load and store address offsets.
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target datalayout = "e-m:e-p:32:32-i64:64-n32:64-S128"
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target triple = "wasm32-unknown-unknown"
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;===----------------------------------------------------------------------------
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; Loads: 32-bit
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;===----------------------------------------------------------------------------
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; Basic load.
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; CHECK-LABEL: load_i32_no_offset:
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; CHECK: i32.load $push0=, 0($0){{$}}
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; CHECK-NEXT: return $pop0{{$}}
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define i32 @load_i32_no_offset(i32 *%p) {
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%v = load i32, i32* %p
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ret i32 %v
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}
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; With an nuw add, we can fold an offset.
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; CHECK-LABEL: load_i32_with_folded_offset:
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; CHECK: i32.load $push0=, 24($0){{$}}
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define i32 @load_i32_with_folded_offset(i32* %p) {
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%q = ptrtoint i32* %p to i32
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%r = add nuw i32 %q, 24
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%s = inttoptr i32 %r to i32*
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%t = load i32, i32* %s
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ret i32 %t
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}
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; With an inbounds gep, we can fold an offset.
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; CHECK-LABEL: load_i32_with_folded_gep_offset:
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; CHECK: i32.load $push0=, 24($0){{$}}
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define i32 @load_i32_with_folded_gep_offset(i32* %p) {
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%s = getelementptr inbounds i32, i32* %p, i32 6
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%t = load i32, i32* %s
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ret i32 %t
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}
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; We can't fold a negative offset though, even with an inbounds gep.
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; CHECK-LABEL: load_i32_with_unfolded_gep_negative_offset:
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; CHECK: i32.const $push0=, -24{{$}}
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; CHECK: i32.add $push1=, $0, $pop0{{$}}
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; CHECK: i32.load $push2=, 0($pop1){{$}}
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define i32 @load_i32_with_unfolded_gep_negative_offset(i32* %p) {
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%s = getelementptr inbounds i32, i32* %p, i32 -6
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%t = load i32, i32* %s
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ret i32 %t
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}
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; Without nuw, and even with nsw, we can't fold an offset.
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; CHECK-LABEL: load_i32_with_unfolded_offset:
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; CHECK: i32.const $push0=, 24{{$}}
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; CHECK: i32.add $push1=, $0, $pop0{{$}}
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; CHECK: i32.load $push2=, 0($pop1){{$}}
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define i32 @load_i32_with_unfolded_offset(i32* %p) {
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%q = ptrtoint i32* %p to i32
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%r = add nsw i32 %q, 24
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%s = inttoptr i32 %r to i32*
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%t = load i32, i32* %s
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ret i32 %t
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}
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; Without inbounds, we can't fold a gep offset.
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; CHECK-LABEL: load_i32_with_unfolded_gep_offset:
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; CHECK: i32.const $push0=, 24{{$}}
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; CHECK: i32.add $push1=, $0, $pop0{{$}}
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; CHECK: i32.load $push2=, 0($pop1){{$}}
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define i32 @load_i32_with_unfolded_gep_offset(i32* %p) {
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%s = getelementptr i32, i32* %p, i32 6
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%t = load i32, i32* %s
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ret i32 %t
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}
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; When loading from a fixed address, materialize a zero.
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; CHECK-LABEL: load_i32_from_numeric_address
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; CHECK: i32.const $push0=, 0{{$}}
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; CHECK: i32.load $push1=, 42($pop0){{$}}
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define i32 @load_i32_from_numeric_address() {
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%s = inttoptr i32 42 to i32*
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%t = load i32, i32* %s
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ret i32 %t
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}
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; CHECK-LABEL: load_i32_from_global_address
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; CHECK: i32.const $push0=, 0{{$}}
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; CHECK: i32.load $push1=, gv($pop0){{$}}
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@gv = global i32 0
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define i32 @load_i32_from_global_address() {
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%t = load i32, i32* @gv
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ret i32 %t
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}
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;===----------------------------------------------------------------------------
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; Loads: 64-bit
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;===----------------------------------------------------------------------------
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; Basic load.
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; CHECK-LABEL: load_i64_no_offset:
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; CHECK: i64.load $push0=, 0($0){{$}}
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; CHECK-NEXT: return $pop0{{$}}
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define i64 @load_i64_no_offset(i64 *%p) {
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%v = load i64, i64* %p
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ret i64 %v
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}
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; With an nuw add, we can fold an offset.
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; CHECK-LABEL: load_i64_with_folded_offset:
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; CHECK: i64.load $push0=, 24($0){{$}}
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define i64 @load_i64_with_folded_offset(i64* %p) {
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%q = ptrtoint i64* %p to i32
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%r = add nuw i32 %q, 24
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%s = inttoptr i32 %r to i64*
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%t = load i64, i64* %s
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ret i64 %t
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}
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; With an inbounds gep, we can fold an offset.
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; CHECK-LABEL: load_i64_with_folded_gep_offset:
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; CHECK: i64.load $push0=, 24($0){{$}}
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define i64 @load_i64_with_folded_gep_offset(i64* %p) {
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%s = getelementptr inbounds i64, i64* %p, i32 3
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%t = load i64, i64* %s
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ret i64 %t
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}
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; We can't fold a negative offset though, even with an inbounds gep.
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; CHECK-LABEL: load_i64_with_unfolded_gep_negative_offset:
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; CHECK: i32.const $push0=, -24{{$}}
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; CHECK: i32.add $push1=, $0, $pop0{{$}}
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; CHECK: i64.load $push2=, 0($pop1){{$}}
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define i64 @load_i64_with_unfolded_gep_negative_offset(i64* %p) {
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%s = getelementptr inbounds i64, i64* %p, i32 -3
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%t = load i64, i64* %s
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ret i64 %t
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}
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; Without nuw, and even with nsw, we can't fold an offset.
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; CHECK-LABEL: load_i64_with_unfolded_offset:
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; CHECK: i32.const $push0=, 24{{$}}
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; CHECK: i32.add $push1=, $0, $pop0{{$}}
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; CHECK: i64.load $push2=, 0($pop1){{$}}
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define i64 @load_i64_with_unfolded_offset(i64* %p) {
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%q = ptrtoint i64* %p to i32
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%r = add nsw i32 %q, 24
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%s = inttoptr i32 %r to i64*
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%t = load i64, i64* %s
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ret i64 %t
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}
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; Without inbounds, we can't fold a gep offset.
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; CHECK-LABEL: load_i64_with_unfolded_gep_offset:
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; CHECK: i32.const $push0=, 24{{$}}
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; CHECK: i32.add $push1=, $0, $pop0{{$}}
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; CHECK: i64.load $push2=, 0($pop1){{$}}
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define i64 @load_i64_with_unfolded_gep_offset(i64* %p) {
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%s = getelementptr i64, i64* %p, i32 3
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%t = load i64, i64* %s
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ret i64 %t
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}
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;===----------------------------------------------------------------------------
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; Stores: 32-bit
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;===----------------------------------------------------------------------------
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; Basic store.
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; CHECK-LABEL: store_i32_no_offset:
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; CHECK-NEXT: .functype store_i32_no_offset (i32, i32) -> (){{$}}
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; CHECK-NEXT: i32.store 0($0), $1{{$}}
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; CHECK-NEXT: return{{$}}
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define void @store_i32_no_offset(i32 *%p, i32 %v) {
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store i32 %v, i32* %p
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ret void
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}
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; With an nuw add, we can fold an offset.
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; CHECK-LABEL: store_i32_with_folded_offset:
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; CHECK: i32.store 24($0), $pop0{{$}}
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define void @store_i32_with_folded_offset(i32* %p) {
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%q = ptrtoint i32* %p to i32
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%r = add nuw i32 %q, 24
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%s = inttoptr i32 %r to i32*
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store i32 0, i32* %s
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ret void
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}
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; With an inbounds gep, we can fold an offset.
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; CHECK-LABEL: store_i32_with_folded_gep_offset:
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; CHECK: i32.store 24($0), $pop0{{$}}
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define void @store_i32_with_folded_gep_offset(i32* %p) {
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%s = getelementptr inbounds i32, i32* %p, i32 6
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store i32 0, i32* %s
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ret void
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}
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; We can't fold a negative offset though, even with an inbounds gep.
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; CHECK-LABEL: store_i32_with_unfolded_gep_negative_offset:
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; CHECK: i32.const $push0=, -24{{$}}
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; CHECK: i32.add $push1=, $0, $pop0{{$}}
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; CHECK: i32.store 0($pop1), $pop2{{$}}
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define void @store_i32_with_unfolded_gep_negative_offset(i32* %p) {
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%s = getelementptr inbounds i32, i32* %p, i32 -6
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store i32 0, i32* %s
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ret void
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}
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; Without nuw, and even with nsw, we can't fold an offset.
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; CHECK-LABEL: store_i32_with_unfolded_offset:
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; CHECK: i32.const $push0=, 24{{$}}
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; CHECK: i32.add $push1=, $0, $pop0{{$}}
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; CHECK: i32.store 0($pop1), $pop2{{$}}
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define void @store_i32_with_unfolded_offset(i32* %p) {
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%q = ptrtoint i32* %p to i32
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%r = add nsw i32 %q, 24
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%s = inttoptr i32 %r to i32*
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store i32 0, i32* %s
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ret void
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}
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; Without inbounds, we can't fold a gep offset.
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; CHECK-LABEL: store_i32_with_unfolded_gep_offset:
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; CHECK: i32.const $push0=, 24{{$}}
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; CHECK: i32.add $push1=, $0, $pop0{{$}}
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; CHECK: i32.store 0($pop1), $pop2{{$}}
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define void @store_i32_with_unfolded_gep_offset(i32* %p) {
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%s = getelementptr i32, i32* %p, i32 6
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store i32 0, i32* %s
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ret void
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}
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; When storing from a fixed address, materialize a zero.
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; CHECK-LABEL: store_i32_to_numeric_address:
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; CHECK: i32.const $push0=, 0{{$}}
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; CHECK-NEXT: i32.const $push1=, 0{{$}}
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; CHECK-NEXT: i32.store 42($pop0), $pop1{{$}}
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define void @store_i32_to_numeric_address() {
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%s = inttoptr i32 42 to i32*
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store i32 0, i32* %s
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ret void
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}
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; CHECK-LABEL: store_i32_to_global_address:
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; CHECK: i32.const $push0=, 0{{$}}
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; CHECK: i32.const $push1=, 0{{$}}
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; CHECK: i32.store gv($pop0), $pop1{{$}}
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define void @store_i32_to_global_address() {
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store i32 0, i32* @gv
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ret void
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}
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;===----------------------------------------------------------------------------
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; Stores: 64-bit
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;===----------------------------------------------------------------------------
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; Basic store.
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; CHECK-LABEL: store_i64_with_folded_offset:
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; CHECK: i64.store 24($0), $pop0{{$}}
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define void @store_i64_with_folded_offset(i64* %p) {
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%q = ptrtoint i64* %p to i32
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%r = add nuw i32 %q, 24
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%s = inttoptr i32 %r to i64*
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store i64 0, i64* %s
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ret void
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}
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; With an nuw add, we can fold an offset.
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; CHECK-LABEL: store_i64_with_folded_gep_offset:
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; CHECK: i64.store 24($0), $pop0{{$}}
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define void @store_i64_with_folded_gep_offset(i64* %p) {
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%s = getelementptr inbounds i64, i64* %p, i32 3
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store i64 0, i64* %s
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ret void
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}
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; With an inbounds gep, we can fold an offset.
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; CHECK-LABEL: store_i64_with_unfolded_gep_negative_offset:
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; CHECK: i32.const $push0=, -24{{$}}
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; CHECK: i32.add $push1=, $0, $pop0{{$}}
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; CHECK: i64.store 0($pop1), $pop2{{$}}
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define void @store_i64_with_unfolded_gep_negative_offset(i64* %p) {
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%s = getelementptr inbounds i64, i64* %p, i32 -3
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store i64 0, i64* %s
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ret void
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}
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; We can't fold a negative offset though, even with an inbounds gep.
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; CHECK-LABEL: store_i64_with_unfolded_offset:
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; CHECK: i32.const $push0=, 24{{$}}
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; CHECK: i32.add $push1=, $0, $pop0{{$}}
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; CHECK: i64.store 0($pop1), $pop2{{$}}
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define void @store_i64_with_unfolded_offset(i64* %p) {
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%q = ptrtoint i64* %p to i32
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%r = add nsw i32 %q, 24
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%s = inttoptr i32 %r to i64*
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store i64 0, i64* %s
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ret void
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}
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; Without nuw, and even with nsw, we can't fold an offset.
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; CHECK-LABEL: store_i64_with_unfolded_gep_offset:
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; CHECK: i32.const $push0=, 24{{$}}
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; CHECK: i32.add $push1=, $0, $pop0{{$}}
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; CHECK: i64.store 0($pop1), $pop2{{$}}
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define void @store_i64_with_unfolded_gep_offset(i64* %p) {
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%s = getelementptr i64, i64* %p, i32 3
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store i64 0, i64* %s
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ret void
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}
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; Without inbounds, we can't fold a gep offset.
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; CHECK-LABEL: store_i32_with_folded_or_offset:
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; CHECK: i32.store8 2($pop{{[0-9]+}}), $pop{{[0-9]+}}{{$}}
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define void @store_i32_with_folded_or_offset(i32 %x) {
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%and = and i32 %x, -4
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%t0 = inttoptr i32 %and to i8*
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%arrayidx = getelementptr inbounds i8, i8* %t0, i32 2
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store i8 0, i8* %arrayidx, align 1
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ret void
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}
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;===----------------------------------------------------------------------------
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; Sign-extending loads
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;===----------------------------------------------------------------------------
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; Fold an offset into a sign-extending load.
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; CHECK-LABEL: load_i8_i32_s_with_folded_offset:
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; CHECK: i32.load8_s $push0=, 24($0){{$}}
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define i32 @load_i8_i32_s_with_folded_offset(i8* %p) {
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%q = ptrtoint i8* %p to i32
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%r = add nuw i32 %q, 24
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%s = inttoptr i32 %r to i8*
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%t = load i8, i8* %s
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%u = sext i8 %t to i32
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ret i32 %u
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}
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; CHECK-LABEL: load_i32_i64_s_with_folded_offset:
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; CHECK: i64.load32_s $push0=, 24($0){{$}}
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define i64 @load_i32_i64_s_with_folded_offset(i32* %p) {
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%q = ptrtoint i32* %p to i32
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%r = add nuw i32 %q, 24
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%s = inttoptr i32 %r to i32*
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%t = load i32, i32* %s
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%u = sext i32 %t to i64
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ret i64 %u
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}
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; Fold a gep offset into a sign-extending load.
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; CHECK-LABEL: load_i8_i32_s_with_folded_gep_offset:
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; CHECK: i32.load8_s $push0=, 24($0){{$}}
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define i32 @load_i8_i32_s_with_folded_gep_offset(i8* %p) {
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%s = getelementptr inbounds i8, i8* %p, i32 24
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%t = load i8, i8* %s
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%u = sext i8 %t to i32
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ret i32 %u
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}
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; CHECK-LABEL: load_i16_i32_s_with_folded_gep_offset:
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; CHECK: i32.load16_s $push0=, 48($0){{$}}
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define i32 @load_i16_i32_s_with_folded_gep_offset(i16* %p) {
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%s = getelementptr inbounds i16, i16* %p, i32 24
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%t = load i16, i16* %s
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%u = sext i16 %t to i32
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ret i32 %u
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}
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; CHECK-LABEL: load_i16_i64_s_with_folded_gep_offset:
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; CHECK: i64.load16_s $push0=, 48($0){{$}}
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define i64 @load_i16_i64_s_with_folded_gep_offset(i16* %p) {
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%s = getelementptr inbounds i16, i16* %p, i32 24
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%t = load i16, i16* %s
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%u = sext i16 %t to i64
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ret i64 %u
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}
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; 'add' in this code becomes 'or' after DAG optimization. Treat an 'or' node as
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; an 'add' if the or'ed bits are known to be zero.
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; CHECK-LABEL: load_i8_i32_s_with_folded_or_offset:
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; CHECK: i32.load8_s $push{{[0-9]+}}=, 2($pop{{[0-9]+}}){{$}}
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define i32 @load_i8_i32_s_with_folded_or_offset(i32 %x) {
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%and = and i32 %x, -4
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%t0 = inttoptr i32 %and to i8*
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%arrayidx = getelementptr inbounds i8, i8* %t0, i32 2
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%t1 = load i8, i8* %arrayidx
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%conv = sext i8 %t1 to i32
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ret i32 %conv
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}
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; CHECK-LABEL: load_i8_i64_s_with_folded_or_offset:
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; CHECK: i64.load8_s $push{{[0-9]+}}=, 2($pop{{[0-9]+}}){{$}}
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define i64 @load_i8_i64_s_with_folded_or_offset(i32 %x) {
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%and = and i32 %x, -4
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|
%t0 = inttoptr i32 %and to i8*
|
|
%arrayidx = getelementptr inbounds i8, i8* %t0, i32 2
|
|
%t1 = load i8, i8* %arrayidx
|
|
%conv = sext i8 %t1 to i64
|
|
ret i64 %conv
|
|
}
|
|
|
|
; When loading from a fixed address, materialize a zero.
|
|
|
|
; CHECK-LABEL: load_i16_i32_s_from_numeric_address
|
|
; CHECK: i32.const $push0=, 0{{$}}
|
|
; CHECK: i32.load16_s $push1=, 42($pop0){{$}}
|
|
define i32 @load_i16_i32_s_from_numeric_address() {
|
|
%s = inttoptr i32 42 to i16*
|
|
%t = load i16, i16* %s
|
|
%u = sext i16 %t to i32
|
|
ret i32 %u
|
|
}
|
|
|
|
; CHECK-LABEL: load_i8_i32_s_from_global_address
|
|
; CHECK: i32.const $push0=, 0{{$}}
|
|
; CHECK: i32.load8_s $push1=, gv8($pop0){{$}}
|
|
@gv8 = global i8 0
|
|
define i32 @load_i8_i32_s_from_global_address() {
|
|
%t = load i8, i8* @gv8
|
|
%u = sext i8 %t to i32
|
|
ret i32 %u
|
|
}
|
|
|
|
;===----------------------------------------------------------------------------
|
|
; Zero-extending loads
|
|
;===----------------------------------------------------------------------------
|
|
|
|
; Fold an offset into a zero-extending load.
|
|
|
|
; CHECK-LABEL: load_i8_i32_z_with_folded_offset:
|
|
; CHECK: i32.load8_u $push0=, 24($0){{$}}
|
|
define i32 @load_i8_i32_z_with_folded_offset(i8* %p) {
|
|
%q = ptrtoint i8* %p to i32
|
|
%r = add nuw i32 %q, 24
|
|
%s = inttoptr i32 %r to i8*
|
|
%t = load i8, i8* %s
|
|
%u = zext i8 %t to i32
|
|
ret i32 %u
|
|
}
|
|
|
|
; CHECK-LABEL: load_i32_i64_z_with_folded_offset:
|
|
; CHECK: i64.load32_u $push0=, 24($0){{$}}
|
|
define i64 @load_i32_i64_z_with_folded_offset(i32* %p) {
|
|
%q = ptrtoint i32* %p to i32
|
|
%r = add nuw i32 %q, 24
|
|
%s = inttoptr i32 %r to i32*
|
|
%t = load i32, i32* %s
|
|
%u = zext i32 %t to i64
|
|
ret i64 %u
|
|
}
|
|
|
|
; Fold a gep offset into a zero-extending load.
|
|
|
|
; CHECK-LABEL: load_i8_i32_z_with_folded_gep_offset:
|
|
; CHECK: i32.load8_u $push0=, 24($0){{$}}
|
|
define i32 @load_i8_i32_z_with_folded_gep_offset(i8* %p) {
|
|
%s = getelementptr inbounds i8, i8* %p, i32 24
|
|
%t = load i8, i8* %s
|
|
%u = zext i8 %t to i32
|
|
ret i32 %u
|
|
}
|
|
|
|
; CHECK-LABEL: load_i16_i32_z_with_folded_gep_offset:
|
|
; CHECK: i32.load16_u $push0=, 48($0){{$}}
|
|
define i32 @load_i16_i32_z_with_folded_gep_offset(i16* %p) {
|
|
%s = getelementptr inbounds i16, i16* %p, i32 24
|
|
%t = load i16, i16* %s
|
|
%u = zext i16 %t to i32
|
|
ret i32 %u
|
|
}
|
|
|
|
; CHECK-LABEL: load_i16_i64_z_with_folded_gep_offset:
|
|
; CHECK: i64.load16_u $push0=, 48($0){{$}}
|
|
define i64 @load_i16_i64_z_with_folded_gep_offset(i16* %p) {
|
|
%s = getelementptr inbounds i16, i16* %p, i64 24
|
|
%t = load i16, i16* %s
|
|
%u = zext i16 %t to i64
|
|
ret i64 %u
|
|
}
|
|
|
|
; When loading from a fixed address, materialize a zero.
|
|
|
|
; CHECK-LABEL: load_i16_i32_z_from_numeric_address
|
|
; CHECK: i32.const $push0=, 0{{$}}
|
|
; CHECK: i32.load16_u $push1=, 42($pop0){{$}}
|
|
define i32 @load_i16_i32_z_from_numeric_address() {
|
|
%s = inttoptr i32 42 to i16*
|
|
%t = load i16, i16* %s
|
|
%u = zext i16 %t to i32
|
|
ret i32 %u
|
|
}
|
|
|
|
; CHECK-LABEL: load_i8_i32_z_from_global_address
|
|
; CHECK: i32.const $push0=, 0{{$}}
|
|
; CHECK: i32.load8_u $push1=, gv8($pop0){{$}}
|
|
define i32 @load_i8_i32_z_from_global_address() {
|
|
%t = load i8, i8* @gv8
|
|
%u = zext i8 %t to i32
|
|
ret i32 %u
|
|
}
|
|
|
|
; i8 return value should test anyext loads
|
|
; CHECK-LABEL: load_i8_i32_retvalue:
|
|
; CHECK: i32.load8_u $push[[NUM:[0-9]+]]=, 0($0){{$}}
|
|
; CHECK-NEXT: return $pop[[NUM]]{{$}}
|
|
define i8 @load_i8_i32_retvalue(i8 *%p) {
|
|
%v = load i8, i8* %p
|
|
ret i8 %v
|
|
}
|
|
|
|
;===----------------------------------------------------------------------------
|
|
; Truncating stores
|
|
;===----------------------------------------------------------------------------
|
|
|
|
; Fold an offset into a truncating store.
|
|
|
|
; CHECK-LABEL: store_i8_i32_with_folded_offset:
|
|
; CHECK: i32.store8 24($0), $1{{$}}
|
|
define void @store_i8_i32_with_folded_offset(i8* %p, i32 %v) {
|
|
%q = ptrtoint i8* %p to i32
|
|
%r = add nuw i32 %q, 24
|
|
%s = inttoptr i32 %r to i8*
|
|
%t = trunc i32 %v to i8
|
|
store i8 %t, i8* %s
|
|
ret void
|
|
}
|
|
|
|
; CHECK-LABEL: store_i32_i64_with_folded_offset:
|
|
; CHECK: i64.store32 24($0), $1{{$}}
|
|
define void @store_i32_i64_with_folded_offset(i32* %p, i64 %v) {
|
|
%q = ptrtoint i32* %p to i32
|
|
%r = add nuw i32 %q, 24
|
|
%s = inttoptr i32 %r to i32*
|
|
%t = trunc i64 %v to i32
|
|
store i32 %t, i32* %s
|
|
ret void
|
|
}
|
|
|
|
; Fold a gep offset into a truncating store.
|
|
|
|
; CHECK-LABEL: store_i8_i32_with_folded_gep_offset:
|
|
; CHECK: i32.store8 24($0), $1{{$}}
|
|
define void @store_i8_i32_with_folded_gep_offset(i8* %p, i32 %v) {
|
|
%s = getelementptr inbounds i8, i8* %p, i32 24
|
|
%t = trunc i32 %v to i8
|
|
store i8 %t, i8* %s
|
|
ret void
|
|
}
|
|
|
|
; CHECK-LABEL: store_i16_i32_with_folded_gep_offset:
|
|
; CHECK: i32.store16 48($0), $1{{$}}
|
|
define void @store_i16_i32_with_folded_gep_offset(i16* %p, i32 %v) {
|
|
%s = getelementptr inbounds i16, i16* %p, i32 24
|
|
%t = trunc i32 %v to i16
|
|
store i16 %t, i16* %s
|
|
ret void
|
|
}
|
|
|
|
; CHECK-LABEL: store_i16_i64_with_folded_gep_offset:
|
|
; CHECK: i64.store16 48($0), $1{{$}}
|
|
define void @store_i16_i64_with_folded_gep_offset(i16* %p, i64 %v) {
|
|
%s = getelementptr inbounds i16, i16* %p, i64 24
|
|
%t = trunc i64 %v to i16
|
|
store i16 %t, i16* %s
|
|
ret void
|
|
}
|
|
|
|
; 'add' in this code becomes 'or' after DAG optimization. Treat an 'or' node as
|
|
; an 'add' if the or'ed bits are known to be zero.
|
|
|
|
; CHECK-LABEL: store_i8_i32_with_folded_or_offset:
|
|
; CHECK: i32.store8 2($pop{{[0-9]+}}), $1{{$}}
|
|
define void @store_i8_i32_with_folded_or_offset(i32 %x, i32 %v) {
|
|
%and = and i32 %x, -4
|
|
%p = inttoptr i32 %and to i8*
|
|
%arrayidx = getelementptr inbounds i8, i8* %p, i32 2
|
|
%t = trunc i32 %v to i8
|
|
store i8 %t, i8* %arrayidx
|
|
ret void
|
|
}
|
|
|
|
; CHECK-LABEL: store_i8_i64_with_folded_or_offset:
|
|
; CHECK: i64.store8 2($pop{{[0-9]+}}), $1{{$}}
|
|
define void @store_i8_i64_with_folded_or_offset(i32 %x, i64 %v) {
|
|
%and = and i32 %x, -4
|
|
%p = inttoptr i32 %and to i8*
|
|
%arrayidx = getelementptr inbounds i8, i8* %p, i32 2
|
|
%t = trunc i64 %v to i8
|
|
store i8 %t, i8* %arrayidx
|
|
ret void
|
|
}
|
|
|
|
;===----------------------------------------------------------------------------
|
|
; Aggregate values
|
|
;===----------------------------------------------------------------------------
|
|
|
|
; Fold the offsets when lowering aggregate loads and stores.
|
|
|
|
; CHECK-LABEL: aggregate_load_store:
|
|
; CHECK: i32.load $2=, 0($0){{$}}
|
|
; CHECK: i32.load $3=, 4($0){{$}}
|
|
; CHECK: i32.load $4=, 8($0){{$}}
|
|
; CHECK: i32.load $push0=, 12($0){{$}}
|
|
; CHECK: i32.store 12($1), $pop0{{$}}
|
|
; CHECK: i32.store 8($1), $4{{$}}
|
|
; CHECK: i32.store 4($1), $3{{$}}
|
|
; CHECK: i32.store 0($1), $2{{$}}
|
|
define void @aggregate_load_store({i32,i32,i32,i32}* %p, {i32,i32,i32,i32}* %q) {
|
|
; volatile so that things stay in order for the tests above
|
|
%t = load volatile {i32,i32,i32,i32}, {i32, i32,i32,i32}* %p
|
|
store volatile {i32,i32,i32,i32} %t, {i32, i32,i32,i32}* %q
|
|
ret void
|
|
}
|
|
|
|
; Fold the offsets when lowering aggregate return values. The stores get
|
|
; merged into i64 stores.
|
|
|
|
; CHECK-LABEL: aggregate_return:
|
|
; CHECK: i64.const $push[[L0:[0-9]+]]=, 0{{$}}
|
|
; CHECK: i64.store 8($0), $pop[[L0]]{{$}}
|
|
; CHECK: i64.const $push[[L1:[0-9]+]]=, 0{{$}}
|
|
; CHECK: i64.store 0($0), $pop[[L1]]{{$}}
|
|
define {i32,i32,i32,i32} @aggregate_return() {
|
|
ret {i32,i32,i32,i32} zeroinitializer
|
|
}
|
|
|
|
; Fold the offsets when lowering aggregate return values. The stores are not
|
|
; merged.
|
|
|
|
; CHECK-LABEL: aggregate_return_without_merge:
|
|
; CHECK: i32.const $push[[L0:[0-9]+]]=, 0{{$}}
|
|
; CHECK: i32.store8 14($0), $pop[[L0]]{{$}}
|
|
; CHECK: i32.const $push[[L1:[0-9]+]]=, 0{{$}}
|
|
; CHECK: i32.store16 12($0), $pop[[L1]]{{$}}
|
|
; CHECK: i32.const $push[[L2:[0-9]+]]=, 0{{$}}
|
|
; CHECK: i32.store 8($0), $pop[[L2]]{{$}}
|
|
; CHECK: i64.const $push[[L3:[0-9]+]]=, 0{{$}}
|
|
; CHECK: i64.store 0($0), $pop[[L3]]{{$}}
|
|
define {i64,i32,i16,i8} @aggregate_return_without_merge() {
|
|
ret {i64,i32,i16,i8} zeroinitializer
|
|
}
|