mirror of
https://github.com/c64scene-ar/llvm-6502.git
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29f94c7201
This commit starts with a "git mv ARM64 AArch64" and continues out from there, renaming the C++ classes, intrinsics, and other target-local objects for consistency. "ARM64" test directories are also moved, and tests that began their life in ARM64 use an arm64 triple, those from AArch64 use an aarch64 triple. Both should be equivalent though. This finishes the AArch64 merge, and everyone should feel free to continue committing as normal now. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@209577 91177308-0d34-0410-b5e6-96231b3b80d8
209 lines
7.1 KiB
LLVM
209 lines
7.1 KiB
LLVM
; RUN: llc -verify-machineinstrs < %s -mtriple=aarch64-none-linux-gnu | FileCheck --check-prefix=CHECK %s
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; RUN: llc -verify-machineinstrs < %s -mtriple=aarch64-none-linux-gnu -mattr=-fp-armv8 | FileCheck --check-prefix=CHECK-NOFP %s
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%myStruct = type { i64 , i8, i32 }
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@var8 = global i8 0
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@var32 = global i32 0
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@var64 = global i64 0
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@var128 = global i128 0
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@varfloat = global float 0.0
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@vardouble = global double 0.0
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@varstruct = global %myStruct zeroinitializer
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define void @take_i8s(i8 %val1, i8 %val2) {
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; CHECK-LABEL: take_i8s:
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store i8 %val2, i8* @var8
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; Not using w1 may be technically allowed, but it would indicate a
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; problem in itself.
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; CHECK: strb w1, [{{x[0-9]+}}, {{#?}}:lo12:var8]
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ret void
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}
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define void @add_floats(float %val1, float %val2) {
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; CHECK-LABEL: add_floats:
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%newval = fadd float %val1, %val2
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; CHECK: fadd [[ADDRES:s[0-9]+]], s0, s1
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; CHECK-NOFP-NOT: fadd
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store float %newval, float* @varfloat
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; CHECK: str [[ADDRES]], [{{x[0-9]+}}, {{#?}}:lo12:varfloat]
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ret void
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}
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; byval pointers should be allocated to the stack and copied as if
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; with memcpy.
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define void @take_struct(%myStruct* byval %structval) {
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; CHECK-LABEL: take_struct:
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%addr0 = getelementptr %myStruct* %structval, i64 0, i32 2
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%addr1 = getelementptr %myStruct* %structval, i64 0, i32 0
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%val0 = load volatile i32* %addr0
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; Some weird move means x0 is used for one access
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; CHECK: ldr [[REG32:w[0-9]+]], [{{x[0-9]+|sp}}, #12]
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store volatile i32 %val0, i32* @var32
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; CHECK: str [[REG32]], [{{x[0-9]+}}, {{#?}}:lo12:var32]
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%val1 = load volatile i64* %addr1
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; CHECK: ldr [[REG64:x[0-9]+]], [{{x[0-9]+|sp}}]
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store volatile i64 %val1, i64* @var64
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; CHECK: str [[REG64]], [{{x[0-9]+}}, {{#?}}:lo12:var64]
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ret void
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}
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; %structval should be at sp + 16
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define void @check_byval_align(i32* byval %ignore, %myStruct* byval align 16 %structval) {
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; CHECK-LABEL: check_byval_align:
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%addr0 = getelementptr %myStruct* %structval, i64 0, i32 2
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%addr1 = getelementptr %myStruct* %structval, i64 0, i32 0
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%val0 = load volatile i32* %addr0
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; Some weird move means x0 is used for one access
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; CHECK: ldr [[REG32:w[0-9]+]], [sp, #28]
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store i32 %val0, i32* @var32
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; CHECK: str [[REG32]], [{{x[0-9]+}}, {{#?}}:lo12:var32]
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%val1 = load volatile i64* %addr1
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; CHECK: ldr [[REG64:x[0-9]+]], [sp, #16]
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store i64 %val1, i64* @var64
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; CHECK: str [[REG64]], [{{x[0-9]+}}, {{#?}}:lo12:var64]
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ret void
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}
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define i32 @return_int() {
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; CHECK-LABEL: return_int:
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%val = load i32* @var32
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ret i32 %val
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; CHECK: ldr w0, [{{x[0-9]+}}, {{#?}}:lo12:var32]
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; Make sure epilogue follows
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; CHECK-NEXT: ret
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}
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define double @return_double() {
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; CHECK-LABEL: return_double:
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ret double 3.14
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; CHECK: ldr d0, [{{x[0-9]+}}, {{#?}}:lo12:.LCPI
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; CHECK-NOFP-NOT: ldr d0,
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}
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; This is the kind of IR clang will produce for returning a struct
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; small enough to go into registers. Not all that pretty, but it
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; works.
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define [2 x i64] @return_struct() {
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; CHECK-LABEL: return_struct:
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%addr = bitcast %myStruct* @varstruct to [2 x i64]*
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%val = load [2 x i64]* %addr
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ret [2 x i64] %val
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; CHECK-DAG: ldr x0, [{{x[0-9]+}}, {{#?}}:lo12:varstruct]
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; Odd register regex below disallows x0 which we want to be live now.
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; CHECK-DAG: add {{x[1-9][0-9]*}}, {{x[1-9][0-9]*}}, {{#?}}:lo12:varstruct
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; CHECK: ldr x1, [{{x[1-9][0-9]*}}, #8]
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; Make sure epilogue immediately follows
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; CHECK-NEXT: ret
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}
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; Large structs are passed by reference (storage allocated by caller
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; to preserve value semantics) in x8. Strictly this only applies to
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; structs larger than 16 bytes, but C semantics can still be provided
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; if LLVM does it to %myStruct too. So this is the simplest check
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define void @return_large_struct(%myStruct* sret %retval) {
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; CHECK-LABEL: return_large_struct:
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%addr0 = getelementptr %myStruct* %retval, i64 0, i32 0
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%addr1 = getelementptr %myStruct* %retval, i64 0, i32 1
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%addr2 = getelementptr %myStruct* %retval, i64 0, i32 2
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store i64 42, i64* %addr0
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store i8 2, i8* %addr1
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store i32 9, i32* %addr2
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; CHECK: str {{x[0-9]+}}, [x8]
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; CHECK: strb {{w[0-9]+}}, [x8, #8]
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; CHECK: str {{w[0-9]+}}, [x8, #12]
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ret void
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}
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; This struct is just too far along to go into registers: (only x7 is
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; available, but it needs two). Also make sure that %stacked doesn't
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; sneak into x7 behind.
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define i32 @struct_on_stack(i8 %var0, i16 %var1, i32 %var2, i64 %var3, i128 %var45,
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i32* %var6, %myStruct* byval %struct, i32* byval %stacked,
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double %notstacked) {
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; CHECK-LABEL: struct_on_stack:
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%addr = getelementptr %myStruct* %struct, i64 0, i32 0
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%val64 = load volatile i64* %addr
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store volatile i64 %val64, i64* @var64
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; Currently nothing on local stack, so struct should be at sp
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; CHECK: ldr [[VAL64:x[0-9]+]], [sp]
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; CHECK: str [[VAL64]], [{{x[0-9]+}}, {{#?}}:lo12:var64]
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store volatile double %notstacked, double* @vardouble
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; CHECK-NOT: ldr d0
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; CHECK: str d0, [{{x[0-9]+}}, {{#?}}:lo12:vardouble
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; CHECK-NOFP-NOT: str d0,
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%retval = load volatile i32* %stacked
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ret i32 %retval
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; CHECK-LE: ldr w0, [sp, #16]
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}
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define void @stacked_fpu(float %var0, double %var1, float %var2, float %var3,
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float %var4, float %var5, float %var6, float %var7,
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float %var8) {
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; CHECK-LABEL: stacked_fpu:
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store float %var8, float* @varfloat
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; Beware as above: the offset would be different on big-endian
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; machines if the first ldr were changed to use s-registers.
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; CHECK: ldr {{[ds]}}[[VALFLOAT:[0-9]+]], [sp]
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; CHECK: str s[[VALFLOAT]], [{{x[0-9]+}}, {{#?}}:lo12:varfloat]
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ret void
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}
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; 128-bit integer types should be passed in xEVEN, xODD rather than
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; the reverse. In this case x2 and x3. Nothing should use x1.
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define i64 @check_i128_regalign(i32 %val0, i128 %val1, i64 %val2) {
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; CHECK-LABEL: check_i128_regalign
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store i128 %val1, i128* @var128
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; CHECK-DAG: str x2, [{{x[0-9]+}}, {{#?}}:lo12:var128]
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; CHECK-DAG: str x3, [{{x[0-9]+}}, #8]
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ret i64 %val2
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; CHECK: mov x0, x4
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}
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define void @check_i128_stackalign(i32 %val0, i32 %val1, i32 %val2, i32 %val3,
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i32 %val4, i32 %val5, i32 %val6, i32 %val7,
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i32 %stack1, i128 %stack2) {
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; CHECK-LABEL: check_i128_stackalign
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store i128 %stack2, i128* @var128
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; Nothing local on stack in current codegen, so first stack is 16 away
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; CHECK-LE: add x[[REG:[0-9]+]], sp, #16
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; CHECK-LE: ldr {{x[0-9]+}}, [x[[REG]], #8]
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; Important point is that we address sp+24 for second dword
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; CHECK: ldp {{x[0-9]+}}, {{x[0-9]+}}, [sp, #16]
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ret void
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}
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declare void @llvm.memcpy.p0i8.p0i8.i32(i8*, i8*, i32, i32, i1)
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define i32 @test_extern() {
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; CHECK-LABEL: test_extern:
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call void @llvm.memcpy.p0i8.p0i8.i32(i8* undef, i8* undef, i32 undef, i32 4, i1 0)
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; CHECK: bl memcpy
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ret i32 0
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}
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; A sub-i32 stack argument must be loaded on big endian with ldr{h,b}, not just
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; implicitly extended to a 32-bit load.
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define i16 @stacked_i16(i32 %val0, i32 %val1, i32 %val2, i32 %val3,
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i32 %val4, i32 %val5, i32 %val6, i32 %val7,
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i16 %stack1) {
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; CHECK-LABEL: stacked_i16
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ret i16 %stack1
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}
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