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; REQUIRES: asserts
; RUN: llc < %s -mtriple=arm64-linux-gnu -mcpu=cortex-a57 -verify-misched -debug-only=misched -o - 2>&1 > /dev/null | FileCheck %s
; RUN: llc < %s -mtriple=arm64-linux-gnu -mcpu=exynos-m1 -verify-misched -debug-only=misched -o - 2>&1 > /dev/null | FileCheck --check-prefix=EXYNOS %s
; Test ldr clustering.
; CHECK: ********** MI Scheduling **********
; CHECK-LABEL: ldr_int:BB#0
; CHECK: Cluster ld/st SU(1) - SU(2)
; CHECK: SU(1): %vreg{{[0-9]+}}<def> = LDRWui
; CHECK: SU(2): %vreg{{[0-9]+}}<def> = LDRWui
; EXYNOS: ********** MI Scheduling **********
; EXYNOS-LABEL: ldr_int:BB#0
; EXYNOS: Cluster ld/st SU(1) - SU(2)
; EXYNOS: SU(1): %vreg{{[0-9]+}}<def> = LDRWui
; EXYNOS: SU(2): %vreg{{[0-9]+}}<def> = LDRWui
define i32 @ldr_int(i32* %a) nounwind {
%p1 = getelementptr inbounds i32, i32* %a, i32 1
%tmp1 = load i32, i32* %p1, align 2
%p2 = getelementptr inbounds i32, i32* %a, i32 2
%tmp2 = load i32, i32* %p2, align 2
%tmp3 = add i32 %tmp1, %tmp2
ret i32 %tmp3
}
; Test ldpsw clustering
; CHECK: ********** MI Scheduling **********
; CHECK-LABEL: ldp_sext_int:BB#0
; CHECK: Cluster ld/st SU(1) - SU(2)
; CHECK: SU(1): %vreg{{[0-9]+}}<def> = LDRSWui
; CHECK: SU(2): %vreg{{[0-9]+}}<def> = LDRSWui
; EXYNOS: ********** MI Scheduling **********
; EXYNOS-LABEL: ldp_sext_int:BB#0
; EXYNOS: Cluster ld/st SU(1) - SU(2)
; EXYNOS: SU(1): %vreg{{[0-9]+}}<def> = LDRSWui
; EXYNOS: SU(2): %vreg{{[0-9]+}}<def> = LDRSWui
define i64 @ldp_sext_int(i32* %p) nounwind {
%tmp = load i32, i32* %p, align 4
%add.ptr = getelementptr inbounds i32, i32* %p, i64 1
%tmp1 = load i32, i32* %add.ptr, align 4
%sexttmp = sext i32 %tmp to i64
%sexttmp1 = sext i32 %tmp1 to i64
%add = add nsw i64 %sexttmp1, %sexttmp
ret i64 %add
}
; Test ldur clustering.
; CHECK: ********** MI Scheduling **********
; CHECK-LABEL: ldur_int:BB#0
; CHECK: Cluster ld/st SU(2) - SU(1)
; CHECK: SU(1): %vreg{{[0-9]+}}<def> = LDURWi
; CHECK: SU(2): %vreg{{[0-9]+}}<def> = LDURWi
; EXYNOS: ********** MI Scheduling **********
; EXYNOS-LABEL: ldur_int:BB#0
; EXYNOS: Cluster ld/st SU(2) - SU(1)
; EXYNOS: SU(1): %vreg{{[0-9]+}}<def> = LDURWi
; EXYNOS: SU(2): %vreg{{[0-9]+}}<def> = LDURWi
define i32 @ldur_int(i32* %a) nounwind {
%p1 = getelementptr inbounds i32, i32* %a, i32 -1
%tmp1 = load i32, i32* %p1, align 2
%p2 = getelementptr inbounds i32, i32* %a, i32 -2
%tmp2 = load i32, i32* %p2, align 2
%tmp3 = add i32 %tmp1, %tmp2
ret i32 %tmp3
}
; Test sext + zext clustering.
; CHECK: ********** MI Scheduling **********
; CHECK-LABEL: ldp_half_sext_zext_int:BB#0
; CHECK: Cluster ld/st SU(3) - SU(4)
; CHECK: SU(3): %vreg{{[0-9]+}}<def> = LDRSWui
; CHECK: SU(4): %vreg{{[0-9]+}}:sub_32<def,read-undef> = LDRWui
; EXYNOS: ********** MI Scheduling **********
; EXYNOS-LABEL: ldp_half_sext_zext_int:BB#0
; EXYNOS: Cluster ld/st SU(3) - SU(4)
; EXYNOS: SU(3): %vreg{{[0-9]+}}<def> = LDRSWui
; EXYNOS: SU(4): %vreg{{[0-9]+}}:sub_32<def,read-undef> = LDRWui
define i64 @ldp_half_sext_zext_int(i64* %q, i32* %p) nounwind {
%tmp0 = load i64, i64* %q, align 4
%tmp = load i32, i32* %p, align 4
%add.ptr = getelementptr inbounds i32, i32* %p, i64 1
%tmp1 = load i32, i32* %add.ptr, align 4
%sexttmp = sext i32 %tmp to i64
%sexttmp1 = zext i32 %tmp1 to i64
%add = add nsw i64 %sexttmp1, %sexttmp
%add1 = add nsw i64 %add, %tmp0
ret i64 %add1
}
; Test zext + sext clustering.
; CHECK: ********** MI Scheduling **********
; CHECK-LABEL: ldp_half_zext_sext_int:BB#0
; CHECK: Cluster ld/st SU(3) - SU(4)
; CHECK: SU(3): %vreg{{[0-9]+}}:sub_32<def,read-undef> = LDRWui
; CHECK: SU(4): %vreg{{[0-9]+}}<def> = LDRSWui
; EXYNOS: ********** MI Scheduling **********
; EXYNOS-LABEL: ldp_half_zext_sext_int:BB#0
; EXYNOS: Cluster ld/st SU(3) - SU(4)
; EXYNOS: SU(3): %vreg{{[0-9]+}}:sub_32<def,read-undef> = LDRWui
; EXYNOS: SU(4): %vreg{{[0-9]+}}<def> = LDRSWui
define i64 @ldp_half_zext_sext_int(i64* %q, i32* %p) nounwind {
%tmp0 = load i64, i64* %q, align 4
%tmp = load i32, i32* %p, align 4
%add.ptr = getelementptr inbounds i32, i32* %p, i64 1
%tmp1 = load i32, i32* %add.ptr, align 4
%sexttmp = zext i32 %tmp to i64
%sexttmp1 = sext i32 %tmp1 to i64
%add = add nsw i64 %sexttmp1, %sexttmp
%add1 = add nsw i64 %add, %tmp0
ret i64 %add1
}
; Verify we don't cluster volatile loads.
; CHECK: ********** MI Scheduling **********
; CHECK-LABEL: ldr_int_volatile:BB#0
; CHECK-NOT: Cluster ld/st
; CHECK: SU(1): %vreg{{[0-9]+}}<def> = LDRWui
; CHECK: SU(2): %vreg{{[0-9]+}}<def> = LDRWui
; EXYNOS: ********** MI Scheduling **********
; EXYNOS-LABEL: ldr_int_volatile:BB#0
; EXYNOS-NOT: Cluster ld/st
; EXYNOS: SU(1): %vreg{{[0-9]+}}<def> = LDRWui
; EXYNOS: SU(2): %vreg{{[0-9]+}}<def> = LDRWui
define i32 @ldr_int_volatile(i32* %a) nounwind {
%p1 = getelementptr inbounds i32, i32* %a, i32 1
%tmp1 = load volatile i32, i32* %p1, align 2
%p2 = getelementptr inbounds i32, i32* %a, i32 2
%tmp2 = load volatile i32, i32* %p2, align 2
%tmp3 = add i32 %tmp1, %tmp2
ret i32 %tmp3
}
; Test ldq clustering (no clustering for Exynos).
; CHECK: ********** MI Scheduling **********
; CHECK-LABEL: ldq_cluster:BB#0
; CHECK: Cluster ld/st SU(1) - SU(3)
; CHECK: SU(1): %vreg{{[0-9]+}}<def> = LDRQui
; CHECK: SU(3): %vreg{{[0-9]+}}<def> = LDRQui
; EXYNOS: ********** MI Scheduling **********
; EXYNOS-LABEL: ldq_cluster:BB#0
; EXYNOS-NOT: Cluster ld/st
define <2 x i64> @ldq_cluster(i64* %p) {
%a1 = bitcast i64* %p to <2 x i64>*
%tmp1 = load <2 x i64>, < 2 x i64>* %a1, align 8
%add.ptr2 = getelementptr inbounds i64, i64* %p, i64 2
%a2 = bitcast i64* %add.ptr2 to <2 x i64>*
%tmp2 = add nsw <2 x i64> %tmp1, %tmp1
%tmp3 = load <2 x i64>, <2 x i64>* %a2, align 8
%res = mul nsw <2 x i64> %tmp2, %tmp3
ret <2 x i64> %res
}