; NOTE: Assertions have been autogenerated by utils/update_llc_test_checks.py
; RUN: sed 's/iXLen/i32/g' %s | llc -mtriple=riscv32 -mattr=+v \
; RUN: -verify-machineinstrs | FileCheck %s --check-prefixes=CHECK,RV32
; RUN: sed 's/iXLen/i64/g' %s | llc -mtriple=riscv64 -mattr=+v \
; RUN: -verify-machineinstrs | FileCheck %s --check-prefixes=CHECK,RV64
declare i8 @llvm.vector.reduce.add.nxv1i8(<vscale x 1 x i8>)
define signext i8 @vreduce_add_nxv1i8(<vscale x 1 x i8> %v) {
; CHECK-LABEL: vreduce_add_nxv1i8:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e8, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e8, mf8, ta, mu
; CHECK-NEXT: vredsum.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i8 @llvm.vector.reduce.add.nxv1i8(<vscale x 1 x i8> %v)
ret i8 %red
}
declare i8 @llvm.vector.reduce.umax.nxv1i8(<vscale x 1 x i8>)
define signext i8 @vreduce_umax_nxv1i8(<vscale x 1 x i8> %v) {
; CHECK-LABEL: vreduce_umax_nxv1i8:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e8, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e8, mf8, ta, mu
; CHECK-NEXT: vredmaxu.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i8 @llvm.vector.reduce.umax.nxv1i8(<vscale x 1 x i8> %v)
ret i8 %red
}
declare i8 @llvm.vector.reduce.smax.nxv1i8(<vscale x 1 x i8>)
define signext i8 @vreduce_smax_nxv1i8(<vscale x 1 x i8> %v) {
; CHECK-LABEL: vreduce_smax_nxv1i8:
; CHECK: # %bb.0:
; CHECK-NEXT: li a0, -128
; CHECK-NEXT: vsetivli zero, 1, e8, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, a0
; CHECK-NEXT: vsetvli a0, zero, e8, mf8, ta, mu
; CHECK-NEXT: vredmax.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i8 @llvm.vector.reduce.smax.nxv1i8(<vscale x 1 x i8> %v)
ret i8 %red
}
declare i8 @llvm.vector.reduce.umin.nxv1i8(<vscale x 1 x i8>)
define signext i8 @vreduce_umin_nxv1i8(<vscale x 1 x i8> %v) {
; CHECK-LABEL: vreduce_umin_nxv1i8:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e8, m1, ta, mu
; CHECK-NEXT: vmv.v.i v9, -1
; CHECK-NEXT: vsetvli a0, zero, e8, mf8, ta, mu
; CHECK-NEXT: vredminu.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i8 @llvm.vector.reduce.umin.nxv1i8(<vscale x 1 x i8> %v)
ret i8 %red
}
declare i8 @llvm.vector.reduce.smin.nxv1i8(<vscale x 1 x i8>)
define signext i8 @vreduce_smin_nxv1i8(<vscale x 1 x i8> %v) {
; CHECK-LABEL: vreduce_smin_nxv1i8:
; CHECK: # %bb.0:
; CHECK-NEXT: li a0, 127
; CHECK-NEXT: vsetivli zero, 1, e8, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, a0
; CHECK-NEXT: vsetvli a0, zero, e8, mf8, ta, mu
; CHECK-NEXT: vredmin.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i8 @llvm.vector.reduce.smin.nxv1i8(<vscale x 1 x i8> %v)
ret i8 %red
}
declare i8 @llvm.vector.reduce.and.nxv1i8(<vscale x 1 x i8>)
define signext i8 @vreduce_and_nxv1i8(<vscale x 1 x i8> %v) {
; CHECK-LABEL: vreduce_and_nxv1i8:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e8, m1, ta, mu
; CHECK-NEXT: vmv.v.i v9, -1
; CHECK-NEXT: vsetvli a0, zero, e8, mf8, ta, mu
; CHECK-NEXT: vredand.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i8 @llvm.vector.reduce.and.nxv1i8(<vscale x 1 x i8> %v)
ret i8 %red
}
declare i8 @llvm.vector.reduce.or.nxv1i8(<vscale x 1 x i8>)
define signext i8 @vreduce_or_nxv1i8(<vscale x 1 x i8> %v) {
; CHECK-LABEL: vreduce_or_nxv1i8:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e8, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e8, mf8, ta, mu
; CHECK-NEXT: vredor.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i8 @llvm.vector.reduce.or.nxv1i8(<vscale x 1 x i8> %v)
ret i8 %red
}
declare i8 @llvm.vector.reduce.xor.nxv1i8(<vscale x 1 x i8>)
define signext i8 @vreduce_xor_nxv1i8(<vscale x 1 x i8> %v) {
; CHECK-LABEL: vreduce_xor_nxv1i8:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e8, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e8, mf8, ta, mu
; CHECK-NEXT: vredxor.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i8 @llvm.vector.reduce.xor.nxv1i8(<vscale x 1 x i8> %v)
ret i8 %red
}
declare i8 @llvm.vector.reduce.add.nxv2i8(<vscale x 2 x i8>)
define signext i8 @vreduce_add_nxv2i8(<vscale x 2 x i8> %v) {
; CHECK-LABEL: vreduce_add_nxv2i8:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e8, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e8, mf4, ta, mu
; CHECK-NEXT: vredsum.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i8 @llvm.vector.reduce.add.nxv2i8(<vscale x 2 x i8> %v)
ret i8 %red
}
declare i8 @llvm.vector.reduce.umax.nxv2i8(<vscale x 2 x i8>)
define signext i8 @vreduce_umax_nxv2i8(<vscale x 2 x i8> %v) {
; CHECK-LABEL: vreduce_umax_nxv2i8:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e8, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e8, mf4, ta, mu
; CHECK-NEXT: vredmaxu.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i8 @llvm.vector.reduce.umax.nxv2i8(<vscale x 2 x i8> %v)
ret i8 %red
}
declare i8 @llvm.vector.reduce.smax.nxv2i8(<vscale x 2 x i8>)
define signext i8 @vreduce_smax_nxv2i8(<vscale x 2 x i8> %v) {
; CHECK-LABEL: vreduce_smax_nxv2i8:
; CHECK: # %bb.0:
; CHECK-NEXT: li a0, -128
; CHECK-NEXT: vsetivli zero, 1, e8, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, a0
; CHECK-NEXT: vsetvli a0, zero, e8, mf4, ta, mu
; CHECK-NEXT: vredmax.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i8 @llvm.vector.reduce.smax.nxv2i8(<vscale x 2 x i8> %v)
ret i8 %red
}
declare i8 @llvm.vector.reduce.umin.nxv2i8(<vscale x 2 x i8>)
define signext i8 @vreduce_umin_nxv2i8(<vscale x 2 x i8> %v) {
; CHECK-LABEL: vreduce_umin_nxv2i8:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e8, m1, ta, mu
; CHECK-NEXT: vmv.v.i v9, -1
; CHECK-NEXT: vsetvli a0, zero, e8, mf4, ta, mu
; CHECK-NEXT: vredminu.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i8 @llvm.vector.reduce.umin.nxv2i8(<vscale x 2 x i8> %v)
ret i8 %red
}
declare i8 @llvm.vector.reduce.smin.nxv2i8(<vscale x 2 x i8>)
define signext i8 @vreduce_smin_nxv2i8(<vscale x 2 x i8> %v) {
; CHECK-LABEL: vreduce_smin_nxv2i8:
; CHECK: # %bb.0:
; CHECK-NEXT: li a0, 127
; CHECK-NEXT: vsetivli zero, 1, e8, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, a0
; CHECK-NEXT: vsetvli a0, zero, e8, mf4, ta, mu
; CHECK-NEXT: vredmin.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i8 @llvm.vector.reduce.smin.nxv2i8(<vscale x 2 x i8> %v)
ret i8 %red
}
declare i8 @llvm.vector.reduce.and.nxv2i8(<vscale x 2 x i8>)
define signext i8 @vreduce_and_nxv2i8(<vscale x 2 x i8> %v) {
; CHECK-LABEL: vreduce_and_nxv2i8:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e8, m1, ta, mu
; CHECK-NEXT: vmv.v.i v9, -1
; CHECK-NEXT: vsetvli a0, zero, e8, mf4, ta, mu
; CHECK-NEXT: vredand.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i8 @llvm.vector.reduce.and.nxv2i8(<vscale x 2 x i8> %v)
ret i8 %red
}
declare i8 @llvm.vector.reduce.or.nxv2i8(<vscale x 2 x i8>)
define signext i8 @vreduce_or_nxv2i8(<vscale x 2 x i8> %v) {
; CHECK-LABEL: vreduce_or_nxv2i8:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e8, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e8, mf4, ta, mu
; CHECK-NEXT: vredor.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i8 @llvm.vector.reduce.or.nxv2i8(<vscale x 2 x i8> %v)
ret i8 %red
}
declare i8 @llvm.vector.reduce.xor.nxv2i8(<vscale x 2 x i8>)
define signext i8 @vreduce_xor_nxv2i8(<vscale x 2 x i8> %v) {
; CHECK-LABEL: vreduce_xor_nxv2i8:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e8, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e8, mf4, ta, mu
; CHECK-NEXT: vredxor.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i8 @llvm.vector.reduce.xor.nxv2i8(<vscale x 2 x i8> %v)
ret i8 %red
}
declare i8 @llvm.vector.reduce.add.nxv4i8(<vscale x 4 x i8>)
define signext i8 @vreduce_add_nxv4i8(<vscale x 4 x i8> %v) {
; CHECK-LABEL: vreduce_add_nxv4i8:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e8, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e8, mf2, ta, mu
; CHECK-NEXT: vredsum.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i8 @llvm.vector.reduce.add.nxv4i8(<vscale x 4 x i8> %v)
ret i8 %red
}
declare i8 @llvm.vector.reduce.umax.nxv4i8(<vscale x 4 x i8>)
define signext i8 @vreduce_umax_nxv4i8(<vscale x 4 x i8> %v) {
; CHECK-LABEL: vreduce_umax_nxv4i8:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e8, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e8, mf2, ta, mu
; CHECK-NEXT: vredmaxu.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i8 @llvm.vector.reduce.umax.nxv4i8(<vscale x 4 x i8> %v)
ret i8 %red
}
declare i8 @llvm.vector.reduce.smax.nxv4i8(<vscale x 4 x i8>)
define signext i8 @vreduce_smax_nxv4i8(<vscale x 4 x i8> %v) {
; CHECK-LABEL: vreduce_smax_nxv4i8:
; CHECK: # %bb.0:
; CHECK-NEXT: li a0, -128
; CHECK-NEXT: vsetivli zero, 1, e8, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, a0
; CHECK-NEXT: vsetvli a0, zero, e8, mf2, ta, mu
; CHECK-NEXT: vredmax.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i8 @llvm.vector.reduce.smax.nxv4i8(<vscale x 4 x i8> %v)
ret i8 %red
}
declare i8 @llvm.vector.reduce.umin.nxv4i8(<vscale x 4 x i8>)
define signext i8 @vreduce_umin_nxv4i8(<vscale x 4 x i8> %v) {
; CHECK-LABEL: vreduce_umin_nxv4i8:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e8, m1, ta, mu
; CHECK-NEXT: vmv.v.i v9, -1
; CHECK-NEXT: vsetvli a0, zero, e8, mf2, ta, mu
; CHECK-NEXT: vredminu.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i8 @llvm.vector.reduce.umin.nxv4i8(<vscale x 4 x i8> %v)
ret i8 %red
}
declare i8 @llvm.vector.reduce.smin.nxv4i8(<vscale x 4 x i8>)
define signext i8 @vreduce_smin_nxv4i8(<vscale x 4 x i8> %v) {
; CHECK-LABEL: vreduce_smin_nxv4i8:
; CHECK: # %bb.0:
; CHECK-NEXT: li a0, 127
; CHECK-NEXT: vsetivli zero, 1, e8, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, a0
; CHECK-NEXT: vsetvli a0, zero, e8, mf2, ta, mu
; CHECK-NEXT: vredmin.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i8 @llvm.vector.reduce.smin.nxv4i8(<vscale x 4 x i8> %v)
ret i8 %red
}
declare i8 @llvm.vector.reduce.and.nxv4i8(<vscale x 4 x i8>)
define signext i8 @vreduce_and_nxv4i8(<vscale x 4 x i8> %v) {
; CHECK-LABEL: vreduce_and_nxv4i8:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e8, m1, ta, mu
; CHECK-NEXT: vmv.v.i v9, -1
; CHECK-NEXT: vsetvli a0, zero, e8, mf2, ta, mu
; CHECK-NEXT: vredand.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i8 @llvm.vector.reduce.and.nxv4i8(<vscale x 4 x i8> %v)
ret i8 %red
}
declare i8 @llvm.vector.reduce.or.nxv4i8(<vscale x 4 x i8>)
define signext i8 @vreduce_or_nxv4i8(<vscale x 4 x i8> %v) {
; CHECK-LABEL: vreduce_or_nxv4i8:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e8, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e8, mf2, ta, mu
; CHECK-NEXT: vredor.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i8 @llvm.vector.reduce.or.nxv4i8(<vscale x 4 x i8> %v)
ret i8 %red
}
declare i8 @llvm.vector.reduce.xor.nxv4i8(<vscale x 4 x i8>)
define signext i8 @vreduce_xor_nxv4i8(<vscale x 4 x i8> %v) {
; CHECK-LABEL: vreduce_xor_nxv4i8:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e8, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e8, mf2, ta, mu
; CHECK-NEXT: vredxor.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i8 @llvm.vector.reduce.xor.nxv4i8(<vscale x 4 x i8> %v)
ret i8 %red
}
declare i16 @llvm.vector.reduce.add.nxv1i16(<vscale x 1 x i16>)
define signext i16 @vreduce_add_nxv1i16(<vscale x 1 x i16> %v) {
; CHECK-LABEL: vreduce_add_nxv1i16:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e16, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e16, mf4, ta, mu
; CHECK-NEXT: vredsum.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i16 @llvm.vector.reduce.add.nxv1i16(<vscale x 1 x i16> %v)
ret i16 %red
}
define signext i16 @vwreduce_add_nxv1i8(<vscale x 1 x i8> %v) {
; CHECK-LABEL: vwreduce_add_nxv1i8:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e16, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e8, mf8, ta, mu
; CHECK-NEXT: vwredsum.vs v8, v8, v9
; CHECK-NEXT: vsetivli zero, 0, e16, m1, ta, mu
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%e = sext <vscale x 1 x i8> %v to <vscale x 1 x i16>
%red = call i16 @llvm.vector.reduce.add.nxv1i16(<vscale x 1 x i16> %e)
ret i16 %red
}
define signext i16 @vwreduce_uadd_nxv1i8(<vscale x 1 x i8> %v) {
; CHECK-LABEL: vwreduce_uadd_nxv1i8:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e16, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e8, mf8, ta, mu
; CHECK-NEXT: vwredsum.vs v8, v8, v9
; CHECK-NEXT: vsetivli zero, 0, e16, m1, ta, mu
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%e = sext <vscale x 1 x i8> %v to <vscale x 1 x i16>
%red = call i16 @llvm.vector.reduce.add.nxv1i16(<vscale x 1 x i16> %e)
ret i16 %red
}
declare i16 @llvm.vector.reduce.umax.nxv1i16(<vscale x 1 x i16>)
define signext i16 @vreduce_umax_nxv1i16(<vscale x 1 x i16> %v) {
; CHECK-LABEL: vreduce_umax_nxv1i16:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e16, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e16, mf4, ta, mu
; CHECK-NEXT: vredmaxu.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i16 @llvm.vector.reduce.umax.nxv1i16(<vscale x 1 x i16> %v)
ret i16 %red
}
declare i16 @llvm.vector.reduce.smax.nxv1i16(<vscale x 1 x i16>)
define signext i16 @vreduce_smax_nxv1i16(<vscale x 1 x i16> %v) {
; CHECK-LABEL: vreduce_smax_nxv1i16:
; CHECK: # %bb.0:
; CHECK-NEXT: lui a0, 1048568
; CHECK-NEXT: vsetivli zero, 1, e16, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, a0
; CHECK-NEXT: vsetvli a0, zero, e16, mf4, ta, mu
; CHECK-NEXT: vredmax.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i16 @llvm.vector.reduce.smax.nxv1i16(<vscale x 1 x i16> %v)
ret i16 %red
}
declare i16 @llvm.vector.reduce.umin.nxv1i16(<vscale x 1 x i16>)
define signext i16 @vreduce_umin_nxv1i16(<vscale x 1 x i16> %v) {
; CHECK-LABEL: vreduce_umin_nxv1i16:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e16, m1, ta, mu
; CHECK-NEXT: vmv.v.i v9, -1
; CHECK-NEXT: vsetvli a0, zero, e16, mf4, ta, mu
; CHECK-NEXT: vredminu.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i16 @llvm.vector.reduce.umin.nxv1i16(<vscale x 1 x i16> %v)
ret i16 %red
}
declare i16 @llvm.vector.reduce.smin.nxv1i16(<vscale x 1 x i16>)
define signext i16 @vreduce_smin_nxv1i16(<vscale x 1 x i16> %v) {
; RV32-LABEL: vreduce_smin_nxv1i16:
; RV32: # %bb.0:
; RV32-NEXT: lui a0, 8
; RV32-NEXT: addi a0, a0, -1
; RV32-NEXT: vsetivli zero, 1, e16, m1, ta, mu
; RV32-NEXT: vmv.s.x v9, a0
; RV32-NEXT: vsetvli a0, zero, e16, mf4, ta, mu
; RV32-NEXT: vredmin.vs v8, v8, v9
; RV32-NEXT: vmv.x.s a0, v8
; RV32-NEXT: ret
;
; RV64-LABEL: vreduce_smin_nxv1i16:
; RV64: # %bb.0:
; RV64-NEXT: lui a0, 8
; RV64-NEXT: addiw a0, a0, -1
; RV64-NEXT: vsetivli zero, 1, e16, m1, ta, mu
; RV64-NEXT: vmv.s.x v9, a0
; RV64-NEXT: vsetvli a0, zero, e16, mf4, ta, mu
; RV64-NEXT: vredmin.vs v8, v8, v9
; RV64-NEXT: vmv.x.s a0, v8
; RV64-NEXT: ret
%red = call i16 @llvm.vector.reduce.smin.nxv1i16(<vscale x 1 x i16> %v)
ret i16 %red
}
declare i16 @llvm.vector.reduce.and.nxv1i16(<vscale x 1 x i16>)
define signext i16 @vreduce_and_nxv1i16(<vscale x 1 x i16> %v) {
; CHECK-LABEL: vreduce_and_nxv1i16:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e16, m1, ta, mu
; CHECK-NEXT: vmv.v.i v9, -1
; CHECK-NEXT: vsetvli a0, zero, e16, mf4, ta, mu
; CHECK-NEXT: vredand.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i16 @llvm.vector.reduce.and.nxv1i16(<vscale x 1 x i16> %v)
ret i16 %red
}
declare i16 @llvm.vector.reduce.or.nxv1i16(<vscale x 1 x i16>)
define signext i16 @vreduce_or_nxv1i16(<vscale x 1 x i16> %v) {
; CHECK-LABEL: vreduce_or_nxv1i16:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e16, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e16, mf4, ta, mu
; CHECK-NEXT: vredor.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i16 @llvm.vector.reduce.or.nxv1i16(<vscale x 1 x i16> %v)
ret i16 %red
}
declare i16 @llvm.vector.reduce.xor.nxv1i16(<vscale x 1 x i16>)
define signext i16 @vreduce_xor_nxv1i16(<vscale x 1 x i16> %v) {
; CHECK-LABEL: vreduce_xor_nxv1i16:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e16, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e16, mf4, ta, mu
; CHECK-NEXT: vredxor.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i16 @llvm.vector.reduce.xor.nxv1i16(<vscale x 1 x i16> %v)
ret i16 %red
}
declare i16 @llvm.vector.reduce.add.nxv2i16(<vscale x 2 x i16>)
define signext i16 @vreduce_add_nxv2i16(<vscale x 2 x i16> %v) {
; CHECK-LABEL: vreduce_add_nxv2i16:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e16, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e16, mf2, ta, mu
; CHECK-NEXT: vredsum.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i16 @llvm.vector.reduce.add.nxv2i16(<vscale x 2 x i16> %v)
ret i16 %red
}
define signext i16 @vwreduce_add_nxv2i8(<vscale x 2 x i8> %v) {
; CHECK-LABEL: vwreduce_add_nxv2i8:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e16, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e8, mf4, ta, mu
; CHECK-NEXT: vwredsum.vs v8, v8, v9
; CHECK-NEXT: vsetivli zero, 0, e16, m1, ta, mu
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%e = sext <vscale x 2 x i8> %v to <vscale x 2 x i16>
%red = call i16 @llvm.vector.reduce.add.nxv2i16(<vscale x 2 x i16> %e)
ret i16 %red
}
define signext i16 @vwreduce_uadd_nxv2i8(<vscale x 2 x i8> %v) {
; CHECK-LABEL: vwreduce_uadd_nxv2i8:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e16, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e8, mf4, ta, mu
; CHECK-NEXT: vwredsum.vs v8, v8, v9
; CHECK-NEXT: vsetivli zero, 0, e16, m1, ta, mu
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%e = sext <vscale x 2 x i8> %v to <vscale x 2 x i16>
%red = call i16 @llvm.vector.reduce.add.nxv2i16(<vscale x 2 x i16> %e)
ret i16 %red
}
declare i16 @llvm.vector.reduce.umax.nxv2i16(<vscale x 2 x i16>)
define signext i16 @vreduce_umax_nxv2i16(<vscale x 2 x i16> %v) {
; CHECK-LABEL: vreduce_umax_nxv2i16:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e16, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e16, mf2, ta, mu
; CHECK-NEXT: vredmaxu.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i16 @llvm.vector.reduce.umax.nxv2i16(<vscale x 2 x i16> %v)
ret i16 %red
}
declare i16 @llvm.vector.reduce.smax.nxv2i16(<vscale x 2 x i16>)
define signext i16 @vreduce_smax_nxv2i16(<vscale x 2 x i16> %v) {
; CHECK-LABEL: vreduce_smax_nxv2i16:
; CHECK: # %bb.0:
; CHECK-NEXT: lui a0, 1048568
; CHECK-NEXT: vsetivli zero, 1, e16, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, a0
; CHECK-NEXT: vsetvli a0, zero, e16, mf2, ta, mu
; CHECK-NEXT: vredmax.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i16 @llvm.vector.reduce.smax.nxv2i16(<vscale x 2 x i16> %v)
ret i16 %red
}
declare i16 @llvm.vector.reduce.umin.nxv2i16(<vscale x 2 x i16>)
define signext i16 @vreduce_umin_nxv2i16(<vscale x 2 x i16> %v) {
; CHECK-LABEL: vreduce_umin_nxv2i16:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e16, m1, ta, mu
; CHECK-NEXT: vmv.v.i v9, -1
; CHECK-NEXT: vsetvli a0, zero, e16, mf2, ta, mu
; CHECK-NEXT: vredminu.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i16 @llvm.vector.reduce.umin.nxv2i16(<vscale x 2 x i16> %v)
ret i16 %red
}
declare i16 @llvm.vector.reduce.smin.nxv2i16(<vscale x 2 x i16>)
define signext i16 @vreduce_smin_nxv2i16(<vscale x 2 x i16> %v) {
; RV32-LABEL: vreduce_smin_nxv2i16:
; RV32: # %bb.0:
; RV32-NEXT: lui a0, 8
; RV32-NEXT: addi a0, a0, -1
; RV32-NEXT: vsetivli zero, 1, e16, m1, ta, mu
; RV32-NEXT: vmv.s.x v9, a0
; RV32-NEXT: vsetvli a0, zero, e16, mf2, ta, mu
; RV32-NEXT: vredmin.vs v8, v8, v9
; RV32-NEXT: vmv.x.s a0, v8
; RV32-NEXT: ret
;
; RV64-LABEL: vreduce_smin_nxv2i16:
; RV64: # %bb.0:
; RV64-NEXT: lui a0, 8
; RV64-NEXT: addiw a0, a0, -1
; RV64-NEXT: vsetivli zero, 1, e16, m1, ta, mu
; RV64-NEXT: vmv.s.x v9, a0
; RV64-NEXT: vsetvli a0, zero, e16, mf2, ta, mu
; RV64-NEXT: vredmin.vs v8, v8, v9
; RV64-NEXT: vmv.x.s a0, v8
; RV64-NEXT: ret
%red = call i16 @llvm.vector.reduce.smin.nxv2i16(<vscale x 2 x i16> %v)
ret i16 %red
}
declare i16 @llvm.vector.reduce.and.nxv2i16(<vscale x 2 x i16>)
define signext i16 @vreduce_and_nxv2i16(<vscale x 2 x i16> %v) {
; CHECK-LABEL: vreduce_and_nxv2i16:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e16, m1, ta, mu
; CHECK-NEXT: vmv.v.i v9, -1
; CHECK-NEXT: vsetvli a0, zero, e16, mf2, ta, mu
; CHECK-NEXT: vredand.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i16 @llvm.vector.reduce.and.nxv2i16(<vscale x 2 x i16> %v)
ret i16 %red
}
declare i16 @llvm.vector.reduce.or.nxv2i16(<vscale x 2 x i16>)
define signext i16 @vreduce_or_nxv2i16(<vscale x 2 x i16> %v) {
; CHECK-LABEL: vreduce_or_nxv2i16:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e16, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e16, mf2, ta, mu
; CHECK-NEXT: vredor.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i16 @llvm.vector.reduce.or.nxv2i16(<vscale x 2 x i16> %v)
ret i16 %red
}
declare i16 @llvm.vector.reduce.xor.nxv2i16(<vscale x 2 x i16>)
define signext i16 @vreduce_xor_nxv2i16(<vscale x 2 x i16> %v) {
; CHECK-LABEL: vreduce_xor_nxv2i16:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e16, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e16, mf2, ta, mu
; CHECK-NEXT: vredxor.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i16 @llvm.vector.reduce.xor.nxv2i16(<vscale x 2 x i16> %v)
ret i16 %red
}
declare i16 @llvm.vector.reduce.add.nxv4i16(<vscale x 4 x i16>)
define signext i16 @vreduce_add_nxv4i16(<vscale x 4 x i16> %v) {
; CHECK-LABEL: vreduce_add_nxv4i16:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e16, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e16, m1, ta, mu
; CHECK-NEXT: vredsum.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i16 @llvm.vector.reduce.add.nxv4i16(<vscale x 4 x i16> %v)
ret i16 %red
}
define signext i16 @vwreduce_add_nxv4i8(<vscale x 4 x i8> %v) {
; CHECK-LABEL: vwreduce_add_nxv4i8:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e16, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e8, mf2, ta, mu
; CHECK-NEXT: vwredsum.vs v8, v8, v9
; CHECK-NEXT: vsetvli zero, zero, e16, m1, ta, mu
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%e = sext <vscale x 4 x i8> %v to <vscale x 4 x i16>
%red = call i16 @llvm.vector.reduce.add.nxv4i16(<vscale x 4 x i16> %e)
ret i16 %red
}
define signext i16 @vwreduce_uadd_nxv4i8(<vscale x 4 x i8> %v) {
; CHECK-LABEL: vwreduce_uadd_nxv4i8:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e16, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e8, mf2, ta, mu
; CHECK-NEXT: vwredsum.vs v8, v8, v9
; CHECK-NEXT: vsetvli zero, zero, e16, m1, ta, mu
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%e = sext <vscale x 4 x i8> %v to <vscale x 4 x i16>
%red = call i16 @llvm.vector.reduce.add.nxv4i16(<vscale x 4 x i16> %e)
ret i16 %red
}
declare i16 @llvm.vector.reduce.umax.nxv4i16(<vscale x 4 x i16>)
define signext i16 @vreduce_umax_nxv4i16(<vscale x 4 x i16> %v) {
; CHECK-LABEL: vreduce_umax_nxv4i16:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e16, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e16, m1, ta, mu
; CHECK-NEXT: vredmaxu.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i16 @llvm.vector.reduce.umax.nxv4i16(<vscale x 4 x i16> %v)
ret i16 %red
}
declare i16 @llvm.vector.reduce.smax.nxv4i16(<vscale x 4 x i16>)
define signext i16 @vreduce_smax_nxv4i16(<vscale x 4 x i16> %v) {
; CHECK-LABEL: vreduce_smax_nxv4i16:
; CHECK: # %bb.0:
; CHECK-NEXT: lui a0, 1048568
; CHECK-NEXT: vsetivli zero, 1, e16, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, a0
; CHECK-NEXT: vsetvli a0, zero, e16, m1, ta, mu
; CHECK-NEXT: vredmax.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i16 @llvm.vector.reduce.smax.nxv4i16(<vscale x 4 x i16> %v)
ret i16 %red
}
declare i16 @llvm.vector.reduce.umin.nxv4i16(<vscale x 4 x i16>)
define signext i16 @vreduce_umin_nxv4i16(<vscale x 4 x i16> %v) {
; CHECK-LABEL: vreduce_umin_nxv4i16:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e16, m1, ta, mu
; CHECK-NEXT: vmv.v.i v9, -1
; CHECK-NEXT: vsetvli a0, zero, e16, m1, ta, mu
; CHECK-NEXT: vredminu.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i16 @llvm.vector.reduce.umin.nxv4i16(<vscale x 4 x i16> %v)
ret i16 %red
}
declare i16 @llvm.vector.reduce.smin.nxv4i16(<vscale x 4 x i16>)
define signext i16 @vreduce_smin_nxv4i16(<vscale x 4 x i16> %v) {
; RV32-LABEL: vreduce_smin_nxv4i16:
; RV32: # %bb.0:
; RV32-NEXT: lui a0, 8
; RV32-NEXT: addi a0, a0, -1
; RV32-NEXT: vsetivli zero, 1, e16, m1, ta, mu
; RV32-NEXT: vmv.s.x v9, a0
; RV32-NEXT: vsetvli a0, zero, e16, m1, ta, mu
; RV32-NEXT: vredmin.vs v8, v8, v9
; RV32-NEXT: vmv.x.s a0, v8
; RV32-NEXT: ret
;
; RV64-LABEL: vreduce_smin_nxv4i16:
; RV64: # %bb.0:
; RV64-NEXT: lui a0, 8
; RV64-NEXT: addiw a0, a0, -1
; RV64-NEXT: vsetivli zero, 1, e16, m1, ta, mu
; RV64-NEXT: vmv.s.x v9, a0
; RV64-NEXT: vsetvli a0, zero, e16, m1, ta, mu
; RV64-NEXT: vredmin.vs v8, v8, v9
; RV64-NEXT: vmv.x.s a0, v8
; RV64-NEXT: ret
%red = call i16 @llvm.vector.reduce.smin.nxv4i16(<vscale x 4 x i16> %v)
ret i16 %red
}
declare i16 @llvm.vector.reduce.and.nxv4i16(<vscale x 4 x i16>)
define signext i16 @vreduce_and_nxv4i16(<vscale x 4 x i16> %v) {
; CHECK-LABEL: vreduce_and_nxv4i16:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e16, m1, ta, mu
; CHECK-NEXT: vmv.v.i v9, -1
; CHECK-NEXT: vsetvli a0, zero, e16, m1, ta, mu
; CHECK-NEXT: vredand.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i16 @llvm.vector.reduce.and.nxv4i16(<vscale x 4 x i16> %v)
ret i16 %red
}
declare i16 @llvm.vector.reduce.or.nxv4i16(<vscale x 4 x i16>)
define signext i16 @vreduce_or_nxv4i16(<vscale x 4 x i16> %v) {
; CHECK-LABEL: vreduce_or_nxv4i16:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e16, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e16, m1, ta, mu
; CHECK-NEXT: vredor.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i16 @llvm.vector.reduce.or.nxv4i16(<vscale x 4 x i16> %v)
ret i16 %red
}
declare i16 @llvm.vector.reduce.xor.nxv4i16(<vscale x 4 x i16>)
define signext i16 @vreduce_xor_nxv4i16(<vscale x 4 x i16> %v) {
; CHECK-LABEL: vreduce_xor_nxv4i16:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e16, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e16, m1, ta, mu
; CHECK-NEXT: vredxor.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i16 @llvm.vector.reduce.xor.nxv4i16(<vscale x 4 x i16> %v)
ret i16 %red
}
declare i32 @llvm.vector.reduce.add.nxv1i32(<vscale x 1 x i32>)
define signext i32 @vreduce_add_nxv1i32(<vscale x 1 x i32> %v) {
; CHECK-LABEL: vreduce_add_nxv1i32:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e32, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e32, mf2, ta, mu
; CHECK-NEXT: vredsum.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i32 @llvm.vector.reduce.add.nxv1i32(<vscale x 1 x i32> %v)
ret i32 %red
}
define signext i32 @vwreduce_add_nxv1i16(<vscale x 1 x i16> %v) {
; CHECK-LABEL: vwreduce_add_nxv1i16:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e32, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e16, mf4, ta, mu
; CHECK-NEXT: vwredsum.vs v8, v8, v9
; CHECK-NEXT: vsetivli zero, 0, e32, m1, ta, mu
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%e = sext <vscale x 1 x i16> %v to <vscale x 1 x i32>
%red = call i32 @llvm.vector.reduce.add.nxv1i32(<vscale x 1 x i32> %e)
ret i32 %red
}
define signext i32 @vwreduce_uadd_nxv1i16(<vscale x 1 x i16> %v) {
; CHECK-LABEL: vwreduce_uadd_nxv1i16:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e32, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e16, mf4, ta, mu
; CHECK-NEXT: vwredsumu.vs v8, v8, v9
; CHECK-NEXT: vsetivli zero, 0, e32, m1, ta, mu
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%e = zext <vscale x 1 x i16> %v to <vscale x 1 x i32>
%red = call i32 @llvm.vector.reduce.add.nxv1i32(<vscale x 1 x i32> %e)
ret i32 %red
}
declare i32 @llvm.vector.reduce.umax.nxv1i32(<vscale x 1 x i32>)
define signext i32 @vreduce_umax_nxv1i32(<vscale x 1 x i32> %v) {
; CHECK-LABEL: vreduce_umax_nxv1i32:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e32, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e32, mf2, ta, mu
; CHECK-NEXT: vredmaxu.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i32 @llvm.vector.reduce.umax.nxv1i32(<vscale x 1 x i32> %v)
ret i32 %red
}
declare i32 @llvm.vector.reduce.smax.nxv1i32(<vscale x 1 x i32>)
define signext i32 @vreduce_smax_nxv1i32(<vscale x 1 x i32> %v) {
; CHECK-LABEL: vreduce_smax_nxv1i32:
; CHECK: # %bb.0:
; CHECK-NEXT: lui a0, 524288
; CHECK-NEXT: vsetivli zero, 1, e32, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, a0
; CHECK-NEXT: vsetvli a0, zero, e32, mf2, ta, mu
; CHECK-NEXT: vredmax.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i32 @llvm.vector.reduce.smax.nxv1i32(<vscale x 1 x i32> %v)
ret i32 %red
}
declare i32 @llvm.vector.reduce.umin.nxv1i32(<vscale x 1 x i32>)
define signext i32 @vreduce_umin_nxv1i32(<vscale x 1 x i32> %v) {
; CHECK-LABEL: vreduce_umin_nxv1i32:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e32, m1, ta, mu
; CHECK-NEXT: vmv.v.i v9, -1
; CHECK-NEXT: vsetvli a0, zero, e32, mf2, ta, mu
; CHECK-NEXT: vredminu.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i32 @llvm.vector.reduce.umin.nxv1i32(<vscale x 1 x i32> %v)
ret i32 %red
}
declare i32 @llvm.vector.reduce.smin.nxv1i32(<vscale x 1 x i32>)
define signext i32 @vreduce_smin_nxv1i32(<vscale x 1 x i32> %v) {
; RV32-LABEL: vreduce_smin_nxv1i32:
; RV32: # %bb.0:
; RV32-NEXT: lui a0, 524288
; RV32-NEXT: addi a0, a0, -1
; RV32-NEXT: vsetivli zero, 1, e32, m1, ta, mu
; RV32-NEXT: vmv.s.x v9, a0
; RV32-NEXT: vsetvli a0, zero, e32, mf2, ta, mu
; RV32-NEXT: vredmin.vs v8, v8, v9
; RV32-NEXT: vmv.x.s a0, v8
; RV32-NEXT: ret
;
; RV64-LABEL: vreduce_smin_nxv1i32:
; RV64: # %bb.0:
; RV64-NEXT: lui a0, 524288
; RV64-NEXT: addiw a0, a0, -1
; RV64-NEXT: vsetivli zero, 1, e32, m1, ta, mu
; RV64-NEXT: vmv.s.x v9, a0
; RV64-NEXT: vsetvli a0, zero, e32, mf2, ta, mu
; RV64-NEXT: vredmin.vs v8, v8, v9
; RV64-NEXT: vmv.x.s a0, v8
; RV64-NEXT: ret
%red = call i32 @llvm.vector.reduce.smin.nxv1i32(<vscale x 1 x i32> %v)
ret i32 %red
}
declare i32 @llvm.vector.reduce.and.nxv1i32(<vscale x 1 x i32>)
define signext i32 @vreduce_and_nxv1i32(<vscale x 1 x i32> %v) {
; CHECK-LABEL: vreduce_and_nxv1i32:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e32, m1, ta, mu
; CHECK-NEXT: vmv.v.i v9, -1
; CHECK-NEXT: vsetvli a0, zero, e32, mf2, ta, mu
; CHECK-NEXT: vredand.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i32 @llvm.vector.reduce.and.nxv1i32(<vscale x 1 x i32> %v)
ret i32 %red
}
declare i32 @llvm.vector.reduce.or.nxv1i32(<vscale x 1 x i32>)
define signext i32 @vreduce_or_nxv1i32(<vscale x 1 x i32> %v) {
; CHECK-LABEL: vreduce_or_nxv1i32:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e32, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e32, mf2, ta, mu
; CHECK-NEXT: vredor.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i32 @llvm.vector.reduce.or.nxv1i32(<vscale x 1 x i32> %v)
ret i32 %red
}
declare i32 @llvm.vector.reduce.xor.nxv1i32(<vscale x 1 x i32>)
define signext i32 @vreduce_xor_nxv1i32(<vscale x 1 x i32> %v) {
; CHECK-LABEL: vreduce_xor_nxv1i32:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e32, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e32, mf2, ta, mu
; CHECK-NEXT: vredxor.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i32 @llvm.vector.reduce.xor.nxv1i32(<vscale x 1 x i32> %v)
ret i32 %red
}
declare i32 @llvm.vector.reduce.add.nxv2i32(<vscale x 2 x i32>)
define signext i32 @vreduce_add_nxv2i32(<vscale x 2 x i32> %v) {
; CHECK-LABEL: vreduce_add_nxv2i32:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e32, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e32, m1, ta, mu
; CHECK-NEXT: vredsum.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i32 @llvm.vector.reduce.add.nxv2i32(<vscale x 2 x i32> %v)
ret i32 %red
}
define signext i32 @vwreduce_add_nxv2i16(<vscale x 2 x i16> %v) {
; CHECK-LABEL: vwreduce_add_nxv2i16:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e32, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e16, mf2, ta, mu
; CHECK-NEXT: vwredsum.vs v8, v8, v9
; CHECK-NEXT: vsetvli zero, zero, e32, m1, ta, mu
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%e = sext <vscale x 2 x i16> %v to <vscale x 2 x i32>
%red = call i32 @llvm.vector.reduce.add.nxv2i32(<vscale x 2 x i32> %e)
ret i32 %red
}
define signext i32 @vwreduce_uadd_nxv2i16(<vscale x 2 x i16> %v) {
; CHECK-LABEL: vwreduce_uadd_nxv2i16:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e32, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e16, mf2, ta, mu
; CHECK-NEXT: vwredsumu.vs v8, v8, v9
; CHECK-NEXT: vsetvli zero, zero, e32, m1, ta, mu
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%e = zext <vscale x 2 x i16> %v to <vscale x 2 x i32>
%red = call i32 @llvm.vector.reduce.add.nxv2i32(<vscale x 2 x i32> %e)
ret i32 %red
}
declare i32 @llvm.vector.reduce.umax.nxv2i32(<vscale x 2 x i32>)
define signext i32 @vreduce_umax_nxv2i32(<vscale x 2 x i32> %v) {
; CHECK-LABEL: vreduce_umax_nxv2i32:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e32, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e32, m1, ta, mu
; CHECK-NEXT: vredmaxu.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i32 @llvm.vector.reduce.umax.nxv2i32(<vscale x 2 x i32> %v)
ret i32 %red
}
declare i32 @llvm.vector.reduce.smax.nxv2i32(<vscale x 2 x i32>)
define signext i32 @vreduce_smax_nxv2i32(<vscale x 2 x i32> %v) {
; CHECK-LABEL: vreduce_smax_nxv2i32:
; CHECK: # %bb.0:
; CHECK-NEXT: lui a0, 524288
; CHECK-NEXT: vsetivli zero, 1, e32, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, a0
; CHECK-NEXT: vsetvli a0, zero, e32, m1, ta, mu
; CHECK-NEXT: vredmax.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i32 @llvm.vector.reduce.smax.nxv2i32(<vscale x 2 x i32> %v)
ret i32 %red
}
declare i32 @llvm.vector.reduce.umin.nxv2i32(<vscale x 2 x i32>)
define signext i32 @vreduce_umin_nxv2i32(<vscale x 2 x i32> %v) {
; CHECK-LABEL: vreduce_umin_nxv2i32:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e32, m1, ta, mu
; CHECK-NEXT: vmv.v.i v9, -1
; CHECK-NEXT: vsetvli a0, zero, e32, m1, ta, mu
; CHECK-NEXT: vredminu.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i32 @llvm.vector.reduce.umin.nxv2i32(<vscale x 2 x i32> %v)
ret i32 %red
}
declare i32 @llvm.vector.reduce.smin.nxv2i32(<vscale x 2 x i32>)
define signext i32 @vreduce_smin_nxv2i32(<vscale x 2 x i32> %v) {
; RV32-LABEL: vreduce_smin_nxv2i32:
; RV32: # %bb.0:
; RV32-NEXT: lui a0, 524288
; RV32-NEXT: addi a0, a0, -1
; RV32-NEXT: vsetivli zero, 1, e32, m1, ta, mu
; RV32-NEXT: vmv.s.x v9, a0
; RV32-NEXT: vsetvli a0, zero, e32, m1, ta, mu
; RV32-NEXT: vredmin.vs v8, v8, v9
; RV32-NEXT: vmv.x.s a0, v8
; RV32-NEXT: ret
;
; RV64-LABEL: vreduce_smin_nxv2i32:
; RV64: # %bb.0:
; RV64-NEXT: lui a0, 524288
; RV64-NEXT: addiw a0, a0, -1
; RV64-NEXT: vsetivli zero, 1, e32, m1, ta, mu
; RV64-NEXT: vmv.s.x v9, a0
; RV64-NEXT: vsetvli a0, zero, e32, m1, ta, mu
; RV64-NEXT: vredmin.vs v8, v8, v9
; RV64-NEXT: vmv.x.s a0, v8
; RV64-NEXT: ret
%red = call i32 @llvm.vector.reduce.smin.nxv2i32(<vscale x 2 x i32> %v)
ret i32 %red
}
declare i32 @llvm.vector.reduce.and.nxv2i32(<vscale x 2 x i32>)
define signext i32 @vreduce_and_nxv2i32(<vscale x 2 x i32> %v) {
; CHECK-LABEL: vreduce_and_nxv2i32:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e32, m1, ta, mu
; CHECK-NEXT: vmv.v.i v9, -1
; CHECK-NEXT: vsetvli a0, zero, e32, m1, ta, mu
; CHECK-NEXT: vredand.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i32 @llvm.vector.reduce.and.nxv2i32(<vscale x 2 x i32> %v)
ret i32 %red
}
declare i32 @llvm.vector.reduce.or.nxv2i32(<vscale x 2 x i32>)
define signext i32 @vreduce_or_nxv2i32(<vscale x 2 x i32> %v) {
; CHECK-LABEL: vreduce_or_nxv2i32:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e32, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e32, m1, ta, mu
; CHECK-NEXT: vredor.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i32 @llvm.vector.reduce.or.nxv2i32(<vscale x 2 x i32> %v)
ret i32 %red
}
declare i32 @llvm.vector.reduce.xor.nxv2i32(<vscale x 2 x i32>)
define signext i32 @vreduce_xor_nxv2i32(<vscale x 2 x i32> %v) {
; CHECK-LABEL: vreduce_xor_nxv2i32:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e32, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e32, m1, ta, mu
; CHECK-NEXT: vredxor.vs v8, v8, v9
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i32 @llvm.vector.reduce.xor.nxv2i32(<vscale x 2 x i32> %v)
ret i32 %red
}
declare i32 @llvm.vector.reduce.add.nxv4i32(<vscale x 4 x i32>)
define signext i32 @vreduce_add_nxv4i32(<vscale x 4 x i32> %v) {
; CHECK-LABEL: vreduce_add_nxv4i32:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e32, m1, ta, mu
; CHECK-NEXT: vmv.s.x v10, zero
; CHECK-NEXT: vsetvli a0, zero, e32, m2, ta, mu
; CHECK-NEXT: vredsum.vs v8, v8, v10
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i32 @llvm.vector.reduce.add.nxv4i32(<vscale x 4 x i32> %v)
ret i32 %red
}
define signext i32 @vwreduce_add_nxv4i16(<vscale x 4 x i16> %v) {
; CHECK-LABEL: vwreduce_add_nxv4i16:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e32, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e16, m1, ta, mu
; CHECK-NEXT: vwredsum.vs v8, v8, v9
; CHECK-NEXT: vsetivli zero, 0, e32, m1, ta, mu
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%e = sext <vscale x 4 x i16> %v to <vscale x 4 x i32>
%red = call i32 @llvm.vector.reduce.add.nxv4i32(<vscale x 4 x i32> %e)
ret i32 %red
}
define signext i32 @vwreduce_uadd_nxv4i16(<vscale x 4 x i16> %v) {
; CHECK-LABEL: vwreduce_uadd_nxv4i16:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e32, m1, ta, mu
; CHECK-NEXT: vmv.s.x v9, zero
; CHECK-NEXT: vsetvli a0, zero, e16, m1, ta, mu
; CHECK-NEXT: vwredsumu.vs v8, v8, v9
; CHECK-NEXT: vsetivli zero, 0, e32, m1, ta, mu
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%e = zext <vscale x 4 x i16> %v to <vscale x 4 x i32>
%red = call i32 @llvm.vector.reduce.add.nxv4i32(<vscale x 4 x i32> %e)
ret i32 %red
}
declare i32 @llvm.vector.reduce.umax.nxv4i32(<vscale x 4 x i32>)
define signext i32 @vreduce_umax_nxv4i32(<vscale x 4 x i32> %v) {
; CHECK-LABEL: vreduce_umax_nxv4i32:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e32, m1, ta, mu
; CHECK-NEXT: vmv.s.x v10, zero
; CHECK-NEXT: vsetvli a0, zero, e32, m2, ta, mu
; CHECK-NEXT: vredmaxu.vs v8, v8, v10
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i32 @llvm.vector.reduce.umax.nxv4i32(<vscale x 4 x i32> %v)
ret i32 %red
}
declare i32 @llvm.vector.reduce.smax.nxv4i32(<vscale x 4 x i32>)
define signext i32 @vreduce_smax_nxv4i32(<vscale x 4 x i32> %v) {
; CHECK-LABEL: vreduce_smax_nxv4i32:
; CHECK: # %bb.0:
; CHECK-NEXT: lui a0, 524288
; CHECK-NEXT: vsetivli zero, 1, e32, m1, ta, mu
; CHECK-NEXT: vmv.s.x v10, a0
; CHECK-NEXT: vsetvli a0, zero, e32, m2, ta, mu
; CHECK-NEXT: vredmax.vs v8, v8, v10
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i32 @llvm.vector.reduce.smax.nxv4i32(<vscale x 4 x i32> %v)
ret i32 %red
}
declare i32 @llvm.vector.reduce.umin.nxv4i32(<vscale x 4 x i32>)
define signext i32 @vreduce_umin_nxv4i32(<vscale x 4 x i32> %v) {
; CHECK-LABEL: vreduce_umin_nxv4i32:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e32, m1, ta, mu
; CHECK-NEXT: vmv.v.i v10, -1
; CHECK-NEXT: vsetvli a0, zero, e32, m2, ta, mu
; CHECK-NEXT: vredminu.vs v8, v8, v10
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i32 @llvm.vector.reduce.umin.nxv4i32(<vscale x 4 x i32> %v)
ret i32 %red
}
declare i32 @llvm.vector.reduce.smin.nxv4i32(<vscale x 4 x i32>)
define signext i32 @vreduce_smin_nxv4i32(<vscale x 4 x i32> %v) {
; RV32-LABEL: vreduce_smin_nxv4i32:
; RV32: # %bb.0:
; RV32-NEXT: lui a0, 524288
; RV32-NEXT: addi a0, a0, -1
; RV32-NEXT: vsetivli zero, 1, e32, m1, ta, mu
; RV32-NEXT: vmv.s.x v10, a0
; RV32-NEXT: vsetvli a0, zero, e32, m2, ta, mu
; RV32-NEXT: vredmin.vs v8, v8, v10
; RV32-NEXT: vmv.x.s a0, v8
; RV32-NEXT: ret
;
; RV64-LABEL: vreduce_smin_nxv4i32:
; RV64: # %bb.0:
; RV64-NEXT: lui a0, 524288
; RV64-NEXT: addiw a0, a0, -1
; RV64-NEXT: vsetivli zero, 1, e32, m1, ta, mu
; RV64-NEXT: vmv.s.x v10, a0
; RV64-NEXT: vsetvli a0, zero, e32, m2, ta, mu
; RV64-NEXT: vredmin.vs v8, v8, v10
; RV64-NEXT: vmv.x.s a0, v8
; RV64-NEXT: ret
%red = call i32 @llvm.vector.reduce.smin.nxv4i32(<vscale x 4 x i32> %v)
ret i32 %red
}
declare i32 @llvm.vector.reduce.and.nxv4i32(<vscale x 4 x i32>)
define signext i32 @vreduce_and_nxv4i32(<vscale x 4 x i32> %v) {
; CHECK-LABEL: vreduce_and_nxv4i32:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e32, m1, ta, mu
; CHECK-NEXT: vmv.v.i v10, -1
; CHECK-NEXT: vsetvli a0, zero, e32, m2, ta, mu
; CHECK-NEXT: vredand.vs v8, v8, v10
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i32 @llvm.vector.reduce.and.nxv4i32(<vscale x 4 x i32> %v)
ret i32 %red
}
declare i32 @llvm.vector.reduce.or.nxv4i32(<vscale x 4 x i32>)
define signext i32 @vreduce_or_nxv4i32(<vscale x 4 x i32> %v) {
; CHECK-LABEL: vreduce_or_nxv4i32:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e32, m1, ta, mu
; CHECK-NEXT: vmv.s.x v10, zero
; CHECK-NEXT: vsetvli a0, zero, e32, m2, ta, mu
; CHECK-NEXT: vredor.vs v8, v8, v10
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i32 @llvm.vector.reduce.or.nxv4i32(<vscale x 4 x i32> %v)
ret i32 %red
}
declare i32 @llvm.vector.reduce.xor.nxv4i32(<vscale x 4 x i32>)
define signext i32 @vreduce_xor_nxv4i32(<vscale x 4 x i32> %v) {
; CHECK-LABEL: vreduce_xor_nxv4i32:
; CHECK: # %bb.0:
; CHECK-NEXT: vsetivli zero, 1, e32, m1, ta, mu
; CHECK-NEXT: vmv.s.x v10, zero
; CHECK-NEXT: vsetvli a0, zero, e32, m2, ta, mu
; CHECK-NEXT: vredxor.vs v8, v8, v10
; CHECK-NEXT: vmv.x.s a0, v8
; CHECK-NEXT: ret
%red = call i32 @llvm.vector.reduce.xor.nxv4i32(<vscale x 4 x i32> %v)
ret i32 %red
}
declare i64 @llvm.vector.reduce.add.nxv1i64(<vscale x 1 x i64>)
define i64 @vreduce_add_nxv1i64(<vscale x 1 x i64> %v) {
; RV32-LABEL: vreduce_add_nxv1i64:
; RV32: # %bb.0:
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vmv.s.x v9, zero
; RV32-NEXT: vsetvli a0, zero, e64, m1, ta, mu
; RV32-NEXT: vredsum.vs v8, v8, v9
; RV32-NEXT: vmv.x.s a0, v8
; RV32-NEXT: li a1, 32
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vsrl.vx v8, v8, a1
; RV32-NEXT: vmv.x.s a1, v8
; RV32-NEXT: ret
;
; RV64-LABEL: vreduce_add_nxv1i64:
; RV64: # %bb.0:
; RV64-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV64-NEXT: vmv.s.x v9, zero
; RV64-NEXT: vsetvli a0, zero, e64, m1, ta, mu
; RV64-NEXT: vredsum.vs v8, v8, v9
; RV64-NEXT: vmv.x.s a0, v8
; RV64-NEXT: ret
%red = call i64 @llvm.vector.reduce.add.nxv1i64(<vscale x 1 x i64> %v)
ret i64 %red
}
define i64 @vwreduce_add_nxv1i32(<vscale x 1 x i32> %v) {
; RV32-LABEL: vwreduce_add_nxv1i32:
; RV32: # %bb.0:
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vmv.s.x v9, zero
; RV32-NEXT: vsetvli a0, zero, e32, mf2, ta, mu
; RV32-NEXT: vwredsum.vs v8, v8, v9
; RV32-NEXT: vsetvli zero, zero, e64, m1, ta, mu
; RV32-NEXT: vmv.x.s a0, v8
; RV32-NEXT: li a1, 32
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vsrl.vx v8, v8, a1
; RV32-NEXT: vmv.x.s a1, v8
; RV32-NEXT: ret
;
; RV64-LABEL: vwreduce_add_nxv1i32:
; RV64: # %bb.0:
; RV64-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV64-NEXT: vmv.s.x v9, zero
; RV64-NEXT: vsetvli a0, zero, e32, mf2, ta, mu
; RV64-NEXT: vwredsum.vs v8, v8, v9
; RV64-NEXT: vsetvli zero, zero, e64, m1, ta, mu
; RV64-NEXT: vmv.x.s a0, v8
; RV64-NEXT: ret
%e = sext <vscale x 1 x i32> %v to <vscale x 1 x i64>
%red = call i64 @llvm.vector.reduce.add.nxv1i64(<vscale x 1 x i64> %e)
ret i64 %red
}
define i64 @vwreduce_uadd_nxv1i32(<vscale x 1 x i32> %v) {
; RV32-LABEL: vwreduce_uadd_nxv1i32:
; RV32: # %bb.0:
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vmv.s.x v9, zero
; RV32-NEXT: vsetvli a0, zero, e32, mf2, ta, mu
; RV32-NEXT: vwredsumu.vs v8, v8, v9
; RV32-NEXT: vsetvli zero, zero, e64, m1, ta, mu
; RV32-NEXT: vmv.x.s a0, v8
; RV32-NEXT: li a1, 32
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vsrl.vx v8, v8, a1
; RV32-NEXT: vmv.x.s a1, v8
; RV32-NEXT: ret
;
; RV64-LABEL: vwreduce_uadd_nxv1i32:
; RV64: # %bb.0:
; RV64-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV64-NEXT: vmv.s.x v9, zero
; RV64-NEXT: vsetvli a0, zero, e32, mf2, ta, mu
; RV64-NEXT: vwredsumu.vs v8, v8, v9
; RV64-NEXT: vsetvli zero, zero, e64, m1, ta, mu
; RV64-NEXT: vmv.x.s a0, v8
; RV64-NEXT: ret
%e = zext <vscale x 1 x i32> %v to <vscale x 1 x i64>
%red = call i64 @llvm.vector.reduce.add.nxv1i64(<vscale x 1 x i64> %e)
ret i64 %red
}
declare i64 @llvm.vector.reduce.umax.nxv1i64(<vscale x 1 x i64>)
define i64 @vreduce_umax_nxv1i64(<vscale x 1 x i64> %v) {
; RV32-LABEL: vreduce_umax_nxv1i64:
; RV32: # %bb.0:
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vmv.s.x v9, zero
; RV32-NEXT: vsetvli a0, zero, e64, m1, ta, mu
; RV32-NEXT: vredmaxu.vs v8, v8, v9
; RV32-NEXT: vmv.x.s a0, v8
; RV32-NEXT: li a1, 32
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vsrl.vx v8, v8, a1
; RV32-NEXT: vmv.x.s a1, v8
; RV32-NEXT: ret
;
; RV64-LABEL: vreduce_umax_nxv1i64:
; RV64: # %bb.0:
; RV64-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV64-NEXT: vmv.s.x v9, zero
; RV64-NEXT: vsetvli a0, zero, e64, m1, ta, mu
; RV64-NEXT: vredmaxu.vs v8, v8, v9
; RV64-NEXT: vmv.x.s a0, v8
; RV64-NEXT: ret
%red = call i64 @llvm.vector.reduce.umax.nxv1i64(<vscale x 1 x i64> %v)
ret i64 %red
}
declare i64 @llvm.vector.reduce.smax.nxv1i64(<vscale x 1 x i64>)
define i64 @vreduce_smax_nxv1i64(<vscale x 1 x i64> %v) {
; RV32-LABEL: vreduce_smax_nxv1i64:
; RV32: # %bb.0:
; RV32-NEXT: addi sp, sp, -16
; RV32-NEXT: .cfi_def_cfa_offset 16
; RV32-NEXT: lui a0, 524288
; RV32-NEXT: sw a0, 12(sp)
; RV32-NEXT: sw zero, 8(sp)
; RV32-NEXT: addi a0, sp, 8
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vlse64.v v9, (a0), zero
; RV32-NEXT: vsetvli a0, zero, e64, m1, ta, mu
; RV32-NEXT: vredmax.vs v8, v8, v9
; RV32-NEXT: vmv.x.s a0, v8
; RV32-NEXT: li a1, 32
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vsrl.vx v8, v8, a1
; RV32-NEXT: vmv.x.s a1, v8
; RV32-NEXT: addi sp, sp, 16
; RV32-NEXT: ret
;
; RV64-LABEL: vreduce_smax_nxv1i64:
; RV64: # %bb.0:
; RV64-NEXT: li a0, -1
; RV64-NEXT: slli a0, a0, 63
; RV64-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV64-NEXT: vmv.s.x v9, a0
; RV64-NEXT: vsetvli a0, zero, e64, m1, ta, mu
; RV64-NEXT: vredmax.vs v8, v8, v9
; RV64-NEXT: vmv.x.s a0, v8
; RV64-NEXT: ret
%red = call i64 @llvm.vector.reduce.smax.nxv1i64(<vscale x 1 x i64> %v)
ret i64 %red
}
declare i64 @llvm.vector.reduce.umin.nxv1i64(<vscale x 1 x i64>)
define i64 @vreduce_umin_nxv1i64(<vscale x 1 x i64> %v) {
; RV32-LABEL: vreduce_umin_nxv1i64:
; RV32: # %bb.0:
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vmv.v.i v9, -1
; RV32-NEXT: vsetvli a0, zero, e64, m1, ta, mu
; RV32-NEXT: vredminu.vs v8, v8, v9
; RV32-NEXT: vmv.x.s a0, v8
; RV32-NEXT: li a1, 32
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vsrl.vx v8, v8, a1
; RV32-NEXT: vmv.x.s a1, v8
; RV32-NEXT: ret
;
; RV64-LABEL: vreduce_umin_nxv1i64:
; RV64: # %bb.0:
; RV64-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV64-NEXT: vmv.v.i v9, -1
; RV64-NEXT: vsetvli a0, zero, e64, m1, ta, mu
; RV64-NEXT: vredminu.vs v8, v8, v9
; RV64-NEXT: vmv.x.s a0, v8
; RV64-NEXT: ret
%red = call i64 @llvm.vector.reduce.umin.nxv1i64(<vscale x 1 x i64> %v)
ret i64 %red
}
declare i64 @llvm.vector.reduce.smin.nxv1i64(<vscale x 1 x i64>)
define i64 @vreduce_smin_nxv1i64(<vscale x 1 x i64> %v) {
; RV32-LABEL: vreduce_smin_nxv1i64:
; RV32: # %bb.0:
; RV32-NEXT: addi sp, sp, -16
; RV32-NEXT: .cfi_def_cfa_offset 16
; RV32-NEXT: li a0, -1
; RV32-NEXT: sw a0, 8(sp)
; RV32-NEXT: lui a0, 524288
; RV32-NEXT: addi a0, a0, -1
; RV32-NEXT: sw a0, 12(sp)
; RV32-NEXT: addi a0, sp, 8
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vlse64.v v9, (a0), zero
; RV32-NEXT: vsetvli a0, zero, e64, m1, ta, mu
; RV32-NEXT: vredmin.vs v8, v8, v9
; RV32-NEXT: vmv.x.s a0, v8
; RV32-NEXT: li a1, 32
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vsrl.vx v8, v8, a1
; RV32-NEXT: vmv.x.s a1, v8
; RV32-NEXT: addi sp, sp, 16
; RV32-NEXT: ret
;
; RV64-LABEL: vreduce_smin_nxv1i64:
; RV64: # %bb.0:
; RV64-NEXT: li a0, -1
; RV64-NEXT: srli a0, a0, 1
; RV64-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV64-NEXT: vmv.s.x v9, a0
; RV64-NEXT: vsetvli a0, zero, e64, m1, ta, mu
; RV64-NEXT: vredmin.vs v8, v8, v9
; RV64-NEXT: vmv.x.s a0, v8
; RV64-NEXT: ret
%red = call i64 @llvm.vector.reduce.smin.nxv1i64(<vscale x 1 x i64> %v)
ret i64 %red
}
declare i64 @llvm.vector.reduce.and.nxv1i64(<vscale x 1 x i64>)
define i64 @vreduce_and_nxv1i64(<vscale x 1 x i64> %v) {
; RV32-LABEL: vreduce_and_nxv1i64:
; RV32: # %bb.0:
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vmv.v.i v9, -1
; RV32-NEXT: vsetvli a0, zero, e64, m1, ta, mu
; RV32-NEXT: vredand.vs v8, v8, v9
; RV32-NEXT: vmv.x.s a0, v8
; RV32-NEXT: li a1, 32
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vsrl.vx v8, v8, a1
; RV32-NEXT: vmv.x.s a1, v8
; RV32-NEXT: ret
;
; RV64-LABEL: vreduce_and_nxv1i64:
; RV64: # %bb.0:
; RV64-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV64-NEXT: vmv.v.i v9, -1
; RV64-NEXT: vsetvli a0, zero, e64, m1, ta, mu
; RV64-NEXT: vredand.vs v8, v8, v9
; RV64-NEXT: vmv.x.s a0, v8
; RV64-NEXT: ret
%red = call i64 @llvm.vector.reduce.and.nxv1i64(<vscale x 1 x i64> %v)
ret i64 %red
}
declare i64 @llvm.vector.reduce.or.nxv1i64(<vscale x 1 x i64>)
define i64 @vreduce_or_nxv1i64(<vscale x 1 x i64> %v) {
; RV32-LABEL: vreduce_or_nxv1i64:
; RV32: # %bb.0:
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vmv.s.x v9, zero
; RV32-NEXT: vsetvli a0, zero, e64, m1, ta, mu
; RV32-NEXT: vredor.vs v8, v8, v9
; RV32-NEXT: vmv.x.s a0, v8
; RV32-NEXT: li a1, 32
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vsrl.vx v8, v8, a1
; RV32-NEXT: vmv.x.s a1, v8
; RV32-NEXT: ret
;
; RV64-LABEL: vreduce_or_nxv1i64:
; RV64: # %bb.0:
; RV64-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV64-NEXT: vmv.s.x v9, zero
; RV64-NEXT: vsetvli a0, zero, e64, m1, ta, mu
; RV64-NEXT: vredor.vs v8, v8, v9
; RV64-NEXT: vmv.x.s a0, v8
; RV64-NEXT: ret
%red = call i64 @llvm.vector.reduce.or.nxv1i64(<vscale x 1 x i64> %v)
ret i64 %red
}
declare i64 @llvm.vector.reduce.xor.nxv1i64(<vscale x 1 x i64>)
define i64 @vreduce_xor_nxv1i64(<vscale x 1 x i64> %v) {
; RV32-LABEL: vreduce_xor_nxv1i64:
; RV32: # %bb.0:
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vmv.s.x v9, zero
; RV32-NEXT: vsetvli a0, zero, e64, m1, ta, mu
; RV32-NEXT: vredxor.vs v8, v8, v9
; RV32-NEXT: vmv.x.s a0, v8
; RV32-NEXT: li a1, 32
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vsrl.vx v8, v8, a1
; RV32-NEXT: vmv.x.s a1, v8
; RV32-NEXT: ret
;
; RV64-LABEL: vreduce_xor_nxv1i64:
; RV64: # %bb.0:
; RV64-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV64-NEXT: vmv.s.x v9, zero
; RV64-NEXT: vsetvli a0, zero, e64, m1, ta, mu
; RV64-NEXT: vredxor.vs v8, v8, v9
; RV64-NEXT: vmv.x.s a0, v8
; RV64-NEXT: ret
%red = call i64 @llvm.vector.reduce.xor.nxv1i64(<vscale x 1 x i64> %v)
ret i64 %red
}
declare i64 @llvm.vector.reduce.add.nxv2i64(<vscale x 2 x i64>)
define i64 @vreduce_add_nxv2i64(<vscale x 2 x i64> %v) {
; RV32-LABEL: vreduce_add_nxv2i64:
; RV32: # %bb.0:
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vmv.s.x v10, zero
; RV32-NEXT: vsetvli a0, zero, e64, m2, ta, mu
; RV32-NEXT: vredsum.vs v8, v8, v10
; RV32-NEXT: vmv.x.s a0, v8
; RV32-NEXT: li a1, 32
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vsrl.vx v8, v8, a1
; RV32-NEXT: vmv.x.s a1, v8
; RV32-NEXT: ret
;
; RV64-LABEL: vreduce_add_nxv2i64:
; RV64: # %bb.0:
; RV64-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV64-NEXT: vmv.s.x v10, zero
; RV64-NEXT: vsetvli a0, zero, e64, m2, ta, mu
; RV64-NEXT: vredsum.vs v8, v8, v10
; RV64-NEXT: vmv.x.s a0, v8
; RV64-NEXT: ret
%red = call i64 @llvm.vector.reduce.add.nxv2i64(<vscale x 2 x i64> %v)
ret i64 %red
}
define i64 @vwreduce_add_nxv2i32(<vscale x 2 x i32> %v) {
; RV32-LABEL: vwreduce_add_nxv2i32:
; RV32: # %bb.0:
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vmv.s.x v9, zero
; RV32-NEXT: vsetvli a0, zero, e32, m1, ta, mu
; RV32-NEXT: vwredsum.vs v8, v8, v9
; RV32-NEXT: vsetivli zero, 0, e64, m1, ta, mu
; RV32-NEXT: vmv.x.s a0, v8
; RV32-NEXT: li a1, 32
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vsrl.vx v8, v8, a1
; RV32-NEXT: vmv.x.s a1, v8
; RV32-NEXT: ret
;
; RV64-LABEL: vwreduce_add_nxv2i32:
; RV64: # %bb.0:
; RV64-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV64-NEXT: vmv.s.x v9, zero
; RV64-NEXT: vsetvli a0, zero, e32, m1, ta, mu
; RV64-NEXT: vwredsum.vs v8, v8, v9
; RV64-NEXT: vsetivli zero, 0, e64, m1, ta, mu
; RV64-NEXT: vmv.x.s a0, v8
; RV64-NEXT: ret
%e = sext <vscale x 2 x i32> %v to <vscale x 2 x i64>
%red = call i64 @llvm.vector.reduce.add.nxv2i64(<vscale x 2 x i64> %e)
ret i64 %red
}
define i64 @vwreduce_uadd_nxv2i32(<vscale x 2 x i32> %v) {
; RV32-LABEL: vwreduce_uadd_nxv2i32:
; RV32: # %bb.0:
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vmv.s.x v9, zero
; RV32-NEXT: vsetvli a0, zero, e32, m1, ta, mu
; RV32-NEXT: vwredsumu.vs v8, v8, v9
; RV32-NEXT: vsetivli zero, 0, e64, m1, ta, mu
; RV32-NEXT: vmv.x.s a0, v8
; RV32-NEXT: li a1, 32
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vsrl.vx v8, v8, a1
; RV32-NEXT: vmv.x.s a1, v8
; RV32-NEXT: ret
;
; RV64-LABEL: vwreduce_uadd_nxv2i32:
; RV64: # %bb.0:
; RV64-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV64-NEXT: vmv.s.x v9, zero
; RV64-NEXT: vsetvli a0, zero, e32, m1, ta, mu
; RV64-NEXT: vwredsumu.vs v8, v8, v9
; RV64-NEXT: vsetivli zero, 0, e64, m1, ta, mu
; RV64-NEXT: vmv.x.s a0, v8
; RV64-NEXT: ret
%e = zext <vscale x 2 x i32> %v to <vscale x 2 x i64>
%red = call i64 @llvm.vector.reduce.add.nxv2i64(<vscale x 2 x i64> %e)
ret i64 %red
}
declare i64 @llvm.vector.reduce.umax.nxv2i64(<vscale x 2 x i64>)
define i64 @vreduce_umax_nxv2i64(<vscale x 2 x i64> %v) {
; RV32-LABEL: vreduce_umax_nxv2i64:
; RV32: # %bb.0:
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vmv.s.x v10, zero
; RV32-NEXT: vsetvli a0, zero, e64, m2, ta, mu
; RV32-NEXT: vredmaxu.vs v8, v8, v10
; RV32-NEXT: vmv.x.s a0, v8
; RV32-NEXT: li a1, 32
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vsrl.vx v8, v8, a1
; RV32-NEXT: vmv.x.s a1, v8
; RV32-NEXT: ret
;
; RV64-LABEL: vreduce_umax_nxv2i64:
; RV64: # %bb.0:
; RV64-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV64-NEXT: vmv.s.x v10, zero
; RV64-NEXT: vsetvli a0, zero, e64, m2, ta, mu
; RV64-NEXT: vredmaxu.vs v8, v8, v10
; RV64-NEXT: vmv.x.s a0, v8
; RV64-NEXT: ret
%red = call i64 @llvm.vector.reduce.umax.nxv2i64(<vscale x 2 x i64> %v)
ret i64 %red
}
declare i64 @llvm.vector.reduce.smax.nxv2i64(<vscale x 2 x i64>)
define i64 @vreduce_smax_nxv2i64(<vscale x 2 x i64> %v) {
; RV32-LABEL: vreduce_smax_nxv2i64:
; RV32: # %bb.0:
; RV32-NEXT: addi sp, sp, -16
; RV32-NEXT: .cfi_def_cfa_offset 16
; RV32-NEXT: lui a0, 524288
; RV32-NEXT: sw a0, 12(sp)
; RV32-NEXT: sw zero, 8(sp)
; RV32-NEXT: addi a0, sp, 8
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vlse64.v v10, (a0), zero
; RV32-NEXT: vsetvli a0, zero, e64, m2, ta, mu
; RV32-NEXT: vredmax.vs v8, v8, v10
; RV32-NEXT: vmv.x.s a0, v8
; RV32-NEXT: li a1, 32
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vsrl.vx v8, v8, a1
; RV32-NEXT: vmv.x.s a1, v8
; RV32-NEXT: addi sp, sp, 16
; RV32-NEXT: ret
;
; RV64-LABEL: vreduce_smax_nxv2i64:
; RV64: # %bb.0:
; RV64-NEXT: li a0, -1
; RV64-NEXT: slli a0, a0, 63
; RV64-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV64-NEXT: vmv.s.x v10, a0
; RV64-NEXT: vsetvli a0, zero, e64, m2, ta, mu
; RV64-NEXT: vredmax.vs v8, v8, v10
; RV64-NEXT: vmv.x.s a0, v8
; RV64-NEXT: ret
%red = call i64 @llvm.vector.reduce.smax.nxv2i64(<vscale x 2 x i64> %v)
ret i64 %red
}
declare i64 @llvm.vector.reduce.umin.nxv2i64(<vscale x 2 x i64>)
define i64 @vreduce_umin_nxv2i64(<vscale x 2 x i64> %v) {
; RV32-LABEL: vreduce_umin_nxv2i64:
; RV32: # %bb.0:
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vmv.v.i v10, -1
; RV32-NEXT: vsetvli a0, zero, e64, m2, ta, mu
; RV32-NEXT: vredminu.vs v8, v8, v10
; RV32-NEXT: vmv.x.s a0, v8
; RV32-NEXT: li a1, 32
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vsrl.vx v8, v8, a1
; RV32-NEXT: vmv.x.s a1, v8
; RV32-NEXT: ret
;
; RV64-LABEL: vreduce_umin_nxv2i64:
; RV64: # %bb.0:
; RV64-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV64-NEXT: vmv.v.i v10, -1
; RV64-NEXT: vsetvli a0, zero, e64, m2, ta, mu
; RV64-NEXT: vredminu.vs v8, v8, v10
; RV64-NEXT: vmv.x.s a0, v8
; RV64-NEXT: ret
%red = call i64 @llvm.vector.reduce.umin.nxv2i64(<vscale x 2 x i64> %v)
ret i64 %red
}
declare i64 @llvm.vector.reduce.smin.nxv2i64(<vscale x 2 x i64>)
define i64 @vreduce_smin_nxv2i64(<vscale x 2 x i64> %v) {
; RV32-LABEL: vreduce_smin_nxv2i64:
; RV32: # %bb.0:
; RV32-NEXT: addi sp, sp, -16
; RV32-NEXT: .cfi_def_cfa_offset 16
; RV32-NEXT: li a0, -1
; RV32-NEXT: sw a0, 8(sp)
; RV32-NEXT: lui a0, 524288
; RV32-NEXT: addi a0, a0, -1
; RV32-NEXT: sw a0, 12(sp)
; RV32-NEXT: addi a0, sp, 8
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vlse64.v v10, (a0), zero
; RV32-NEXT: vsetvli a0, zero, e64, m2, ta, mu
; RV32-NEXT: vredmin.vs v8, v8, v10
; RV32-NEXT: vmv.x.s a0, v8
; RV32-NEXT: li a1, 32
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vsrl.vx v8, v8, a1
; RV32-NEXT: vmv.x.s a1, v8
; RV32-NEXT: addi sp, sp, 16
; RV32-NEXT: ret
;
; RV64-LABEL: vreduce_smin_nxv2i64:
; RV64: # %bb.0:
; RV64-NEXT: li a0, -1
; RV64-NEXT: srli a0, a0, 1
; RV64-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV64-NEXT: vmv.s.x v10, a0
; RV64-NEXT: vsetvli a0, zero, e64, m2, ta, mu
; RV64-NEXT: vredmin.vs v8, v8, v10
; RV64-NEXT: vmv.x.s a0, v8
; RV64-NEXT: ret
%red = call i64 @llvm.vector.reduce.smin.nxv2i64(<vscale x 2 x i64> %v)
ret i64 %red
}
declare i64 @llvm.vector.reduce.and.nxv2i64(<vscale x 2 x i64>)
define i64 @vreduce_and_nxv2i64(<vscale x 2 x i64> %v) {
; RV32-LABEL: vreduce_and_nxv2i64:
; RV32: # %bb.0:
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vmv.v.i v10, -1
; RV32-NEXT: vsetvli a0, zero, e64, m2, ta, mu
; RV32-NEXT: vredand.vs v8, v8, v10
; RV32-NEXT: vmv.x.s a0, v8
; RV32-NEXT: li a1, 32
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vsrl.vx v8, v8, a1
; RV32-NEXT: vmv.x.s a1, v8
; RV32-NEXT: ret
;
; RV64-LABEL: vreduce_and_nxv2i64:
; RV64: # %bb.0:
; RV64-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV64-NEXT: vmv.v.i v10, -1
; RV64-NEXT: vsetvli a0, zero, e64, m2, ta, mu
; RV64-NEXT: vredand.vs v8, v8, v10
; RV64-NEXT: vmv.x.s a0, v8
; RV64-NEXT: ret
%red = call i64 @llvm.vector.reduce.and.nxv2i64(<vscale x 2 x i64> %v)
ret i64 %red
}
declare i64 @llvm.vector.reduce.or.nxv2i64(<vscale x 2 x i64>)
define i64 @vreduce_or_nxv2i64(<vscale x 2 x i64> %v) {
; RV32-LABEL: vreduce_or_nxv2i64:
; RV32: # %bb.0:
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vmv.s.x v10, zero
; RV32-NEXT: vsetvli a0, zero, e64, m2, ta, mu
; RV32-NEXT: vredor.vs v8, v8, v10
; RV32-NEXT: vmv.x.s a0, v8
; RV32-NEXT: li a1, 32
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vsrl.vx v8, v8, a1
; RV32-NEXT: vmv.x.s a1, v8
; RV32-NEXT: ret
;
; RV64-LABEL: vreduce_or_nxv2i64:
; RV64: # %bb.0:
; RV64-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV64-NEXT: vmv.s.x v10, zero
; RV64-NEXT: vsetvli a0, zero, e64, m2, ta, mu
; RV64-NEXT: vredor.vs v8, v8, v10
; RV64-NEXT: vmv.x.s a0, v8
; RV64-NEXT: ret
%red = call i64 @llvm.vector.reduce.or.nxv2i64(<vscale x 2 x i64> %v)
ret i64 %red
}
declare i64 @llvm.vector.reduce.xor.nxv2i64(<vscale x 2 x i64>)
define i64 @vreduce_xor_nxv2i64(<vscale x 2 x i64> %v) {
; RV32-LABEL: vreduce_xor_nxv2i64:
; RV32: # %bb.0:
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vmv.s.x v10, zero
; RV32-NEXT: vsetvli a0, zero, e64, m2, ta, mu
; RV32-NEXT: vredxor.vs v8, v8, v10
; RV32-NEXT: vmv.x.s a0, v8
; RV32-NEXT: li a1, 32
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vsrl.vx v8, v8, a1
; RV32-NEXT: vmv.x.s a1, v8
; RV32-NEXT: ret
;
; RV64-LABEL: vreduce_xor_nxv2i64:
; RV64: # %bb.0:
; RV64-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV64-NEXT: vmv.s.x v10, zero
; RV64-NEXT: vsetvli a0, zero, e64, m2, ta, mu
; RV64-NEXT: vredxor.vs v8, v8, v10
; RV64-NEXT: vmv.x.s a0, v8
; RV64-NEXT: ret
%red = call i64 @llvm.vector.reduce.xor.nxv2i64(<vscale x 2 x i64> %v)
ret i64 %red
}
declare i64 @llvm.vector.reduce.add.nxv4i64(<vscale x 4 x i64>)
define i64 @vreduce_add_nxv4i64(<vscale x 4 x i64> %v) {
; RV32-LABEL: vreduce_add_nxv4i64:
; RV32: # %bb.0:
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vmv.s.x v12, zero
; RV32-NEXT: vsetvli a0, zero, e64, m4, ta, mu
; RV32-NEXT: vredsum.vs v8, v8, v12
; RV32-NEXT: vmv.x.s a0, v8
; RV32-NEXT: li a1, 32
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vsrl.vx v8, v8, a1
; RV32-NEXT: vmv.x.s a1, v8
; RV32-NEXT: ret
;
; RV64-LABEL: vreduce_add_nxv4i64:
; RV64: # %bb.0:
; RV64-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV64-NEXT: vmv.s.x v12, zero
; RV64-NEXT: vsetvli a0, zero, e64, m4, ta, mu
; RV64-NEXT: vredsum.vs v8, v8, v12
; RV64-NEXT: vmv.x.s a0, v8
; RV64-NEXT: ret
%red = call i64 @llvm.vector.reduce.add.nxv4i64(<vscale x 4 x i64> %v)
ret i64 %red
}
define i64 @vwreduce_add_nxv4i32(<vscale x 4 x i32> %v) {
; RV32-LABEL: vwreduce_add_nxv4i32:
; RV32: # %bb.0:
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vmv.s.x v10, zero
; RV32-NEXT: vsetvli a0, zero, e32, m2, ta, mu
; RV32-NEXT: vwredsum.vs v8, v8, v10
; RV32-NEXT: vsetivli zero, 0, e64, m1, ta, mu
; RV32-NEXT: vmv.x.s a0, v8
; RV32-NEXT: li a1, 32
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vsrl.vx v8, v8, a1
; RV32-NEXT: vmv.x.s a1, v8
; RV32-NEXT: ret
;
; RV64-LABEL: vwreduce_add_nxv4i32:
; RV64: # %bb.0:
; RV64-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV64-NEXT: vmv.s.x v10, zero
; RV64-NEXT: vsetvli a0, zero, e32, m2, ta, mu
; RV64-NEXT: vwredsum.vs v8, v8, v10
; RV64-NEXT: vsetivli zero, 0, e64, m1, ta, mu
; RV64-NEXT: vmv.x.s a0, v8
; RV64-NEXT: ret
%e = sext <vscale x 4 x i32> %v to <vscale x 4 x i64>
%red = call i64 @llvm.vector.reduce.add.nxv4i64(<vscale x 4 x i64> %e)
ret i64 %red
}
define i64 @vwreduce_uadd_nxv4i32(<vscale x 4 x i32> %v) {
; RV32-LABEL: vwreduce_uadd_nxv4i32:
; RV32: # %bb.0:
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vmv.s.x v10, zero
; RV32-NEXT: vsetvli a0, zero, e32, m2, ta, mu
; RV32-NEXT: vwredsumu.vs v8, v8, v10
; RV32-NEXT: vsetivli zero, 0, e64, m1, ta, mu
; RV32-NEXT: vmv.x.s a0, v8
; RV32-NEXT: li a1, 32
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vsrl.vx v8, v8, a1
; RV32-NEXT: vmv.x.s a1, v8
; RV32-NEXT: ret
;
; RV64-LABEL: vwreduce_uadd_nxv4i32:
; RV64: # %bb.0:
; RV64-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV64-NEXT: vmv.s.x v10, zero
; RV64-NEXT: vsetvli a0, zero, e32, m2, ta, mu
; RV64-NEXT: vwredsumu.vs v8, v8, v10
; RV64-NEXT: vsetivli zero, 0, e64, m1, ta, mu
; RV64-NEXT: vmv.x.s a0, v8
; RV64-NEXT: ret
%e = zext <vscale x 4 x i32> %v to <vscale x 4 x i64>
%red = call i64 @llvm.vector.reduce.add.nxv4i64(<vscale x 4 x i64> %e)
ret i64 %red
}
declare i64 @llvm.vector.reduce.umax.nxv4i64(<vscale x 4 x i64>)
define i64 @vreduce_umax_nxv4i64(<vscale x 4 x i64> %v) {
; RV32-LABEL: vreduce_umax_nxv4i64:
; RV32: # %bb.0:
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vmv.s.x v12, zero
; RV32-NEXT: vsetvli a0, zero, e64, m4, ta, mu
; RV32-NEXT: vredmaxu.vs v8, v8, v12
; RV32-NEXT: vmv.x.s a0, v8
; RV32-NEXT: li a1, 32
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vsrl.vx v8, v8, a1
; RV32-NEXT: vmv.x.s a1, v8
; RV32-NEXT: ret
;
; RV64-LABEL: vreduce_umax_nxv4i64:
; RV64: # %bb.0:
; RV64-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV64-NEXT: vmv.s.x v12, zero
; RV64-NEXT: vsetvli a0, zero, e64, m4, ta, mu
; RV64-NEXT: vredmaxu.vs v8, v8, v12
; RV64-NEXT: vmv.x.s a0, v8
; RV64-NEXT: ret
%red = call i64 @llvm.vector.reduce.umax.nxv4i64(<vscale x 4 x i64> %v)
ret i64 %red
}
declare i64 @llvm.vector.reduce.smax.nxv4i64(<vscale x 4 x i64>)
define i64 @vreduce_smax_nxv4i64(<vscale x 4 x i64> %v) {
; RV32-LABEL: vreduce_smax_nxv4i64:
; RV32: # %bb.0:
; RV32-NEXT: addi sp, sp, -16
; RV32-NEXT: .cfi_def_cfa_offset 16
; RV32-NEXT: lui a0, 524288
; RV32-NEXT: sw a0, 12(sp)
; RV32-NEXT: sw zero, 8(sp)
; RV32-NEXT: addi a0, sp, 8
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vlse64.v v12, (a0), zero
; RV32-NEXT: vsetvli a0, zero, e64, m4, ta, mu
; RV32-NEXT: vredmax.vs v8, v8, v12
; RV32-NEXT: vmv.x.s a0, v8
; RV32-NEXT: li a1, 32
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vsrl.vx v8, v8, a1
; RV32-NEXT: vmv.x.s a1, v8
; RV32-NEXT: addi sp, sp, 16
; RV32-NEXT: ret
;
; RV64-LABEL: vreduce_smax_nxv4i64:
; RV64: # %bb.0:
; RV64-NEXT: li a0, -1
; RV64-NEXT: slli a0, a0, 63
; RV64-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV64-NEXT: vmv.s.x v12, a0
; RV64-NEXT: vsetvli a0, zero, e64, m4, ta, mu
; RV64-NEXT: vredmax.vs v8, v8, v12
; RV64-NEXT: vmv.x.s a0, v8
; RV64-NEXT: ret
%red = call i64 @llvm.vector.reduce.smax.nxv4i64(<vscale x 4 x i64> %v)
ret i64 %red
}
declare i64 @llvm.vector.reduce.umin.nxv4i64(<vscale x 4 x i64>)
define i64 @vreduce_umin_nxv4i64(<vscale x 4 x i64> %v) {
; RV32-LABEL: vreduce_umin_nxv4i64:
; RV32: # %bb.0:
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vmv.v.i v12, -1
; RV32-NEXT: vsetvli a0, zero, e64, m4, ta, mu
; RV32-NEXT: vredminu.vs v8, v8, v12
; RV32-NEXT: vmv.x.s a0, v8
; RV32-NEXT: li a1, 32
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vsrl.vx v8, v8, a1
; RV32-NEXT: vmv.x.s a1, v8
; RV32-NEXT: ret
;
; RV64-LABEL: vreduce_umin_nxv4i64:
; RV64: # %bb.0:
; RV64-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV64-NEXT: vmv.v.i v12, -1
; RV64-NEXT: vsetvli a0, zero, e64, m4, ta, mu
; RV64-NEXT: vredminu.vs v8, v8, v12
; RV64-NEXT: vmv.x.s a0, v8
; RV64-NEXT: ret
%red = call i64 @llvm.vector.reduce.umin.nxv4i64(<vscale x 4 x i64> %v)
ret i64 %red
}
declare i64 @llvm.vector.reduce.smin.nxv4i64(<vscale x 4 x i64>)
define i64 @vreduce_smin_nxv4i64(<vscale x 4 x i64> %v) {
; RV32-LABEL: vreduce_smin_nxv4i64:
; RV32: # %bb.0:
; RV32-NEXT: addi sp, sp, -16
; RV32-NEXT: .cfi_def_cfa_offset 16
; RV32-NEXT: li a0, -1
; RV32-NEXT: sw a0, 8(sp)
; RV32-NEXT: lui a0, 524288
; RV32-NEXT: addi a0, a0, -1
; RV32-NEXT: sw a0, 12(sp)
; RV32-NEXT: addi a0, sp, 8
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vlse64.v v12, (a0), zero
; RV32-NEXT: vsetvli a0, zero, e64, m4, ta, mu
; RV32-NEXT: vredmin.vs v8, v8, v12
; RV32-NEXT: vmv.x.s a0, v8
; RV32-NEXT: li a1, 32
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vsrl.vx v8, v8, a1
; RV32-NEXT: vmv.x.s a1, v8
; RV32-NEXT: addi sp, sp, 16
; RV32-NEXT: ret
;
; RV64-LABEL: vreduce_smin_nxv4i64:
; RV64: # %bb.0:
; RV64-NEXT: li a0, -1
; RV64-NEXT: srli a0, a0, 1
; RV64-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV64-NEXT: vmv.s.x v12, a0
; RV64-NEXT: vsetvli a0, zero, e64, m4, ta, mu
; RV64-NEXT: vredmin.vs v8, v8, v12
; RV64-NEXT: vmv.x.s a0, v8
; RV64-NEXT: ret
%red = call i64 @llvm.vector.reduce.smin.nxv4i64(<vscale x 4 x i64> %v)
ret i64 %red
}
declare i64 @llvm.vector.reduce.and.nxv4i64(<vscale x 4 x i64>)
define i64 @vreduce_and_nxv4i64(<vscale x 4 x i64> %v) {
; RV32-LABEL: vreduce_and_nxv4i64:
; RV32: # %bb.0:
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vmv.v.i v12, -1
; RV32-NEXT: vsetvli a0, zero, e64, m4, ta, mu
; RV32-NEXT: vredand.vs v8, v8, v12
; RV32-NEXT: vmv.x.s a0, v8
; RV32-NEXT: li a1, 32
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vsrl.vx v8, v8, a1
; RV32-NEXT: vmv.x.s a1, v8
; RV32-NEXT: ret
;
; RV64-LABEL: vreduce_and_nxv4i64:
; RV64: # %bb.0:
; RV64-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV64-NEXT: vmv.v.i v12, -1
; RV64-NEXT: vsetvli a0, zero, e64, m4, ta, mu
; RV64-NEXT: vredand.vs v8, v8, v12
; RV64-NEXT: vmv.x.s a0, v8
; RV64-NEXT: ret
%red = call i64 @llvm.vector.reduce.and.nxv4i64(<vscale x 4 x i64> %v)
ret i64 %red
}
declare i64 @llvm.vector.reduce.or.nxv4i64(<vscale x 4 x i64>)
define i64 @vreduce_or_nxv4i64(<vscale x 4 x i64> %v) {
; RV32-LABEL: vreduce_or_nxv4i64:
; RV32: # %bb.0:
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vmv.s.x v12, zero
; RV32-NEXT: vsetvli a0, zero, e64, m4, ta, mu
; RV32-NEXT: vredor.vs v8, v8, v12
; RV32-NEXT: vmv.x.s a0, v8
; RV32-NEXT: li a1, 32
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vsrl.vx v8, v8, a1
; RV32-NEXT: vmv.x.s a1, v8
; RV32-NEXT: ret
;
; RV64-LABEL: vreduce_or_nxv4i64:
; RV64: # %bb.0:
; RV64-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV64-NEXT: vmv.s.x v12, zero
; RV64-NEXT: vsetvli a0, zero, e64, m4, ta, mu
; RV64-NEXT: vredor.vs v8, v8, v12
; RV64-NEXT: vmv.x.s a0, v8
; RV64-NEXT: ret
%red = call i64 @llvm.vector.reduce.or.nxv4i64(<vscale x 4 x i64> %v)
ret i64 %red
}
declare i64 @llvm.vector.reduce.xor.nxv4i64(<vscale x 4 x i64>)
define i64 @vreduce_xor_nxv4i64(<vscale x 4 x i64> %v) {
; RV32-LABEL: vreduce_xor_nxv4i64:
; RV32: # %bb.0:
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vmv.s.x v12, zero
; RV32-NEXT: vsetvli a0, zero, e64, m4, ta, mu
; RV32-NEXT: vredxor.vs v8, v8, v12
; RV32-NEXT: vmv.x.s a0, v8
; RV32-NEXT: li a1, 32
; RV32-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV32-NEXT: vsrl.vx v8, v8, a1
; RV32-NEXT: vmv.x.s a1, v8
; RV32-NEXT: ret
;
; RV64-LABEL: vreduce_xor_nxv4i64:
; RV64: # %bb.0:
; RV64-NEXT: vsetivli zero, 1, e64, m1, ta, mu
; RV64-NEXT: vmv.s.x v12, zero
; RV64-NEXT: vsetvli a0, zero, e64, m4, ta, mu
; RV64-NEXT: vredxor.vs v8, v8, v12
; RV64-NEXT: vmv.x.s a0, v8
; RV64-NEXT: ret
%red = call i64 @llvm.vector.reduce.xor.nxv4i64(<vscale x 4 x i64> %v)
ret i64 %red
}