; Test the MSA floating point to integer intrinsics that are encoded with the ; 2RF instruction format. This includes conversions but other instructions such ; as fclass are also here. ; RUN: llc -march=mips -mattr=+msa,+fp64 -relocation-model=pic < %s | FileCheck %s ; RUN: llc -march=mipsel -mattr=+msa,+fp64 -relocation-model=pic < %s | FileCheck %s @llvm_mips_fclass_w_ARG1 = global <4 x float> , align 16 @llvm_mips_fclass_w_RES = global <4 x i32> , align 16 define void @llvm_mips_fclass_w_test() nounwind { entry: %0 = load <4 x float>, <4 x float>* @llvm_mips_fclass_w_ARG1 %1 = tail call <4 x i32> @llvm.mips.fclass.w(<4 x float> %0) store <4 x i32> %1, <4 x i32>* @llvm_mips_fclass_w_RES ret void } declare <4 x i32> @llvm.mips.fclass.w(<4 x float>) nounwind ; CHECK: llvm_mips_fclass_w_test: ; CHECK-DAG: lw [[R1:\$[0-9]+]], %got(llvm_mips_fclass_w_ARG1) ; CHECK-DAG: ld.w [[WS:\$w[0-9]+]], 0([[R1]]) ; CHECK-DAG: fclass.w [[WD:\$w[0-9]+]], [[WS]] ; CHECK-DAG: lw [[R2:\$[0-9]+]], %got(llvm_mips_fclass_w_RES) ; CHECK-DAG: st.w [[WD]], 0([[R2]]) ; CHECK: .size llvm_mips_fclass_w_test ; @llvm_mips_fclass_d_ARG1 = global <2 x double> , align 16 @llvm_mips_fclass_d_RES = global <2 x i64> , align 16 define void @llvm_mips_fclass_d_test() nounwind { entry: %0 = load <2 x double>, <2 x double>* @llvm_mips_fclass_d_ARG1 %1 = tail call <2 x i64> @llvm.mips.fclass.d(<2 x double> %0) store <2 x i64> %1, <2 x i64>* @llvm_mips_fclass_d_RES ret void } declare <2 x i64> @llvm.mips.fclass.d(<2 x double>) nounwind ; CHECK: llvm_mips_fclass_d_test: ; CHECK-DAG: lw [[R1:\$[0-9]+]], %got(llvm_mips_fclass_d_ARG1) ; CHECK-DAG: ld.d [[WS:\$w[0-9]+]], 0([[R1]]) ; CHECK-DAG: fclass.d [[WD:\$w[0-9]+]], [[WS]] ; CHECK-DAG: lw [[R2:\$[0-9]+]], %got(llvm_mips_fclass_d_RES) ; CHECK-DAG: st.d [[WD]], 0([[R2]]) ; CHECK: .size llvm_mips_fclass_d_test ; @llvm_mips_ftrunc_s_w_ARG1 = global <4 x float> , align 16 @llvm_mips_ftrunc_s_w_RES = global <4 x i32> , align 16 define void @llvm_mips_ftrunc_s_w_test() nounwind { entry: %0 = load <4 x float>, <4 x float>* @llvm_mips_ftrunc_s_w_ARG1 %1 = tail call <4 x i32> @llvm.mips.ftrunc.s.w(<4 x float> %0) store <4 x i32> %1, <4 x i32>* @llvm_mips_ftrunc_s_w_RES ret void } declare <4 x i32> @llvm.mips.ftrunc.s.w(<4 x float>) nounwind ; CHECK: llvm_mips_ftrunc_s_w_test: ; CHECK-DAG: lw [[R1:\$[0-9]+]], %got(llvm_mips_ftrunc_s_w_ARG1) ; CHECK-DAG: ld.w [[WS:\$w[0-9]+]], 0([[R1]]) ; CHECK-DAG: ftrunc_s.w [[WD:\$w[0-9]+]], [[WS]] ; CHECK-DAG: lw [[R2:\$[0-9]+]], %got(llvm_mips_ftrunc_s_w_RES) ; CHECK-DAG: st.w [[WD]], 0([[R2]]) ; CHECK: .size llvm_mips_ftrunc_s_w_test ; @llvm_mips_ftrunc_s_d_ARG1 = global <2 x double> , align 16 @llvm_mips_ftrunc_s_d_RES = global <2 x i64> , align 16 define void @llvm_mips_ftrunc_s_d_test() nounwind { entry: %0 = load <2 x double>, <2 x double>* @llvm_mips_ftrunc_s_d_ARG1 %1 = tail call <2 x i64> @llvm.mips.ftrunc.s.d(<2 x double> %0) store <2 x i64> %1, <2 x i64>* @llvm_mips_ftrunc_s_d_RES ret void } declare <2 x i64> @llvm.mips.ftrunc.s.d(<2 x double>) nounwind ; CHECK: llvm_mips_ftrunc_s_d_test: ; CHECK-DAG: lw [[R1:\$[0-9]+]], %got(llvm_mips_ftrunc_s_d_ARG1) ; CHECK-DAG: ld.d [[WS:\$w[0-9]+]], 0([[R1]]) ; CHECK-DAG: ftrunc_s.d [[WD:\$w[0-9]+]], [[WS]] ; CHECK-DAG: lw [[R2:\$[0-9]+]], %got(llvm_mips_ftrunc_s_d_RES) ; CHECK-DAG: st.d [[WD]], 0([[R2]]) ; CHECK: .size llvm_mips_ftrunc_s_d_test ; @llvm_mips_ftrunc_u_w_ARG1 = global <4 x float> , align 16 @llvm_mips_ftrunc_u_w_RES = global <4 x i32> , align 16 define void @llvm_mips_ftrunc_u_w_test() nounwind { entry: %0 = load <4 x float>, <4 x float>* @llvm_mips_ftrunc_u_w_ARG1 %1 = tail call <4 x i32> @llvm.mips.ftrunc.u.w(<4 x float> %0) store <4 x i32> %1, <4 x i32>* @llvm_mips_ftrunc_u_w_RES ret void } declare <4 x i32> @llvm.mips.ftrunc.u.w(<4 x float>) nounwind ; CHECK: llvm_mips_ftrunc_u_w_test: ; CHECK-DAG: lw [[R1:\$[0-9]+]], %got(llvm_mips_ftrunc_u_w_ARG1) ; CHECK-DAG: ld.w [[WS:\$w[0-9]+]], 0([[R1]]) ; CHECK-DAG: ftrunc_u.w [[WD:\$w[0-9]+]], [[WS]] ; CHECK-DAG: lw [[R2:\$[0-9]+]], %got(llvm_mips_ftrunc_u_w_RES) ; CHECK-DAG: st.w [[WD]], 0([[R2]]) ; CHECK: .size llvm_mips_ftrunc_u_w_test ; @llvm_mips_ftrunc_u_d_ARG1 = global <2 x double> , align 16 @llvm_mips_ftrunc_u_d_RES = global <2 x i64> , align 16 define void @llvm_mips_ftrunc_u_d_test() nounwind { entry: %0 = load <2 x double>, <2 x double>* @llvm_mips_ftrunc_u_d_ARG1 %1 = tail call <2 x i64> @llvm.mips.ftrunc.u.d(<2 x double> %0) store <2 x i64> %1, <2 x i64>* @llvm_mips_ftrunc_u_d_RES ret void } declare <2 x i64> @llvm.mips.ftrunc.u.d(<2 x double>) nounwind ; CHECK: llvm_mips_ftrunc_u_d_test: ; CHECK-DAG: lw [[R1:\$[0-9]+]], %got(llvm_mips_ftrunc_u_d_ARG1) ; CHECK-DAG: ld.d [[WS:\$w[0-9]+]], 0([[R1]]) ; CHECK-DAG: ftrunc_u.d [[WD:\$w[0-9]+]], [[WS]] ; CHECK-DAG: lw [[R2:\$[0-9]+]], %got(llvm_mips_ftrunc_u_d_RES) ; CHECK-DAG: st.d [[WD]], 0([[R2]]) ; CHECK: .size llvm_mips_ftrunc_u_d_test ; @llvm_mips_ftint_s_w_ARG1 = global <4 x float> , align 16 @llvm_mips_ftint_s_w_RES = global <4 x i32> , align 16 define void @llvm_mips_ftint_s_w_test() nounwind { entry: %0 = load <4 x float>, <4 x float>* @llvm_mips_ftint_s_w_ARG1 %1 = tail call <4 x i32> @llvm.mips.ftint.s.w(<4 x float> %0) store <4 x i32> %1, <4 x i32>* @llvm_mips_ftint_s_w_RES ret void } declare <4 x i32> @llvm.mips.ftint.s.w(<4 x float>) nounwind ; CHECK: llvm_mips_ftint_s_w_test: ; CHECK-DAG: lw [[R1:\$[0-9]+]], %got(llvm_mips_ftint_s_w_ARG1) ; CHECK-DAG: ld.w [[WS:\$w[0-9]+]], 0([[R1]]) ; CHECK-DAG: ftint_s.w [[WD:\$w[0-9]+]], [[WS]] ; CHECK-DAG: lw [[R2:\$[0-9]+]], %got(llvm_mips_ftint_s_w_RES) ; CHECK-DAG: st.w [[WD]], 0([[R2]]) ; CHECK: .size llvm_mips_ftint_s_w_test ; @llvm_mips_ftint_s_d_ARG1 = global <2 x double> , align 16 @llvm_mips_ftint_s_d_RES = global <2 x i64> , align 16 define void @llvm_mips_ftint_s_d_test() nounwind { entry: %0 = load <2 x double>, <2 x double>* @llvm_mips_ftint_s_d_ARG1 %1 = tail call <2 x i64> @llvm.mips.ftint.s.d(<2 x double> %0) store <2 x i64> %1, <2 x i64>* @llvm_mips_ftint_s_d_RES ret void } declare <2 x i64> @llvm.mips.ftint.s.d(<2 x double>) nounwind ; CHECK: llvm_mips_ftint_s_d_test: ; CHECK-DAG: lw [[R1:\$[0-9]+]], %got(llvm_mips_ftint_s_d_ARG1) ; CHECK-DAG: ld.d [[WS:\$w[0-9]+]], 0([[R1]]) ; CHECK-DAG: ftint_s.d [[WD:\$w[0-9]+]], [[WS]] ; CHECK-DAG: lw [[R2:\$[0-9]+]], %got(llvm_mips_ftint_s_d_RES) ; CHECK-DAG: st.d [[WD]], 0([[R2]]) ; CHECK: .size llvm_mips_ftint_s_d_test ; @llvm_mips_ftint_u_w_ARG1 = global <4 x float> , align 16 @llvm_mips_ftint_u_w_RES = global <4 x i32> , align 16 define void @llvm_mips_ftint_u_w_test() nounwind { entry: %0 = load <4 x float>, <4 x float>* @llvm_mips_ftint_u_w_ARG1 %1 = tail call <4 x i32> @llvm.mips.ftint.u.w(<4 x float> %0) store <4 x i32> %1, <4 x i32>* @llvm_mips_ftint_u_w_RES ret void } declare <4 x i32> @llvm.mips.ftint.u.w(<4 x float>) nounwind ; CHECK: llvm_mips_ftint_u_w_test: ; CHECK-DAG: lw [[R1:\$[0-9]+]], %got(llvm_mips_ftint_u_w_ARG1) ; CHECK-DAG: ld.w [[WS:\$w[0-9]+]], 0([[R1]]) ; CHECK-DAG: ftint_u.w [[WD:\$w[0-9]+]], [[WS]] ; CHECK-DAG: lw [[R2:\$[0-9]+]], %got(llvm_mips_ftint_u_w_RES) ; CHECK-DAG: st.w [[WD]], 0([[R2]]) ; CHECK: .size llvm_mips_ftint_u_w_test ; @llvm_mips_ftint_u_d_ARG1 = global <2 x double> , align 16 @llvm_mips_ftint_u_d_RES = global <2 x i64> , align 16 define void @llvm_mips_ftint_u_d_test() nounwind { entry: %0 = load <2 x double>, <2 x double>* @llvm_mips_ftint_u_d_ARG1 %1 = tail call <2 x i64> @llvm.mips.ftint.u.d(<2 x double> %0) store <2 x i64> %1, <2 x i64>* @llvm_mips_ftint_u_d_RES ret void } declare <2 x i64> @llvm.mips.ftint.u.d(<2 x double>) nounwind ; CHECK: llvm_mips_ftint_u_d_test: ; CHECK-DAG: lw [[R1:\$[0-9]+]], %got(llvm_mips_ftint_u_d_ARG1) ; CHECK-DAG: ld.d [[WS:\$w[0-9]+]], 0([[R1]]) ; CHECK-DAG: ftint_u.d [[WD:\$w[0-9]+]], [[WS]] ; CHECK-DAG: lw [[R2:\$[0-9]+]], %got(llvm_mips_ftint_u_d_RES) ; CHECK-DAG: st.d [[WD]], 0([[R2]]) ; CHECK: .size llvm_mips_ftint_u_d_test ;