; Check that nvvm intrinsics get simplified to target-generic intrinsics where ; possible. ; ; We run this test twice; once with ftz on, and again with ftz off. Behold the ; hackery: ; RUN: cat %s > %t.ftz ; RUN: echo 'attributes #0 = { "nvptx-f32ftz" = "true" }' >> %t.ftz ; RUN: opt < %t.ftz -instcombine -S | FileCheck %s --check-prefix=CHECK --check-prefix=FTZ ; RUN: cat %s > %t.noftz ; RUN: echo 'attributes #0 = { "nvptx-f32ftz" = "false" }' >> %t.noftz ; RUN: opt < %t.noftz -instcombine -S | FileCheck %s --check-prefix=CHECK --check-prefix=NOFTZ ; We handle nvvm intrinsics with ftz variants as follows: ; - If the module is in ftz mode, the ftz variant is transformed into the ; regular llvm intrinsic, and the non-ftz variant is left alone. ; - If the module is not in ftz mode, it's the reverse: Only the non-ftz ; variant is transformed, and the ftz variant is left alone. ; Check NVVM intrinsics that map directly to LLVM target-generic intrinsics. ; CHECK-LABEL: @ceil_double define double @ceil_double(double %a) #0 { ; CHECK: call double @llvm.ceil.f64 %ret = call double @llvm.nvvm.ceil.d(double %a) ret double %ret } ; CHECK-LABEL: @ceil_float define float @ceil_float(float %a) #0 { ; NOFTZ: call float @llvm.ceil.f32 ; FTZ: call float @llvm.nvvm.ceil.f %ret = call float @llvm.nvvm.ceil.f(float %a) ret float %ret } ; CHECK-LABEL: @ceil_float_ftz define float @ceil_float_ftz(float %a) #0 { ; NOFTZ: call float @llvm.nvvm.ceil.ftz.f ; FTZ: call float @llvm.ceil.f32 %ret = call float @llvm.nvvm.ceil.ftz.f(float %a) ret float %ret } ; CHECK-LABEL: @fabs_double define double @fabs_double(double %a) #0 { ; CHECK: call double @llvm.fabs.f64 %ret = call double @llvm.nvvm.fabs.d(double %a) ret double %ret } ; CHECK-LABEL: @fabs_float define float @fabs_float(float %a) #0 { ; NOFTZ: call float @llvm.fabs.f32 ; FTZ: call float @llvm.nvvm.fabs.f %ret = call float @llvm.nvvm.fabs.f(float %a) ret float %ret } ; CHECK-LABEL: @fabs_float_ftz define float @fabs_float_ftz(float %a) #0 { ; NOFTZ: call float @llvm.nvvm.fabs.ftz.f ; FTZ: call float @llvm.fabs.f32 %ret = call float @llvm.nvvm.fabs.ftz.f(float %a) ret float %ret } ; CHECK-LABEL: @floor_double define double @floor_double(double %a) #0 { ; CHECK: call double @llvm.floor.f64 %ret = call double @llvm.nvvm.floor.d(double %a) ret double %ret } ; CHECK-LABEL: @floor_float define float @floor_float(float %a) #0 { ; NOFTZ: call float @llvm.floor.f32 ; FTZ: call float @llvm.nvvm.floor.f %ret = call float @llvm.nvvm.floor.f(float %a) ret float %ret } ; CHECK-LABEL: @floor_float_ftz define float @floor_float_ftz(float %a) #0 { ; NOFTZ: call float @llvm.nvvm.floor.ftz.f ; FTZ: call float @llvm.floor.f32 %ret = call float @llvm.nvvm.floor.ftz.f(float %a) ret float %ret } ; CHECK-LABEL: @fma_double define double @fma_double(double %a, double %b, double %c) #0 { ; CHECK: call double @llvm.fma.f64 %ret = call double @llvm.nvvm.fma.rn.d(double %a, double %b, double %c) ret double %ret } ; CHECK-LABEL: @fma_float define float @fma_float(float %a, float %b, float %c) #0 { ; NOFTZ: call float @llvm.fma.f32 ; FTZ: call float @llvm.nvvm.fma.rn.f %ret = call float @llvm.nvvm.fma.rn.f(float %a, float %b, float %c) ret float %ret } ; CHECK-LABEL: @fma_float_ftz define float @fma_float_ftz(float %a, float %b, float %c) #0 { ; NOFTZ: call float @llvm.nvvm.fma.rn.ftz.f ; FTZ: call float @llvm.fma.f32 %ret = call float @llvm.nvvm.fma.rn.ftz.f(float %a, float %b, float %c) ret float %ret } ; CHECK-LABEL: @fmax_double define double @fmax_double(double %a, double %b) #0 { ; CHECK: call double @llvm.maxnum.f64 %ret = call double @llvm.nvvm.fmax.d(double %a, double %b) ret double %ret } ; CHECK-LABEL: @fmax_float define float @fmax_float(float %a, float %b) #0 { ; NOFTZ: call float @llvm.maxnum.f32 ; FTZ: call float @llvm.nvvm.fmax.f %ret = call float @llvm.nvvm.fmax.f(float %a, float %b) ret float %ret } ; CHECK-LABEL: @fmax_float_ftz define float @fmax_float_ftz(float %a, float %b) #0 { ; NOFTZ: call float @llvm.nvvm.fmax.ftz.f ; FTZ: call float @llvm.maxnum.f32 %ret = call float @llvm.nvvm.fmax.ftz.f(float %a, float %b) ret float %ret } ; CHECK-LABEL: @fmin_double define double @fmin_double(double %a, double %b) #0 { ; CHECK: call double @llvm.minnum.f64 %ret = call double @llvm.nvvm.fmin.d(double %a, double %b) ret double %ret } ; CHECK-LABEL: @fmin_float define float @fmin_float(float %a, float %b) #0 { ; NOFTZ: call float @llvm.minnum.f32 ; FTZ: call float @llvm.nvvm.fmin.f %ret = call float @llvm.nvvm.fmin.f(float %a, float %b) ret float %ret } ; CHECK-LABEL: @fmin_float_ftz define float @fmin_float_ftz(float %a, float %b) #0 { ; NOFTZ: call float @llvm.nvvm.fmin.ftz.f ; FTZ: call float @llvm.minnum.f32 %ret = call float @llvm.nvvm.fmin.ftz.f(float %a, float %b) ret float %ret } ; CHECK-LABEL: @round_double define double @round_double(double %a) #0 { ; CHECK: call double @llvm.round.f64 %ret = call double @llvm.nvvm.round.d(double %a) ret double %ret } ; CHECK-LABEL: @round_float define float @round_float(float %a) #0 { ; NOFTZ: call float @llvm.round.f32 ; FTZ: call float @llvm.nvvm.round.f %ret = call float @llvm.nvvm.round.f(float %a) ret float %ret } ; CHECK-LABEL: @round_float_ftz define float @round_float_ftz(float %a) #0 { ; NOFTZ: call float @llvm.nvvm.round.ftz.f ; FTZ: call float @llvm.round.f32 %ret = call float @llvm.nvvm.round.ftz.f(float %a) ret float %ret } ; CHECK-LABEL: @trunc_double define double @trunc_double(double %a) #0 { ; CHECK: call double @llvm.trunc.f64 %ret = call double @llvm.nvvm.trunc.d(double %a) ret double %ret } ; CHECK-LABEL: @trunc_float define float @trunc_float(float %a) #0 { ; NOFTZ: call float @llvm.trunc.f32 ; FTZ: call float @llvm.nvvm.trunc.f %ret = call float @llvm.nvvm.trunc.f(float %a) ret float %ret } ; CHECK-LABEL: @trunc_float_ftz define float @trunc_float_ftz(float %a) #0 { ; NOFTZ: call float @llvm.nvvm.trunc.ftz.f ; FTZ: call float @llvm.trunc.f32 %ret = call float @llvm.nvvm.trunc.ftz.f(float %a) ret float %ret } ; Check NVVM intrinsics that correspond to LLVM cast operations. ; CHECK-LABEL: @test_d2i define i32 @test_d2i(double %a) #0 { ; CHECK: fptosi double %a to i32 %ret = call i32 @llvm.nvvm.d2i.rz(double %a) ret i32 %ret } ; CHECK-LABEL: @test_f2i define i32 @test_f2i(float %a) #0 { ; CHECK: fptosi float %a to i32 %ret = call i32 @llvm.nvvm.f2i.rz(float %a) ret i32 %ret } ; CHECK-LABEL: @test_d2ll define i64 @test_d2ll(double %a) #0 { ; CHECK: fptosi double %a to i64 %ret = call i64 @llvm.nvvm.d2ll.rz(double %a) ret i64 %ret } ; CHECK-LABEL: @test_f2ll define i64 @test_f2ll(float %a) #0 { ; CHECK: fptosi float %a to i64 %ret = call i64 @llvm.nvvm.f2ll.rz(float %a) ret i64 %ret } ; CHECK-LABEL: @test_d2ui define i32 @test_d2ui(double %a) #0 { ; CHECK: fptoui double %a to i32 %ret = call i32 @llvm.nvvm.d2ui.rz(double %a) ret i32 %ret } ; CHECK-LABEL: @test_f2ui define i32 @test_f2ui(float %a) #0 { ; CHECK: fptoui float %a to i32 %ret = call i32 @llvm.nvvm.f2ui.rz(float %a) ret i32 %ret } ; CHECK-LABEL: @test_d2ull define i64 @test_d2ull(double %a) #0 { ; CHECK: fptoui double %a to i64 %ret = call i64 @llvm.nvvm.d2ull.rz(double %a) ret i64 %ret } ; CHECK-LABEL: @test_f2ull define i64 @test_f2ull(float %a) #0 { ; CHECK: fptoui float %a to i64 %ret = call i64 @llvm.nvvm.f2ull.rz(float %a) ret i64 %ret } ; CHECK-LABEL: @test_i2d define double @test_i2d(i32 %a) #0 { ; CHECK: sitofp i32 %a to double %ret = call double @llvm.nvvm.i2d.rz(i32 %a) ret double %ret } ; CHECK-LABEL: @test_i2f define float @test_i2f(i32 %a) #0 { ; CHECK: sitofp i32 %a to float %ret = call float @llvm.nvvm.i2f.rz(i32 %a) ret float %ret } ; CHECK-LABEL: @test_ll2d define double @test_ll2d(i64 %a) #0 { ; CHECK: sitofp i64 %a to double %ret = call double @llvm.nvvm.ll2d.rz(i64 %a) ret double %ret } ; CHECK-LABEL: @test_ll2f define float @test_ll2f(i64 %a) #0 { ; CHECK: sitofp i64 %a to float %ret = call float @llvm.nvvm.ll2f.rz(i64 %a) ret float %ret } ; CHECK-LABEL: @test_ui2d define double @test_ui2d(i32 %a) #0 { ; CHECK: uitofp i32 %a to double %ret = call double @llvm.nvvm.ui2d.rz(i32 %a) ret double %ret } ; CHECK-LABEL: @test_ui2f define float @test_ui2f(i32 %a) #0 { ; CHECK: uitofp i32 %a to float %ret = call float @llvm.nvvm.ui2f.rz(i32 %a) ret float %ret } ; CHECK-LABEL: @test_ull2d define double @test_ull2d(i64 %a) #0 { ; CHECK: uitofp i64 %a to double %ret = call double @llvm.nvvm.ull2d.rz(i64 %a) ret double %ret } ; CHECK-LABEL: @test_ull2f define float @test_ull2f(i64 %a) #0 { ; CHECK: uitofp i64 %a to float %ret = call float @llvm.nvvm.ull2f.rz(i64 %a) ret float %ret } ; Check NVVM intrinsics that map to LLVM binary operations. ; CHECK-LABEL: @test_add_rn_d define double @test_add_rn_d(double %a, double %b) #0 { ; CHECK: fadd %ret = call double @llvm.nvvm.add.rn.d(double %a, double %b) ret double %ret } ; CHECK-LABEL: @test_add_rn_f define float @test_add_rn_f(float %a, float %b) #0 { ; NOFTZ: fadd ; FTZ: call float @llvm.nvvm.add.rn.f %ret = call float @llvm.nvvm.add.rn.f(float %a, float %b) ret float %ret } ; CHECK-LABEL: @test_add_rn_f_ftz define float @test_add_rn_f_ftz(float %a, float %b) #0 { ; NOFTZ: call float @llvm.nvvm.add.rn.f ; FTZ: fadd %ret = call float @llvm.nvvm.add.rn.ftz.f(float %a, float %b) ret float %ret } ; CHECK-LABEL: @test_mul_rn_d define double @test_mul_rn_d(double %a, double %b) #0 { ; CHECK: fmul %ret = call double @llvm.nvvm.mul.rn.d(double %a, double %b) ret double %ret } ; CHECK-LABEL: @test_mul_rn_f define float @test_mul_rn_f(float %a, float %b) #0 { ; NOFTZ: fmul ; FTZ: call float @llvm.nvvm.mul.rn.f %ret = call float @llvm.nvvm.mul.rn.f(float %a, float %b) ret float %ret } ; CHECK-LABEL: @test_mul_rn_f_ftz define float @test_mul_rn_f_ftz(float %a, float %b) #0 { ; NOFTZ: call float @llvm.nvvm.mul.rn.f ; FTZ: fmul %ret = call float @llvm.nvvm.mul.rn.ftz.f(float %a, float %b) ret float %ret } ; CHECK-LABEL: @test_div_rn_d define double @test_div_rn_d(double %a, double %b) #0 { ; CHECK: fdiv %ret = call double @llvm.nvvm.div.rn.d(double %a, double %b) ret double %ret } ; CHECK-LABEL: @test_div_rn_f define float @test_div_rn_f(float %a, float %b) #0 { ; NOFTZ: fdiv ; FTZ: call float @llvm.nvvm.div.rn.f %ret = call float @llvm.nvvm.div.rn.f(float %a, float %b) ret float %ret } ; CHECK-LABEL: @test_div_rn_f_ftz define float @test_div_rn_f_ftz(float %a, float %b) #0 { ; NOFTZ: call float @llvm.nvvm.div.rn.f ; FTZ: fdiv %ret = call float @llvm.nvvm.div.rn.ftz.f(float %a, float %b) ret float %ret } ; Check NVVM intrinsics that require us to emit custom IR. ; CHECK-LABEL: @test_rcp_rn_f define float @test_rcp_rn_f(float %a) #0 { ; NOFTZ: fdiv float 1.0{{.*}} %a ; FTZ: call float @llvm.nvvm.rcp.rn.f %ret = call float @llvm.nvvm.rcp.rn.f(float %a) ret float %ret } ; CHECK-LABEL: @test_rcp_rn_f_ftz define float @test_rcp_rn_f_ftz(float %a) #0 { ; NOFTZ: call float @llvm.nvvm.rcp.rn.f ; FTZ: fdiv float 1.0{{.*}} %a %ret = call float @llvm.nvvm.rcp.rn.ftz.f(float %a) ret float %ret } ; CHECK-LABEL: @test_sqrt_rn_d define double @test_sqrt_rn_d(double %a) #0 { ; CHECK: call double @llvm.sqrt.f64(double %a) %ret = call double @llvm.nvvm.sqrt.rn.d(double %a) ret double %ret } ; nvvm.sqrt.f is a special case: It goes to a llvm.sqrt.f ; CHECK-LABEL: @test_sqrt_f define float @test_sqrt_f(float %a) #0 { ; CHECK: call float @llvm.sqrt.f32(float %a) %ret = call float @llvm.nvvm.sqrt.f(float %a) ret float %ret } ; CHECK-LABEL: @test_sqrt_rn_f define float @test_sqrt_rn_f(float %a) #0 { ; NOFTZ: call float @llvm.sqrt.f32(float %a) ; FTZ: call float @llvm.nvvm.sqrt.rn.f %ret = call float @llvm.nvvm.sqrt.rn.f(float %a) ret float %ret } ; CHECK-LABEL: @test_sqrt_rn_f_ftz define float @test_sqrt_rn_f_ftz(float %a) #0 { ; NOFTZ: call float @llvm.nvvm.sqrt.rn.f ; FTZ: call float @llvm.sqrt.f32(float %a) %ret = call float @llvm.nvvm.sqrt.rn.ftz.f(float %a) ret float %ret } declare double @llvm.nvvm.add.rn.d(double, double) declare float @llvm.nvvm.add.rn.f(float, float) declare float @llvm.nvvm.add.rn.ftz.f(float, float) declare double @llvm.nvvm.ceil.d(double) declare float @llvm.nvvm.ceil.f(float) declare float @llvm.nvvm.ceil.ftz.f(float) declare float @llvm.nvvm.d2f.rm(double) declare float @llvm.nvvm.d2f.rm.ftz(double) declare float @llvm.nvvm.d2f.rp(double) declare float @llvm.nvvm.d2f.rp.ftz(double) declare float @llvm.nvvm.d2f.rz(double) declare float @llvm.nvvm.d2f.rz.ftz(double) declare i32 @llvm.nvvm.d2i.rz(double) declare i64 @llvm.nvvm.d2ll.rz(double) declare i32 @llvm.nvvm.d2ui.rz(double) declare i64 @llvm.nvvm.d2ull.rz(double) declare double @llvm.nvvm.div.rn.d(double, double) declare float @llvm.nvvm.div.rn.f(float, float) declare float @llvm.nvvm.div.rn.ftz.f(float, float) declare i16 @llvm.nvvm.f2h.rz(float) declare i16 @llvm.nvvm.f2h.rz.ftz(float) declare i32 @llvm.nvvm.f2i.rz(float) declare i32 @llvm.nvvm.f2i.rz.ftz(float) declare i64 @llvm.nvvm.f2ll.rz(float) declare i64 @llvm.nvvm.f2ll.rz.ftz(float) declare i32 @llvm.nvvm.f2ui.rz(float) declare i32 @llvm.nvvm.f2ui.rz.ftz(float) declare i64 @llvm.nvvm.f2ull.rz(float) declare i64 @llvm.nvvm.f2ull.rz.ftz(float) declare double @llvm.nvvm.fabs.d(double) declare float @llvm.nvvm.fabs.f(float) declare float @llvm.nvvm.fabs.ftz.f(float) declare double @llvm.nvvm.floor.d(double) declare float @llvm.nvvm.floor.f(float) declare float @llvm.nvvm.floor.ftz.f(float) declare double @llvm.nvvm.fma.rn.d(double, double, double) declare float @llvm.nvvm.fma.rn.f(float, float, float) declare float @llvm.nvvm.fma.rn.ftz.f(float, float, float) declare double @llvm.nvvm.fmax.d(double, double) declare float @llvm.nvvm.fmax.f(float, float) declare float @llvm.nvvm.fmax.ftz.f(float, float) declare double @llvm.nvvm.fmin.d(double, double) declare float @llvm.nvvm.fmin.f(float, float) declare float @llvm.nvvm.fmin.ftz.f(float, float) declare double @llvm.nvvm.i2d.rz(i32) declare float @llvm.nvvm.i2f.rz(i32) declare double @llvm.nvvm.ll2d.rz(i64) declare float @llvm.nvvm.ll2f.rz(i64) declare double @llvm.nvvm.lohi.i2d(i32, i32) declare double @llvm.nvvm.mul.rn.d(double, double) declare float @llvm.nvvm.mul.rn.f(float, float) declare float @llvm.nvvm.mul.rn.ftz.f(float, float) declare double @llvm.nvvm.rcp.rm.d(double) declare double @llvm.nvvm.rcp.rn.d(double) declare float @llvm.nvvm.rcp.rn.f(float) declare float @llvm.nvvm.rcp.rn.ftz.f(float) declare double @llvm.nvvm.round.d(double) declare float @llvm.nvvm.round.f(float) declare float @llvm.nvvm.round.ftz.f(float) declare float @llvm.nvvm.sqrt.f(float) declare double @llvm.nvvm.sqrt.rn.d(double) declare float @llvm.nvvm.sqrt.rn.f(float) declare float @llvm.nvvm.sqrt.rn.ftz.f(float) declare double @llvm.nvvm.trunc.d(double) declare float @llvm.nvvm.trunc.f(float) declare float @llvm.nvvm.trunc.ftz.f(float) declare double @llvm.nvvm.ui2d.rz(i32) declare float @llvm.nvvm.ui2f.rn(i32) declare float @llvm.nvvm.ui2f.rz(i32) declare double @llvm.nvvm.ull2d.rz(i64) declare float @llvm.nvvm.ull2f.rz(i64)