forked from OSchip/llvm-project
232 lines
6.3 KiB
C++
232 lines
6.3 KiB
C++
// RUN: %clang_cc1 -fexperimental-strict-floating-point -DEXCEPT=1 -fcxx-exceptions -triple x86_64-linux-gnu -emit-llvm -o - %s | FileCheck -check-prefix=CHECK-NS %s
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// RUN: %clang_cc1 -fexperimental-strict-floating-point -triple x86_64-linux-gnu -emit-llvm -o - %s | FileCheck %s
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// RUN: %clang_cc1 -fexperimental-strict-floating-point -DFENV_ON=1 -triple x86_64-linux-gnu -emit-llvm -o - %s | FileCheck -check-prefix=CHECK-FENV %s
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// RUN: %clang_cc1 -fexperimental-strict-floating-point -triple %itanium_abi_triple -O3 -emit-llvm -o - %s | FileCheck -check-prefix=CHECK-O3 %s
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// Verify float_control(precise, off) enables fast math flags on fp operations.
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float fp_precise_1(float a, float b, float c) {
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// CHECK-O3: _Z12fp_precise_1fff
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// CHECK-O3: %[[M:.+]] = fmul fast float{{.*}}
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// CHECK-O3: fadd fast float %[[M]], %c
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#pragma float_control(precise, off)
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return a * b + c;
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}
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// Is float_control state cleared on exiting compound statements?
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float fp_precise_2(float a, float b, float c) {
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// CHECK-O3: _Z12fp_precise_2fff
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// CHECK-O3: %[[M:.+]] = fmul float{{.*}}
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// CHECK-O3: fadd float %[[M]], %c
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{
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#pragma float_control(precise, off)
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}
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return a * b + c;
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}
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// Does float_control survive template instantiation?
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class Foo {};
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Foo operator+(Foo, Foo);
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template <typename T>
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T template_muladd(T a, T b, T c) {
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#pragma float_control(precise, off)
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return a * b + c;
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}
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float fp_precise_3(float a, float b, float c) {
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// CHECK-O3: _Z12fp_precise_3fff
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// CHECK-O3: %[[M:.+]] = fmul fast float{{.*}}
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// CHECK-O3: fadd fast float %[[M]], %c
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return template_muladd<float>(a, b, c);
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}
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template <typename T>
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class fp_precise_4 {
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float method(float a, float b, float c) {
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#pragma float_control(precise, off)
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return a * b + c;
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}
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};
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template class fp_precise_4<int>;
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// CHECK-O3: _ZN12fp_precise_4IiE6methodEfff
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// CHECK-O3: %[[M:.+]] = fmul fast float{{.*}}
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// CHECK-O3: fadd fast float %[[M]], %c
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// Check file-scoped float_control
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#pragma float_control(push)
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#pragma float_control(precise, off)
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float fp_precise_5(float a, float b, float c) {
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// CHECK-O3: _Z12fp_precise_5fff
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// CHECK-O3: %[[M:.+]] = fmul fast float{{.*}}
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// CHECK-O3: fadd fast float %[[M]], %c
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return a * b + c;
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}
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#pragma float_control(pop)
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float fff(float x, float y) {
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// CHECK-LABEL: define{{.*}} float @_Z3fffff{{.*}}
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// CHECK: entry
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#pragma float_control(except, on)
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float z;
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z = z * z;
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//CHECK: llvm.experimental.constrained.fmul{{.*}}
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{
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z = x * y;
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//CHECK: llvm.experimental.constrained.fmul{{.*}}
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}
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{
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// This pragma has no effect since if there are any fp intrin in the
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// function then all the operations need to be fp intrin
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#pragma float_control(except, off)
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z = z + x * y;
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//CHECK: llvm.experimental.constrained.fmul{{.*}}
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}
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z = z * z;
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//CHECK: llvm.experimental.constrained.fmul{{.*}}
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return z;
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}
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float check_precise(float x, float y) {
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// CHECK-LABEL: define{{.*}} float @_Z13check_preciseff{{.*}}
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float z;
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{
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#pragma float_control(precise, on)
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z = x * y + z;
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//CHECK: llvm.fmuladd{{.*}}
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}
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{
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#pragma float_control(precise, off)
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z = x * y + z;
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//CHECK: fmul fast float
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//CHECK: fadd fast float
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}
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return z;
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}
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float fma_test2(float a, float b, float c) {
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// CHECK-LABEL define{{.*}} float @_Z9fma_test2fff{{.*}}
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#pragma float_control(precise, off)
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float x = a * b + c;
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//CHECK: fmuladd
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return x;
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}
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float fma_test1(float a, float b, float c) {
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// CHECK-LABEL define{{.*}} float @_Z9fma_test1fff{{.*}}
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#pragma float_control(precise, on)
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float x = a * b + c;
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//CHECK: fmuladd
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return x;
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}
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#pragma float_control(push)
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#pragma float_control(precise, on)
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struct Distance {};
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Distance operator+(Distance, Distance);
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template <class T>
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T add(T lhs, T rhs) {
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#pragma float_control(except, on)
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return lhs + rhs;
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}
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#pragma float_control(pop)
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float test_OperatorCall() {
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return add(1.0f, 2.0f);
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//CHECK: llvm.experimental.constrained.fadd{{.*}}fpexcept.strict
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}
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// CHECK-LABEL define{{.*}} float {{.*}}test_OperatorCall{{.*}}
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#if FENV_ON
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#pragma STDC FENV_ACCESS ON
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#endif
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// CHECK-LABEL: define {{.*}}callt{{.*}}
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void callt() {
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volatile float z;
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z = z * z;
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//CHECK-FENV: llvm.experimental.constrained.fmul{{.*}}
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}
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// CHECK-LABEL: define {{.*}}myAdd{{.*}}
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float myAdd(int i, float f) {
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if (i<0)
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return 1.0 + 2.0;
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// Check that floating point constant folding doesn't occur if
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// #pragma STC FENV_ACCESS is enabled.
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//CHECK-FENV: llvm.experimental.constrained.fadd{{.*}}double 1.0{{.*}}double 2.0{{.*}}
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//CHECK: store float 3.0{{.*}}retval{{.*}}
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static double v = 1.0 / 3.0;
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//CHECK-FENV: llvm.experimental.constrained.fptrunc.f32.f64{{.*}}
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//CHECK-NOT: fdiv
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return v;
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}
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#if EXCEPT
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namespace ns {
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// Check that pragma float_control can appear in namespace.
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#pragma float_control(except, on, push)
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float exc_on(double x, float zero) {
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// CHECK-NS: define {{.*}}exc_on{{.*}}
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{} try {
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x = 1.0 / zero; /* division by zero, the result unused */
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//CHECK-NS: llvm.experimental.constrained.fdiv{{.*}}
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} catch (...) {}
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return zero;
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}
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}
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// Check pragma is still effective after namespace closes
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float exc_still_on(double x, float zero) {
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// CHECK-NS: define {{.*}}exc_still_on{{.*}}
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{} try {
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x = 1.0 / zero; /* division by zero, the result unused */
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//CHECK-NS: llvm.experimental.constrained.fdiv{{.*}}
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} catch (...) {}
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return zero;
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}
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#pragma float_control(pop)
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float exc_off(double x, float zero) {
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// CHECK-NS: define {{.*}}exc_off{{.*}}
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{} try {
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x = 1.0 / zero; /* division by zero, the result unused */
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//CHECK-NS: fdiv double
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} catch (...) {}
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return zero;
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}
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namespace fc_template_namespace {
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#pragma float_control(except, on, push)
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template <class T>
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T exc_on(double x, T zero) {
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// CHECK-NS: define {{.*}}fc_template_namespace{{.*}}
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{} try {
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x = 1.0 / zero; /* division by zero, the result unused */
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//CHECK-NS: llvm.experimental.constrained.fdiv{{.*}}
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} catch (...) {}
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return zero;
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}
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}
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#pragma float_control(pop)
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float xx(double x, float z) {
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return fc_template_namespace::exc_on<float>(x, z);
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}
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#endif // EXCEPT
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float try_lam(float x, unsigned n) {
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// CHECK: define {{.*}}try_lam{{.*}}class.anon{{.*}}
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float result;
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auto t =
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// Lambda expression begins
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[](float a, float b) {
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#pragma float_control( except, on)
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return a * b;
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//CHECK: llvm.experimental.constrained.fmul{{.*}}fpexcept.strict
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} // end of lambda expression
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(1.0f,2.0f);
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result = x + t;
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return result;
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}
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