[CodeGen][ARM] ARM runtime helper functions are not always soft-fp
The ARM Runtime ABI document (IHI0043) defines the AEABI floating point
helper functions in 4.1.2 The floating-point helper functions. These
functions always use the base PCS (soft-fp). However helper functions
defined outside of this document such as the complex-number multiply and
divide helpers are not covered by this requirement and should use
hard-float PCS if the target is hard-float as both compiler-rt and libgcc
for a hard-float sysroot implement these functions with a hard-float PCS.
All of the floating point helper functions that are explicitly soft float
are expanded in the llvm ARM backend. This change makes clang not force the
BuiltinCC to AAPCS for AAPCS_VFP. With this change the ARM compiler-rt
tests involving _Complex pass with both hard-fp and soft-fp targets.
Differential Revision: https://reviews.llvm.org/D35538
llvm-svn: 309257
This commit is contained in:
Peter Smith
parent
f88f81c444
commit
8459922df7
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@ -5620,17 +5620,14 @@ void ARMABIInfo::setCCs() {
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// AAPCS apparently requires runtime support functions to be soft-float, but
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// that's almost certainly for historic reasons (Thumb1 not supporting VFP
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// most likely). It's more convenient for AAPCS16_VFP to be hard-float.
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switch (getABIKind()) {
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case APCS:
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case AAPCS16_VFP:
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if (abiCC != getLLVMDefaultCC())
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// The Run-time ABI for the ARM Architecture section 4.1.2 requires
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// AEABI-complying FP helper functions to use the base AAPCS.
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// These AEABI functions are expanded in the ARM llvm backend, all the builtin
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// support functions emitted by clang such as the _Complex helpers follow the
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// abiCC.
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if (abiCC != getLLVMDefaultCC())
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BuiltinCC = abiCC;
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break;
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case AAPCS:
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case AAPCS_VFP:
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BuiltinCC = llvm::CallingConv::ARM_AAPCS;
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break;
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}
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}
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ABIArgInfo ARMABIInfo::classifyArgumentType(QualType Ty,
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@ -0,0 +1,233 @@
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// REQUIRES: arm-registered-target
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// RUN: %clang_cc1 -emit-llvm -o - -triple arm-none-linux-gnueabi %s | FileCheck %s
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// RUN: %clang_cc1 -emit-llvm -o - -triple arm-none-linux-gnueabihf %s | FileCheck %s
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// RUN: %clang_cc1 -emit-llvm -o - -triple arm-none-linux-gnueabi -target-feature "+soft-float" -target-feature "+soft-float-abi" %s | FileCheck %s
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// RUN: %clang_cc1 -emit-llvm -o - -triple arm-none-linux-gnueabi -target-feature "+soft-float" %s | FileCheck %s
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// RUN: %clang_cc1 -emit-llvm -o - -triple arm-none-eabi %s | FileCheck %s
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// RUN: %clang_cc1 -emit-llvm -o - -triple arm-none-eabi -meabi gnu %s | FileCheck %s
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// RUN: %clang_cc1 -emit-llvm -o - -triple arm-none-eabi %s | FileCheck %s
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// RUN: %clang_cc1 -emit-llvm -o - -triple arm-none-eabi -target-feature "+soft-float" -target-feature "+soft-float-abi" -meabi gnu %s | FileCheck %s
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// RUN: %clang_cc1 -emit-llvm -o - -triple arm-none-eabi -target-feature "+soft-float" -meabi gnu %s | FileCheck %s
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// RUN: %clang_cc1 -emit-llvm -o - -triple arm-none-eabihf %s | FileCheck %s
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// RUN: %clang_cc1 -emit-llvm -o - -triple arm-none-eabihf -meabi gnu %s | FileCheck %s
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// The Runtime ABI for the ARM Architecture IHI0043 section 4.1.2 The
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// floating-point helper functions to always use the base AAPCS (soft-float)
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// calling convention.
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//
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// These helper functions such as __aeabi_fadd are not explicitly called by
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// clang, instead they are generated by the ARMISelLowering when they are
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// needed; clang relies on llvm to use the base AAPCS.
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//
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// In this test we check that clang is not directly calling the __aeabi_
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// functions. We rely on llvm to test that the base AAPCS is used for any
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// __aeabi_ function from 4.1.2 that is used.
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//
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// When compiled to an object file with -mfloat-abi=soft each function F
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// below should result in a call to __aeabi_F. If clang is changed to call any
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// of these functions directly the test will need to be altered to check that
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// arm_aapcscc is used.
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//
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// Note that it is only the functions in 4.1.2 that must use the base AAPCS,
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// other runtime functions such as the _Complex helper routines are not covered.
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float fadd(float a, float b) { return a + b; }
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// CHECK-LABEL: define float @fadd(float %a, float %b)
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// CHECK-NOT: __aeabi_fadd
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// CHECK: %add = fadd float %0, %1
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float fdiv(float a, float b) { return a / b; }
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// CHECK-LABEL: define float @fdiv(float %a, float %b)
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// CHECK-NOT: __aeabi_fdiv
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// CHECK: %div = fdiv float %0, %1
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float fmul(float a, float b) { return a * b; }
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// CHECK-LABEL: define float @fmul(float %a, float %b)
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// CHECK-NOT: __aeabi_fmul
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// CHECK: %mul = fmul float %0, %1
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float fsub(float a, float b) { return a - b; }
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// CHECK-LABEL: define float @fsub(float %a, float %b)
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// CHECK-NOT: __aeabi_fsub
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// CHECK: %sub = fsub float %0, %1
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int fcmpeq(float a, float b) { return a == b; }
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// CHECK-LABEL: define i32 @fcmpeq(float %a, float %b)
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// CHECK-NOT: __aeabi_fcmpeq
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// CHECK: %cmp = fcmp oeq float %0, %1
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int fcmplt(float a, float b) { return a < b; }
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// CHECK-LABEL: define i32 @fcmplt(float %a, float %b)
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// CHECK-NOT: __aeabi_fcmplt
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// CHECK: %cmp = fcmp olt float %0, %1
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int fcmple(float a, float b) { return a <= b; }
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// CHECK-LABEL: define i32 @fcmple(float %a, float %b)
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// CHECK-NOT: __aeabi_fcmple
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// CHECK: %cmp = fcmp ole float %0, %1
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int fcmpge(float a, float b) { return a >= b; }
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// CHECK-LABEL: define i32 @fcmpge(float %a, float %b)
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// CHECK-NOT: __aeabi_fcmpge
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// CHECK: %cmp = fcmp oge float %0, %1
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int fcmpgt(float a, float b) { return a > b; }
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// CHECK-LABEL: define i32 @fcmpgt(float %a, float %b)
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// CHECK-NOT: __aeabi_fcmpgt
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// CHECK: %cmp = fcmp ogt float %0, %1
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int fcmpun(float a, float b) { return __builtin_isunordered(a, b); }
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// CHECK-LABEL: define i32 @fcmpun(float %a, float %b)
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// CHECK-NOT: __aeabi_fcmpun
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// CHECK: %cmp = fcmp uno double %conv, %conv1
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double dadd(double a, double b) { return a + b; }
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// CHECK-LABEL: define double @dadd(double %a, double %b)
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// CHECK-NOT: __aeabi_dadd
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// CHECK: %add = fadd double %0, %1
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double ddiv(double a, double b) { return a / b; }
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// CHECK-LABEL: define double @ddiv(double %a, double %b)
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// CHECK-NOT: __aeabi_ddiv
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// CHECK: %div = fdiv double %0, %1
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double dmul(double a, double b) { return a * b; }
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// CHECK-LABEL: define double @dmul(double %a, double %b)
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// CHECK-NOT: __aeabi_dmul
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// CHECK: %mul = fmul double %0, %1
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double dsub(double a, double b) { return a - b; }
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// CHECK-LABEL: define double @dsub(double %a, double %b)
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// CHECK-NOT: __aeabi_dsub
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// CHECK: %sub = fsub double %0, %1
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int dcmpeq(double a, double b) { return a == b; }
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// CHECK-LABEL: define i32 @dcmpeq(double %a, double %b)
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// CHECK-NOT: __aeabi_dcmpeq
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// CHECK: %cmp = fcmp oeq double %0, %1
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int dcmplt(double a, double b) { return a < b; }
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// CHECK-LABEL: define i32 @dcmplt(double %a, double %b)
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// CHECK-NOT: __aeabi_dcmplt
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// CHECK: %cmp = fcmp olt double %0, %1
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int dcmple(double a, double b) { return a <= b; }
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// CHECK-LABEL: define i32 @dcmple(double %a, double %b)
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// CHECK-NOT: __aeabi_dcmple
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// CHECK: %cmp = fcmp ole double %0, %1
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int dcmpge(double a, double b) { return a >= b; }
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// CHECK-LABEL: define i32 @dcmpge(double %a, double %b)
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// CHECK-NOT: __aeabi_dcmpge
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// CHECK: %cmp = fcmp oge double %0, %1
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int dcmpgt(double a, double b) { return a > b; }
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// CHECK-LABEL: define i32 @dcmpgt(double %a, double %b)
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// CHECK-NOT: __aeabi_dcmpgt
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// CHECK: %cmp = fcmp ogt double %0, %1
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int dcmpun(double a, double b) { return __builtin_isunordered(a, b); }
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// CHECK-LABEL: define i32 @dcmpun(double %a, double %b)
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// CHECK-NOT: __aeabi_dcmpun
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// CHECK: %cmp = fcmp uno double %0, %1
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int d2iz(double a) { return (int)a; }
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// CHECK-LABEL: define i32 @d2iz(double %a)
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// CHECK-NOT: __aeabi_d2iz
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// CHECK: %conv = fptosi double %0 to i32
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unsigned int d2uiz(double a) { return (unsigned int)a; }
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// CHECK-LABEL: define i32 @d2uiz(double %a)
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// CHECK-NOT: __aeabi_d2uiz
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// CHECK: %conv = fptoui double %0 to i32
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long long d2lz(double a) { return (long long)a; }
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// CHECK-LABEL: define i64 @d2lz(double %a)
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// CHECK-NOT: __aeabi_d2lz
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// CHECK: %conv = fptosi double %0 to i64
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unsigned long long d2ulz(double a) { return (unsigned long long)a; }
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// CHECK-LABEL: define i64 @d2ulz(double %a)
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// CHECK-NOT: __aeabi_d2ulz
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// CHECK: %conv = fptoui double %0 to i64
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int f2iz(float a) { return (int)a; }
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// CHECK-LABEL: define i32 @f2iz(float %a)
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// CHECK-NOT: __aeabi_f2iz
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// CHECK: %conv = fptosi float %0 to i32
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unsigned int f2uiz(float a) { return (unsigned int)a; }
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// CHECK-LABEL: define i32 @f2uiz(float %a)
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// CHECK-NOT: __aeabi_f2uiz
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// CHECK: %conv = fptoui float %0 to i32
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long long f2lz(float a) { return (long long)a; }
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// CHECK-LABEL: define i64 @f2lz(float %a)
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// CHECK-NOT: __aeabi_f2lz
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// CHECK: %conv = fptosi float %0 to i64
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unsigned long long f2ulz(float a) { return (unsigned long long)a; }
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// CHECK-LABEL: define i64 @f2ulz(float %a)
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// CHECK-NOT: __aeabi_f2ulz
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// CHECK: %conv = fptoui float %0 to i64
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float d2f(double a) { return (float)a; }
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// CHECK-LABEL: define float @d2f(double %a)
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// CHECK-NOT: __aeabi_d2f
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// CHECK: %conv = fptrunc double %0 to float
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double f2d(float a) { return (double)a; }
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// CHECK-LABEL: define double @f2d(float %a)
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// CHECK-NOT: __aeabi_f2d
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// CHECK: %conv = fpext float %0 to double
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double i2d(int a) { return (double)a; }
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// CHECK-LABEL: define double @i2d(i32 %a)
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// CHECK-NOT: __aeabi_i2d
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// CHECK: %conv = sitofp i32 %0 to double
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double ui2d(unsigned int a) { return (double)a; }
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// CHECK-LABEL: define double @ui2d(i32 %a)
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// CHECK-NOT: __aeabi_ui2d
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// CHECK: %conv = uitofp i32 %0 to double
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double l2d(long long a) { return (double)a; }
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// CHECK-LABEL: define double @l2d(i64 %a)
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// CHECK-NOT: __aeabi_l2d
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// CHECK: %conv = sitofp i64 %0 to double
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double ul2d(unsigned long long a) { return (unsigned long long)a; }
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// CHECK-LABEL: define double @ul2d(i64 %a)
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// CHECK-NOT: __aeabi_ul2d
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// CHECK: %conv = uitofp i64 %0 to double
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float i2f(int a) { return (int)a; }
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// CHECK-LABEL: define float @i2f(i32 %a)
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// CHECK-NOT: __aeabi_i2f
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// CHECK: %conv = sitofp i32 %0 to float
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float ui2f(unsigned int a) { return (unsigned int)a; }
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// CHECK-LABEL: define float @ui2f(i32 %a)
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// CHECK-NOT: __aeabi_ui2f
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// CHECK: %conv = uitofp i32 %0 to float
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float l2f(long long a) { return (long long)a; }
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// CHECK-LABEL: define float @l2f(i64 %a)
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// CHECK-NOT: __aeabi_l2f
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// CHECK: %conv = sitofp i64 %0 to float
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float ul2f(unsigned long long a) { return (unsigned long long)a; }
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// CHECK-LABEL: define float @ul2f(i64 %a)
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// CHECK-NOT: __aeabi_ul2f
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// CHECK: %conv = uitofp i64 %0 to float
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// Functions in section 4.1.2 not used by llvm and don't easily map directly to
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// C source code.
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// cfcmpeq
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// cfcmple
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// cfrcmple
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// cdcmpeq
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// cdcmple
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// cdrcmple
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// frsub
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// drsub
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@ -2,7 +2,8 @@
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// RUN: %clang_cc1 %s -O1 -emit-llvm -triple x86_64-pc-win64 -o - | FileCheck %s --check-prefix=X86
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// RUN: %clang_cc1 %s -O1 -emit-llvm -triple i686-unknown-unknown -o - | FileCheck %s --check-prefix=X86
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// RUN: %clang_cc1 %s -O1 -emit-llvm -triple powerpc-unknown-unknown -o - | FileCheck %s --check-prefix=PPC
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// RUN: %clang_cc1 %s -O1 -emit-llvm -triple armv7-none-linux-gnueabihf -o - | FileCheck %s --check-prefix=ARM
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// RUN %clang_cc1 %s -O1 -emit-llvm -triple armv7-none-linux-gnueabi -o - | FileCheck %s --check-prefix=ARM
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// RUN: %clang_cc1 %s -O1 -emit-llvm -triple armv7-none-linux-gnueabihf -o - | FileCheck %s --check-prefix=ARMHF
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// RUN: %clang_cc1 %s -O1 -emit-llvm -triple thumbv7k-apple-watchos2.0 -o - -target-abi aapcs16 | FileCheck %s --check-prefix=ARM7K
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float _Complex add_float_rr(float a, float b) {
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@ -476,8 +477,15 @@ _Bool ne_float_cc(float _Complex a, float _Complex b) {
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// Check that the libcall will obtain proper calling convention on ARM
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_Complex double foo(_Complex double a, _Complex double b) {
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// These functions are not defined as floating point helper functions in
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// Run-time ABI for the ARM architecture document so they must not always
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// use the base AAPCS.
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// ARM-LABEL: @foo(
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// ARM: call arm_aapcscc { double, double } @__muldc3
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// ARM: call void { double, double } @__muldc3
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// ARMHF-LABEL: @foo(
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// ARMHF: call { double, double } @__muldc3
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// ARM7K-LABEL: @foo(
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// ARM7K: call { double, double } @__muldc3
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