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llvm/test/CodeGen/PowerPC/fast-isel-conversion-p5.ll
Bill Schmidt 808d878a96 [PPC64] Fix PR20071 (fctiduz generated for targets lacking that instruction) 
PR20071 identifies a problem in PowerPC's fast-isel implementation for
floating-point conversion to integer.  The fctiduz instruction was added in
Power ISA 2.06 (i.e., Power7 and later).  However, this instruction is being
generated regardless of which 64-bit PowerPC target is selected.

The intent is for fast-isel to punt to DAG selection when this instruction is
not available.  This patch implements that change.  For testing purposes, the
existing fast-isel-conversion.ll test adds a RUN line for -mcpu=970 and tests
for the expected code generation.  Additionally, the existing test
fast-isel-conversion-p5.ll was found to be incorrectly expecting the
unavailable instruction to be generated.  I've removed these test variants
since we have adequate coverage in fast-isel-conversion.ll.


git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@211627 91177308-0d34-0410-b5e6-96231b3b80d8
2014-06-24 20:05:18 +00:00

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; RUN: llc < %s -O0 -verify-machineinstrs -fast-isel-abort -mtriple=powerpc64-unknown-linux-gnu -mcpu=pwr5 | FileCheck %s --check-prefix=ELF64
; Test sitofp
define void @sitofp_double_i32(i32 %a, double %b) nounwind ssp {
entry:
; ELF64: sitofp_double_i32
%b.addr = alloca double, align 8
%conv = sitofp i32 %a to double
; ELF64: std {{[0-9]+}}, -[[OFFSET:[0-9]+]](1)
; ELF64: lfd {{[0-9]+}}, -[[OFFSET]](1)
; ELF64: fcfid
store double %conv, double* %b.addr, align 8
ret void
}
define void @sitofp_double_i64(i64 %a, double %b) nounwind ssp {
entry:
; ELF64: sitofp_double_i64
%b.addr = alloca double, align 8
%conv = sitofp i64 %a to double
; ELF64: std {{[0-9]+}}, -[[OFFSET:[0-9]+]](1)
; ELF64: lfd {{[0-9]+}}, -[[OFFSET]](1)
; ELF64: fcfid
store double %conv, double* %b.addr, align 8
ret void
}
define void @sitofp_double_i16(i16 %a, double %b) nounwind ssp {
entry:
; ELF64: sitofp_double_i16
%b.addr = alloca double, align 8
%conv = sitofp i16 %a to double
; ELF64: extsh
; ELF64: std {{[0-9]+}}, -[[OFFSET:[0-9]+]](1)
; ELF64: lfd {{[0-9]+}}, -[[OFFSET]](1)
; ELF64: fcfid
store double %conv, double* %b.addr, align 8
ret void
}
define void @sitofp_double_i8(i8 %a, double %b) nounwind ssp {
entry:
; ELF64: sitofp_double_i8
%b.addr = alloca double, align 8
%conv = sitofp i8 %a to double
; ELF64: extsb
; ELF64: std {{[0-9]+}}, -[[OFFSET:[0-9]+]](1)
; ELF64: lfd {{[0-9]+}}, -[[OFFSET]](1)
; ELF64: fcfid
store double %conv, double* %b.addr, align 8
ret void
}
; Test fptosi
define void @fptosi_float_i32(float %a) nounwind ssp {
entry:
; ELF64: fptosi_float_i32
%b.addr = alloca i32, align 4
%conv = fptosi float %a to i32
; ELF64: fctiwz
; ELF64: stfd
; ELF64: lwa
store i32 %conv, i32* %b.addr, align 4
ret void
}
define void @fptosi_float_i64(float %a) nounwind ssp {
entry:
; ELF64: fptosi_float_i64
%b.addr = alloca i64, align 4
%conv = fptosi float %a to i64
; ELF64: fctidz
; ELF64: stfd
; ELF64: ld
store i64 %conv, i64* %b.addr, align 4
ret void
}
define void @fptosi_double_i32(double %a) nounwind ssp {
entry:
; ELF64: fptosi_double_i32
%b.addr = alloca i32, align 8
%conv = fptosi double %a to i32
; ELF64: fctiwz
; ELF64: stfd
; ELF64: lwa
store i32 %conv, i32* %b.addr, align 8
ret void
}
define void @fptosi_double_i64(double %a) nounwind ssp {
entry:
; ELF64: fptosi_double_i64
%b.addr = alloca i64, align 8
%conv = fptosi double %a to i64
; ELF64: fctidz
; ELF64: stfd
; ELF64: ld
store i64 %conv, i64* %b.addr, align 8
ret void
}
; Test fptoui
define void @fptoui_float_i32(float %a) nounwind ssp {
entry:
; ELF64: fptoui_float_i32
%b.addr = alloca i32, align 4
%conv = fptoui float %a to i32
; ELF64: fctidz
; ELF64: stfd
; ELF64: lwz
store i32 %conv, i32* %b.addr, align 4
ret void
}
define void @fptoui_double_i32(double %a) nounwind ssp {
entry:
; ELF64: fptoui_double_i32
%b.addr = alloca i32, align 8
%conv = fptoui double %a to i32
; ELF64: fctidz
; ELF64: stfd
; ELF64: lwz
store i32 %conv, i32* %b.addr, align 8
ret void
}
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