Ensure bitcode encoding of instructions and their operands stays stable.

This includes instructions with aggregate operands (insert/extract), instructions with vector operands (insert/extract/shuffle), binary arithmetic and bitwise instructions, conversion instructions and terminators.

Work was done by lama.saba@intel.com.

llvm-svn: 202262
This commit is contained in:
Michael Kuperstein 2014-02-26 12:06:36 +00:00
parent ecea4522cd
commit 9201fb9ce7
14 changed files with 583 additions and 0 deletions

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; RUN: llvm-dis < %s.bc| FileCheck %s
; aggregateOperations.3.2.ll.bc was generated by passing this file to llvm-as-3.2.
; The test checks that LLVM does not misread instructions with aggregate operands
; in older bitcode files.
define void @extractvalue([4 x i8] %x1, [4 x [4 x i8]] %x2, {{i32, float}} %x3){
entry:
; CHECK: %res1 = extractvalue [4 x i8] %x1, 0
%res1 = extractvalue [4 x i8] %x1, 0
; CHECK-NEXT: %res2 = extractvalue [4 x [4 x i8]] %x2, 1
%res2 = extractvalue [4 x [4 x i8 ]] %x2, 1
; CHECK-NEXT: %res3 = extractvalue [4 x [4 x i8]] %x2, 0, 1
%res3 = extractvalue [4 x [4 x i8 ]] %x2, 0, 1
; CHECK-NEXT: %res4 = extractvalue { { i32, float } } %x3, 0, 1
%res4 = extractvalue {{i32, float}} %x3, 0, 1
ret void
}
define void @insertvalue([4 x [4 x i8 ]] %x1){
entry:
; CHECK: %res1 = insertvalue [4 x [4 x i8]] %x1, i8 0, 0, 0
%res1 = insertvalue [4 x [4 x i8 ]] %x1, i8 0, 0, 0
; CHECK-NEXT: %res2 = insertvalue [4 x [4 x i8]] undef, i8 0, 0, 0
%res2 = insertvalue [4 x [4 x i8 ]] undef, i8 0, 0, 0
ret void
}

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; RUN: llvm-dis < %s.bc| FileCheck %s
; BinaryFloatOperation.3.2.ll.bc was generated by passing this file to llvm-as-3.2.
; The test checks that LLVM does not misread binary float instructions from
; older bitcode files.
define void @fadd(float %x1, double %x2 ,half %x3, fp128 %x4, x86_fp80 %x5, ppc_fp128 %x6){
entry:
; CHECK: %res1 = fadd float %x1, %x1
%res1 = fadd float %x1, %x1
; CHECK-NEXT: %res2 = fadd double %x2, %x2
%res2 = fadd double %x2, %x2
; CHECK-NEXT: %res3 = fadd half %x3, %x3
%res3 = fadd half %x3, %x3
; CHECK-NEXT: %res4 = fadd fp128 %x4, %x4
%res4 = fadd fp128 %x4, %x4
; CHECK-NEXT: %res5 = fadd x86_fp80 %x5, %x5
%res5 = fadd x86_fp80 %x5, %x5
; CHECK-NEXT: %res6 = fadd ppc_fp128 %x6, %x6
%res6 = fadd ppc_fp128 %x6, %x6
ret void
}
define void @faddFloatVec(<2 x float> %x1, <3 x float> %x2 ,<4 x float> %x3, <8 x float> %x4, <16 x float> %x5){
entry:
; CHECK: %res1 = fadd <2 x float> %x1, %x1
%res1 = fadd <2 x float> %x1, %x1
; CHECK-NEXT: %res2 = fadd <3 x float> %x2, %x2
%res2 = fadd <3 x float> %x2, %x2
; CHECK-NEXT: %res3 = fadd <4 x float> %x3, %x3
%res3 = fadd <4 x float> %x3, %x3
; CHECK-NEXT: %res4 = fadd <8 x float> %x4, %x4
%res4 = fadd <8 x float> %x4, %x4
; CHECK-NEXT: %res5 = fadd <16 x float> %x5, %x5
%res5 = fadd <16 x float> %x5, %x5
ret void
}
define void @faddDoubleVec(<2 x double> %x1, <3 x double> %x2 ,<4 x double> %x3, <8 x double> %x4, <16 x double> %x5){
entry:
; CHECK: %res1 = fadd <2 x double> %x1, %x1
%res1 = fadd <2 x double> %x1, %x1
; CHECK-NEXT: %res2 = fadd <3 x double> %x2, %x2
%res2 = fadd <3 x double> %x2, %x2
; CHECK-NEXT: %res3 = fadd <4 x double> %x3, %x3
%res3 = fadd <4 x double> %x3, %x3
; CHECK-NEXT: %res4 = fadd <8 x double> %x4, %x4
%res4 = fadd <8 x double> %x4, %x4
; CHECK-NEXT: %res5 = fadd <16 x double> %x5, %x5
%res5 = fadd <16 x double> %x5, %x5
ret void
}
define void @faddHalfVec(<2 x half> %x1, <3 x half> %x2 ,<4 x half> %x3, <8 x half> %x4, <16 x half> %x5){
entry:
; CHECK: %res1 = fadd <2 x half> %x1, %x1
%res1 = fadd <2 x half> %x1, %x1
; CHECK-NEXT: %res2 = fadd <3 x half> %x2, %x2
%res2 = fadd <3 x half> %x2, %x2
; CHECK-NEXT: %res3 = fadd <4 x half> %x3, %x3
%res3 = fadd <4 x half> %x3, %x3
; CHECK-NEXT: %res4 = fadd <8 x half> %x4, %x4
%res4 = fadd <8 x half> %x4, %x4
; CHECK-NEXT: %res5 = fadd <16 x half> %x5, %x5
%res5 = fadd <16 x half> %x5, %x5
ret void
}
define void @fsub(float %x1){
entry:
; CHECK: %res1 = fsub float %x1, %x1
%res1 = fsub float %x1, %x1
ret void
}
define void @fmul(float %x1){
entry:
; CHECK: %res1 = fmul float %x1, %x1
%res1 = fmul float %x1, %x1
ret void
}
define void @fdiv(float %x1){
entry:
; CHECK: %res1 = fdiv float %x1, %x1
%res1 = fdiv float %x1, %x1
ret void
}
define void @frem(float %x1){
entry:
; CHECK: %res1 = frem float %x1, %x1
%res1 = frem float %x1, %x1
ret void
}

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; RUN: llvm-dis < %s.bc| FileCheck %s
; BinaryIntOperation.3.2.ll.bc was generated by passing this file to llvm-as-3.2.
; The test checks that LLVM does not misread binary integer instructions from
; older bitcode files.
define void @add(i1 %x1, i8 %x2 ,i16 %x3, i32 %x4, i64 %x5){
entry:
; CHECK: %res1 = add i1 %x1, %x1
%res1 = add i1 %x1, %x1
; CHECK-NEXT: %res2 = add i8 %x2, %x2
%res2 = add i8 %x2, %x2
; CHECK-NEXT: %res3 = add i16 %x3, %x3
%res3 = add i16 %x3, %x3
; CHECK-NEXT: %res4 = add i32 %x4, %x4
%res4 = add i32 %x4, %x4
; CHECK-NEXT: %res5 = add i64 %x5, %x5
%res5 = add i64 %x5, %x5
; CHECK: %res6 = add nuw i1 %x1, %x1
%res6 = add nuw i1 %x1, %x1
; CHECK: %res7 = add nsw i1 %x1, %x1
%res7 = add nsw i1 %x1, %x1
; CHECK: %res8 = add nuw nsw i1 %x1, %x1
%res8 = add nuw nsw i1 %x1, %x1
ret void
}
define void @addvec8NuwNsw(<2 x i8> %x1, <3 x i8> %x2 ,<4 x i8> %x3, <8 x i8> %x4, <16 x i8> %x5){
entry:
; CHECK: %res1 = add nuw nsw <2 x i8> %x1, %x1
%res1 = add nuw nsw <2 x i8> %x1, %x1
; CHECK-NEXT: %res2 = add nuw nsw <3 x i8> %x2, %x2
%res2 = add nuw nsw <3 x i8> %x2, %x2
; CHECK-NEXT: %res3 = add nuw nsw <4 x i8> %x3, %x3
%res3 = add nuw nsw <4 x i8> %x3, %x3
; CHECK-NEXT: %res4 = add nuw nsw <8 x i8> %x4, %x4
%res4 = add nuw nsw <8 x i8> %x4, %x4
; CHECK-NEXT: %res5 = add nuw nsw <16 x i8> %x5, %x5
%res5 = add nuw nsw <16 x i8> %x5, %x5
ret void
}
define void @addvec16NuwNsw(<2 x i16> %x1, <3 x i16> %x2 ,<4 x i16> %x3, <8 x i16> %x4, <16 x i16> %x5){
entry:
; CHECK: %res1 = add nuw nsw <2 x i16> %x1, %x1
%res1 = add nuw nsw <2 x i16> %x1, %x1
; CHECK-NEXT: %res2 = add nuw nsw <3 x i16> %x2, %x2
%res2 = add nuw nsw <3 x i16> %x2, %x2
; CHECK-NEXT: %res3 = add nuw nsw <4 x i16> %x3, %x3
%res3 = add nuw nsw <4 x i16> %x3, %x3
; CHECK-NEXT: %res4 = add nuw nsw <8 x i16> %x4, %x4
%res4 = add nuw nsw <8 x i16> %x4, %x4
; CHECK-NEXT: %res5 = add nuw nsw <16 x i16> %x5, %x5
%res5 = add nuw nsw <16 x i16> %x5, %x5
ret void
}
define void @addvec32NuwNsw(<2 x i32> %x1, <3 x i32> %x2 ,<4 x i32> %x3, <8 x i32> %x4, <16 x i32> %x5){
entry:
; CHECK: %res1 = add nuw nsw <2 x i32> %x1, %x1
%res1 = add nuw nsw <2 x i32> %x1, %x1
; CHECK-NEXT: %res2 = add nuw nsw <3 x i32> %x2, %x2
%res2 = add nuw nsw <3 x i32> %x2, %x2
; CHECK-NEXT: %res3 = add nuw nsw <4 x i32> %x3, %x3
%res3 = add nuw nsw <4 x i32> %x3, %x3
; CHECK-NEXT: %res4 = add nuw nsw <8 x i32> %x4, %x4
%res4 = add nuw nsw <8 x i32> %x4, %x4
; CHECK-NEXT: %res5 = add nuw nsw <16 x i32> %x5, %x5
%res5 = add nuw nsw <16 x i32> %x5, %x5
ret void
}
define void @addvec64NuwNsw(<2 x i64> %x1, <3 x i64> %x2 ,<4 x i64> %x3, <8 x i64> %x4, <16 x i64> %x5){
entry:
; CHECK: %res1 = add nuw nsw <2 x i64> %x1, %x1
%res1 = add nuw nsw <2 x i64> %x1, %x1
; CHECK-NEXT: %res2 = add nuw nsw <3 x i64> %x2, %x2
%res2 = add nuw nsw <3 x i64> %x2, %x2
; CHECK-NEXT: %res3 = add nuw nsw <4 x i64> %x3, %x3
%res3 = add nuw nsw <4 x i64> %x3, %x3
; CHECK-NEXT: %res4 = add nuw nsw <8 x i64> %x4, %x4
%res4 = add nuw nsw <8 x i64> %x4, %x4
; CHECK-NEXT: %res5 = add nuw nsw <16 x i64> %x5, %x5
%res5 = add nuw nsw <16 x i64> %x5, %x5
ret void
}
define void @sub(i8 %x1){
entry:
; CHECK: %res1 = sub i8 %x1, %x1
%res1 = sub i8 %x1, %x1
; CHECK: %res2 = sub nuw i8 %x1, %x1
%res2 = sub nuw i8 %x1, %x1
; CHECK: %res3 = sub nsw i8 %x1, %x1
%res3 = sub nsw i8 %x1, %x1
; CHECK: %res4 = sub nuw nsw i8 %x1, %x1
%res4 = sub nuw nsw i8 %x1, %x1
ret void
}
define void @mul(i8 %x1){
entry:
; CHECK: %res1 = mul i8 %x1, %x1
%res1 = mul i8 %x1, %x1
ret void
}
define void @udiv(i8 %x1){
entry:
; CHECK: %res1 = udiv i8 %x1, %x1
%res1 = udiv i8 %x1, %x1
; CHECK-NEXT: %res2 = udiv exact i8 %x1, %x1
%res2 = udiv exact i8 %x1, %x1
ret void
}
define void @sdiv(i8 %x1){
entry:
; CHECK: %res1 = sdiv i8 %x1, %x1
%res1 = sdiv i8 %x1, %x1
; CHECK-NEXT: %res2 = sdiv exact i8 %x1, %x1
%res2 = sdiv exact i8 %x1, %x1
ret void
}
define void @urem(i32 %x1){
entry:
; CHECK: %res1 = urem i32 %x1, %x1
%res1 = urem i32 %x1, %x1
ret void
}
define void @srem(i32 %x1){
entry:
; CHECK: %res1 = srem i32 %x1, %x1
%res1 = srem i32 %x1, %x1
ret void
}

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; RUN: llvm-dis < %s.bc| FileCheck %s
; bitwiseOperations.3.2.ll.bc was generated by passing this file to llvm-as-3.2.
; The test checks that LLVM does not misread bitwise instructions from
; older bitcode files.
define void @shl(i8 %x1){
entry:
; CHECK: %res1 = shl i8 %x1, %x1
%res1 = shl i8 %x1, %x1
; CHECK: %res2 = shl nuw i8 %x1, %x1
%res2 = shl nuw i8 %x1, %x1
; CHECK: %res3 = shl nsw i8 %x1, %x1
%res3 = shl nsw i8 %x1, %x1
; CHECK: %res4 = shl nuw nsw i8 %x1, %x1
%res4 = shl nuw nsw i8 %x1, %x1
ret void
}
define void @lshr(i8 %x1){
entry:
; CHECK: %res1 = lshr i8 %x1, %x1
%res1 = lshr i8 %x1, %x1
; CHECK: %res2 = lshr exact i8 %x1, %x1
%res2 = lshr exact i8 %x1, %x1
ret void
}
define void @ashr(i8 %x1){
entry:
; CHECK: %res1 = ashr i8 %x1, %x1
%res1 = ashr i8 %x1, %x1
; CHECK-NEXT: %res2 = ashr exact i8 %x1, %x1
%res2 = ashr exact i8 %x1, %x1
ret void
}
define void @and(i8 %x1){
entry:
; CHECK: %res1 = and i8 %x1, %x1
%res1 = and i8 %x1, %x1
ret void
}
define void @or(i8 %x1){
entry:
; CHECK: %res1 = or i8 %x1, %x1
%res1 = or i8 %x1, %x1
ret void
}
define void @xor(i8 %x1){
entry:
; CHECK: %res1 = xor i8 %x1, %x1
%res1 = xor i8 %x1, %x1
ret void
}

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; RUN: llvm-dis < %s.bc| FileCheck %s
; conversionOperations.3.2.ll.bc was generated by passing this file to llvm-as-3.2.
; The test checks that LLVM does not misread conversion instructions from
; older bitcode files.
define void @trunc(i32 %src){
entry:
; CHECK: %res1 = trunc i32 %src to i8
%res1 = trunc i32 %src to i8
ret void
}
define void @zext(i32 %src){
entry:
; CHECK: %res1 = zext i32 %src to i64
%res1 = zext i32 %src to i64
ret void
}
define void @sext(i32 %src){
entry:
; CHECK: %res1 = sext i32 %src to i64
%res1 = sext i32 %src to i64
ret void
}
define void @fptrunc(double %src){
entry:
; CHECK: %res1 = fptrunc double %src to float
%res1 = fptrunc double %src to float
ret void
}
define void @fpext(float %src){
entry:
; CHECK: %res1 = fpext float %src to double
%res1 = fpext float %src to double
ret void
}
define void @fptoui(float %src){
entry:
; CHECK: %res1 = fptoui float %src to i32
%res1 = fptoui float %src to i32
ret void
}
define void @fptosi(float %src){
entry:
; CHECK: %res1 = fptosi float %src to i32
%res1 = fptosi float %src to i32
ret void
}
define void @uitofp(i32 %src){
entry:
; CHECK: %res1 = uitofp i32 %src to float
%res1 = uitofp i32 %src to float
ret void
}
define void @sitofp(i32 %src){
entry:
; CHECK: %res1 = sitofp i32 %src to float
%res1 = sitofp i32 %src to float
ret void
}
define void @ptrtoint(i32* %src){
entry:
; CHECK: %res1 = ptrtoint i32* %src to i8
%res1 = ptrtoint i32* %src to i8
ret void
}
define void @inttoptr(i32 %src){
entry:
; CHECK: %res1 = inttoptr i32 %src to i32*
%res1 = inttoptr i32 %src to i32*
ret void
}
define void @bitcast(i32 %src1, i32* %src2){
entry:
; CHECK: %res1 = bitcast i32 %src1 to i32
%res1 = bitcast i32 %src1 to i32
; CHECK: %res2 = bitcast i32* %src2 to i64*
%res2 = bitcast i32* %src2 to i64*
ret void
}

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; RUN: llvm-dis < %s.bc| FileCheck %s
; TerminatorOperations.3.2.ll.bc was generated by passing this file to llvm-as-3.2.
; The test checks that LLVM does not misread terminator instructions from
; older bitcode files.
define i32 @condbr(i1 %cond){
entry:
; CHECK: br i1 %cond, label %TrueLabel, label %FalseLabel
br i1 %cond, label %TrueLabel, label %FalseLabel
TrueLabel:
ret i32 1
FalseLabel:
ret i32 0
}
define i32 @uncondbr(){
entry:
; CHECK: br label %uncondLabel
br label %uncondLabel
uncondLabel:
ret i32 1
}
define i32 @indirectbr(i8* %Addr){
entry:
; CHECK: indirectbr i8* %Addr, [label %bb1, label %bb2]
indirectbr i8* %Addr, [ label %bb1, label %bb2 ]
bb1:
ret i32 1
bb2:
ret i32 0
}
define void @unreachable(){
entry:
; CHECK: unreachable
unreachable
ret void
}

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; RUN: llvm-dis < %s.bc| FileCheck %s
; vectorOperations.3.2.ll.bc was generated by passing this file to llvm-as-3.2.
; The test checks that LLVM does not misread vector operations of
; older bitcode files.
define void @extractelement(<2 x i8> %x1){
entry:
; CHECK: %res1 = extractelement <2 x i8> %x1, i32 0
%res1 = extractelement <2 x i8> %x1, i32 0
ret void
}
define void @insertelement(<2 x i8> %x1){
entry:
; CHECK: %res1 = insertelement <2 x i8> %x1, i8 0, i32 0
%res1 = insertelement <2 x i8> %x1, i8 0, i32 0
ret void
}
define void @shufflevector(<2 x i8> %x1){
entry:
; CHECK: %res1 = shufflevector <2 x i8> %x1, <2 x i8> %x1, <2 x i32> <i32 0, i32 1>
%res1 = shufflevector <2 x i8> %x1, <2 x i8> %x1, <2 x i32> <i32 0, i32 1>
; CHECK-NEXT: %res2 = shufflevector <2 x i8> %x1, <2 x i8> undef, <2 x i32> <i32 0, i32 1>
%res2 = shufflevector <2 x i8> %x1, <2 x i8> undef, <2 x i32> <i32 0, i32 1>
ret void
}

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