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llvm-mirror/test/TableGen/cast.td
Chandler Carruth 8a358b3669 Convert all tests using TCL-style quoting to use shell-style quoting.
This was done through the aid of a terrible Perl creation. I will not
paste any of the horrors here. Suffice to say, it require multiple
staged rounds of replacements, state carried between, and a few
nested-construct-parsing hacks that I'm not proud of. It happens, by
luck, to be able to deal with all the TCL-quoting patterns in evidence
in the LLVM test suite.

If anyone is maintaining large out-of-tree test trees, feel free to poke
me and I'll send you the steps I used to convert things, as well as
answer any painful questions etc. IRC works best for this type of thing
I find.

Once converted, switch the LLVM lit config to use ShTests the same as
Clang. In addition to being able to delete large amounts of Python code
from 'lit', this will also simplify the entire test suite and some of
lit's architecture.

Finally, the test suite runs 33% faster on Linux now. ;]
For my 16-hardware-thread (2x 4-core xeon e5520): 36s -> 24s

llvm-svn: 159525
2012-07-02 12:47:22 +00:00

92 lines
2.7 KiB
TableGen

// RUN: llvm-tblgen %s | grep "add_ps" | count 3
// XFAIL: vg_leak
class ValueType<int size, int value> {
int Size = size;
int Value = value;
}
def v2i64 : ValueType<128, 22>; // 2 x i64 vector value
def v2f64 : ValueType<128, 28>; // 2 x f64 vector value
class Intrinsic<string name> {
string Name = name;
}
class Inst<bits<8> opcode, dag oopnds, dag iopnds, string asmstr,
list<dag> pattern> {
bits<8> Opcode = opcode;
dag OutOperands = oopnds;
dag InOperands = iopnds;
string AssemblyString = asmstr;
list<dag> Pattern = pattern;
}
def ops;
def outs;
def ins;
def set;
// Define registers
class Register<string n> {
string Name = n;
}
class RegisterClass<list<ValueType> regTypes, list<Register> regList> {
list<ValueType> RegTypes = regTypes;
list<Register> MemberList = regList;
}
def XMM0: Register<"xmm0">;
def XMM1: Register<"xmm1">;
def XMM2: Register<"xmm2">;
def XMM3: Register<"xmm3">;
def XMM4: Register<"xmm4">;
def XMM5: Register<"xmm5">;
def XMM6: Register<"xmm6">;
def XMM7: Register<"xmm7">;
def XMM8: Register<"xmm8">;
def XMM9: Register<"xmm9">;
def XMM10: Register<"xmm10">;
def XMM11: Register<"xmm11">;
def XMM12: Register<"xmm12">;
def XMM13: Register<"xmm13">;
def XMM14: Register<"xmm14">;
def XMM15: Register<"xmm15">;
def VR128 : RegisterClass<[v2i64, v2f64],
[XMM0, XMM1, XMM2, XMM3, XMM4, XMM5, XMM6, XMM7,
XMM8, XMM9, XMM10, XMM11,
XMM12, XMM13, XMM14, XMM15]>;
// Define intrinsics
def int_x86_sse2_add_ps : Intrinsic<"addps">;
def int_x86_sse2_add_pd : Intrinsic<"addpd">;
multiclass arith<bits<8> opcode, string asmstr, string Intr> {
def PS : Inst<opcode, (outs VR128:$dst), (ins VR128:$src1, VR128:$src2),
!strconcat(asmstr, "\t$dst, $src1, $src2"),
[(set VR128:$dst, (!cast<Intrinsic>(!strconcat(Intr, "_ps")) VR128:$src1, VR128:$src2))]>;
def PD : Inst<opcode, (outs VR128:$dst), (ins VR128:$src1, VR128:$src2),
!strconcat(asmstr, "\t$dst, $src1, $src2"),
[(set VR128:$dst, (!cast<Intrinsic>(!strconcat(Intr, "_pd")) VR128:$src1, VR128:$src2))]>;
}
defm ADD : arith<0x58, "add", "int_x86_sse2_add">;
class IntInst<bits<8> opcode, string asmstr, Intrinsic Intr> :
Inst<opcode,(outs VR128:$dst), (ins VR128:$src1, VR128:$src2),
!strconcat(asmstr, "\t$dst, $src1, $src2"),
[(set VR128:$dst, (Intr VR128:$src1, VR128:$src2))]>;
multiclass arith_int<bits<8> opcode, string asmstr, string Intr> {
def PS_Int : IntInst<opcode, asmstr, !cast<Intrinsic>(!strconcat(Intr, "_ps"))>;
def PD_Int : IntInst<opcode, asmstr, !cast<Intrinsic>(!strconcat(Intr, "_pd"))>;
}
defm ADD : arith_int<0x58, "add", "int_x86_sse2_add">;