[TableGen] Allow identical MnemonicAliases with no predicate

My use case for this is illustrated in the test case: I want to define
the same instruction twice with different (disjoint) predicates, because
the instruction has different operands on different subtargets. It's
convenient to do this with a multiclass that also defines an alias for
the instruction.

Previously tablegen would complain if this alias was defined twice with
no predicate. One way to fix this would be to add a predicate on each
definition of the alias, matching the predicate on the instruction. But
this (a) is slightly awkward to do in the real world use case I had, and
(b) leads to an inefficient matcher that will do something like this:

  if (Mnemonic == "foo_alias") {
    if (Features.test(Feature_Subtarget1Bit))
      Mnemonic == "foo";
    else if (Features.test(Feature_Subtarget2Bit))
      Mnemonic == "foo";
    return;
  }

It would be more efficient to skip the feature tests and return "foo"
unconditionally.

Overall it seems better to allow multiple definitions of the identical
alias with no predicate.

Differential Revision: https://reviews.llvm.org/D105033
This commit is contained in:
Jay Foad 2021-06-25 17:08:36 +01:00
parent c818cb96ad
commit 2da58826a5
2 changed files with 49 additions and 4 deletions

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@ -0,0 +1,41 @@
// RUN: llvm-tblgen -gen-asm-matcher -I %p/../../include %s | FileCheck %s
include "llvm/Target/Target.td"
def ArchInstrInfo : InstrInfo { }
def Arch : Target {
let InstructionSet = ArchInstrInfo;
}
def Reg : Register<"reg">;
def RegClass : RegisterClass<"foo", [i32], 0, (add Reg)>;
def AsmCond1 : SubtargetFeature<"cond1", "cond1", "true", "">;
def AsmCond2 : SubtargetFeature<"cond2", "cond2", "true", "">;
def Subtarget1 : Predicate<"Pred1">, AssemblerPredicate<(all_of AsmCond1)>;
def Subtarget2 : Predicate<"Pred2">, AssemblerPredicate<(all_of AsmCond2)>;
multiclass DefInstruction<string name, dag outs, dag ins, Predicate pred> {
def "" : Instruction {
let Size = 2;
let OutOperandList = outs;
let InOperandList = ins;
let AsmString = name;
let Predicates = [pred];
}
def : MnemonicAlias<name # "_alias", name>;
}
defm FooInst1 : DefInstruction<"foo", (outs), (ins), Subtarget1>;
defm FooInst2 : DefInstruction<"foo", (outs), (ins), Subtarget2>;
// Check that applyMnemonicAliases maps "foo_alias" to "foo" once only and
// without checking any predicates.
// CHECK: if (memcmp(Mnemonic.data()+0, "foo_alias", 9) != 0)
// CHECK-NEXT: break;
// CHECK-NEXT: Mnemonic = "foo"; // "foo_alias"
// CHECK-NEXT: return;

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@ -2749,10 +2749,14 @@ static void emitMnemonicAliasVariant(raw_ostream &OS,const AsmMatcherInfo &Info,
// If this unconditionally matches, remember it for later and diagnose
// duplicates.
if (FeatureMask.empty()) {
if (AliasWithNoPredicate != -1) {
// We can't have two aliases from the same mnemonic with no predicate.
PrintError(ToVec[AliasWithNoPredicate]->getLoc(),
"two MnemonicAliases with the same 'from' mnemonic!");
if (AliasWithNoPredicate != -1 &&
R->getValueAsString("ToMnemonic") !=
ToVec[AliasWithNoPredicate]->getValueAsString("ToMnemonic")) {
// We can't have two different aliases from the same mnemonic with no
// predicate.
PrintError(
ToVec[AliasWithNoPredicate]->getLoc(),
"two different MnemonicAliases with the same 'from' mnemonic!");
PrintFatalError(R->getLoc(), "this is the other MnemonicAlias.");
}