include "llvm/TableGen/Automaton.td" include "llvm/TableGen/SearchableTable.td" // Define a set of input token symbols. class SymKindTy; def SK_a : SymKindTy; def SK_b : SymKindTy; def SK_c : SymKindTy; def SK_d : SymKindTy; // Emit those as a C++ enum using SearchableTables. def SymKind : GenericEnum { let FilterClass = "SymKindTy"; } // Define a transition implementation. class SimpleTransition<bits<2> State, SymKindTy A> : Transition { let NewState{1...0} = State; SymKindTy ActionSym = A; } // Token SK_a sets bit 0b01. def : SimpleTransition<0b01, SK_a>; // Token SK_b sets bits 0b10. def : SimpleTransition<0b10, SK_b>; // Token SK_c sets both bits 0b11. def : SimpleTransition<0b11, SK_c>; def SimpleAutomaton : GenericAutomaton { let TransitionClass = "SimpleTransition"; let SymbolFields = ["ActionSym"]; // Override the type of ActionSym from SymKindTy to the C++ type SymKind. string TypeOf_ActionSym = "SymKind"; } //===----------------------------------------------------------------------===// // TupleActionAutomaton test implementation // Define a transition implementation. class TupleTransition<bits<2> State, SymKindTy s1, SymKindTy s2, string s3> : Transition { let NewState{1...0} = State; SymKindTy S1 = s1; SymKindTy S2 = s2; string S3 = s3; } def : TupleTransition<0b01, SK_a, SK_b, "yeet">; def : TupleTransition<0b10, SK_b, SK_b, "foo">; def : TupleTransition<0b10, SK_c, SK_a, "foo">; def TupleAutomaton : GenericAutomaton { let TransitionClass = "TupleTransition"; let SymbolFields = ["S1", "S2", "S3"]; string TypeOf_S1 = "SymKind"; string TypeOf_S2 = "SymKind"; } //===----------------------------------------------------------------------===// // NfaAutomaton test implementation class NfaTransition<bits<2> State, SymKindTy S> : Transition { let NewState{1...0} = State; SymKindTy A = S; } // Symbols a and b can transition to 0b01 or 0b11 (sets bit 0). def : NfaTransition<0b01, SK_a>; def : NfaTransition<0b01, SK_b>; // Symbols a and b can also transition to 0b10 or 0b11 (sets bit 1). def : NfaTransition<0b10, SK_a>; def : NfaTransition<0b10, SK_b>; def NfaAutomaton : GenericAutomaton { let TransitionClass = "NfaTransition"; let SymbolFields = ["A"]; string TypeOf_A = "SymKind"; } //===----------------------------------------------------------------------===// // BinPacker test implementation //===----------------------------------------------------------------------===// // This test generates an automaton that can pack values into bins subject to // constraints. There are 6 possible bins, and the input tokens are constraint // types. Some input types span two bins. // The symbol type for a bin constraint. We use lists of ints as a tblgen hack // to conditionally generate defs within multiclasses based on record // information. A bin is nonempty (has a dummy one-element value) if enabled. class BinRequirementKind { list<int> Bin0 = []; list<int> Bin1 = []; list<int> Bin2 = []; list<int> Bin3 = []; list<int> Bin4 = []; list<int> Bin5 = []; } // Can use bins {0-3} def BRK_0_to_4 : BinRequirementKind { let Bin0 = [1]; let Bin1 = [1]; let Bin2 = [1]; let Bin3 = [1]; } // Can use bins {0-3} but only evens (0 and 2). def BRK_0_to_4_lo : BinRequirementKind { let Bin0 = [1]; let Bin2 = [1]; } // Can use bins {0-3} but only odds (1 and 3). def BRK_0_to_4_hi : BinRequirementKind { let Bin1 = [1]; let Bin3 = [1]; } // Can use bins {0-3} but only even-odd pairs (0+1 or 1+2). def BRK_0_to_4_dbl : BinRequirementKind { let Bin0 = [1]; let Bin2 = [1]; } def BRK_0_to_6 : BinRequirementKind { let Bin0 = [1]; let Bin1 = [1]; let Bin2 = [1]; let Bin3 = [1]; let Bin4 = [1]; let Bin5 = [1]; } def BRK_0_to_6_lo : BinRequirementKind { let Bin0 = [1]; let Bin2 = [1]; let Bin4 = [1]; } def BRK_0_to_6_hi : BinRequirementKind { let Bin1 = [1]; let Bin3 = [1]; let Bin5 = [1]; } def BRK_0_to_6_dbl : BinRequirementKind { let Bin0 = [1]; let Bin2 = [1]; let Bin4 = [1]; } def BRK_2_to_6 : BinRequirementKind { let Bin2 = [1]; let Bin3 = [1]; let Bin4 = [1]; let Bin5 = [1]; } def BRK_2_to_6_lo : BinRequirementKind { let Bin2 = [1]; let Bin4 = [1]; } def BRK_2_to_6_hi : BinRequirementKind { let Bin3 = [1]; let Bin5 = [1];} def BRK_2_to_6_dbl : BinRequirementKind { let Bin2 = [1]; let Bin4 = [1]; } def BRK_2_to_4 : BinRequirementKind { let Bin2 = [1]; let Bin3 = [1]; } def BRK_2_to_4_lo : BinRequirementKind { let Bin2 = [1]; } def BRK_2_to_4_hi : BinRequirementKind { let Bin3 = [1]; } def BRK_2_to_4_dbl : BinRequirementKind { let Bin2 = [1]; } def BinRequirementKindEnum : GenericEnum { let FilterClass = "BinRequirementKind"; } // The transition class is trivial; it just contains the constraint symbol. class BinTransition : Transition { BinRequirementKind Sym; } // Mixin that occupies a single bin. class Bin0 : BinTransition { let NewState{0} = 1; } class Bin1 : BinTransition { let NewState{1} = 1; } class Bin2 : BinTransition { let NewState{2} = 1;} class Bin3 : BinTransition { let NewState{3} = 1; } class Bin4 : BinTransition { let NewState{4} = 1;} class Bin5 : BinTransition { let NewState{5} = 1; } // Mixin that occupies a pair of bins (even-odd pairs). class Bin01 : BinTransition { let NewState{0,1} = 0b11; } class Bin23 : BinTransition { let NewState{2,3} = 0b11; } class Bin45 : BinTransition { let NewState{4,5} = 0b11; } // Instantiate all possible bin assignments for E. multiclass BinAssignments<BinRequirementKind E> { let Sym = E in { // Note the tablegen hack to conditionally instantiate a def based on E. foreach x = E.Bin0 in { def : Bin0; } foreach x = E.Bin1 in { def : Bin1; } foreach x = E.Bin2 in { def : Bin2; } foreach x = E.Bin3 in { def : Bin3; } foreach x = E.Bin4 in { def : Bin4; } foreach x = E.Bin5 in { def : Bin5; } } } // Instantiate all possible bin assignments for E, which spans even-odd pairs. multiclass DblBinAssignments<BinRequirementKind E> { let Sym = E in { foreach x = E.Bin0 in { def : Bin01; } foreach x = E.Bin2 in { def : Bin23; } foreach x = E.Bin4 in { def : Bin45; } } } defm : BinAssignments<BRK_0_to_4>; defm : DblBinAssignments<BRK_0_to_4_dbl>; defm : BinAssignments<BRK_0_to_4_lo>; defm : BinAssignments<BRK_0_to_4_hi>; defm : BinAssignments<BRK_0_to_6>; defm : DblBinAssignments<BRK_0_to_6_dbl>; defm : BinAssignments<BRK_0_to_6_lo>; defm : BinAssignments<BRK_0_to_6_hi>; defm : BinAssignments<BRK_2_to_6>; defm : DblBinAssignments<BRK_2_to_6_dbl>; defm : BinAssignments<BRK_2_to_6_lo>; defm : BinAssignments<BRK_2_to_6_hi>; defm : BinAssignments<BRK_2_to_4>; defm : DblBinAssignments<BRK_2_to_4_dbl>; defm : BinAssignments<BRK_2_to_4_lo>; defm : BinAssignments<BRK_2_to_4_hi>; def BinPackerAutomaton : GenericAutomaton { let TransitionClass = "BinTransition"; let SymbolFields = ["Sym"]; string TypeOf_Sym = "BinRequirementKindEnum"; }