//===----------------------------------------------------------------------===//
// Include all information about LLVM intrinsics.
-include "llvm/Intrinsics.td"
+include "llvm/IR/Intrinsics.td"
//===----------------------------------------------------------------------===//
// Register file description - These classes are used to fill in the target
class RegisterClass; // Forward def
// SubRegIndex - Use instances of SubRegIndex to identify subregisters.
-class SubRegIndex<list<SubRegIndex> comps = []> {
+class SubRegIndex<int size, int offset = 0> {
string Namespace = "";
+ // Size - Size (in bits) of the sub-registers represented by this index.
+ int Size = size;
+
+ // Offset - Offset of the first bit that is part of this sub-register index.
+ // Set it to -1 if the same index is used to represent sub-registers that can
+ // be at different offsets (for example when using an index to access an
+ // element in a register tuple).
+ int Offset = offset;
+
// ComposedOf - A list of two SubRegIndex instances, [A, B].
// This indicates that this SubRegIndex is the result of composing A and B.
- list<SubRegIndex> ComposedOf = comps;
+ // See ComposedSubRegIndex.
+ list<SubRegIndex> ComposedOf = [];
+
+ // CoveringSubRegIndices - A list of two or more sub-register indexes that
+ // cover this sub-register.
+ //
+ // This field should normally be left blank as TableGen can infer it.
+ //
+ // TableGen automatically detects sub-registers that straddle the registers
+ // in the SubRegs field of a Register definition. For example:
+ //
+ // Q0 = dsub_0 -> D0, dsub_1 -> D1
+ // Q1 = dsub_0 -> D2, dsub_1 -> D3
+ // D1_D2 = dsub_0 -> D1, dsub_1 -> D2
+ // QQ0 = qsub_0 -> Q0, qsub_1 -> Q1
+ //
+ // TableGen will infer that D1_D2 is a sub-register of QQ0. It will be given
+ // the synthetic index dsub_1_dsub_2 unless some SubRegIndex is defined with
+ // CoveringSubRegIndices = [dsub_1, dsub_2].
+ list<SubRegIndex> CoveringSubRegIndices = [];
+}
+
+// ComposedSubRegIndex - A sub-register that is the result of composing A and B.
+// Offset is set to the sum of A and B's Offsets. Size is set to B's Size.
+class ComposedSubRegIndex<SubRegIndex A, SubRegIndex B>
+ : SubRegIndex<B.Size, !if(!eq(A.Offset, -1), -1,
+ !if(!eq(B.Offset, -1), -1,
+ !add(A.Offset, B.Offset)))> {
+ // See SubRegIndex.
+ let ComposedOf = [A, B];
}
// RegAltNameIndex - The alternate name set to use for register operands of
bit isCompare = 0; // Is this instruction a comparison instruction?
bit isMoveImm = 0; // Is this instruction a move immediate instruction?
bit isBitcast = 0; // Is this instruction a bitcast instruction?
+ bit isSelect = 0; // Is this instruction a select instruction?
bit isBarrier = 0; // Can control flow fall through this instruction?
bit isCall = 0; // Is this instruction a call instruction?
bit canFoldAsLoad = 0; // Can this be folded as a simple memory operand?
- bit mayLoad = 0; // Is it possible for this inst to read memory?
- bit mayStore = 0; // Is it possible for this inst to write memory?
+ bit mayLoad = ?; // Is it possible for this inst to read memory?
+ bit mayStore = ?; // Is it possible for this inst to write memory?
bit isConvertibleToThreeAddress = 0; // Can this 2-addr instruction promote?
bit isCommutable = 0; // Is this 3 operand instruction commutable?
bit isTerminator = 0; // Is this part of the terminator for a basic block?
// hasSideEffects - The instruction has side effects that are not
// captured by any operands of the instruction or other flags.
//
- // neverHasSideEffects - Set on an instruction with no pattern if it has no
- // side effects.
- bit hasSideEffects = 0;
+ // neverHasSideEffects (deprecated) - Set on an instruction with no pattern
+ // if it has no side effects. This is now equivalent to setting
+ // "hasSideEffects = 0".
+ bit hasSideEffects = ?;
bit neverHasSideEffects = 0;
// Is this instruction a "real" instruction (with a distinct machine
InstrItinClass Itinerary = NoItinerary;// Execution steps used for scheduling.
+ // Scheduling information from TargetSchedule.td.
+ list<SchedReadWrite> SchedRW;
+
string Constraints = ""; // OperandConstraint, e.g. $src = $dst.
/// DisableEncoding - List of operand names (e.g. "$op1,$op2") that should not
string TwoOperandAliasConstraint = "";
///@}
+
+ /// UseNamedOperandTable - If set, the operand indices of this instruction
+ /// can be queried via the getNamedOperandIdx() function which is generated
+ /// by TableGen.
+ bit UseNamedOperandTable = 0;
}
/// PseudoInstExpansion - Expansion information for a pseudo-instruction.
/// unknown definition - Mark this operand as being of unknown type, causing
/// it to be resolved by inference in the context it is used.
-def unknown;
+class unknown_class;
+def unknown : unknown_class;
/// AsmOperandClass - Representation for the kinds of operands which the target
/// specific parser can create and the assembly matcher may need to distinguish.
///
def zero_reg;
+/// All operands which the MC layer classifies as predicates should inherit from
+/// this class in some manner. This is already handled for the most commonly
+/// used PredicateOperand, but may be useful in other circumstances.
+class PredicateOp;
+
+/// OperandWithDefaultOps - This Operand class can be used as the parent class
+/// for an Operand that needs to be initialized with a default value if
+/// no value is supplied in a pattern. This class can be used to simplify the
+/// pattern definitions for instructions that have target specific flags
+/// encoded as immediate operands.
+class OperandWithDefaultOps<ValueType ty, dag defaultops>
+ : Operand<ty> {
+ dag DefaultOps = defaultops;
+}
+
/// PredicateOperand - This can be used to define a predicate operand for an
/// instruction. OpTypes specifies the MIOperandInfo for the operand, and
/// AlwaysVal specifies the value of this predicate when set to "always
/// execute".
class PredicateOperand<ValueType ty, dag OpTypes, dag AlwaysVal>
- : Operand<ty> {
+ : OperandWithDefaultOps<ty, AlwaysVal>, PredicateOp {
let MIOperandInfo = OpTypes;
- dag DefaultOps = AlwaysVal;
}
/// OptionalDefOperand - This is used to define a optional definition operand
/// for an instruction. DefaultOps is the register the operand represents if
/// none is supplied, e.g. zero_reg.
class OptionalDefOperand<ValueType ty, dag OpTypes, dag defaultops>
- : Operand<ty> {
+ : OperandWithDefaultOps<ty, defaultops> {
let MIOperandInfo = OpTypes;
- dag DefaultOps = defaultops;
}
// Sparc manual specifies its instructions in the format [31..0] (big), while
// PowerPC specifies them using the format [0..31] (little).
bit isLittleEndianEncoding = 0;
+
+ // The instruction properties mayLoad, mayStore, and hasSideEffects are unset
+ // by default, and TableGen will infer their value from the instruction
+ // pattern when possible.
+ //
+ // Normally, TableGen will issue an error it it can't infer the value of a
+ // property that hasn't been set explicitly. When guessInstructionProperties
+ // is set, it will guess a safe value instead.
+ //
+ // This option is a temporary migration help. It will go away.
+ bit guessInstructionProperties = 1;
}
// Standard Pseudo Instructions.
let InOperandList = (ins variable_ops);
let AsmString = "BUNDLE";
}
+def LIFETIME_START : Instruction {
+ let OutOperandList = (outs);
+ let InOperandList = (ins i32imm:$id);
+ let AsmString = "LIFETIME_START";
+ let neverHasSideEffects = 1;
+}
+def LIFETIME_END : Instruction {
+ let OutOperandList = (outs);
+ let InOperandList = (ins i32imm:$id);
+ let AsmString = "LIFETIME_END";
+ let neverHasSideEffects = 1;
+}
+def STACKMAP : Instruction {
+ let OutOperandList = (outs);
+ let InOperandList = (ins i32imm:$id, i32imm:$nbytes, variable_ops);
+ let isCall = 1;
+ let mayLoad = 1;
+}
+def PATCHPOINT : Instruction {
+ let OutOperandList = (outs unknown:$dst);
+ let InOperandList = (ins i32imm:$id, i32imm:$nbytes, unknown:$callee,
+ i32imm:$nargs, i32imm:$cc, variable_ops);
+ let isCall = 1;
+ let mayLoad = 1;
+}
}
//===----------------------------------------------------------------------===//
// function of the AsmParser class to call on every matched instruction.
// This can be used to perform target specific instruction post-processing.
string AsmParserInstCleanup = "";
+
+ // ShouldEmitMatchRegisterName - Set to false if the target needs a hand
+ // written register name matcher
+ bit ShouldEmitMatchRegisterName = 1;
+
+ /// Does the instruction mnemonic allow '.'
+ bit MnemonicContainsDot = 0;
}
def DefaultAsmParser : AsmParser;
// assembly language.
int Variant = 0;
+ // Name - The AsmParser variant name (e.g., AT&T vs Intel).
+ string Name = "";
+
// CommentDelimiter - If given, the delimiter string used to recognize
// comments which are hard coded in the .td assembler strings for individual
// instructions.
/// def : MnemonicAlias<"pushf", "pushfq">, Requires<[In64BitMode]>;
/// def : MnemonicAlias<"pushf", "pushfl">, Requires<[In32BitMode]>;
///
-class MnemonicAlias<string From, string To> {
+/// Mnemonic aliases can also be constrained to specific variants, e.g.:
+///
+/// def : MnemonicAlias<"pushf", "pushfq", "att">, Requires<[In64BitMode]>;
+///
+/// If no variant (e.g., "att" or "intel") is specified then the alias is
+/// applied unconditionally.
+class MnemonicAlias<string From, string To, string VariantName = ""> {
string FromMnemonic = From;
string ToMnemonic = To;
+ string AsmVariantName = VariantName;
// Predicates - Predicates that must be true for this remapping to happen.
list<Predicate> Predicates = [];
list<SubtargetFeature> Implies = i;
}
+/// Specifies a Subtarget feature that this instruction is deprecated on.
+class Deprecated<SubtargetFeature dep> {
+ SubtargetFeature DeprecatedFeatureMask = dep;
+}
+
+/// A custom predicate used to determine if an instruction is
+/// deprecated or not.
+class ComplexDeprecationPredicate<string dep> {
+ string ComplexDeprecationPredicate = dep;
+}
+
//===----------------------------------------------------------------------===//
// Processor chip sets - These values represent each of the chip sets supported
// by the scheduler. Each Processor definition requires corresponding
// ProcessorModel allows subtargets to specify the more general
// SchedMachineModel instead if a ProcessorItinerary. Subtargets will
// gradually move to this newer form.
+//
+// Although this class always passes NoItineraries to the Processor
+// class, the SchedMachineModel may still define valid Itineraries.
class ProcessorModel<string n, SchedMachineModel m, list<SubtargetFeature> f>
: Processor<n, NoItineraries, f> {
let SchedModel = m;
}
+//===----------------------------------------------------------------------===//
+// InstrMapping - This class is used to create mapping tables to relate
+// instructions with each other based on the values specified in RowFields,
+// ColFields, KeyCol and ValueCols.
+//
+class InstrMapping {
+ // FilterClass - Used to limit search space only to the instructions that
+ // define the relationship modeled by this InstrMapping record.
+ string FilterClass;
+
+ // RowFields - List of fields/attributes that should be same for all the
+ // instructions in a row of the relation table. Think of this as a set of
+ // properties shared by all the instructions related by this relationship
+ // model and is used to categorize instructions into subgroups. For instance,
+ // if we want to define a relation that maps 'Add' instruction to its
+ // predicated forms, we can define RowFields like this:
+ //
+ // let RowFields = BaseOp
+ // All add instruction predicated/non-predicated will have to set their BaseOp
+ // to the same value.
+ //
+ // def Add: { let BaseOp = 'ADD'; let predSense = 'nopred' }
+ // def Add_predtrue: { let BaseOp = 'ADD'; let predSense = 'true' }
+ // def Add_predfalse: { let BaseOp = 'ADD'; let predSense = 'false' }
+ list<string> RowFields = [];
+
+ // List of fields/attributes that are same for all the instructions
+ // in a column of the relation table.
+ // Ex: let ColFields = 'predSense' -- It means that the columns are arranged
+ // based on the 'predSense' values. All the instruction in a specific
+ // column have the same value and it is fixed for the column according
+ // to the values set in 'ValueCols'.
+ list<string> ColFields = [];
+
+ // Values for the fields/attributes listed in 'ColFields'.
+ // Ex: let KeyCol = 'nopred' -- It means that the key instruction (instruction
+ // that models this relation) should be non-predicated.
+ // In the example above, 'Add' is the key instruction.
+ list<string> KeyCol = [];
+
+ // List of values for the fields/attributes listed in 'ColFields', one for
+ // each column in the relation table.
+ //
+ // Ex: let ValueCols = [['true'],['false']] -- It adds two columns in the
+ // table. First column requires all the instructions to have predSense
+ // set to 'true' and second column requires it to be 'false'.
+ list<list<string> > ValueCols = [];
+}
+
//===----------------------------------------------------------------------===//
// Pull in the common support for calling conventions.
//
projects / oota-llvm.git / blobdiff