-//===- Target.td - Target Independent TableGen interface --------*- C++ -*-===//
+//===- Target.td - Target Independent TableGen interface ---*- tablegen -*-===//
+//
+// The LLVM Compiler Infrastructure
+//
+// This file was developed by the LLVM research group and is distributed under
+// the University of Illinois Open Source License. See LICENSE.TXT for details.
+//
+//===----------------------------------------------------------------------===//
//
// This file defines the target-independent interfaces which should be
// implemented by each target which is using a TableGen based code generator.
int Value = value;
}
+def OtherVT: ValueType<0 , 0>; // "Other" value
def i1 : ValueType<1 , 1>; // One bit boolean value
def i8 : ValueType<8 , 2>; // 8-bit integer value
def i16 : ValueType<16 , 3>; // 16-bit integer value
// Methods - This member can be used to insert arbitrary code into a generated
// register class. The normal usage of this is to overload virtual methods.
code Methods = [{}];
+
+ // isDummyClass - If this is set to true, this register class is not really
+ // part of the target, it is just used for other purposes.
+ bit isDummyClass = 0;
}
// Instruction set description - These classes correspond to the C++ classes in
// the Target/TargetInstrInfo.h file.
//
-
class Instruction {
- string Name; // The opcode string for this instruction
+ string Name = ""; // The opcode string for this instruction
string Namespace = "";
+ string ClassPrefix = "";
+
+ dag OperandList; // An dag containing the MI operand list.
+ string AsmString = ""; // The .s format to print the instruction with.
+
+ // Pattern - Set to the DAG pattern for this instruction, if we know of one,
+ // otherwise, uninitialized.
+ list<dag> Pattern;
- list<Register> Uses = []; // Default to using no non-operand registers
- list<Register> Defs = []; // Default to modifying no non-operand registers
+ // The follow state will eventually be inferred automatically from the
+ // instruction pattern.
+
+ list<Register> Uses = []; // Default to using no non-operand registers
+ list<Register> Defs = []; // Default to modifying no non-operand registers
// These bits capture information about the high-level semantics of the
// instruction.
bit isReturn = 0; // Is this instruction a return instruction?
bit isBranch = 0; // Is this instruction a branch instruction?
+ bit isBarrier = 0; // Can control flow fall through this instruction?
bit isCall = 0; // Is this instruction a call instruction?
bit isTwoAddress = 0; // Is this a two address instruction?
bit isTerminator = 0; // Is this part of the terminator for a basic block?
-
- // Pattern - Set to the DAG pattern for this instruction, if we know of one,
- // otherwise, uninitialized.
- dag Pattern;
-}
-
-class Expander<dag pattern, list<dag> result> {
- dag Pattern = pattern;
- list<dag> Result = result;
}
list<int> TSFlagsShifts = [];
}
+/// ops definition - This is just a simple marker used to identify the operands
+/// list for an instruction. This should be used like this:
+/// (ops R32:$dst, R32:$src) or something similar.
+def ops;
+def i8imm;
+def i16imm;
+def i32imm;
+def i64imm;
//===----------------------------------------------------------------------===//
// Target - This class contains the "global" target information
//===----------------------------------------------------------------------===//
-// DAG node definitions used by the instruction selector...
+// DAG node definitions used by the instruction selector.
//
+// NOTE: all of this is a work-in-progress and should be ignored for now.
+//
+
+class Expander<dag pattern, list<dag> result> {
+ dag Pattern = pattern;
+ list<dag> Result = result;
+}
+
class DagNodeValType;
+def DNVT_any : DagNodeValType; // No constraint on tree node
def DNVT_void : DagNodeValType; // Tree node always returns void
def DNVT_val : DagNodeValType; // A non-void type
def DNVT_arg0 : DagNodeValType; // Tree node returns same type as Arg0
+def DNVT_arg1 : DagNodeValType; // Tree node returns same type as Arg1
def DNVT_ptr : DagNodeValType; // The target pointer type
+def DNVT_i8 : DagNodeValType; // Always have an i8 value
class DagNode<DagNodeValType ret, list<DagNodeValType> args> {
DagNodeValType RetType = ret;
}
// Magic nodes...
-def set : DagNode<DNVT_void, [DNVT_val, DNVT_arg0]>;
+def Void : RegisterClass<isVoid,0,[]> { let isDummyClass = 1; }
+def set : DagNode<DNVT_void, [DNVT_val, DNVT_arg0]>;
+def chain : BuiltinDagNode<DNVT_void, [DNVT_void, DNVT_void], "ChainNode">;
+def blockchain : BuiltinDagNode<DNVT_void, [DNVT_void, DNVT_void],
+ "BlockChainNode">;
+def ChainExpander : Expander<(chain Void, Void), []>;
+def BlockChainExpander : Expander<(blockchain Void, Void), []>;
+
// Terminals...
-def imm : BuiltinDagNode<DNVT_val, [], "Constant">;
-// def frameidx : BuiltinDagNode<DNVT_ptr, [], "FrameIndex">;
+def imm : BuiltinDagNode<DNVT_val, [], "Constant">;
+def frameidx : BuiltinDagNode<DNVT_ptr, [], "FrameIndex">;
+def basicblock : BuiltinDagNode<DNVT_ptr, [], "BasicBlock">;
// Arithmetic...
-def plus : BuiltinDagNode<DNVT_arg0, [DNVT_val, DNVT_arg0], "Plus">;
-def minus : BuiltinDagNode<DNVT_arg0, [DNVT_val, DNVT_arg0], "Minus">;
-def times : BuiltinDagNode<DNVT_arg0, [DNVT_val, DNVT_arg0], "Times">;
-def sdiv : BuiltinDagNode<DNVT_arg0, [DNVT_val, DNVT_arg0], "SDiv">;
-def udiv : BuiltinDagNode<DNVT_arg0, [DNVT_val, DNVT_arg0], "UDiv">;
-def srem : BuiltinDagNode<DNVT_arg0, [DNVT_val, DNVT_arg0], "SRem">;
-def urem : BuiltinDagNode<DNVT_arg0, [DNVT_val, DNVT_arg0], "URem">;
-def and : BuiltinDagNode<DNVT_arg0, [DNVT_val, DNVT_arg0], "And">;
-def or : BuiltinDagNode<DNVT_arg0, [DNVT_val, DNVT_arg0], "Or">;
-def xor : BuiltinDagNode<DNVT_arg0, [DNVT_val, DNVT_arg0], "Xor">;
-
-
-def load : DagNode<DNVT_val, [DNVT_ptr]>;
-//def store : DagNode<2, DNVT_Void>;
+def plus : BuiltinDagNode<DNVT_arg0, [DNVT_arg1, DNVT_arg0], "Plus">;
+def minus : BuiltinDagNode<DNVT_arg0, [DNVT_arg1, DNVT_arg0], "Minus">;
+def times : BuiltinDagNode<DNVT_arg0, [DNVT_arg1, DNVT_arg0], "Times">;
+def sdiv : BuiltinDagNode<DNVT_arg0, [DNVT_arg1, DNVT_arg0], "SDiv">;
+def udiv : BuiltinDagNode<DNVT_arg0, [DNVT_arg1, DNVT_arg0], "UDiv">;
+def srem : BuiltinDagNode<DNVT_arg0, [DNVT_arg1, DNVT_arg0], "SRem">;
+def urem : BuiltinDagNode<DNVT_arg0, [DNVT_arg1, DNVT_arg0], "URem">;
+def and : BuiltinDagNode<DNVT_arg0, [DNVT_arg1, DNVT_arg0], "And">;
+def or : BuiltinDagNode<DNVT_arg0, [DNVT_arg1, DNVT_arg0], "Or">;
+def xor : BuiltinDagNode<DNVT_arg0, [DNVT_arg1, DNVT_arg0], "Xor">;
+
+// Comparisons...
+def seteq : BuiltinDagNode<DNVT_i8 , [DNVT_arg1, DNVT_arg0], "SetEQ">;
+def setne : BuiltinDagNode<DNVT_i8 , [DNVT_arg1, DNVT_arg0], "SetNE">;
+def setlt : BuiltinDagNode<DNVT_i8 , [DNVT_arg1, DNVT_arg0], "SetLT">;
+def setle : BuiltinDagNode<DNVT_i8 , [DNVT_arg1, DNVT_arg0], "SetLE">;
+def setgt : BuiltinDagNode<DNVT_i8 , [DNVT_arg1, DNVT_arg0], "SetGT">;
+def setge : BuiltinDagNode<DNVT_i8 , [DNVT_arg1, DNVT_arg0], "SetGE">;
+
+def load : BuiltinDagNode<DNVT_val, [DNVT_ptr], "Load">;
+//def store : BuiltinDagNode<DNVT_Void, [DNVT_ptr, DNVT_val]>;
// Other...
def ret : BuiltinDagNode<DNVT_void, [DNVT_val], "Ret">;
def retvoid : BuiltinDagNode<DNVT_void, [], "RetVoid">;
+def br : BuiltinDagNode<DNVT_void, [DNVT_ptr], "Br">;
+def brcond : BuiltinDagNode<DNVT_void, [DNVT_i8, DNVT_ptr, DNVT_ptr],
+ "BrCond">;
+
+def unspec1 : BuiltinDagNode<DNVT_any , [DNVT_val], "Unspec1">;
+def unspec2 : BuiltinDagNode<DNVT_any , [DNVT_val, DNVT_val], "Unspec2">;
//===----------------------------------------------------------------------===//
// DAG nonterminals definitions used by the instruction selector...
bit BuiltIn = 0;
}
-// imm - Immediate value...
-//def imm : Nonterminal<(Constant)> { let BuiltIn = 1; }
-