//===- PIC16InstrInfo.td - PIC16 Instruction defs -------------*- tblgen-*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file describes the ARM instructions in TableGen format. // //===----------------------------------------------------------------------===// //===----------------------------------------------------------------------===// // PIC16 Specific Type Constraints. //===----------------------------------------------------------------------===// class SDTCisI8 : SDTCisVT; class SDTCisI16 : SDTCisVT; //===----------------------------------------------------------------------===// // PIC16 Specific Type Profiles. //===----------------------------------------------------------------------===// // Generic type profiles for i8/i16 unary/binary operations. // Taking one i8 or i16 and producing void. def SDTI8VoidOp : SDTypeProfile<0, 1, [SDTCisI8<0>]>; def SDTI16VoidOp : SDTypeProfile<0, 1, [SDTCisI16<0>]>; // Taking one value and producing an output of same type. def SDTI8UnaryOp : SDTypeProfile<1, 1, [SDTCisI8<0>, SDTCisI8<1>]>; def SDTI16UnaryOp : SDTypeProfile<1, 1, [SDTCisI16<0>, SDTCisI16<1>]>; // Taking two values and producing an output of same type. def SDTI8BinOp : SDTypeProfile<1, 2, [SDTCisI8<0>, SDTCisI8<1>, SDTCisI8<2>]>; def SDTI16BinOp : SDTypeProfile<1, 2, [SDTCisI16<0>, SDTCisI16<1>, SDTCisI16<2>]>; // Node specific type profiles. def SDT_PIC16Load : SDTypeProfile<1, 3, [SDTCisI8<0>, SDTCisI8<1>, SDTCisI8<2>, SDTCisI8<3>]>; def SDT_PIC16Store : SDTypeProfile<0, 4, [SDTCisI8<0>, SDTCisI8<1>, SDTCisI8<2>, SDTCisI8<3>]>; //===----------------------------------------------------------------------===// // PIC16 addressing modes matching via DAG. //===----------------------------------------------------------------------===// def diraddr : ComplexPattern; //===----------------------------------------------------------------------===// // PIC16 Specific Node Definitions. //===----------------------------------------------------------------------===// def PIC16callseq_start : SDNode<"ISD::CALLSEQ_START", SDTI8VoidOp, [SDNPHasChain, SDNPOutFlag]>; def PIC16callseq_end : SDNode<"ISD::CALLSEQ_END", SDTI8VoidOp, [SDNPHasChain, SDNPOutFlag]>; // Low 8-bits of GlobalAddress. def PIC16Lo : SDNode<"PIC16ISD::Lo", SDTI8UnaryOp>; // High 8-bits of GlobalAddress. def PIC16Hi : SDNode<"PIC16ISD::Hi", SDTI8UnaryOp>; // The MTHI and MTLO nodes are used only to match them in the incoming // DAG for replacement by corresponding set_fsrhi, set_fsrlo insntructions. // These nodes are not used for defining any instructions. def MTLO : SDNode<"PIC16ISD::MTLO", SDTI8UnaryOp>; def MTHI : SDNode<"PIC16ISD::MTHI", SDTI8UnaryOp>; // Node to generate Bank Select for a GlobalAddress. def Banksel : SDNode<"PIC16ISD::Banksel", SDTI8UnaryOp>; // Node to match a direct store operation. def PIC16Store : SDNode<"PIC16ISD::PIC16Store", SDT_PIC16Store, [SDNPHasChain]>; // Node to match a direct load operation. def PIC16Load : SDNode<"PIC16ISD::PIC16Load", SDT_PIC16Load, [SDNPHasChain]>; // Nodes to match bitwise operatios. def OR : SDNode<"ISD::OR", SDTI8BinOp>; def XOR : SDNode<"ISD::XOR", SDTI8BinOp>; def AND : SDNode<"ISD::AND", SDTI8BinOp>; //===----------------------------------------------------------------------===// // PIC16 Operand Definitions. //===----------------------------------------------------------------------===// def i8mem : Operand; include "PIC16InstrFormats.td" //===----------------------------------------------------------------------===// // PIC16 Common Classes. //===----------------------------------------------------------------------===// // W = W Op F : Load the value from F and do Op to W class BinOpFW OpCode, string OpcStr, SDNode OpNode>: ByteFormat; // F = F Op W : Load the value from F, do op with W and store in F class BinOpWF OpCode, string OpcStr, SDNode OpNode>: ByteFormat; //===----------------------------------------------------------------------===// // PIC16 Instructions. //===----------------------------------------------------------------------===// // Pseudo-instructions. def ADJCALLSTACKDOWN : Pseudo<(outs), (ins i8imm:$amt), "!ADJCALLSTACKDOWN $amt", [(PIC16callseq_start imm:$amt)]>; def ADJCALLSTACKUP : Pseudo<(outs), (ins i8imm:$amt), "!ADJCALLSTACKUP $amt", [(PIC16callseq_end imm:$amt)]>; //----------------------------------- // Vaious movlw insn patterns. //----------------------------------- let isReMaterializable = 1 in { // Move 8-bit literal to W. def movlw : BitFormat<12, (outs GPR:$dst), (ins i8imm:$src), "movlw $src", [(set GPR:$dst, (i8 imm:$src))]>; // Move a Lo(TGA) to W. def movlw_lo : BitFormat<12, (outs GPR:$dst), (ins i8imm:$src), "movlw LOW(${src})", [(set GPR:$dst, (PIC16Lo tglobaladdr:$src))]>; // Move a Hi(TGA) to W. def movlw_hi : BitFormat<12, (outs GPR:$dst), (ins i8imm:$src), "movlw HIGH(${src})", [(set GPR:$dst, (PIC16Hi tglobaladdr:$src))]>; } //------------------- // FSR setting insns. //------------------- // These insns are matched via a DAG replacement pattern. def set_fsrlo: ByteFormat<0, (outs FSR16:$fsr), (ins GPR:$val), "movwf ${fsr}L", []>; let isTwoAddress = 1 in def set_fsrhi: ByteFormat<0, (outs FSR16:$dst), (ins FSR16:$src, GPR:$val), "movwf ${dst}H", []>; def copy_fsr: Pseudo<(outs FSR16:$dst), (ins FSR16:$src), "copy_fsr $dst, $src", []>; //-------------------------- // Store to memory //------------------------- // Direct store. def movwf : ByteFormat<0, (outs), (ins GPR:$val, i8imm:$offset, i8mem:$ptrlo, i8imm:$ptrhi), "movwf ${ptrlo} + ${offset}", [(PIC16Store GPR:$val, tglobaladdr:$ptrlo, (i8 imm:$ptrhi), (i8 imm:$offset))]>; def movwf_1 : ByteFormat<0, (outs), (ins GPR:$val, i8mem:$ptrlo, i8imm:$ptrhi, i8imm:$offset), "movwf ${ptrlo} + ${offset}", [(PIC16Store GPR:$val, texternalsym:$ptrlo, (i8 imm:$ptrhi), (i8 imm:$offset))]>; // Indirect store. Matched via a DAG replacement pattern. def store_indirect : ByteFormat<0, (outs), (ins GPR:$val, FSR16:$fsr, i8imm:$offset), "movwi $offset[$fsr]", []>; //---------------------------- // Load from memory //---------------------------- // Direct load. def movf : ByteFormat<0, (outs GPR:$dst), (ins i8imm:$offset, i8mem:$ptrlo, i8imm:$ptrhi), "movf ${ptrlo} + ${offset}, W", [(set GPR:$dst, (PIC16Load tglobaladdr:$ptrlo, (i8 imm:$ptrhi), (i8 imm:$offset)))]>; def movf_1 : ByteFormat<0, (outs GPR:$dst), (ins i8mem:$ptrlo, i8imm:$ptrhi, i8imm:$offset), "movf ${ptrlo} + ${offset}, W", [(set GPR:$dst, (PIC16Load texternalsym:$ptrlo, (i8 imm:$ptrhi), (i8 imm:$offset)))]>; // Indirect load. Matched via a DAG replacement pattern. def load_indirect : ByteFormat<0, (outs GPR:$dst), (ins FSR16:$fsr, i8imm:$offset), "moviw $offset[$fsr]", []>; //------------------------- // Bitwise operations patterns //-------------------------- def OrFW : BinOpFW<0, "iorwf", OR>; def XOrFW : BinOpFW<0, "xorwf", XOR>; def AndFW : BinOpFW<0, "andwf", AND>; def OrWF : BinOpWF<0, "iorwf", OR>; def XOrWF : BinOpWF<0, "xorwf", XOR>; def AndWF : BinOpWF<0, "andwf", AND>; //------------------------- // Various add/sub patterns. //------------------------- // let isTwoAddress = 1 in { def addfw_1: BinOpFW<0, "addwf", add>; def addfw_2: BinOpFW<0, "addwf", addc>; def addfwc: BinOpFW<0, "addwfc", adde>; // With Carry. // } def addwf_1: BinOpWF<0, "addwf", add>; def addwf_2: BinOpWF<0, "addwf", addc>; def addwfc: BinOpWF<0, "addwfc", adde>; // With Carry. // W -= [F] ; load from F and sub the value from W. class SUBFW OpCode, string OpcStr, SDNode OpNode>: ByteFormat; //let isTwoAddress = 1 in { def subfw_1: SUBFW<0, "subwf", sub>; def subfw_2: SUBFW<0, "subwf", subc>; def subfwb: SUBFW<0, "subwfb", sube>; // With Borrow. //} // [F] -= W ; class SUBWF OpCode, string OpcStr, SDNode OpNode>: ByteFormat; def subwf_1: SUBWF<0, "subwf", sub>; def subwf_2: SUBWF<0, "subwf", subc>; def subwfb: SUBWF<0, "subwfb", sube>; // With Borrow. // addlw // W += C ; add literal to W. (Without carry). May Produce a carry. class ADDLW opcode, string OpcStr, SDNode OpNode> : LiteralFormat; // let isTwoAddress = 1 in { def addlw_1 : ADDLW<0, "addlw", add>; def addlw_2 : ADDLW<0, "addlw", addc>; def addlwc : ADDLW<0, "addlwc", adde>; // With Carry. (Assembler macro). //} // sublw // W = C - W ; sub W from literal. (Without borrow). class SUBLW opcode, SDNode OpNode> : LiteralFormat; //let isTwoAddress = 1 in { def sublw_1 : SUBLW<0, sub>; def sublw_2 : SUBLW<0, subc>; //} // Banksel. let isReMaterializable = 1 in { def banksel : Pseudo<(outs BSR:$dst), (ins i8mem:$ptr), "banksel $ptr", [(set BSR:$dst, (Banksel tglobaladdr:$ptr))]>; } // Return insn. def Return : ControlFormat<0, (outs), (ins), "return", [(ret)]>; //===----------------------------------------------------------------------===// // PIC16 Replacment Patterns. //===----------------------------------------------------------------------===// // Identify an indirect store and select insns for it. def : Pat<(PIC16Store GPR:$val, (MTLO GPR:$loaddr), (MTHI GPR:$hiaddr), imm:$offset), (store_indirect GPR:$val, (set_fsrhi (set_fsrlo GPR:$loaddr), GPR:$hiaddr), imm:$offset)>; // Identify an indirect load and select insns for it. def : Pat<(PIC16Load (MTLO GPR:$loaddr), (MTHI GPR:$hiaddr), imm:$offset), (load_indirect (set_fsrhi (set_fsrlo GPR:$loaddr), GPR:$hiaddr), imm:$offset)>;