{$optimize 7} {---------------------------------------------------------------} { } { Gen } { } { Generates native code from intermediate code instructions. } { } {---------------------------------------------------------------} unit Gen; interface {$segment 'gen'} {$LibPrefix '0/obj/'} uses CCommon, CGI, CGC, ObjOut, Native; {---------------------------------------------------------------} function LabelToDisp (lab: integer): integer; { convert a local label number to a stack frame displacement } { } { parameters: } { lab - label number } procedure Gen (blk: blockPtr); { Generates native code for a list of blocks } { } { parameters: } { blk - first of the list of blocks } {---------------------------------------------------------------} implementation const {longword/quadword locations} A_X = 1; {longword only} onStack = 2; inPointer = 4; localAddress = 8; globalLabel = 16; constant = 32; nowhere = 64; inStackLoc = 128; {stack frame locations} {---------------------} returnSize = 3; {size of return address} type {possible locations for 4 byte values} longType = record {description of current four byte value} preference: integer; {where you want the value (bitmask)} where: integer; {where the value is at} fixedDisp: boolean; {is the displacement a fixed value?} isLong: boolean; {is long addr required for named labs?} disp: integer; {fixed displacement/local addr} lval: longint; {value} lab: stringPtr; {global label name} end; {possible locations for 8 byte values} {note: these always have fixed disp} quadType = record {description of current 8 byte value} preference: integer; {where you want the value (single value)} where: integer; {where the value is at} disp: integer; {fixed displacement/local addr} lval: longlong; {value} lab: stringPtr; {global label name} end; var gLong: longType; {info about last long value} gQuad: quadType; {info about last quad value} namePushed: boolean; {has a name been pushed in this proc?} skipLoad: boolean; {skip load for a pc_lli, etc?} stackSaveDepth: integer; {nesting depth of saved stack positions} argsSize: integer; {total size of argument to a function} isQuadFunction: boolean; {is the return type cg(U)Quad?} {stack frame locations} {---------------------} bankLoc: integer; {disp in dp where bank reg is stored} dworkLoc: integer; {disp in dp of 4 byte work spage for cg} funLoc: integer; {loc of fn ret value in stack frame} localSize: integer; {local space for current proc} parameterSize: integer; {# bytes of parameters for current proc} stackLoc: integer; {disp in dp where stack reg is stored} {---------------------------------------------------------------} procedure GenTree (op: icptr); forward; procedure OperA (mop: integer; op: icptr); { Do an operation on op that has addr modes equivalent to STA } { } { parameters: } { op - node to generate the leaf for } { mop - operation } var loc: integer; {stack frame position} opcode: pcodes; {temp storage} begin {OperA} opcode := op^.opcode; case opcode of pc_ldo,pc_gil,pc_gli,pc_gdl,pc_gld: begin case mop of m_cmp_imm: mop := m_cmp_abs; m_adc_imm: mop := m_adc_abs; m_and_imm: mop := m_and_abs; m_ora_imm: mop := m_ora_abs; m_sbc_imm: mop := m_sbc_abs; m_eor_imm: mop := m_eor_abs; otherwise: Error(cge1); end; {case} if opcode = pc_gil then GenNative(m_inc_abs, absolute, op^.q, op^.lab, 0) else if opcode = pc_gdl then GenNative(m_dec_abs, absolute, op^.q, op^.lab, 0); if smallMemoryModel then GenNative(mop, absolute, op^.q, op^.lab, 0) else GenNative(mop+2, longAbs, op^.q, op^.lab, 0); if opcode in [pc_gli,pc_gld] then begin if mop in [m_sbc_dir,m_cmp_dir] then GenImplied(m_php); if opcode = pc_gli then GenNative(m_inc_abs, absolute, op^.q, op^.lab, 0) else {if opcode = pc_gld then} GenNative(m_dec_abs, absolute, op^.q, op^.lab, 0); if mop in [m_sbc_dir,m_cmp_dir] then GenImplied(m_plp); end; {else} end; {case pc_ldo,pc_gil,pc_gli,pc_gdl,pc_gld} pc_lod,pc_lli,pc_lil,pc_lld,pc_ldl: begin case mop of m_cmp_imm: mop := m_cmp_dir; m_adc_imm: mop := m_adc_dir; m_and_imm: mop := m_and_dir; m_ora_imm: mop := m_ora_dir; m_sbc_imm: mop := m_sbc_dir; m_eor_imm: mop := m_eor_dir; otherwise: Error(cge1); end; {case} loc := LabelToDisp(op^.r); if opcode = pc_lod then loc := loc + op^.q; if opcode = pc_lil then GenNative(m_inc_dir, direct, loc, nil, 0) else if opcode = pc_ldl then GenNative(m_dec_dir, direct, loc, nil, 0); GenNative(mop, direct, loc, nil, 0); if opcode in [pc_lli,pc_lld] then begin if mop in [m_sbc_dir,m_cmp_dir] then GenImplied(m_php); if opcode = pc_lli then GenNative(m_inc_dir, direct, loc, nil, 0) else {if opc = pc_lld then} GenNative(m_dec_dir, direct, loc, nil, 0); if mop in [m_sbc_dir,m_cmp_dir] then GenImplied(m_plp); end; {else} end; {case pc_lod,pc_lli,pc_lil,pc_lld,pc_ldl} pc_ldc: GenNative(mop, immediate, op^.q, nil, 0); otherwise: Error(cge1); end; {case} end; {OperA} function Complex (op: icptr): boolean; { determine if loading the intermediate code involves anything } { but one reg } { } { parameters: } { code - intermediate code to check } { } { NOTE: for one and two byte values only!!! } begin {Complex} Complex := true; if op^.opcode in [pc_ldo,pc_ldc] then Complex := false else if op^.opcode in [pc_gil,pc_gli,pc_gdl,pc_gld] then Complex := smallMemoryModel else if op^.opcode = pc_lod then if LabelToDisp(op^.r) + op^.q < 256 then Complex := false else if op^.opcode in [pc_lli,pc_lil,pc_ldl,pc_lld] then if LabelToDisp(op^.r) < 256 then Complex := false; if op^.optype in [cgByte,cgUByte] then Complex := true; end; {Complex} procedure DoOp(op_imm, op_abs, op_dir: integer; icode: icptr; disp: integer); { Do an operation. } { } { Parameters: } { op_imm,op_abs,op_dir - op codes for the various } { addressing modes } { icode - intermediate code record } { disp - disp past the location (1 or 2) } var val: integer; {value for immediate operations} lval: longint; {long value for immediate operations} begin {DoOp} if icode^.opcode = pc_ldc then begin lval := icode^.lval; if disp = 0 then val := long(lval).lsw else val := long(lval).msw; GenNative(op_imm, immediate, val, nil, 0); end {if} else if icode^.opcode in [pc_lod,pc_str] then GenNative(op_dir, direct, LabelToDisp(icode^.r) + icode^.q + disp, nil, 0) else {if icode^.opcode in [pc_ldo, pc_sro] then} GenNative(op_abs, absolute, icode^.q + disp, icode^.lab, 0); end; {DoOp} procedure OpOnWordOfQuad (mop: integer; op: icptr; offset: integer); { Do an operation that has addr modes equivalent to LDA on the } { subword at specified offset of the location specified by op. } { } { The generated code may modify X, and may set Y to offset. } { } { parameters: } { mop - machine opcode } { op - node to generate the leaf for } { offset - offset of the word to access (0, 2, 4, or 6) } var loc: integer; {stack frame position} val: integer; {immediate value} begin {OpOnWordOfQuad} case op^.opcode of pc_ldo: begin case mop of m_lda_imm: mop := m_lda_abs; m_cmp_imm: mop := m_cmp_abs; m_adc_imm: mop := m_adc_abs; m_and_imm: mop := m_and_abs; m_ora_imm: mop := m_ora_abs; m_sbc_imm: mop := m_sbc_abs; m_eor_imm: mop := m_eor_abs; otherwise: Error(cge1); end; {case} if smallMemoryModel then GenNative(mop, absolute, op^.q+offset, op^.lab, 0) else GenNative(mop+2, longAbs, op^.q+offset, op^.lab, 0); end; {case pc_ldo} pc_lod: begin case mop of m_lda_imm: mop := m_lda_dir; m_cmp_imm: mop := m_cmp_dir; m_adc_imm: mop := m_adc_dir; m_and_imm: mop := m_and_dir; m_ora_imm: mop := m_ora_dir; m_sbc_imm: mop := m_sbc_dir; m_eor_imm: mop := m_eor_dir; otherwise: Error(cge1); end; {case} loc := LabelToDisp(op^.r) + op^.q + offset; if loc < 256 then GenNative(mop, direct, loc, nil, 0) else begin GenNative(m_ldx_imm, immediate, loc, nil, 0); GenNative(mop+$10, direct, 0, nil, 0); end; {else} end; {case pc_lod} pc_ldc: begin case offset of 0: val := long(op^.qval.lo).lsw; 2: val := long(op^.qval.lo).msw; 4: val := long(op^.qval.hi).lsw; 6: val := long(op^.qval.hi).msw; otherwise: Error(cge1); end; {case} GenNative(mop, immediate, val, nil, 0); end; {case pc_ldc} pc_ind: begin case mop of m_lda_imm: mop := m_lda_indl; m_cmp_imm: mop := m_cmp_indl; m_adc_imm: mop := m_adc_indl; m_and_imm: mop := m_and_indl; m_ora_imm: mop := m_ora_indl; m_sbc_imm: mop := m_sbc_indl; m_eor_imm: mop := m_eor_indl; otherwise: Error(cge1); end; {case} if op^.left^.opcode = pc_lod then loc := LabelToDisp(op^.left^.r) + op^.left^.q; if (op^.left^.opcode <> pc_lod) or (loc > 255) then Error(cge1); if offset = 0 then GenNative(mop, direct, loc, nil, 0) else begin GenNative(m_ldy_imm, immediate, offset, nil, 0); GenNative(mop+$10, direct, loc, nil, 0); end; {else} end; {case pc_ind} otherwise: Error(cge1); end; {case} end; {OpOnWordOfQuad} function SimpleQuadLoad(op: icptr): boolean; { Is op a simple load operation on a cg(U)Quad, which can be } { broken up into word operations handled by OpOnWordOfQuad? } { } { parameters: } { op - node to check } begin {SimpleQuadLoad} case op^.opcode of pc_ldo,pc_lod,pc_ldc: SimpleQuadLoad := true; pc_ind: SimpleQuadLoad := (op^.left^.opcode = pc_lod) and (LabelToDisp(op^.left^.r) + op^.left^.q < 256); otherwise: SimpleQuadLoad := false; end; {case} end; {SimpleQuadLoad} function SimplestQuadLoad(op: icptr): boolean; { Is op a simple load operation on a cg(U)Quad, which can be } { broken up into word operations handled by OpOnWordOfQuad } { and for which those operations will not modify X or Y. } { } { parameters: } { op - node to check } begin {SimplestQuadLoad} case op^.opcode of pc_ldo,pc_ldc: SimplestQuadLoad := true; pc_lod: SimplestQuadLoad := LabelToDisp(op^.r) + op^.q < 250; pc_ind,otherwise: SimplestQuadLoad := false; end; {case} end; {SimplestQuadLoad} procedure StoreWordOfQuad(offset: integer); { Store one word of a quad value to the location specified by } { gQuad.preference. The word value to store must be in A. } { } { The generated code may modify X, and may set Y to offset. } { It does not modify A or the carry flag. } { } { parameters: } { offset - offset of the word to store (0, 2, 4, or 6) } { } { Note: If gQuad.preference is onStack, this just generates a } { PHA. That is suitable if storing a value starting from } { the most significant word, but not in other cases. For } { other gQuad.preference values, any order is okay. } begin {StoreWordOfQuad} case gQuad.preference of localAddress: begin if gQuad.disp+offset <= 255 then GenNative(m_sta_dir, direct, gQuad.disp+offset, nil, 0) else begin GenNative(m_ldx_imm, immediate, gQuad.disp+offset, nil, 0); GenNative(m_sta_dirX, direct, 0, nil, 0); end; {else} end; globalLabel: begin if smallMemoryModel then GenNative(m_sta_abs, absolute, gQuad.disp+offset, gQuad.lab, 0) else GenNative(m_sta_long, longabsolute, gQuad.disp+offset, gQuad.lab, 0); end; inPointer: begin if (gQuad.disp > 255) or (gQuad.disp < 0) then Error(cge1); if offset = 0 then GenNative(m_sta_indl, direct, gQuad.disp, nil, 0) else begin GenNative(m_ldy_imm, immediate, offset, nil, 0); GenNative(m_sta_indly, direct, gQuad.disp, nil, 0); end; {else} end; inStackLoc: GenNative(m_sta_s, direct, gQuad.disp+offset, nil, 0); onStack: GenImplied(m_pha); nowhere: ; {discard the value} otherwise: Error(cge1); end; {case} end; {StoreWordOfQuad} procedure GetPointer (op: icptr); { convert a tree into a usable pointer for indirect } { loads/stores } { } { parameters: } { op - pointer tree } begin {GetPointer} gLong.preference := A_X+inPointer+localAddress+globalLabel; GenTree(op); if gLong.where = onStack then begin GenImplied(m_pla); GenImplied(m_plx); gLong.where := A_X; end; {if} if gLong.where = A_X then begin GenNative(m_sta_dir, direct, dworkLoc, nil, 0); GenNative(m_stx_dir, direct, dworkLoc+2, nil, 0); gLong.where := inPointer; gLong.fixedDisp := true; gLong.disp := dworkLoc; end; {else if} end; {GetPointer} procedure IncAddr (size: integer); { add a two byte constant to a four byte value - generally an } { address } { } { parameters: } { size - integer to add } var lab1: integer; {branch point} begin {IncAddr} if size <> 0 then case gLong.where of onStack: begin lab1 := GenLabel; GenImplied(m_pla); if size = 1 then begin GenImplied(m_ina); GenNative(m_bne, relative, lab1, nil, 0); end {if} else begin GenImplied(m_clc); GenNative(m_adc_imm, immediate, size, nil, 0); GenNative(m_bcc, relative, lab1, nil, 0); end; {else} GenImplied(m_plx); GenImplied(m_inx); GenImplied(m_phx); GenLab(lab1); GenImplied(m_pha); end; A_X: begin lab1 := GenLabel; if size = 1 then begin GenImplied(m_ina); GenNative(m_bne, relative, lab1, nil, 0); end {if} else begin GenImplied(m_clc); GenNative(m_adc_imm, immediate, size, nil, 0); GenNative(m_bcc, relative, lab1, nil, 0); end; {else} GenImplied(m_inx); GenLab(lab1); end; inPointer: if gLong.fixedDisp then begin gLong.fixedDisp := false; GenNative(m_ldy_imm, immediate, size, nil, 0); end {if} else if size <= 4 then begin while size <> 0 do begin GenImplied(m_iny); size := size - 1; end; {while} end {else if} else begin GenImplied(m_tya); GenImplied(m_clc); GenNative(m_adc_imm, immediate, size, nil, 0); GenImplied(m_tay); end; {else} localAddress,globalLabel: gLong.disp := gLong.disp+size; otherwise: Error(cge1); end; {case} end; {IncAddr} procedure LoadX (op: icptr); { Load X with a two byte value } { } { parameters: } { op - value to load } var q, r: integer; lab: stringPtr; begin {LoadX} q := op^.q; r := op^.r; lab := op^.lab; case op^.opcode of pc_lao,pc_lda: Error(cge1); pc_ldc: GenNative(m_ldx_imm, immediate, q, nil, 0); pc_ldo: GenNative(m_ldx_abs, absolute, q, lab, 0); pc_gli: begin GenNative(m_ldx_abs, absolute, q, lab, 0); GenNative(m_inc_abs, absolute, q, lab, 0); end; {if} pc_gil: begin GenNative(m_inc_abs, absolute, q, lab, 0); GenNative(m_ldx_abs, absolute, q, lab, 0); end; {if} pc_gld: begin GenNative(m_ldx_abs, absolute, q, lab, 0); GenNative(m_dec_abs, absolute, q, lab, 0); end; {if} pc_gdl: begin GenNative(m_dec_abs, absolute, q, lab, 0); GenNative(m_ldx_abs, absolute, q, lab, 0); end; {if} pc_lod: GenNative(m_ldx_dir, direct, LabelToDisp(r) + q, nil, 0); pc_lli: begin GenNative(m_ldx_dir, direct, LabelToDisp(r), nil, 0); GenNative(m_inc_dir, direct, LabelToDisp(r), nil, 0); end; {if} pc_lil: begin GenNative(m_inc_dir, direct, LabelToDisp(r), nil, 0); GenNative(m_ldx_dir, direct, LabelToDisp(r), nil, 0); end; {if} pc_lld: begin GenNative(m_ldx_dir, direct, LabelToDisp(r), nil, 0); GenNative(m_dec_dir, direct, LabelToDisp(r), nil, 0); end; {if} pc_ldl: begin GenNative(m_dec_dir, direct, LabelToDisp(r), nil, 0); GenNative(m_ldx_dir, direct, LabelToDisp(r), nil, 0); end; {if} otherwise: Error(cge1); end; {case} end; {LoadX} function NeedsCondition (opcode: pcodes): boolean; { See if the operation is one that doesn't set the condition } { code reliably } { } { Parameters: } { opcodes - operation to check } { } { Returns: True if the condition code is not set properly for } { an operand type of cgByte,cgUByte,cgWord,cgUWord, else } { false } begin {NeedsCondition} NeedsCondition := opcode in [pc_and,pc_ior,pc_cui,pc_cup,pc_lor,pc_lnd,pc_ldl,pc_lil,pc_lld, pc_lli,pc_gil,pc_gli,pc_gdl,pc_gld,pc_iil,pc_ili,pc_idl,pc_ild, pc_cop,pc_cpo,pc_cpi,pc_dvi,pc_mpi,pc_adi,pc_sbi,pc_mod,pc_bno, pc_udi,pc_uim,pc_umi,pc_cnv,pc_rbo]; end; {NeedsCondition} function SameLoc (load, save: icptr): boolean; { See if load and save represent the same location (which must } { be a direct page value or a global label). } { } { parameters: } { load - load operation } { save - save operation } { } { Returns: True the the same location is used, else false } begin {SameLoc} SameLoc := false; if save <> nil then begin if load^.opcode = pc_lod then begin if LabelToDisp(load^.r) + load^.q < 254 then if save^.opcode = pc_str then if save^.q = load^.q then if save^.r = load^.r then SameLoc := true; end {if} else if smallMemoryModel then if load^.opcode = pc_ldo then if save^.opcode = pc_sro then if load^.lab^ = save^.lab^ then if load^.q = save^.q then SameLoc := true; end; {if} end; {SameLoc} procedure SaveRetValue (optype: baseTypeEnum); { save a value returned by a function } { } { parameters: } { optype - function type } begin {SaveRetValue} if optype in [cgLong,cgULong] then begin if (A_X & gLong.preference) = 0 then begin gLong.where := onStack; GenImplied(m_phx); GenImplied(m_pha); end else gLong.where := A_X; end {if} else if optype in [cgReal,cgDouble,cgExtended,cgComp] then GenCall(8); end; {SaveRetValue} procedure GenAdlSbl (op, save: icptr); { generate code for pc_adl, pc_sbl } { } { parameters: } { op - pc_adl or pc_sbl operation } { save - save location (pc_str or pc_sro) or nil } var bcc,clc,adc_imm,inc_dir,adc_abs, {for op-code insensitive code} adc_dir,inc_abs,adc_s: integer; disp: integer; {direct page location} lab1: integer; {label number} lLong: longType; {used to reserve gLong} nd: icptr; {for swapping left/right children} opcode: pcodes; {temp storage; for efficiency} simpleStore: boolean; {is the store absolute or direct?} val: longint; {long constant value} function Simple (icode: icptr): boolean; { See if the intermediate code is simple; i.e., can be } { reached by direct page or absolute addressing. } var load: icptr; {left opcode} begin {Simple} Simple := false; if icode^.opcode = pc_ldc then Simple := true else if icode^.opcode in [pc_lod,pc_str] then begin if LabelToDisp(icode^.r) + icode^.q < 254 then Simple := true; end {else if} else if icode^.opcode in [pc_ldo,pc_sro] then Simple := smallMemoryModel; end; {Simple} begin {GenAdlSbl} {determine where the result goes} if save <> nil then gLong.preference := A_X+onStack+inPointer+localAddress+globalLabel+constant; lLong := gLong; {set up the master instructions} opcode := op^.opcode; if opcode = pc_adl then begin clc := m_clc; bcc := m_bcc; adc_imm := m_adc_imm; adc_abs := m_adc_abs; adc_dir := m_adc_dir; adc_s := m_adc_s; inc_dir := m_inc_dir; inc_abs := m_inc_abs; end {if} else begin clc := m_sec; bcc := m_bcs; adc_imm := m_sbc_imm; adc_abs := m_sbc_abs; adc_dir := m_sbc_dir; adc_s := m_sbc_s; inc_dir := m_dec_dir; inc_abs := m_dec_abs; end; {else} {if the lhs is a constant, swap the nodes} if ((op^.left^.opcode = pc_ldc) and (opcode = pc_adl)) then begin nd := op^.left; op^.left := op^.right; op^.right := nd; end; {if} {handle a constant rhs} if op^.right^.opcode = pc_ldc then val := op^.right^.lval else val := -1; if SameLoc(op^.left, save) and (long(val).msw = 0) then begin lab1 := GenLabel; if val = 1 then begin if opcode = pc_adl then begin DoOp(0, m_inc_abs, m_inc_dir, op^.left, 0); GenNative(m_bne, relative, lab1, nil, 0); DoOp(0, m_inc_abs, m_inc_dir, op^.left, 2); GenLab(lab1); end {if} else {if opcode = pc_sbl then} begin DoOp(m_lda_imm, m_lda_abs, m_lda_dir, op^.left, 0); GenNative(m_beq, relative, lab1, nil, 0); DoOp(0, m_dec_abs, m_dec_dir, op^.left, 0); GenLab(lab1); DoOp(0, m_dec_abs, m_dec_dir, op^.left, 2); end; {else} end {if} else begin {rhs in [2..65535]} GenImplied(clc); DoOp(m_lda_imm, m_lda_abs, m_lda_dir, op^.left, 0); GenNative(adc_imm, immediate, long(val).lsw, nil, 0); DoOp(0, m_sta_abs, m_sta_dir, op^.left, 0); GenNative(bcc, relative, lab1, nil, 0); if opcode = pc_adl then DoOp(0, m_inc_abs, m_inc_dir, op^.left, 2) else DoOp(0, m_dec_abs, m_dec_dir, op^.left, 2); GenLab(lab1); end; {else} end {if constant rhs} else begin simpleStore := false; if save <> nil then simpleStore := Simple(save); if (opcode = pc_adl) and Simple(op^.left) then begin nd := op^.left; op^.left := op^.right; op^.right := nd; end; {if} if simpleStore and Simple(op^.right) then begin if Simple(op^.left) then begin GenImplied(clc); DoOp(m_lda_imm, m_lda_abs, m_lda_dir, op^.left, 0); DoOp(adc_imm, adc_abs, adc_dir, op^.right, 0); DoOp(0, m_sta_abs, m_sta_dir, save, 0); DoOp(m_lda_imm, m_lda_abs, m_lda_dir, op^.left, 2); DoOp(adc_imm, adc_abs, adc_dir, op^.right, 2); DoOp(0, m_sta_abs, m_sta_dir, save, 2); end {if} else begin gLong.preference := A_X; GenTree(op^.left); GenImplied(clc); if gLong.where = onStack then GenImplied(m_pla); DoOp(adc_imm, adc_abs, adc_dir, op^.right, 0); DoOp(0, m_sta_abs, m_sta_dir, save, 0); if gLong.where = onStack then GenImplied(m_pla) else GenImplied(m_txa); DoOp(adc_imm, adc_abs, adc_dir, op^.right, 2); DoOp(0, m_sta_abs, m_sta_dir, save, 2); end; {else} end {if} else if (save = nil) and Simple(op^.right) then begin gLong.preference := gLong.preference & A_X; GenTree(op^.left); GenImplied(clc); if gLong.where = onStack then begin GenImplied(m_pla); DoOp(adc_imm, adc_abs, adc_dir, op^.right, 0); GenImplied(m_pha); GenNative(m_lda_s, direct, 3, nil, 0); DoOp(adc_imm, adc_abs, adc_dir, op^.right, 2); GenNative(m_sta_s, direct, 3, nil, 0); end {if} else begin DoOp(adc_imm, adc_abs, adc_dir, op^.right, 0); GenImplied(m_tay); GenImplied(m_txa); DoOp(adc_imm, adc_abs, adc_dir, op^.right, 2); GenImplied(m_tax); GenImplied(m_tya); end; {else} end {else if} else begin {doing it the hard way} gLong.preference := onStack; GenTree(op^.right); gLong.preference := onStack; GenTree(op^.left); GenImplied(clc); GenImplied(m_pla); GenNative(adc_s, direct, 3, nil, 0); GenNative(m_sta_s, direct, 3, nil, 0); GenImplied(m_pla); GenNative(adc_s, direct, 3, nil, 0); GenNative(m_sta_s, direct, 3, nil, 0); if save = nil then gLong.where := onStack else if save^.opcode = pc_str then begin disp := LabelToDisp(save^.r) + save^.q; if disp < 254 then begin GenImplied(m_pla); GenNative(m_sta_dir, direct, disp, nil, 0); GenImplied(m_pla); GenNative(m_sta_dir, direct, disp+2, nil, 0); end {else if} else begin GenNative(m_ldx_imm, immediate, disp, nil, 0); GenImplied(m_pla); GenNative(m_sta_dirX, direct, 0, nil, 0); GenImplied(m_pla); GenNative(m_sta_dirX, direct, 2, nil, 0); end; {else} end {else if} else {if save^.opcode = pc_sro then} begin GenImplied(m_pla); if smallMemoryModel then GenNative(m_sta_abs, absolute, save^.q, save^.lab, 0) else GenNative(m_sta_long, longabsolute, save^.q, save^.lab, 0); GenImplied(m_pla); if smallMemoryModel then GenNative(m_sta_abs, absolute, save^.q+2, save^.lab, 0) else GenNative(m_sta_long, longabsolute, save^.q+2, save^.lab, 0); end; {else} end; {else} end; {else} end; {GenAdlSbl} procedure GenAdqSbq (op: icptr); { generate code for pc_adq, pc_sbq } { } { parameters: } { op - pc_adq or pc_sbq operation } begin {GenAdqSbq} if op^.opcode = pc_adq then begin if SimpleQuadLoad(op^.left) and SimpleQuadLoad(op^.right) then begin gQuad.where := gQuad.preference; if gQuad.preference = onStack then begin GenImplied(m_tsc); GenImplied(m_sec); GenNative(m_sbc_imm, immediate, 8, nil, 0); GenImplied(m_tcs); gQuad.preference := inStackLoc; gQuad.disp := 1; end; {if} GenImplied(m_clc); OpOnWordOfQuad(m_lda_imm, op^.left, 0); OpOnWordOfQuad(m_adc_imm, op^.right, 0); StoreWordOfQuad(0); OpOnWordOfQuad(m_lda_imm, op^.left, 2); OpOnWordOfQuad(m_adc_imm, op^.right, 2); StoreWordOfQuad(2); OpOnWordOfQuad(m_lda_imm, op^.left, 4); OpOnWordOfQuad(m_adc_imm, op^.right, 4); StoreWordOfQuad(4); OpOnWordOfQuad(m_lda_imm, op^.left, 6); OpOnWordOfQuad(m_adc_imm, op^.right, 6); StoreWordOfQuad(6); end {if} else begin gQuad.preference := onStack; GenTree(op^.right); gQuad.preference := onStack; GenTree(op^.left); GenImplied(m_clc); GenImplied(m_pla); GenNative(m_adc_s, direct, 7, nil, 0); GenNative(m_sta_s, direct, 7, nil, 0); GenImplied(m_pla); GenNative(m_adc_s, direct, 7, nil, 0); GenNative(m_sta_s, direct, 7, nil, 0); GenImplied(m_pla); GenNative(m_adc_s, direct, 7, nil, 0); GenNative(m_sta_s, direct, 7, nil, 0); GenImplied(m_pla); GenNative(m_adc_s, direct, 7, nil, 0); GenNative(m_sta_s, direct, 7, nil, 0); gQuad.where := onStack; end; {else} end {if} else {if op^.opcode = pc_sbq then} begin if SimpleQuadLoad(op^.left) and SimpleQuadLoad(op^.right) then begin gQuad.where := gQuad.preference; if gQuad.preference = onStack then begin GenImplied(m_tsc); GenImplied(m_sec); GenNative(m_sbc_imm, immediate, 8, nil, 0); GenImplied(m_tcs); gQuad.preference := inStackLoc; gQuad.disp := 1; end; {if} GenImplied(m_sec); OpOnWordOfQuad(m_lda_imm, op^.left, 0); OpOnWordOfQuad(m_sbc_imm, op^.right, 0); StoreWordOfQuad(0); OpOnWordOfQuad(m_lda_imm, op^.left, 2); OpOnWordOfQuad(m_sbc_imm, op^.right, 2); StoreWordOfQuad(2); OpOnWordOfQuad(m_lda_imm, op^.left, 4); OpOnWordOfQuad(m_sbc_imm, op^.right, 4); StoreWordOfQuad(4); OpOnWordOfQuad(m_lda_imm, op^.left, 6); OpOnWordOfQuad(m_sbc_imm, op^.right, 6); StoreWordOfQuad(6); end {if} else begin gQuad.preference := onStack; GenTree(op^.right); gQuad.preference := onStack; GenTree(op^.left); GenImplied(m_sec); GenImplied(m_pla); GenNative(m_sbc_s, direct, 7, nil, 0); GenNative(m_sta_s, direct, 7, nil, 0); GenImplied(m_pla); GenNative(m_sbc_s, direct, 7, nil, 0); GenNative(m_sta_s, direct, 7, nil, 0); GenImplied(m_pla); GenNative(m_sbc_s, direct, 7, nil, 0); GenNative(m_sta_s, direct, 7, nil, 0); GenImplied(m_pla); GenNative(m_sbc_s, direct, 7, nil, 0); GenNative(m_sta_s, direct, 7, nil, 0); gQuad.where := onStack; end; {else} end; {else} end; {GenAdqSbq} procedure GenCmp (op: icptr; rOpcode: pcodes; lb: integer); { generate code for pc_les, pc_leq, pc_grt or pc_geq } { } { parameters: } { op - operation } { rOpcode - Opcode that will use the result of the } { compare. If the result is used by a tjp or fjp, } { this procedure generated special code and does the } { branch internally. } { lb - For fjp, tjp, this is the label to branch to if } { the condition is satisfied. } var i: integer; {loop variable} lab1,lab2,lab3,lab4: integer; {label numbers} num: integer; {constant to compare to} simple: boolean; {is this a simple case?} procedure Switch; { switch the operands } var nd: icptr; {used to switch nodes} begin {Switch} nd := op^.left; op^.left := op^.right; op^.right := nd; end; {Switch} begin {GenCmp} {To reduct the number of possibilities that must be handled, pc_les } {and pc_leq compares are reduced to their equivalent pc_grt and } {pc_geq instructions. } if op^.opcode = pc_les then begin Switch; op^.opcode := pc_grt; end {if} else if op^.opcode = pc_leq then begin Switch; op^.opcode := pc_geq; end; {else if} {To take advantage of shortcuts, switch operands if generating } {for a tjp or fjp with a constant left operand. } if op^.optype in [cgByte,cgUByte,cgWord,cgUWord] then if op^.left^.opcode = pc_ldc then if rOpcode in [pc_tjp,pc_fjp] then begin if op^.opcode = pc_geq then op^.opcode := pc_grt else op^.opcode := pc_geq; if rOpcode = pc_tjp then rOpcode := pc_fjp else rOpcode := pc_tjp; Switch; end; {if} {Short cuts are available for single-word operands where the } {right operand is a constant. } if (op^.optype in [cgByte,cgUByte,cgWord,cgUWord]) and (op^.right^.opcode = pc_ldc) then begin GenTree(op^.left); num := op^.right^.q; lab1 := GenLabel; if rOpcode = pc_fjp then begin if op^.optype in [cgByte,cgWord] then begin if NeedsCondition(op^.left^.opcode) then GenImplied(m_tax); if (num >= 0) and (num < 4) then begin if op^.opcode = pc_geq then begin if num <> 0 then begin lab2 := GenLabel; GenNative(m_bmi, relative, lab2, nil, 0); for i := 1 to num do GenImplied(m_dea); end; {if} GenNative(m_bpl, relative, lab1, nil, 0); if num <> 0 then GenLab(lab2); GenNative(m_brl, longrelative, lb, nil, 0); GenLab(lab1); end {if} else {if opcode = pc_grt then} begin lab2 := GenLabel; GenNative(m_bmi, relative, lab2, nil, 0); for i := 0 to num do GenImplied(m_dea); GenNative(m_bpl, relative, lab1, nil, 0); GenLab(lab2); GenNative(m_brl, longrelative, lb, nil, 0); GenLab(lab1); end; {else if} end {if (num >= 0) and (num < 4)} else begin lab2 := GenLabel; if num > 0 then GenNative(m_bmi, relative, lab1, nil, 0) else GenNative(m_bpl, relative, lab1, nil, 0); GenNative(m_cmp_imm, immediate, num, nil, 0); if op^.opcode = pc_grt then begin lab3 := GenLabel; GenNative(m_beq, relative, lab3, nil, 0); GenNative(m_bcs, relative, lab2, nil, 0); GenLab(lab3); end else GenNative(m_bcs, relative, lab2, nil, 0); if num > 0 then begin GenLab(lab1); GenNative(m_brl, longrelative, lb, nil, 0); end {if} else begin GenNative(m_brl, longrelative, lb, nil, 0); GenLab(lab1); end; {else} GenLab(lab2); end; {else if} end {if} else {if optype in [cgUByte,cgUWord] then} begin GenNative(m_cmp_imm, immediate, num, nil, 0); if op^.opcode = pc_grt then begin lab2 := GenLabel; GenNative(m_beq, relative, lab2, nil, 0); end; {if} GenNative(m_bcs, relative, lab1, nil, 0); if op^.opcode = pc_grt then GenLab(lab2); GenNative(m_brl, longrelative, lb, nil, 0); GenLab(lab1); end; {else} end {if rOpcode = pc_fjp} else if rOpcode = pc_tjp then begin if op^.optype in [cgByte,cgWord] then begin if NeedsCondition(op^.left^.opcode) then GenImplied(m_tax); if (num >= 0) and (num < 4) then begin lab2 := GenLabel; if op^.opcode = pc_geq then begin GenNative(m_bmi, relative, lab1, nil, 0); if num > 0 then begin for i := 1 to num do GenImplied(m_dea); GenNative(m_bmi, relative, lab2, nil, 0); end; {if} GenNative(m_brl, longrelative, lb, nil, 0); end {if} else {if op^.opcode = pc_grt then} begin if num > 0 then begin GenNative(m_bmi, relative, lab1, nil, 0); for i := 0 to num do GenImplied(m_dea); GenNative(m_bmi, relative, lab2, nil, 0); end {if} else begin GenNative(m_beq, relative, lab1, nil, 0); GenNative(m_bmi, relative, lab2, nil, 0); end; {else} GenNative(m_brl, longrelative, lb, nil, 0); end; {else} GenLab(lab2); GenLab(lab1); end {if (num >= 0) and (num < 4)} else begin lab2 := GenLabel; if num > 0 then GenNative(m_bmi, relative, lab1, nil, 0) else GenNative(m_bpl, relative, lab1, nil, 0); GenNative(m_cmp_imm, immediate, num, nil, 0); if op^.opcode = pc_grt then begin lab3 := GenLabel; GenNative(m_beq, relative, lab3, nil, 0); end; {if} GenNative(m_bcc, relative, lab2, nil, 0); if num > 0 then begin GenNative(m_brl, longrelative, lb, nil, 0); GenLab(lab2); GenLab(lab1); end {if} else begin GenLab(lab1); GenNative(m_brl, longrelative, lb, nil, 0); GenLab(lab2); end; {else} if op^.opcode = pc_grt then GenLab(lab3); end; {else} end {if} else {if optype in [cgUByte,cgUWord] then} begin GenNative(m_cmp_imm, immediate, num, nil, 0); GenNative(m_bcc, relative, lab1, nil, 0); if op^.opcode = pc_grt then begin lab2 := GenLabel; GenNative(m_beq, relative, lab1, nil, 0); end; {if} GenNative(m_brl, longrelative, lb, nil, 0); if op^.opcode = pc_grt then GenLab(lab2); GenLab(lab1); end; {else} end {if rOpcode = pc_tjp} else if op^.optype in [cgByte,cgWord] then begin lab2 := GenLabel; GenNative(m_ldx_imm, immediate, 1, nil, 0); GenImplied(m_sec); GenNative(m_sbc_imm, immediate, num, nil, 0); if op^.opcode = pc_grt then begin lab3 := GenLabel; GenNative(m_beq, relative, lab3, nil, 0); end; {if} GenNative(m_bvs, relative, lab1, nil, 0); GenNative(m_eor_imm, immediate, $8000, nil, 0); GenLab(lab1); GenNative(m_bmi, relative, lab2, nil, 0); if op^.opcode = pc_grt then GenLab(lab3); GenImplied(m_dex); GenLab(lab2); GenImplied(m_txa); end {else if} else begin GenNative(m_ldx_imm, immediate, 0, nil, 0); GenNative(m_cmp_imm, immediate, num, nil, 0); GenNative(m_bcc, relative, lab1, nil, 0); if op^.opcode = pc_grt then GenNative(m_beq, relative, lab1, nil, 0); GenImplied(m_inx); GenLab(lab1); GenImplied(m_txa); end; {else if} end {if (op^.optype in [cgByte,cgUByte,cgWord,cgUWord]) and (op^.right^.opcode = pc_ldc)} {This section of code handles the cases where the above short } {cuts cannot be used. } else case op^.optype of cgByte,cgUByte,cgWord,cgUWord: begin if Complex(op^.right) then begin GenTree(op^.right); if Complex(op^.left) then begin GenImplied(m_pha); GenTree(op^.left); GenImplied(m_ply); GenNative(m_sty_dir, direct, dworkLoc, nil, 0); end {if} else begin GenNative(m_sta_dir, direct, dworkLoc, nil, 0); GenTree(op^.left); end; {else} if not (rOpcode in [pc_fjp,pc_tjp]) then GenNative(m_ldx_imm, immediate, 1, nil, 0); if op^.optype in [cgByte,cgWord] then begin GenImplied(m_sec); GenNative(m_sbc_dir, direct, dworkLoc, nil, 0); end {if} else GenNative(m_cmp_dir, direct, dworkLoc, nil, 0); end {if} else begin GenTree(op^.left); if not (rOpcode in [pc_fjp,pc_tjp]) then GenNative(m_ldx_imm, immediate, 1, nil, 0); if op^.optype in [cgByte,cgWord] then begin GenImplied(m_sec); OperA(m_sbc_imm, op^.right); if op^.right^.opcode in [pc_lld,pc_lli,pc_gli,pc_gld] then GenImplied(m_tay); end {if} else OperA(m_cmp_imm, op^.right); end; {else} if rOpcode = pc_fjp then begin lab2 := GenLabel; if op^.opcode = pc_grt then begin lab3 := GenLabel; GenNative(m_beq, relative, lab3, nil, 0); end; {if} if op^.optype in [cgByte,cgWord] then begin lab1 := GenLabel; GenNative(m_bvs, relative, lab1, nil, 0); GenNative(m_eor_imm, immediate, $8000, nil, 0); GenLab(lab1); GenNative(m_bmi, relative, lab2, nil, 0); end {if} else GenNative(m_bcs, relative, lab2, nil, 0); if op^.opcode = pc_grt then GenLab(lab3); GenNative(m_brl, longrelative, lb, nil, 0); GenLab(lab2); end {if} else if rOpcode = pc_tjp then begin lab2 := GenLabel; if op^.opcode = pc_grt then begin lab3 := GenLabel; GenNative(m_beq, relative, lab3, nil, 0); end; {if} if op^.optype in [cgByte,cgWord] then begin lab1 := GenLabel; GenNative(m_bvs, relative, lab1, nil, 0); GenNative(m_eor_imm, immediate, $8000, nil, 0); GenLab(lab1); GenNative(m_bpl, relative, lab2, nil, 0); end {if} else GenNative(m_bcc, relative, lab2, nil, 0); GenNative(m_brl, longrelative, lb, nil, 0); if op^.opcode = pc_grt then GenLab(lab3); GenLab(lab2); end {else if} else begin lab2 := GenLabel; if op^.opcode = pc_grt then begin lab3 := GenLabel; GenNative(m_beq, relative, lab3, nil, 0); end; {if} if op^.optype in [cgByte,cgWord] then begin lab1 := GenLabel; GenNative(m_bvs, relative, lab1, nil, 0); GenNative(m_eor_imm, immediate, $8000, nil, 0); GenLab(lab1); GenNative(m_bmi, relative, lab2, nil, 0); end {if} else GenNative(m_bcs, relative, lab2, nil, 0); if op^.opcode = pc_grt then GenLab(lab3); GenImplied(m_dex); GenLab(lab2); GenImplied(m_txa); end; {else} end; {case optype of cgByte,cgUByte,cgWord,cgUWord} cgULong: begin gLong.preference := onStack; GenTree(op^.right); gLong.preference := A_X; GenTree(op^.left); if gLong.where = onStack then begin GenImplied(m_ply); GenImplied(m_pla); end {if} else begin GenImplied(m_tay); GenImplied(m_txa); end; {else} lab1 := GenLabel; GenNative(m_ldx_imm, immediate, 1, nil, 0); GenNative(m_cmp_s, direct, 3, nil, 0); GenNative(m_bne, relative, lab1, nil, 0); GenImplied(m_tya); GenNative(m_cmp_s, direct, 1, nil, 0); GenLab(lab1); lab2 := GenLabel; if op^.opcode = pc_grt then begin lab3 := GenLabel; GenNative(m_beq, relative, lab3, nil, 0); end; {if} GenNative(m_bcs, relative, lab2, nil, 0); if op^.opcode = pc_grt then GenLab(lab3); GenImplied(m_dex); GenLab(lab2); GenImplied(m_pla); GenImplied(m_pla); GenImplied(m_txa); if rOpcode = pc_fjp then begin lab4 := GenLabel; GenNative(m_bne, relative, lab4, nil, 0); GenNative(m_brl, longrelative, lb, nil, 0); GenLab(lab4); end {if} else if rOpcode = pc_tjp then begin lab4 := GenLabel; GenNative(m_beq, relative, lab4, nil, 0); GenNative(m_brl, longrelative, lb, nil, 0); GenLab(lab4); end; {else if} end; cgReal,cgDouble,cgComp,cgExtended: begin GenTree(op^.left); GenTree(op^.right); num := 31; if op^.opcode = pc_geq then GenCall(32) else GenCall(31); if (rOpcode = pc_fjp) or (rOpcode = pc_tjp) then begin lab1 := GenLabel; if rOpcode = pc_fjp then GenNative(m_bne, relative, lab1, nil, 0) else GenNative(m_beq, relative, lab1, nil, 0); GenNative(m_brl,longrelative,lb,nil,0); GenLab(lab1); end; {if} end; {case optype of cgReal..cgExtended} cgLong: begin gLong.preference := onStack; GenTree(op^.left); if op^.opcode = pc_geq then begin gLong.preference := A_X; GenTree(op^.right); if gLong.where = onStack then begin GenImplied(m_pla); GenImplied(m_plx); end; {if} num := 30; end {if} else begin gLong.preference := onStack; GenTree(op^.right); num := 29; end; {else} GenCall(num); if (rOpcode = pc_fjp) or (rOpcode = pc_tjp) then begin lab1 := GenLabel; if rOpcode = pc_fjp then GenNative(m_bne, relative, lab1, nil, 0) else GenNative(m_beq, relative, lab1, nil, 0); GenNative(m_brl, longrelative, lb, nil, 0); GenLab(lab1); end; {if} end; {case optype of cgLong} cgQuad: begin if op^.opcode = pc_geq then begin gQuad.preference := onStack; GenTree(op^.left); gQuad.preference := onStack; GenTree(op^.right); end {if} else {if op^.opcode = pc_grt then} begin gQuad.preference := onStack; GenTree(op^.right); gQuad.preference := onStack; GenTree(op^.left); end; {else} GenCall(88); if (rOpcode = pc_fjp) or (rOpcode = pc_tjp) then begin lab1 := GenLabel; if (rOpcode = pc_fjp) <> (op^.opcode = pc_grt) then GenNative(m_bcs, relative, lab1, nil, 0) else GenNative(m_bcc, relative, lab1, nil, 0); GenNative(m_brl, longrelative, lb, nil, 0); GenLab(lab1); end {if} else begin lab1 := GenLabel; GenNative(m_lda_imm, immediate, 1, nil, 0); if op^.opcode = pc_geq then GenNative(m_bcs, relative, lab1, nil, 0) else GenNative(m_bcc, relative, lab1, nil, 0); GenImplied(m_dea); GenLab(lab1); end; {else} end; {case optype of cgQuad} cgUQuad: begin simple := SimplestQuadLoad(op^.left) and SimplestQuadLoad(op^.right) and not volatile; if not simple then begin gQuad.preference := onStack; GenTree(op^.left); gQuad.preference := onStack; GenTree(op^.right); end; {if} if op^.opcode = pc_geq then GenNative(m_ldx_imm, immediate, 1, nil, 0) else {if op^.opcode = pc_grt then} GenNative(m_ldx_imm, immediate, 0, nil, 0); lab1 := GenLabel; lab2 := GenLabel; if simple then begin OpOnWordOfQuad(m_lda_imm, op^.left, 6); OpOnWordOfQuad(m_cmp_imm, op^.right, 6); GenNative(m_bne, relative, lab1, nil, 0); OpOnWordOfQuad(m_lda_imm, op^.left, 4); OpOnWordOfQuad(m_cmp_imm, op^.right, 4); GenNative(m_bne, relative, lab1, nil, 0); OpOnWordOfQuad(m_lda_imm, op^.left, 2); OpOnWordOfQuad(m_cmp_imm, op^.right, 2); GenNative(m_bne, relative, lab1, nil, 0); OpOnWordOfQuad(m_lda_imm, op^.left, 0); OpOnWordOfQuad(m_cmp_imm, op^.right, 0); end {if} else begin GenNative(m_lda_s, direct, 15, nil, 0); GenNative(m_cmp_s, direct, 7, nil, 0); GenNative(m_bne, relative, lab1, nil, 0); GenNative(m_lda_s, direct, 13, nil, 0); GenNative(m_cmp_s, direct, 5, nil, 0); GenNative(m_bne, relative, lab1, nil, 0); GenNative(m_lda_s, direct, 11, nil, 0); GenNative(m_cmp_s, direct, 3, nil, 0); GenNative(m_bne, relative, lab1, nil, 0); GenNative(m_lda_s, direct, 9, nil, 0); GenNative(m_cmp_s, direct, 1, nil, 0); end; {else} GenLab(lab1); if op^.opcode = pc_geq then begin GenNative(m_bcs, relative, lab2, nil, 0); GenImplied(m_dex); end {if} else begin {if op^.opcode = pc_grt then} GenNative(m_bcc, relative, lab2, nil, 0); GenNative(m_beq, relative, lab2, nil, 0); GenImplied(m_inx); end; {else} GenLab(lab2); if not simple then begin GenImplied(m_tsc); GenImplied(m_clc); GenNative(m_adc_imm, immediate, 16, nil, 0); GenImplied(m_tcs); end; {if} GenImplied(m_txa); if rOpcode = pc_fjp then begin lab3 := GenLabel; GenNative(m_bne, relative, lab3, nil, 0); GenNative(m_brl, longrelative, lb, nil, 0); GenLab(lab3); end {if} else if rOpcode = pc_tjp then begin lab3 := GenLabel; GenNative(m_beq, relative, lab3, nil, 0); GenNative(m_brl, longrelative, lb, nil, 0); GenLab(lab3); end; {else if} end; {case optype of cgUQuad} otherwise: Error(cge1); end; {case} end; {GenCmp} procedure GenCnv (op: icptr); { generate a pc_cnv instruction } const {note: these constants list all legal } { conversions; others are ignored} cReal = $06; cDouble = $07; cComp = $08; cExtended = $09; cVoid = $0B; cLong = $04; cULong = $05; byteToWord = $02; byteToUword = $03; byteToLong = $04; byteToUlong = $05; byteToQuad = $0C; byteToUQuad = $0D; byteToReal = $06; byteToDouble = $07; ubyteToLong = $14; ubyteToUlong = $15; ubyteToQuad = $1C; ubyteToUQuad = $1D; ubyteToReal = $16; ubyteToDouble = $17; wordToByte = $20; wordToUByte = $21; wordToLong = $24; wordToUlong = $25; wordToQuad = $2C; wordToUQuad = $2D; wordToReal = $26; wordToDouble = $27; uwordToByte = $30; uwordToUByte = $31; uwordToLong = $34; uwordToUlong = $35; uwordToQuad = $3C; uwordToUQuad = $3D; uwordToReal = $36; uwordToDouble = $37; longTobyte = $40; longToUbyte = $41; longToWord = $42; longToUword = $43; longToQuad = $4C; longToUQuad = $4D; longToReal = $46; longToDouble = $47; longToVoid = $4B; ulongTobyte = $50; ulongToUbyte = $51; ulongToWord = $52; ulongToUword = $53; ulongToQuad = $5C; ulongToUQuad = $5D; ulongToReal = $56; ulongToDouble = $57; ulongToVoid = $5B; realTobyte = $60; realToUbyte = $61; realToWord = $62; realToUword = $63; realToLong = $64; realToUlong = $65; realToQuad = $6C; realToUQuad = $6D; realToVoid = $6B; doubleTobyte = $70; doubleToUbyte = $71; doubleToWord = $72; doubleToUword = $73; doubleToLong = $74; doubleToUlong = $75; doubleToQuad = $7C; doubleToUQuad = $7D; quadToByte = $C0; quadToUByte = $C1; quadToWord = $C2; quadToUword = $C3; quadToLong = $C4; quadToULong = $C5; quadToReal = $C6; quadToDouble = $C7; quadToVoid = $CB; uquadToByte = $D0; uquadToUByte = $D1; uquadToWord = $D2; uquadToUword = $D3; uquadToLong = $D4; uquadToULong = $D5; uquadToReal = $D6; uquadToDouble = $D7; uquadToVoid = $DB; var toRealType: baseTypeEnum; {real type converted to} lab1: integer; {used for branches} lLong: longType; {used to reserve gLong} begin {GenCnv} lLong := gLong; gLong.preference := onStack+A_X+constant; gLong.where := onStack; if op^.q in [quadToVoid,uQuadToVoid] then gQuad.preference := nowhere else gQuad.preference := onStack; if ((op^.q & $00F0) >> 4) in [cDouble,cExtended,cComp] then begin op^.q := (op^.q & $000F) | (cReal * 16); end; {if} if (op^.q & $000F) in [cDouble,cExtended,cComp,cReal] then begin toRealType := baseTypeEnum(op^.q & $000F); op^.q := (op^.q & $00F0) | cReal; end {if} else toRealType := cgVoid; GenTree(op^.left); if op^.q in [wordToLong,wordToUlong] then begin lab1 := GenLabel; GenNative(m_ldx_imm, immediate, 0, nil, 0); GenImplied(m_tay); GenNative(m_bpl, relative, lab1, nil, 0); GenImplied(m_dex); GenLab(lab1); if (lLong.preference & A_X) <> 0 then gLong.where := A_X else begin gLong.where := onStack; GenImplied(m_phx); GenImplied(m_pha); end; {else} end {if} else if op^.q in [byteToLong,byteToUlong] then begin lab1 := GenLabel; GenNative(m_ldx_imm, immediate, 0, nil, 0); GenNative(m_bit_imm, immediate, $0080, nil, 0); GenNative(m_beq, relative, lab1, nil, 0); GenImplied(m_dex); GenNative(m_ora_imm, immediate, $FF00, nil, 0); GenLab(lab1); if (lLong.preference & A_X) <> 0 then gLong.where := A_X else begin gLong.where := onStack; GenImplied(m_phx); GenImplied(m_pha); end; {else} end {else if} else if op^.q in [byteToWord,byteToUword] then begin lab1 := GenLabel; GenNative(m_bit_imm, immediate, $0080, nil, 0); GenNative(m_beq, relative, lab1, nil, 0); GenNative(m_ora_imm, immediate, $FF00, nil, 0); GenLab(lab1); end {else if} else if op^.q in [ubyteToLong,ubyteToUlong,uwordToLong,uwordToUlong] then begin if (lLong.preference & A_X) <> 0 then begin gLong.where := A_X; GenNative(m_ldx_imm, immediate, 0, nil, 0); end {if} else begin gLong.where := onStack; GenNative(m_pea, immediate, 0, nil, 0); GenImplied(m_pha); end; {else} end {else if} else if op^.q in [wordToUbyte,uwordToUbyte] then GenNative(m_and_imm, immediate, $00FF, nil, 0) else if op^.q in [wordToByte,uwordToByte] then begin lab1 := GenLabel; GenNative(m_and_imm, immediate, $00FF, nil, 0); GenNative(m_bit_imm, immediate, $0080, nil, 0); GenNative(m_beq, relative, lab1, nil, 0); GenNative(m_ora_imm, immediate, $FF00, nil, 0); GenLab(lab1); end {else if} else if op^.q in [byteToReal,uByteToReal,wordToReal] then begin GenCall(11); toRealType := cgExtended; end {else if} else if op^.q = uwordToReal then begin GenNative(m_ldx_imm, immediate, 0, nil, 0); GenCall(12); toRealType := cgExtended; end {else if} else if op^.q in [longToUbyte,ulongToUbyte] then begin if gLong.where = A_X then GenNative(m_and_imm, immediate, $00FF, nil, 0) else if gLong.where = constant then GenNative(m_lda_imm, immediate, long(gLong.lval).lsw & $00FF, nil, 0) else {if gLong.where = onStack then} begin GenImplied(m_pla); GenImplied(m_plx); GenNative(m_and_imm, immediate, $00FF, nil, 0); end; {else if} end {else if} else if op^.q in [longToByte,ulongToByte] then begin if gLong.where = A_X then GenNative(m_and_imm, immediate, $00FF, nil, 0) else if gLong.where = constant then GenNative(m_lda_imm, immediate, long(gLong.lval).lsw & $00FF, nil, 0) else {if gLong.where = onStack then} begin GenImplied(m_pla); GenImplied(m_plx); GenNative(m_and_imm, immediate, $00FF, nil, 0); end; {else if} lab1 := GenLabel; GenNative(m_bit_imm, immediate, $0080, nil, 0); GenNative(m_beq, relative, lab1, nil, 0); GenNative(m_ora_imm, immediate, $FF00, nil, 0); GenLab(lab1); end {else if} else if op^.q in [longToWord,longToUword,ulongToWord,ulongToUword] then begin {Note: if the result is in A_X, no further action is needed} if gLong.where = constant then GenNative(m_lda_imm, immediate, long(gLong.lval).lsw, nil, 0) else if gLong.where = onStack then begin GenImplied(m_pla); GenImplied(m_plx); end; {else if} end {else if} else if op^.q in [longToReal,uLongToReal] then begin if gLong.where = constant then begin GenNative(m_lda_imm, immediate, long(gLong.lval).lsw, nil, 0); GenNative(m_ldx_imm, immediate, long(gLong.lval).msw, nil, 0); end {if} else if gLong.where = onStack then begin GenImplied(m_pla); GenImplied(m_plx); end; {else if} if op^.q = longToReal then GenCall(12) else GenCall(13); if toRealType <> cgReal then toRealType := cgExtended; end {else if} else if op^.q = realToWord then GenCall(14) else if op^.q = realToUbyte then begin GenCall(14); GenNative(m_and_imm, immediate, $00FF, nil, 0); end {else if} else if op^.q = realToByte then begin lab1 := GenLabel; GenCall(14); GenNative(m_and_imm, immediate, $00FF, nil, 0); GenNative(m_bit_imm, immediate, $0080, nil, 0); GenNative(m_beq, relative, lab1, nil, 0); GenNative(m_ora_imm, immediate, $FF00, nil, 0); GenLab(lab1); end {else if} else if op^.q = realToUword then GenCall(15) else if op^.q in [realToLong,realToUlong] then begin if op^.q & $00FF = 5 then GenCall(17) else GenCall(16); if (lLong.preference & A_X) <> 0 then gLong.where := A_X else begin gLong.where := onStack; GenImplied(m_phx); GenImplied(m_pha); end; {else} end {else if} else if op^.q = realToVoid then begin GenImplied(m_tsc); GenImplied(m_clc); GenNative(m_adc_imm, immediate, 10, nil, 0); GenImplied(m_tcs); end {else if} else if op^.q in [longToVoid,ulongToVoid] then begin if gLong.where = onStack then begin GenImplied(m_pla); GenImplied(m_plx); gLong.where := A_X; end; {if} end {else if} else if op^.q in [ubyteToQuad,ubyteToUQuad,uwordToQuad,uwordToUQuad] then begin GenNative(m_ldy_imm, immediate, 0, nil, 0); GenImplied(m_phy); GenImplied(m_phy); GenImplied(m_phy); GenImplied(m_pha); gQuad.where := onStack; end {else if} else if op^.q in [byteToQuad,byteToUQuad] then begin lab1 := GenLabel; GenNative(m_ldx_imm, immediate, 0, nil, 0); GenNative(m_bit_imm, immediate, $0080, nil, 0); GenNative(m_beq, relative, lab1, nil, 0); GenImplied(m_dex); GenNative(m_ora_imm, immediate, $FF00, nil, 0); GenLab(lab1); GenImplied(m_phx); GenImplied(m_phx); GenImplied(m_phx); GenImplied(m_pha); gQuad.where := onStack; end {else if} else if op^.q in [wordToQuad,wordToUQuad] then begin lab1 := GenLabel; GenNative(m_ldx_imm, immediate, 0, nil, 0); GenImplied(m_tay); GenNative(m_bpl, relative, lab1, nil, 0); GenImplied(m_dex); GenLab(lab1); GenImplied(m_phx); GenImplied(m_phx); GenImplied(m_phx); GenImplied(m_pha); gQuad.where := onStack; end {else if} else if op^.q in [ulongToQuad,ulongToUQuad] then begin if gLong.where = A_X then begin GenNative(m_pea, immediate, 0, nil, 0); GenNative(m_pea, immediate, 0, nil, 0); GenImplied(m_phx); GenImplied(m_pha); end {if} else if gLong.where = constant then begin GenNative(m_pea, immediate, 0, nil, 0); GenNative(m_pea, immediate, 0, nil, 0); GenNative(m_pea, immediate, long(gLong.lval).msw, nil, 0); GenNative(m_pea, immediate, long(gLong.lval).lsw, nil, 0); end {else if} else {if gLong.where = onStack then} begin GenImplied(m_pla); GenImplied(m_plx); GenNative(m_pea, immediate, 0, nil, 0); GenNative(m_pea, immediate, 0, nil, 0); GenImplied(m_phx); GenImplied(m_pha); end; {else} gQuad.where := onStack; end {else if} else if op^.q in [longToQuad,longToUQuad] then begin if gLong.where = constant then begin if glong.lval < 0 then begin GenNative(m_pea, immediate, -1, nil, 0); GenNative(m_pea, immediate, -1, nil, 0); GenNative(m_pea, immediate, long(gLong.lval).msw, nil, 0); GenNative(m_pea, immediate, long(gLong.lval).lsw, nil, 0); end {if} else begin GenNative(m_pea, immediate, 0, nil, 0); GenNative(m_pea, immediate, 0, nil, 0); GenNative(m_pea, immediate, long(gLong.lval).msw, nil, 0); GenNative(m_pea, immediate, long(gLong.lval).lsw, nil, 0); end; {else} end {if} else begin GenNative(m_ldy_imm, immediate, 0, nil, 0); if gLong.where = onStack then begin GenImplied(m_pla); GenImplied(m_plx); end {if} else {if gLong.where = A_X then} GenNative(m_cpx_imm, immediate, 0, nil, 0); lab1 := GenLabel; GenNative(m_bpl, relative, lab1, nil, 0); GenImplied(m_dey); GenLab(lab1); GenImplied(m_phy); GenImplied(m_phy); GenImplied(m_phx); GenImplied(m_pha); end; {else} gQuad.where := onStack; end {else if} else if op^.q = realToQuad then begin GenCall(89); gQuad.where := onStack; end {else if} else if op^.q = realToUQuad then begin GenCall(90); gQuad.where := onStack; end {else if} else if op^.q in [quadToWord,uquadToWord,quadToUWord,uquadToUWord] then begin GenImplied(m_pla); GenImplied(m_plx); GenImplied(m_ply); GenImplied(m_ply); GenImplied(m_tay); end {else if} else if op^.q in [quadToUByte,uquadToUByte] then begin GenImplied(m_pla); GenImplied(m_plx); GenImplied(m_ply); GenImplied(m_ply); GenNative(m_and_imm, immediate, $00FF, nil, 0); end {else if} else if op^.q in [quadToByte,uquadToByte] then begin GenImplied(m_pla); GenImplied(m_plx); GenImplied(m_ply); GenImplied(m_ply); GenNative(m_and_imm, immediate, $00FF, nil, 0); lab1 := GenLabel; GenNative(m_bit_imm, immediate, $0080, nil, 0); GenNative(m_beq, relative, lab1, nil, 0); GenNative(m_ora_imm, immediate, $FF00, nil, 0); GenLab(lab1); end {else if} else if op^.q in [quadToLong,uquadToLong,quadToULong,uquadToULong] then begin GenImplied(m_pla); GenImplied(m_plx); GenImplied(m_ply); GenImplied(m_ply); if (lLong.preference & A_X) <> 0 then gLong.where := A_X else begin gLong.where := onStack; GenImplied(m_phx); GenImplied(m_pha); end; {else} end {else if} else if op^.q in [quadToVoid,uquadToVoid] then begin if gQuad.where = onStack then begin GenImplied(m_tsc); GenImplied(m_clc); GenNative(m_adc_imm, immediate, 8, nil, 0); GenImplied(m_tcs); end; {if} end {else if} else if op^.q = quadToReal then GenCall(83) else if op^.q = uquadToReal then GenCall(84) else if (op^.q & $000F) = cVoid then {do nothing} else if (op^.q & $000F) in [cLong,cULong] then if (lLong.preference & gLong.where) = 0 then begin if gLong.where = constant then begin GenNative(m_pea, immediate, long(gLong.lval).msw, nil, 0); GenNative(m_pea, immediate, long(gLong.lval).lsw, nil, 0); end {if} else if gLong.where = A_X then begin GenImplied(m_phx); GenImplied(m_pha); end; {else if} gLong.where := onStack; end; {if} if toRealType <> cgVoid then case toRealType of cgReal: GenCall(91); cgDouble: GenCall(92); cgComp: GenCall(93); cgExtended: ; end; {case} end; {GenCnv} procedure GenEquNeq (op: icptr; opcode: pcodes; lb: integer); { generate a pc_equ or pc_neq instruction } { } { parameters: } { op - node to generate the compare for } { opcode - Opcode that will use the result of the compare. } { If the result is used by a tjp or fjp, this procedure } { generates special code and does the branch internally. } { lb - For fjp, tjp, this is the label to branch to if } { the condition is satisfied. } var nd: icptr; {work node} num: integer; {constant to compare to} lab1,lab2,lab3: integer; {label numbers} bne: integer; {instruction for a pc_equ bne branch} beq: integer; {instruction for a pc_equ beq branch} lLong: longType; {local long value information} leftOp,rightOp: pcodes; {opcode codes to left, right} procedure DoOr (op: icptr); { or the two halves of a four byte value } { } { parameters: } { operand to or } var disp: integer; {disp of value on stack frame} begin {DoOr} with op^ do begin if opcode = pc_ldo then begin if smallMemoryModel then begin GenNative(m_lda_abs, absolute, q, lab, 0); GenNative(m_ora_abs, absolute, q+2, lab, 0); end {if} else begin GenNative(m_lda_long, longabsolute, q, lab, 0); GenNative(m_ora_long, longabsolute, q+2, lab, 0); end; {else} end {if} else begin disp := LabelToDisp(r) + q; if disp < 254 then begin GenNative(m_lda_dir, direct, disp, nil, 0); GenNative(m_ora_dir, direct, disp+2, nil, 0); end {if} else begin GenNative(m_ldx_imm, immediate, disp, nil, 0); GenNative(m_lda_dirX, direct, 0, nil, 0); GenNative(m_ora_dirX, direct, 2, nil, 0); end; {else} end; {else} end; {with} end; {DoOr} procedure DoCmp (op: icPtr); { compare a long value in A_X to a local or global scalar } { } { parameters: } { op - value to compare to } var disp: integer; {disp of value on stack frame} lab1: integer; {label numbers} begin {DoCmp} lab1 := GenLabel; with op^ do begin if opcode = pc_ldo then begin GenNative(m_cmp_abs, absolute, q, lab, 0); GenNative(m_bne, relative, lab1, nil, 0); GenNative(m_cpx_abs, absolute, q+2, lab, 0); end {if} else begin disp := LabelToDisp(r) + q; if disp < 254 then begin GenNative(m_cmp_dir, direct, disp, nil, 0); GenNative(m_bne, relative, lab1, nil, 0); GenNative(m_cpx_dir, direct, disp+2, nil, 0); end {if} else begin GenImplied(m_txy); GenNative(m_ldx_imm, immediate, disp, nil, 0); GenNative(m_cmp_dirX, direct, 0, nil, 0); GenNative(m_bne, relative, lab1, nil, 0); GenImplied(m_tya); GenNative(m_cmp_dirX, direct, 2, nil, 0); end; {else} end; {else} GenLab(lab1); end; {with} end; {DoCmp} begin {GenEquNeq} if op^.opcode = pc_equ then begin bne := m_bne; beq := m_beq; end {if} else begin bne := m_beq; beq := m_bne; end; {else} if op^.left^.opcode in [pc_lod,pc_ldo] then begin nd := op^.left; op^.left := op^.right; op^.right := nd; end; {if} if op^.left^.opcode = pc_ldc then begin nd := op^.left; op^.left := op^.right; op^.right := nd; end; {if} leftOp := op^.left^.opcode; {set op codes for fast access} rightOp := op^.right^.opcode; if (op^.optype in [cgByte,cgUByte,cgWord,cgUWord]) and (rightOp = pc_ldc) then begin GenTree(op^.left); num := op^.right^.q; lab1 := GenLabel; if opcode in [pc_fjp,pc_tjp] then begin if num <> 0 then GenNative(m_cmp_imm, immediate, num, nil, 0) else if NeedsCondition(leftOp) then GenImplied(m_tay); if opcode = pc_fjp then GenNative(beq, relative, lab1, nil, 0) else GenNative(bne, relative, lab1, nil, 0); GenNative(m_brl, longrelative, lb, nil, 0); GenLab(lab1); end {if} else begin GenNative(m_ldx_imm, immediate, 0, nil, 0); GenNative(m_cmp_imm, immediate, num, nil, 0); GenNative(bne, relative, lab1, nil, 0); GenImplied(m_inx); GenLab(lab1); GenImplied(m_txa); end; {else} end {if} else if (op^.optype in [cgLong,cgULong]) and (leftOp in [pc_ldo,pc_lod]) and (rightOp = pc_ldc) and (op^.right^.lval = 0) then begin if opcode in [pc_fjp,pc_tjp] then begin DoOr(op^.left); lab1 := GenLabel; if opcode = pc_fjp then GenNative(beq, relative, lab1, nil, 0) else GenNative(bne, relative, lab1, nil, 0); GenNative(m_brl, longrelative, lb, nil, 0); GenLab(lab1); end {if} else if op^.opcode = pc_equ then begin lab1 := GenLabel; lab2 := GenLabel; DoOr(op^.left); GenNative(bne, relative, lab1, nil, 0); GenNative(m_lda_imm, immediate, 1, nil, 0); GenNative(m_bra, relative, lab2, nil, 0); GenLab(lab1); GenNative(m_lda_imm, immediate, 0, nil, 0); GenLab(lab2); end {else if} else {if op^.opcode = pc_neq then} begin lab1 := GenLabel; DoOr(op^.left); GenNative(m_beq, relative, lab1, nil, 0); GenNative(m_lda_imm, immediate, 1, nil, 0); GenLab(lab1); end; {else if} end {else if} else if (op^.optype in [cgLong,cgULong]) and (rightOp in [pc_ldo,pc_lod]) then begin gLong.preference := A_X; GenTree(op^.left); if gLong.where = onStack then begin GenImplied(m_pla); GenImplied(m_plx); end; {if} if opcode in [pc_fjp,pc_tjp] then begin DoCmp(op^.right); lab1 := GenLabel; if opcode = pc_fjp then GenNative(beq, relative, lab1, nil, 0) else GenNative(bne, relative, lab1, nil, 0); GenNative(m_brl, longrelative, lb, nil, 0); GenLab(lab1); end {if} else begin lab1 := GenLabel; lab2 := GenLabel; DoCmp(op^.right); GenNative(bne, relative, lab1, nil, 0); GenNative(m_lda_imm, immediate, 1, nil, 0); GenNative(m_bra, relative, lab2, nil, 0); GenLab(lab1); GenNative(m_lda_imm, immediate, 0, nil, 0); GenLab(lab2); end; {else} end {else if} else case op^.optype of cgByte,cgUByte,cgWord,cgUWord: begin if not Complex(op^.left) then if Complex(op^.right) then begin nd := op^.left; op^.left := op^.right; op^.right := nd; end; {if} GenTree(op^.left); if Complex(op^.right) or (not (opcode in [pc_fjp,pc_tjp])) then begin GenImplied(m_pha); GenTree(op^.right); GenImplied(m_sec); GenNative(m_sbc_s, direct, 1, nil, 0); GenImplied(m_plx); GenImplied(m_tax); if opcode in [pc_fjp,pc_tjp] then begin lab1 := GenLabel; if opcode = pc_fjp then GenNative(beq, relative, lab1, nil, 0) else GenNative(bne, relative, lab1, nil, 0); GenNative(m_brl, longrelative, lb, nil, 0); GenLab(lab1); end {if} else begin lab1 := GenLabel; GenNative(m_beq, relative, lab1, nil, 0); GenNative(m_lda_imm, immediate, 1, nil, 0); GenLab(lab1); if op^.opcode = pc_equ then GenNative(m_eor_imm, immediate, 1, nil, 0); end; {else} end {if} else begin OperA(m_cmp_imm, op^.right); lab1 := GenLabel; if opcode = pc_fjp then GenNative(beq, relative, lab1, nil, 0) else GenNative(bne, relative, lab1, nil, 0); GenNative(m_brl, longrelative, lb, nil, 0); GenLab(lab1); end; {else} end; {case optype of cgByte,cgUByte,cgWord,cgUWord} cgLong,cgULong: begin gLong.preference := onStack; GenTree(op^.left); lLong := gLong; gLong.preference := A_X; GenTree(op^.right); if gLong.where = onStack then begin GenImplied(m_pla); GenImplied(m_plx); end; {if} GenNative(m_ldy_imm, immediate, 1, nil, 0); GenNative(m_cmp_s, direct, 1, nil, 0); lab1 := GenLabel; GenNative(m_beq, relative, lab1, nil, 0); GenImplied(m_dey); GenLab(lab1); GenImplied(m_txa); GenNative(m_cmp_s, direct, 3, nil, 0); lab1 := GenLabel; GenNative(m_beq, relative, lab1, nil, 0); GenNative(m_ldy_imm, immediate, 0, nil, 0); GenLab(lab1); GenImplied(m_pla); GenImplied(m_pla); GenImplied(m_tya); if opcode in [pc_fjp,pc_tjp] then begin lab1 := GenLabel; if opcode = pc_fjp then GenNative(bne, relative, lab1, nil, 0) else GenNative(beq, relative, lab1, nil, 0); GenNative(m_brl, longrelative, lb, nil, 0); GenLab(lab1); end {if} else if op^.opcode = pc_neq then GenNative(m_eor_imm, immediate, 1, nil, 0); end; {case optype of cgLong,cgULong} cgReal,cgDouble,cgComp,cgExtended: begin GenTree(op^.left); GenTree(op^.right); GenCall(36); if opcode in [pc_fjp,pc_tjp] then begin lab1 := GenLabel; if opcode = pc_fjp then GenNative(bne, relative, lab1, nil, 0) else GenNative(beq, relative, lab1, nil, 0); GenNative(m_brl, longrelative, lb, nil, 0); GenLab(lab1); end {if} else if op^.opcode = pc_neq then GenNative(m_eor_imm, immediate, 1, nil, 0); end; {case optype of cgReal..cgExtended} cgQuad,cgUQuad: begin if SimpleQuadLoad(op^.left) and (op^.right^.opcode = pc_ldc) and (op^.right^.qval.hi = 0) and (op^.right^.qval.lo = 0) then begin lab1 := GenLabel; OpOnWordOfQuad(m_lda_imm, op^.left, 0); if not volatile then GenNative(m_bne, relative, lab1, nil, 0); OpOnWordOfQuad(m_ora_imm, op^.left, 2); OpOnWordOfQuad(m_ora_imm, op^.left, 4); OpOnWordOfQuad(m_ora_imm, op^.left, 6); GenLab(lab1); end {if} else if SimpleQuadLoad(op^.left) and SimpleQuadLoad(op^.right) and not volatile then begin lab1 := GenLabel; OpOnWordOfQuad(m_lda_imm, op^.left, 0); OpOnWordOfQuad(m_eor_imm, op^.right, 0); GenNative(m_bne, relative, lab1, nil, 0); OpOnWordOfQuad(m_lda_imm, op^.left, 2); OpOnWordOfQuad(m_eor_imm, op^.right, 2); GenNative(m_bne, relative, lab1, nil, 0); OpOnWordOfQuad(m_lda_imm, op^.left, 4); OpOnWordOfQuad(m_eor_imm, op^.right, 4); GenNative(m_bne, relative, lab1, nil, 0); OpOnWordOfQuad(m_lda_imm, op^.left, 6); OpOnWordOfQuad(m_eor_imm, op^.right, 6); GenLab(lab1); end {if} else begin gQuad.preference := onStack; GenTree(op^.left); gQuad.preference := onStack; GenTree(op^.right); lab1 := GenLabel; lab2 := GenLabel; GenImplied(m_pla); GenImplied(m_plx); GenImplied(m_ply); GenNative(m_eor_s, direct, 3, nil, 0); GenNative(m_bne, relative, lab1, nil, 0); GenImplied(m_txa); GenNative(m_eor_s, direct, 5, nil, 0); GenNative(m_bne, relative, lab1, nil, 0); GenImplied(m_tya); GenNative(m_eor_s, direct, 7, nil, 0); GenNative(m_bne, relative, lab1, nil, 0); GenImplied(m_pla); GenNative(m_eor_s, direct, 7, nil, 0); GenNative(m_bra, relative, lab2, nil, 0); GenLab(lab1); GenImplied(m_plx); GenLab(lab2); GenImplied(m_tax); GenImplied(m_tsc); GenImplied(m_clc); GenNative(m_adc_imm, immediate, 8, nil, 0); GenImplied(m_tcs); GenImplied(m_txa); end; {else} if opcode in [pc_fjp,pc_tjp] then begin lab3 := GenLabel; if opcode = pc_fjp then GenNative(beq, relative, lab3, nil, 0) else GenNative(bne, relative, lab3, nil, 0); GenNative(m_brl, longrelative, lb, nil, 0); GenLab(lab3); end {if} else begin lab3 := GenLabel; GenNative(m_beq, relative, lab3, nil, 0); GenNative(m_lda_imm, immediate, 1, nil, 0); GenLab(lab3); if op^.opcode = pc_equ then GenNative(m_eor_imm, immediate, 1, nil, 0); end; {else} end; {case optype of cgQuad,cgUQuad} otherwise: Error(cge1); end; {case} end; {GenEquNeq} procedure GenGilGliGdlGld (op: icptr); { Generate code for a pc_gil, pc_gli, pc_gdl or pc_gld } var lab1: integer; {branch point} lab: stringPtr; {op^.lab} opcode: pcodes; {op^.opcode} q: integer; {op^.q} procedure DoGIncDec (opcode: pcodes; lab: stringPtr; p, q: integer); { Do a decrement or increment on a global four byte value } { } { parameters } { opcode - operation code } { lab - label } { q - disp to value } { p - number to ind/dec by } var lab1: integer; {branch point} begin {DoGIncDec} if smallMemoryModel then begin if opcode in [pc_gil,pc_gli] then begin lab1 := GenLabel; if p = 1 then begin GenNative(m_inc_abs, absolute, q, lab, 0); GenNative(m_bne, relative, lab1, nil, 0); end {if} else begin GenImplied(m_clc); GenNative(m_lda_abs, absolute, q, lab, 0); GenNative(m_adc_imm, immediate, p, nil, 0); GenNative(m_sta_abs, absolute, q, lab, 0); GenNative(m_bcc, relative, lab1, nil, 0); end; {else} GenNative(m_inc_abs, absolute, q+2, lab, 0); GenLab(lab1); end {if} else {if opcode in [pc_gdl,pc_gld] then} begin lab1 := GenLabel; if p = 1 then begin GenNative(m_lda_abs, absolute, q, lab, 0); GenNative(m_bne, relative, lab1, nil, 0); GenNative(m_dec_abs, absolute, q+2, lab, 0); GenLab(lab1); GenNative(m_dec_abs, absolute, q, lab, 0); end {if} else begin GenImplied(m_sec); GenNative(m_lda_abs, absolute, q, lab, 0); GenNative(m_sbc_imm, immediate, p, nil, 0); GenNative(m_sta_abs, absolute, q, lab, 0); GenNative(m_bcs, relative, lab1, nil, 0); GenNative(m_dec_abs, absolute, q+2, lab, 0); GenLab(lab1); end; {else} end {else} end {of smallMemoryModel} else begin if opcode in [pc_gil,pc_gli] then begin lab1 := GenLabel; GenImplied(m_clc); GenNative(m_lda_long, longabsolute, q, lab, 0); GenNative(m_adc_imm, immediate, p, nil, 0); GenNative(m_sta_long, longabsolute, q, lab, 0); GenNative(m_bcc, relative, lab1, nil, 0); GenNative(m_lda_long, longabsolute, q+2, lab, 0); GenImplied(m_ina); GenNative(m_sta_long, longabsolute, q+2, lab, 0); GenLab(lab1); end {if} else {if opcode in [pc_gdl,pc_gld] then} begin lab1 := GenLabel; GenImplied(m_sec); GenNative(m_lda_long, longabsolute, q, lab, 0); GenNative(m_sbc_imm, immediate, p, nil, 0); GenNative(m_sta_long, longabsolute, q, lab, 0); GenNative(m_bcs, relative, lab1, nil, 0); GenNative(m_lda_long, longabsolute, q+2, lab, 0); GenImplied(m_dea); GenNative(m_sta_long, longabsolute, q+2, lab, 0); GenLab(lab1); end; {else if} end; {else} end; {DoGIncDec} begin {GenGilGliGdlGld} opcode := op^.opcode; q := op^.q; lab := op^.lab; case op^.optype of cgWord, cgUWord: begin if opcode = pc_gil then GenNative(m_inc_abs, absolute, q, lab, 0) else if opcode = pc_gdl then GenNative(m_dec_abs, absolute, q, lab, 0); if not skipLoad then GenNative(m_lda_abs, absolute, q, lab, 0); if opcode = pc_gli then GenNative(m_inc_abs, absolute, q, lab, 0) else if opcode = pc_gld then GenNative(m_dec_abs, absolute, q, lab, 0); end; cgByte, cgUByte: begin GenNative(m_sep, immediate, 32, nil, 0); if opcode = pc_gil then GenNative(m_inc_abs, absolute, q, lab, 0) else if opcode = pc_gdl then GenNative(m_dec_abs, absolute, q, lab, 0); if not skipLoad then GenNative(m_lda_abs, absolute, q, lab, 0); if opcode = pc_gli then GenNative(m_inc_abs, absolute, q, lab, 0) else if opcode = pc_gld then GenNative(m_dec_abs, absolute, q, lab, 0); GenNative(m_rep, immediate, 32, nil, 0); if not skipLoad then begin GenNative(m_and_imm, immediate, 255, nil, 0); if op^.optype = cgByte then begin GenNative(m_bit_imm, immediate, $0080, nil, 0); lab1 := GenLabel; GenNative(m_beq, relative, lab1, nil, 0); GenNative(m_ora_imm, immediate, $FF00, nil, 0); GenLab(lab1); GenNative(m_cmp_imm, immediate, $0000, nil, 0); end; {if} end; {if} end; cgLong, cgULong: begin if (A_X & gLong.preference) <> 0 then gLong.where := A_X else gLong.where := onStack; if opcode in [pc_gil,pc_gdl] then DoGIncDec(opcode, lab, op^.r, q); if not skipLoad then if smallMemoryModel then begin GenNative(m_ldx_abs, absolute, q+2, lab, 0); GenNative(m_lda_abs, absolute, q, lab, 0); if (opcode in [pc_gli,pc_gld]) and (op^.r <> 1) then gLong.where := onStack; if gLong.where = onStack then begin GenImplied(m_phx); GenImplied(m_pha); end; {if} end {if} else begin if opcode in [pc_gli,pc_gld] then gLong.where := onStack; GenNative(m_lda_long, longabsolute, q+2, lab, 0); if gLong.where = onStack then GenImplied(m_pha) else GenImplied(m_tax); GenNative(m_lda_long, longabsolute, q, lab, 0); if gLong.where = onStack then GenImplied(m_pha); end; {else} if opcode in [pc_gli,pc_gld] then DoGIncDec(opcode, lab, op^.r, q); end; {case cgLong,cgULong} otherwise: Error(cge1); end; {case} end; {GenGilGliGdlGld} procedure GenIilIliIdlIld (op: icptr); { Generate code for a pc_iil, pc_ili, pc_idl or pc_ild } var i: integer; {index variable} lab1: integer; {label} lSkipLoad: boolean; {copy of skipLoad} opcode: pcodes; {op^.opcode} short: boolean; {doing a one byte operand?} begin {GenIilIliIdlIld} opcode := op^.opcode; case op^.optype of cgByte,cgUByte,cgWord,cgUWord: begin short := op^.optype in [cgByte,cgUByte]; lSkipLoad := skipLoad; skipLoad := false; GetPointer(op^.left); skipLoad := lSkipLoad; if gLong.where = inPointer then begin if short then GenNative(m_sep, immediate, 32, nil, 0); if gLong.fixedDisp then GenNative(m_lda_indl, direct, gLong.disp, nil, 0) else GenNative(m_lda_indly, direct, gLong.disp, nil, 0); if opcode in [pc_ili,pc_iil] then GenImplied(m_ina) else GenImplied(m_dea); if gLong.fixedDisp then GenNative(m_sta_indl, direct, gLong.disp, nil, 0) else GenNative(m_sta_indly, direct, gLong.disp, nil, 0); if not skipLoad then if opcode = pc_ili then GenImplied(m_dea) else if opcode = pc_ild then GenImplied(m_ina); if short then GenNative(m_rep, immediate, 32, nil, 0); end {if} else if gLong.where = localAddress then begin gLong.disp := gLong.disp+op^.q; if gLong.fixedDisp then begin if short then GenNative(m_sep, immediate, 32, nil, 0); if (gLong.disp < 256) and (gLong.disp >= 0) then begin if (not skipLoad) and (opcode in [pc_ili,pc_ild]) then GenNative(m_lda_dir, direct, gLong.disp, nil, 0); if opcode in [pc_ili,pc_iil] then GenNative(m_inc_dir, direct, gLong.disp, nil, 0) else GenNative(m_dec_dir, direct, gLong.disp, nil, 0); if (not skipLoad) and (opcode in [pc_iil,pc_idl]) then GenNative(m_lda_dir, direct, gLong.disp, nil, 0); end {if} else begin GenNative(m_ldx_imm, immediate, gLong.disp, nil, 0); if (not skipLoad) and (opcode in [pc_ili,pc_ild]) then GenNative(m_lda_dirX, direct, 0, nil, 0); if opcode in [pc_ili,pc_iil] then GenNative(m_inc_dirX, direct, 0, nil, 0) else GenNative(m_dec_dirX, direct, 0, nil, 0); if (not skipLoad) and (opcode in [pc_iil,pc_idl]) then GenNative(m_lda_dirX, direct, 0, nil, 0); end; {else} if short then GenNative(m_rep, immediate, 32, nil, 0); end else begin if (gLong.disp > 255) or (gLong.disp < 0) then begin GenImplied(m_txa); GenImplied(m_clc); GenNative(m_adc_imm, immediate, gLong.disp, nil, 0); GenImplied(m_tax); gLong.disp := 0; end; {if} if short then GenNative(m_sep, immediate, 32, nil, 0); if (not skipLoad) and (opcode in [pc_ili,pc_ild]) then GenNative(m_lda_dirX, direct, gLong.disp, nil, 0); if opcode in [pc_ili,pc_iil] then GenNative(m_inc_dirX, direct, gLong.disp, nil, 0) else GenNative(m_dec_dirX, direct, gLong.disp, nil, 0); if (not skipLoad) and (opcode in [pc_iil,pc_idl]) then GenNative(m_lda_dirX, direct, gLong.disp, nil, 0); if short then GenNative(m_rep, immediate, 32, nil, 0); end; {else} end {else if} else {if gLong.where = globalLabel then} begin gLong.disp := gLong.disp+op^.q; if short then GenNative(m_sep, immediate, 32, nil, 0); if gLong.fixedDisp then if smallMemoryModel then begin if (not skipLoad) and (opcode in [pc_ili,pc_ild]) then GenNative(m_lda_abs, absolute, gLong.disp, gLong.lab, 0); if opcode in [pc_ili,pc_iil] then GenNative(m_inc_abs, absolute, gLong.disp, gLong.lab, 0) else GenNative(m_dec_abs, absolute, gLong.disp, gLong.lab, 0); if (not skipLoad) and (opcode in [pc_iil,pc_idl]) then GenNative(m_lda_abs, absolute, gLong.disp, gLong.lab, 0); end {if} else begin GenNative(m_lda_long, longAbs, gLong.disp, gLong.lab, 0); if opcode in [pc_ili,pc_iil] then GenImplied(m_ina) else GenImplied(m_dea); GenNative(m_sta_long, longAbs, gLong.disp, gLong.lab, 0); if not skipLoad then if opcode = pc_ili then GenImplied(m_dea) else if opcode = pc_ild then GenImplied(m_ina); end {else} else if smallMemoryModel then begin if (not skipLoad) and (opcode in [pc_ili,pc_ild]) then GenNative(m_lda_absX, absolute, gLong.disp, gLong.lab, 0); if opcode in [pc_ili,pc_iil] then GenNative(m_inc_absX, absolute, gLong.disp, gLong.lab, 0) else GenNative(m_dec_absX, absolute, gLong.disp, gLong.lab, 0); if (not skipLoad) and (opcode in [pc_iil,pc_idl]) then GenNative(m_lda_absX, absolute, gLong.disp, gLong.lab, 0); end {if} else begin GenNative(m_lda_longX, longAbs, gLong.disp, gLong.lab, 0); if opcode in [pc_ili,pc_iil] then GenImplied(m_ina) else GenImplied(m_dea); GenNative(m_sta_longX, longAbs, gLong.disp, gLong.lab, 0); if not skipLoad then if opcode = pc_ili then GenImplied(m_dea) else if opcode = pc_ild then GenImplied(m_ina); end; {else} if short then GenNative(m_rep, immediate, 32, nil, 0); end; {else} if not skipLoad then if short then begin GenNative(m_and_imm, immediate, $00FF, nil, 0); if op^.optype = cgByte then begin GenNative(m_bit_imm, immediate, $0080, nil, 0); lab1 := GenLabel; GenNative(m_beq, relative, lab1, nil, 0); GenNative(m_ora_imm, immediate, $FF00, nil, 0); GenLab(lab1); end; {if} end; {if} end; {case cgByte,cgUByte,cgWord,cgUWord} otherwise: Error(cge1); end; {case} end; {GenIilIliIdlIld} procedure GenIncDec (op, save: icptr); { generate code for pc_inc, pc_dec } { } { parameters: } { op - pc_inc or pc_dec operation } { save - save location (pc_str or pc_sro) or nil } var disp: integer; {disp in stack frame} lab1: integer; {branch point} opcode: pcodes; {temp storage for op code} size: integer; {number to increment by} clc,ina,adc: integer; {instructions to generate} begin {GenIncDec} {set up local variables} opcode := op^.opcode; size := op^.q; if op^.optype in [cgByte,cgUByte,cgWord,cgUWord] then begin GenTree(op^.left); if opcode = pc_inc then begin clc := m_clc; ina := m_ina; adc := m_adc_imm; end {if} else begin clc := m_sec; ina := m_dea; adc := m_sbc_imm; end; {else} if size = 1 then GenImplied(ina) else if size = 2 then begin GenImplied(ina); GenImplied(ina); end {else if} else if size <> 0 then begin GenImplied(clc); GenNative(adc, immediate, size, nil, 0); end; {else if} end {if} else if op^.optype in [cgLong,cgULong] then begin if SameLoc(op^.left, save) then begin lab1 := GenLabel; if size = 1 then begin if opcode = pc_inc then begin DoOp(0, m_inc_abs, m_inc_dir, op^.left, 0); GenNative(m_bne, relative, lab1, nil, 0); DoOp(0, m_inc_abs, m_inc_dir, op^.left, 2); GenLab(lab1); end {if} else {if opcode = pc_dec then} begin DoOp(m_lda_imm, m_lda_abs, m_lda_dir, op^.left, 0); GenNative(m_bne, relative, lab1, nil, 0); DoOp(0, m_dec_abs, m_dec_dir, op^.left, 2); GenLab(lab1); DoOp(0, m_dec_abs, m_dec_dir, op^.left, 0); end; {else} end {if} else if opcode = pc_inc then begin GenImplied(m_clc); DoOp(m_lda_imm, m_lda_abs, m_lda_dir, op^.left, 0); GenNative(m_adc_imm, immediate, size, nil, 0); DoOp(0, m_sta_abs, m_sta_dir, op^.left, 0); GenNative(m_bcc, relative, lab1, nil, 0); DoOp(0, m_inc_abs, m_inc_dir, op^.left, 2); GenLab(lab1); end {else if} else begin GenImplied(m_sec); DoOp(m_lda_imm, m_lda_abs, m_lda_dir, op^.left, 0); GenNative(m_sbc_imm, immediate, size, nil, 0); DoOp(0, m_sta_abs, m_sta_dir, op^.left, 0); GenNative(m_bcs, relative, lab1, nil, 0); DoOp(0, m_dec_abs, m_dec_dir, op^.left, 2); GenLab(lab1); end; {else} end {if} else begin if save <> nil then gLong.preference := A_X else gLong.preference := gLong.preference & (A_X | inpointer); if opcode = pc_dec then gLong.preference := gLong.preference & A_X; GenTree(op^.left); if opcode = pc_inc then IncAddr(size) else begin lab1 := GenLabel; if gLong.where = A_X then begin GenImplied(m_sec); GenNative(m_sbc_imm, immediate, size, nil, 0); GenNative(m_bcs, relative, lab1, nil, 0); GenImplied(m_dex); end {if} else begin GenImplied(m_sec); GenNative(m_lda_s, direct, 1, nil, 0); GenNative(m_sbc_imm, immediate, size, nil, 0); GenNative(m_sta_s, direct, 1, nil, 0); GenNative(m_bcs, relative, lab1, nil, 0); GenNative(m_lda_s, direct, 3, nil, 0); GenImplied(m_dea); GenNative(m_sta_s, direct, 3, nil, 0); end; {else} GenLab(lab1); end; {else} if save <> nil then if save^.opcode = pc_str then begin disp := LabelToDisp(save^.r) + save^.q; if disp < 254 then begin if gLong.where = onStack then GenImplied(m_pla); GenNative(m_sta_dir, direct, disp, nil, 0); if gLong.where = onStack then GenImplied(m_plx); GenNative(m_stx_dir, direct, disp+2, nil, 0); end {else if} else begin if gLong.where = A_X then GenImplied(m_txy); GenNative(m_ldx_imm, immediate, disp, nil, 0); if gLong.where = onStack then GenImplied(m_pla); GenNative(m_sta_dirX, direct, 0, nil, 0); if gLong.where = onStack then GenImplied(m_pla) else GenImplied(m_tya); GenNative(m_sta_dirX, direct, 2, nil, 0); end; {else} end {else if} else {if save^.opcode = pc_sro then} begin if gLong.where = onStack then GenImplied(m_pla); if smallMemoryModel then GenNative(m_sta_abs, absolute, save^.q, save^.lab, 0) else GenNative(m_sta_long, longabsolute, save^.q, save^.lab, 0); if smallMemoryModel then begin if gLong.where = onStack then GenImplied(m_plx); GenNative(m_stx_abs, absolute, save^.q+2, save^.lab, 0) end {if} else begin if gLong.where = onStack then GenImplied(m_pla) else GenImplied(m_txa); GenNative(m_sta_long, longabsolute, save^.q+2, save^.lab, 0); end; {else} end; {else} end; {else} end {else if} else Error(cge1); end; {GenIncDec} procedure GenInd (op: icptr); { Generate code for a pc_ind } var lab1: integer; {label} lLong: longType; {requested address type} lQuad: quadType; {requested quad address type} optype: baseTypeEnum; {op^.optype} q: integer; {op^.q} begin {GenInd} optype := op^.optype; q := op^.q; case optype of cgReal,cgDouble,cgComp,cgExtended: begin gLong.preference := onStack; GenTree(op^.left); if q <> 0 then IncAddr(q); if optype = cgReal then GenCall(21) else if optype = cgDouble then GenCall(22) else if optype = cgComp then GenCall(70) else if optype = cgExtended then GenCall(71); end; {case cgReal,cgDouble,cgComp,cgExtended} cgLong,cgULong: begin lLong := gLong; GetPointer(op^.left); if gLong.where = inPointer then begin if q = 0 then begin if gLong.fixedDisp then begin GenNative(m_ldy_imm, immediate, 2, nil, 0); GenNative(m_lda_indly, direct, gLong.disp, nil, 0); if (A_X & lLong.preference) <> 0 then GenImplied(m_tax) else GenImplied(m_pha); GenNative(m_lda_indl, direct, gLong.disp, nil, 0); end {if} else begin GenImplied(m_iny); GenImplied(m_iny); GenNative(m_lda_indly, direct, gLong.disp, nil, 0); if (A_X & lLong.preference) <> 0 then GenImplied(m_tax) else GenImplied(m_pha); GenImplied(m_dey); GenImplied(m_dey); GenNative(m_lda_indly, direct, gLong.disp, nil, 0); end; {else} if (A_X & lLong.preference) = 0 then GenImplied(m_pha); end {if q = 0} else begin if gLong.fixedDisp then begin GenNative(m_ldy_imm, immediate, q+2, nil, 0); GenNative(m_lda_indly, direct, gLong.disp, nil, 0); if (A_X & lLong.preference) <> 0 then GenImplied(m_tax) else GenImplied(m_pha); GenNative(m_ldy_imm, immediate, q, nil, 0); end {if} else begin GenImplied(m_tya); GenImplied(m_clc); GenNative(m_adc_imm, immediate, q+2, nil, 0); GenImplied(m_tay); GenNative(m_lda_indly, direct, gLong.disp, nil, 0); if (A_X & lLong.preference) <> 0 then GenImplied(m_tax) else GenImplied(m_pha); GenImplied(m_dey); GenImplied(m_dey); end; {else} GenNative(m_lda_indly, direct, gLong.disp, nil, 0); if (A_X & lLong.preference) = 0 then GenImplied(m_pha); end; {else} end {if glong.where = inPointer} else if gLong.where = localAddress then begin gLong.disp := gLong.disp+q; if gLong.fixedDisp then if (gLong.disp < 254) and (gLong.disp >= 0) then begin GenNative(m_lda_dir, direct, gLong.disp, nil, 0); GenNative(m_ldx_dir, direct, gLong.disp+2, nil, 0); end {if} else begin GenNative(m_ldx_imm, immediate, gLong.disp, nil, 0); GenNative(m_lda_dirX, direct, 0, nil, 0); GenNative(m_ldy_dirX, direct, 2, nil, 0); GenImplied(m_tyx); end {else} else begin if (gLong.disp >= 254) or (gLong.disp < 0) then begin GenImplied(m_txa); GenImplied(m_clc); GenNative(m_adc_imm, immediate, gLong.disp, nil, 0); GenImplied(m_tax); gLong.disp := 0; end; {if} GenNative(m_ldy_dirX, direct, gLong.disp+2, nil, 0); GenNative(m_lda_dirX, direct, gLong.disp, nil, 0); GenImplied(m_tyx); end; {else} if (A_X & lLong.preference) = 0 then begin GenImplied(m_phx); GenImplied(m_pha); end; {if} end {else if gLong.where = localAddress} else {if gLong.where = globalLabel then} begin gLong.disp := gLong.disp+q; if gLong.fixedDisp then if smallMemoryModel then begin GenNative(m_lda_abs, absolute, gLong.disp, gLong.lab, 0); GenNative(m_ldx_abs, absolute, gLong.disp+2, gLong.lab, 0); end {if} else begin GenNative(m_lda_long, longAbs, gLong.disp+2, gLong.lab, 0); GenImplied(m_tax); GenNative(m_lda_long, longAbs, gLong.disp, gLong.lab, 0); end {else} else if smallMemoryModel then begin GenNative(m_ldy_absX, absolute, gLong.disp+2, gLong.lab, 0); GenNative(m_lda_absX, absolute, gLong.disp, gLong.lab, 0); GenImplied(m_tyx); end {if} else begin GenNative(m_lda_longX, longAbs, gLong.disp+2, gLong.lab, 0); GenImplied(m_tay); GenNative(m_lda_longX, longAbs, gLong.disp, gLong.lab, 0); GenImplied(m_tyx); end; {else} if (A_X & lLong.preference) = 0 then begin GenImplied(m_phx); GenImplied(m_pha); end; {if} end; {else} if (A_X & lLong.preference) <> 0 then gLong.where := A_X else gLong.where := onStack; end; {cgLong,cgULong} cgByte,cgUByte,cgWord,cgUWord: begin GetPointer(op^.left); if gLong.where = inPointer then begin if q = 0 then if gLong.fixedDisp then GenNative(m_lda_indl, direct, gLong.disp, nil, 0) else GenNative(m_lda_indly, direct, gLong.disp, nil, 0) else if gLong.fixedDisp then begin GenNative(m_ldy_imm, immediate, q, nil, 0); GenNative(m_lda_indly, direct, gLong.disp, nil, 0) end {if} else begin GenImplied(m_tya); GenImplied(m_clc); GenNative(m_adc_imm, immediate, q, nil, 0); GenImplied(m_tay); GenNative(m_lda_indly, direct, gLong.disp, nil, 0) end; {else} end {if} else if gLong.where = localAddress then begin gLong.disp := gLong.disp+q; if gLong.fixedDisp then if (gLong.disp & $FF00) = 0 then GenNative(m_lda_dir, direct, gLong.disp, nil, 0) else begin GenNative(m_ldx_imm, immediate, gLong.disp, nil, 0); GenNative(m_lda_dirX, direct, 0, nil, 0); end {else} else if (gLong.disp & $FF00) = 0 then GenNative(m_lda_dirX, direct, gLong.disp, nil, 0) else begin GenImplied(m_txa); GenImplied(m_clc); GenNative(m_adc_imm, immediate, gLong.disp, nil, 0); GenImplied(m_tax); GenNative(m_lda_dirX, direct, 0, nil, 0); end {else} end {else if} else {if gLong.where = globalLabel then} begin gLong.disp := gLong.disp+q; if gLong.fixedDisp then if smallMemoryModel then GenNative(m_lda_abs, absolute, gLong.disp, gLong.lab, 0) else GenNative(m_lda_long, longAbs, gLong.disp, gLong.lab, 0) else if smallMemoryModel then GenNative(m_lda_absX, absolute, gLong.disp, gLong.lab, 0) else GenNative(m_lda_longX, longAbs, gLong.disp, gLong.lab, 0) end; {else} if optype in [cgByte,cgUByte] then begin GenNative(m_and_imm, immediate, 255, nil, 0); if optype = cgByte then begin GenNative(m_cmp_imm, immediate, 128, nil, 0); lab1 := GenLabel; GenNative(m_bcc, relative, lab1, nil, 0); GenNative(m_ora_imm, immediate, $FF00, nil, 0); GenLab(lab1); end; {if} end; {if} end; {case cgByte,cgUByte,cgWord,cgUWord} cgQuad,cgUQuad: begin lQuad := gQuad; GetPointer(op^.left); gQuad := lQuad; gQuad.where := gQuad.preference; {unless overridden later} if gLong.where = inPointer then begin if q = 0 then begin if gLong.fixedDisp then begin GenNative(m_ldy_imm, immediate, 6, nil, 0); GenNative(m_lda_indly, direct, gLong.disp, nil, 0); StoreWordOfQuad(6); GenImplied(m_dey); GenImplied(m_dey); GenNative(m_lda_indly, direct, gLong.disp, nil, 0); StoreWordOfQuad(4); GenImplied(m_dey); GenImplied(m_dey); GenNative(m_lda_indly, direct, gLong.disp, nil, 0); StoreWordOfQuad(2); GenNative(m_lda_indl, direct, gLong.disp, nil, 0); StoreWordOfQuad(0); end {if} else begin GenImplied(m_tya); GenImplied(m_clc); GenNative(m_adc_imm, immediate, 6, nil, 0); GenImplied(m_tay); GenNative(m_lda_indly, direct, gLong.disp, nil, 0); StoreWordOfQuad(6); GenImplied(m_dey); GenImplied(m_dey); GenNative(m_lda_indly, direct, gLong.disp, nil, 0); StoreWordOfQuad(4); GenImplied(m_dey); GenImplied(m_dey); GenNative(m_lda_indly, direct, gLong.disp, nil, 0); StoreWordOfQuad(2); GenImplied(m_dey); GenImplied(m_dey); GenNative(m_lda_indly, direct, gLong.disp, nil, 0); StoreWordOfQuad(0); end; {else} end {if q = 0} else begin if gLong.fixedDisp then begin GenNative(m_ldy_imm, immediate, q+6, nil, 0); GenNative(m_lda_indly, direct, gLong.disp, nil, 0); StoreWordOfQuad(6); GenImplied(m_dey); GenImplied(m_dey); GenNative(m_lda_indly, direct, gLong.disp, nil, 0); StoreWordOfQuad(4); GenImplied(m_dey); GenImplied(m_dey); GenNative(m_lda_indly, direct, gLong.disp, nil, 0); StoreWordOfQuad(2); GenImplied(m_dey); GenImplied(m_dey); GenNative(m_lda_indly, direct, gLong.disp, nil, 0); StoreWordOfQuad(0); end {if} else begin GenImplied(m_tya); GenImplied(m_clc); GenNative(m_adc_imm, immediate, q+6, nil, 0); GenImplied(m_tay); GenNative(m_lda_indly, direct, gLong.disp, nil, 0); StoreWordOfQuad(6); GenImplied(m_dey); GenImplied(m_dey); GenNative(m_lda_indly, direct, gLong.disp, nil, 0); StoreWordOfQuad(4); GenImplied(m_dey); GenImplied(m_dey); GenNative(m_lda_indly, direct, gLong.disp, nil, 0); StoreWordOfQuad(2); GenImplied(m_dey); GenImplied(m_dey); GenNative(m_lda_indly, direct, gLong.disp, nil, 0); StoreWordOfQuad(0); end; {else} end; {else} end {if glong.where = inPointer} else if gLong.where = localAddress then begin gLong.disp := gLong.disp+q; if gLong.fixedDisp then if (gLong.disp < 250) and (gLong.disp >= 0) then begin if gQuad.preference = onStack then begin GenNative(m_pei_dir, direct, gLong.disp+6, nil, 0); GenNative(m_pei_dir, direct, gLong.disp+4, nil, 0); GenNative(m_pei_dir, direct, gLong.disp+2, nil, 0); GenNative(m_pei_dir, direct, gLong.disp, nil, 0); end {if} else begin GenNative(m_lda_dir, direct, gLong.disp+6, nil, 0); StoreWordOfQuad(6); GenNative(m_lda_dir, direct, gLong.disp+4, nil, 0); StoreWordOfQuad(4); GenNative(m_lda_dir, direct, gLong.disp+2, nil, 0); StoreWordOfQuad(2); GenNative(m_lda_dir, direct, gLong.disp, nil, 0); StoreWordOfQuad(0); end; {else} end {if} else begin gQuad.where := onStack; GenNative(m_ldx_imm, immediate, gLong.disp, nil, 0); GenNative(m_lda_dirX, direct, 6, nil, 0); GenImplied(m_pha); GenNative(m_lda_dirX, direct, 4, nil, 0); GenImplied(m_pha); GenNative(m_lda_dirX, direct, 2, nil, 0); GenImplied(m_pha); GenNative(m_lda_dirX, direct, 0, nil, 0); GenImplied(m_pha); end {else} else begin gQuad.where := onStack; if (gLong.disp >= 250) or (gLong.disp < 0) then begin GenImplied(m_txa); GenImplied(m_clc); GenNative(m_adc_imm, immediate, gLong.disp, nil, 0); GenImplied(m_tax); gLong.disp := 0; end; {if} GenNative(m_lda_dirX, direct, gLong.disp+6, nil, 0); GenImplied(m_pha); GenNative(m_lda_dirX, direct, gLong.disp+4, nil, 0); GenImplied(m_pha); GenNative(m_lda_dirX, direct, gLong.disp+2, nil, 0); GenImplied(m_pha); GenNative(m_lda_dirX, direct, gLong.disp, nil, 0); GenImplied(m_pha); end; {else} end {else if gLong.where = localAddress} else {if gLong.where = globalLabel then} begin gLong.disp := gLong.disp+q; if gLong.fixedDisp then if smallMemoryModel then begin GenNative(m_lda_abs, absolute, gLong.disp+6, gLong.lab, 0); StoreWordOfQuad(6); GenNative(m_lda_abs, absolute, gLong.disp+4, gLong.lab, 0); StoreWordOfQuad(4); GenNative(m_lda_abs, absolute, gLong.disp+2, gLong.lab, 0); StoreWordOfQuad(2); GenNative(m_lda_abs, absolute, gLong.disp, gLong.lab, 0); StoreWordOfQuad(0); end {if} else begin GenNative(m_lda_long, longAbs, gLong.disp+6, gLong.lab, 0); StoreWordOfQuad(6); GenNative(m_lda_long, longAbs, gLong.disp+4, gLong.lab, 0); StoreWordOfQuad(4); GenNative(m_lda_long, longAbs, gLong.disp+2, gLong.lab, 0); StoreWordOfQuad(2); GenNative(m_lda_long, longAbs, gLong.disp, gLong.lab, 0); StoreWordOfQuad(6); end {else} else if smallMemoryModel then begin gQuad.where := onStack; GenNative(m_lda_absX, absolute, gLong.disp+6, gLong.lab, 0); GenImplied(m_pha); GenNative(m_lda_absX, absolute, gLong.disp+4, gLong.lab, 0); GenImplied(m_pha); GenNative(m_lda_absX, absolute, gLong.disp+2, gLong.lab, 0); GenImplied(m_pha); GenNative(m_lda_absX, absolute, gLong.disp, gLong.lab, 0); GenImplied(m_pha); end {if} else begin gQuad.where := onStack; GenNative(m_lda_longX, longAbs, gLong.disp+6, gLong.lab, 0); GenImplied(m_pha); GenNative(m_lda_longX, longAbs, gLong.disp+4, gLong.lab, 0); GenImplied(m_pha); GenNative(m_lda_longX, longAbs, gLong.disp+2, gLong.lab, 0); GenImplied(m_pha); GenNative(m_lda_longX, longAbs, gLong.disp, gLong.lab, 0); GenImplied(m_pha); end; {else} end; {else} end; {case cgQuad,cgUQuad} otherwise: Error(cge1); end; {case} end; {GenInd} procedure GenIxa (op: icptr); { Generate code for a pc_ixa } var lab1: integer; {branch label} lLong: longType; {type of address} zero: boolean; {is the index 0?} procedure Index; { Get the index size } var lLong: longType; {temp for preserving left node info} begin {Index} zero := false; with op^.right^ do begin if opcode = pc_ldc then begin if q = 0 then zero := true else GenNative(m_lda_imm, immediate, q, nil, 0); end {if} else begin lLong := gLong; GenTree(op^.right); gLong := lLong; end; {else} end; {with} end; {Index} function IndexCanBeNegative: boolean; { Check if the index value (right argument) of a pc_ixa } { can validly be negative. Returns false if this is } { precluded by the type of the operation or other available } { information, or if any use of a negative index would be } { undefined behavior. Otherwise, returns true. } { } { parameters: } { op - pc_ixa operation } begin {IndexCanBeNegative} IndexCanBeNegative := true; if op^.optype in [cgUByte,cgUWord] then IndexCanBeNegative := false else if (op^.right^.opcode = pc_ldc) and (op^.right^.q >= 0) then IndexCanBeNegative := false else if (op^.left^.opcode in [pc_lao,pc_lda]) and (op^.left^.q = 0) then {Can't index before start of array, so using a negative index would be UB} IndexCanBeNegative := false; end; {IndexCanBeNegative} begin {GenIxa} if smallMemoryModel then begin lLong := gLong; gLong.preference := inPointer+localAddress+globalLabel; GenTree(op^.left); case gLong.where of onStack: begin Index; if not zero then begin GenImplied(m_clc); GenNative(m_adc_s, direct, 1, nil, 0); GenNative(m_sta_s, direct, 1, nil, 0); lab1 := GenLabel; GenNative(m_bcc, relative, lab1, nil, 0); GenNative(m_lda_s, direct, 3, nil, 0); GenImplied(m_ina); GenNative(m_sta_s, direct, 3, nil, 0); GenLab(lab1); end; {if} end; {case onStack} inPointer: begin if not gLong.fixedDisp then begin if Complex(op^.right) then begin GenImplied(m_phy); Index; if not zero then begin GenImplied(m_clc); GenNative(m_adc_s, direct, 1, nil, 0); GenNative(m_sta_s, direct, 1, nil, 0); end; {if} GenImplied(m_ply); end {if} else begin GenImplied(m_tya); GenImplied(m_clc); OperA(m_adc_imm, op^.right); GenImplied(m_tay); end; {else} end {if} else begin Index; if not zero then begin GenImplied(m_tay); gLong.fixedDisp := false; end; {if} end; {else} if (inPointer & lLong.preference) = 0 then begin if not gLong.fixedDisp then begin GenImplied(m_tya); GenImplied(m_clc); GenNative(m_adc_dir, direct, gLong.disp, nil, 0); GenNative(m_ldx_dir, direct, gLong.disp+2, nil, 0); lab1 := GenLabel; GenNative(m_bcc, relative, lab1, nil, 0); GenImplied(m_inx); GenLab(lab1); end {if} else begin GenNative(m_ldx_dir, direct, gLong.disp+2, nil, 0); GenNative(m_lda_dir, direct, gLong.disp, nil, 0); end; {else} GenImplied(m_phx); GenImplied(m_pha); gLong.where := onStack; end; {if} end; {case inPointer} localAddress,globalLabel: begin if not gLong.fixedDisp then begin if Complex(op^.right) then begin GenImplied(m_phx); Index; if not zero then begin GenImplied(m_clc); GenNative(m_adc_s, direct, 1, nil, 0); GenNative(m_sta_s, direct, 1, nil, 0); end; {if} GenImplied(m_plx); end {if} else begin GenImplied(m_txa); GenImplied(m_clc); OperA(m_adc_imm, op^.right); GenImplied(m_tax); end; {else} end {if} else if Complex(op^.right) then begin Index; if not zero then begin GenImplied(m_tax); gLong.fixedDisp := false; end; {if} end {else if} else begin LoadX(op^.right); gLong.fixedDisp := false; end; {else} if gLong.where = globalLabel then if IndexCanBeNegative then begin if (gLong.disp >= 0) and (gLong.disp <= 2) then begin while gLong.disp > 0 do begin GenImplied(m_inx); gLong.disp := gLong.disp - 1; end; {while} end {if} else begin GenImplied(m_txa); GenImplied(m_clc); GenNative(m_adc_imm, immediate, gLong.disp, nil, 0); GenImplied(m_tax); gLong.disp := 0; end; {else} end; {if} if (lLong.preference & gLong.where) = 0 then begin if (lLong.preference & inPointer) <> 0 then begin if gLong.where = localAddress then begin if not gLong.fixedDisp then begin GenNative(m_stz_dir, direct, dworkLoc+2, nil, 0); GenImplied(m_phx); GenImplied(m_tdc); GenImplied(m_clc); if gLong.disp <> 0 then GenNative(m_adc_imm, immediate, gLong.disp, nil, 0); GenNative(m_adc_s, direct, 1, nil, 0); GenNative(m_sta_dir, direct, dworkLoc, nil, 0); GenImplied(m_plx); end {if} else begin GenNative(m_stz_dir, direct, dworkLoc+2, nil, 0); GenImplied(m_tdc); GenImplied(m_clc); GenNative(m_adc_imm, immediate, gLong.disp, nil, 0); GenNative(m_sta_dir, direct, dworkLoc, nil, 0); end; {else} end {if} else begin if not gLong.fixedDisp then begin GenImplied(m_txa); GenImplied(m_clc); GenNative(m_adc_imm, immediate, gLong.disp, gLong.lab, 0); GenNative(m_sta_dir, direct, dworkLoc, nil, 0); GenNative(m_ldx_imm, immediate, gLong.disp, gLong.lab, shift16); lab1 := GenLabel; GenNative(m_bcc, relative, lab1, nil, 0); GenImplied(m_inx); GenLab(lab1); GenNative(m_stx_dir, direct, dworkLoc+2, nil, 0); end {if} else begin GenNative(m_lda_imm, immediate, gLong.disp, gLong.lab, shift16); GenNative(m_sta_dir, direct, dworkLoc+2, nil, 0); GenNative(m_lda_imm, immediate, gLong.disp, gLong.lab, 0); GenNative(m_sta_dir, direct, dworkLoc, nil, 0); end; {else} end; {else} gLong.where := inPointer; gLong.fixedDisp := true; gLong.disp := dworkLoc; end {if} else begin if gLong.where = localAddress then begin if not gLong.fixedDisp then begin GenNative(m_pea, immediate, 0, nil, 0); GenImplied(m_phx); GenImplied(m_tdc); GenImplied(m_clc); GenNative(m_adc_s, direct, 1, nil, 0); if gLong.disp <> 0 then GenNative(m_adc_imm, immediate, gLong.disp, nil, 0); GenNative(m_sta_s, direct, 1, nil, 0); end {if} else begin GenNative(m_pea, immediate, 0, nil, 0); GenImplied(m_tdc); GenImplied(m_clc); GenNative(m_adc_imm, immediate, gLong.disp, nil, 0); GenImplied(m_pha); end; {else} end {if} else begin if not gLong.fixedDisp then begin GenImplied(m_txa); GenImplied(m_clc); GenNative(m_adc_imm, immediate, gLong.disp, gLong.lab, 0); GenNative(m_ldx_imm, immediate, gLong.disp, gLong.lab, shift16); lab1 := GenLabel; GenNative(m_bcc, relative, lab1, nil, 0); GenImplied(m_inx); GenLab(lab1); GenImplied(m_phx); GenImplied(m_pha); end {if} else begin GenNative(m_pea, immediate, gLong.disp, gLong.lab, shift16); GenNative(m_pea, immediate, gLong.disp, gLong.lab, 0); end; {else} end; {else} gLong.where := onStack; end; {else} end; {if} end; {case localAddress,globalLabel} otherwise: Error(cge1); end; {case} end {if smallMemoryModel} else begin gLong.preference := onStack; GenTree(op^.left); GenTree(op^.right); if IndexCanBeNegative then begin lab1 := GenLabel; GenNative(m_ldx_imm, immediate, $0000, nil, 0); GenImplied(m_tay); GenNative(m_bpl, relative, lab1, nil, 0); GenImplied(m_dex); GenLab(lab1); GenImplied(m_phx); GenImplied(m_pha); end {else if} else begin GenNative(m_pea, immediate, 0, nil, 0); GenImplied(m_pha); end; {else} GenImplied(m_clc); GenImplied(m_pla); GenNative(m_adc_s, direct, 3, nil, 0); GenNative(m_sta_s, direct, 3, nil, 0); GenImplied(m_pla); GenNative(m_adc_s, direct, 3, nil, 0); GenNative(m_sta_s, direct, 3, nil, 0); gLong.where := onStack; end; {else} end; {GenIxa} procedure GenLilLliLdlLld (op: icptr); { Generate code for a pc_lil, pc_lli, pc_ldl or pc_lld } var disp: integer; {load location} lab1: integer; {branch point} opcode: pcodes; {op^.opcode} procedure DoXIncDec (op: pcodes; p: integer); { Do a decrement or increment on a local four byte value X } { bytes into the stack frame } { } { parameters } { op - operation code } { p - number to ind/dec by } var lab1: integer; {branch point} begin {DoXIncDec} if op in [pc_lil,pc_lli] then begin lab1 := GenLabel; if p = 1 then begin GenNative(m_inc_dirx, direct, 0, nil, 0); GenNative(m_bne, relative, lab1, nil, 0); end {if} else begin GenImplied(m_clc); GenNative(m_lda_dirx, direct, 0, nil, 0); GenNative(m_adc_imm, immediate, p, nil, 0); GenNative(m_sta_dirx, direct, 0, nil, 0); GenNative(m_bcc, relative, lab1, nil, 0); end; {else} GenNative(m_inc_dirx, direct, 2, nil, 0); GenLab(lab1); end {if} else {if op in [pc_gdl,pc_gld] then} begin lab1 := GenLabel; if p = 1 then begin GenNative(m_lda_dirx, direct, 0, nil, 0); GenNative(m_bne, relative, lab1, nil, 0); GenNative(m_dec_dirx, direct, 2, nil, 0); GenLab(lab1); GenNative(m_dec_dirx, direct, 0, nil, 0); end {if} else begin GenImplied(m_sec); GenNative(m_lda_dirx, direct, 0, nil, 0); GenNative(m_sbc_imm, immediate, p, nil, 0); GenNative(m_sta_dirx, direct, 0, nil, 0); GenNative(m_bcs, relative, lab1, nil, 0); GenNative(m_dec_dirx, direct, 2, nil, 0); GenLab(lab1); end; {else} end; {else} end; {DoXIncDec} procedure DoLIncDec (op: pcodes; disp, p: integer); { Do a decrement or increment on a local four byte value } { } { parameters } { op - operation code } { disp - disp in stack frame to value } { p - number to ind/dec by } var lab1: integer; {branch point} begin {DoLIncDec} if op in [pc_lil,pc_lli] then begin lab1 := GenLabel; if p = 1 then begin GenNative(m_inc_dir, direct, disp, nil, 0); GenNative(m_bne, relative, lab1, nil, 0); end {if} else begin GenImplied(m_clc); GenNative(m_lda_dir, direct, disp, nil, 0); GenNative(m_adc_imm, immediate, p, nil, 0); GenNative(m_sta_dir, direct, disp, nil, 0); GenNative(m_bcc, relative, lab1, nil, 0); end; {else} GenNative(m_inc_dir, direct, disp+2, nil, 0); GenLab(lab1); end {if} else {if op in [pc_ldl,pc_lld] then} begin lab1 := GenLabel; if p = 1 then begin GenNative(m_lda_dir, direct, disp, nil, 0); GenNative(m_bne, relative, lab1, nil, 0); GenNative(m_dec_dir, direct, disp+2, nil, 0); GenLab(lab1); GenNative(m_dec_dir, direct, disp, nil, 0); end {if} else begin GenImplied(m_sec); GenNative(m_lda_dir, direct, disp, nil, 0); GenNative(m_sbc_imm, immediate, p, nil, 0); GenNative(m_sta_dir, direct, disp, nil, 0); GenNative(m_bcs, relative, lab1, nil, 0); GenNative(m_dec_dir, direct, disp+2, nil, 0); GenLab(lab1); end; {else} end; {else} end; {DoLIncDec} begin {GenLilLliLdlLld} disp := LabelToDisp(op^.r); opcode := op^.opcode; case op^.optype of cgLong, cgULong: begin gLong.where := onStack; if disp >= 254 then begin GenNative(m_ldx_imm, immediate, disp, nil, 0); if opcode in [pc_lil,pc_ldl] then DoXIncDec(opcode, op^.q); if not skipLoad then begin GenNative(m_lda_dirx, direct, 2, nil, 0); GenImplied(m_pha); GenNative(m_lda_dirx, direct, 0, nil, 0); GenImplied(m_pha); end {if} else gLong.where := A_X; if opcode in [pc_lli,pc_lld] then DoXIncDec(opcode, op^.q); end {if} else begin if opcode in [pc_lil,pc_ldl] then DoLIncDec(opcode, disp, op^.q); if not skipLoad then begin GenNative(m_pei_dir, direct, disp+2, nil, 0); GenNative(m_pei_dir, direct, disp, nil, 0); end {if} else gLong.where := A_X; if opcode in [pc_lli,pc_lld] then DoLIncDec(opcode, disp, op^.q); end; {else} end; cgByte, cgUByte, cgWord, cgUWord: begin if op^.optype in [cgByte,cgUByte] then GenNative(m_sep, immediate, 32, nil, 0); if disp >= 256 then begin GenNative(m_ldx_imm, immediate, disp, nil, 0); if opcode = pc_lil then GenNative(m_inc_dirx, direct, 0, nil, 0) else if opcode = pc_ldl then GenNative(m_dec_dirx, direct, 0, nil, 0); if not skipLoad then GenNative(m_lda_dirx, direct, 0, nil, 0); if opcode = pc_lli then GenNative(m_inc_dirx, direct, 0, nil, 0) else if opcode = pc_lld then GenNative(m_dec_dirx, direct, 0, nil, 0); end else begin if opcode = pc_lil then GenNative(m_inc_dir, direct, disp, nil, 0) else if opcode = pc_ldl then GenNative(m_dec_dir, direct, disp, nil, 0); if not skipLoad then GenNative(m_lda_dir, direct, disp, nil, 0); if opcode = pc_lli then GenNative(m_inc_dir, direct, disp, nil, 0) else if opcode = pc_lld then GenNative(m_dec_dir, direct, disp, nil, 0); end; {else} if op^.optype in [cgByte,cgUByte] then begin GenNative(m_rep, immediate, 32, nil, 0); if not skipLoad then begin GenNative(m_and_imm, immediate, $00FF, nil, 0); if op^.optype = cgByte then begin GenNative(m_bit_imm, immediate, $0080, nil, 0); lab1 := GenLabel; GenNative(m_beq, relative, lab1, nil, 0); GenNative(m_ora_imm, immediate, $FF00, nil, 0); GenLab(lab1); GenNative(m_cmp_imm, immediate, $0000, nil, 0); end; {if} end; {if} end; {if} end; otherwise: Error(cge1); end; {case} end; {GenLilLliLdlLld} procedure GenLogic (op: icptr); { generate a pc_and, pc_ior, pc_bnd, pc_bor or pc_bxr } var lab1,lab2: integer; {label} nd: icptr; {temp node pointer} opcode: pcodes; {operation code} begin {GenLogic} opcode := op^.opcode; if opcode in [pc_and,pc_ior] then begin lab1 := GenLabel; GenTree(op^.left); GenNative(m_cmp_imm, immediate, 0, nil, 0); lab2 := GenLabel; if opcode = pc_and then GenNative(m_bne, relative, lab2, nil, 0) else begin GenNative(m_beq, relative, lab2, nil, 0); GenNative(m_lda_imm, immediate, 1, nil, 0); end; {else} GenNative(m_brl, longrelative, lab1, nil, 0); GenLab(lab2); GenTree(op^.right); GenNative(m_cmp_imm, immediate, 0, nil, 0); GenNative(m_beq, relative, lab1, nil, 0); GenNative(m_lda_imm, immediate, 1, nil, 0); GenLab(lab1); end {if} else begin if not Complex(op^.left) then if Complex(op^.right) then begin nd := op^.left; op^.left := op^.right; op^.right := nd; end; {if} GenTree(op^.left); if Complex(op^.right) then begin GenImplied(m_pha); GenTree(op^.right); case opcode of pc_and,pc_bnd: GenNative(m_and_s, direct, 1, nil, 0); pc_ior,pc_bor: GenNative(m_ora_s, direct, 1, nil, 0); pc_bxr: GenNative(m_eor_s, direct, 1, nil, 0); otherwise: Error(cge1); end; {case} GenImplied(m_plx); GenImplied(m_tax); end {if} else case opcode of pc_and,pc_bnd: OperA(m_and_imm, op^.right); pc_ior,pc_bor: OperA(m_ora_imm, op^.right); pc_bxr: OperA(m_eor_imm, op^.right); otherwise: Error(cge1); end; {case} end; {else} end; {GenLogic} procedure GenSroCpo (op: icptr); { Generate code for a pc_sro or pc_cpo } var lab: stringPtr; {op^.lab} lab1: integer; {branch point} lval: longint; {op^.left^.lval} opcode: pcodes; {op^.opcode} optype: baseTypeEnum; {op^.optype} q: integer; {op^.q} special: boolean; {special save?} begin {GenSroCpo} opcode := op^.opcode; optype := op^.optype; q := op^.q; lab := op^.lab; case optype of cgByte, cgUByte: begin if smallMemoryModel and (op^.left^.opcode = pc_ldc) and (op^.left^.q = 0) and (opcode = pc_sro) then begin GenNative(m_sep, immediate, 32, nil, 0); GenNative(m_stz_abs, absolute, q, lab, 0); end {if} else begin if op^.opcode = pc_sro then if op^.left^.opcode = pc_cnv then if (op^.left^.q >> 4) in [ord(cgWord),ord(cgUWord)] then op^.left := op^.left^.left; if op^.left^.opcode in [pc_ldc,pc_ldc,pc_lod] then begin GenNative(m_sep, immediate, 32, nil, 0); GenTree(op^.left); end {if} else begin GenTree(op^.left); GenNative(m_sep, immediate, 32, nil, 0); end; {else} if smallMemoryModel then GenNative(m_sta_abs, absolute, q, lab, 0) else GenNative(m_sta_long, longabsolute, q, lab, 0); end; {else} GenNative(m_rep, immediate, 32, nil, 0); end; cgWord, cgUWord: if smallMemoryModel and (op^.left^.opcode = pc_ldc) and (op^.left^.q = 0) and (opcode = pc_sro) then GenNative(m_stz_abs, absolute, q, lab, 0) else begin GenTree(op^.left); if smallMemoryModel then GenNative(m_sta_abs, absolute, q, lab, 0) else GenNative(m_sta_long, longabsolute, q, lab, 0); end; {else} cgReal, cgDouble, cgComp, cgExtended: begin GenTree(op^.left); GenNative(m_pea, immediate, q, lab, shift16); GenNative(m_pea, immediate, q, lab, 0); if opcode = pc_sro then begin if optype = cgReal then GenCall(9) else if optype = cgDouble then GenCall(10) else if optype = cgComp then GenCall(66) else {if optype = cgExtended then} GenCall(67); end {if} else {if opcode = pc_cpo then} begin if optype = cgReal then begin GenCall(9); GenNative(m_pea, immediate, q, lab, shift16); GenNative(m_pea, immediate, q, lab, 0); GenCall(21); end {if} else if optype = cgDouble then begin GenCall(10); GenNative(m_pea, immediate, q, lab, shift16); GenNative(m_pea, immediate, q, lab, 0); GenCall(22); end {else if} else if optype = cgComp then begin GenCall(66); GenNative(m_pea, immediate, q, lab, shift16); GenNative(m_pea, immediate, q, lab, 0); GenCall(70); end {else if} else {if optype = cgExtended then} GenCall(69); end; {else} end; cgLong, cgULong: begin if (opcode = pc_sro) and (op^.left^.opcode in [pc_adl,pc_sbl]) then GenAdlSbl(op^.left, op) else if (opcode = pc_sro) and (op^.left^.opcode in [pc_inc,pc_dec]) then GenIncDec(op^.left, op) else if smallMemoryModel and (op^.left^.opcode = pc_ldc) then begin lval := op^.left^.lval; if long(lval).lsw = 0 then GenNative(m_stz_abs, absolute, q, lab, 0) else begin GenNative(m_lda_imm, immediate, long(lval).lsw, nil, 0); GenNative(m_sta_abs, absolute, q, lab, 0) end; {else} if long(lval).msw = 0 then GenNative(m_stz_abs, absolute, q+2, lab, 0) else begin GenNative(m_ldx_imm, immediate, long(lval).msw, nil, 0); GenNative(m_stx_abs, absolute, q+2, lab, 0) end; {else} if op^.opcode = pc_cpo then GenTree(op^.left); end {if} else begin if op^.opcode = pc_sro then gLong.preference := A_X | inPointer | localAddress | globalLabel | constant else gLong.preference := gLong.preference & (A_X | inPointer | localAddress | globalLabel | constant); GenTree(op^.left); case gLong.where of A_X: begin if smallMemoryModel then begin GenNative(m_stx_abs, absolute, q+2, lab, 0); GenNative(m_sta_abs, absolute, q, lab, 0); end {if} else begin GenNative(m_sta_long, longabsolute, q, lab, 0); if opcode = pc_cpo then GenImplied(m_pha); GenImplied(m_txa); GenNative(m_sta_long, longabsolute, q+2, lab, 0); if opcode = pc_cpo then GenImplied(m_pla); end; {else} end; onStack: begin if opcode = pc_sro then GenImplied(m_pla) else {if opcode = pc_cpo then} GenNative(m_lda_s, direct, 1, nil, 0); if smallMemoryModel then GenNative(m_sta_abs, absolute, q, lab, 0) else GenNative(m_sta_long, longabsolute, q, lab, 0); if opcode = pc_sro then GenImplied(m_pla) else {if opcode = pc_cpo then} GenNative(m_lda_s, direct, 3, nil, 0); if smallMemoryModel then GenNative(m_sta_abs, absolute, q+2, lab, 0) else GenNative(m_sta_long, longabsolute, q+2, lab, 0); end; inPointer: begin GenNative(m_ldx_dir, direct, gLong.disp+2, nil, 0); if gLong.fixedDisp then GenNative(m_lda_dir, direct, gLong.disp, nil, 0) else begin GenImplied(m_tya); GenImplied(m_clc); GenNative(m_adc_dir, direct, gLong.disp, nil, 0); if not smallMemoryModel then begin lab1 := GenLabel; GenNative(m_bcc, relative, lab1, nil, 0); GenImplied(m_inx); GenLab(lab1); end; {if} end; {else} if smallMemoryModel then begin GenNative(m_stx_abs, absolute, q+2, lab, 0); GenNative(m_sta_abs, absolute, q, lab, 0); end {if} else begin GenNative(m_sta_long, longabsolute, q, lab, 0); if opcode = pc_cpo then GenImplied(m_pha); GenImplied(m_txa); GenNative(m_sta_long, longabsolute, q+2, lab, 0); if opcode = pc_cpo then GenImplied(m_pla); end; {else} gLong.where := A_X; end; localAddress: begin if smallMemoryModel then GenNative(m_stz_abs, absolute, q+2, lab, 0) else begin GenNative(m_lda_imm, immediate, 0, nil, 0); GenNative(m_sta_long, longabsolute, q+2, lab, 0); end; {else} GenImplied(m_tdc); GenImplied(m_clc); GenNative(m_adc_imm, immediate, gLong.disp, nil, 0); if not gLong.fixedDisp then begin GenImplied(m_phx); GenNative(m_adc_s, direct, 1, nil, 0); GenImplied(m_plx); end; {if} if smallMemoryModel then GenNative(m_sta_abs, absolute, q, lab, 0) else GenNative(m_sta_long, longabsolute, q, lab, 0); end; globalLabel: if gLong.fixedDisp then begin if smallMemoryModel then begin GenNative(m_lda_imm, immediate, gLong.disp, gLong.lab, 0); GenNative(m_ldx_imm, immediate, gLong.disp, gLong.lab, shift16); GenNative(m_stx_abs, absolute, q+2, lab, 0); GenNative(m_sta_abs, absolute, q, lab, 0); end {if} else begin GenNative(m_lda_imm, immediate, gLong.disp, gLong.lab, shift16); GenNative(m_sta_long, longabsolute, q+2, lab, 0); if opcode = pc_cpo then GenImplied(m_tax); GenNative(m_lda_imm, immediate, gLong.disp, gLong.lab, 0); GenNative(m_sta_long, longabsolute, q, lab, 0); end; {else} gLong.where := A_X; end {if} else begin GenImplied(m_txa); GenImplied(m_clc); GenNative(m_adc_imm, immediate, gLong.disp, gLong.lab, 0); if smallMemoryModel then GenNative(m_sta_abs, absolute, q, lab, 0) else GenNative(m_sta_long, longabsolute, q, lab, 0); GenNative(m_lda_imm, immediate, gLong.disp, gLong.lab, shift16); GenNative(m_adc_imm, immediate, 0, nil, 0); if smallMemoryModel then GenNative(m_sta_abs, absolute, q+2, lab, 0) else GenNative(m_sta_long, longabsolute, q+2, lab, 0); end; {else} constant: begin if gLong.lval = 0 then begin if smallMemoryModel then begin GenNative(m_stz_abs, absolute, q+2, lab, 0); GenNative(m_stz_abs, absolute, q, lab, 0); end {if} else begin GenNative(m_lda_imm, immediate, 0, nil, 0); GenNative(m_sta_long, longabsolute, q+2, lab, 0); GenNative(m_sta_long, longabsolute, q, lab, 0); end; {else} end {if} else if not smallMemoryModel then begin GenNative(m_lda_imm, immediate, long(gLong.lval).msw, nil, 0); GenNative(m_sta_long, longabsolute, q+2, lab, 0); GenNative(m_lda_imm, immediate, long(gLong.lval).lsw, nil, 0); GenNative(m_sta_long, longabsolute, q, lab, 0); end {else if} else begin if long(gLong.lval).msw = 0 then GenNative(m_stz_abs, absolute, q+2, lab, 0) else begin GenNative(m_ldx_imm, immediate, long(gLong.lval).msw, nil, 0); GenNative(m_stx_abs, absolute, q+2, lab, 0); end; {else} if long(gLong.lval).lsw = 0 then GenNative(m_stz_abs, absolute, q, lab, 0) else begin GenNative(m_lda_imm, immediate, long(gLong.lval).lsw, nil, 0); GenNative(m_sta_abs, absolute, q, lab, 0); end; {else} if (long(gLong.lval).lsw <> 0) and (long(gLong.lval).msw <> 0) then gLong.where := A_X; end; {else} end; {case constant} otherwise: Error(cge1); end; {case} end; {else} end; {case CGLong, cgULong} cgQuad, cgUQuad: begin if opcode = pc_sro then begin gQuad.preference := globalLabel; gQuad.lab := lab; gQuad.disp := q; end {if} else {if opcode = pc_cpo then} gQuad.preference := onStack; GenTree(op^.left); if gQuad.where = onStack then begin if opcode = pc_sro then GenImplied(m_pla) else {if opcode = pc_cpo then} GenNative(m_lda_s, direct, 1, nil, 0); if smallMemoryModel then GenNative(m_sta_abs, absolute, q, lab, 0) else GenNative(m_sta_long, longabsolute, q, lab, 0); if opcode = pc_sro then GenImplied(m_pla) else {if opcode = pc_cpo then} GenNative(m_lda_s, direct, 3, nil, 0); if smallMemoryModel then GenNative(m_sta_abs, absolute, q+2, lab, 0) else GenNative(m_sta_long, longabsolute, q+2, lab, 0); if opcode = pc_sro then GenImplied(m_pla) else {if opcode = pc_cpo then} GenNative(m_lda_s, direct, 5, nil, 0); if smallMemoryModel then GenNative(m_sta_abs, absolute, q+4, lab, 0) else GenNative(m_sta_long, longabsolute, q+4, lab, 0); if opcode = pc_sro then GenImplied(m_pla) else {if opcode = pc_cpo then} GenNative(m_lda_s, direct, 7, nil, 0); if smallMemoryModel then GenNative(m_sta_abs, absolute, q+6, lab, 0) else GenNative(m_sta_long, longabsolute, q+6, lab, 0); end; {if} end; {case cgQuad, cgUQuad} end; {case} end; {GenSroCpo} procedure GenStoCpi (op: icptr); { Generate code for a pc_sto or pc_cpi } var disp: integer; {disp in stack frame} opcode: pcodes; {temp storage for op code} optype: baseTypeEnum; {operand type} short: boolean; {use short registers?} simple: boolean; {is the load a simple load?} lLong: longType; {address record for left node} zero: boolean; {is the operand a constant zero?} lab1: integer; {label} procedure LoadLSW; { load the least significant word of a four byte value } begin {LoadLSW} if lLong.where = onStack then if opcode = pc_sto then GenImplied(m_pla) else GenNative(m_lda_s, direct, 1, nil, 0) else {if lLong.where = constant then} GenNative(m_lda_imm, immediate, long(lLong.lval).lsw, nil, 0); end; {LoadLSW} procedure LoadMSW; { load the most significant word of a four byte value } { } { Note: LoadLSW MUST be called first! } begin {LoadMSW} if lLong.where = onStack then if opcode = pc_sto then GenImplied(m_pla) else GenNative(m_lda_s, direct, 3, nil, 0) else {if lLong.where = constant then} GenNative(m_lda_imm, immediate, long(lLong.lval).msw, nil, 0); end; {LoadMSW} procedure LoadWord; { Get the operand for a cgByte, cgUByte, cgWord or cgUWord } { into the accumulator } begin {LoadWord} if simple then begin with op^.right^ do if opcode = pc_ldc then GenNative(m_lda_imm, immediate, q, nil, 0) else if opcode = pc_lod then GenNative(m_lda_dir, direct, LabelToDisp(r) + q, nil, 0) else {if opcode = pc_ldo then} if smallMemoryModel then GenNative(m_lda_abs, absolute, q, lab, 0) else GenNative(m_lda_long, longabsolute, q, lab, 0); if not short then if op^.right^.optype in [cgByte,cgUByte] then if op^.right^.opcode <> pc_ldc then begin GenNative(m_and_imm, immediate, $00FF, nil, 0); if optype = cgByte then begin GenNative(m_bit_imm, immediate, $0080, nil, 0); lab1 := GenLabel; GenNative(m_beq, relative, lab1, nil, 0); GenNative(m_ora_imm, immediate, $FF00, nil, 0); GenLab(lab1); end; {if} end; {if} end {if} else begin GenImplied(m_pla); if short then GenNative(m_sep, immediate, 32, nil, 0); end {else} end; {LoadWord} begin {GenStoCpi} opcode := op^.opcode; optype := op^.optype; case optype of cgReal,cgDouble,cgComp,cgExtended: begin if opcode = pc_sto then begin GenTree(op^.right); gLong.preference := onStack; GenTree(op^.left); if optype = cgReal then GenCall(9) else if optype = cgDouble then GenCall(10) else if optype = cgComp then GenCall(66) else {if optype = cgExtended then} GenCall(67); end {if} else {if opcode = pc_cpi then} begin if optype = cgExtended then begin GenTree(op^.right); gLong.preference := onStack; GenTree(op^.left); GenCall(69); end {if} else begin gLong.preference := onStack; GenTree(op^.left); GenTree(op^.right); GenNative(m_lda_s, direct, 13, nil, 0); GenImplied(m_pha); GenNative(m_lda_s, direct, 13, nil, 0); GenImplied(m_pha); if optype = cgReal then begin GenCall(9); GenCall(21); end {if} else if optype = cgDouble then begin GenCall(10); GenCall(22); end {else if} else {if optype = cgComp then} begin GenCall(66); GenCall(70); end; {else} end; {else} end; {else} end; {case cgReal,cgDouble,cgComp,cgExtended} cgQuad,cgUQuad: begin gQuad.preference := onStack; if opcode = pc_sto then if op^.left^.opcode = pc_lod then begin disp := LabelToDisp(op^.left^.r) + op^.left^.q; if disp <= 255 then begin gQuad.preference := inPointer; gQuad.disp := disp; end; {if} end; {if} GenTree(op^.right); if gQuad.where = onStack then begin gLong.preference := A_X; GenTree(op^.left); if gLong.where = onStack then begin GenImplied(m_pla); GenImplied(m_plx); end; {if} GenNative(m_sta_dir, direct, dworkLoc, nil, 0); GenNative(m_stx_dir, direct, dworkLoc+2, nil, 0); if opcode = pc_sto then GenImplied(m_pla) else {if op^.opcode = pc_cpi then} GenNative(m_lda_s, direct, 1, nil, 0); GenNative(m_sta_indl, direct, dworkLoc, nil, 0); GenNative(m_ldy_imm, immediate, 2, nil, 0); if opcode = pc_sto then GenImplied(m_pla) else {if op^.opcode = pc_cpi then} GenNative(m_lda_s, direct, 3, nil, 0); GenNative(m_sta_indly, direct, dworkLoc, nil, 0); GenImplied(m_iny); GenImplied(m_iny); if opcode = pc_sto then GenImplied(m_pla) else {if op^.opcode = pc_cpi then} GenNative(m_lda_s, direct, 5, nil, 0); GenNative(m_sta_indly, direct, dworkLoc, nil, 0); GenImplied(m_iny); GenImplied(m_iny); if opcode = pc_sto then GenImplied(m_pla) else {if op^.opcode = pc_cpi then} GenNative(m_lda_s, direct, 7, nil, 0); GenNative(m_sta_indly, direct, dworkLoc, nil, 0); if op^.opcode = pc_cpi then gQuad.where := onStack; end; {if} end; {case cgQuad,cgUQuad} cgLong,cgULong: begin if opcode = pc_sto then gLong.preference := onStack+constant else gLong.preference := (onStack+constant) & gLong.preference; GenTree(op^.right); lLong := gLong; gLong.preference := localAddress+inPointer+globalLabel+A_X; GenTree(op^.left); if gLong.where = onStack then begin GenImplied(m_pla); GenNative(m_sta_dir, direct, dworkLoc, nil, 0); GenImplied(m_pla); GenNative(m_sta_dir, direct, dworkLoc+2, nil, 0); LoadLSW; GenNative(m_sta_indl, direct, dworkLoc, nil, 0); GenNative(m_ldy_imm, immediate, 2, nil, 0); LoadMSW; GenNative(m_sta_indly, direct, dworkLoc, nil, 0); end {if} else if gLong.where = A_X then begin GenNative(m_sta_dir, direct, dworkLoc, nil, 0); GenNative(m_stx_dir, direct, dworkLoc+2, nil, 0); LoadLSW; GenNative(m_sta_indl, direct, dworkLoc, nil, 0); GenNative(m_ldy_imm, immediate, 2, nil, 0); LoadMSW; GenNative(m_sta_indly, direct, dworkLoc, nil, 0); end {if} else if gLong.where = localAddress then begin LoadLSW; if gLong.fixedDisp then if (gLong.disp & $FF00) = 0 then GenNative(m_sta_dir, direct, gLong.disp, nil, 0) else begin GenNative(m_ldx_imm, immediate, gLong.disp, nil, 0); GenNative(m_sta_dirX, direct, 0, nil, 0); end {else} else begin if (gLong.disp >= 254) or (gLong.disp < 0) then begin GenImplied(m_tay); GenImplied(m_txa); GenImplied(m_clc); GenNative(m_adc_imm, immediate, gLong.disp, nil, 0); GenImplied(m_tax); GenImplied(m_tya); gLong.disp := 0; end; {if} GenNative(m_sta_dirX, direct, gLong.disp, nil, 0); end; {else} LoadMSW; if gLong.fixedDisp then if ((gLong.disp+2) & $FF00) = 0 then GenNative(m_sta_dir, direct, gLong.disp+2, nil, 0) else begin GenNative(m_ldx_imm, immediate, gLong.disp+2, nil, 0); GenNative(m_sta_dirX, direct, 0, nil, 0); end {else} else begin if (gLong.disp >= 254) or (gLong.disp < 0) then begin GenImplied(m_tay); GenImplied(m_txa); GenImplied(m_clc); GenNative(m_adc_imm, immediate, gLong.disp, nil, 0); GenImplied(m_tax); GenImplied(m_tya); gLong.disp := 0; end; {if} GenNative(m_sta_dirX, direct, gLong.disp+2, nil, 0); end; {else} end {else if} else if gLong.where = globalLabel then begin LoadLSW; if gLong.fixedDisp then if smallMemoryModel then GenNative(m_sta_abs, absolute, gLong.disp, gLong.lab, 0) else GenNative(m_sta_long, longAbs, gLong.disp, gLong.lab, 0) else if smallMemoryModel then GenNative(m_sta_absX, absolute, gLong.disp, gLong.lab, 0) else GenNative(m_sta_longX, longAbs, gLong.disp, gLong.lab, 0); LoadMSW; if gLong.fixedDisp then if smallMemoryModel then GenNative(m_sta_abs, absolute, gLong.disp+2, gLong.lab, 0) else GenNative(m_sta_long, longAbs, gLong.disp+2, gLong.lab, 0) else if smallMemoryModel then GenNative(m_sta_absX, absolute, gLong.disp+2, gLong.lab, 0) else GenNative(m_sta_longX, longAbs, gLong.disp+2, gLong.lab, 0); end {else if} else begin LoadLSW; if gLong.fixedDisp = true then begin GenNative(m_sta_indl, direct, gLong.disp, nil, 0); GenNative(m_ldy_imm, immediate, 2, nil, 0); end {if} else begin GenNative(m_sta_indlY, direct, gLong.disp, nil, 0); GenImplied(m_iny); GenImplied(m_iny); end; {else} LoadMSW; GenNative(m_sta_indly, direct, gLong.Disp, nil, 0); end; {else} gLong := lLong; end; {case cgLong,cgULong} cgByte,cgUByte,cgWord,cgUWord: begin short := optype in [cgByte,cgUByte]; simple := false; zero := false; if op^.opcode = pc_sto then begin if short then if op^.right^.opcode = pc_cnv then if (op^.right^.q >> 4) in [ord(cgWord),ord(cgUWord)] then op^.right := op^.right^.left; with op^.right^ do begin if opcode = pc_ldo then simple := true else if opcode = pc_lod then simple := LabelToDisp(r) + q < 256 else if opcode = pc_ldc then begin simple := true; zero := q = 0; end; {else if} end; {with} end; {if} if not (zero or simple) then begin GenTree(op^.right); GenImplied(m_pha); end; {if} GetPointer(op^.left); if gLong.where = inPointer then begin if short and simple then GenNative(m_sep, immediate, 32, nil, 0); if zero then GenNative(m_lda_imm, immediate, 0, nil, 0) else LoadWord; if gLong.fixedDisp then GenNative(m_sta_indl, direct, gLong.disp, nil, 0) else GenNative(m_sta_indlY, direct, gLong.disp, nil, 0); end {if} else if gLong.where = localAddress then begin if gLong.fixedDisp then begin if short and simple then GenNative(m_sep, immediate, 32, nil, 0); if (gLong.disp & $FF00) = 0 then if zero then GenNative(m_stz_dir, direct, gLong.disp, nil, 0) else begin LoadWord; GenNative(m_sta_dir, direct, gLong.disp, nil, 0); end {else} else begin if zero then begin GenNative(m_ldx_imm, immediate, gLong.disp, nil, 0); GenNative(m_stz_dirX, direct, 0, nil, 0); end {if} else begin LoadWord; GenNative(m_ldx_imm, immediate, gLong.disp, nil, 0); GenNative(m_sta_dirX, direct, 0, nil, 0); end; {else} end {else} end {if} else begin if (gLong.disp & $FF00) <> 0 then begin GenImplied(m_txa); GenImplied(m_clc); GenNative(m_adc_imm, immediate, glong.disp, nil, 0); GenImplied(m_tax); gLong.disp := 0; end; {if} if short and simple then GenNative(m_sep, immediate, 32, nil, 0); if zero then GenNative(m_stz_dirX, direct, gLong.disp, nil, 0) else begin LoadWord; GenNative(m_sta_dirX, direct, gLong.disp, nil, 0); end; {else} end; {else} end {else if} else {if gLong.where = globalLabel then} begin if short and simple then GenNative(m_sep, immediate, 32, nil, 0); if zero then begin if not smallMemoryModel then GenNative(m_lda_imm, immediate, 0, nil, 0); end {if} else LoadWord; if gLong.fixedDisp then if smallMemoryModel then if zero then GenNative(m_stz_abs, absolute, gLong.disp, gLong.lab, 0) else GenNative(m_sta_abs, absolute, gLong.disp, gLong.lab, 0) else GenNative(m_sta_long, longAbs, gLong.disp, gLong.lab, 0) else if smallMemoryModel then if zero then GenNative(m_stz_absX, absolute, gLong.disp, gLong.lab, 0) else GenNative(m_sta_absX, absolute, gLong.disp, gLong.lab, 0) else GenNative(m_sta_longX, longAbs, gLong.disp, gLong.lab, 0); end; {else} if short then begin GenNative(m_rep, immediate, 32, nil, 0); if opcode = pc_cpi then begin GenNative(m_and_imm, immediate, $00FF, nil, 0); if optype = cgByte then begin GenNative(m_bit_imm, immediate, $0080, nil, 0); lab1 := GenLabel; GenNative(m_beq, relative, lab1, nil, 0); GenNative(m_ora_imm, immediate, $FF00, nil, 0); GenLab(lab1); end; {if} end; {if} end; {if} end; {case cgByte,cgUByte,cgWord,cgUWord} otherwise: Error(cge1); end; {case} end; {GenStoCpi} procedure GenStrCop (op: icptr); { Generate code for a pc_str or pc_cop } var disp: integer; {store location} optype: baseTypeEnum; {op^.optype} special: boolean; {use special processing?} zero: boolean; {is the operand a constant zero?} begin {GenStrCop} disp := LabelToDisp(op^.r) + op^.q; optype := op^.optype; case optype of cgByte, cgUByte, cgWord, cgUWord: begin zero := false; if op^.left^.opcode = pc_ldc then if op^.opcode = pc_str then if op^.left^.q = 0 then zero := true; if not zero then begin if optype in [cgByte,cgUByte] then begin if op^.opcode = pc_str then if op^.left^.opcode = pc_cnv then if (op^.left^.q >> 4) in [ord(cgWord),ord(cgUWord)] then op^.left := op^.left^.left; if (op^.left^.opcode in [pc_ldc,pc_ldc,pc_lod]) and (op^.opcode = pc_str) then begin GenNative(m_sep, immediate, 32, nil, 0); GenTree(op^.left); end {if} else begin GenTree(op^.left); GenNative(m_sep, immediate, 32, nil, 0); end; {else} end {if} else GenTree(op^.left); end {if} else if optype in [cgByte,cgUByte] then GenNative(m_sep, immediate, 32, nil, 0); if disp > 255 then begin GenNative(m_ldx_imm, immediate, disp, nil, 0); if zero then GenNative(m_stz_dirx, direct, 0, nil, 0) else GenNative(m_sta_dirx, direct, 0, nil, 0); end {if} else if zero then GenNative(m_stz_dir, direct, disp, nil, 0) else GenNative(m_sta_dir, direct, disp, nil, 0); if optype in [cgByte,cgUByte] then GenNative(m_rep, immediate, 32, nil, 0); end; cgReal, cgDouble, cgComp, cgExtended: begin GenTree(op^.left); GenNative(m_pea, immediate, 0, nil, 0); GenImplied(m_tdc); GenImplied(m_clc); GenNative(m_adc_imm, immediate, disp, nil, 0); GenImplied(m_pha); if op^.opcode = pc_str then begin if optype = cgReal then GenCall(9) else if optype = cgDouble then GenCall(10) else if optype = cgComp then GenCall(66) else {if optype = cgExtended then} GenCall(67); end {if} else begin if optype = cgReal then begin GenCall(9); GenNative(m_pea, immediate, 0, nil, 0); GenImplied(m_tdc); GenImplied(m_clc); GenNative(m_adc_imm, immediate, disp, nil, 0); GenImplied(m_pha); GenCall(21); end {if} else if optype = cgDouble then begin GenCall(10); GenNative(m_pea, immediate, 0, nil, 0); GenImplied(m_tdc); GenImplied(m_clc); GenNative(m_adc_imm, immediate, disp, nil, 0); GenImplied(m_pha); GenCall(22); end {else if} else if optype = cgComp then begin GenCall(66); GenNative(m_pea, immediate, 0, nil, 0); GenImplied(m_tdc); GenImplied(m_clc); GenNative(m_adc_imm, immediate, disp, nil, 0); GenImplied(m_pha); GenCall(70); end {else if} else {if optype = cgExtended then} GenCall(69); end; {else} end; cgLong, cgULong: begin if (op^.opcode = pc_str) and (op^.left^.opcode in [pc_adl,pc_sbl]) then GenAdlSbl(op^.left, op) else if (op^.opcode = pc_str) and (op^.left^.opcode in [pc_inc,pc_dec]) then GenIncDec(op^.left, op) else begin if op^.opcode = pc_str then gLong.preference := A_X+onStack+inPointer+localAddress+globalLabel+constant else gLong.preference := onStack; GenTree(op^.left); case gLong.where of A_X: if disp < 254 then begin GenNative(m_stx_dir, direct, disp+2, nil, 0); GenNative(m_sta_dir, direct, disp, nil, 0); end {else if} else begin GenImplied(m_txy); GenNative(m_ldx_imm, immediate, disp, nil, 0); GenNative(m_sta_dirX, direct, 0, nil, 0); GenNative(m_sty_dirX, direct, 2, nil, 0); if op^.opcode = pc_cop then GenImplied(m_tyx); end; {else} onStack: if disp < 254 then begin if op^.opcode = pc_str then GenImplied(m_pla) else {if op^.opcode = pc_cop then} GenNative(m_lda_s, direct, 1, nil, 0); GenNative(m_sta_dir, direct, disp, nil, 0); if op^.opcode = pc_str then GenImplied(m_pla) else {if op^.opcode = pc_cop then} GenNative(m_lda_s, direct, 3, nil, 0); GenNative(m_sta_dir, direct, disp+2, nil, 0); end {else if} else begin GenNative(m_ldx_imm, immediate, disp, nil, 0); if op^.opcode = pc_str then GenImplied(m_pla) else {if op^.opcode = pc_cop then} GenNative(m_lda_s, direct, 1, nil, 0); GenNative(m_sta_dirX, direct, 0, nil, 0); if op^.opcode = pc_str then GenImplied(m_pla) else {if op^.opcode = pc_cop then} GenNative(m_lda_s, direct, 3, nil, 0); GenNative(m_sta_dirX, direct, 2, nil, 0); end; {else} inPointer: begin if (disp < 254) and (gLong.disp < 254) and gLong.fixedDisp and (disp >= 0) and (gLong.disp >= 0) then begin GenNative(m_lda_dir, direct, gLong.disp, nil, 0); GenNative(m_ldx_dir, direct, gLong.disp+2, nil, 0); GenNative(m_sta_dir, direct, disp, nil, 0); GenNative(m_stx_dir, direct, disp+2, nil, 0); end {if} else if (disp < 254) and (gLong.disp < 254) and (disp >= 0) and (gLong.disp >= 0) and (op^.opcode = pc_str) then begin GenImplied(m_tya); GenImplied(m_clc); GenNative(m_adc_dir, direct, gLong.disp, nil, 0); GenNative(m_sta_dir, direct, disp, nil, 0); GenNative(m_lda_dir, direct, gLong.disp+2, nil, 0); GenNative(m_adc_imm, immediate, 0, nil, 0); GenNative(m_sta_dir, direct, disp+2, nil, 0); end {else if} else begin GenNative(m_ldx_imm, immediate, disp, nil, 0); if not gLong.fixedDisp then begin GenImplied(m_tya); GenImplied(m_clc); GenNative(m_adc_dir, direct, gLong.disp, nil, 0); end {if} else GenNative(m_lda_dir, direct, gLong.disp, nil, 0); GenNative(m_sta_dirX, direct, 0, nil, 0); GenNative(m_lda_dir, direct, gLong.disp+2, nil, 0); if not gLong.fixedDisp then GenNative(m_adc_imm, immediate, 0, nil, 0); GenNative(m_sta_dirX, direct, 2, nil, 0); end; {else} end; localAddress: if disp < 254 then begin GenNative(m_stz_dir, direct, disp+2, nil, 0); GenImplied(m_tdc); GenImplied(m_clc); GenNative(m_adc_imm, immediate, gLong.disp, nil, 0); if not gLong.fixedDisp then begin GenImplied(m_phx); GenNative(m_adc_s, direct, 1, nil, 0); GenImplied(m_plx); end; {if} GenNative(m_sta_dir, direct, disp, nil, 0); end {else if disp < 254} else begin if not gLong.fixedDisp then GenImplied(m_phx); GenNative(m_ldx_imm, immediate, disp, nil, 0); GenImplied(m_tdc); GenImplied(m_clc); GenNative(m_adc_imm, immediate, gLong.disp, nil, 0); if not gLong.fixedDisp then GenNative(m_adc_s, direct, 1, nil, 0); GenNative(m_sta_dirX, direct, 0, nil, 0); GenNative(m_stz_dirX, direct, 2, nil, 0); if not gLong.fixedDisp then GenImplied(m_plx); end; {else} globalLabel: begin if not gLong.fixedDisp then GenImplied(m_txa); if disp > 253 then begin if op^.opcode = pc_cop then if not gLong.fixedDisp then GenImplied(m_tay) else GenImplied(m_txy); GenNative(m_ldx_imm, immediate, disp, nil, 0); end; {if} if gLong.fixedDisp then GenNative(m_lda_imm, immediate, gLong.disp, gLong.lab, 0) else begin GenImplied(m_clc); GenNative(m_adc_imm, immediate, gLong.disp, gLong.lab, 0); end; {else} if disp < 254 then GenNative(m_sta_dir, direct, disp, nil, 0) else GenNative(m_sta_dirX, direct, 0, nil, 0); GenNative(m_lda_imm, immediate, gLong.disp, gLong.lab, shift16); if not gLong.fixedDisp then GenNative(m_adc_imm, immediate, 0, nil, 0); if disp < 254 then GenNative(m_sta_dir, direct, disp+2, nil, 0) else begin GenNative(m_sta_dirX, direct, 2, nil, 0); if op^.opcode = pc_cop then GenImplied(m_tyx); end; {else} end; constant: if disp < 254 then begin GenNative(m_lda_imm, immediate, long(gLong.lval).lsw, nil, 0); GenNative(m_sta_dir, direct, disp, nil, 0); GenNative(m_lda_imm, immediate, long(gLong.lval).msw, nil, 0); GenNative(m_sta_dir, direct, disp+2, nil, 0); end {else} else begin GenNative(m_ldx_imm, immediate, disp, nil, 0); GenNative(m_lda_imm, immediate, long(gLong.lval).lsw, nil, 0); GenNative(m_sta_dirX, direct, 0, nil, 0); GenNative(m_lda_imm, immediate, long(gLong.lval).msw, nil, 0); GenNative(m_sta_dirX, direct, 2, nil, 0); end; {else} otherwise: Error(cge1); end; {case} end; {else} end; cgQuad, cgUQuad: begin if op^.opcode = pc_str then begin gQuad.preference := localAddress; gQuad.disp := disp; end {if} else {if op^.opcode = pc_cop then} gQuad.preference := onStack; GenTree(op^.left); if gQuad.where = onStack then begin if disp < 250 then begin if op^.opcode = pc_str then GenImplied(m_pla) else {if op^.opcode = pc_cop then} GenNative(m_lda_s, direct, 1, nil, 0); GenNative(m_sta_dir, direct, disp, nil, 0); if op^.opcode = pc_str then GenImplied(m_pla) else {if op^.opcode = pc_cop then} GenNative(m_lda_s, direct, 3, nil, 0); GenNative(m_sta_dir, direct, disp+2, nil, 0); if op^.opcode = pc_str then GenImplied(m_pla) else {if op^.opcode = pc_cop then} GenNative(m_lda_s, direct, 5, nil, 0); GenNative(m_sta_dir, direct, disp+4, nil, 0); if op^.opcode = pc_str then GenImplied(m_pla) else {if op^.opcode = pc_cop then} GenNative(m_lda_s, direct, 7, nil, 0); GenNative(m_sta_dir, direct, disp+6, nil, 0); end {else if} else begin GenNative(m_ldx_imm, immediate, disp, nil, 0); if op^.opcode = pc_str then GenImplied(m_pla) else {if op^.opcode = pc_cop then} GenNative(m_lda_s, direct, 1, nil, 0); GenNative(m_sta_dirX, direct, 0, nil, 0); if op^.opcode = pc_str then GenImplied(m_pla) else {if op^.opcode = pc_cop then} GenNative(m_lda_s, direct, 3, nil, 0); GenNative(m_sta_dirX, direct, 2, nil, 0); if op^.opcode = pc_str then GenImplied(m_pla) else {if op^.opcode = pc_cop then} GenNative(m_lda_s, direct, 5, nil, 0); GenNative(m_sta_dirX, direct, 4, nil, 0); if op^.opcode = pc_str then GenImplied(m_pla) else {if op^.opcode = pc_cop then} GenNative(m_lda_s, direct, 7, nil, 0); GenNative(m_sta_dirX, direct, 6, nil, 0); end; {else} end; {if} end; otherwise: Error(cge1); end; {case} end; {GenStrCop} procedure GenUnaryLong (op: icptr); { generate a pc_bnl or pc_ngl } begin {GenUnaryLong} gLong.preference := onStack; {get the operand} GenTree(op^.left); case op^.opcode of {do the operation} pc_bnl: begin GenNative(m_lda_s, direct, 1, nil, 0); GenNative(m_eor_imm, immediate, $FFFF, nil, 0); GenNative(m_sta_s, direct, 1, nil, 0); GenNative(m_lda_s, direct, 3, nil, 0); GenNative(m_eor_imm, immediate, $FFFF, nil, 0); GenNative(m_sta_s, direct, 3, nil, 0); end; {case pc_bnl} pc_ngl: begin GenImplied(m_sec); GenNative(m_lda_imm, immediate, 0, nil, 0); GenNative(m_sbc_s, direct, 1, nil, 0); GenNative(m_sta_s, direct, 1, nil, 0); GenNative(m_lda_imm, immediate, 0, nil, 0); GenNative(m_sbc_s, direct, 3, nil, 0); GenNative(m_sta_s, direct, 3, nil, 0); end; {case pc_ngl} end; {case} gLong.where := onStack; {the result is on the stack} end; {GenUnaryLong} procedure GenUnaryQuad (op: icptr); { generate a pc_bnq or pc_ngq } begin {GenUnaryQuad} case op^.opcode of {do the operation} pc_bnq: begin if SimpleQuadLoad(op^.left) then begin OpOnWordOfQuad(m_lda_imm, op^.left, 6); GenNative(m_eor_imm, immediate, $FFFF, nil, 0); StoreWordOfQuad(6); OpOnWordOfQuad(m_lda_imm, op^.left, 4); GenNative(m_eor_imm, immediate, $FFFF, nil, 0); StoreWordOfQuad(4); OpOnWordOfQuad(m_lda_imm, op^.left, 2); GenNative(m_eor_imm, immediate, $FFFF, nil, 0); StoreWordOfQuad(2); OpOnWordOfQuad(m_lda_imm, op^.left, 0); GenNative(m_eor_imm, immediate, $FFFF, nil, 0); StoreWordOfQuad(0); gQuad.where := gQuad.preference; end {if} else begin gQuad.preference := onStack; GenTree(op^.left); GenNative(m_lda_s, direct, 1, nil, 0); GenNative(m_eor_imm, immediate, $FFFF, nil, 0); GenNative(m_sta_s, direct, 1, nil, 0); GenNative(m_lda_s, direct, 3, nil, 0); GenNative(m_eor_imm, immediate, $FFFF, nil, 0); GenNative(m_sta_s, direct, 3, nil, 0); GenNative(m_lda_s, direct, 5, nil, 0); GenNative(m_eor_imm, immediate, $FFFF, nil, 0); GenNative(m_sta_s, direct, 5, nil, 0); GenNative(m_lda_s, direct, 7, nil, 0); GenNative(m_eor_imm, immediate, $FFFF, nil, 0); GenNative(m_sta_s, direct, 7, nil, 0); gQuad.where := onStack; end; {else} end; {case pc_bnq} pc_ngq: begin if SimpleQuadLoad(op^.left) then begin gQuad.where := gQuad.preference; if gQuad.preference = onStack then begin GenImplied(m_tsc); GenImplied(m_sec); GenNative(m_sbc_imm, immediate, 8, nil, 0); GenImplied(m_tcs); gQuad.preference := inStackLoc; gQuad.disp := 1; end; {if} GenImplied(m_sec); GenNative(m_lda_imm, immediate, 0, nil, 0); OpOnWordOfQuad(m_sbc_imm, op^.left, 0); StoreWordOfQuad(0); GenNative(m_lda_imm, immediate, 0, nil, 0); OpOnWordOfQuad(m_sbc_imm, op^.left, 2); StoreWordOfQuad(2); GenNative(m_lda_imm, immediate, 0, nil, 0); OpOnWordOfQuad(m_sbc_imm, op^.left, 4); StoreWordOfQuad(4); GenNative(m_lda_imm, immediate, 0, nil, 0); OpOnWordOfQuad(m_sbc_imm, op^.left, 6); StoreWordOfQuad(6); end {if} else begin gQuad.preference := onStack; GenTree(op^.left); GenImplied(m_sec); GenNative(m_ldy_imm, immediate, 0, nil, 0); GenImplied(m_tya); GenNative(m_sbc_s, direct, 1, nil, 0); GenNative(m_sta_s, direct, 1, nil, 0); GenImplied(m_tya); GenNative(m_sbc_s, direct, 3, nil, 0); GenNative(m_sta_s, direct, 3, nil, 0); GenImplied(m_tya); GenNative(m_sbc_s, direct, 5, nil, 0); GenNative(m_sta_s, direct, 5, nil, 0); GenImplied(m_tya); GenNative(m_sbc_s, direct, 7, nil, 0); GenNative(m_sta_s, direct, 7, nil, 0); gQuad.where := onStack; end; {else} end; {case pc_ngq} end; {case} end; {GenUnaryQuad} {$segment 'gen2'} procedure GenDebugSourceFile (debugFile: gsosOutStringPtr); { generate debug code indicating the specified source file name } var i: integer; {loop/index variable} len: integer; {length of the file name} begin {GenDebugSourceFile} GenNative(m_cop, immediate, 6, nil, 0); GenNative(d_add, genaddress, stringSize, nil, stringReference); GenNative(d_add, genaddress, stringSize, nil, stringReference+shift16); len := debugFile^.theString.size; if len > 255 then len := 255; if maxString-stringSize >= len+1 then begin stringSpace[stringSize+1] := chr(len); for i := 1 to len do stringSpace[i+stringSize+1] := debugFile^.theString.theString[i]; stringSize := stringSize + len + 1; end {if} else Error(cge3); end; {GenDebugSourceFile} procedure GenTree {op: icptr}; { generate code for op and its children } { } { parameters: } { op - opcode for which to generate code } procedure GenAdi (op: icptr); { generate a pc_adi } var nd: icptr; begin {GenAdi} if not Complex(op^.left) then if Complex(op^.right) then begin nd := op^.left; op^.left := op^.right; op^.right := nd; end; {if} GenTree(op^.left); if Complex(op^.right) then begin GenImplied(m_pha); GenTree(op^.right); GenImplied(m_clc); GenNative(m_adc_s, direct, 1, nil, 0); GenImplied(m_plx); end {if} else begin GenImplied(m_clc); OperA(m_adc_imm, op^.right); end; {else} end; {GenAdi} procedure GenBinLong (op: icptr); { generate one of: pc_blr, pc_blx, pc_bal, pc_dvl, pc_mdl, } { pc_mpl, pc_sll, pc_slr, pc_udl, pc_ulm, pc_uml, pc_vsr } var nd: icptr; {for swapping left/right children} lab1,lab2: integer; {label numbers} procedure GenOp (ops, opi: integer); { generate a binary operation } { } { parameters: } { ops - stack version of operation } { opi - immediate version of operation } begin {GenOp} if gLong.where = A_X then GenImplied(m_phx) else GenImplied(m_pla); if gLong.where = constant then begin GenNative(opi, immediate, long(gLong.lval).lsw, nil, 0); GenImplied(m_pha); GenNative(m_lda_s, direct, 3, nil, 0); GenNative(opi, immediate, long(gLong.lval).msw, nil, 0); GenNative(m_sta_s, direct, 3, nil, 0); end {if} else begin GenNative(ops, direct, 3, nil, 0); GenNative(m_sta_s, direct, 3, nil, 0); GenImplied(m_pla); GenNative(ops, direct, 3, nil, 0); GenNative(m_sta_s, direct, 3, nil, 0); end; {else} end; {GenOp} begin {GenBinLong} if (op^.left^.opcode = pc_ldc) and (op^.opcode in [pc_blr,pc_blx,pc_bal]) then begin nd := op^.left; op^.left := op^.right; op^.right := nd; end; {if} if op^.opcode = pc_mdl then GenImplied(m_phd); {reserve stack space} gLong.preference := onStack; GenTree(op^.left); if op^.opcode in [pc_blr,pc_blx,pc_bal] then begin gLong.preference := constant; GenTree(op^.right); end {if} else if op^.opcode in [pc_uml,pc_udl,pc_ulm] then begin gLong.preference := A_X; GenTree(op^.right); if gLong.where = onStack then begin GenImplied(m_pla); GenImplied(m_plx); end; {if} end {else if} else begin gLong.preference := onStack; GenTree(op^.right); end; {else} case op^.opcode of pc_blr: GenOp(m_ora_s, m_ora_imm); pc_blx: GenOp(m_eor_s, m_eor_imm); pc_bal: GenOp(m_and_s, m_and_imm); pc_dvl: GenCall(43); pc_mdl: begin lab1 := GenLabel; lab2 := GenLabel; {stash high word of dividend (for sign)} GenNative(m_lda_s, direct, 7, nil, 0); GenNative(m_sta_s, direct, 9, nil, 0); GenCall(78); {call ~DIV4} GenImplied(m_ply); {ignore quotient} GenImplied(m_ply); GenImplied(m_pla); {get remainder (always positive or 0)} GenImplied(m_plx); GenImplied(m_ply); {if dividend was negative...} GenNative(m_bpl, relative, lab1, nil, 0); GenImplied(m_clc); { negate remainder} GenNative(m_eor_imm, immediate, -1, nil, 0); GenNative(m_adc_imm, immediate, 1, nil, 0); GenImplied(m_tay); GenImplied(m_txa); GenNative(m_eor_imm, immediate, -1, nil, 0); GenNative(m_adc_imm, immediate, 0, nil, 0); GenImplied(m_pha); GenImplied(m_phy); GenNative(m_bra, relative, lab2, nil, 0); GenLab(lab1); GenImplied(m_phx); GenImplied(m_pha); GenLab(lab2); end; pc_mpl: GenCall(42); pc_sll: GenCall(45); pc_slr: GenCall(47); pc_udl: GenCall(49); pc_ulm: GenCall(50); pc_uml: GenCall(48); pc_vsr: GenCall(46); otherwise: Error(cge1); end; {case} gLong.where := onStack; end; {GenBinLong} procedure GenBinQuad (op: icptr); { generate one of: pc_bqr, pc_bqx, pc_baq, pc_mpq, pc_umq, } { pc_dvq, pc_udq, pc_mdq, pc_uqm } procedure GenBitwiseOp; { generate a 64-bit binary bitwise operation } { } { parameters: } { ops - stack version of operation } var mop: integer; {machine opcode} begin {GenBitwiseOp} if SimpleQuadLoad(op^.left) and SimpleQuadLoad(op^.right) then begin case op^.opcode of pc_bqr: mop := m_ora_imm; pc_bqx: mop := m_eor_imm; pc_baq: mop := m_and_imm; end; {case} OpOnWordOfQuad(m_lda_imm, op^.left, 6); OpOnWordOfQuad(mop, op^.right, 6); StoreWordOfQuad(6); OpOnWordOfQuad(m_lda_imm, op^.left, 4); OpOnWordOfQuad(mop, op^.right, 4); StoreWordOfQuad(4); OpOnWordOfQuad(m_lda_imm, op^.left, 2); OpOnWordOfQuad(mop, op^.right, 2); StoreWordOfQuad(2); OpOnWordOfQuad(m_lda_imm, op^.left, 0); OpOnWordOfQuad(mop, op^.right, 0); StoreWordOfQuad(0); gQuad.where := gQuad.preference; end {if} else begin case op^.opcode of pc_bqr: mop := m_ora_s; pc_bqx: mop := m_eor_s; pc_baq: mop := m_and_s; end; {case} gQuad.preference := onStack; GenTree(op^.left); gQuad.preference := onStack; GenTree(op^.right); GenImplied(m_pla); GenNative(mop, direct, 7, nil, 0); GenNative(m_sta_s, direct, 7, nil, 0); GenImplied(m_pla); GenNative(mop, direct, 7, nil, 0); GenNative(m_sta_s, direct, 7, nil, 0); GenImplied(m_pla); GenNative(mop, direct, 7, nil, 0); GenNative(m_sta_s, direct, 7, nil, 0); GenImplied(m_pla); GenNative(mop, direct, 7, nil, 0); GenNative(m_sta_s, direct, 7, nil, 0); gQuad.where := onStack; end; {else} end; {GenBitwiseOp} begin {GenBinQuad} if op^.opcode in [pc_bqr,pc_bqx,pc_baq] then GenBitwiseOp else begin gQuad.preference := onStack; GenTree(op^.left); gQuad.preference := onStack; GenTree(op^.right); case op^.opcode of pc_mpq: GenCall(79); pc_umq: GenCall(80); pc_dvq: begin GenCall(81); {do division} GenImplied(m_pla); {get quotient, discarding remainder} GenNative(m_sta_s, direct, 7, nil, 0); GenImplied(m_pla); GenNative(m_sta_s, direct, 7, nil, 0); GenImplied(m_pla); GenNative(m_sta_s, direct, 7, nil, 0); GenImplied(m_pla); GenNative(m_sta_s, direct, 7, nil, 0); end; pc_udq: begin GenCall(82); {do division} GenImplied(m_pla); {get quotient, discarding remainder} GenNative(m_sta_s, direct, 7, nil, 0); GenImplied(m_pla); GenNative(m_sta_s, direct, 7, nil, 0); GenImplied(m_pla); GenNative(m_sta_s, direct, 7, nil, 0); GenImplied(m_pla); GenNative(m_sta_s, direct, 7, nil, 0); end; pc_mdq: begin GenCall(81); {do division} GenImplied(m_tsc); {discard quotient, leaving remainder} GenImplied(m_clc); GenNative(m_adc_imm, immediate, 8, nil, 0); GenImplied(m_tcs); end; pc_uqm: begin GenCall(82); {do division} GenImplied(m_tsc); {discard quotient, leaving remainder} GenImplied(m_clc); GenNative(m_adc_imm, immediate, 8, nil, 0); GenImplied(m_tcs); end; pc_slq: GenCall(85); pc_sqr: GenCall(86); pc_wsr: GenCall(87); otherwise: Error(cge1); end; {case} gQuad.where := onStack; end; {else} end; {GenBinQuad} procedure GenBno (op: icptr); { Generate code for a pc_bno } var lLong: longType; {requested address type} begin {GenBno} lLong := gLong; GenTree(op^.left); gLong := lLong; GenTree(op^.right); end; {GenBno} procedure GenBntNgiNot (op: icptr); { Generate code for a pc_bnt, pc_ngi or pc_not } var lab1: integer; begin {GenntNgiNot} GenTree(op^.left); case op^.opcode of pc_bnt: GenNative(m_eor_imm, immediate, -1, nil, 0); pc_ngi: begin GenNative(m_eor_imm, immediate, -1, nil, 0); GenImplied(m_ina); end; {case pc_ngi} pc_not: begin lab1 := GenLabel; GenImplied(m_tax); GenNative(m_beq, relative, lab1, nil, 0); GenNative(m_lda_imm, immediate, 1, nil, 0); GenLab(lab1); GenNative(m_eor_imm, immediate, 1, nil, 0); end; {if} end; {case} end; {GenBntNgiNot} procedure GenCui (op: icptr); { Generate code for a pc_cui } var lab1: integer; {return point} lLong: longType; {used to reserve gLong} lQuad: quadType; {saved copy of gQuad} lArgsSize: integer; {saved copy of argsSize} extraStackSize: integer; {size of extra stuff pushed on stack} begin {GenCui} lArgsSize := argsSize; argsSize := 0; extraStackSize := 0; {For functions returning cg(U)Quad, make space for result} if op^.optype in [cgQuad,cgUQuad] then if gQuad.preference <> localAddress then begin GenImplied(m_tsc); GenImplied(m_sec); GenNative(m_sbc_imm, immediate, 8, nil, 0); GenImplied(m_tcs); end; {if} {save the stack register} if ((saveStack or checkStack) and (op^.q >= 0)) or (op^.q > 0) then begin if stackSaveDepth <> 0 then begin GenNative(m_ldx_dir, direct, stackLoc, nil, 0); GenImplied(m_phx); extraStackSize := 2; end; {if} GenImplied(m_tsx); GenNative(m_stx_dir, direct, stackLoc, nil, 0); stackSaveDepth := stackSaveDepth + 1; end; {if} {generate parameters} {place the operands on the stack} lQuad := gQuad; lLong := gLong; GenTree(op^.left); {get the address to call} gLong.preference := onStack; GenTree(op^.right); gLong := lLong; gQuad := lQuad; {For functions returning cg(U)Quad, x = address to store result in} if op^.optype in [cgQuad,cgUQuad] then if gQuad.preference = localAddress then begin GenImplied(m_tdc); GenImplied(m_clc); GenNative(m_adc_imm, immediate, gQuad.disp, nil, 0); GenImplied(m_tax); end {if} else begin GenImplied(m_tsc); GenImplied(m_clc); GenNative(m_adc_imm, immediate, argsSize+extraStackSize+4+1, nil, 0); GenImplied(m_tax); end; {else} {create a return label} lab1 := GenLabel; {place the call/return addrs on stack} GenNative(m_lda_s, direct, 1, nil, 0); GenImplied(m_dea); GenImplied(m_pha); GenNative(m_sep, immediate, 32, nil, 0); GenNative(m_lda_s, direct, 5, nil, 0); GenNative(m_sta_s, direct, 3, nil, 0); GenNative(m_lda_imm, genAddress, lab1, nil, shift16); GenNative(m_sta_s, direct, 6, nil, 0); GenNative(m_rep, immediate, 32, nil, 0); GenNative(m_lda_imm, genAddress, lab1, nil, 0); GenNative(m_sta_s, direct, 4, nil, 0); {indirect call} GenImplied(m_rtl); GenLab(lab1); if checkStack and (op^.q >= 0) then begin {check the stack for errors} stackSaveDepth := stackSaveDepth - 1; GenNative(m_ldy_dir, direct, stackLoc, nil, 0); GenCall(76); if stackSaveDepth <> 0 then begin GenImplied(m_ply); GenNative(m_sty_dir, direct, stackLoc, nil, 0); end; {if} end {if} else if (saveStack and (op^.q >= 0)) or (op^.q > 0) then begin stackSaveDepth := stackSaveDepth - 1; if not (op^.optype in [cgVoid,cgByte,cgUByte,cgWord,cgUWord,cgQuad,cgUQuad]) then GenImplied(m_txy); GenNative(m_ldx_dir, direct, stackLoc, nil, 0); GenImplied(m_txs); if not (op^.optype in [cgVoid,cgByte,cgUByte,cgWord,cgUWord,cgQuad,cgUQuad]) then GenImplied(m_tyx); if stackSaveDepth <> 0 then begin GenImplied(m_ply); GenNative(m_sty_dir, direct, stackLoc, nil, 0); end; {if} end; {else} {save the returned value} gLong.where := A_X; if gQuad.preference = localAddress then gQuad.where := localAddress else gQuad.where := onStack; SaveRetValue(op^.optype); argsSize := lArgsSize; end; {GenCui} procedure GenCup (op: icptr); { Generate code for a pc_cup } var lLong: longType; {used to reserve gLong} lQuad: quadType; {saved copy of gQuad} lArgsSize: integer; {saved copy of argsSize} extraStackSize: integer; {size of extra stuff pushed on stack} begin {GenCup} lArgsSize := argsSize; argsSize := 0; extraStackSize := 0; {For functions returning cg(U)Quad, make space for result} if op^.optype in [cgQuad,cgUQuad] then if gQuad.preference <> localAddress then begin GenImplied(m_tsc); GenImplied(m_sec); GenNative(m_sbc_imm, immediate, 8, nil, 0); GenImplied(m_tcs); end; {if} {save the stack register} if ((saveStack or checkStack) and (op^.q >= 0)) or (op^.q > 0) then begin if stackSaveDepth <> 0 then begin GenNative(m_ldx_dir, direct, stackLoc, nil, 0); GenImplied(m_phx); extraStackSize := 2; end; {if} GenImplied(m_tsx); GenNative(m_stx_dir, direct, stackLoc, nil, 0); stackSaveDepth := stackSaveDepth + 1; end; {if} {generate parameters} lQuad := gQuad; lLong := gLong; GenTree(op^.left); gLong := lLong; gQuad := lQuad; {For functions returning cg(U)Quad, x = address to store result in} if op^.optype in [cgQuad,cgUQuad] then if gQuad.preference = localAddress then begin GenImplied(m_tdc); GenImplied(m_clc); GenNative(m_adc_imm, immediate, gQuad.disp, nil, 0); GenImplied(m_tax); end {if} else if argsSize + extraStackSize in [0,1,2] then begin GenImplied(m_tsx); GenImplied(m_inx); if argsSize + extraStackSize in [1,2] then begin GenImplied(m_inx); if argsSize + extraStackSize = 2 then GenImplied(m_inx); end; {if} end {if} else begin GenImplied(m_tsc); GenImplied(m_clc); GenNative(m_adc_imm, immediate, argsSize+extraStackSize+1, nil, 0); GenImplied(m_tax); end; {else} {generate the jsl} GenNative(m_jsl, longAbs, 0, op^.lab, 0); {check the stack for errors} if checkStack and (op^.q >= 0) then begin stackSaveDepth := stackSaveDepth - 1; GenNative(m_ldy_dir, direct, stackLoc, nil, 0); GenCall(76); if stackSaveDepth <> 0 then begin GenImplied(m_ply); GenNative(m_sty_dir, direct, stackLoc, nil, 0); end; {if} GenImplied(m_tay); end {if} else if (saveStack and (op^.q >= 0)) or (op^.q > 0) then begin stackSaveDepth := stackSaveDepth - 1; if not (op^.optype in [cgVoid,cgByte,cgUByte,cgWord,cgUWord,cgQuad,cgUQuad]) then GenImplied(m_txy); GenNative(m_ldx_dir, direct, stackLoc, nil, 0); GenImplied(m_txs); if not (op^.optype in [cgVoid,cgByte,cgUByte,cgWord,cgUWord,cgQuad,cgUQuad]) then GenImplied(m_tyx); if stackSaveDepth <> 0 then begin GenImplied(m_ply); GenNative(m_sty_dir, direct, stackLoc, nil, 0); end; {if} end; {else} {save the returned value} gLong.where := A_X; if gQuad.preference = localAddress then gQuad.where := localAddress else gQuad.where := onStack; SaveRetValue(op^.optype); argsSize := lArgsSize; end; {GenCup} procedure GenDviMod (op: icptr); { Generate code for a pc_dvi, pc_mod, pc_udi or pc_uim } var opcode: pcodes; {temp storage} lab1: integer; {label number} begin {GenDviMod} if Complex(op^.right) then begin GenTree(op^.right); if Complex(op^.left) then begin GenImplied(m_pha); GenTree(op^.left); GenImplied(m_plx); end {if} else begin GenImplied(m_tax); GenTree(op^.left); end; {else} end {if} else begin GenTree(op^.left); LoadX(op^.right); end; {else} opcode := op^.opcode; if opcode = pc_mod then begin lab1 := GenLabel; GenImplied(m_pha); {stash away dividend (for sign)} GenCall(26); {call ~DIV2} GenImplied(m_txa); {get remainder (always positive or 0)} GenImplied(m_ply); {if dividend was negative...} GenNative(m_bpl, relative, lab1, nil, 0); GenNative(m_eor_imm, immediate, -1, nil, 0); {...negate remainder} GenImplied(m_ina); GenLab(lab1); end {if} else if opcode = pc_dvi then GenCall(26) else {if opcode in [pc_udi,pc_uim] then} begin GenCall(40); if opcode = pc_uim then GenImplied(m_txa); end; {else} if rangeCheck then GenCall(25); end; {GenDviMod} procedure GenEnt(op: icptr); { Generate code for a pc_ent } var i: integer; len: integer; begin {GenEnt} if debugStrFlag then begin {gsbug/niftylist debug string} len := length(op^.lab^); CnOut(m_brl); CnOut2(len + 3); CnOut2($7771); CnOut(len); for i := 1 to len do CnOut(ord(op^.lab^[i])); end; if rangeCheck then begin {if range checking is on, check for a stack overflow} GenNative(m_pea, immediate, localSize - returnSize - 1, nil, 0); GenCall(1); end; {if} if localSize = 0 then begin {create the stack frame} if parameterSize <> 0 then begin GenImplied(m_tsc); GenImplied(m_phd); GenImplied(m_tcd); end; {if} end {if} else if localSize = 2 then begin GenImplied(m_pha); GenImplied(m_tsc); GenImplied(m_phd); GenImplied(m_tcd); end {else if} else begin GenImplied(m_tsc); GenImplied(m_sec); GenNative(m_sbc_imm, immediate, localSize, nil, 0); GenImplied(m_tcs); GenImplied(m_phd); GenImplied(m_tcd); end; {if} if isQuadFunction then begin {save return location for cg(U)Quad} GenNative(m_stx_dir, direct, funloc, nil, 0); GenNative(m_stz_dir, direct, funloc+2, nil, 0); end; {if} if dataBank then begin {preserve and set data bank} GenImplied(m_phb); GenImplied(m_phb); GenImplied(m_pla); GenNative(m_sta_dir, direct, bankLoc, nil, 0); GenNative(m_pea, immediate, 0, @'~GLOBALS', shift8); GenImplied(m_plb); GenImplied(m_plb); end; {if} {no pc_nam (yet)} namePushed := false; end; {GenEnt} procedure GenFjpTjp (op: icptr); { Generate code for a pc_fjp or pc_tjp } var lab1: integer; {branch point} opcode: pcodes; {op^.left^.opcode} begin {GenFjpTjp} if op^.left^.opcode in [pc_equ,pc_geq,pc_grt,pc_les,pc_leq,pc_neq] then if op^.left^.opcode in [pc_equ,pc_neq] then GenEquNeq(op^.left, op^.opcode, op^.q) else GenCmp(op^.left, op^.opcode, op^.q) else begin lab1 := GenLabel; GenTree(op^.left); opcode := op^.left^.opcode; if NeedsCondition(opcode) then GenImplied(m_tax) else if opcode = pc_ind then if op^.left^.optype in [cgByte,cgUByte] then GenImplied(m_tax); if op^.opcode = pc_fjp then GenNative(m_bne, relative, lab1, nil, 0) else {if op^.opcode = pc_tjp then} GenNative(m_beq, relative, lab1, nil, 0); GenNative(m_brl, longrelative, op^.q, nil, 0); GenLab(lab1); end; {else} end; {GenFjpTjp} procedure GenLaoLad (op: icptr); { Generate code for a pc_lao, pc_lad } var q: integer; {displacement} begin {GenLaoLad} if op^.opcode = pc_lad then q := 0 else q := op^.q; if (globalLabel & gLong.preference) <> 0 then begin gLong.fixedDisp := true; gLong.where := globalLabel; gLong.disp := q; gLong.lab := op^.lab; end {if} else if (A_X & gLong.preference) <> 0 then begin gLong.where := A_X; GenNative(m_ldx_imm, immediate, q, op^.lab, shift16); GenNative(m_lda_imm, immediate, q, op^.lab, 0); end {else if} else begin gLong.where := onStack; GenNative(m_pea, immediate, q, op^.lab, shift16); GenNative(m_pea, immediate, q, op^.lab, 0); end; {else} end; {GenLaoLad} procedure GenLbfLbu (op: icptr); { Generate code for a pc_lbf or pc_lbu } var lLong: longType; {requested address type} begin {GenLbfLbu} lLong := gLong; gLong.preference := onStack; GenTree(op^.left); GenNative(m_pea, immediate, op^.r, nil, 0); GenNative(m_pea, immediate, op^.q, nil, 0); if op^.opcode = pc_lbf then GenCall(73) else GenCall(72); if op^.optype in [cgLong,cgULong] then begin if (A_X & lLong.preference) <> 0 then gLong.where := A_X else begin gLong.where := onStack; GenImplied(m_phx); GenImplied(m_pha); end; {else} end; {if} end; {GenLbfLbu} procedure GenLca (op: icptr); { Generate code for a pc_lca } var i: integer; {loop/index variable} begin {GenLca} gLong.where := onStack; GenNative(m_pea, immediate, stringSize, nil, stringReference+shift16); GenNative(m_pea, immediate, stringSize, nil, stringReference); if maxString-stringSize >= op^.q then begin for i := 1 to op^.q do stringSpace[i+stringSize] := op^.str^.str[i]; stringSize := stringSize+op^.q; end else Error(cge3); op^.optype := cgULong; end; {GenLca} procedure GenLda (op: icptr); { Generate code for a pc_lda } begin {GenLda} if (localAddress & gLong.preference) <> 0 then begin gLong.fixedDisp := true; gLong.where := localAddress; gLong.disp := LabelToDisp(op^.r) + op^.q; end {if} else if (A_X & gLong.preference) <> 0 then begin gLong.where := A_X; GenImplied(m_tdc); GenImplied(m_clc); GenNative(m_adc_imm, immediate, LabelToDisp(op^.r) + op^.q, nil, 0); GenNative(m_ldx_imm, immediate, 0, nil, 0); end {else if} else begin gLong.where := onStack; GenNative(m_pea, immediate, 0, nil, 0); GenImplied(m_tdc); GenImplied(m_clc); GenNative(m_adc_imm, immediate, LabelToDisp(op^.r) + op^.q, nil, 0); GenImplied(m_pha); end; {else} end; {GenLda} procedure GenLdc (op: icptr); { Generate code for a pc_ldc } type kind = (vint, vbyte); {kinds of equivalenced data} var i: integer; {loop/index variable} rec: realrec; {conversion record} switch: packed record {used for type conversion} case rkind: kind of vint: (i: integer); vbyte: (b1, b2, b3, b4, b5, b6, b7, b8: byte); end; begin {GenLdc} case op^.optype of cgByte: begin if op^.q > 127 then op^.q := op^.q | $FF00; GenNative(m_lda_imm, immediate, op^.q, nil, 0); end; cgUByte, cgWord, cgUWord: GenNative(m_lda_imm, immediate, op^.q, nil, 0); cgReal, cgDouble, cgComp, cgExtended: begin rec.itsReal := op^.rval; CnvSX(rec); i := 9; while i >= 0 do begin switch.b1 := rec.inSANE[i]; switch.b2 := rec.inSANE[i+1]; GenNative(m_pea, immediate, switch.i, nil, 0); i := i-2; end; {while} end; cgLong, cgULong: if (constant & gLong.preference) <> 0 then begin gLong.where := constant; gLong.lval := op^.lval; end else if (A_X & gLong.preference) <> 0 then begin gLong.where := A_X; GenNative(m_lda_imm, immediate, long(op^.lval).lsw, nil, 0); GenNative(m_ldx_imm, immediate, long(op^.lval).msw, nil, 0); end else begin gLong.where := onStack; GenNative(m_pea, immediate, long(op^.lval).msw, nil, 0); GenNative(m_pea, immediate, long(op^.lval).lsw, nil, 0); end; cgQuad,cgUQuad: begin if gQuad.preference = onStack then begin GenNative(m_pea, immediate, long(op^.qval.hi).msw, nil, 0); GenNative(m_pea, immediate, long(op^.qval.hi).lsw, nil, 0); GenNative(m_pea, immediate, long(op^.qval.lo).msw, nil, 0); GenNative(m_pea, immediate, long(op^.qval.lo).lsw, nil, 0); end {if} else begin GenNative(m_lda_imm, immediate, long(op^.qval.hi).msw, nil, 0); StoreWordOfQuad(6); GenNative(m_lda_imm, immediate, long(op^.qval.hi).lsw, nil, 0); StoreWordOfQuad(4); GenNative(m_lda_imm, immediate, long(op^.qval.lo).msw, nil, 0); StoreWordOfQuad(2); GenNative(m_lda_imm, immediate, long(op^.qval.lo).lsw, nil, 0); StoreWordOfQuad(0); end; {else} gQuad.where := gQuad.preference; end; otherwise: Error(cge1); end; {case} end; {GenLdc} procedure GenLdo (op: icptr); { Generate code for a pc_ldo } var lab1: integer; {branch point} begin {GenLdo} case op^.optype of cgWord, cgUWord: if smallMemoryModel then GenNative(m_lda_abs, absolute, op^.q, op^.lab, 0) else GenNative(m_lda_long, longAbs, op^.q, op^.lab, 0); cgByte, cgUByte: begin if smallMemoryModel then GenNative(m_lda_abs, absolute, op^.q, op^.lab, 0) else GenNative(m_lda_long, longAbs, op^.q, op^.lab, 0); GenNative(m_and_imm, immediate, 255, nil, 0); if op^.optype = cgByte then begin GenNative(m_bit_imm, immediate, $0080, nil, 0); lab1 := GenLabel; GenNative(m_beq, relative, lab1, nil, 0); GenNative(m_ora_imm, immediate, $FF00, nil, 0); GenLab(lab1); GenNative(m_cmp_imm, immediate, $0000, nil, 0); end; {if} end; cgReal, cgDouble, cgComp, cgExtended: begin GenNative(m_pea, immediate, op^.q, op^.lab, shift16); GenNative(m_pea, immediate, op^.q, op^.lab, 0); if op^.optype = cgReal then GenCall(21) else if op^.optype = cgDouble then GenCall(22) else if op^.optype = cgComp then GenCall(70) else {if op^.optype = cgExtended then} GenCall(71); end; cgLong, cgULong: begin if (A_X & gLong.preference) <> 0 then gLong.where := A_X else gLong.where := onStack; if smallMemoryModel then begin GenNative(m_ldx_abs, absolute, op^.q+2, op^.lab, 0); GenNative(m_lda_abs, absolute, op^.q, op^.lab, 0); if gLong.where = onStack then begin GenImplied(m_phx); GenImplied(m_pha); end; {if} end {if} else begin GenNative(m_lda_long, longabsolute, op^.q+2, op^.lab, 0); if gLong.where = onStack then GenImplied(m_pha) else GenImplied(m_tax); GenNative(m_lda_long, longabsolute, op^.q, op^.lab, 0); if gLong.where = onStack then GenImplied(m_pha); end; {else} end; {case cgLong,cgULong} cgQuad, cgUQuad: begin if smallMemoryModel then begin GenNative(m_lda_abs, absolute, op^.q+6, op^.lab, 0); StoreWordOfQuad(6); GenNative(m_lda_abs, absolute, op^.q+4, op^.lab, 0); StoreWordOfQuad(4); GenNative(m_lda_abs, absolute, op^.q+2, op^.lab, 0); StoreWordOfQuad(2); GenNative(m_lda_abs, absolute, op^.q, op^.lab, 0); StoreWordOfQuad(0); end {if} else begin GenNative(m_lda_long, longabsolute, op^.q+6, op^.lab, 0); StoreWordOfQuad(6); GenNative(m_lda_long, longabsolute, op^.q+4, op^.lab, 0); StoreWordOfQuad(4); GenNative(m_lda_long, longabsolute, op^.q+2, op^.lab, 0); StoreWordOfQuad(2); GenNative(m_lda_long, longabsolute, op^.q, op^.lab, 0); StoreWordOfQuad(0); end; {else} gQuad.where := gQuad.preference; end; {case cgQuad,cgUQuad} otherwise: Error(cge1); end; {case} end; {GenLdo} procedure GenLnm (op: icptr); { Generate code for a pc_lnm } begin {GenLnm} if op^.left <> nil then GenTree(op^.left); if traceBack then begin GenNative(m_pea, immediate, op^.r, nil, 0); GenCall(6); end; {if} if debugFlag then begin if op^.lab <> nil then GenDebugSourceFile(op^.lab); GenNative(m_cop, immediate, op^.q, nil, 0); GenNative(d_wrd, special, op^.r, nil, 0); end; {if} end; {GenLnm} procedure GenLod (op: icptr); { Generate code for a pc_lod } var disp: integer; {load location} lab1: integer; {branch point} optype: baseTypeEnum; {op^.optype} begin {GenLod} disp := LabelToDisp(op^.r) + op^.q; optype := op^.optype; case optype of cgReal, cgDouble, cgComp, cgExtended: begin GenNative(m_pea, immediate, 0, nil, 0); GenImplied(m_tdc); GenImplied(m_clc); GenNative(m_adc_imm, immediate, disp, nil, 0); GenImplied(m_pha); if optype = cgReal then GenCall(21) else if optype = cgDouble then GenCall(22) else if optype = cgComp then GenCall(70) else {if optype = cgExtended then} GenCall(71); end; cgQuad, cgUQuad: begin if disp >= 250 then begin GenNative(m_ldx_imm, immediate, disp, nil, 0); GenNative(m_lda_dirx, direct, 6, nil, 0); GenImplied(m_pha); GenNative(m_lda_dirx, direct, 4, nil, 0); GenImplied(m_pha); GenNative(m_lda_dirx, direct, 2, nil, 0); GenImplied(m_pha); GenNative(m_lda_dirx, direct, 0, nil, 0); GenImplied(m_pha); gQuad.where := onStack; end {if} else begin if gQuad.preference = onStack then begin GenNative(m_pei_dir, direct, disp+6, nil, 0); GenNative(m_pei_dir, direct, disp+4, nil, 0); GenNative(m_pei_dir, direct, disp+2, nil, 0); GenNative(m_pei_dir, direct, disp, nil, 0); end {if} else begin GenNative(m_lda_dir, direct, disp+6, nil, 0); StoreWordOfQuad(6); GenNative(m_lda_dir, direct, disp+4, nil, 0); StoreWordOfQuad(4); GenNative(m_lda_dir, direct, disp+2, nil, 0); StoreWordOfQuad(2); GenNative(m_lda_dir, direct, disp, nil, 0); StoreWordOfQuad(0); end; {else} gQuad.where := gQuad.preference; end; {else} end; cgLong, cgULong: begin if ((inPointer & gLong.preference) <> 0) and (disp < 254) then begin gLong.where := inPointer; gLong.fixedDisp := true; gLong.disp := disp; end {if} else if ((A_X & gLong.preference) <> 0) and (disp < 254) then begin gLong.where := A_X; GenNative(m_ldx_dir, direct, disp+2, nil, 0); GenNative(m_lda_dir, direct, disp, nil, 0); end {else if} else begin gLong.where := onStack; if disp >= 254 then begin GenNative(m_ldx_imm, immediate, disp, nil, 0); GenNative(m_lda_dirx, direct, 2, nil, 0); GenImplied(m_pha); GenNative(m_lda_dirx, direct, 0, nil, 0); GenImplied(m_pha); end {if} else begin GenNative(m_pei_dir, direct, disp+2, nil, 0); GenNative(m_pei_dir, direct, disp, nil, 0); end; {else} end; {else} end; cgByte, cgUByte, cgWord, cgUWord: begin if disp >= 256 then begin GenNative(m_ldx_imm, immediate, disp, nil, 0); GenNative(m_lda_dirx, direct, 0, nil, 0); end else GenNative(m_lda_dir, direct, disp, nil, 0); if optype in [cgByte,cgUByte] then begin GenNative(m_and_imm, immediate, $00FF, nil, 0); if optype = cgByte then begin GenNative(m_bit_imm, immediate, $0080, nil, 0); lab1 := GenLabel; GenNative(m_beq, relative, lab1, nil, 0); GenNative(m_ora_imm, immediate, $FF00, nil, 0); GenLab(lab1); GenNative(m_cmp_imm, immediate, $0000, nil, 0); end; {if} end; end; otherwise: Error(cge1); end; {case} end; {GenLod} procedure GenLorLnd (op: icptr); { Generate code for a pc_lor or pc_lnd } var lab1,lab2: integer; {label} nd: icptr; {temp node pointer} opc: pcodes; {operation code} procedure DoOra; { do some common oring operations to reduce space } begin {DoOra} if gLong.where = onStack then begin GenImplied(m_pla); GenNative(m_sta_dir, direct, dworkLoc, nil, 0); GenImplied(m_pla); end {if} else GenNative(m_stx_dir, direct, dworkLoc, nil, 0); GenNative(m_ora_dir, direct, dworkLoc, nil, 0); end; {DoOra} begin {GenLorLnd} opc := op^.opcode; lab1 := GenLabel; gLong.preference := A_X; GenTree(op^.left); DoOra; lab2 := GenLabel; if opc = pc_lnd then GenNative(m_bne, relative, lab2, nil, 0) else begin GenNative(m_beq, relative, lab2, nil, 0); GenNative(m_lda_imm, immediate, 1, nil, 0); end; {else} GenNative(m_brl, longrelative, lab1, nil, 0); GenLab(lab2); gLong.preference := A_X; GenTree(op^.right); DoOra; GenNative(m_beq, relative, lab1, nil, 0); GenNative(m_lda_imm, immediate, 1, nil, 0); GenLab(lab1); end; {GenLorLnd} procedure GenMov (op: icptr; duplicate: boolean); { Generate code for a pc_mov } { } { parameters: } { op - pc_mov instruction } { duplicate - should the dest address be left on the } { stack? } var banks: integer; {number of banks to move} procedure Load (opcode: integer; op: icptr); { generate a load immediate based on instruction type } { } { parameters: } { opcode - native code load operation } { op - node to load } var i: integer; begin {Load} if op^.opcode = pc_lao then GenNative(opcode, immediate, op^.q, op^.lab, 0) else begin GenNative(opcode, immediate, stringsize, nil, StringReference); if maxstring-stringsize >= op^.q then begin for i := 1 to op^.q do stringspace[i+stringsize] := op^.str^.str[i]; stringsize := stringsize + op^.q; end {if} else Error(cge3); end; {else} end; {Load} begin {GenMov} {determine if the destination address must be left on the stack} if smallMemoryModel and (not duplicate) and (op^.left^.opcode in [pc_lao,pc_lca]) and (op^.right^.opcode in [pc_lao,pc_lca]) then begin {take advantage of any available short cuts} Load(m_ldy_imm, op^.left); Load(m_ldx_imm, op^.right); GenNative(m_lda_imm, immediate, op^.q-1, nil, 0); GenImplied(m_phb); GenImplied(m_mvn); with op^.left^ do if opcode = pc_lao then GenNative(d_bmov, immediate, q, lab, shift16) else GenNative(d_bmov, immediate, 0, nil, stringReference+shift16); with op^.right^ do if opcode = pc_lao then GenNative(d_bmov, immediate, q, lab, shift16) else GenNative(d_bmov, immediate, 0, nil, stringReference+shift16); GenImplied(m_plb); end {if} else begin {no short cuts are available - do it the hard way} gLong.preference := onStack; GenTree(op^.left); gLong.preference := onStack; GenTree(op^.right); banks := op^.r; if banks <> 0 then GenNative(m_pea, immediate, banks, nil, 0); GenNative(m_pea, immediate, op^.q, nil, 0); if banks = 0 then begin if duplicate then GenCall(55) else GenCall(54); end {if} else if duplicate then GenCall(63) else GenCall(62); end; {else} end; {GenMov} procedure GenMpi (op: icptr); { Generate code for a pc_mpi or pc_umi } var nd: icptr; begin {GenMpi} if not Complex(op^.left) then if Complex(op^.right) then begin nd := op^.left; op^.left := op^.right; op^.right := nd; end; {if} GenTree(op^.left); if Complex(op^.right) then begin GenImplied(m_pha); GenTree(op^.right); GenImplied(m_plx); end {if} else LoadX(op^.right); if op^.opcode = pc_mpi then GenCall(28) else {pc_umi} GenCall(39); if rangeCheck then GenCall(25); end; {GenMpi} procedure GenNam (op: icptr); { Generate code for a pc_nam } var i: integer; {loop/index variable} begin {GenNam} {generate a call to install the name in the traceback facility} if traceBack then begin GenNative(m_pea, immediate, stringSize, nil, stringReference+shift16); GenNative(m_pea, immediate, stringSize, nil, stringReference); GenCall(5); namePushed := true; end; {if} {send the name to the profiler} if profileFlag then begin GenNative(m_cop, immediate, 3, nil, 0); GenNative(d_add, genaddress, stringSize, nil, stringReference); GenNative(d_add, genaddress, stringSize, nil, stringReference+shift16); end; {if} {place the name in the string buffer} if maxString-stringSize >= op^.q+1 then begin stringSpace[stringSize+1] := chr(op^.q); for i := 1 to op^.q do stringSpace[i+stringSize+1] := op^.str^.str[i]; stringSize := stringSize + op^.q + 1; end {if} else Error(cge3); {send the file name to the debugger} if debugFlag then GenDebugSourceFile(@debugSourceFileGS); end; {GenNam} procedure GenNat (op: icptr); { Generate code for a pc_nat } var flags: integer; {work var for flags} mode: addressingmode; {work var for addressing mode} pval: longint; {temp pointer} val: longint; {constant operand} begin {GenNat} val := op^.opnd; flags := op^.q; pval := op^.llab; mode := addressingMode(op^.r); if op^.slab <> 0 then val := val+LabelToDisp(op^.slab); if mode in [relative,longrelative] then GenNative(op^.s, mode, op^.llab, op^.lab, op^.q) else if (mode = longabsolute) and (op^.llab <> 0) then GenNative(op^.s, mode, long(val).lsw, pointer(pval), flags | localLab) else if (mode = longabsolute) and (op^.llab = 0) and (op^.lab = nil) then GenNative(op^.s, mode, 0, pointer(val), flags | constantOpnd) else begin if (mode = absolute) and (op^.llab = 0) then flags := flags | constantOpnd; if op^.llab <> 0 then GenNative(op^.s, mode, long(val).lsw, pointer(pval), flags | localLab) else GenNative(op^.s, mode, long(val).lsw, op^.lab, flags); end; {else} end; {GenNat} procedure GenNgr (op: icptr); { Generate code for a pc_ngr } begin {GenNgr} GenTree(op^.left); GenNative(m_lda_s, direct, 9, nil, 0); GenNative(m_eor_imm, immediate, -32767-1, nil, 0); GenNative(m_sta_s, direct, 9, nil, 0); end; {GenNgr} procedure GenPop (op: icptr); { Generate code for a pc_pop } var isIncLoad: boolean; {is the operand one of the inc/dec & load commands?} begin {GenPop} glong.preference := A_X; {generate the operand} gQuad.preference := nowhere; isIncLoad := op^.left^.opcode in [pc_lil,pc_lli,pc_ldl,pc_lld,pc_gil,pc_gli,pc_gdl,pc_gld, pc_iil,pc_ili,pc_idl,pc_ild]; if isIncLoad then skipLoad := true; if op^.left^.opcode = pc_mov then GenMov(op^.left, false) else if op^.left^.opcode in [pc_cop,pc_cpo,pc_cpi,pc_cbf] then begin if op^.left^.opcode = pc_cop then op^.left^.opcode := pc_str else if op^.left^.opcode = pc_cpo then op^.left^.opcode := pc_sro else if op^.left^.opcode = pc_cpi then op^.left^.opcode := pc_sto else {if op^.left^.opcode = pc_cbf then} op^.left^.opcode := pc_sbf; GenTree(op^.left); end {else if} else begin GenTree(op^.left); if isIncLoad then skipLoad := false; case op^.optype of {do the pop} otherwise: Error(cge1); cgByte, cgUByte, cgWord, cgUWord, cgVoid: ; cgLong, cgULong: if not isIncLoad then if gLong.where = onStack then begin GenImplied(m_pla); GenImplied(m_pla); end; {if} {else do nothing} cgQuad, cgUQuad: begin if gQuad.where = onStack then begin GenImplied(m_tsc); GenImplied(m_clc); GenNative(m_adc_imm, immediate, 8, nil, 0); GenImplied(m_tcs); end; {if} end; cgReal, cgDouble, cgComp, cgExtended: begin GenImplied(m_tsc); GenImplied(m_clc); GenNative(m_adc_imm, immediate, 10, nil, 0); GenImplied(m_tcs); end; end; {case} end; {else} end; {GenPop} procedure GenPsh (op: icptr); { Generate code for a pc_psh } begin {GenPsh} gLong.preference := onStack; GenTree(op^.left); GenTree(op^.right); GenImplied(m_pha); GenCall(77); end; {GenPsh} procedure GenRbo (op: icptr); { Generate code for a pc_rbo } begin {GenRbo} GenTree(op^.left); GenImplied(m_xba); end; {GenRbo} procedure GenRealBinOp (op: icptr); { Generate code for a pc_adr, pc_dvr, pc_mpr or pc_sbr } var nd: icptr; {temp pointer} snum: integer; {library subroutine numbers} ss,sd,sc,se: integer; {sane call numbers} begin {GenRealBinOp} case op^.opcode of pc_adr: begin snum := 56; ss := $0200; sd := $0100; sc := $0500; se := $0000; end; pc_dvr: begin snum := 57; ss := $0206; sd := $0106; sc := $0506; se := $0006; end; pc_mpr: begin snum := 58; ss := $0204; sd := $0104; sc := $0504; se := $0004; end; pc_sbr: begin snum := 59; ss := $0202; sd := $0102; sc := $0502; se := $0002; end; end; {case} if op^.opcode in [pc_mpr,pc_adr] then if op^.left^.opcode in [pc_lod,pc_ldo] then begin nd := op^.left; op^.left := op^.right; op^.right := nd; end; {if} GenTree(op^.left); if (op^.right^.opcode in [pc_lod,pc_ldo]) and (floatCard = 0) then with op^.right^ do begin if opcode = pc_lod then begin GenNative(m_pea, immediate, 0, nil, 0); GenImplied(m_tdc); GenImplied(m_clc); GenNative(m_adc_imm, immediate, LabelToDisp(r) + q, nil, 0); GenImplied(m_pha); end {if} else begin GenNative(m_pea, immediate, q, lab, shift16); GenNative(m_pea, immediate, q, lab, 0); end; {else} GenNative(m_pea, immediate, 0, nil, 0); GenImplied(m_tsc); GenImplied(m_clc); GenNative(m_adc_imm, immediate, 7, nil, 0); GenImplied(m_pha); if optype = cgReal then sd := ss else if optype = cgExtended then sd := se else if optype = cgComp then sd := sc; GenNative(m_pea, immediate, sd, nil, 0); GenNative(m_ldx_imm, immediate, $090A, nil, 0); GenNative(m_jsl, longAbs, 0, nil, toolCall); end {with} else begin GenTree(op^.right); GenCall(snum); end; {else} end; {GenRealBinOp} procedure GenRet (op: icptr); { Generate code for a pc_ret } var size: integer; {localSize + parameterSize} lab1: integer; {label} begin {GenRet} {pop the name record} if namePushed then GenCall(2); {generate an exit code for the debugger/profiler's benefit} if debugFlag or profileFlag then GenNative(m_cop, immediate, 4, nil, 0); {if anything needs to be removed from the stack, move the return val} size := localSize + parameterSize; if parameterSize <> 0 then begin if localSize > 253 then begin GenNative(m_ldx_imm, immediate, localSize+1, nil, 0); GenNative(m_lda_dirx, direct, 0, nil, 0); GenNative(m_ldy_dirx, direct, 1, nil, 0); GenNative(m_ldx_imm, immediate, localSize+parameterSize+1, nil, 0); GenNative(m_sta_dirx, direct, 0, nil, 0); GenNative(m_sty_dirx, direct, 1, nil, 0); end {if} else begin GenNative(m_lda_dir, direct, localSize+2, nil, 0); if localSize+parameterSize > 253 then begin GenNative(m_ldx_imm, immediate, localSize+parameterSize+1, nil, 0); GenNative(m_sta_dirx, direct, 1, nil, 0); GenNative(m_lda_dir, direct, localSize+1, nil, 0); GenNative(m_sta_dirx, direct, 0, nil, 0); end {if} else begin GenNative(m_sta_dir, direct, localSize+parameterSize+2, nil, 0); GenNative(m_lda_dir, direct, localSize+1, nil, 0); GenNative(m_sta_dir, direct, localSize+parameterSize+1, nil, 0); end; {else} end; {else} end; {if} {load the value to return} case op^.optype of cgVoid: ; cgByte,cgUByte: begin GenNative(m_lda_dir, direct, funLoc, nil, 0); GenNative(m_and_imm, immediate, $00FF, nil, 0); if op^.optype = cgByte then begin GenNative(m_bit_imm, immediate, $0080, nil, 0); lab1 := GenLabel; GenNative(m_beq, relative, lab1, nil, 0); GenNative(m_ora_imm, immediate, $FF00, nil, 0); GenLab(lab1); end; {if} if size <> 2 then GenImplied(m_tay); end; cgWord,cgUWord: if size = 2 then GenNative(m_lda_dir, direct, funLoc, nil, 0) else GenNative(m_ldy_dir, direct, funLoc, nil, 0); cgReal: GenCall(3); cgDouble: GenCall(4); cgComp: GenCall(64); cgExtended: GenCall(65); cgLong,cgULong: begin GenNative(m_ldx_dir, direct, funLoc+2, nil, 0); GenNative(m_ldy_dir, direct, funLoc, nil, 0); end; cgQuad,cgUQuad: ; {return value was already written} otherwise: Error(cge1); end; {case} {restore data bank reg} if dataBank then begin GenNative(m_lda_dir, direct, bankLoc, nil, 0); GenImplied(m_pha); GenImplied(m_plb); GenImplied(m_plb); end; {if} {get rid of the stack frame space} if size <> 0 then GenImplied(m_pld); if size = 2 then GenImplied(m_ply) else if size <> 0 then begin GenImplied(m_tsc); GenImplied(m_clc); GenNative(m_adc_imm, immediate, size, nil, 0); GenImplied(m_tcs); end; {if} {put return value in correct place} case op^.optype of cgByte,cgUByte,cgWord,cgUWord: begin if size <> 2 then GenImplied(m_tya); if toolParms then {save value on stack for tools} GenNative(m_sta_s, direct, returnSize+1, nil, 0); end; cgLong,cgULong,cgReal,cgDouble,cgComp,cgExtended: begin GenImplied(m_tya); if toolParms then begin {save value on stack for tools} GenNative(m_sta_s, direct, returnSize+1, nil, 0); GenImplied(m_txa); GenNative(m_sta_s, direct, returnSize+3, nil, 0); end; {if} end; cgVoid,cgQuad,cgUQuad: ; otherwise: Error(cge1); end; {case} {return to the caller} GenImplied(m_rtl); end; {GenRet} procedure GenSbfCbf (op: icptr); { Generate code for a pc_sbf or pc_cbf } begin {GenSbfCbf} gLong.preference := onStack; GenTree(op^.left); GenNative(m_pea, immediate, op^.r, nil, 0); GenNative(m_pea, immediate, op^.q, nil, 0); if op^.optype in [cgLong,cgULong] then begin gLong.preference := onStack; GenTree(op^.right); end {if} else begin GenNative(m_pea, immediate, 0, nil, 0); GenTree(op^.right); GenImplied(m_pha); end; {else} if op^.opcode = pc_sbf then GenCall(74) else begin GenCall(75); if not (op^.optype in [cgLong,cgULong]) then begin GenImplied(m_pla); GenImplied(m_plx); end; {if} end; {else} end; {GenSbfCbf} procedure GenSbi (op: icptr); { Generate code for a pc_sbi } begin {GenSbi} if Complex(op^.left) or Complex(op^.right) then begin GenTree(op^.right); if Complex(op^.left) then begin GenImplied(m_pha); GenTree(op^.left); GenImplied(m_sec); GenNative(m_sbc_s, direct, 1, nil, 0); GenImplied(m_plx); end {if} else begin GenNative(m_eor_imm, immediate, $FFFF, nil, 0); GenImplied(m_sec); OperA(m_adc_imm, op^.left); end; {else} end {if} else begin GenTree(op^.left); GenImplied(m_sec); OperA(m_sbc_imm, op^.right); end; {else} end; {GenSbi} procedure GenStk (op: icptr); { Generate code for a pc_stk } var lab1: integer; {branch point} begin {GenStk} if op^.left^.opcode = pc_psh then begin if (op^.left^.right^.opcode = pc_ldc) and (op^.left^.right^.optype in [cgWord,cgUWord]) then argsSize := argsSize + op^.left^.right^.q else Error(cge1); end {if} else case op^.optype of cgByte,cgUByte,cgWord,cgUWord: argsSize := argsSize + cgWordSize; cgReal,cgDouble,cgComp,cgExtended: argsSize := argsSize + cgExtendedSize; cgLong,cgULong: argsSize := argsSize + cgLongSize; cgQuad,cgUQuad: argsSize := argsSize + cgQuadSize; otherwise: Error(cge1); end; {case} glong.preference := onStack; {generate the operand} gQuad.preference := onStack; GenTree(op^.left); if op^.optype in {do the stk} [cgByte, cgUByte, cgWord, cgUWord] then GenImplied(m_pha); end; {GenStk} procedure GenShlShrUsr (op: icptr); { Generate code for a pc_shl, pc_shr or pc_usr } var i,op1,op2,num: integer; {temp variables} begin {GenShlShrUsr} {get the standard native operations} if op^.opcode = pc_shl then begin op1 := m_asl_a; op2 := m_lsr_a; end {if} else begin op1 := m_lsr_a; op2 := m_asl_a; end; {else} {take short cuts if they are legal} if (op^.right^.opcode = pc_ldc) and (op^.opcode <> pc_shr) then begin num := op^.right^.q; if (num > 16) or (num < -16) then GenNative(m_lda_imm, immediate, 0, nil, 0) else if num > 0 then begin GenTree(op^.left); if num >= 8 then begin GenImplied(m_xba); if op1 = m_lsr_a then i := $00FF else i := $FF00; GenNative(m_and_imm, immediate, i, nil, 0); num := num-8; end; {if} for i := 1 to num do GenImplied(op1); end {else if} else if num < 0 then begin GenTree(op^.left); if num <= -8 then begin GenImplied(m_xba); if op2 = m_lsr_a then i := $00FF else i := $FF00; GenNative(m_and_imm, immediate, i, nil, 0); num := num+8; end; {if} for i := 1 to -num do GenImplied(op2); end {else if} else GenTree(op^.left); end {if} else begin GenTree(op^.left); if Complex(op^.right) then begin GenImplied(m_pha); GenTree(op^.right); GenImplied(m_tax); GenImplied(m_pla); end {if} else LoadX(op^.right); if op^.opcode = pc_shl then GenCall(23) else if op^.opcode = pc_shr then GenCall(24) else {if op^.opcode = pc_usr then} GenCall(41); end; {else} end; {GenShlShrUsr} procedure GenTl1 (op: icptr); { Generate code for a pc_tl1 } var lLong: longType; {used to reserve gLong} tp: baseTypeEnum; {operand type} begin {GenTl1} if op^.r in [2,4] then begin GenImplied(m_pha); if op^.r = 4 then GenImplied(m_pha); end; {if} lLong := gLong; GenTree(op^.left); gLong := lLong; GenNative(m_ldx_imm, immediate, op^.q, nil, 0); GenNative(m_jsl, longAbs, 0, pointer(op^.lval), toolCall); if smallMemoryModel then GenNative(m_sta_abs, absolute, 0, @'~TOOLERROR', 0) else GenNative(m_sta_long, longAbs, 0, @'~TOOLERROR', 0); if op^.r in [2,4] then begin if op^.r = 2 then begin GenImplied(m_pla); tp := cgWord; end {if} else begin gLong.where := onStack; tp := cgLong; end; {else} end; {if} end; {GenTl1} procedure GenTri (op: icptr); { Generate code for a pc_tri } var lab1,lab2,lab3: integer; {label for branches} begin {GenTri} lab1 := GenLabel; lab2 := GenLabel; lab3 := GenLabel; GenTree(op^.left); if NeedsCondition(op^.left^.opcode) then GenImplied(m_tax); GenNative(m_beq, relative, lab1, nil, 0); GenNative(m_brl, longrelative, lab2, nil, 0); GenLab(lab1); gLong.preference := onStack; GenTree(op^.right^.right); GenNative(m_brl, longrelative, lab3, nil, 0); GenLab(lab2); gLong.preference := onStack; GenTree(op^.right^.left); GenLab(lab3); gLong.where := onStack; end; {GenTri} procedure GenXjp (op: icptr); { Generate code for a pc_xjp } var lab1,lab2: integer; q: integer; begin {GenXjp} q := op^.q; GenTree(op^.left); GenNative(m_cmp_imm, immediate, q, nil, 0); lab1 := GenLabel; GenNative(m_bcc, relative, lab1, nil, 0); GenNative(m_lda_imm, immediate, q, nil, 0); GenLab(lab1); GenImplied(m_asl_a); GenImplied(m_tax); lab1 := GenLabel; GenNative(m_lda_longx, longAbs, lab1, nil, 0); GenImplied(m_pha); GenImplied(m_rts); GenLab(lab1); end; {GenXjp} procedure DirEnp; { Generate code for a dc_enp } begin {DirEnp} GenImplied(d_end); EndSeg; InitLabels; end; {DirEnp} procedure DirStr (op: icptr); { Generate code for a dc_str } begin {DirStr} skipLoad := false; InitNative; Header(op^.lab, op^.r, op^.q); end; {DirStr} procedure DirSym (op: icptr); { Generate code for a dc_sym } begin {DirSym} if debugFlag then GenNative(d_sym, special, op^.q, pointer(op^.lab), 0); end; {DirSym} begin {GenTree} {write('GEN: '); WriteCode(op); {debug} Spin; case op^.opcode of dc_cns: GenNative(d_cns, gnrConstant, op^.q, pointer(op), 0); dc_dst: GenNative(d_lab, gnrSpace, op^.q, nil, 0); dc_enp: DirEnp; dc_lab: GenLab(op^.q); dc_loc,dc_prm: ; dc_glb: GenNative(d_lab, gnrLabel, op^.r, op^.lab, isPrivate*op^.q); dc_pin: GenNative(d_pin, special, 0, nil, 0); dc_str: DirStr(op); dc_sym: DirSym(op); pc_add: GenNative(d_add, genaddress, op^.q, nil, 0); pc_adi: GenAdi(op); pc_adl,pc_sbl: GenAdlSbl(op, nil); pc_adq,pc_sbq: GenAdqSbq(op); pc_adr,pc_dvr,pc_mpr,pc_sbr: GenRealBinOp(op); pc_and,pc_bnd,pc_bor,pc_bxr,pc_ior: GenLogic(op); pc_blr,pc_blx,pc_bal,pc_dvl,pc_mdl,pc_mpl,pc_sll,pc_slr,pc_udl,pc_ulm, pc_uml,pc_vsr: GenBinLong(op); pc_bqr,pc_bqx,pc_baq,pc_mpq,pc_umq,pc_dvq,pc_udq,pc_mdq,pc_uqm,pc_slq, pc_sqr,pc_wsr: GenBinQuad(op); pc_bnl,pc_ngl: GenUnaryLong(op); pc_bnq,pc_ngq: GenUnaryQuad(op); pc_bno: GenBno(op); pc_bnt,pc_ngi,pc_not: GenBntNgiNot(op); pc_cnv: GenCnv(op); pc_cui: GenCui(op); pc_cup: GenCup(op); pc_dec,pc_inc: GenIncDec(op, nil); pc_dvi,pc_mod,pc_udi,pc_uim: GenDviMod(op); pc_ent: GenEnt(op); pc_equ,pc_neq: GenEquNeq(op, op^.opcode, 0); pc_fjp,pc_tjp: GenFjpTjp(op); pc_geq,pc_grt,pc_leq,pc_les: GenCmp(op, op^.opcode, 0); pc_gil,pc_gli,pc_gdl,pc_gld: GenGilGliGdlGld(op); pc_iil,pc_ili,pc_idl,pc_ild: GenIilIliIdlIld(op); pc_ind: GenInd(op); pc_ixa: GenIxa(op); pc_lao,pc_lad: GenLaoLad(op); pc_lbf,pc_lbu: GenLbfLbu(op); pc_lca: GenLca(op); pc_lda: GenLda(op); pc_ldc: GenLdc(op); pc_ldo: GenLdo(op); pc_lil,pc_lli,pc_ldl,pc_lld: GenLilLliLdlLld(op); pc_lnm: GenLnm(op); pc_lod: GenLod(op); pc_lor,pc_lnd: GenLorLnd(op); pc_mov: GenMov(op, true); pc_mpi,pc_umi: GenMpi(op); pc_nam: GenNam(op); pc_nat: GenNat(op); pc_ngr: GenNgr(op); pc_nop: ; pc_pop: GenPop(op); pc_psh: GenPsh(op); pc_rbo: GenRbo(op); pc_ret: GenRet(op); pc_sbf,pc_cbf: GenSbfCbf(op); pc_sbi: GenSbi(op); pc_shl,pc_shr,pc_usr: GenShlShrUsr(op); pc_stk: GenStk(op); pc_sro,pc_cpo: GenSroCpo(op); pc_sto,pc_cpi: GenStoCpi(op); pc_str,pc_cop: GenStrCop(op); pc_tl1: GenTl1(op); pc_tri: GenTri(op); pc_ujp: GenNative(m_brl, longrelative, op^.q, nil, 0); pc_xjp: GenXjp(op); otherwise: Error(cge1); end; {case} end; {GenTree} {---------------------------------------------------------------} procedure Gen {blk: blockPtr}; { Generates native code for a list of blocks } { } { parameters: } { blk - first of the list of blocks } const locSize = 4; {variables <= this size allocated first} var bk: blockPtr; {used to trace block lists} minSize: integer; {location for the next local label} op: icptr; {used to trace code lists} procedure DirLoc1 (op: icptr); { allocates stack frame locations for small dc_loc } begin {DirLoc1} if op^.q <= locSize then begin if op^.r < maxLocalLabel then begin localLabel[op^.r] := minSize; minSize := minSize + op^.q; end {if} else Error(cge2); end; {if} end; {DirLoc1} procedure DirLoc2 (op: icptr); { allocates stack frame locations for large dc_loc } begin {DirLoc2} if op^.q > locSize then begin if op^.r < maxLocalLabel then begin localLabel[op^.r] := minSize; minSize := minSize + op^.q; end {if} else Error(cge2); end; {if} end; {DirLoc2} procedure DirPrm (op: icptr); { allocates stack frame locations for parameters } begin {DirPrm} if op^.s < maxLocalLabel then localLabel[op^.s] := localSize + returnSize + 1 + op^.r else Error(cge2); end; {DirPrm} procedure Scan (op: icptr); { scans the code stream for instructions that effect the } { size of the stack frame } { } { parameters: } { op - scan this opcode and its children } var opcode: pcodes; {op^.opcode} size: integer; {function return value size} begin {Scan} if op^.left <> nil then Scan(op^.left); if op^.right <> nil then Scan(op^.right); opcode := op^.opcode; if opcode = dc_loc then localSize := localSize + op^.q else if opcode = dc_prm then parameterSize := parameterSize + op^.q else if opcode = pc_ret then begin case op^.optype of otherwise: size := 0; cgByte,cgUByte,cgWord,cgUWord: size := cgWordSize; cgReal: size := cgRealSize; cgDouble: size := cgDoubleSize; cgComp: size := cgCompSize; cgExtended: size := cgExtendedSize; cgLong,cgULong: size := cgLongSize; cgQuad,cgUQuad: begin size := cgLongSize; {pointer} isQuadFunction := true; end; end; {case} funLoc := 1; if dworkLoc <> 0 then dworkLoc := dworkLoc + size; minSize := minSize + size; localSize := localSize + size; end {else if} else if opcode in [pc_les,pc_leq,pc_grt,pc_geq,pc_sto,pc_cpi,pc_ind,pc_lor,pc_lnd, pc_ili,pc_iil,pc_idl,pc_ild,pc_ixa] then begin if dworkLoc = 0 then begin dworkLoc := minSize; minSize := minSize + 4; localSize := localSize + 4; end; {if} end; {else if} end; {Scan} begin {Gen} bk := blk; {determine the size of the stack frame} localSize := 0; parameterSize := 0; funLoc := 0; dworkLoc := 0; minSize := 1; stackSaveDepth := 0; isQuadFunction := false; while bk <> nil do begin op := bk^.code; while op <> nil do begin Scan(op); op := op^.next; end; {while} bk := bk^.next; end; {while} if saveStack or checkStack or (strictVararg and hasVarargsCall) then begin stackLoc := minSize; minSize := minSize + 2; localSize := localSize + 2; end; {if} if dataBank then begin bankLoc := minSize; minSize := minSize + 2; localSize := localSize + 2; end; {if} bk := blk; {allocate locations for the values} while bk <> nil do begin op := bk^.code; while op <> nil do begin if op^.opcode = dc_loc then DirLoc1(op) else if op^.opcode = dc_prm then DirPrm(op); op := op^.next; end; {while} bk := bk^.next; end; {while} bk := blk; while bk <> nil do begin op := bk^.code; while op <> nil do begin if op^.opcode = dc_loc then DirLoc2(op); op := op^.next; end; {while} bk := bk^.next; end; {while} while blk <> nil do begin {generate code for the block} op := blk^.code; while op <> nil do begin GenTree(op); op := op^.next; end; {while} blk := blk^.next; end; {while} end; {Gen} function LabelToDisp {lab: integer): integer}; { convert a local label number to a stack frame displacement } { } { parameters: } { lab - label number } begin {LabelToDisp} if lab = 0 then LabelToDisp := funLoc else LabelToDisp := localLabel[lab]; end; {LabelToDisp} end.