-- FlowExpression.mesa -- last modified by Sweet, July 23, 1980 11:21 AM -- last modified by Satterthwaite, 27-Jan-82 11:00:36 DIRECTORY Alloc: TYPE USING [Notifier], Code: TYPE USING [CodeNotImplemented, ZEROlexeme], CodeDefs: TYPE USING [ Base, codeType, JumpType, LabelCCIndex, Lexeme, NullLex, VarComponent, VarIndex], FOpCodes: TYPE USING [ qAND, qBNDCK, qDADD, qDCOMP, qDSUB, qDUCOMP, qDUP, qEXCH, qFCOMP, qFSUB, qLI, qLINT, qLP, qNEG, qPOP, qPUSH, qXOR], P5: TYPE USING [ Exp, FlowTree, GenTempLex, LogHeapFree, PushLex, PushRhs, ReleaseTempLex, SAssign], P5L: TYPE USING [ AllLoaded, ComponentForLex, CopyToTemp, EasilyLoadable, FieldOfVar, LoadBoth, LoadComponent, LoadVar, MakeComponent, NormalizeExp, NormalLex, OVarItem, ReusableCopies, TOSLex, VarAlignment, VarForLex], P5U: TYPE USING [ InsertLabel, LabelAlloc, LongTreeAddress, Out0, Out1, OutJump, PushLitVal, TreeLiteral], Stack: TYPE USING [ Also, Decr, DeleteToMark, Dump, Mark, Off, On, ResetToMark, RoomFor, TempStore, UnMark], Symbols: TYPE USING [ISEIndex, ISENull], Tree: TYPE USING [Base, Index, Link, NodeName, treeType], TreeOps: TYPE USING [GetNode, ListLength, ScanList]; FlowExpression: PROGRAM IMPORTS CPtr: Code, P5U, P5L, P5, Stack, TreeOps EXPORTS CodeDefs, P5 = BEGIN OPEN FOpCodes, CodeDefs; -- imported definitions ISEIndex: TYPE = Symbols.ISEIndex; ISENull: ISEIndex = Symbols.ISENull; tb: Tree.Base; -- tree base (local copy) cb: CodeDefs.Base; -- code base (local copy) FlowExpressionNotify: PUBLIC Alloc.Notifier = BEGIN -- called by allocator whenever table area is repacked tb ← base[Tree.treeType]; cb ← base[codeType]; END; JumpNN: ARRAY Tree.NodeName[relE..relLE] OF JumpType = [ relE:JumpE, relN:JumpN, relL:JumpL, relGE:JumpGE, relG:JumpG, relLE:JumpLE]; UJumpNN: ARRAY Tree.NodeName[relE..relLE] OF JumpType = [ relE:JumpE, relN:JumpN, relL:UJumpL, relGE:UJumpGE, relG:UJumpG, relLE:UJumpLE]; CNN: ARRAY Tree.NodeName[relE..relLE] OF Tree.NodeName = [ relE:relN, relN:relE, relL:relGE, relGE:relL, relG:relLE, relLE:relG]; RNN: ARRAY Tree.NodeName[relE..relLE] OF Tree.NodeName = [ relE:relE, relN:relN, relL:relG, relGE:relLE, relG:relL, relLE:relGE]; PushOnly: PROC [t: Tree.Link] = BEGIN P5.PushRhs[t]; END; FlowExp: PUBLIC PROC [node: Tree.Index] RETURNS [l: Lexeme] = BEGIN -- generates code for a flow expression SELECT tb[node].name FROM ifx => l ← IfExp[node]; or => l ← Or[node]; and => l ← And[node]; not => l ← Not[node]; relE, relN, relL, relGE, relG, relLE, in, notin => l ← Rel[node, TRUE]; abs => l ← Abs[node]; lengthen => l ← Lengthen[node]; shorten => l ← Shorten[node]; min => l ← Min[node]; max => l ← Max[node]; istype => l ← Rel[node, TRUE]; ENDCASE => {SIGNAL CPtr.CodeNotImplemented; l ← CPtr.ZEROlexeme}; RETURN END; Abs: PROC [node: Tree.Index] RETURNS [Lexeme] = BEGIN -- generate code for ABS nw: [1..2]; real: BOOLEAN; poslabel: LabelCCIndex = P5U.LabelAlloc[]; donelabel: LabelCCIndex; SELECT TRUE FROM tb[node].attr1 => {nw ← 2; real ← TRUE}; tb[node].attr2 => {nw ← 2; real ← FALSE}; ENDCASE => {nw ← 1; real ← FALSE}; IF real THEN -- delete for strict IEEE floating point BEGIN IF ~Stack.RoomFor[3] THEN Stack.Dump[]; P5.PushRhs[tb[node].son[1]]; P5U.PushLitVal[77777b]; P5U.Out0[qAND]; END ELSE IF nw = 2 THEN BEGIN var: VarComponent; zero: VarComponent = [wSize: 2, space: const[d1: 0, d2: 0]]; IF real THEN Stack.Dump[]; Stack.Mark[]; var ← P5L.MakeComponent[P5L.VarForLex[P5.Exp[tb[node].son[1]]]]; var ← P5L.EasilyLoadable[var, load]; P5L.LoadComponent[var]; P5L.LoadComponent[zero]; P5U.Out0[IF real THEN qFCOMP ELSE qDCOMP]; P5U.PushLitVal[0]; P5U.OutJump[JumpGE, poslabel]; P5L.LoadComponent[zero]; P5L.LoadComponent[var]; P5U.Out0[IF real THEN qFSUB ELSE qDSUB]; Stack.ResetToMark[]; P5U.OutJump[Jump, donelabel ← P5U.LabelAlloc[]]; P5U.InsertLabel[poslabel]; P5L.LoadComponent[var]; Stack.UnMark[]; P5U.InsertLabel[donelabel]; END ELSE -- nw = 1 BEGIN IF ~Stack.RoomFor[3] THEN Stack.Dump[]; P5.PushRhs[tb[node].son[1]]; P5U.Out0[qDUP]; -- don't use Stack.Dup since Neg will clear info P5U.PushLitVal[0]; P5U.OutJump[JumpGE, poslabel]; P5U.Out0[qNEG]; P5U.InsertLabel[poslabel]; END; RETURN [P5L.TOSLex[nw]] END; Lengthen: PROC [node: Tree.Index] RETURNS [Lexeme] = BEGIN r: VarIndex = P5L.VarForLex[P5.Exp[tb[node].son[1]]]; nw: CARDINAL; IF P5L.VarAlignment[r, load].wSize = 2 THEN -- array descriptor BEGIN IF P5L.AllLoaded[r] THEN BEGIN len: VarComponent = Stack.TempStore[1]; P5U.Out0[qLP]; P5L.LoadComponent[len]; END ELSE BEGIN tr1, tr2: VarIndex; [first: tr1, next: tr2] ← P5L.ReusableCopies[r, load, TRUE]; P5L.FieldOfVar[r: tr1, wSize: 1]; P5L.FieldOfVar[r: tr2, wd: 1, wSize: 1]; IF P5L.AllLoaded[tr2] THEN -- clearly on top of stack tr2 ← P5L.OVarItem[P5L.CopyToTemp[tr2].var]; P5L.LoadVar[tr1]; P5U.Out0[qLP]; P5L.LoadVar[tr2]; END; nw ← 3; END ELSE BEGIN P5L.LoadVar[r]; IF tb[node].attr1 THEN P5U.Out0[qLP] ELSE IF tb[node].attr3 THEN P5U.Out0[qLINT] ELSE P5U.Out1[qLI, 0]; nw ← 2; END; RETURN [P5L.TOSLex[nw]] END; Shorten: PROC [node: Tree.Index] RETURNS [Lexeme] = BEGIN P5.PushRhs[tb[node].son[1]]; IF ~tb[node].attr1 THEN P5U.Out0[qPOP] -- no checking ELSE IF tb[node].attr3 THEN BEGIN P5U.Out1[qLI, 100000b]; P5U.Out1[qLI, 0]; P5U.Out0[qDADD]; P5U.Out1[qLI, 1]; P5U.Out0[qBNDCK]; P5U.Out0[qPOP]; P5U.Out1[qLI, 100000b]; P5U.Out0[qXOR]; END ELSE BEGIN P5U.Out1[qLI, 1]; P5U.Out0[qBNDCK]; P5U.Out0[qPOP]; END; RETURN [P5L.TOSLex[1]] END; And: PROC [node: Tree.Index] RETURNS [Lexeme] = INLINE BEGIN -- generate code for "AND" RETURN [CAnd[TRUE, tb[node].son[1], tb[node].son[2]]] END; CAnd: PROC [tf: BOOLEAN, t1, t2: Tree.Link] RETURNS [Lexeme] = BEGIN -- main subroutine for Cand label: LabelCCIndex = P5U.LabelAlloc[]; elabel: LabelCCIndex = P5U.LabelAlloc[]; Stack.Mark[]; BEGIN ENABLE P5.LogHeapFree => RESUME[FALSE, NullLex]; P5.FlowTree[t1, FALSE, label]; P5.FlowTree[t2, FALSE, label]; END; P5U.PushLitVal[IF tf THEN 1 ELSE 0]; Stack.DeleteToMark[]; P5U.OutJump[Jump,elabel]; P5U.InsertLabel[label]; P5U.PushLitVal[IF tf THEN 0 ELSE 1]; P5U.InsertLabel[elabel]; RETURN [P5L.TOSLex[1]] END; Or: PROC [node: Tree.Index] RETURNS [Lexeme] = INLINE BEGIN -- generate code for "OR" RETURN [COr[TRUE, tb[node].son[1], tb[node].son[2]]] END; COr: PROC [tf: BOOLEAN, t1, t2: Tree.Link] RETURNS [Lexeme] = BEGIN -- main subroutine for Cor labelt: LabelCCIndex = P5U.LabelAlloc[]; labelf: LabelCCIndex = P5U.LabelAlloc[]; elabel: LabelCCIndex = P5U.LabelAlloc[]; Stack.Mark[]; BEGIN ENABLE P5.LogHeapFree => RESUME[FALSE, NullLex]; P5.FlowTree[t1, TRUE, labelt]; P5.FlowTree[t2, FALSE, labelf]; END; P5U.InsertLabel[labelt]; P5U.PushLitVal[IF tf THEN 1 ELSE 0]; Stack.DeleteToMark[]; P5U.OutJump[Jump,elabel]; P5U.InsertLabel[labelf]; P5U.PushLitVal[IF tf THEN 0 ELSE 1]; P5U.InsertLabel[elabel]; RETURN [P5L.TOSLex[1]] END; Not: PROC [node: Tree.Index] RETURNS [l: Lexeme] = BEGIN -- generate code for "NOT" WITH tb[node].son[1] SELECT FROM subtree => BEGIN subNode: Tree.Index = index; SELECT tb[subNode].name FROM or => l ← COr[FALSE, tb[subNode].son[1], tb[subNode].son[2]]; and => l ← CAnd[FALSE, tb[subNode].son[1], tb[subNode].son[2]]; relE, relN, relL, relGE, relG, relLE, in, notin => l ← Rel[subNode, FALSE]; istype => l ← Rel[subNode, FALSE]; not => {P5.PushRhs[tb[subNode].son[1]]; l ← P5L.TOSLex[1]}; ENDCASE => GOTO VanillaNot; END; ENDCASE => GO TO VanillaNot; EXITS VanillaNot => BEGIN P5.PushRhs[tb[node].son[1]]; P5U.PushLitVal[1]; P5U.Out0[qXOR]; l ← P5L.TOSLex[1]; END; END; Rel: PROC [node: Tree.Index, tf: BOOLEAN] RETURNS [Lexeme] = BEGIN -- produces code for relationals outside flow tlabel: LabelCCIndex = P5U.LabelAlloc[]; elabel: LabelCCIndex = P5U.LabelAlloc[]; P5.FlowTree[[subtree[node]], tf, tlabel]; P5U.PushLitVal[0]; P5U.OutJump[Jump, elabel]; P5U.InsertLabel[tlabel]; Stack.Off[]; P5U.PushLitVal[1]; Stack.On[]; P5U.InsertLabel[elabel]; RETURN [P5L.TOSLex[1]] END; IfExp: PROC [node: Tree.Index] RETURNS [Lexeme] = BEGIN -- generates code for an IF expression ilabel, elabel: LabelCCIndex; t3: Tree.Link = tb[node].son[3]; t2: Tree.Link = tb[node].son[2]; nwords: CARDINAL; tsei: ISEIndex ← ISENull; bothConst: BOOLEAN = P5U.TreeLiteral[t2] AND P5U.TreeLiteral[t3]; thenLong, elseLong: BOOLEAN; elabel ← P5U.LabelAlloc[]; Stack.Mark[]; P5.FlowTree[tb[node].son[1], FALSE, elabel]; BEGIN ENABLE P5.LogHeapFree => RESUME[FALSE, NullLex]; [nwords: nwords, long: thenLong, tsei: tsei] ← P5L.NormalizeExp[ P5L.VarForLex[P5.Exp[t2]], tsei, bothConst]; elseLong ← nwords > 2 AND P5U.LongTreeAddress[t3]; IF elseLong AND ~thenLong THEN P5U.Out0[FOpCodes.qLP]; Stack.ResetToMark[]; P5U.OutJump[Jump, ilabel ← P5U.LabelAlloc[]]; P5U.InsertLabel[elabel]; [] ← P5L.NormalizeExp[P5L.VarForLex[P5.Exp[t3]], tsei, bothConst]; Stack.UnMark[]; IF thenLong AND ~elseLong THEN {P5U.Out0[qLP]; elseLong ← TRUE}; P5U.InsertLabel[ilabel]; END; IF tsei # ISENull THEN P5.ReleaseTempLex[[se[tsei]]]; RETURN [P5L.NormalLex[nwords, elseLong, bothConst]] END; Min: PROC [node: Tree.Index] RETURNS [Lexeme] = BEGIN -- generate code for "MIN[...]" real: BOOLEAN = tb[node].attr1; nw: [1..2] = IF real OR tb[node].attr2 THEN 2 ELSE 1; signed: BOOLEAN = tb[node].attr3; CMinMax[relL, tb[node].son[1], nw, real, signed]; RETURN [P5L.TOSLex[nw]] END; Max: PROC [node: Tree.Index] RETURNS [Lexeme] = BEGIN -- generates code for "MAX[...]" real: BOOLEAN = tb[node].attr1; nw: [1..2] = IF real OR tb[node].attr2 THEN 2 ELSE 1; signed: BOOLEAN = tb[node].attr3; CMinMax[relG, tb[node].son[1], nw, real, signed]; RETURN [P5L.TOSLex[nw]] END; CMinMax: PROC [n: Tree.NodeName, t: Tree.Link, nw: [1..2], real, signed: BOOLEAN] = BEGIN -- common subroutine for Cmin and Cmax node: Tree.Index = TreeOps.GetNode[t]; nArgs: CARDINAL = TreeOps.ListLength[t]; -- ASSERT nArgs >= 2 IF nw = 1 AND nArgs = 2 THEN BEGIN label1: LabelCCIndex = P5U.LabelAlloc[]; label2: LabelCCIndex = P5U.LabelAlloc[]; op1: VarComponent ← P5L.ComponentForLex[P5.Exp[tb[node].son[1]]]; op2: VarComponent ← P5L.ComponentForLex[P5.Exp[tb[node].son[2]]]; P5L.LoadBoth[@op1, @op2, TRUE]; P5U.OutJump[IF signed THEN JumpNN[n] ELSE UJumpNN[n], label1]; P5U.Out0[qPUSH]; P5U.Out0[qPUSH]; P5U.Out0[qEXCH]; P5U.Out0[qPOP]; P5U.OutJump[Jump,label2]; Stack.Decr[1]; P5U.InsertLabel[label1]; P5U.Out0[qPUSH]; P5U.InsertLabel[label2]; END ELSE BEGIN elabel: LabelCCIndex = P5U.LabelAlloc[]; tlex: se Lexeme; arg: CARDINAL ← 0; MinMaxItem: PROC [t: Tree.Link] = BEGIN IF (arg ← arg+1) > 1 THEN BEGIN label: LabelCCIndex = P5U.LabelAlloc[]; var: VarComponent ← P5L.MakeComponent[P5L.VarForLex[P5.Exp[t]]]; IF nw = 2 THEN var ← P5L.EasilyLoadable[var, load]; P5L.LoadComponent[var]; P5.PushLex[tlex]; IF nw = 2 THEN BEGIN P5U.Out0[IF real THEN qFCOMP ELSE IF signed THEN qDCOMP ELSE qDUCOMP]; P5U.PushLitVal[0]; P5U.OutJump[JumpNN[RNN[n]], label]; P5L.LoadComponent[var]; END ELSE BEGIN P5U.OutJump[IF signed THEN JumpNN[RNN[n]] ELSE UJumpNN[RNN[n]], label]; P5U.Out0[qPUSH]; END; IF arg = nArgs THEN P5U.OutJump[Jump, elabel] ELSE P5.SAssign[tlex.lexsei]; P5U.InsertLabel[label]; END; END; P5.PushRhs[tb[node].son[1]]; tlex ← P5.GenTempLex[nw]; P5.SAssign[tlex.lexsei]; TreeOps.ScanList[t, MinMaxItem]; Stack.Decr[nw]; P5.PushLex[tlex]; Stack.Also[n: nw, tOffset: 0]; -- forget temp P5U.InsertLabel[elabel]; END; END; END.