perm filename EPUTS1.2[EAL,HE]3 blob
sn#704717 filedate 1983-04-06 generic text, type C, neo UTF8
COMMENT ⊗ VALID 00005 PAGES
C REC PAGE DESCRIPTION
C00001 00001
C00002 00002 {$NOMAIN Editor: Statement printing routine Aux routines }
C00031 00003 { Externally defined routines from elsewhere: }
C00033 00004 (* putStmnt aux routine to handle about half of the statement types *)
C00039 00005 (* putst1: main part *)
C00044 ENDMK
C⊗;
�{$NOMAIN Editor: Statement printing routine Aux routines }
(* definition of record types & global variables used by AL *)
const
maxLines = 28;
maxPPLines = 12;
maxBpts = 25;
maxTBpts = 20; (* max could be exceeded by huge case stmnt *)
listinglength = 2000; (* Length of Listingarray *)
type
(* random type declarations for OMSI/SAIL compatibility *)
ascii = char;
atext = text;
byte = 0..255;
(* Here are all the pointer-type definitions. Since the various *)
(* records reference each other so much, we have to put them all here. *)
vectorp = ↑vector;
transp = ↑trans;
strngp = ↑strng;
eventp = ↑event;
framep = ↑frame;
statementp = ↑statement;
varidefp = ↑varidef;
nodep = ↑node;
identp = ↑ident;
tokenp = ↑token;
reswordp = ↑resword;
pdbp = ↑pdb;
envheaderp = ↑envheader;
enventryp = ↑enventry;
environp = ↑environment;
cmoncbp = ↑cmoncb;
messagep = ↑message;
linerecp = ↑linerec;
(* datatype definitions *)
datatypes = (pconstype, varitype, svaltype, vectype, rottype, transtype,
frametype, eventtype, strngtype, labeltype, proctype, arraytype,
reftype, valtype, cmontype, nulltype, undeftype,
dimensiontype, mactype, macargtype, freevartype);
scalar = real;
vector = record refcnt: integer; val: array [1..3] of real end;
trans = record refcnt: integer; val: array [1..3,1..4] of real end;
cstring = packed array [1..10] of ascii;
c4str = packed array [1..4] of ascii;
c5str = packed array [1..5] of ascii;
c20str = packed array [1..20] of ascii;
linestr = packed array [1..130] of ascii;
strng = record
next: strngp;
ch: cstring;
end;
event = record
next: eventp; (* all events are on one big list *)
count: integer;
waitlist: pdbp;
end;
frame = record
vari: varidefp; (* back pointer to variable name & info *)
calcs: nodep; (* affixment info *)
case ftype: boolean of (* frame = true, device = false *)
true: (valid: integer; val, fdepr: transp; dcntr: integer; dev: framep);
false: (mech: integer; case sdev: boolean of
true: (sdest: real); false: (tdest,appr,depr: transp));
(* sdev = true for scalar devices, false for frames *)
end;
(* statement definitions *)
stmntypes = (progtype, blocktype, coblocktype, endtype, coendtype,
fortype, iftype, whiletype, untiltype, casetype,
calltype, returntype,
printtype, prompttype, pausetype, aborttype, assigntype,
signaltype, waittype, enabletype, disabletype, cmtype,
affixtype, unfixtype,
movetype,jtmovetype,operatetype,opentype,closetype,centertype,
floattype, stoptype, retrytype,
requiretype, definetype, macrotype, commenttype, dimdeftype,
setbasetype, wristtype, saytype, declaretype, emptytype,
evaltype, armmagictype);
(* more??? *)
statement = packed record
next, last: statementp;
stlab: varidefp;
exprs: nodep; (* any expressions used by this statement *)
nlines: integer;
bpt,bad: boolean;
case stype: stmntypes of
progtype: (pcode: statementp; errors: integer);
blocktype,
declaretype,
endtype,
coendtype: (bcode, bparent: statementp; blkid: identp;
level, numvars: 0..255; variables: varidefp);
coblocktype: (threads: nodep; nthreads: integer; cblkid: identp);
fortype: (forvar, initial, step, final: nodep; fbody: statementp);
whiletype,
untiltype: (cond: nodep; body: statementp);
iftype: (icond: nodep; thn, els: statementp);
end;
(* auxiliary definitions: variable, etc. *)
varidef = packed record
next,dnext: varidefp;
name: identp;
level: 0..255; (* environment level *)
offset: 0..255; (* environment offset *)
dtype: varidefp; (* to hold the dimension info *)
tbits: 0..15; (* special type bits: array = 1, proc = 2, ref = 4 & ? *)
dbits: 0..15; (* for use by debugger/interpreter *)
case vtype: datatypes of
arraytype: (a: nodep);
proctype: (p: nodep);
labeltype,
cmontype: (s: statementp);
mactype: (mdef: statementp);
macargtype: (marg: tokenp);
pconstype: (c: nodep);
dimensiontype: (dim: nodep);
end;
(* definition of the ubiquitous NODE record *)
nodetypes = (exprnode, leafnode, listnode, clistnode, colistnode, forvalnode,
deprnode, viaptnode, apprnode, destnode, byptnode, durnode,
sfacnode, wobblenode, swtnode, nullingnode, wristnode, cwnode,
arrivalnode, departingnode,
ffnode, forcenode, stiffnode, gathernode, cmonnode, errornode,
calcnode, arraydefnode, bnddefnode, bndvalnode,
waitlistnode, procdefnode, tlistnode, dimnode, commentnode,
linearnode, elbownode, shouldernode, flipnode, wrtnode,
loadnode,velocitynode);
exprtypes = ( svalop, (* scalar operators *)
sltop, sleop, seqop, sgeop, sgtop, sneop, (* relations *)
notop, orop, xorop, andop, eqvop, (* logical *)
saddop, ssubop, smulop, sdivop, snegop, sabsop, (* scalar ops *)
sexpop, maxop, minop, intop, idivop, modop,
sqrtop, logop, expop, timeop, (* functions *)
sinop, cosop, tanop, asinop, acosop, atan2op, (* trig *)
vdotop, vmagnop, tmagnop,
vecop, (* vector operators *)
vmakeop, unitvop, vaddop, vsubop, crossvop, vnegop,
svmulop, vsmulop, vsdivop, tvmulop, wrtop,
tposop, taxisop,
transop, (* trans operators *)
tmakeop, torientop, ttmulop, tvaddop, tvsubop, tinvrtop,
vsaxwrop, constrop, ftofop, deproachop, fmakeop, vmkfrcop,
ioop, (* i/o operators *)
queryop, inscalarop,
specop, (* special operators *)
arefop, callop, grinchop, macroop, vmop, adcop, dacop, jointop,
badop,
addop, subop, negop, mulop, divop, absop); (* for parsing *)
leaftypes = pconstype..strngtype;
reltypes = sltop..sgtop;
forcetypes = (force,absforce,torque,abstorque,angvelocity);
node = record
next: nodep;
case ntype: nodetypes of
exprnode: (op: exprtypes; arg1, arg2, arg3: nodep; elength: integer);
leafnode: (case ltype: leaftypes of
varitype: (vari: varidefp; vid: identp);
pconstype: (cname: varidefp; pcval: nodep);
svaltype: (s: scalar; wid: integer);
vectype: (v: vectorp);
transtype: (t: transp);
strngtype: (length: integer; str: strngp) ); (* also used by commentnodes *)
listnode: (lval: nodep);
clistnode: (cval: integer; stmnt: statementp; clast: nodep);
colistnode: (prev: nodep; cstmnt: statementp);
forvalnode: (fvar: enventryp; fstep: scalar);
arraydefnode: (numdims: 1..10; bounds: nodep; combnds: boolean);
bnddefnode: (lower, upper: nodep);
bndvalnode: (lb, ub, mult: integer);
procdefnode:(ptype: datatypes; level: 0..255;
pname, paramlist: varidefp; body: statementp);
tlistnode: (tok: tokenp);
end;
(* records for parser: ident, token, resword *)
ident = record
next: identp;
length: integer;
name: strngp;
predefined: varidefp;
end;
tokentypes = (reswdtype, identtype, constype, comnttype, delimtype, labeldeftype,
macpartype);
constypes = svaltype..strngtype;
reswdtypes = (stmnttype, filtype, clsetype, decltype, optype, edittype);
filtypes = (abouttype,alongtype,attype,bytype,defertype,dotype,elsetype,
errmodestype,fromtype,handtype,intype,nonrigidlytype,rigidlytype,
sourcefiletype,steptype,thentype,totype,untltype,viatype,
withtype,worldtype,zeroedtype,oftype,wheretype,nowaittype,
ontype,offtype,ppsizetype,collecttype,alltype,lextype,
notype,righttype,lefttype,uptype,downtype,motiontype);
clsetypes = (approachtype,arrivaltype,departuretype,departingtype,durationtype,
errortype,forcetype,forceframetype,forcewristtype,gathertype,
nildeproachtype,nullingtype,stiffnesstype,
torquetype,velocitytype,wobbletype,
cwtype,ccwtype,stopwaittimetype,angularvelocitytype,
respecttype,elbowtype,shouldertype,fliptype,lineartype,
jointspacetype,loadtype);
edittypes = (getcmd,savecmd,insertcmd,renamecmd,startcmd,gocmd,proceedcmd,
stepcmd,sstepcmd,nstepcmd,gstepcmd,executecmd,setcmd,tracecmd,
breakcmd,unbreakcmd,tbreakcmd,definecmd,markcmd,unmarkcmd,
popcmd,atcmd,calibratecmd);
token = record
next: tokenp;
case ttype: tokentypes of
constype: (cons: nodep);
comnttype: (len: integer; str: strngp);
delimtype: (ch: ascii);
reswdtype: (case rtype: reswdtypes of
stmnttype: (stmnt: stmntypes);
filtype: (filler: filtypes);
clsetype: (clause: clsetypes);
decltype: (decl: datatypes);
optype: (op: exprtypes);
edittype: (ed: edittypes) );
identtype: (id: identp);
labeldeftype: (lab: varidefp);
macpartype: (mpar: varidefp);
end;
resword = record
next: reswordp;
length: integer;
name: strngp;
case rtype: reswdtypes of
stmnttype: (stmnt: stmntypes);
filtype: (filler: filtypes);
clsetype: (clause: clsetypes);
decltype: (decl: datatypes);
optype: (op: exprtypes);
edittype: (ed: edittypes);
end;
(* process descriptor blocks & environment record definitions *)
queuetypes = (nullqueue,nowrunning,runqueue,inputqueue,eventqueue,sleepqueue,
forcewait,devicewait,joinwait,proccall);
pdb = packed record
nextpdb,next: pdbp; (* for list of all/active pdb's *)
level: 0..255; (* lexical level *)
mode: 0..255; (* expression/statement/sub-statement *)
priority: 0..255; (* probably never greater than 3? *)
status: queuetypes; (* what are we doing *)
env: envheaderp;
spc: statementp; (* current statement *)
epc: nodep; (* current expression (if any) *)
sp: nodep; (* intermediate value stack *)
cm: cmoncbp; (* if we're a cmon point to our definition *)
mech: framep; (* current device being used *)
linenum: integer; (* used by editor/debugger *)
case procp: boolean of (* true if we're a procedure *)
true: (opdb: pdbp; (* pdb to restore when procedure exits *)
pdef: nodep); (* procedure definition node *)
false: (evt: eventp; (* event to signal when process goes away *)
sdef: statementp); (* first statement where process was defined *)
end;
envheader = packed record
parent: envheaderp;
env: array [0..4] of environp;
varcnt: 0..255; (* # of variables in use ??? *)
case procp: boolean of (* true if we're a procedure *)
true: (proc: nodep);
false:(block: statementp);
end;
enventry = record
case etype: datatypes of
svaltype: (s: scalar);
vectype: (v: vectorp);
transtype: (t: transp);
frametype: (f: framep);
eventtype: (evt: eventp);
strngtype: (length: integer; str: strngp);
cmontype: (c: cmoncbp);
proctype: (p: nodep; penv: envheaderp);
reftype: (r: enventryp);
arraytype: (a: envheaderp; bnds: nodep);
end;
environment = record
next: environp;
vals: array [0..9] of enventryp;
end;
cmoncb = record
running, enabled: boolean; (* cmon's status *)
cmon: statementp;
pdb: pdbp;
evt: eventp;
fbits: integer; (* bits for force sensing *)
oldcmon: cmoncbp; (* for debugger *)
end;
(* definition of AL-ARM messages *)
msgtypes = (initarmscmd,calibcmd,killarmscmd,wherecmd,
abortcmd,stopcmd,movehdrcmd,movesegcmd,
centercmd,operatecmd,movedonecmd,signalcmd,
setccmd,forcesigcmd,forceoffcmd,biasoncmd,biasoffcmd,setstiffcmd,
zerowristcmd,wristcmd,gathercmd,getgathercmd,readadccmd,writedaccmd,
errorcmd,floatcmd,setloadcmd,
armmagiccmd,realcmd,vectorcmd,transcmd);
errortypes = (noerror,noarmsol,timerr,durerr,toolong,featna,
unkmess,srvdead,adcdead,nozind,exjtfc,paslim,nopower,badpot,devbusy,
baddev,timout,panicb,nocart,cbound,badparm);
message = record
cmd: msgtypes;
ok: boolean;
case integer of
1: (dev, bits, n: integer;
(* (dev, bits, n, evt: integer; (* for arm code version *)
evt: eventp;
dur: real;
case integer of
1: (v1,v2,v3: real);
2: (sfac,wobble,pos: real);
3: (val,angle,mag: real);
4: (max,min: real);
5: (error: errortypes));
2: (fv1,fv2,fv3,mv1,mv2,mv3: real); (* may never use these... *)
3: (t: array [1..6] of real);
end;
interr = record
case integer of
0: (i: integer);
1: (err,foo: errortypes);
end;
(* print related records: *)
cursorp = record
cline,ind: integer;
case stmntp: boolean of
true: (st: statementp);
false: (nd: nodep);
end;
linerec = record
next: linerecp;
start,length: integer
end;
listingarray = packed array [0..listinglength] of ascii;
(* global variables *)
var
(* from EDIT *)
listing: listingarray; (* first 150 chars are used by expression editor *)
(* next 40 by header & trailer lines *)
{*} cursorStack: array [1..15] of cursorp; {These are BIG records! }
lbuf: array [1..160] of ascii;
ppBuf: array [1..100] of ascii;
lines: array [1..maxLines] of linerecp; (* what's on the screen + some *)
ppLines: array [1..maxPPLines] of linerecp; (* for page printer *)
marks: array [1..20] of integer;
reswords: array [0..26] of reswordp;
idents: array [0..26] of identp;
macrostack: array [1..10] of tokenp;
curmacstack: array [1..10] of varidefp;
screenheight,dispHeight: integer;
ppBufp,oppBufp,ppOffset,ppSize,nmarks: integer;
lbufp,cursor,ocur,cursorLine,fieldnum,lineNum,findLine,pcLine: integer;
firstDline,topDline,botDline,firstLine,lastLine,curLine: integer;
freeLines,oldLines: linerecp;
sysVars: varidefp;
dProg: statementp;
curBlock, newDeclarations, findStmnt: statementp;
macrodepth: integer;
filedepth, errCount, sCursor: integer;
curChar, maxChar, curFLine, curPage: integer;
nodim, distancedim, timedim, angledim,
forcedim, torquedim, veldim, angveldim: varidefp;
fvstiffdim, mvstiffdim: nodep;
pnode: nodep;
smartTerminal: boolean; (* true = insert/delete, false = redraw line *)
setUp,setExpr,setCursor,dontPrint,outFilep,collect,fParse,sParse,
eofError,endOfLine,backup,expandmacros,flushcomments,checkDims,
shownLine: boolean;
curtoken: token;
file1,file2,file3,file4,file5,outFile: atext;
bpts: array [1..maxBpts] of statementp; (* debugging crap *)
tbpts: array [1..maxTBpts] of statementp;
debugPdbs: array [0..10] of pdbp;
nbpts,ntbpts,debugLevel: integer;
eCurInt: pdbp;
STLevel: integer; (* set by GO *)
singleThreadMode,tSingleThreadMode: boolean;
(* from INTERP *)
inputLine: array [1..20] of ascii;
talk: text; (* for using the speech synthesizer *)
curInt, activeInts, readQueue, allPdbs: pdbp;
sysEnv: envheaderp;
clkQueue: nodep;
allEvents: eventp;
etime: integer; (* used by eval *)
curtime: integer; (* who knows where this will get updated - an ast? *)
stime: integer; (* used for clock queue on 10 *)
msg: messagep; (* for AL-ARM interaction *)
inputp: integer; (* current offset into inputLine array above *)
resched, running, escapeI, iSingleThreadMode: boolean;
msgp: boolean; (* flag set if any messages pending *)
inputReady: boolean;
(* various constant pointers *)
xhat,yhat,zhat,nilvect: vectorp;
niltrans: transp;
gpark, rpark: transp; (* arm park positions *)
(* various device & variable pointers *)
speedfactor: enventryp;
garm: framep;
�{ Externally defined routines from elsewhere: }
(* From EAUX1A *)
procedure pushStmnt(s: statementp; indent: integer); external;
procedure pushNode(n: nodep); external;
(* From EPUT *)
procedure putChar(ch: ascii); external;
procedure put5(ch: c5str; length: integer); external;
procedure put10(ch: cstring; length: integer); external;
procedure putLine; external;
procedure putReal(s: real); external;
procedure putInt(r: real); external;
procedure putStrng(length: integer; s: strngp); external;
procedure putTlist(t: tokenp); external;
function getExprLength(n: nodep): integer; external;
(* From EPUTST *)
procedure putexpr(n: nodep; opp: integer); external;
procedure newline(indent: integer); external;
procedure outExpr(n: nodep); external;
(* From EROOT *)
procedure ep1putstmnt(s: statementp; indent, plevel: integer); external;
procedure ePs1Get; external;
procedure ePs1Get; begin end;
�(* putStmnt aux routine to handle about half of the statement types *)
procedure putst1(s: statementp; indent, plevel: integer; var l: integer); external;
procedure putst1;
var i: integer; n: nodep; st: statementp; b: boolean;
(* Aux routine: putVars *)
procedure putvars(vari: varidefp; indent: integer; b: boolean);
var vtbits,ovtbits,i: integer; n: nodep; vdt: datatypes; vdim: varidefp;
begin
vdt := nulltype;
ovtbits := 0;
vdim := nil;
i := 1;
while vari <> nil do (* print out the variable defs *)
with vari↑ do
begin
if (name <> nil) and ((vtype <> dimensiontype) and (vtype <> mactype)) then
begin
if (vtype <> vdt) or (tbits <> ovtbits) or (dtype <> vdim) then
begin
if (vdt <> nulltype) and (vdt <> proctype) then putchar(';');
if b then newline(indent)
(* else if lbufp > 60 then
begin
newline(indent);
if setCursor and (curLine = cursorLine) then fieldNum := i;
end
*) else putchar(' ');
vdt := vtype;
vtbits := tbits;
ovtbits := tbits;
vdim := dtype;
if vtbits >= 4 then
begin put10('reference ',10); vtbits := vtbits - 4 end
else if not b then put10('value ',6);
if vdim <> nil then
begin
with vdim↑.name↑ do putStrng(length,name); (* print dimension type *)
putchar(' ');
end;
case vdt of
svaltype: put10('scalar ',7);
vectype: put10('vector ',7);
rottype: put5('rot ',4);
transtype: put10('trans ',6);
frametype: put10('frame ',6);
eventtype: put10('event ',6);
strngtype: put10('string ',7);
labeltype: put10('label ',6);
cmontype: vdt := nulltype;
undeftype: begin put10('(* undefin',10); put10('ed! *) ',7); end;
otherwise {do nothing};
end;
if vtbits = 1 then put10('array ',6)
else if vtbits = 2 then put10('procedure ',10);
end
else put5(', ',2);
if name <> nil then putStrng(name↑.length,name↑.name)
else begin put10('(* noname ',10); put5('*) ',2); end;
if odd(vtbits) and (a <> nil) then
begin
if not a↑.combnds then
begin (* print out the array bounds *)
putchar('[');
n := a↑.bounds;
while n <> nil do
begin
outExpr(n↑.lower);
putchar(':');
outExpr(n↑.upper);
n := n↑.next;
if n <> nil then putchar(',');
end;
putchar(']');
end
end
else if (vtbits = 2) and (p <> nil) then
begin
if setCursor and (curLine <= cursorLine) and
(cursorLine < curLine + p↑.body↑.nlines + 1) then
begin
pushNode(p);
cursorStack[cursor].cline := curLine;
end;
if p↑.paramlist <> nil then
begin
putchar('(');
putvars(p↑.paramlist,lbufp,false);
putchar(')');
end;
putchar(';');
ep1PutStmnt(p↑.body,indent+2,plevel);
putchar(';');
vdt := nulltype;
ovtbits := 0;
end;
end;
if b then
if vtbits = 2 then vari := nil (* only one procedure per decl stmnt *)
else vari := vari↑.dnext (* declare statement *)
else vari := vari↑.next; (* procedure parameter list *)
i := i + 1;
end;
if b and (vdt <> nulltype) then putchar(';');
end;
�(* putst1: main part *)
begin
with s↑ do
case stype of
progtype: begin
l := 1;
putChar(' ');
ep1PutStmnt(pcode,1,plevel+1);
putLine; (* put out last line *)
end;
blocktype: begin
if curLine = 0 then
begin
curLine := 1;
cursorStack[2].cline := 1;
end;
put10('begin ',6);
if blkid <> nil then
begin putChar('"');
putStrng(blkid↑.length,blkid↑.name);
putChar('"') end;
if plevel = 1 then
begin
newline(indent+2);
put5('... ',3);
st := bcode;
while st↑.stype <> endtype do st := st↑.next; (* find end *)
ep1PutStmnt(st,indent,plevel); (* and print it *)
end
else
begin
st := bcode;
repeat (* print statements in block *)
ep1PutStmnt(st,indent,plevel);
if (st↑.stype <> commenttype) and
(st↑.stype <> endtype) and
(st↑.stype <> declaretype) then putchar(';');
st := st↑.next;
until st = nil;
end;
end;
coendtype,
endtype: begin
if stype = endtype then put5('end ',4)
else put10('coend ',6);
if blkid <> nil then
begin putChar('"');
putStrng(blkid↑.length,blkid↑.name);
putchar('"') end;
end;
declaretype: begin
putvars(variables,indent,true);
end;
coblocktype: begin
put10('cobegin ',8);
if cblkid <> nil then
begin putChar('"');
putStrng(cblkid↑.length,cblkid↑.name);
putchar('"') end;
if plevel = 1 then
begin
newline(indent+2);
put5('... ',3);
end
else
begin
n := threads;
while n <> nil do (* print out the statements in block *)
begin
if setCursor then
if (curLine < cursorLine) and
(cursorLine <= curLine + n↑.cstmnt↑.nlines) then
pushNode(n);
ep1PutStmnt(n↑.cstmnt,indent+1,plevel);
if n↑.cstmnt↑.stype <> commenttype then putchar(';');
n := n↑.next;
end;
end;
ep1PutStmnt(threads↑.stmnt↑.next,indent,plevel); (* print COEND *)
end;
fortype: begin
put5('for ',4);
outExpr(forvar);
put5(' := ',4);
outExpr(initial);
put10(' step ',6);
outExpr(step);
put10(' until ',7);
outExpr(final);
put5(' do ',3);
ep1PutStmnt(fbody,indent+2,plevel);
end;
iftype: begin
put5('if ',3);
outExpr(icond);
put5(' then',5);
ep1PutStmnt(thn,indent+2,plevel);
if els <> nil then
begin
newline(indent+1);
put5('else ',4);
if setCursor and (cursorLine = curLine) then fieldNum := 2;
ep1PutStmnt(els,indent+2,plevel);
end
end;
whiletype: begin
put10('while ',6);
outExpr(cond);
put5(' do ',3);
ep1PutStmnt(body,indent+2,plevel);
end;
(* more??? *)
otherwise begin put10('Oh no! 1 ',10); put10('Bad ovlay!',10); end;
end;
end;