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-rw-r--r--src/interp/br-con.boot2
-rw-r--r--src/interp/br-saturn.boot6
-rw-r--r--src/interp/br-search.boot4
-rw-r--r--src/interp/fortcall.boot74
-rw-r--r--src/interp/g-util.boot2
-rw-r--r--src/interp/ht-util.boot44
-rw-r--r--src/interp/i-eval.boot2
-rw-r--r--src/interp/i-output.boot2
-rw-r--r--src/interp/i-util.boot4
-rw-r--r--src/interp/interop.boot4
-rw-r--r--src/interp/match.boot6
-rw-r--r--src/interp/newfort.boot16
-rw-r--r--src/interp/nrunfast.boot10
-rw-r--r--src/interp/nrungo.boot4
-rw-r--r--src/interp/nrunopt.boot2
-rw-r--r--src/interp/scan.boot12
16 files changed, 97 insertions, 97 deletions
diff --git a/src/interp/br-con.boot b/src/interp/br-con.boot
index 20dd8c25..32e0c9df 100644
--- a/src/interp/br-con.boot
+++ b/src/interp/br-con.boot
@@ -1309,7 +1309,7 @@ PUT('Enumeration, 'documentation, substitute(MESSAGE, 'MESSAGE, '(
mkConArgSublis args ==
[[arg,:INTERN digits2Names PNAME arg] for arg in args
- | (s := PNAME arg) and "or"/[DIGITP ELT(s,i) for i in 0..MAXINDEX s]]
+ | (s := PNAME arg) and "or"/[DIGITP s.i for i in 0..MAXINDEX s]]
digits2Names s ==
--This is necessary since arguments of conforms CANNOT have digits in TechExplorer
diff --git a/src/interp/br-saturn.boot b/src/interp/br-saturn.boot
index 403d70ca..6dd77c9e 100644
--- a/src/interp/br-saturn.boot
+++ b/src/interp/br-saturn.boot
@@ -548,8 +548,8 @@ htMakeButtonSaturn(htCommand, message, func,options) ==
htpAddToPageDescription(htPage, pageDescrip) ==
newDescript :=
- string? pageDescrip => [pageDescrip, :ELT(htPage, 7)]
- nconc(nreverse COPY_-LIST pageDescrip, ELT(htPage, 7))
+ string? pageDescrip => [pageDescrip, :htPage.7]
+ nconc(nreverse COPY_-LIST pageDescrip, htPage.7)
SETELT(htPage, 7, newDescript)
@@ -1425,7 +1425,7 @@ htEndTabular() ==
htSaySaturn '"\end{tabular}"
htPopSaturn s ==
- pageDescription := ELT($saturnPage, 7)
+ pageDescription := $saturnPage.7
pageDescription is [=s,:b] => SETELT($saturnPage, 7, rest pageDescription)
nil
diff --git a/src/interp/br-search.boot b/src/interp/br-search.boot
index 68719adf..6056dd7a 100644
--- a/src/interp/br-search.boot
+++ b/src/interp/br-search.boot
@@ -283,8 +283,8 @@ mkGrepPattern1(x,:options) == --called by mkGrepPattern (and grepConstructName?)
n := SIZE t
if startpos < 0 or startpos > n then error "index out of range"
k:= startpos
- for i in startpos .. n-1 while c ~= ELT(t,i)
- or i > startpos and ELT(t,i-1) = '__ repeat (k := k+1)
+ for i in startpos .. n-1 while c ~= t.i
+ or i > startpos and t.(i-1) = '__ repeat (k := k+1)
k
addOptions s == --add front anchor
--options a o c d p x denote standard items
diff --git a/src/interp/fortcall.boot b/src/interp/fortcall.boot
index 9ac32be6..9c2260a1 100644
--- a/src/interp/fortcall.boot
+++ b/src/interp/fortcall.boot
@@ -50,7 +50,7 @@ makeFort(name,args,decls,results,returnType,aspInfo) ==
-- and a stub Axiom function to process its arguments.
-- the following is a list of objects for which values need not be
-- passed by the user.
- dummies := [SECOND(u) for u in args | EQUAL(car u,0)]
+ dummies := [second(u) for u in args | EQUAL(car u,0)]
args := [untangle2(u) for u in args] -- lose spad Union representation
where untangle2 u ==
atom (v := rest(u)) => v
@@ -114,12 +114,12 @@ writeCFile(name,args,fortranArgs,dummies,decls,results,returnType,asps,fp) ==
argList := nil
for a in args repeat
argList := [[a, getCType getFortranType(a,decls)], :argList]
- printDec(SECOND first argList,a,asps,fp)
+ printDec(second first argList,a,asps,fp)
argList := nreverse argList;
-- read in the data
WRITE_-LINE('" xdrstdio__create(&xdrs, stdin, XDR__DECODE);",fp)
for a in argList repeat
- if LISTP SECOND a then writeMalloc(first a,first SECOND a,rest SECOND a,fp)
+ if LISTP second a then writeMalloc(first a,first second a,rest second a,fp)
not MEMQ(first a,[:dummies,:asps]) => writeXDR(a,'"&xdrs",fp)
-- now call the Library routine. FORTRAN names may have an underscore
-- appended.
@@ -194,7 +194,7 @@ getCType t ==
error ['"Unrecognised Fortran type: ",t]
XDRFun t ==
- LISTP(ty := SECOND t) =>
+ LISTP(ty := second t) =>
if first(ty)='"char" then '"wrapstring" else '"array"
ty
@@ -218,15 +218,15 @@ writeXDR(v,str,fp) ==
underscore := STRING CHAR('"__:",0) -- to avoid a compiler bug which won't
-- parse " ... __" properly.
wt(['" CHECK(xdr",underscore, XDRFun(v), '"(", str, '",&", first(v)],fp)
- if (LISTP (ty :=SECOND v)) and not EQUAL(first ty,'"char") then
+ if (LISTP (ty :=second v)) and not EQUAL(first ty,'"char") then
wt(['",&",first(v),'"__length,MAX__ARRAY(",first(v),'"__length),"],fp)
wt(['"sizeof(",first(ty),'"),xdr",underscore,first ty],fp)
wl(['"));"],fp)
prefix2Infix(l) ==
atom(l) => [l]
- #l=2 => [first l,"(",:prefix2Infix SECOND l,")"]
- #l=3 => ["(",:prefix2Infix SECOND l,first l,:prefix2Infix THIRD l,")"]
+ #l=2 => [first l,"(",:prefix2Infix second l,")"]
+ #l=3 => ["(",:prefix2Infix second l,first l,:prefix2Infix third l,")"]
error '"Function in array dimensions with more than two arguments"
writeMalloc(name,type,dims,fp) ==
@@ -306,7 +306,7 @@ makeSpadFun(name,userArgs,args,dummies,decls,results,returnType,asps,aspInfo,
results := [returnName, :results]
argNames := [INTERN strconc(STRINGIMAGE(u),'"__arg") for u in userArgs]
aType := [axiomType(a,decls,asps,aspInfo) for a in userArgs]
- aspTypes := [SECOND NTH(POSITION(u,userArgs),aType) for u in asps]
+ aspTypes := [second NTH(POSITION(u,userArgs),aType) for u in asps]
nilLst := MAKE_-LIST(#args+1)
decPar := [["$elt","Lisp","construct"],:makeLispList decls]
fargNames := [INTERN strconc(STRINGIMAGE(u),'"__arg") for u in args |
@@ -396,8 +396,8 @@ complexRows z ==
[:[:pair2list(u.i) for u in z] for i in 0..#(z.0)-1]
pair2list u == [car u,cdr u]
-vec2Lists1 u == [ELT(u,i) for i in 0..#u-1]
-vec2Lists u == [vec2Lists1 ELT(u,i) for i in 0..#u-1]
+vec2Lists1 u == [u.i for i in 0..#u-1]
+vec2Lists u == [vec2Lists1 u.i for i in 0..#u-1]
spad2lisp(u) ==
-- Turn complexes into arrays of floats
@@ -405,7 +405,7 @@ spad2lisp(u) ==
makeVector([makeVector([second u,CDDR u],"%DoubleFloat")],NIL)
-- Turn arrays of complexes into arrays of floats so that tarnsposing
-- them puts them in the correct fortran order
- first first(u)="Matrix" and first SECOND first(u) = "Complex" =>
+ first first(u)="Matrix" and first second first(u) = "Complex" =>
makeVector([makeVector(complexRows vec2Lists rest u,"%DoubleFloat")],NIL)
rest(u)
@@ -420,7 +420,7 @@ invokeFortran(objFile,args,dummies,decls,results,actual) ==
-- -- cons cell, otherwise a vector. This is to match the internal
-- -- representation of an Axiom Record.
-- #returnedValues = 1 => returnedValues
--- #returnedValues = 2 => [first returnedValues,:SECOND returnedValues]
+-- #returnedValues = 2 => [first returnedValues,:second returnedValues]
-- makeVector(returnedValues,nil)
int2Bool u ==
@@ -449,20 +449,20 @@ spadify(l,results,decls,names,actual) ==
-- Result is a Complex Scalar
ty in ["double complex" , "complex"] =>
spadForms := [makeResultRecord(name,ty, _
- [ELT(fort,0),:ELT(fort,1)]),:spadForms]
+ [fort.0,:fort.1]),:spadForms]
-- Result is a Complex vector or array
LISTP(ty) and first(ty) in ["double complex" , "complex"] =>
dims := [getVal(u,names,actual) for u in rest ty]
els := nil
if #dims=1 then
- els := [makeVector([[ELT(fort,2*i),:ELT(fort,2*i+1)] _
+ els := [makeVector([[fort.(2*i),:fort.(2*i+1)] _
for i in 0..(first(dims)-1)],nil)]
else if #dims=2 then
for r in 0..(first(dims) - 1) repeat
innerEls := nil
- for c in 0..(SECOND(dims) - 1) repeat
+ for c in 0..(second(dims) - 1) repeat
offset := 2*(c*first(dims)+r)
- innerEls := [[ELT(fort,offset),:ELT(fort,offset+1)],:innerEls]
+ innerEls := [[fort.offset,:fort.(offset+1)],:innerEls]
els := [makeVector(nreverse innerEls,nil),:els]
else
error ['"Can't cope with complex output dimensions higher than 2"]
@@ -472,15 +472,15 @@ spadify(l,results,decls,names,actual) ==
LISTP(ty) and first(ty)="logical" and #ty=2 =>
dim := getVal(second ty,names,actual)
spadForms := [makeResultRecord(name,ty,_
- [int2Bool ELT(fort,i) for i in 0..dim-1]), :spadForms]
+ [int2Bool fort.i for i in 0..dim-1]), :spadForms]
LISTP(ty) and first(ty)="logical" =>
dims := [getVal(u,names,actual) for u in rest ty]
els := nil
if #dims=2 then
for r in 0..(first(dims) - 1) repeat
innerEls := nil
- for c in 0..(SECOND(dims) - 1) repeat
- innerEls := [int2Bool ELT(fort,c*first(dims)+r),:innerEls]
+ for c in 0..(second(dims) - 1) repeat
+ innerEls := [int2Bool fort.(c*first(dims)+r),:innerEls]
els := [nreverse innerEls,:els]
else
error ['"Can't cope with logical output dimensions higher than 2"]
@@ -493,24 +493,24 @@ spadify(l,results,decls,names,actual) ==
if MEMQ(0,dims) then
els := [[]]
else if #dims=1 then
- els := [makeVector([ELT(fort,i) for i in 0..(first(dims)-1)],nil)]
+ els := [makeVector([fort.i for i in 0..(first(dims)-1)],nil)]
else if #dims=2 then
for r in 0..(first(dims) - 1) repeat
innerEls := nil
- for c in 0..(SECOND(dims) - 1) repeat
- innerEls := [ELT(fort,c*first(dims)+r),:innerEls]
+ for c in 0..(second(dims) - 1) repeat
+ innerEls := [fort.(c*first(dims)+r),:innerEls]
els := [makeVector(nreverse innerEls,nil),:els]
else if #dims=3 then
iDim := first(dims)
- jDim := SECOND dims
- kDim := THIRD dims
+ jDim := second dims
+ kDim := third dims
for r in 0..(iDim - 1) repeat
middleEls := nil
for c in 0..(jDim - 1) repeat
innerEls := nil
for p in 0..(kDim - 1) repeat
offset := p*jDim + c*kDim + r
- innerEls := [ELT(fort,offset),:innerEls]
+ innerEls := [fort.offset,:innerEls]
middleEls := [makeVector(nreverse innerEls,nil),:middleEls]
els := [makeVector(nreverse middleEls,nil),:els]
else
@@ -596,15 +596,15 @@ prepareResults(results,args,dummies,values,decls) ==
-- -- order (i.e. swap from C to Fortran order).
-- els := nil
-- rows := first ARRAY_-DIMENSIONS(u)-1
--- cols := first ARRAY_-DIMENSIONS(ELT(u,0))-1
+-- cols := first ARRAY_-DIMENSIONS(u.0)-1
-- -- Could be a 3D Matrix
--- if VECTORP ELT(ELT(u,0),0) then
--- planes := first ARRAY_-DIMENSIONS(ELT(ELT(u,0),0))-1
+-- if VECTORP u.0.0 then
+-- planes := first ARRAY_-DIMENSIONS(u.0.0)-1
-- for k in 0..planes repeat for j in 0..cols repeat for i in 0..rows repeat
--- els := [ELT(ELT(ELT(u,i),j),k),:els]
+-- els := [u.i.j.k,:els]
-- else
-- for j in 0..cols repeat for i in 0..rows repeat
--- els := [ELT(ELT(u,i),j),:els]
+-- els := [u.i.j,:els]
-- makeVector(nreverse els,type)
@@ -628,24 +628,24 @@ writeData(tmpFile,indata) ==
VECTORP v =>
rows := first ARRAY_-DIMENSIONS(v)
-- is it 2d or more (most likely) ?
- VECTORP ELT(v,0) =>
- cols := first ARRAY_-DIMENSIONS(ELT(v,0))
+ VECTORP v.0 =>
+ cols := first ARRAY_-DIMENSIONS(v.0)
-- is it 3d ?
- VECTORP ELT(ELT(v,0),0) =>
- planes := first ARRAY_-DIMENSIONS(ELT(ELT(v,0),0))
+ VECTORP v.0.0 =>
+ planes := first ARRAY_-DIMENSIONS(v.0.0)
-- write 3d array
xdrWrite(xstr,rows*cols*planes)
for k in 0..planes-1 repeat
for j in 0..cols-1 repeat
for i in 0..rows-1 repeat
- xdrWrite(xstr,ELT(ELT(ELT(v,i),j),k))
+ xdrWrite(xstr,v.i.j.k)
-- write 2d array
xdrWrite(xstr,rows*cols)
for j in 0..cols-1 repeat
- for i in 0..rows-1 repeat xdrWrite(xstr,ELT(ELT(v,i),j))
+ for i in 0..rows-1 repeat xdrWrite(xstr,v.i.j)
-- write 1d array
xdrWrite(xstr,rows)
- for i in 0..rows-1 repeat xdrWrite(xstr,ELT(v,i))
+ for i in 0..rows-1 repeat xdrWrite(xstr,v.i)
-- this is used for lists of booleans apparently in f01
LISTP v =>
xdrWrite(xstr,LENGTH v)
diff --git a/src/interp/g-util.boot b/src/interp/g-util.boot
index 89254289..bd50fd14 100644
--- a/src/interp/g-util.boot
+++ b/src/interp/g-util.boot
@@ -63,7 +63,7 @@ isSharpVarWithNum x ==
ok := true
c := 0
for i in 1..(n-1) while ok repeat
- d := ELT(p,i)
+ d := p.i
ok := DIGITP d => c := 10*c + DIG2FIX d
if ok then c else nil
diff --git a/src/interp/ht-util.boot b/src/interp/ht-util.boot
index a0ea710e..ad02d338 100644
--- a/src/interp/ht-util.boot
+++ b/src/interp/ht-util.boot
@@ -57,35 +57,35 @@ htpDestroyPage(pageName) ==
htpName htPage ==
-- a symbol whose value is the page
- ELT(htPage, 0)
+ htPage.0
htpSetName(htPage, val) ==
SETELT(htPage, 0, val)
htpDomainConditions htPage ==
-- List of Domain conditions
- ELT(htPage, 1)
+ htPage.1
htpSetDomainConditions(htPage, val) ==
SETELT(htPage, 1, val)
htpDomainVariableAlist htPage ==
-- alist of pattern variables and conditions
- ELT(htPage, 2)
+ htPage.2
htpSetDomainVariableAlist(htPage, val) ==
SETELT(htPage, 2, val)
htpDomainPvarSubstList htPage ==
-- alist of user pattern variables to system vars
- ELT(htPage, 3)
+ htPage.3
htpSetDomainPvarSubstList(htPage, val) ==
SETELT(htPage, 3, val)
htpRadioButtonAlist htPage ==
-- alist of radio button group names and labels
- ELT(htPage, 4)
+ htPage.4
htpButtonValue(htPage, groupName) ==
for buttonName in LASSOC(groupName, htpRadioButtonAlist htPage) repeat
@@ -97,30 +97,30 @@ htpSetRadioButtonAlist(htPage, val) ==
htpInputAreaAlist htPage ==
-- Alist of input-area labels, and default values
- ELT(htPage, 5)
+ htPage.5
htpSetInputAreaAlist(htPage, val) ==
SETELT(htPage, 5, val)
htpAddInputAreaProp(htPage, label, prop) ==
- SETELT(htPage, 5, [[label, nil, nil, nil, :prop], :ELT(htPage, 5)])
+ SETELT(htPage, 5, [[label, nil, nil, nil, :prop], :htPage.5])
htpPropertyList htPage ==
-- Association list of user-defined properties
- ELT(htPage, 6)
+ htPage.6
htpProperty(htPage, propName) ==
- LASSOC(propName, ELT(htPage, 6))
+ LASSOC(propName, htPage.6)
htpSetProperty(htPage, propName, val) ==
- pair := assoc(propName, ELT(htPage, 6))
+ pair := assoc(propName, htPage.6)
pair => pair.rest := val
- SETELT(htPage, 6, [[propName, :val], :ELT(htPage, 6)])
+ SETELT(htPage, 6, [[propName, :val], :htPage.6])
htpLabelInputString(htPage, label) ==
-- value user typed as input string on page
props := LASSOC(label, htpInputAreaAlist htPage)
- props and string? (s := ELT(props,0)) =>
+ props and string? (s := props.0) =>
s = '"" => s
trimString s
nil
@@ -129,9 +129,9 @@ htpLabelFilteredInputString(htPage, label) ==
-- value user typed as input string on page
props := LASSOC(label, htpInputAreaAlist htPage)
props =>
- #props > 5 and ELT(props, 6) =>
- FUNCALL(SYMBOL_-FUNCTION ELT(props, 6), ELT(props, 0))
- replacePercentByDollar ELT(props, 0)
+ #props > 5 and props.6 =>
+ FUNCALL(SYMBOL_-FUNCTION props.6, props.0)
+ replacePercentByDollar props.0
nil
replacePercentByDollar s == fn(s,0,MAXINDEX s) where
@@ -149,7 +149,7 @@ htpSetLabelInputString(htPage, label, val) ==
htpLabelSpadValue(htPage, label) ==
-- Scratchpad value of parsed and evaled inputString, as (type . value)
props := LASSOC(label, htpInputAreaAlist htPage)
- props => ELT(props, 1)
+ props => props.1
nil
htpSetLabelSpadValue(htPage, label, val) ==
@@ -161,7 +161,7 @@ htpSetLabelSpadValue(htPage, label, val) ==
htpLabelErrorMsg(htPage, label) ==
-- error message associated with input area
props := LASSOC(label, htpInputAreaAlist htPage)
- props => ELT(props, 2)
+ props => props.2
nil
htpSetLabelErrorMsg(htPage, label, val) ==
@@ -173,7 +173,7 @@ htpSetLabelErrorMsg(htPage, label, val) ==
htpLabelType(htPage, label) ==
-- either 'string or 'button
props := LASSOC(label, htpInputAreaAlist htPage)
- props => ELT(props, 3)
+ props => props.3
nil
htpLabelDefault(htPage, label) ==
@@ -184,25 +184,25 @@ htpLabelDefault(htPage, label) ==
msg
props := LASSOC(label, htpInputAreaAlist htPage)
props =>
- ELT(props, 4)
+ props.4
nil
htpLabelSpadType(htPage, label) ==
-- pattern variable for target domain for input area
props := LASSOC(label, htpInputAreaAlist htPage)
- props => ELT(props, 5)
+ props => props.5
nil
htpLabelFilter(htPage, label) ==
-- string to string mapping applied to input area strings before parsing
props := LASSOC(label, htpInputAreaAlist htPage)
- props => ELT(props, 6)
+ props => props.6
nil
htpPageDescription htPage ==
-- a list of all the commands issued to create the basic-command page
- ELT(htPage, 7)
+ htPage.7
htpSetPageDescription(htPage, pageDescription) ==
SETELT(htPage, 7, pageDescription)
diff --git a/src/interp/i-eval.boot b/src/interp/i-eval.boot
index 025d9597..a172534b 100644
--- a/src/interp/i-eval.boot
+++ b/src/interp/i-eval.boot
@@ -287,7 +287,7 @@ evalForm(op,opName,argl,mmS) ==
sideEffectedArg?(t,sig,opName) ==
opString := SYMBOL_-NAME opName
- (opName ~= 'setelt) and (ELT(opString, #opString-1) ~= char '_!) => nil
+ (opName ~= 'setelt) and (opString.(#opString-1) ~= char '_!) => nil
dc := first sig
t = dc
diff --git a/src/interp/i-output.boot b/src/interp/i-output.boot
index 82731c18..a0bb9991 100644
--- a/src/interp/i-output.boot
+++ b/src/interp/i-output.boot
@@ -388,7 +388,7 @@ specialChar(symbol) ==
-- looks up symbol in $specialCharacterAlist, gets the index
-- into the EBCDIC table, and returns the appropriate character
null (code := IFCDR ASSQ(symbol,$specialCharacterAlist)) => '"?"
- ELT($specialCharacters,code)
+ $specialCharacters.code
rbrkSch() == PNAME specialChar 'rbrk
lbrkSch() == PNAME specialChar 'lbrk
diff --git a/src/interp/i-util.boot b/src/interp/i-util.boot
index c3a5b0ca..2a571c5e 100644
--- a/src/interp/i-util.boot
+++ b/src/interp/i-util.boot
@@ -129,13 +129,13 @@ Undef(:u) ==
u':= LAST u
[[domain,slot],op,sig]:= u'
domain':=eval mkEvalable domain
- not EQ(first ELT(domain',slot), function Undef) =>
+ not EQ(first domain'.slot, function Undef) =>
-- OK - thefunction is now defined
[:u'',.]:=u
if $reportBottomUpFlag then
sayMessage concat ['" Retrospective determination of slot",'%b,
slot,'%d,'"of",'%b,:prefix2String domain,'%d]
- apply(first ELT(domain',slot),[:u'',rest ELT(domain',slot)])
+ apply(first domain'.slot,[:u'',rest domain'.slot])
throwKeyedMsg("S2IF0008",[formatOpSignature(op,sig),domain])
makeInitialModemapFrame() ==
diff --git a/src/interp/interop.boot b/src/interp/interop.boot
index 49156669..4e94b750 100644
--- a/src/interp/interop.boot
+++ b/src/interp/interop.boot
@@ -210,7 +210,7 @@ oldAxiomCategoryLookupExport(catenv, self, op, sig, box, env) ==
oldAxiomCategoryParentCount([.,.,.,parents,.], env) == LENGTH parents
oldAxiomCategoryNthParent([.,.,.,parvec,dom], n, env) ==
- catform := ELT(parvec, n-1)
+ catform := parvec.(n-1)
VECTORP KAR catform => catform
newcat := oldAxiomPreCategoryBuild(catform,dom,nil)
SETELT(parvec, n-1, newcat)
@@ -404,7 +404,7 @@ hashNewLookupInTable(op,sig,dollar,[domain,opvec],flag) ==
flag => newLookupInAddChain(op,sig,domain,dollar)
nil
maxIndex := MAXINDEX numvec
- start := ELT(opvec,k)
+ start := opvec.k
finish :=
QSGREATERP(max,k) => opvec.(QSPLUS(k,2))
maxIndex
diff --git a/src/interp/match.boot b/src/interp/match.boot
index 37bc2a61..23b0924c 100644
--- a/src/interp/match.boot
+++ b/src/interp/match.boot
@@ -47,13 +47,13 @@ substring?(part, whole, startpos) ==
np := SIZE part
nw := SIZE whole
np > nw - startpos => false
- and/[CHAR_-EQUAL(ELT(part, ip), ELT(whole, iw))
+ and/[CHAR_-EQUAL(part.ip, whole.iw)
for ip in 0..np-1 for iw in startpos.. ]
anySubstring?(part,whole,startpos) ==
np := SIZE part
nw := SIZE whole
- or/[((k := i) and "and"/[CHAR_-EQUAL(ELT(part, ip),ELT(whole, iw))
+ or/[((k := i) and "and"/[CHAR_-EQUAL(part.ip,whole.iw)
for ip in 0..np - 1 for iw in i..]) for i in startpos..nw - np] => k
charPosition(c,t,startpos) ==
@@ -61,7 +61,7 @@ charPosition(c,t,startpos) ==
startpos < 0 or startpos > n => n
k:= startpos
for i in startpos .. n-1 repeat
- c = ELT(t,i) => return nil
+ c = t.i => return nil
k := k+1
k
diff --git a/src/interp/newfort.boot b/src/interp/newfort.boot
index 58e048d3..5e5e01a0 100644
--- a/src/interp/newfort.boot
+++ b/src/interp/newfort.boot
@@ -126,7 +126,7 @@ exp2Fort2(e,prec,oldOp) ==
s
exp2FortFn(op,args,nargs)
op = '"CMPLX" =>
- ['")",:exp2Fort2(SECOND args, prec, op),'",",:exp2Fort2(first args,prec,op),'"("]
+ ['")",:exp2Fort2(second args, prec, op),'",",:exp2Fort2(first args,prec,op),'"("]
member(op,nonUnaryOps) =>
if nargs > 0 then arg1 := first args
nargs = 1 and member(op, '("+" "*")) => exp2Fort2(arg1,prec,op)
@@ -457,11 +457,11 @@ exp2FortSpecial(op,args,nargs) ==
if LISTP first elts and #elts=1 and first elts is [sOp,:sArgs] then
member(sOp, ['"SEGMENT","SEGMENT"]) =>
#sArgs=1 => fortError1 first elts
- not(NUMBERP(first sArgs) and NUMBERP(SECOND sArgs)) =>
+ not(NUMBERP(first sArgs) and NUMBERP(second sArgs)) =>
fortError("Cannot expand segment: ",first elts)
- first sArgs > SECOND sArgs => fortError1
+ first sArgs > second sArgs => fortError1
'"Lower bound of segment exceeds upper bound."
- for e in first sArgs .. SECOND sArgs for i in si.. repeat
+ for e in first sArgs .. second sArgs for i in si.. repeat
$exprStack := [["=",[var,object2String i],fortPre1(e)],:$exprStack]
for e in elts for i in si.. repeat
$exprStack := [["=",[var,object2String i],fortPre1(e)],:$exprStack]
@@ -796,7 +796,7 @@ fortPre1 e ==
imags := ['"%i","%i"]
member(e, imags) => ['"CMPLX",fortPre1(0),fortPre1(1)]
-- other special objects
- ELT(STRINGIMAGE e,0) = "%" => SUBSEQ(STRINGIMAGE e,1)
+ STRINGIMAGE(e).0 = "%" => SUBSEQ(STRINGIMAGE e,1)
atom e => e
[op, :args] := e
member(op,["**" , '"**"]) =>
@@ -814,7 +814,7 @@ fortPre1 e ==
INTSIGN PI PI2 INDEFINTEGRAL)
op in specialOps => exp2FortSpecial(op,args,#args)
member(op,['"*", "*", '"+", "+", '"-", "-"]) and (#args > 2) =>
- binaryExpr := fortPre1 [op,first args, SECOND args]
+ binaryExpr := fortPre1 [op,first args, second args]
for i in 3..#args repeat
binaryExpr := [op,binaryExpr,fortPre1 NTH(i-1,args)]
binaryExpr
@@ -903,11 +903,11 @@ segment l ==
for e in l repeat
if LISTP(e) and first member(e,["=",'"="]) then
var := NTH(1,e)
- exprs := segment1(THIRD e,
+ exprs := segment1(third e,
$maximumFortranExpressionLength-1-fortExpSize var)
s:= [:[['"=",var,car exprs],:cdr exprs],:s]
else if LISTP(e) and first e = '"RETURN" then
- exprs := segment1(SECOND e,
+ exprs := segment1(second e,
$maximumFortranExpressionLength-2-fortExpSize first e)
s := [:[[first e,car exprs],:cdr exprs],:s]
else s:= [e,:s]
diff --git a/src/interp/nrunfast.boot b/src/interp/nrunfast.boot
index e684d18d..5ade3ee7 100644
--- a/src/interp/nrunfast.boot
+++ b/src/interp/nrunfast.boot
@@ -185,7 +185,7 @@ newLookupInTable(op,sig,dollar,[domain,opvec],flag) ==
flag => newLookupInAddChain(op,sig,domain,dollar)
nil
maxIndex := MAXINDEX numvec
- start := ELT(opvec,k)
+ start := opvec.k
finish :=
QSGREATERP(max,k) => opvec.(QSPLUS(k,2))
maxIndex
@@ -364,8 +364,8 @@ newLookupInCategories1(op,sig,dom,dollar) ==
valueList := [dom,:[dom.(5+i) for i in 1..(# rest dom.0)]]
valueList := [MKQ val for val in valueList]
nsig := MSUBST(dom.0,dollar.0,sig)
- for i in 0..MAXINDEX packageVec | (entry := ELT(packageVec,i))
- and (VECP entry or (predIndex := rest (node := ELT(catVec,i))) and
+ for i in 0..MAXINDEX packageVec | (entry := packageVec.i)
+ and (VECP entry or (predIndex := rest (node := catVec.i)) and
(EQ(predIndex,0) or testBitVector(predvec,predIndex))) repeat
package :=
VECP entry =>
@@ -510,7 +510,7 @@ lookupInDomainByName(op,domain,arg) ==
max := MAXINDEX opvec
k := getOpCode(op,opvec,max) or return nil
maxIndex := MAXINDEX numvec
- start := ELT(opvec,k)
+ start := opvec.k
finish :=
QSGREATERP(max,k) => opvec.(QSPLUS(k,2))
maxIndex
@@ -673,7 +673,7 @@ newHasTest(domform,catOrAtt) ==
lazyMatchAssocV(x,auxvec,catvec,domain) == --new style slot4
n := MAXINDEX catvec
xop := first x
- or/[ELT(auxvec,i) for i in 0..n |
+ or/[auxvec.i for i in 0..n |
xop = first (lazyt := QVELT(catvec,i)) and lazyMatch(x,lazyt,domain,domain)]
lazyMatchAssocV1(x,vec,domain) == --old style slot4
diff --git a/src/interp/nrungo.boot b/src/interp/nrungo.boot
index 9fb108ce..c8ebc7f3 100644
--- a/src/interp/nrungo.boot
+++ b/src/interp/nrungo.boot
@@ -289,8 +289,8 @@ compareSigEqual(s,t,dollar,domain) ==
u :=
t='$ => dollar
isSharpVar t =>
- VECP domain => ELT(rest domain.0,POSN1(t,$FormalMapVariableList))
- ELT(rest domain,POSN1(t,$FormalMapVariableList))
+ VECP domain => rest(domain.0).(POSN1(t,$FormalMapVariableList))
+ rest(domain).(POSN1(t,$FormalMapVariableList))
string? t and IDENTP s => (s := PNAME s; t)
nil
s = '$ => compareSigEqual(dollar,u,dollar,domain)
diff --git a/src/interp/nrunopt.boot b/src/interp/nrunopt.boot
index b6209703..57833083 100644
--- a/src/interp/nrunopt.boot
+++ b/src/interp/nrunopt.boot
@@ -897,7 +897,7 @@ expandType(lazyt,template,domform) ==
for [.,tag,dom] in argl]]
lazyt is ['local,x] =>
n := POSN1(x,$FormalMapVariableList)
- ELT(domform,1 + n)
+ domform.(1 + n)
[functorName,:[expandTypeArgs(a,template,domform) for a in argl]]
expandTypeArgs(u,template,domform) ==
diff --git a/src/interp/scan.boot b/src/interp/scan.boot
index b4990d55..b1b29cd0 100644
--- a/src/interp/scan.boot
+++ b/src/interp/scan.boot
@@ -176,15 +176,15 @@ scanKeyTable:=scanKeyTableCons()
scanInsert(s,d) ==
l := #s
h := QENUM(s,0)
- u := ELT(d,h)
+ u := d.h
n := #u
k:=0
- while l <= #(ELT(u,k)) repeat
+ while l <= #(u.k) repeat
k:=k+1
v := MAKE_-VEC(n+1)
- for i in 0..k-1 repeat VEC_-SETELT(v,i,ELT(u,i))
+ for i in 0..k-1 repeat VEC_-SETELT(v,i,u.i)
VEC_-SETELT(v,k,s)
- for i in k..n-1 repeat VEC_-SETELT(v,i+1,ELT(u,i))
+ for i in k..n-1 repeat VEC_-SETELT(v,i+1,u.i)
VEC_-SETELT(d,h,v)
s
@@ -695,12 +695,12 @@ subMatch(l,i)==substringMatch(l,scanDict,i)
substringMatch (l,d,i)==
h:= QENUM(l, i)
- u:=ELT(d,h)
+ u:=d.h
ll:=SIZE l
done:=false
s1:='""
for j in 0.. SIZE u - 1 while not done repeat
- s:=ELT(u,j)
+ s:=u.j
ls:=SIZE s
done:=if ls+i > ll
then false