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-rw-r--r--src/ChangeLog29
-rw-r--r--src/algebra/aggcat.spad.pamphlet9
-rw-r--r--src/algebra/array1.spad.pamphlet1
-rw-r--r--src/algebra/combfunc.spad.pamphlet1
-rw-r--r--src/algebra/curve.spad.pamphlet3
-rw-r--r--src/algebra/dpolcat.spad.pamphlet1
-rw-r--r--src/algebra/efstruc.spad.pamphlet6
-rw-r--r--src/algebra/ffpoly.spad.pamphlet4
-rw-r--r--src/algebra/fraction.spad.pamphlet1
-rw-r--r--src/algebra/galfact.spad.pamphlet1
-rw-r--r--src/algebra/gpgcd.spad.pamphlet1
-rw-r--r--src/algebra/integrat.spad.pamphlet1
-rw-r--r--src/algebra/intfact.spad.pamphlet13
-rw-r--r--src/algebra/lingrob.spad.pamphlet3
-rw-r--r--src/algebra/manip.spad.pamphlet1
-rw-r--r--src/algebra/matfuns.spad.pamphlet1
-rw-r--r--src/algebra/mkfunc.spad.pamphlet6
-rw-r--r--src/algebra/numtheor.spad.pamphlet1
-rw-r--r--src/algebra/patmatch1.spad.pamphlet1
-rw-r--r--src/algebra/permgrps.spad.pamphlet4
-rw-r--r--src/algebra/pfo.spad.pamphlet20
-rw-r--r--src/algebra/pgcd.spad.pamphlet1
-rw-r--r--src/algebra/polycat.spad.pamphlet1
-rw-r--r--src/algebra/reclos.spad.pamphlet2
-rw-r--r--src/algebra/rule.spad.pamphlet1
-rw-r--r--src/algebra/sex.spad.pamphlet1
-rw-r--r--src/algebra/sgcf.spad.pamphlet3
-rw-r--r--src/algebra/smith.spad.pamphlet3
-rw-r--r--src/algebra/solvelin.spad.pamphlet1
-rw-r--r--src/algebra/string.spad.pamphlet10
-rw-r--r--src/algebra/syssolp.spad.pamphlet1
-rw-r--r--src/algebra/view2D.spad.pamphlet6
-rw-r--r--src/algebra/wtpol.spad.pamphlet2
-rw-r--r--src/interp/c-util.boot4
-rw-r--r--src/interp/compiler.boot8
-rw-r--r--src/interp/iterator.boot16
36 files changed, 140 insertions, 28 deletions
diff --git a/src/ChangeLog b/src/ChangeLog
index 9f26d1d3..a09aa479 100644
--- a/src/ChangeLog
+++ b/src/ChangeLog
@@ -1,3 +1,32 @@
+2008-05-11 Gabriel Dos Reis <gdr@cs.tamu.edu>
+
+ Restrict loop variable scopes, take 2.
+ * interp/iterator.boot (compReduce1): Maintain proper scope for
+ loop variables.
+ (compRepeatOrCollect): Really maintain proper scope for loop variables.
+ * interp/compiler.boot (eltModemapFilter): Highlight faulty selector.
+ (seteltModemapFilter): Likewise.
+ * interp/c-util.boot (stackMessage): Don't build message if there
+ is no argument for substitution.
+ * algebra/aggcat.spad.pamphlet (#$UnaryRecursiveAggregate):
+ Declare free loop variable.
+ (cycleEntry$UnaryRecursiveAggregate): Likewise.
+ (cycleLength): Likewise.
+ (merge$OneDimensionalArrayAggregate): Likewise.
+ (delete$OneDimensionalArrayAggregate): Likewise.
+ (position$ListAggregate): Likewise.
+ * algebra/array1.spad.pamphlet (merge!$IndexedFlexibleArray): Likewise.
+ * algebra/combfunc.spad.pamphlet (K2fact$CombinatorialFunction):
+ Likewise.
+ * algebra/curve.spad.pamphlet
+ (nonSingularModel$FunctionFieldCategory): Likewise.
+ * algebra/dpolcat.spad.pamphlet
+ (differentiate$DifferentialPolynomialCategory): Likewise.
+ * algebra/efstruc.spad.pamphlet
+ (validExponential$ElementaryFunctionStructurePackage): Likewise.
+ (ker2explogs$InnerTrigonometricManipulations): Likewise.
+ (complexNormalize$TrigonometricManipulations): Likewise.
+
2008-05-10 Gabriel Dos Reis <gdr@cs.tamu.edu>
* interp/iterator.boot (compRepeatOrCollect): Don't iterator
diff --git a/src/algebra/aggcat.spad.pamphlet b/src/algebra/aggcat.spad.pamphlet
index a308f1e6..af724ec4 100644
--- a/src/algebra/aggcat.spad.pamphlet
+++ b/src/algebra/aggcat.spad.pamphlet
@@ -2507,6 +2507,7 @@ UnaryRecursiveAggregate(S:Type): Category == RecursiveAggregate S with
empty? l and zero? i
#x ==
+ k : NonNegativeInteger
for k in 0.. while not empty? x repeat
k = cycleMax and cyclic? x => error "cyclic list"
x := rest x
@@ -2541,6 +2542,7 @@ UnaryRecursiveAggregate(S:Type): Category == RecursiveAggregate S with
empty? x => x
empty?(y := findCycle x) => y
z := rest y
+ l : NonNegativeInteger
for l in 1.. while not eq?(y,z) repeat z := rest z
y := x
for k in 1..l repeat y := rest y
@@ -2551,6 +2553,7 @@ UnaryRecursiveAggregate(S:Type): Category == RecursiveAggregate S with
empty? x => 0
empty?(x := findCycle x) => 0
y := rest x
+ k : NonNegativeInteger
for k in 1.. while not eq?(x,y) repeat y := rest y
k
@@ -4286,6 +4289,7 @@ OneDimensionalArrayAggregate(S:Type): Category ==
m := maxIndex a
j := minIndex b
n := maxIndex b
+ k : Integer
for k in minIndex(r).. while i <= m and j <= n repeat
if f(qelt(a, i), qelt(b, j)) then
qsetelt_!(r, k, qelt(a, i))
@@ -4311,6 +4315,7 @@ OneDimensionalArrayAggregate(S:Type): Category ==
n := maxIndex b
i < m or i > n => error "index out of range"
y := stupidnew(#a + #b, a, b)
+ k : Integer
for k in minIndex y.. for j in m..i-1 repeat
qsetelt_!(y, k, qelt(b, j))
for k in k.. for j in minIndex a .. maxIndex a repeat
@@ -4343,6 +4348,7 @@ OneDimensionalArrayAggregate(S:Type): Category ==
l < minIndex a or h > maxIndex a => error "index out of range"
h < l => copy a
r := stupidnew((#a - h + l - 1)::NonNegativeInteger, a, a)
+ k : Integer
for k in minIndex(r).. for i in minIndex a..l-1 repeat
qsetelt_!(r, k, qelt(a, i))
for k in k.. for i in h+1 .. maxIndex a repeat
@@ -4352,6 +4358,7 @@ OneDimensionalArrayAggregate(S:Type): Category ==
delete(x:%, i:Integer) ==
i < minIndex x or i > maxIndex x => error "index out of range"
y := stupidnew((#x - 1)::NonNegativeInteger, x, x)
+ i : Integer
for i in minIndex(y).. for j in minIndex x..i-1 repeat
qsetelt_!(y, i, qelt(x, j))
for i in i .. for j in i+1 .. maxIndex x repeat
@@ -4586,6 +4593,7 @@ ListAggregate(S:Type): Category == Join(StreamAggregate S,
first x
position(f:S -> Boolean, x:%) ==
+ k : Integer
for k in minIndex(x).. while not empty? x and not f first x repeat
x := rest x
empty? x => minIndex(x) - 1
@@ -4679,6 +4687,7 @@ ListAggregate(S:Type): Category == Join(StreamAggregate S,
position(w, x, s) ==
s < (m := minIndex x) => error "index out of range"
x := rest(x, (s - m)::NonNegativeInteger)
+ k : Integer
for k in s.. while not empty? x and w ~= first x repeat
x := rest x
empty? x => minIndex x - 1
diff --git a/src/algebra/array1.spad.pamphlet b/src/algebra/array1.spad.pamphlet
index 87ba8034..f5591e0b 100644
--- a/src/algebra/array1.spad.pamphlet
+++ b/src/algebra/array1.spad.pamphlet
@@ -508,6 +508,7 @@ IndexedFlexibleArray(S:Type, mn: Integer): Exports == Implementation where
m := #a; n := #b; growAdding(a, n, b)
for i in m-1..0 by -1 for j in m+n-1.. by -1 repeat a.f.j := a.f.i
i := n; j := 0
+ k : Integer
for k in 0.. while i < n+m and j < n repeat
if g(a.f.i,b.f.j) then (a.f.k := a.f.i; i := i+1)
else (a.f.k := b.f.j; j := j+1)
diff --git a/src/algebra/combfunc.spad.pamphlet b/src/algebra/combfunc.spad.pamphlet
index ffbf5887..aa560163 100644
--- a/src/algebra/combfunc.spad.pamphlet
+++ b/src/algebra/combfunc.spad.pamphlet
@@ -398,6 +398,7 @@ dummy variable is introduced to make the indexing variable \lq local\rq.
IndexedExponents K, K, R, SMP, F)
K2fact(k, l) ==
+ kf : F
empty? [v for v in variables(kf := k::F) | member?(v, l)] => kf
empty?(args:List F := [facts(a, l) for a in argument k]) => kf
is?(k, opperm) =>
diff --git a/src/algebra/curve.spad.pamphlet b/src/algebra/curve.spad.pamphlet
index d216b16d..7f959605 100644
--- a/src/algebra/curve.spad.pamphlet
+++ b/src/algebra/curve.spad.pamphlet
@@ -213,7 +213,8 @@ FunctionFieldCategory(F, UP, UPUP): Category == Definition where
nonSingularModel u ==
d := commonDenominator(coordinates(w := integralBasis()))::RF
- vars := [concat(string u, string i)::SY for i in 1..(n := #w)]
+ n := #w
+ vars := [concat(string u, string i)::SY for i in 1..n]
x := "%%dummy1"::SY
y := "%%dummy2"::SY
select_!(zero?(degree(#1, x)) and zero?(degree(#1, y)),
diff --git a/src/algebra/dpolcat.spad.pamphlet b/src/algebra/dpolcat.spad.pamphlet
index 2a170259..2ee6eb4f 100644
--- a/src/algebra/dpolcat.spad.pamphlet
+++ b/src/algebra/dpolcat.spad.pamphlet
@@ -322,6 +322,7 @@ DifferentialPolynomialCategory(R:Ring,S:OrderedSet,
differentiate(p:$, d:R -> R) ==
ans:$ := 0
l := variables p
+ u : Union(R, "failed")
while (u:=retractIfCan(p)@Union(R, "failed")) case "failed" repeat
t := leadingMonomial p
lc := leadingCoefficient t
diff --git a/src/algebra/efstruc.spad.pamphlet b/src/algebra/efstruc.spad.pamphlet
index 9a015122..a73963fd 100644
--- a/src/algebra/efstruc.spad.pamphlet
+++ b/src/algebra/efstruc.spad.pamphlet
@@ -439,6 +439,7 @@ ElementaryFunctionStructurePackage(R,F): Exports == Implementation where
f
validExponential(twr, eta, x) ==
+ fns : List F
(c := solveLinearlyOverQ(construct([differentiate(g, x)
for g in (fns := toY twr)]$List(F))@Vector(F),
differentiate(eta, x))) case "failed" => "failed"
@@ -565,6 +566,7 @@ InnerTrigonometricManipulations(R,F,FG): Exports == Implementation where
-- This expects the argument to have only tan and atans left.
-- Does a half-angle correction if k is not in the initial kernel list.
ker2explogs(k, l, lx) ==
+ kf : FG
empty?([v for v in variables(kf := k::FG) |
member?(v, lx)]$List(SY)) => kf
empty?(args := [trigs2explogs(a, l, lx)
@@ -762,6 +764,7 @@ TrigonometricManipulations(R, F): Exports == Implementation where
F2FG g
complexNormalize(f, x) ==
+ g : F
any?(has?(operator #1, "rtrig"),
[k for k in tower(g := realElementary(f, x))
| member?(x, variables(k::F))]$List(K))$List(K) =>
@@ -778,6 +781,7 @@ TrigonometricManipulations(R, F): Exports == Implementation where
g
complexElementary(f, x) ==
+ g : F
any?(has?(operator #1, "rtrig"),
[k for k in tower(g := realElementary(f, x))
| member?(x, variables(k::F))]$List(K))$List(K) =>
@@ -882,6 +886,7 @@ ComplexTrigonometricManipulations(R, F): Exports == Implementation where
g
complexElementary(f, x) ==
+ g : F
any?(has?(operator #1, "rtrig"),
[k for k in tower(g := realElementary(f, x))
| member?(x, variables(k::F))]$List(K))$List(K) =>
@@ -889,6 +894,7 @@ ComplexTrigonometricManipulations(R, F): Exports == Implementation where
g
complexNormalize(f, x) ==
+ g : F
any?(has?(operator #1, "rtrig"),
[k for k in tower(g := realElementary(f, x))
| member?(x, variables(k::F))]$List(K))$List(K) =>
diff --git a/src/algebra/ffpoly.spad.pamphlet b/src/algebra/ffpoly.spad.pamphlet
index acebb710..ee544ce5 100644
--- a/src/algebra/ffpoly.spad.pamphlet
+++ b/src/algebra/ffpoly.spad.pamphlet
@@ -436,6 +436,7 @@ FiniteFieldPolynomialPackage GF : Exports == Implementation where
-- we can not simply write fcopy := copy fRepr because
-- the input(!) f would be modified by assigning
-- a new value to one of its records
+ term : Rec
for term in fRepr repeat
fcopy := cons(copy term, fcopy)
if term.expnt ~= 0 then
@@ -513,6 +514,7 @@ FiniteFieldPolynomialPackage GF : Exports == Implementation where
-- we can not simply write fcopy := copy fRepr because
-- the input(!) f would be modified by assigning
-- a new value to one of its records
+ term : Rec
for term in fRepr repeat
fcopy := cons(copy term, fcopy)
if term.expnt ~= 0 then
@@ -632,6 +634,7 @@ FiniteFieldPolynomialPackage GF : Exports == Implementation where
-- we can not simply write fcopy := copy fRepr because
-- the input(!) f would be modified by assigning
-- a new value to one of its records
+ term : Rec
for term in fRepr repeat
fcopy := cons(copy term, fcopy)
if term.expnt ~= 0 then
@@ -745,6 +748,7 @@ FiniteFieldPolynomialPackage GF : Exports == Implementation where
-- we can not simply write fcopy := copy fRepr because
-- the input(!) f would be modified by assigning
-- a new value to one of its records
+ term : Rec
for term in fRepr repeat
fcopy := cons(copy term, fcopy)
if term.expnt ~= 0 then
diff --git a/src/algebra/fraction.spad.pamphlet b/src/algebra/fraction.spad.pamphlet
index a54b4f61..bb9fbee4 100644
--- a/src/algebra/fraction.spad.pamphlet
+++ b/src/algebra/fraction.spad.pamphlet
@@ -252,6 +252,7 @@ QuotientFieldCategory(S: IntegralDomain): Category ==
if S has IntegerNumberSystem then
random():% ==
+ d : S
while zero?(d:=random()$S) repeat d
random()$S / d
diff --git a/src/algebra/galfact.spad.pamphlet b/src/algebra/galfact.spad.pamphlet
index 8d9a6a02..0e06b615 100644
--- a/src/algebra/galfact.spad.pamphlet
+++ b/src/algebra/galfact.spad.pamphlet
@@ -290,6 +290,7 @@ GaloisGroupFactorizer(UP): Exports == Implementation where
if (l := length n)<levels then return(n+shift(1,l-1))
(n=shift(seed(level),levels-level)) => "End of level"
b: Z := 1
+ lr : Z
while ((l-b) = (lr := length(n := reductum n)))@Boolean repeat b := b+1
reductum(n)+shift(seed(b+1),lr)
diff --git a/src/algebra/gpgcd.spad.pamphlet b/src/algebra/gpgcd.spad.pamphlet
index 85f20722..5b5c4510 100644
--- a/src/algebra/gpgcd.spad.pamphlet
+++ b/src/algebra/gpgcd.spad.pamphlet
@@ -265,6 +265,7 @@ GeneralPolynomialGcdPackage(E,OV,R,P):C == T where
#lv = 0 => p1
lr:=[ randomR() for vv in lv]
dg:=degree p1
+ ans : SUPP
while dg ~= degree (ans:= map(eval(#1,lv,lr),p1)) repeat
lr:=[ randomR() for vv in lv]
ans
diff --git a/src/algebra/integrat.spad.pamphlet b/src/algebra/integrat.spad.pamphlet
index f70dfe1c..ab2eb2be 100644
--- a/src/algebra/integrat.spad.pamphlet
+++ b/src/algebra/integrat.spad.pamphlet
@@ -71,6 +71,7 @@ FunctionSpaceComplexIntegration(R, F): Exports == Implementation where
internalIntegrate(f, x) ==
f := distribute(f, x::F)
+ g : F
any?(has?(operator #1, "rtrig"),
[k for k in tower(g := realElementary(f, x))
| member?(x, variables(k::F))]$List(Kernel F))$List(Kernel F) =>
diff --git a/src/algebra/intfact.spad.pamphlet b/src/algebra/intfact.spad.pamphlet
index f5485d51..4d4cc811 100644
--- a/src/algebra/intfact.spad.pamphlet
+++ b/src/algebra/intfact.spad.pamphlet
@@ -156,6 +156,7 @@ IntegerPrimesPackage(I:IntegerNumberSystem): with
nm1 := n-1
q := (nm1) quo two
+ k : NonNegativeInteger
for k in 1.. while not odd? q repeat q := q quo two
-- q = (n-1) quo 2**k for largest possible k
@@ -378,6 +379,8 @@ IntegerFactorizationPackage(I): Exports == Implementation where
if n<0 then (m := -n; u := -1)
else (m := n; u := 1)
(m > 1) and ((v := perfectSqrt m) case I) =>
+ sv : FF
+ l : List FFE
for rec in (l := factorList(sv := squareFree(v::I))) repeat
rec.xpnt := 2 * rec.xpnt
makeFR(u * unit sv, l)
@@ -438,6 +441,7 @@ IntegerFactorizationPackage(I): Exports == Implementation where
if n<d*d then
if n>1 then ls := concat_!(ls, ["prime",n,1]$FFE)
return makeFR(1, ls)
+ m : Integer
for m in 0.. while zero?(n rem d) repeat n := n quo d
if m>0 then ls := concat_!(ls, ["prime",d,convert m]$FFE)
d := d+s
@@ -463,7 +467,9 @@ IntegerFactorizationPackage(I): Exports == Implementation where
f:LMI := dictionary() -- number which could not be factored
insert_!(n, a)
while not empty? a repeat
- n := inspect a; c := count(n, a); remove_!(n, a)
+ n := inspect a;
+ c := count(n, a);
+ remove_!(n, a)
prime?(n)$IntegerPrimesPackage(I) => insert_!(n, b, c)
-- test for a perfect power
(s := perfectNthRoot n).exponent > 1 =>
@@ -475,8 +481,9 @@ IntegerFactorizationPackage(I): Exports == Implementation where
insert_!(x+y,a,c)
insert_!(x-y,a,c)
(d := PollardSmallFactor n) case I =>
- for m in 0.. while zero?(n rem d) repeat n := n quo d
- insert_!(d, a, m * c)
+ m' : NonNegativeInteger
+ for m' in 0.. while zero?(n rem d) repeat n := n quo d
+ insert_!(d, a, m' * c)
if n > 1 then insert_!(n, a, c)
-- an elliptic curve factorization attempt should be made here
insert_!(n, f, c)
diff --git a/src/algebra/lingrob.spad.pamphlet b/src/algebra/lingrob.spad.pamphlet
index 290c39e6..9993e249 100644
--- a/src/algebra/lingrob.spad.pamphlet
+++ b/src/algebra/lingrob.spad.pamphlet
@@ -128,6 +128,7 @@ LinGroebnerPackage(lv,F) : C == T
ofirstmon:=firstmon
orecfmon := recfmon
lm:=zero(2*ndim+1)
+ j : Integer
for j in 1..ndim repeat lm(j):=veccoef(j)
lm(ndim+i):=recfmon.mult
lm := reduceRow(linmat, lm, i-1, pivots)
@@ -178,6 +179,7 @@ LinGroebnerPackage(lv,F) : C == T
omult := (omult exquo cc)::F
veccoef:VF:=coord(f,algBasis)
lm:=zero(2*ndim+1)
+ j : Integer
for j in 1..ndim repeat lm(j) := veccoef(j)
lm(ndim+i):=omult
lm := reduceRow(linmat, lm, i-1, pivots)
@@ -285,6 +287,7 @@ LinGroebnerPackage(lv,F) : C == T
ofirstmon:=firstmon
orecfmon := recfmon
lm:=zero(2*ndim+1)
+ j : Integer
for j in 1..ndim repeat lm(j):=veccoef(j)
lm(ndim+i):=recfmon.mult
lm := reduceRow(linmat, lm, i-1, pivots)
diff --git a/src/algebra/manip.spad.pamphlet b/src/algebra/manip.spad.pamphlet
index 5cad4e61..a9f207d7 100644
--- a/src/algebra/manip.spad.pamphlet
+++ b/src/algebra/manip.spad.pamphlet
@@ -289,6 +289,7 @@ AlgebraicManipulations(R, F): Exports == Implementation where
empty?(l := sort_!(#1 > #2, kernels x)$List(K)) or
empty? setIntersection(ll, tower x) => x
lk := empty()$List(K)
+ k : K
while not member?(k := first l, ll) repeat
lk := concat(k, lk)
empty?(l := rest l) =>
diff --git a/src/algebra/matfuns.spad.pamphlet b/src/algebra/matfuns.spad.pamphlet
index 776895ee..d36e02e7 100644
--- a/src/algebra/matfuns.spad.pamphlet
+++ b/src/algebra/matfuns.spad.pamphlet
@@ -147,6 +147,7 @@ InnerMatrixLinearAlgebraFunctions(R,Row,Col,M):_
-- if the ith row has an initial 1 in the jth column, then
-- v.j = i; v.j = minR - 1, otherwise
v : IndexedOneDimensionalArray(I,minC) := new(ncol,minR - 1)
+ j : Integer
for i in minR..(minR + rk - 1) repeat
for j in minC.. while qelt(x,i,j) = 0 repeat j
qsetelt_!(v,j,i)
diff --git a/src/algebra/mkfunc.spad.pamphlet b/src/algebra/mkfunc.spad.pamphlet
index 8e7f6c39..bb7b4a5c 100644
--- a/src/algebra/mkfunc.spad.pamphlet
+++ b/src/algebra/mkfunc.spad.pamphlet
@@ -112,7 +112,8 @@ InputForm():
every?(atom?,destruct s)$List(%) => s
sy := new()$Symbol
n:NonNegativeInteger := 0
- l2 := [flatten0(x, sy, n := n + 1) for x in rest(l := destruct s)]
+ l := destruct s
+ l2 := [flatten0(x, sy, n := n + 1) for x in rest l]
conv(concat(convert("SEQ"::Symbol)@%,
concat(concat [u.lst for u in l2], conv(
[convert("exit"::Symbol)@%, 1$%, conv(concat(first l,
@@ -121,7 +122,8 @@ InputForm():
flatten0(s, sy, n) ==
atom? s => [nil(), s]
a := convert(concat(string sy, convert(n)@String)::Symbol)@%
- l2 := [flatten0(x, sy, n := n+1) for x in rest(l := destruct s)]
+ l := destruct s
+ l2 := [flatten0(x, sy, n := n+1) for x in rest l]
[concat(concat [u.lst for u in l2], conv([convert(
"LET"::Symbol)@%, a, conv(concat(first l,
[u.symb for u in l2]))@%]$List(%))@%), a]
diff --git a/src/algebra/numtheor.spad.pamphlet b/src/algebra/numtheor.spad.pamphlet
index 907bb9f7..1071d36d 100644
--- a/src/algebra/numtheor.spad.pamphlet
+++ b/src/algebra/numtheor.spad.pamphlet
@@ -405,6 +405,7 @@ IntegerNumberTheoryFunctions(): Exports == Implementation where
even? b and positiveRemainder(a,4) > 1 =>
error "J(a/b) not defined for b even and a = 2 or 3 (mod 4)"
even? b and even? a => 0
+ k : Integer
for k in 0.. while even? b repeat b := b quo 2
j:I := (odd? k and positiveRemainder(a,8) = 5 => -1; 1)
b = 1 => j
diff --git a/src/algebra/patmatch1.spad.pamphlet b/src/algebra/patmatch1.spad.pamphlet
index 1ee6220f..87abc55b 100644
--- a/src/algebra/patmatch1.spad.pamphlet
+++ b/src/algebra/patmatch1.spad.pamphlet
@@ -528,6 +528,7 @@ PatternMatchTools(S, R, P): Exports == Implementation where
generic? p => setIntersection(badValues p, ls)
empty()
l1:PRS := failed()
+ t : P
for x in setDifference(ls, bad)
while (t := x; failed?(l1 := pmatch(x, p, l))) repeat 0
failed? l1 =>
diff --git a/src/algebra/permgrps.spad.pamphlet b/src/algebra/permgrps.spad.pamphlet
index 2014f7b4..c4060112 100644
--- a/src/algebra/permgrps.spad.pamphlet
+++ b/src/algebra/permgrps.spad.pamphlet
@@ -344,6 +344,7 @@ PermutationGroup(S:SetCategory): public == private where
-- try to get a good approximation for the strong generators and base
ort: REC
k1: NNI
+ i : NNI
for i in number1..degree repeat
ort := orbitWithSvc ( group , i )
k := ort.orb
@@ -352,6 +353,7 @@ PermutationGroup(S:SetCategory): public == private where
gpsgs := nil()$(L V NNI)
words2 := nil()$(L L NNI)
gplength : NNI := #group
+ jj: NNI
for jj in 1..gplength repeat if (group.jj).i ~= i then leave
for k in 1..gplength repeat
el2 := group.k
@@ -423,7 +425,7 @@ PermutationGroup(S:SetCategory): public == private where
if wordProblem then wordlist := append ( wordlist , outword.nnn )
pt := baseLength - nnn + 1
obs := orbitWithSvc ( sgs , baseOfGroup.pt )
- i := 1
+ i : NNI := 1
while not ( i > # out.nnn ) repeat
pos := position ( out.nnn.i , sgs )
sgs2 := delete(sgs, pos)
diff --git a/src/algebra/pfo.spad.pamphlet b/src/algebra/pfo.spad.pamphlet
index 1b310c40..493a68e4 100644
--- a/src/algebra/pfo.spad.pamphlet
+++ b/src/algebra/pfo.spad.pamphlet
@@ -499,15 +499,24 @@ PointsOfFiniteOrder(R0, F, UP, UPUP, R): Exports == Implementation where
selIntegers():RC0 ==
f := definingPolynomial()$R
- while zero?(d := doubleDisc(r := polyred pmod f)) repeat newReduc()$q
- [r, d]
+ repeat
+ r := polyred pmod f
+ d := doubleDisc r
+ if zero? d then
+ newReduc()$q
+ else
+ return [r,d]
selectIntegers(k:K):REC ==
g := polyred(f := definingPolynomial()$R)
p := minPoly k
- while zero?(d := doubleDisc(r := kpmod(g, k))) or (notIrr? fmod p)
- repeat newReduc()$q
- [r, d, splitDenominator(fmod p).num]
+ repeat
+ r := kpmod(g, k)
+ d := doubleDisc r
+ if zero? d or notIrr? fmod p then
+ newReduc()$q
+ else
+ return [r, d, splitDenominator(fmod p).num]
toQ1(p, d) ==
map(Q2F(retract(#1 rem d)@Q),
@@ -528,6 +537,7 @@ PointsOfFiniteOrder(R0, F, UP, UPUP, R): Exports == Implementation where
kgetGoodPrime(rec, res, h, b, d) ==
p:PI := 3
+ u : Union(UPQ, "failed")
while (u := goodRed(rec, res, h, b, d, p)) case "failed" repeat
p := nextPrime(p::Z)::PI
[p, u::UPQ]
diff --git a/src/algebra/pgcd.spad.pamphlet b/src/algebra/pgcd.spad.pamphlet
index e37aa5d0..c371c1b6 100644
--- a/src/algebra/pgcd.spad.pamphlet
+++ b/src/algebra/pgcd.spad.pamphlet
@@ -303,6 +303,7 @@ PolynomialGcdPackage(E,OV,R,P):C == T where
d:=listpol.first
listpol:=listpol.rest
nolift:Boolean:=true
+ uf: SUP
for uf in listpol repeat
--note uf and d not necessarily primitive
degree gcd(uf,d) =0 => nolift:=false
diff --git a/src/algebra/polycat.spad.pamphlet b/src/algebra/polycat.spad.pamphlet
index 6eef8763..a3232055 100644
--- a/src/algebra/polycat.spad.pamphlet
+++ b/src/algebra/polycat.spad.pamphlet
@@ -138,6 +138,7 @@ FiniteAbelianMonoidRing(R:Ring, E:OrderedAbelianMonoid): Category ==
ans,xn,yn: %
bincoef: Integer
powl: List(%):= [x]
+ i : Integer
for i in 2..nn repeat powl:=[x * powl.first, :powl]
yn:=y; ans:=powl.first; i:=1; bincoef:=nn
for xn in powl.rest repeat
diff --git a/src/algebra/reclos.spad.pamphlet b/src/algebra/reclos.spad.pamphlet
index 82687d55..ff396d16 100644
--- a/src/algebra/reclos.spad.pamphlet
+++ b/src/algebra/reclos.spad.pamphlet
@@ -576,6 +576,8 @@ RightOpenIntervalRootCharacterization(TheField,ThePolDom) : PUB == PRIV where
pval := pval rem dPol
degree(pval) = 0 => leadingCoefficient(pval)
dpval := differentiate(pval)
+ a : TheField
+ b : TheField
degree(dpval) = 0 =>
l := left(rootCode)
r := right(rootCode)
diff --git a/src/algebra/rule.spad.pamphlet b/src/algebra/rule.spad.pamphlet
index 98e0ee8d..6b089035 100644
--- a/src/algebra/rule.spad.pamphlet
+++ b/src/algebra/rule.spad.pamphlet
@@ -242,6 +242,7 @@ ApplyRules(Base, R, F): Exports == Implementation where
isit(subject, pat) ==
hasTopPredicate? pat =>
+ l : List P
for v in (l := variables pat) repeat resetBadValues v
isitwithpred(subject, pat, l, empty())
patternMatch(subject, pat, new()$PR)
diff --git a/src/algebra/sex.spad.pamphlet b/src/algebra/sex.spad.pamphlet
index 90fdea78..3e969f92 100644
--- a/src/algebra/sex.spad.pamphlet
+++ b/src/algebra/sex.spad.pamphlet
@@ -115,6 +115,7 @@ SExpressionOf(Str, Sym, Int, Flt, Expr): Decl == Body where
atom? b => coerce(b)$Rep
r := b
while not atom? r repeat r := cdr r
+ l : List %
l1 := [b1::OutputForm for b1 in (l := destruct b)]
not null? r =>
paren blankSeparate concat_!(l1, [dotex, r::OutputForm])
diff --git a/src/algebra/sgcf.spad.pamphlet b/src/algebra/sgcf.spad.pamphlet
index a86554a0..500b92b4 100644
--- a/src/algebra/sgcf.spad.pamphlet
+++ b/src/algebra/sgcf.spad.pamphlet
@@ -211,6 +211,7 @@ SymmetricGroupCombinatoricFunctions(): public == private where
for t in 0..(m-2) repeat
s : I := 0
sOld: I
+ y : I
for y in 0..n repeat
sOld := s
s := s + numberOfImproperPartitions(n-y,m-t-1)
@@ -239,6 +240,7 @@ SymmetricGroupCombinatoricFunctions(): public == private where
s : I := 0
cm := cm - 1
sOld : I
+ y : I
for y in n..1 by -1 repeat --determination of the next son
sOld := s -- remember old s
-- this functions counts the number of elements in a subtree
@@ -267,6 +269,7 @@ SymmetricGroupCombinatoricFunctions(): public == private where
mm : I := k
s : I := m
for t in 0..(m-1) repeat
+ y : Integer
for y in (s-1)..(n+1) repeat
if binomial$ICF (y,s) > mm then leave
l := append (l,list(y-1)$(L I))
diff --git a/src/algebra/smith.spad.pamphlet b/src/algebra/smith.spad.pamphlet
index dd3ff8ca..fb3c13f6 100644
--- a/src/algebra/smith.spad.pamphlet
+++ b/src/algebra/smith.spad.pamphlet
@@ -175,7 +175,7 @@ SmithNormalForm(R,Row,Col,M) : Exports == Implementation where
mmh:=rowEchelon mm
[subMatrix(mmh,1,m1,1,n1), subMatrix(mmh,1,m1,n1+1,n1+m1)]
u:M:=zero(m1,m1)
- j:=1
+ j: Integer :=1
while t(1,j)=0 repeat j:=j+1 -- there are 0 columns
t1:=copy t
mm:=copy m
@@ -187,6 +187,7 @@ SmithNormalForm(R,Row,Col,M) : Exports == Implementation where
u(i,1) := (mm(i,1) exquo t11) :: R
for j in 2..m1 repeat
j0:=j
+ tjj : R
while zero?(tjj:=t1(j,j0)) repeat j0:=j0+1
u(i,j) :=((mm(i,j0) - ("+"/[u(i,k) * t1(k,j0) for k in 1..(j-1)])) exquo
tjj) :: R
diff --git a/src/algebra/solvelin.spad.pamphlet b/src/algebra/solvelin.spad.pamphlet
index 4700ce1a..f3f6a63e 100644
--- a/src/algebra/solvelin.spad.pamphlet
+++ b/src/algebra/solvelin.spad.pamphlet
@@ -79,6 +79,7 @@ LinearSystemMatrixPackage(F, Row, Col, M): Cat == Capsule where
-- find leading elements of diagonal
v := new(nvar, minRowIndex m - 1)$PrimitiveArray(Integer)
for i in minRowIndex m .. rk repeat
+ j : Integer
for j in 0.. while zero? qelt(m, i, j+minColIndex m) repeat 0
v.j := i
for j in 0..nvar-1 repeat
diff --git a/src/algebra/string.spad.pamphlet b/src/algebra/string.spad.pamphlet
index 09adfaf7..d5b13181 100644
--- a/src/algebra/string.spad.pamphlet
+++ b/src/algebra/string.spad.pamphlet
@@ -468,6 +468,7 @@ IndexedString(mn:Integer): Export == Implementation where
h:I := if hasHi sg then hi(sg) - mn else maxIndex s - mn
l < 0 or h >= m or h < l-1 => error "index out of range"
r := new((m-(h-l+1)+n)::N, space$C)
+ k : NonNegativeInteger
for k in 0.. for i in 0..l-1 repeat Qsetelt(r, k, Qelt(s, i))
for k in k.. for i in 0..n-1 repeat Qsetelt(r, k, Qelt(t, i))
for k in k.. for i in h+1..m-1 repeat Qsetelt(r, k, Qelt(s, i))
@@ -512,6 +513,7 @@ IndexedString(mn:Integer): Export == Implementation where
split(s, c) ==
n := maxIndex s
+ i : NonNegativeInteger
for i in mn..n while s.i = c repeat 0
l := empty()$List(%)
j:Integer -- j is conditionally intialized
@@ -520,8 +522,10 @@ IndexedString(mn:Integer): Export == Implementation where
for i in j..n while s.i = c repeat 0
if i <= n then l := concat(s(i..n), l)
reverse_! l
+
split(s, cc) ==
n := maxIndex s
+ i : NonNegativeInteger
for i in mn..n while member?(s.i,cc) repeat 0
l := empty()$List(%)
j:Integer -- j is conditionally intialized
@@ -533,17 +537,23 @@ IndexedString(mn:Integer): Export == Implementation where
leftTrim(s, c) ==
n := maxIndex s
+ i : NonNegativeInteger
for i in mn .. n while s.i = c repeat 0
s(i..n)
+
leftTrim(s, cc) ==
n := maxIndex s
+ i : NonNegativeInteger
for i in mn .. n while member?(s.i,cc) repeat 0
s(i..n)
rightTrim(s, c) ==
+ j : NonNegativeInteger
for j in maxIndex s .. mn by -1 while s.j = c repeat 0
s(minIndex(s)..j)
+
rightTrim(s, cc) ==
+ j : NonNegativeInteger
for j in maxIndex s .. mn by -1 while member?(s.j, cc) repeat 0
s(minIndex(s)..j)
diff --git a/src/algebra/syssolp.spad.pamphlet b/src/algebra/syssolp.spad.pamphlet
index ef019257..88f7b334 100644
--- a/src/algebra/syssolp.spad.pamphlet
+++ b/src/algebra/syssolp.spad.pamphlet
@@ -118,6 +118,7 @@ SystemSolvePackage(R): Cat == Cap where
z:=last lv
np:=numer makeP2F p
lx:=variables np
+ x : SE
for x in lv repeat if member?(x,lx) then leave x
up:=univariate(np,x)
(degree up)=1 =>
diff --git a/src/algebra/view2D.spad.pamphlet b/src/algebra/view2D.spad.pamphlet
index a318364c..dfab772f 100644
--- a/src/algebra/view2D.spad.pamphlet
+++ b/src/algebra/view2D.spad.pamphlet
@@ -366,8 +366,9 @@ GraphImage (): Exports == Implementation where
graphImage == graph []
makeGraphImage(llp) ==
+ l := #llp
makeGraphImage(llp,
- [pointColorDefault() for i in 1..(l:=#llp)],
+ [pointColorDefault() for i in 1..l],
[lineColorDefault() for i in 1..l],
[pointSizeDefault() for i in 1..l])
@@ -406,8 +407,9 @@ GraphImage (): Exports == Implementation where
component(graf,aPoint,PointColor,lineColorDefault(),pointSizeDefault())
coerce (llp : L L P) : $ ==
+ l := #llp
makeGraphImage(llp,
- [pointColorDefault() for i in 1..(l:=#llp)],
+ [pointColorDefault() for i in 1..l],
[lineColorDefault() for i in 1..l],
[pointSizeDefault() for i in 1..l])
diff --git a/src/algebra/wtpol.spad.pamphlet b/src/algebra/wtpol.spad.pamphlet
index af1414e0..7f64a69f 100644
--- a/src/algebra/wtpol.spad.pamphlet
+++ b/src/algebra/wtpol.spad.pamphlet
@@ -59,7 +59,7 @@ WeightedPolynomials(R:Ring,VarSet: OrderedSet, E:OrderedAbelianMonoidSup,
lookupList:=[[v,n] for v in vl for n in wl]
-- local operation
innercoerce:(p,z) -> $
- lookup:Varset -> NonNegativeInteger
+ lookup:VarSet -> NonNegativeInteger
lookup v ==
l:=lookupList
while l ~= [] repeat
diff --git a/src/interp/c-util.boot b/src/interp/c-util.boot
index a8475327..a2691741 100644
--- a/src/interp/c-util.boot
+++ b/src/interp/c-util.boot
@@ -512,7 +512,9 @@ unStackWarning(msg,args) ==
nil
stackMessage(msg,args == nil) ==
- $compErrorMessageStack:= [buildMessage(msg,args),:$compErrorMessageStack]
+ if args ^= nil then
+ msg := buildMessage(msg,args)
+ $compErrorMessageStack:= [msg,:$compErrorMessageStack]
nil
stackMessageIfNone msg ==
diff --git a/src/interp/compiler.boot b/src/interp/compiler.boot
index b120fc9d..397e6b9a 100644
--- a/src/interp/compiler.boot
+++ b/src/interp/compiler.boot
@@ -563,7 +563,7 @@ eltModemapFilter(name,mmList,e) ==
isConstantId(name,e) =>
l:= [mm for mm in mmList | mm is [[.,.,.,sel,:.],:.] and sel=name] => l
--there are elts with extra parameters
- stackMessage('"selector variable: %1 is undeclared and unbound",[name])
+ stackMessage('"selector variable: %1b is undeclared and unbound",[name])
nil
mmList
@@ -571,7 +571,7 @@ seteltModemapFilter(name,mmList,e) ==
isConstantId(name,e) =>
l:= [mm for (mm:= [[.,.,.,sel,:.],:.]) in mmList | sel=name] => l
--there are setelts with extra parameters
- stackMessage('"selector variable: %1 is undeclared and unbound",[name])
+ stackMessage('"selector variable: %1b is undeclared and unbound",[name])
nil
mmList
@@ -727,7 +727,7 @@ setqMultiple(nameList,val,m,e) ==
[[name,:mode] for [":",name,mode] in l]
stackMessage('"no multiple assigns to mode: %1p",[t])
#nameList^=#selectorModePairs =>
- stackMessage('"%1 must decompose into %2 components",[val,#nameList])
+ stackMessage('"%1b must decompose into %2 components",[val,#nameList])
3 --generate code; return
assignList:=
[([.,.,e]:= compSetq1(x,["elt",g,y],z,e) or return "failed").expr
@@ -737,7 +737,7 @@ setqMultiple(nameList,val,m,e) ==
setqMultipleExplicit(nameList,valList,m,e) ==
#nameList^=#valList =>
- stackMessage('"Multiple assignment error; # of items in: %1 must = # in: %2",[nameList,valList])
+ stackMessage('"Multiple assignment error; # of items in: %1b must = # in: %2",[nameList,valList])
gensymList:= [genVariable() for name in nameList]
assignList:=
--should be fixed to declare genVar when possible
diff --git a/src/interp/iterator.boot b/src/interp/iterator.boot
index d62f4939..19ead302 100644
--- a/src/interp/iterator.boot
+++ b/src/interp/iterator.boot
@@ -45,10 +45,11 @@ compReduce1(form is ["REDUCE",op,.,collectForm],m,e,$formalArgList) ==
if STRINGP op then op:= INTERN op
^MEMQ(collectOp,'(COLLECT COLLECTV COLLECTVEC)) =>
systemError ["illegal reduction form:",form]
- $sideEffectsList: local
- $until: local
- $initList: local
- $endTestList: local
+ $sideEffectsList: local := nil
+ $until: local := nil
+ $initList: local := nil
+ $endTestList: local := nil
+ oldEnv := e
$e:= e
itl:= [([.,$e]:= compIterator(x,$e) or return "failed").(0) for x in itl]
itl="failed" => return nil
@@ -73,7 +74,7 @@ compReduce1(form is ["REDUCE",op,.,collectForm],m,e,$formalArgList) ==
if $until then
[untilCode,.,e]:= comp($until,$Boolean,e)
finalCode:= substitute(["UNTIL",untilCode],'$until,finalCode)
- [finalCode,m,e]
+ [finalCode,m,oldEnv]
++ returns the identity element of the `reduction' operation `x'
++ over a list -- a monoid homomorphism.
@@ -93,6 +94,7 @@ compRepeatOrCollect(form,m,e) ==
,e) where
fn(form,$exitModeStack,$leaveLevelStack,$formalArgList,e) ==
$until: local
+ oldEnv := e
[repeatOrCollect,:itl,body]:= form
itl':=
[([x',e]:= compIterator(x,e) or return "failed"; x') for x in itl]
@@ -135,7 +137,7 @@ compRepeatOrCollect(form,m,e) ==
T := coerceExit([form',m'',e'],targetMode) or return nil
-- iterator variables and other variables declared in
-- in a loop are local to the loop.
- [T.expr,T.mode,e]
+ [T.expr,T.mode,oldEnv]
--constructByModemap([x,source,e],target) ==
-- u:=
@@ -213,7 +215,7 @@ compIterator(it,e) ==
it is ["WHILE",p] =>
[p',m,e]:=
comp(p,$Boolean,e) or return
- stackMessage('"WHILE operand: %1 is not Boolean valued",[p])
+ stackMessage('"WHILE operand: %1b is not Boolean valued",[p])
[["WHILE",p'],e]
it is ["UNTIL",p] => ($until:= p; ['$until,e])
it is ["|",x] =>