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a few typos
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fchapoton authored and d-torrance committed Aug 23, 2024
1 parent d12bb18 commit 3b79196
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2 changes: 1 addition & 1 deletion M2/Macaulay2/packages/BernsteinSato/DOC/annFs.m2
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Expand Up @@ -66,7 +66,7 @@ doc ///
diffRatFun(m,g,f,a)
Inputs
f:RingElement
polynomial in a Weyl algebra $D$ in $n$ variables or ratinoal function in the fraction
polynomial in a Weyl algebra $D$ in $n$ variables or rational function in the fraction
field of a polynomial ring in $n$ variables
g:RingElement
polynomial in a Weyl algebra $D$ in $n$ variables
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2 changes: 1 addition & 1 deletion M2/Macaulay2/packages/BernsteinSato/paramBpoly.m2
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Expand Up @@ -2,7 +2,7 @@

-----------------------------------------------------------------------------
-- paramBpoly attempts to compute the b-polys for a poly with parameters
-- IN> f: RingElement (an element in a Weyl algebra with a palynomial ring for a coefficientRing)
-- IN> f: RingElement (an element in a Weyl algebra with a polynomial ring for a coefficientRing)
-- IN> file: File (e.g., stdio)
-- OUT> list of all possible Bernstein-Sato polynomials (also write the tree of b-polys into file)
-----------------------------------------------------------------------------
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4 changes: 1 addition & 3 deletions M2/Macaulay2/packages/Bertini/TST/_bPHSequence.tst.m2
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Expand Up @@ -64,7 +64,7 @@ assert(abs( (importParameterFile(storeBM2Files,NameParameterFile=>"final_param
setsOfParameters={{1,1},{1,2}}
b'PHSequence(storeBM2Files, setsOfParameters, SaveData=>true)

--When we have the SaveData option set to true we can see the intermmediate solutions.
--When we have the SaveData option set to true we can see the intermediate solutions.
assert(#importSolutionsFile(storeBM2Files)==3)

assert(#importParameterFile(storeBM2Files,NameParameterFile=>"start_parameters1")==2)
Expand All @@ -89,5 +89,3 @@ assert(#importParameterFile(storeBM2Files,StorageFolder=>"StoreMyFiles",NamePara
assert(#importSolutionsFile(storeBM2Files,StorageFolder=>"StoreMyFiles",NameSolutionsFile=>"nonsingular_solutions1")==2)
assert(#importParameterFile(storeBM2Files,StorageFolder=>"StoreMyFiles",NameParameterFile=>"start_parameters2")==2)
assert(#importSolutionsFile(storeBM2Files,StorageFolder=>"StoreMyFiles",NameSolutionsFile=>"nonsingular_solutions2")==2)


2 changes: 1 addition & 1 deletion M2/Macaulay2/packages/CellularResolutions.m2
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Expand Up @@ -288,7 +288,7 @@ newCell(List,Ideal) := opt -> (boundary,label) -> (
if not isCycle boundary then error "Expected the boundary to be a cycle";
cd := if opt.CellDimension=!=null then opt.CellDimension else 0;
c := makeCell(boundary,label,cd);
if opt.CellDimension=!=null and dim c > cd then error "Incorrect CellDimesion optional parameter";
if opt.CellDimension=!=null and dim c > cd then error "Incorrect CellDimension optional parameter";
c
)
newCell(List) := opt -> cells -> newCell(cells,inferLabel cells,CellDimension=>opt.CellDimension);
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2 changes: 1 addition & 1 deletion M2/Macaulay2/packages/Chordal/ChordalDoc.m2
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Expand Up @@ -1279,7 +1279,7 @@ doc /// --reduceDimension
Pre
Caveat
An arc is removed only if all the @TO2 {ChordalNetChain,"chains"}@ through it have small dimension.
If an arc belongs to a chain of large dimenson and a chain of small dimension, then the arc will not be removed.
If an arc belongs to a chain of large dimension and a chain of small dimension, then the arc will not be removed.
SeeAlso
codimCount
topComponents
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2 changes: 1 addition & 1 deletion M2/Macaulay2/packages/K3Carpets.m2
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Expand Up @@ -1239,7 +1239,7 @@ doc ///
a+1 is the degree of the strand
Outputs
L:List
the diagonal entries of the Smith normal form of a the cruital
the diagonal entries of the Smith normal form of a the crucial
matrix
Description
Text
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2 changes: 1 addition & 1 deletion M2/Macaulay2/packages/Macaulay2Doc/changes.m2
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Expand Up @@ -84,7 +84,7 @@ document {
},
LI { "functionality added or improved:",
UL {
LI { "It is now possible to create a fraction field of an iterated polymial ring using ", TO frac, "."},
LI { "It is now possible to create a fraction field of an iterated polynomial ring using ", TO frac, "."},
LI { "A number of new operators have been added that may be used for defining methods. See ", TO symbol ^!, ", ",
TO symbol _!, ", ", TO symbol ^~, ", ", TO symbol _~, ", ", TO symbol ^>, ", ", TO symbol ^>=, ", ", TO symbol ^<, ", ",
TO symbol ^<=, ", ", TO symbol _>, ", ", TO symbol _>=, ", ", TO symbol _<, ", ", TO symbol _<=, ", ", TO symbol |_, ", and ",
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Expand Up @@ -231,7 +231,7 @@ doc ///
efficiently by computing the associated invariants for their antidiagonal initial ideals,
which are known to be squarefree by [Wei17]. Therefore the extremal Betti numbers
(which encode regularity, depth, and projective dimension) of ASM ideals coincide
with those of their antidiagonal initical ideals by [CV20].
with those of their antidiagonal initial ideals by [CV20].
Example
time schubertRegularity B
time regularity comodule schubertDeterminantalIdeal B
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2 changes: 1 addition & 1 deletion M2/Macaulay2/packages/PHCpack/PHCpackDoc.m2
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Expand Up @@ -246,7 +246,7 @@ doc ///
Headline
Option to specify the dimension to begin searching for positive dimensional components
Usage
numericalIrreducibleDecompositon(...,StartDimension=>ZZ)
numericalIrreducibleDecomposition(...,StartDimension=>ZZ)
///;

doc ///
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2 changes: 1 addition & 1 deletion M2/Macaulay2/packages/PositivityToricBundles.m2
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Expand Up @@ -696,7 +696,7 @@ f << close;

-- PURPOSE: ensures ascending entries in the filtration matrices of a toric vector bundle
-- INPUT: 'tvb', toric vector bundle
-- OUTPUT: a toric vector bundle, whose filtation matrices have ascending entries
-- OUTPUT: a toric vector bundle, whose filtration matrices have ascending entries

wellformedBundleFiltrations = method ()
wellformedBundleFiltrations (ToricVectorBundleKlyachko) := tvb -> (
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4 changes: 2 additions & 2 deletions M2/Macaulay2/packages/PseudomonomialPrimaryDecomposition.m2
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Expand Up @@ -106,7 +106,7 @@ fromBit2Poly = (B,allVariables) -> (

------------------------------------------------------------------------------
-- subroutines for intermediate steps of primary decomposition ---------------
-- NOTE: In ALL subrutines here the polynomial inputs are in bitwise form ----
-- NOTE: In ALL subroutines here the polynomial inputs are in bitwise form ---
------------------------------------------------------------------------------


Expand Down Expand Up @@ -230,7 +230,7 @@ getFactors = B -> (
)


-- determines if a square free pseudomonomial ideal is generated by linear polynmomials
-- determines if a square free pseudomonomial ideal is generated by linear polynomials
-- Input:
-- list of generators of a square free pseudomonomial ideal in bitwise form
-- Output:
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2 changes: 1 addition & 1 deletion M2/Macaulay2/packages/SpectralSequences.m2
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Expand Up @@ -1830,7 +1830,7 @@ doc ///
$H^i(X, \mathcal{F})$ can be realized as the degree zero piece of the multigraded
module
$Ext^i(B^{[l]}, F)$ for sufficiently large $l$; here $B^{[l]}$ denotes
the $l$th Forbenius power of $B$ and $F$ is any multigraded module whose
the $l$th Frobenius power of $B$ and $F$ is any multigraded module whose
corresponding sheaf on $X$ is $\mathcal{F}$.

Given the fan of
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2 changes: 1 addition & 1 deletion M2/Macaulay2/packages/SubalgebraBases/documentation.m2
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Expand Up @@ -140,7 +140,7 @@ doc ///
Description
Text
Computes a partial subalgebra basis for its input.
This command returns the computed generators and not a computaiton object.
This command returns the computed generators and not a computation object.
If the input is @ ofClass Subring@,
then the computation object is stored in the cache of the input.
Example
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4 changes: 2 additions & 2 deletions M2/Macaulay2/packages/Valuations.m2
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Expand Up @@ -120,7 +120,7 @@ net Valuation := v -> (
--------------------------- Ordered QQ-module Types ----------------------------
--------------------------------------------------------------------------------

-- Ordered Module based on the monomial order of a polyomial ring
-- Ordered Module based on the monomial order of a polynomial ring
--
-- given two elements a, b in QQ^n they are compared by using the
-- the monomial order of the polynomial ring:
Expand All @@ -145,7 +145,7 @@ orderedQQn(ZZ, List) := (n, monOrder) -> (
ordMod
)

-- Two ordered modules are equal iff their cached rings are identitcal
-- Two ordered modules are equal iff their cached rings are identical
OrderedQQn == OrderedQQn := (N, M) -> (
N.cache.Ring === M.cache.Ring
)
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Expand Up @@ -705,7 +705,7 @@ doc ///
(AGR, ZZ, ZZ, ZZ)
(AGR, ZZ, ZZ, ZZ, ZZ)
Headline
construct a random arithemtically Gorenstein ring (AGR)
construct a random arithmetically Gorenstein ring (AGR)
Usage
AGR(deg, n, deg, characteristic)
AGR(deg, n, numpowers, characteristic)
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