| i2w | Math.Combinat.Partitions.Integer.Compact |
| identity | |
| 1 (Function) | Math.Combinat.Groups.Thompson.F |
| 2 (Function) | Math.Combinat.Groups.Braid |
| identityPermutation | Math.Combinat.Permutations, Math.Combinat |
| idSeries | Math.Combinat.Numbers.Series |
| innerCornerBoxes | Math.Combinat.Partitions.Skew.Ribbon |
| innerCornerBoxesNaive | Math.Combinat.Partitions.Skew.Ribbon |
| innerPartition | Math.Combinat.Partitions.Skew |
| innerRibbons | Math.Combinat.Partitions.Skew.Ribbon |
| innerRibbonsNaive | Math.Combinat.Partitions.Skew.Ribbon |
| innerRibbonsOfLength | Math.Combinat.Partitions.Skew.Ribbon |
| innerRibbonsOfLengthNaive | Math.Combinat.Partitions.Skew.Ribbon |
| integerFactorsTrialDivision | Math.Combinat.Numbers.Primes, Math.Combinat.Numbers, Math.Combinat |
| integerLog2 | Math.Combinat.Numbers.Integers, Math.Combinat.Numbers, Math.Combinat |
| integerSquareRoot | Math.Combinat.Numbers.Integers, Math.Combinat.Numbers, Math.Combinat |
| integerSquareRoot' | Math.Combinat.Numbers.Integers, Math.Combinat.Numbers, Math.Combinat |
| integerSquareRootNewton' | Math.Combinat.Numbers.Integers, Math.Combinat.Numbers, Math.Combinat |
| integralLagrangeInversionNaive | Math.Combinat.Numbers.Series |
| integralReciprocalSeries | Math.Combinat.Numbers.Series |
| integrateSeries | Math.Combinat.Numbers.Series |
| interleave | Math.Combinat.Helper |
| intToBool | Math.Combinat.Helper |
| IntVector | Math.Combinat.Partitions.Vector |
| Inv | Math.Combinat.Groups.Free |
| invBrGen | Math.Combinat.Groups.Braid |
| inverse | |
| 1 (Function) | Math.Combinat.Groups.Thompson.F |
| 2 (Function) | Math.Combinat.Groups.Braid |
| inverseGen | Math.Combinat.Groups.Free |
| inversePermutation | Math.Combinat.Permutations, Math.Combinat |
| inverseTwoLineNotation | Math.Combinat.Permutations, Math.Combinat |
| inverseWord | Math.Combinat.Groups.Free |
| inversions | Math.Combinat.Permutations, Math.Combinat |
| invertGTSimplexTableau | Math.Combinat.Tableaux.GelfandTsetlin.Cone |
| isCyclicPermutation | Math.Combinat.Permutations, Math.Combinat |
| isDyckPath | Math.Combinat.LatticePaths, Math.Combinat |
| isEmpty | |
| 1 (Function) | Math.Combinat.Classes |
| 2 (Function) | Math.Combinat.Partitions.Integer.Compact |
| isEmptyPartition | Math.Combinat.Partitions.Integer.Naive, Math.Combinat.Partitions.Integer, Math.Combinat.Partitions, Math.Combinat |
| isEvenPermutation | Math.Combinat.Permutations, Math.Combinat |
| isIdentityPermutation | Math.Combinat.Permutations, Math.Combinat |
| isLatticeWord | Math.Combinat.Tableaux, Math.Combinat |
| isMinus | Math.Combinat.Sign, Math.Combinat.Permutations, Math.Combinat |
| isOddPermutation | Math.Combinat.Permutations, Math.Combinat |
| isPartition | Math.Combinat.Partitions.Integer, Math.Combinat.Partitions, Math.Combinat |
| isPermutation | Math.Combinat.Permutations, Math.Combinat |
| isPermutationBraid | Math.Combinat.Groups.Braid |
| isPlus | Math.Combinat.Sign, Math.Combinat.Permutations, Math.Combinat |
| isPositive | Math.Combinat.Groups.Thompson.F |
| isPositiveBraidWord | Math.Combinat.Groups.Braid |
| isProbablyPrime | Math.Combinat.Numbers.Primes, Math.Combinat.Numbers, Math.Combinat |
| isPureBraid | Math.Combinat.Groups.Braid |
| isReduced | Math.Combinat.Groups.Thompson.F |
| isReversePermutation | Math.Combinat.Permutations, Math.Combinat |
| isRibbon | Math.Combinat.Partitions.Skew.Ribbon |
| isSemiStandardSkewTableau | Math.Combinat.Tableaux.Skew |
| isSemiStandardTableau | Math.Combinat.Tableaux, Math.Combinat |
| isSquare | Math.Combinat.Numbers.Integers, Math.Combinat.Numbers, Math.Combinat |
| isStandardSkewTableau | Math.Combinat.Tableaux.Skew |
| isStandardTableau | Math.Combinat.Tableaux, Math.Combinat |
| isStrictlyDecreasing | Math.Combinat.Helper |
| isStrictlyIncreasing | Math.Combinat.Helper |
| isSubPartitionOf | |
| 1 (Function) | Math.Combinat.Partitions.Integer.Naive, Math.Combinat.Partitions.Integer, Math.Combinat.Partitions, Math.Combinat |
| 2 (Function) | Math.Combinat.Partitions.Integer.Compact |
| isSuperPartitionOf | Math.Combinat.Partitions.Integer.Naive, Math.Combinat.Partitions.Integer, Math.Combinat.Partitions, Math.Combinat |
| isTreeLeaf | Math.Combinat.Trees.Nary, Math.Combinat.Trees, Math.Combinat |
| isTreeLeaf_ | Math.Combinat.Trees.Nary, Math.Combinat.Trees, Math.Combinat |
| isTreeNode | Math.Combinat.Trees.Nary, Math.Combinat.Trees, Math.Combinat |
| isTreeNode_ | Math.Combinat.Trees.Nary, Math.Combinat.Trees, Math.Combinat |
| isTrivialVennDiagram | Math.Combinat.Sets.VennDiagrams |
| isValidPath | Math.Combinat.LatticePaths, Math.Combinat |
| isValidPlanePart | Math.Combinat.Partitions.Plane |
| isValidTDiag | Math.Combinat.Groups.Thompson.F |
| isVeryProbablyPrime | Math.Combinat.Numbers.Primes, Math.Combinat.Numbers, Math.Combinat |
| isWeaklyDecreasing | Math.Combinat.Helper |
| isWeaklyIncreasing | Math.Combinat.Helper |
| iteratedDualPieriRule | Math.Combinat.Tableaux.GelfandTsetlin |
| iteratedDualPieriRule' | Math.Combinat.Tableaux.GelfandTsetlin |
| iteratedDualPieriRule'' | Math.Combinat.Tableaux.GelfandTsetlin |
| iteratedPieriRule | Math.Combinat.Tableaux.GelfandTsetlin |
| iteratedPieriRule' | Math.Combinat.Tableaux.GelfandTsetlin |
| iteratedPieriRule'' | Math.Combinat.Tableaux.GelfandTsetlin |
| iTypeArg | Math.Combinat.TypeLevel |