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Arrays where the index type is a function of the shape type Arrays from the basic array package are already very powerful compared with arrays in other languages. They may have any number of dimensions, are type safe and defined in a uniform way using the Ix class with free choice of the lower bounds (0, 1, or whatever you like). This package goes one step further: The shape and the index type are different, but the index type is a type function of the shape type. This offers much more flexibility and type safety. Some Shape example types are:
- Range: Allow dynamic choice of lower and upper array bounds such as in the Arrays from the array package. You can combine it with other shapes in other dimensions. It allows you to describe the bounds of each dimension individually.
- Shifted: Describe array bounds by start index and length. It is sometimes more natural to use these parameters. E.g. a non-negative index type like Word cannot represent -1 and thus cannot encode an empty range starting with index 0.
- ZeroBased, OneBased: Arrays with fixed lower bound, either 0 or 1, respectively.
- Cyclic: Indices with wrap-around semantics.
- Zero, (): Arrays with fixed size 0 or 1, respectively.
- Enumeration: Arrays with indices like LT, EQ, GT and a shape of fixed size.
- NestedTuple: Arrays with shapes that are compatible to nested tuples like (a,(a,a)) and indices like fst and fst.snd.
- (::+): The Append type constructor allows to respresent block arrays, e.g. block matrices. It also allows to represent non-empty arrays via ()::+sh.
- Set: Use an arbitrary ordered set as index set.
- Map: Concatenate a set of shapes. In a higher dimensional array it can be used for block matrices with a dynamic number of blocks but block sizes of the same shape type.
- Triangular: A 2D array with the shape of a lower or upper triangular matrix.
- Simplex: Simplices of any dimension, where the dimension is encoded in the type. An index is a tuple of monotonic ordered sub-indices.
- Square: A 2D array where both dimensions always have equal size.
- Cube: A 3D array where all three dimensions always have equal size.
- Tagged: Statically distinguish shapes and indices that are isomorphic.
- Fast Linear Algebra using the packages comfort-blas and lapack. The lapack package defines even more fancy shapes like tall rectangular matrices, triangular matrices and banded matrices.
- Fast Fourier Transforms using the package comfort-fftw
- Fast Linear Programming using the packages comfort-glpk, coinor-clp, highs-lp
- Efficient Array Processing via LLVM Just-In-Time code generation using the package knead.
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hourglass Data.Hourglass A generic class for anything that can be considered a Time Format string.
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hourglass Data.Hourglass All the various formatter that can be part of a time format string
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hourglass Data.Hourglass A generic format function composed of a parser and a printer.
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hourglass Data.Hourglass No documentation available.
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hourglass Data.Hourglass A time format string, composed of list of TimeFormatElem
TimeFormatString :: [TimeFormatElem] -> TimeFormatStringhourglass Data.Hourglass No documentation available.
timeFormatFctName :: TimeFormatFct -> Stringhourglass Data.Hourglass No documentation available.
timeFormatParse :: TimeFormatFct -> DateTime -> String -> Either String (DateTime, String)hourglass Data.Hourglass No documentation available.
timeFormatPrint :: TimeFormatFct -> DateTime -> Stringhourglass Data.Hourglass No documentation available.