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## dyn-vector

Dynamic (dense) vectors based on SRFI-43.

## Usage

(require-extension dyn-vector)

## Documentation

The dyn-vector library is an implementation of a dynamically-growing vector, based on SRFI-43. An attempt to set the `i`'th element of a dynvector of underlying size n causes the dynvector to grow to size `2n`, `i+1`, or `16`, whichever is greatest. The semantics of this library follow SRFI-43 closely, with the exception of the following procedures: <procedure>dynvector-ref vect i</procedure>

If the index `i` is greater than the current size of the vector, this procedure returns the default value specified when the dynamic vector was created.

*[procedure]*

`dynvector-set! vect i e`

If the index `i` is greater than the current size of the vector, the vector size is increased to `max(2*N,i+1)` and the new element is then inserted in the vector.

*[procedure]*

`dynvector-clear! vect n`

This procedure removes all elements from the dynamic vector, and sets the size of the vector to `n`.

*[procedure]*

`dynvector-extend! vect n`

This procedure explicitly resizes the dynamic vector to the specified size.

*[procedure]*

`dynvector-tabulate f len [dflt]`

If the optional argument `dflt` is specified, it is used as default value, otherwise the first element in the vector is used as default value.

*[procedure]*

`list->dynvector lst [dflt] -> dynvector`

If the optional argument `dflt` is specified, it is used as default value, otherwise the first element in the list is used as default value.

### Procedures

*[procedure]*

`dynvector? x -> boolean`

Returns `#t` if `x` is a dynamic vector, `#f` otherwise.

*[procedure]*

`dynvector-tabulate f len [dflt]`

Creates a new dynamic vector of length `len` and iterates across each index, applying f at each iteration to the current index; if the optional argument `dflt` is specified, it is used as default value, otherwise the first element in the vector is used as default value.

*[procedure]*

`list->dynvector lst [dflt] -> dynvector`

Creates a dynamic vector with the elements of the given list; if the optional argument `dflt` is specified, it is used as default value, otherwise the first element in the vector is used as default value.

*[procedure]*

`make-dynvector n default -> dynvector`

Creates a dynamic vector of length `n` and fills it with value `default`.

*[procedure]*

`dynvector-clear! x n -> unspecified`

Removes all elements from the given dynamic vector, and sets the size of the vector to `n`.

*[procedure]*

`dynvector-length x -> integer`

Returns the length of the given dynamic vector.

*[procedure]*

`dynvector-ref x i -> value`

Returns the element at index `i`of the given dynamic vector`x`.

*[procedure]*

`dynvector-set! x i e -> unspecified`

Updates the element at index `i`of the given dynamic vector`x`; if the index `i` is greater than the current size of the vector, the vector size is increased to `max(2*N,i+1)` and the new element is then inserted in the vector.

*[procedure]*

`dynvector-expand! x n -> unspecified`

Expands the size of the dynamic vector to the given size `n`.

*[procedure]*

`dynvector-for-each f x1 ... -> unspecified`

Dynamic vector iterator: applies `f`to each index in the range `[0, k)`, where `k` is the length of the smallest dynamic vector argument passed, and the respective list of parallel elements from `x1` ... at that index.

*[procedure]*

`dynvector-map f x1 ... -> dynvector`

Constructs a new dynamic vector of the shortest size of the given dynamic vector; each element at index `i` of the new dynamic vector is mapped from the old vectors by `f i (dynvector-ref x1 i) ...`.

*[procedure]*

`dynvector-copy x -> dynvector`

Creates a copy of the given dynamic vector.

*[procedure]*

`dynvector-fold f initial x1 ... -> state`

Left-to-right dynamic vector iterator with state. `f` is iterated over each index in all of the vectors, stopping at the end of the shortest; `f` is applied as `(f i state (dynvector-ref x1 i) ...)` where state is the current state value, which begins with `initial` and becomes whatever `f`returns at the respective iteration; `i` is the current index.

*[procedure]*

`dynvector-fold-right f initial x1 ... -> state`

Right-to-left dynamic vector iterator with state. `f` is iterated over each index in all of the vectors, stopping at the end of the shortest; `f` is applied as `(f i state (dynvector-ref x1 i) ...)` where state is the current state value, which begins with `initial` and becomes whatever `f`returns at the respective iteration; `i` is the current index.

*[procedure]*

`dynvector-index pred? x1 ... -> integer or #f`

Finds and returns the index of the first elements in `x1 ...` that satisfy `pred?`; if no matching element is found by the end of the shortest vector, `#f` is returned.

*[procedure]*

`dynvector-any pred? x1 ... -> value or #f`

Finds the first set of elements in `x1 ... `for which `pred?` returns a true value. If such a parallel set of elements exists, this procedure returns the value that `pred?`returned for that set of elements.

*[procedure]*

`dynvector-every pred? x1 ... -> value or #f`

If, for every index `i` between 0 and the length of the shortest vector argument, the set of elements `(dynvector-ref x1 i) ...` satisfies `pred?`, this procedure returns the value that `pred?`returned for the last set of elements.

*[procedure]*

`dynvector->list x1 -> list`

Returns a list containing all the elements in the given dynamic vector.

## Examples

csi> (require-extension dyn-vector) csi> (define dv (make-dynvector 1 0)) csi> (dynvector-ref dv 6) 0 csi> (dynvector-set! dv 6 18) csi> (dynvector-ref dv 6) 18 csi> (define dv2 (list->dynvector '(1 2 3))) csi> dv2 #(dynvector 1 2 3) csi> (dynvector-ref dv2 4) 1 csi> (dynvector-clear! dv2 5) csi> (dynvector-for-each (lambda (i x) (print i " = " x)) dv2) 0 = 1 1 = 1 2 = 1 3 = 1 4 = 1 csi> (dynvector-map (lambda (i x) (+ x i)) dv2) #(dynvector 1 2 3 4 5) csi> (dynvector-fold (lambda (i state v) (+ state v)) 0 dv2) 5

## About this egg

### Author

### Version history

- 1.11
- Converted documentation to wiki format
- 1.9
- Ported to Chicken 4
- 1.8
- Build script updated for better cross-platform compatibility
- 1.7
- eggdoc documentation fix
- 1.6
- License upgrade to GPL v3
- 1.5
- Minor updates to the setup script
- 1.4
- Bug fix in the setup script
- 1.3
- Added a clarification of how the vector grows [thanks to John Cowan]
- 1.2
- Bug fix to handle zero-length initial base vector
- 1.1
- Added optional dflt argument to list->dynvector and dynvector->tabulate
- 1.0
- Initial release

### License

Parts of this documentation are taken from SRFI-43. The rest was created by Ivan Raikov. This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. A full copy of the GPL license can be found at <http://www.gnu.org/licenses/>.