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seq2slice
Convert a subsequence string to a
Sliceobject.
Installation
npm install @stdlib/slice-seq2sliceUsage
var seq2slice = require( '@stdlib/slice-seq2slice' );seq2slice( str, len, strict )
Converts a subsequence string to a Slice object, where len specifies the maximum number of elements allowed in the slice.
var s = seq2slice( ':5', 10, false );
// returns <Slice>
var v = s.start;
// returns 0
v = s.stop;
// returns 5
v = s.step;
// returns 1A subsequence string has the following format:
<start>:<stop>:<increment>
where
- If an
incrementis not specified, the default increment is1. An increment of zero is not allowed. - The
startindex is inclusive. - The
stopindex is exclusive. - Both
startandstopindices are optional. If not provided,startandstopdefault to index extremes. Which extremes correspond to which index depends on whether theincrementis positive or negative. - Both
startandstopcan be negative; in which case, the corresponding index is resolved by subtracting the respective value from the provided lengthlen. - Both
startandstopcan use theendkeyword (e.g.,end-2::2,end-3:, etc), which supports basic subtraction and division. - The
endkeyword resolves to the provided lengthlen. Thus,:-1is equivalent to:end-1,:-2is equivalent to:end-2, and so on and so forth. The exception is when performing a division operation when theincrementis less than zero; in which case,endis equal tolen-1in order to preserve user expectations whenend/dequals a whole number and slicing from right-to-left. The result from a division operation is rounded down to the nearest integer value.
var s = seq2slice( 'end:2:-1', 10, false );
// returns <Slice>
var v = s.start;
// returns 9
v = s.stop;
// returns 2
v = s.step;
// returns -1
s = seq2slice( 'end-2:2:-1', 10, false );
// returns <Slice>
v = s.start;
// returns 8
v = s.stop;
// returns 2
v = s.step;
// returns -1
s = seq2slice( 'end/2:2:-1', 10, false );
// returns <Slice>
v = s.start;
// returns 4
v = s.stop;
// returns 2
v = s.step;
// returns -1When strict is true, the function throws an error if a subsequence string resolves to a slice exceeding index bounds.
var s = seq2slice( '10:20', 10, true );
// throws <RangeError>Notes
- When
lenis zero, the function always returns a Slice object equivalent to0:0:<increment>. - When
strictisfalse, the resolved slice start is clamped to the slice index bounds (i.e.,[0, len)). - When
strictisfalse, the resolved slice end is upper bound clamped tolen(i.e., one greater than the last possible index). - When the increment is negative, the resolved slice end value may be
null, thus indicating that a non-empty slice should include the first index. - The function ensures that results satisfy the convention that
:ncombined withn:is equivalent to:(i.e., selecting all elements). This convention matches Python slice semantics, but diverges from the MATLAB convention where:nandn:overlap by one element. - Unlike MATLAB, but like Python, the subsequence string is upper-bound exclusive. For example, in Python,
0:2corresponds to the sequence{0,1}. In MATLAB,1:3corresponds to{1,2,3}.
Examples
var seq2slice = require( '@stdlib/slice-seq2slice' );
var s = seq2slice( ':', 5, false );
console.log( 'start: %s. stop: %s. step: %s.', s.start, s.stop, s.step );
// => 'start: 0. stop: 5. step: 1.'
s = seq2slice( '2:', 5, false );
console.log( 'start: %s. stop: %s. step: %s.', s.start, s.stop, s.step );
// => 'start: 2. stop: 5. step: 1.'
s = seq2slice( ':3', 5, false );
console.log( 'start: %s. stop: %s. step: %s.', s.start, s.stop, s.step );
// => 'start: 0. stop: 3. step: 1.'
s = seq2slice( '2:4', 5, false );
console.log( 'start: %s. stop: %s. step: %s.', s.start, s.stop, s.step );
// => 'start: 2. stop: 4. step: 1.'
s = seq2slice( '1:4:2', 5, false );
console.log( 'start: %s. stop: %s. step: %s.', s.start, s.stop, s.step );
// => 'start: 1. stop: 4. step: 2.'
s = seq2slice( '2::2', 5, false );
console.log( 'start: %s. stop: %s. step: %s.', s.start, s.stop, s.step );
// => 'start: 2. stop: 5. step: 2.'
s = seq2slice( ':-2', 5, false );
console.log( 'start: %s. stop: %s. step: %s.', s.start, s.stop, s.step );
// => 'start: 0. stop: 3. step: 1.'
s = seq2slice( ':-1:2', 5, false );
console.log( 'start: %s. stop: %s. step: %s.', s.start, s.stop, s.step );
// => 'start: 0. stop: 4. step: 2.'
s = seq2slice( '-4:-1:2', 5, false );
console.log( 'start: %s. stop: %s. step: %s.', s.start, s.stop, s.step );
// => 'start: 1. stop: 4. step: 2.'
s = seq2slice( '-5:-1', 5, false );
console.log( 'start: %s. stop: %s. step: %s.', s.start, s.stop, s.step );
// => 'start: 0. stop: 4. step: 1.'
s = seq2slice( '::-1', 5, false );
console.log( 'start: %s. stop: %s. step: %s.', s.start, s.stop, s.step );
// => 'start: 4. stop: null. step: -1.'
s = seq2slice( ':0:-1', 5, false );
console.log( 'start: %s. stop: %s. step: %s.', s.start, s.stop, s.step );
// => 'start: 4. stop: 0. step: -1.'
s = seq2slice( '3:0:-1', 5, false );
console.log( 'start: %s. stop: %s. step: %s.', s.start, s.stop, s.step );
// => 'start: 3. stop: 0. step: -1.'
s = seq2slice( '-1:-4:-2', 5, false );
console.log( 'start: %s. stop: %s. step: %s.', s.start, s.stop, s.step );
// => 'start: 4. stop: 1. step: -2.'
s = seq2slice( ':end', 5, false );
console.log( 'start: %s. stop: %s. step: %s.', s.start, s.stop, s.step );
// => 'start: 0. stop: 5. step: 1.'
s = seq2slice( ':end-1', 5, false );
console.log( 'start: %s. stop: %s. step: %s.', s.start, s.stop, s.step );
// => 'start: 0. stop: 4. step: 1.'
s = seq2slice( ':end/2', 5, false );
console.log( 'start: %s. stop: %s. step: %s.', s.start, s.stop, s.step );
// => 'start: 0. stop: 2. step: 1.'
s = seq2slice( 'end/2::-1', 5, false );
console.log( 'start: %s. stop: %s. step: %s.', s.start, s.stop, s.step );
// => 'start: 2. stop: null. step: -1.'
s = seq2slice( 'end-2::-1', 5, false );
console.log( 'start: %s. stop: %s. step: %s.', s.start, s.stop, s.step );
// => 'start: 3. stop: null. step: -1.'
s = seq2slice( 'end/2:', 5, false );
console.log( 'start: %s. stop: %s. step: %s.', s.start, s.stop, s.step );
// => 'start: 2. stop: 5. step: 1.'See Also
-
@stdlib/slice-ctor: slice constructor.
Notice
This package is part of stdlib, a standard library for JavaScript and Node.js, with an emphasis on numerical and scientific computing. The library provides a collection of robust, high performance libraries for mathematics, statistics, streams, utilities, and more.
For more information on the project, filing bug reports and feature requests, and guidance on how to develop stdlib, see the main project repository.
Community
License
See LICENSE.
Copyright
Copyright © 2016-2024. The Stdlib Authors.