One common use of cell arrays is to store multiple strings in the same
variable. It is also possible to store multiple strings in a
character matrix by letting each row be a string. This, however,
introduces the problem that all strings must be of equal length.
Therefore, it is recommended to use cell arrays to store multiple
strings. For cases, where the character matrix representation is required
for an operation, there are several functions that convert a cell
array of strings to a character array and back. char
and
strvcat
convert cell arrays to a character array
(see Concatenating Strings), while the function cellstr
converts a character array to a cell array of strings:
a = ["hello"; "world"]; c = cellstr (a) ⇒ c = { [1,1] = hello [2,1] = world }
cstr =
cellstr (strmat)
¶Create a new cell array object from the elements of the string array strmat.
Each row of strmat becomes an element of cstr. Any trailing spaces in a row are deleted before conversion.
To convert back from a cellstr to a character array use char
.
One further advantage of using cell arrays to store multiple strings is
that most functions for string manipulations included with Octave
support this representation. As an example, it is possible to compare
one string with many others using the strcmp
function. If one of
the arguments to this function is a string and the other is a cell array
of strings, each element of the cell array will be compared to the string
argument:
c = {"hello", "world"}; strcmp ("hello", c) ⇒ ans = 1 0
The following string functions support cell arrays of strings:
char
, strvcat
, strcat
(see Concatenating Strings), strcmp
, strncmp
, strcmpi
,
strncmpi
(see Searching in Strings), str2double
,
deblank
, strtrim
, strtrunc
, strfind
,
strmatch
, , regexp
, regexpi
(see String Operations) and str2double
(see Converting Strings).
The function iscellstr
can be used to test if an object is a
cell array of strings.