The following functions are useful to perform common String operations.
y =
lower (s)
¶y =
tolower (s)
¶Return a copy of the string or cell string s, with each uppercase character replaced by the corresponding lowercase one; non-alphabetic characters are left unchanged.
For example:
lower ("MiXeD cAsE 123") ⇒ "mixed case 123"
Programming Note: tolower
is an alias for lower
and either name
can be used in Octave.
See also: upper.
y =
upper (s)
¶y =
toupper (s)
¶Return a copy of the string or cell string s, with each lowercase character replaced by the corresponding uppercase one; non-alphabetic characters are left unchanged.
For example:
upper ("MiXeD cAsE 123") ⇒ "MIXED CASE 123"
Programming Note: toupper
is an alias for upper
and either name
can be used in Octave.
See also: lower.
s =
deblank (s)
¶Remove trailing whitespace and nulls from s.
If s is a matrix, deblank trims each row to the length of the longest string. If s is a cell array of strings, operate recursively on each string element.
Examples:
deblank (" abc ") ⇒ " abc" deblank ([" abc "; " def "]) ⇒ [" abc " ; " def"]
See also: strtrim.
s =
strtrim (s)
¶Remove leading and trailing whitespace from s.
If s is a matrix, strtrim trims each row to the length of longest string. If s is a cell array of strings, operate recursively on each string element.
For example:
strtrim (" abc ") ⇒ "abc" strtrim ([" abc "; " def "]) ⇒ ["abc " ; " def"]
See also: deblank.
s =
strtrunc (s, n)
¶Truncate the character string s to length n.
If s is a character matrix, then the number of columns is adjusted.
If s is a cell array of strings, then the operation is performed on each cell element and the new cell array is returned.
str =
untabify (t)
¶str =
untabify (t, tw)
¶str =
untabify (t, tw, deblank)
¶Replace TAB characters in t with spaces.
The input, t, may be either a 2-D character array, or a cell array of character strings. The output is the same class as the input.
The tab width is specified by tw, and defaults to eight.
If the optional argument deblank is true, then the spaces will be removed from the end of the character data.
The following example reads a file and writes an untabified version of the same file with trailing spaces stripped.
fid = fopen ("tabbed_script.m"); text = char (fread (fid, "uchar")'); fclose (fid); fid = fopen ("untabified_script.m", "w"); text = untabify (strsplit (text, "\n"), 8, true); fprintf (fid, "%s\n", text{:}); fclose (fid);
newstr =
do_string_escapes (string)
¶Convert escape sequences in string to the characters they represent.
Escape sequences begin with a leading backslash
('\'
) followed by 1–3 characters
(.e.g., "\n"
=> newline).
See also: undo_string_escapes.
newstr =
undo_string_escapes (string)
¶Convert special characters in string back to their escaped forms.
For example, the expression
bell = "\a";
assigns the value of the alert character (control-g, ASCII code 7) to the
string variable bell
. If this string is printed, the system will
ring the terminal bell (if it is possible). This is normally the desired
outcome. However, sometimes it is useful to be able to print the original
representation of the string, with the special characters replaced by their
escape sequences. For example,
octave:13> undo_string_escapes (bell) ans = \a
replaces the unprintable alert character with its printable representation.
See also: do_string_escapes.