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Epsilon User's Manual and Reference >
Primitives and EEL Subroutines >
Control Primitives >
Examining Strings
int strlen(char *s)
Epsilon provides various functions for manipulating strings, or
equivalently, zero-terminated arrays of characters. (General-purpose
functions for modifying strings are covered in the next section.) The
strlen( ) primitive returns the length of a string. That is,
it tells the position in the array of the first zero character.
int strcmp(char *first, char *second)
int strncmp(char *first, char *second, int count)
The strcmp( ) primitive tells if two strings are identical. It
returns 0 if all characters in them are the same (and if they have
the same length). Otherwise, it returns a negative number if the
lexicographic ordering of these strings would put the first before
the second. It returns a positive number otherwise. The
strncmp( ) primitive is like strcmp( ), except
only the first count characters matter.
int strfcmp(char *first, char *second)
int strnfcmp(char *first, char *second, int count)
int charfcmp(int first, int second)
Epsilon also has similar comparison primitives that consider upper
case and lower case letters to be equal. The strfcmp( )
primitive acts like strcmp( ) and the strnfcmp( )
primitive acts like strncmp( ), but if the buffer-specific
variable case_fold is nonzero, Epsilon folds characters in the
same way searching or sorting would before making the comparison. The
charfcmp( ) primitive takes two characters and performs the
same comparison on them. For characters a and b,
charfcmp('a', 'b') equals strfcmp("a",
"b") . (EEL also recognizes the corresponding ANSI C name
stricmp( ) instead of strfcmp( ).)
int compare_chars(char *str1, char *str2, int num, int fold)
The compare_chars( ) primitive works like strcmp( ),
except that it makes no assumptions about zero-termination. It takes
two strings and a size, then compares that many characters from each
string. If the strings exactly match, compare_chars( ) returns
zero. If str1 would be alphabetically before str2 , it returns
a negative value. If str2 would be alphabetically before
str1 , it returns a positive value. It ignores the case of the
characters when comparing if fold is nonzero.
char *index(char *s, int ch)
char *rindex(char *s, int ch)
char *strstr(char *s, char *t)
char *strpbrk(char *s, char *charset)
char *strpbrk_cnt(char *s, char *charset, int skip)
The index( ) primitive tells if a character ch appears
in the string s . It returns a pointer to the first appearance of
ch , or a null pointer if there is none. The rindex( )
primitive works the same, but returns a pointer to the last
appearance of ch . (EEL also recognizes the corresponding ANSI C
names strchr( ) instead of index( ) and
strrchr( ) instead of rindex( ).)
The strstr( ) primitive searches the string s for a copy
of the string t . It returns a pointer to the first appearance
of t , or a null pointer if there is none. It case-folds as
described above for strfcmp( ).
The strpbrk( ) subroutine returns a pointer to the first
character in s that appears in the list of characters charset .
Both strings must be null-terminated. If the strings have no
characters in common, it returns a null pointer.
The strpbrk_cnt( ) subroutine is similar, but it skips over
the first skip characters in s that also appear in
charset . For instance, with skip set to 1 , it returns a
pointer to the second character in s that also appears in
charset .
int fpatmatch(char *s, char *pat, int prefix, int flags)
#define FPAT_FOLD 1
#define FPAT_IGNORE_SQUARE_BRACKETS 2
The fpatmatch( ) primitive returns nonzero if a string s
matches a pattern pat . It uses a simple filename-style pattern
syntax: * matches any number of characters; ? matches a single
character, and [a-z] match a character class (with the same
character class syntax as other patterns in Epsilon). It also
recognizes | to permit alternatives. If prefix is nonzero,
s must begin with text matching pat ; otherwise pat must
match all of s .
The flags parameter recognizes two bits. The FPAT_FOLD
bit makes Epsilon fold characters before comparing, according to the
current buffer's folding rules. The
FPAT_IGNORE_SQUARE_BRACKETS bit makes Epsilon treat the
character [ in a pattern like any other, instead of interpreting it
as the start of a character class.
int string_matches_regex(char *str, char *pat, int fold)
int string_matches_pattern(char *str, char *pat)
int regex_replace_in_string(char *dest, char *src, char *pat, char *repl)
The string_matches_regex( ) subroutine returns nonzero if the
start of the given string matches the regular expression pattern. Use
<eof> at the end of the pattern to check if the entire string
matches. It does case-folding if fold is nonzero.
The similar string_matches_pattern( ) subroutine returns the
length of match (which differs from the above only with patterns that
can match zero-length text), and uses case_fold.default .
Both return zero when given an invalid regular expression pattern.
The regex_replace_in_string( ) subroutine copies src
to dest, performing a regular expression replacement as it
does. As in string_replace( ), which it runs, the replacement
text may contain # sequences to interpolate text from each match.
It returns the number of replacements it performed, or -1 if an error
like an invalid search pattern was detected. If src and
dest are the same, the text is updated in place.
int word_in_list(char *word, char *list, int fold)
int starts_with_in_list(char *word, char *list, int fold)
The word_in_list( ) subroutine returns nonzero whenever the
text in word appears in the | -separated list of words
list . "Word" here means any text that doesn't contain an actual
| character. The list of words must begin and end with |
delimiters. The similar starts_with_in_list( ) subroutine
returns nonzero whenever word starts with one of the words in
the list. Both do case-folding if fold is nonzero. They are
faster than the regular-expression-based subroutines above.
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Epsilon Programmer's Editor 14b12 manual. Copyright (C) 1984, 2020 by Lugaru Software Ltd. All rights reserved.
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