Skip Navigation Links | |
Exit Print View | |
man pages section 1: User Commands Oracle Solaris 11.1 Information Library |
- translate characters
/usr/bin/tr [-cds] [string1 [string2]]
/usr/xpg4/bin/tr [-cs] string1 string2
/usr/xpg4/bin/tr -s | -d [-c] string1
/usr/xpg4/bin/tr -ds [-c] string1 string2
/usr/xpg6/bin/tr [-c | -C] [-s] string1 string2
/usr/xpg6/bin/tr -s [-c | -C] string1
/usr/xpg6/bin/tr -d [-c | -C] string1
/usr/xpg6/bin/tr -ds [-c | -C] string1 string2
The tr utility copies the standard input to the standard output with substitution or deletion of selected characters. The options specified and the string1 and string2 operands control translations that occur while copying characters and single-character collating elements.
The following options are supported:
Complements the set of values specified by string1.
Complements the set of characters specified by string1.
Deletes all occurrences of input characters that are specified by string1.
Replaces instances of repeated characters with a single character.
When the -d option is not specified:
Each input character found in the array specified by string1 is replaced by the character in the same relative position in the array specified by string2. When the array specified by string2 is shorter than the one specified by string1, the results are unspecified.
If the -c option is specified, the complements of the values specified by string1 are placed in the array in ascending order by binary value.
If the -C option is specified, the complements of the characters specified by string1 (the set of all characters in the current character set, as defined by the current setting of LC_CTYPE, except for those actually specified in the string1 operand) are placed in the array in ascending collation sequence, as defined by the current setting of LC_COLLATE.
Because the order in which characters specified by character class expressions or equivalence class expressions is undefined, such expressions should only be used if the intent is to map several characters into one. An exception is case conversion, as described previously.
When the -d option is specified:
Input characters found in the array specified by string1 are deleted.
When the -C option is specified with -d, all values except those specified by string1 are deleted. The contents of string2 are ignored, unless the -s option is also specified.
If the -c option is specified, the complements of the values specified by string1 are placed in the array in ascending order by binary value.
The same string cannot be used for both the -d and the -s option. When both options are specified, both string1 (used for deletion) and string2 (used for squeezing) are required.
When the -s option is specified, after any deletions or translations have taken place, repeated sequences of the same character is replaced by one occurrence of the same character, if the character is found in the array specified by the last operand. If the last operand contains a character class, such as the following example:
tr -s '[:space:]'
the last operand's array contains all of the characters in that character class. However, in a case conversion, as described previously, such as
tr -s '[:upper:]' '[:lower:]'
the last operand's array contains only those characters defined as the second characters in each of the toupper or tolower character pairs, as appropriate. (See toupper(3C) and tolower(3C)).
An empty string used for string1 or string2 produces undefined results.
The following operands are supported:
Translation control strings. Each string represents a set of characters to be converted into an array of characters used for the translation.
The operands string1 and string2 (if specified) define two arrays of characters. The constructs in the following list can be used to specify characters or single-character collating elements. If any of the constructs result in multi-character collating elements, tr excludes, without a diagnostic, those multi-character elements from the resulting array.
Any character not described by one of the conventions below represents itself.
Octal sequences can be used to represent characters with specific coded values. An octal sequence consists of a backslash followed by the longest sequence of one-, two-, or three-octal-digit characters (01234567). The sequence causes the character whose encoding is represented by the one-, two- or three-digit octal integer to be placed into the array. Multi-byte characters require multiple, concatenated escape sequences of this type, including the leading \ for each byte.
The backslash-escape sequences \a, \b, \f, \n, \r, \t, and \v are supported. The results of using any other character, other than an octal digit, following the backslash are unspecified.
In the POSIX locale, this construct represents the range of collating elements between the range endpoints (as long as neither endpoint is an octal sequence of the form \octal), inclusively, as defined by the collation sequence. The characters or collating elements in the range are placed in the array in ascending collation sequence. If the second endpoint precedes the starting endpoint in the collation sequence, it is unspecified whether the range of collating elements is empty, or this construct is treated as invalid. In locales other than the POSIX locale, this construct has unspecified behavior.
If either or both of the range endpoints are octal sequences of the form \octal, represents the range of specific coded binary values between two range endpoints, inclusively.
Represents all characters belonging to the defined character class, as defined by the current setting of the LC_CTYPE locale category. The following character class names are accepted when specified in string1:
alnum blank digit lower punct upper alpha cntrl graph print space xdigit
In addition, character class expressions of the form [:name:] are recognized in those locales where the name keyword has been given a charclass definition in the LC_CTYPE category.
When both the -d and -s options are specified, any of the character class names are accepted in string2. Otherwise, only character class names lower or upper are valid in string2 and then only if the corresponding character class upper and lower, respectively, is specified in the same relative position in string1. Such a specification is interpreted as a request for case conversion. When [:lower:] appears in string1 and [:upper:] appears in string2, the arrays contain the characters from the toupper mapping in the LC_CTYPE category of the current locale. When [:upper:] appears in string1 and [:lower:] appears in string2, the arrays contain the characters from the tolower mapping in the LC_CTYPE category of the current locale. The first character from each mapping pair is in the array for string1 and the second character from each mapping pair is in the array for string2 in the same relative position.
Except for case conversion, the characters specified by a character class expression are placed in the array in an unspecified order.
If the name specified for class does not define a valid character class in the current locale, the behavior is undefined.
Represents all characters or collating elements belonging to the same equivalence class as equiv, as defined by the current setting of the LC_COLLATE locale category. An equivalence class expression is allowed only in string1, or in string2 when it is being used by the combined -d and -s options. The characters belonging to the equivalence class are placed in the array in an unspecified order.
Represents n repeated occurrences of the character x. Because this expression is used to map multiple characters to one, it is only valid when it occurs in string2. If n has a leading 0, it is interpreted as an octal value. Otherwise, it is interpreted as a decimal value.
If n is omitted or is 0, /usr/bin/tr interprets this as huge; /usr/xpg4/bin/tr and /usr/xpg6/bin/tr interprets this as large enough to extend thestring2-based sequence to the length of the string1-based sequence.
See largefile(5) for the description of the behavior of tr when encountering files greater than or equal to 2 Gbyte ( 231 bytes).
Example 1 Creating a list of words
The following example creates a list of all words in file1, one per line in file2, where a word is taken to be a maximal string of letters.
tr -cs "[:alpha:]" "[\n*]" <file1 >file2
Example 2 Translating characters
This example translates all lower-case characters in file1 to upper-case and writes the results to standard output.
tr "[:lower:]" "[:upper:]" <file1
Notice that the caveat expressed in the corresponding example in XPG3 is no longer in effect. This case conversion is now a special case that employs the tolower and toupper classifications, ensuring that proper mapping is accomplished (when the locale is correctly defined).
Example 3 Identifying equivalent characters
This example uses an equivalence class to identify accented variants of the base character e in file1, which are stripped of diacritical marks and written to file2.
tr "[=e=]" e <file1 >file2
See environ(5) for descriptions of the following environment variables that affect the execution of tr: LANG, LC_ALL, LC_COLLATE, LC_CTYPE, LC_MESSAGES, and NLSPATH.
The following exit values are returned:
All input was processed successfully.
An error occurred.
See attributes(5) for descriptions of the following attributes:
|
|
|
ed(1), sed(1), sh(1), tolower(3C), toupper(3C), ascii(5), attributes(5), environ(5), largefile(5), regex(5), standards(5)
Unlike some previous versions, /usr/xpg4/bin/tr correctly processes NUL characters in its input stream. NUL characters can be stripped by using tr -d '\000'.