xref: /freebsd/bin/expr/expr.1 (revision f386f04f11679fd31731bce42208bb4363b79e75)
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31.\" $FreeBSD$
32.\"
33.Dd February 25, 2012
34.Dt EXPR 1
35.Os
36.Sh NAME
37.Nm expr
38.Nd evaluate expression
39.Sh SYNOPSIS
40.Nm
41.Op Fl e
42.Ar expression
43.Sh DESCRIPTION
44The
45.Nm
46utility evaluates
47.Ar expression
48and writes the result on standard output.
49.Pp
50All operators and operands must be passed as separate arguments.
51Several of the operators have special meaning to command interpreters
52and must therefore be quoted appropriately.
53All integer operands are interpreted in base 10 and must consist of only
54an optional leading minus sign followed by one or more digits (unless
55less strict parsing has been enabled for backwards compatibility with
56prior versions of
57.Nm
58in
59.Fx ) .
60.Pp
61Arithmetic operations are performed using signed integer math with a
62range according to the C
63.Vt intmax_t
64data type (the largest signed integral type available).
65All conversions and operations are checked for overflow.
66Overflow results in program termination with an error message on stdout
67and with an error status.
68.Pp
69The
70.Fl e
71option enables backwards compatible behaviour as detailed below.
72.Pp
73Operators are listed below in order of increasing precedence; all
74are left-associative.
75Operators with equal precedence are grouped within symbols
76.Ql {
77and
78.Ql } .
79.Bl -tag -width indent
80.It Ar expr1 Li \&| Ar expr2
81Return the evaluation of
82.Ar expr1
83if it is neither an empty string nor zero;
84otherwise, returns the evaluation of
85.Ar expr2
86if it is not an empty string;
87otherwise, returns zero.
88.It Ar expr1 Li & Ar expr2
89Return the evaluation of
90.Ar expr1
91if neither expression evaluates to an empty string or zero;
92otherwise, returns zero.
93.It Ar expr1 Li "{=, >, >=, <, <=, !=}" Ar expr2
94Return the results of integer comparison if both arguments are integers;
95otherwise, returns the results of string comparison using the locale-specific
96collation sequence.
97The result of each comparison is 1 if the specified relation is true,
98or 0 if the relation is false.
99.It Ar expr1 Li "{+, -}" Ar expr2
100Return the results of addition or subtraction of integer-valued arguments.
101.It Ar expr1 Li "{*, /, %}" Ar expr2
102Return the results of multiplication, integer division, or remainder of integer-valued arguments.
103.It Ar expr1 Li : Ar expr2
104The
105.Dq Li \&:
106operator matches
107.Ar expr1
108against
109.Ar expr2 ,
110which must be a basic regular expression.
111The regular expression is anchored
112to the beginning of the string with an implicit
113.Dq Li ^ .
114.Pp
115If the match succeeds and the pattern contains at least one regular
116expression subexpression
117.Dq Li "\e(...\e)" ,
118the string corresponding to
119.Dq Li \e1
120is returned;
121otherwise the matching operator returns the number of characters matched.
122If the match fails and the pattern contains a regular expression subexpression
123the null string is returned;
124otherwise 0.
125.El
126.Pp
127Parentheses are used for grouping in the usual manner.
128.Pp
129The
130.Nm
131utility makes no lexical distinction between arguments which may be
132operators and arguments which may be operands.
133An operand which is lexically identical to an operator will be considered a
134syntax error.
135See the examples below for a work-around.
136.Pp
137The syntax of the
138.Nm
139command in general is historic and inconvenient.
140New applications are advised to use shell arithmetic rather than
141.Nm .
142.Ss Compatibility with previous implementations
143Unless
144.Fx
1454.x
146compatibility is enabled, this version of
147.Nm
148adheres to the
149.Tn POSIX
150Utility Syntax Guidelines, which require that a leading argument beginning
151with a minus sign be considered an option to the program.
152The standard
153.Fl Fl
154syntax may be used to prevent this interpretation.
155However, many historic implementations of
156.Nm ,
157including the one in previous versions of
158.Fx ,
159will not permit this syntax.
160See the examples below for portable ways to guarantee the correct
161interpretation.
162The
163.Xr check_utility_compat 3
164function (with a
165.Fa utility
166argument of
167.Dq Li expr )
168is used to determine whether backwards compatibility mode should be enabled.
169This feature is intended for use as a transition and debugging aid, when
170.Nm
171is used in complex scripts which cannot easily be recast to avoid the
172non-portable usage.
173Enabling backwards compatibility mode also implicitly enables the
174.Fl e
175option, since this matches the historic behavior of
176.Nm
177in
178.Fx . This option makes number parsing less strict and permits leading
179white space and an optional leading plus sign.
180In addition, empty operands
181have an implied value of zero in numeric context.
182For historical reasons, defining the environment variable
183.Ev EXPR_COMPAT
184also enables backwards compatibility mode.
185.Sh ENVIRONMENT
186.Bl -tag -width ".Ev EXPR_COMPAT"
187.It Ev EXPR_COMPAT
188If set, enables backwards compatibility mode.
189.El
190.Sh EXIT STATUS
191The
192.Nm
193utility exits with one of the following values:
194.Bl -tag -width indent -compact
195.It 0
196the expression is neither an empty string nor 0.
197.It 1
198the expression is an empty string or 0.
199.It 2
200the expression is invalid.
201.El
202.Sh EXAMPLES
203.Bl -bullet
204.It
205The following example (in
206.Xr sh 1
207syntax) adds one to the variable
208.Va a :
209.Dl "a=$(expr $a + 1)"
210.It
211This will fail if the value of
212.Va a
213is a negative number.
214To protect negative values of
215.Va a
216from being interpreted as options to the
217.Nm
218command, one might rearrange the expression:
219.Dl "a=$(expr 1 + $a)"
220.It
221More generally, parenthesize possibly-negative values:
222.Dl "a=$(expr \e( $a \e) + 1)"
223.It
224With shell arithmetic, no escaping is required:
225.Dl "a=$((a + 1))"
226.It
227This example prints the filename portion of a pathname stored
228in variable
229.Va a .
230Since
231.Va a
232might represent the path
233.Pa / ,
234it is necessary to prevent it from being interpreted as the division operator.
235The
236.Li //
237characters resolve this ambiguity.
238.Dl "expr \*q//$a\*q \&: '.*/\e(.*\e)'"
239.It
240With modern
241.Xr sh 1
242syntax,
243.Dl "\*q${a##*/}\*q"
244expands to the same value.
245.El
246.Pp
247The following examples output the number of characters in variable
248.Va a .
249Again, if
250.Va a
251might begin with a hyphen, it is necessary to prevent it from being
252interpreted as an option to
253.Nm ,
254and
255.Va a
256might be interpreted as an operator.
257.Bl -bullet
258.It
259To deal with all of this, a complicated command
260is required:
261.Dl "expr \e( \*qX$a\*q \&: \*q.*\*q \e) - 1"
262.It
263With modern
264.Xr sh 1
265syntax, this can be done much more easily:
266.Dl "${#a}"
267expands to the required number.
268.El
269.Sh SEE ALSO
270.Xr sh 1 ,
271.Xr test 1 ,
272.Xr check_utility_compat 3
273.Sh STANDARDS
274The
275.Nm
276utility conforms to
277.St -p1003.1-2008 ,
278provided that backwards compatibility mode is not enabled.
279.Pp
280Backwards compatibility mode performs less strict checks of numeric arguments:
281.Bl -bullet
282.It
283An empty operand string is interpreted as 0.
284.El
285.Bl -bullet
286.It
287Leading white space and/or a plus sign before an otherwise valid positive
288numeric operand are allowed and will be ignored.
289.El
290.Pp
291The extended arithmetic range and overflow checks do not conflict with
292POSIX's requirement that arithmetic be done using signed longs, since
293they only make a difference to the result in cases where using signed
294longs would give undefined behavior.
295.Pp
296According to the
297.Tn POSIX
298standard, the use of string arguments
299.Va length ,
300.Va substr ,
301.Va index ,
302or
303.Va match
304produces undefined results.
305In this version of
306.Nm ,
307these arguments are treated just as their respective string values.
308.Pp
309The
310.Fl e
311flag is an extension.
312