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1 | =head1 NAME |
2 | |
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3 | perlfaq5 - Files and Formats ($Revision: 1.9 $, $Date: 2002/02/11 19:30:21 $) |
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4 | |
5 | =head1 DESCRIPTION |
6 | |
7 | This section deals with I/O and the "f" issues: filehandles, flushing, |
8 | formats, and footers. |
9 | |
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10 | =head2 How do I flush/unbuffer an output filehandle? Why must I do this? |
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11 | |
12 | The C standard I/O library (stdio) normally buffers characters sent to |
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13 | devices. This is done for efficiency reasons so that there isn't a |
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14 | system call for each byte. Any time you use print() or write() in |
15 | Perl, you go though this buffering. syswrite() circumvents stdio and |
16 | buffering. |
17 | |
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18 | In most stdio implementations, the type of output buffering and the size of |
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19 | the buffer varies according to the type of device. Disk files are block |
20 | buffered, often with a buffer size of more than 2k. Pipes and sockets |
21 | are often buffered with a buffer size between 1/2 and 2k. Serial devices |
22 | (e.g. modems, terminals) are normally line-buffered, and stdio sends |
23 | the entire line when it gets the newline. |
24 | |
25 | Perl does not support truly unbuffered output (except insofar as you can |
26 | C<syswrite(OUT, $char, 1)>). What it does instead support is "command |
27 | buffering", in which a physical write is performed after every output |
28 | command. This isn't as hard on your system as unbuffering, but does |
29 | get the output where you want it when you want it. |
30 | |
31 | If you expect characters to get to your device when you print them there, |
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32 | you'll want to autoflush its handle. |
33 | Use select() and the C<$|> variable to control autoflushing |
34 | (see L<perlvar/$|> and L<perlfunc/select>): |
35 | |
36 | $old_fh = select(OUTPUT_HANDLE); |
37 | $| = 1; |
38 | select($old_fh); |
39 | |
40 | Or using the traditional idiom: |
41 | |
42 | select((select(OUTPUT_HANDLE), $| = 1)[0]); |
43 | |
44 | Or if don't mind slowly loading several thousand lines of module code |
45 | just because you're afraid of the C<$|> variable: |
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46 | |
47 | use FileHandle; |
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48 | open(DEV, "+</dev/tty"); # ceci n'est pas une pipe |
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49 | DEV->autoflush(1); |
50 | |
51 | or the newer IO::* modules: |
52 | |
53 | use IO::Handle; |
54 | open(DEV, ">/dev/printer"); # but is this? |
55 | DEV->autoflush(1); |
56 | |
57 | or even this: |
58 | |
59 | use IO::Socket; # this one is kinda a pipe? |
60 | $sock = IO::Socket::INET->new(PeerAddr => 'www.perl.com', |
61 | PeerPort => 'http(80)', |
62 | Proto => 'tcp'); |
63 | die "$!" unless $sock; |
64 | |
65 | $sock->autoflush(); |
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66 | print $sock "GET / HTTP/1.0" . "\015\012" x 2; |
67 | $document = join('', <$sock>); |
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68 | print "DOC IS: $document\n"; |
69 | |
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70 | Note the bizarrely hard coded carriage return and newline in their octal |
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71 | equivalents. This is the ONLY way (currently) to assure a proper flush |
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72 | on all platforms, including Macintosh. That's the way things work in |
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73 | network programming: you really should specify the exact bit pattern |
74 | on the network line terminator. In practice, C<"\n\n"> often works, |
75 | but this is not portable. |
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76 | |
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77 | See L<perlfaq9> for other examples of fetching URLs over the web. |
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78 | |
79 | =head2 How do I change one line in a file/delete a line in a file/insert a line in the middle of a file/append to the beginning of a file? |
80 | |
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81 | Use the Tie::File module, which is included in the standard |
82 | distribution since Perl 5.8.0. |
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83 | |
84 | =head2 How do I count the number of lines in a file? |
85 | |
86 | One fairly efficient way is to count newlines in the file. The |
87 | following program uses a feature of tr///, as documented in L<perlop>. |
88 | If your text file doesn't end with a newline, then it's not really a |
89 | proper text file, so this may report one fewer line than you expect. |
90 | |
91 | $lines = 0; |
92 | open(FILE, $filename) or die "Can't open `$filename': $!"; |
93 | while (sysread FILE, $buffer, 4096) { |
94 | $lines += ($buffer =~ tr/\n//); |
95 | } |
96 | close FILE; |
97 | |
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98 | This assumes no funny games with newline translations. |
99 | |
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100 | =head2 How do I make a temporary file name? |
101 | |
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102 | Use the File::Temp module, see L<File::Temp> for more information. |
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103 | |
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104 | use File::Temp qw/ tempfile tempdir /; |
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105 | |
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106 | $dir = tempdir( CLEANUP => 1 ); |
107 | ($fh, $filename) = tempfile( DIR => $dir ); |
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108 | |
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109 | # or if you don't need to know the filename |
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110 | |
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111 | $fh = tempfile( DIR => $dir ); |
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112 | |
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113 | The File::Temp has been a standard module since Perl 5.6.1. If you |
114 | don't have a modern enough Perl installed, use the C<new_tmpfile> |
115 | class method from the IO::File module to get a filehandle opened for |
116 | reading and writing. Use it if you don't need to know the file's name: |
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117 | |
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118 | use IO::File; |
119 | $fh = IO::File->new_tmpfile() |
120 | or die "Unable to make new temporary file: $!"; |
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121 | |
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122 | If you're committed to creating a temporary file by hand, use the |
123 | process ID and/or the current time-value. If you need to have many |
124 | temporary files in one process, use a counter: |
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125 | |
126 | BEGIN { |
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127 | use Fcntl; |
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128 | my $temp_dir = -d '/tmp' ? '/tmp' : $ENV{TMPDIR} || $ENV{TEMP}; |
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129 | my $base_name = sprintf("%s/%d-%d-0000", $temp_dir, $$, time()); |
130 | sub temp_file { |
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131 | local *FH; |
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132 | my $count = 0; |
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133 | until (defined(fileno(FH)) || $count++ > 100) { |
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134 | $base_name =~ s/-(\d+)$/"-" . (1 + $1)/e; |
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135 | sysopen(FH, $base_name, O_WRONLY|O_EXCL|O_CREAT); |
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136 | } |
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137 | if (defined(fileno(FH)) |
138 | return (*FH, $base_name); |
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139 | } else { |
140 | return (); |
141 | } |
142 | } |
143 | } |
144 | |
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145 | =head2 How can I manipulate fixed-record-length files? |
146 | |
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147 | The most efficient way is using pack() and unpack(). This is faster than |
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148 | using substr() when taking many, many strings. It is slower for just a few. |
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149 | |
150 | Here is a sample chunk of code to break up and put back together again |
151 | some fixed-format input lines, in this case from the output of a normal, |
152 | Berkeley-style ps: |
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153 | |
154 | # sample input line: |
155 | # 15158 p5 T 0:00 perl /home/tchrist/scripts/now-what |
156 | $PS_T = 'A6 A4 A7 A5 A*'; |
157 | open(PS, "ps|"); |
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158 | print scalar <PS>; |
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159 | while (<PS>) { |
160 | ($pid, $tt, $stat, $time, $command) = unpack($PS_T, $_); |
161 | for $var (qw!pid tt stat time command!) { |
162 | print "$var: <$$var>\n"; |
163 | } |
164 | print 'line=', pack($PS_T, $pid, $tt, $stat, $time, $command), |
165 | "\n"; |
166 | } |
167 | |
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168 | We've used C<$$var> in a way that forbidden by C<use strict 'refs'>. |
169 | That is, we've promoted a string to a scalar variable reference using |
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170 | symbolic references. This is okay in small programs, but doesn't scale |
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171 | well. It also only works on global variables, not lexicals. |
172 | |
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173 | =head2 How can I make a filehandle local to a subroutine? How do I pass filehandles between subroutines? How do I make an array of filehandles? |
174 | |
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175 | The fastest, simplest, and most direct way is to localize the typeglob |
176 | of the filehandle in question: |
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177 | |
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178 | local *TmpHandle; |
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179 | |
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180 | Typeglobs are fast (especially compared with the alternatives) and |
181 | reasonably easy to use, but they also have one subtle drawback. If you |
182 | had, for example, a function named TmpHandle(), or a variable named |
183 | %TmpHandle, you just hid it from yourself. |
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184 | |
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185 | sub findme { |
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186 | local *HostFile; |
187 | open(HostFile, "</etc/hosts") or die "no /etc/hosts: $!"; |
188 | local $_; # <- VERY IMPORTANT |
189 | while (<HostFile>) { |
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190 | print if /\b127\.(0\.0\.)?1\b/; |
191 | } |
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192 | # *HostFile automatically closes/disappears here |
193 | } |
194 | |
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195 | Here's how to use typeglobs in a loop to open and store a bunch of |
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196 | filehandles. We'll use as values of the hash an ordered |
197 | pair to make it easy to sort the hash in insertion order. |
198 | |
199 | @names = qw(motd termcap passwd hosts); |
200 | my $i = 0; |
201 | foreach $filename (@names) { |
202 | local *FH; |
203 | open(FH, "/etc/$filename") || die "$filename: $!"; |
204 | $file{$filename} = [ $i++, *FH ]; |
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205 | } |
206 | |
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207 | # Using the filehandles in the array |
208 | foreach $name (sort { $file{$a}[0] <=> $file{$b}[0] } keys %file) { |
209 | my $fh = $file{$name}[1]; |
210 | my $line = <$fh>; |
211 | print "$name $. $line"; |
212 | } |
213 | |
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214 | For passing filehandles to functions, the easiest way is to |
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215 | preface them with a star, as in func(*STDIN). |
216 | See L<perlfaq7/"Passing Filehandles"> for details. |
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217 | |
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218 | If you want to create many anonymous handles, you should check out the |
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219 | Symbol, FileHandle, or IO::Handle (etc.) modules. Here's the equivalent |
220 | code with Symbol::gensym, which is reasonably light-weight: |
221 | |
222 | foreach $filename (@names) { |
223 | use Symbol; |
224 | my $fh = gensym(); |
225 | open($fh, "/etc/$filename") || die "open /etc/$filename: $!"; |
226 | $file{$filename} = [ $i++, $fh ]; |
227 | } |
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228 | |
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229 | Here's using the semi-object-oriented FileHandle module, which certainly |
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230 | isn't light-weight: |
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231 | |
232 | use FileHandle; |
233 | |
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234 | foreach $filename (@names) { |
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235 | my $fh = FileHandle->new("/etc/$filename") or die "$filename: $!"; |
236 | $file{$filename} = [ $i++, $fh ]; |
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237 | } |
238 | |
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239 | Please understand that whether the filehandle happens to be a (probably |
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240 | localized) typeglob or an anonymous handle from one of the modules |
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241 | in no way affects the bizarre rules for managing indirect handles. |
242 | See the next question. |
243 | |
244 | =head2 How can I use a filehandle indirectly? |
245 | |
246 | An indirect filehandle is using something other than a symbol |
247 | in a place that a filehandle is expected. Here are ways |
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248 | to get indirect filehandles: |
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249 | |
250 | $fh = SOME_FH; # bareword is strict-subs hostile |
251 | $fh = "SOME_FH"; # strict-refs hostile; same package only |
252 | $fh = *SOME_FH; # typeglob |
253 | $fh = \*SOME_FH; # ref to typeglob (bless-able) |
254 | $fh = *SOME_FH{IO}; # blessed IO::Handle from *SOME_FH typeglob |
255 | |
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256 | Or, you can use the C<new> method from the FileHandle or IO modules to |
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257 | create an anonymous filehandle, store that in a scalar variable, |
258 | and use it as though it were a normal filehandle. |
259 | |
260 | use FileHandle; |
261 | $fh = FileHandle->new(); |
262 | |
263 | use IO::Handle; # 5.004 or higher |
264 | $fh = IO::Handle->new(); |
265 | |
266 | Then use any of those as you would a normal filehandle. Anywhere that |
267 | Perl is expecting a filehandle, an indirect filehandle may be used |
268 | instead. An indirect filehandle is just a scalar variable that contains |
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269 | a filehandle. Functions like C<print>, C<open>, C<seek>, or |
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270 | the C<< <FH> >> diamond operator will accept either a read filehandle |
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271 | or a scalar variable containing one: |
272 | |
273 | ($ifh, $ofh, $efh) = (*STDIN, *STDOUT, *STDERR); |
274 | print $ofh "Type it: "; |
275 | $got = <$ifh> |
276 | print $efh "What was that: $got"; |
277 | |
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278 | If you're passing a filehandle to a function, you can write |
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279 | the function in two ways: |
280 | |
281 | sub accept_fh { |
282 | my $fh = shift; |
283 | print $fh "Sending to indirect filehandle\n"; |
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284 | } |
285 | |
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286 | Or it can localize a typeglob and use the filehandle directly: |
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287 | |
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288 | sub accept_fh { |
289 | local *FH = shift; |
290 | print FH "Sending to localized filehandle\n"; |
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291 | } |
292 | |
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293 | Both styles work with either objects or typeglobs of real filehandles. |
294 | (They might also work with strings under some circumstances, but this |
295 | is risky.) |
296 | |
297 | accept_fh(*STDOUT); |
298 | accept_fh($handle); |
299 | |
300 | In the examples above, we assigned the filehandle to a scalar variable |
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301 | before using it. That is because only simple scalar variables, not |
302 | expressions or subscripts of hashes or arrays, can be used with |
303 | built-ins like C<print>, C<printf>, or the diamond operator. Using |
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304 | something other than a simple scalar variable as a filehandle is |
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305 | illegal and won't even compile: |
306 | |
307 | @fd = (*STDIN, *STDOUT, *STDERR); |
308 | print $fd[1] "Type it: "; # WRONG |
309 | $got = <$fd[0]> # WRONG |
310 | print $fd[2] "What was that: $got"; # WRONG |
311 | |
312 | With C<print> and C<printf>, you get around this by using a block and |
313 | an expression where you would place the filehandle: |
314 | |
315 | print { $fd[1] } "funny stuff\n"; |
316 | printf { $fd[1] } "Pity the poor %x.\n", 3_735_928_559; |
317 | # Pity the poor deadbeef. |
318 | |
319 | That block is a proper block like any other, so you can put more |
320 | complicated code there. This sends the message out to one of two places: |
321 | |
322 | $ok = -x "/bin/cat"; |
323 | print { $ok ? $fd[1] : $fd[2] } "cat stat $ok\n"; |
324 | print { $fd[ 1+ ($ok || 0) ] } "cat stat $ok\n"; |
325 | |
326 | This approach of treating C<print> and C<printf> like object methods |
327 | calls doesn't work for the diamond operator. That's because it's a |
328 | real operator, not just a function with a comma-less argument. Assuming |
329 | you've been storing typeglobs in your structure as we did above, you |
330 | can use the built-in function named C<readline> to reads a record just |
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331 | as C<< <> >> does. Given the initialization shown above for @fd, this |
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332 | would work, but only because readline() require a typeglob. It doesn't |
333 | work with objects or strings, which might be a bug we haven't fixed yet. |
334 | |
335 | $got = readline($fd[0]); |
336 | |
337 | Let it be noted that the flakiness of indirect filehandles is not |
338 | related to whether they're strings, typeglobs, objects, or anything else. |
339 | It's the syntax of the fundamental operators. Playing the object |
340 | game doesn't help you at all here. |
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341 | |
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342 | =head2 How can I set up a footer format to be used with write()? |
343 | |
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344 | There's no builtin way to do this, but L<perlform> has a couple of |
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345 | techniques to make it possible for the intrepid hacker. |
346 | |
347 | =head2 How can I write() into a string? |
348 | |
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349 | See L<perlform/"Accessing Formatting Internals"> for an swrite() function. |
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350 | |
351 | =head2 How can I output my numbers with commas added? |
352 | |
353 | This one will do it for you: |
354 | |
355 | sub commify { |
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356 | my $number = shift; |
357 | 1 while ($number =~ s/^([-+]?\d+)(\d{3})/$1,$2/); |
358 | return $number; |
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359 | } |
360 | |
361 | $n = 23659019423.2331; |
362 | print "GOT: ", commify($n), "\n"; |
363 | |
364 | GOT: 23,659,019,423.2331 |
365 | |
366 | You can't just: |
367 | |
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368 | s/^([-+]?\d+)(\d{3})/$1,$2/g; |
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369 | |
370 | because you have to put the comma in and then recalculate your |
371 | position. |
372 | |
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373 | Alternatively, this code commifies all numbers in a line regardless of |
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374 | whether they have decimal portions, are preceded by + or -, or |
375 | whatever: |
376 | |
377 | # from Andrew Johnson <ajohnson@gpu.srv.ualberta.ca> |
378 | sub commify { |
379 | my $input = shift; |
380 | $input = reverse $input; |
381 | $input =~ s<(\d\d\d)(?=\d)(?!\d*\.)><$1,>g; |
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382 | return scalar reverse $input; |
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383 | } |
384 | |
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385 | =head2 How can I translate tildes (~) in a filename? |
386 | |
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387 | Use the <> (glob()) operator, documented in L<perlfunc>. Older |
388 | versions of Perl require that you have a shell installed that groks |
389 | tildes. Recent perl versions have this feature built in. The |
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390 | File::KGlob module (available from CPAN) gives more portable glob |
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391 | functionality. |
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392 | |
393 | Within Perl, you may use this directly: |
394 | |
395 | $filename =~ s{ |
396 | ^ ~ # find a leading tilde |
397 | ( # save this in $1 |
398 | [^/] # a non-slash character |
399 | * # repeated 0 or more times (0 means me) |
400 | ) |
401 | }{ |
402 | $1 |
403 | ? (getpwnam($1))[7] |
404 | : ( $ENV{HOME} || $ENV{LOGDIR} ) |
405 | }ex; |
406 | |
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407 | =head2 How come when I open a file read-write it wipes it out? |
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408 | |
409 | Because you're using something like this, which truncates the file and |
410 | I<then> gives you read-write access: |
411 | |
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412 | open(FH, "+> /path/name"); # WRONG (almost always) |
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413 | |
414 | Whoops. You should instead use this, which will fail if the file |
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415 | doesn't exist. |
416 | |
417 | open(FH, "+< /path/name"); # open for update |
418 | |
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419 | Using ">" always clobbers or creates. Using "<" never does |
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420 | either. The "+" doesn't change this. |
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421 | |
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422 | Here are examples of many kinds of file opens. Those using sysopen() |
423 | all assume |
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424 | |
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425 | use Fcntl; |
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426 | |
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427 | To open file for reading: |
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428 | |
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429 | open(FH, "< $path") || die $!; |
430 | sysopen(FH, $path, O_RDONLY) || die $!; |
431 | |
432 | To open file for writing, create new file if needed or else truncate old file: |
433 | |
434 | open(FH, "> $path") || die $!; |
435 | sysopen(FH, $path, O_WRONLY|O_TRUNC|O_CREAT) || die $!; |
436 | sysopen(FH, $path, O_WRONLY|O_TRUNC|O_CREAT, 0666) || die $!; |
437 | |
438 | To open file for writing, create new file, file must not exist: |
439 | |
440 | sysopen(FH, $path, O_WRONLY|O_EXCL|O_CREAT) || die $!; |
441 | sysopen(FH, $path, O_WRONLY|O_EXCL|O_CREAT, 0666) || die $!; |
442 | |
443 | To open file for appending, create if necessary: |
444 | |
445 | open(FH, ">> $path") || die $!; |
446 | sysopen(FH, $path, O_WRONLY|O_APPEND|O_CREAT) || die $!; |
447 | sysopen(FH, $path, O_WRONLY|O_APPEND|O_CREAT, 0666) || die $!; |
448 | |
449 | To open file for appending, file must exist: |
450 | |
451 | sysopen(FH, $path, O_WRONLY|O_APPEND) || die $!; |
452 | |
453 | To open file for update, file must exist: |
454 | |
455 | open(FH, "+< $path") || die $!; |
456 | sysopen(FH, $path, O_RDWR) || die $!; |
457 | |
458 | To open file for update, create file if necessary: |
459 | |
460 | sysopen(FH, $path, O_RDWR|O_CREAT) || die $!; |
461 | sysopen(FH, $path, O_RDWR|O_CREAT, 0666) || die $!; |
462 | |
463 | To open file for update, file must not exist: |
464 | |
465 | sysopen(FH, $path, O_RDWR|O_EXCL|O_CREAT) || die $!; |
466 | sysopen(FH, $path, O_RDWR|O_EXCL|O_CREAT, 0666) || die $!; |
467 | |
468 | To open a file without blocking, creating if necessary: |
469 | |
470 | sysopen(FH, "/tmp/somefile", O_WRONLY|O_NDELAY|O_CREAT) |
471 | or die "can't open /tmp/somefile: $!": |
472 | |
473 | Be warned that neither creation nor deletion of files is guaranteed to |
474 | be an atomic operation over NFS. That is, two processes might both |
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475 | successfully create or unlink the same file! Therefore O_EXCL |
476 | isn't as exclusive as you might wish. |
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477 | |
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478 | See also the new L<perlopentut> if you have it (new for 5.6). |
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479 | |
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480 | =head2 Why do I sometimes get an "Argument list too long" when I use <*>? |
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481 | |
c47ff5f1 |
482 | The C<< <> >> operator performs a globbing operation (see above). |
3a4b19e4 |
483 | In Perl versions earlier than v5.6.0, the internal glob() operator forks |
484 | csh(1) to do the actual glob expansion, but |
68dc0745 |
485 | csh can't handle more than 127 items and so gives the error message |
486 | C<Argument list too long>. People who installed tcsh as csh won't |
487 | have this problem, but their users may be surprised by it. |
488 | |
3a4b19e4 |
489 | To get around this, either upgrade to Perl v5.6.0 or later, do the glob |
d6260402 |
490 | yourself with readdir() and patterns, or use a module like File::KGlob, |
3a4b19e4 |
491 | one that doesn't use the shell to do globbing. |
68dc0745 |
492 | |
493 | =head2 Is there a leak/bug in glob()? |
494 | |
495 | Due to the current implementation on some operating systems, when you |
496 | use the glob() function or its angle-bracket alias in a scalar |
a6dd486b |
497 | context, you may cause a memory leak and/or unpredictable behavior. It's |
68dc0745 |
498 | best therefore to use glob() only in list context. |
499 | |
c47ff5f1 |
500 | =head2 How can I open a file with a leading ">" or trailing blanks? |
68dc0745 |
501 | |
502 | Normally perl ignores trailing blanks in filenames, and interprets |
503 | certain leading characters (or a trailing "|") to mean something |
a6dd486b |
504 | special. To avoid this, you might want to use a routine like the one below. |
505 | It turns incomplete pathnames into explicit relative ones, and tacks a |
68dc0745 |
506 | trailing null byte on the name to make perl leave it alone: |
507 | |
508 | sub safe_filename { |
509 | local $_ = shift; |
65acb1b1 |
510 | s#^([^./])#./$1#; |
511 | $_ .= "\0"; |
512 | return $_; |
68dc0745 |
513 | } |
514 | |
65acb1b1 |
515 | $badpath = "<<<something really wicked "; |
516 | $fn = safe_filename($badpath"); |
517 | open(FH, "> $fn") or "couldn't open $badpath: $!"; |
518 | |
519 | This assumes that you are using POSIX (portable operating systems |
520 | interface) paths. If you are on a closed, non-portable, proprietary |
521 | system, you may have to adjust the C<"./"> above. |
522 | |
523 | It would be a lot clearer to use sysopen(), though: |
524 | |
525 | use Fcntl; |
526 | $badpath = "<<<something really wicked "; |
a6dd486b |
527 | sysopen (FH, $badpath, O_WRONLY | O_CREAT | O_TRUNC) |
65acb1b1 |
528 | or die "can't open $badpath: $!"; |
68dc0745 |
529 | |
65acb1b1 |
530 | For more information, see also the new L<perlopentut> if you have it |
87275199 |
531 | (new for 5.6). |
68dc0745 |
532 | |
533 | =head2 How can I reliably rename a file? |
534 | |
d2321c93 |
535 | If your operating system supports a proper mv(1) utility or its functional |
d92eb7b0 |
536 | equivalent, this works: |
68dc0745 |
537 | |
538 | rename($old, $new) or system("mv", $old, $new); |
539 | |
d2321c93 |
540 | It may be more portable to use the File::Copy module instead. |
541 | You just copy to the new file to the new name (checking return |
542 | values), then delete the old one. This isn't really the same |
543 | semantically as a rename(), which preserves meta-information like |
68dc0745 |
544 | permissions, timestamps, inode info, etc. |
545 | |
d2321c93 |
546 | Newer versions of File::Copy export a move() function. |
5a964f20 |
547 | |
68dc0745 |
548 | =head2 How can I lock a file? |
549 | |
54310121 |
550 | Perl's builtin flock() function (see L<perlfunc> for details) will call |
68dc0745 |
551 | flock(2) if that exists, fcntl(2) if it doesn't (on perl version 5.004 and |
552 | later), and lockf(3) if neither of the two previous system calls exists. |
553 | On some systems, it may even use a different form of native locking. |
554 | Here are some gotchas with Perl's flock(): |
555 | |
556 | =over 4 |
557 | |
558 | =item 1 |
559 | |
560 | Produces a fatal error if none of the three system calls (or their |
561 | close equivalent) exists. |
562 | |
563 | =item 2 |
564 | |
565 | lockf(3) does not provide shared locking, and requires that the |
566 | filehandle be open for writing (or appending, or read/writing). |
567 | |
568 | =item 3 |
569 | |
d92eb7b0 |
570 | Some versions of flock() can't lock files over a network (e.g. on NFS file |
571 | systems), so you'd need to force the use of fcntl(2) when you build Perl. |
a6dd486b |
572 | But even this is dubious at best. See the flock entry of L<perlfunc> |
d92eb7b0 |
573 | and the F<INSTALL> file in the source distribution for information on |
574 | building Perl to do this. |
575 | |
576 | Two potentially non-obvious but traditional flock semantics are that |
a6dd486b |
577 | it waits indefinitely until the lock is granted, and that its locks are |
d92eb7b0 |
578 | I<merely advisory>. Such discretionary locks are more flexible, but |
579 | offer fewer guarantees. This means that files locked with flock() may |
580 | be modified by programs that do not also use flock(). Cars that stop |
581 | for red lights get on well with each other, but not with cars that don't |
582 | stop for red lights. See the perlport manpage, your port's specific |
583 | documentation, or your system-specific local manpages for details. It's |
584 | best to assume traditional behavior if you're writing portable programs. |
a6dd486b |
585 | (If you're not, you should as always feel perfectly free to write |
d92eb7b0 |
586 | for your own system's idiosyncrasies (sometimes called "features"). |
587 | Slavish adherence to portability concerns shouldn't get in the way of |
588 | your getting your job done.) |
68dc0745 |
589 | |
13a2d996 |
590 | For more information on file locking, see also |
591 | L<perlopentut/"File Locking"> if you have it (new for 5.6). |
65acb1b1 |
592 | |
68dc0745 |
593 | =back |
594 | |
65acb1b1 |
595 | =head2 Why can't I just open(FH, ">file.lock")? |
68dc0745 |
596 | |
597 | A common bit of code B<NOT TO USE> is this: |
598 | |
599 | sleep(3) while -e "file.lock"; # PLEASE DO NOT USE |
600 | open(LCK, "> file.lock"); # THIS BROKEN CODE |
601 | |
602 | This is a classic race condition: you take two steps to do something |
603 | which must be done in one. That's why computer hardware provides an |
604 | atomic test-and-set instruction. In theory, this "ought" to work: |
605 | |
5a964f20 |
606 | sysopen(FH, "file.lock", O_WRONLY|O_EXCL|O_CREAT) |
68dc0745 |
607 | or die "can't open file.lock: $!": |
608 | |
609 | except that lamentably, file creation (and deletion) is not atomic |
610 | over NFS, so this won't work (at least, not every time) over the net. |
65acb1b1 |
611 | Various schemes involving link() have been suggested, but |
46fc3d4c |
612 | these tend to involve busy-wait, which is also subdesirable. |
68dc0745 |
613 | |
fc36a67e |
614 | =head2 I still don't get locking. I just want to increment the number in the file. How can I do this? |
68dc0745 |
615 | |
46fc3d4c |
616 | Didn't anyone ever tell you web-page hit counters were useless? |
5a964f20 |
617 | They don't count number of hits, they're a waste of time, and they serve |
a6dd486b |
618 | only to stroke the writer's vanity. It's better to pick a random number; |
619 | they're more realistic. |
68dc0745 |
620 | |
5a964f20 |
621 | Anyway, this is what you can do if you can't help yourself. |
68dc0745 |
622 | |
e2c57c3e |
623 | use Fcntl qw(:DEFAULT :flock); |
5a964f20 |
624 | sysopen(FH, "numfile", O_RDWR|O_CREAT) or die "can't open numfile: $!"; |
65acb1b1 |
625 | flock(FH, LOCK_EX) or die "can't flock numfile: $!"; |
68dc0745 |
626 | $num = <FH> || 0; |
627 | seek(FH, 0, 0) or die "can't rewind numfile: $!"; |
628 | truncate(FH, 0) or die "can't truncate numfile: $!"; |
629 | (print FH $num+1, "\n") or die "can't write numfile: $!"; |
68dc0745 |
630 | close FH or die "can't close numfile: $!"; |
631 | |
46fc3d4c |
632 | Here's a much better web-page hit counter: |
68dc0745 |
633 | |
634 | $hits = int( (time() - 850_000_000) / rand(1_000) ); |
635 | |
636 | If the count doesn't impress your friends, then the code might. :-) |
637 | |
f52f3be2 |
638 | =head2 All I want to do is append a small amount of text to the end of a file. Do I still have to use locking? |
05caf3a7 |
639 | |
640 | If you are on a system that correctly implements flock() and you use the |
641 | example appending code from "perldoc -f flock" everything will be OK |
642 | even if the OS you are on doesn't implement append mode correctly (if |
643 | such a system exists.) So if you are happy to restrict yourself to OSs |
644 | that implement flock() (and that's not really much of a restriction) |
645 | then that is what you should do. |
646 | |
647 | If you know you are only going to use a system that does correctly |
648 | implement appending (i.e. not Win32) then you can omit the seek() from |
649 | the above code. |
650 | |
651 | If you know you are only writing code to run on an OS and filesystem that |
652 | does implement append mode correctly (a local filesystem on a modern |
653 | Unix for example), and you keep the file in block-buffered mode and you |
654 | write less than one buffer-full of output between each manual flushing |
8305e449 |
655 | of the buffer then each bufferload is almost guaranteed to be written to |
05caf3a7 |
656 | the end of the file in one chunk without getting intermingled with |
657 | anyone else's output. You can also use the syswrite() function which is |
658 | simply a wrapper around your systems write(2) system call. |
659 | |
660 | There is still a small theoretical chance that a signal will interrupt |
661 | the system level write() operation before completion. There is also a |
662 | possibility that some STDIO implementations may call multiple system |
663 | level write()s even if the buffer was empty to start. There may be some |
664 | systems where this probability is reduced to zero. |
665 | |
68dc0745 |
666 | =head2 How do I randomly update a binary file? |
667 | |
668 | If you're just trying to patch a binary, in many cases something as |
669 | simple as this works: |
670 | |
671 | perl -i -pe 's{window manager}{window mangler}g' /usr/bin/emacs |
672 | |
673 | However, if you have fixed sized records, then you might do something more |
674 | like this: |
675 | |
676 | $RECSIZE = 220; # size of record, in bytes |
677 | $recno = 37; # which record to update |
678 | open(FH, "+<somewhere") || die "can't update somewhere: $!"; |
679 | seek(FH, $recno * $RECSIZE, 0); |
680 | read(FH, $record, $RECSIZE) == $RECSIZE || die "can't read record $recno: $!"; |
681 | # munge the record |
65acb1b1 |
682 | seek(FH, -$RECSIZE, 1); |
68dc0745 |
683 | print FH $record; |
684 | close FH; |
685 | |
686 | Locking and error checking are left as an exercise for the reader. |
a6dd486b |
687 | Don't forget them or you'll be quite sorry. |
68dc0745 |
688 | |
68dc0745 |
689 | =head2 How do I get a file's timestamp in perl? |
690 | |
691 | If you want to retrieve the time at which the file was last read, |
46fc3d4c |
692 | written, or had its meta-data (owner, etc) changed, you use the B<-M>, |
8305e449 |
693 | B<-A>, or B<-C> file test operations as documented in L<perlfunc>. These |
68dc0745 |
694 | retrieve the age of the file (measured against the start-time of your |
695 | program) in days as a floating point number. To retrieve the "raw" |
696 | time in seconds since the epoch, you would call the stat function, |
697 | then use localtime(), gmtime(), or POSIX::strftime() to convert this |
698 | into human-readable form. |
699 | |
700 | Here's an example: |
701 | |
702 | $write_secs = (stat($file))[9]; |
c8db1d39 |
703 | printf "file %s updated at %s\n", $file, |
704 | scalar localtime($write_secs); |
68dc0745 |
705 | |
706 | If you prefer something more legible, use the File::stat module |
707 | (part of the standard distribution in version 5.004 and later): |
708 | |
65acb1b1 |
709 | # error checking left as an exercise for reader. |
68dc0745 |
710 | use File::stat; |
711 | use Time::localtime; |
712 | $date_string = ctime(stat($file)->mtime); |
713 | print "file $file updated at $date_string\n"; |
714 | |
65acb1b1 |
715 | The POSIX::strftime() approach has the benefit of being, |
716 | in theory, independent of the current locale. See L<perllocale> |
717 | for details. |
68dc0745 |
718 | |
719 | =head2 How do I set a file's timestamp in perl? |
720 | |
721 | You use the utime() function documented in L<perlfunc/utime>. |
722 | By way of example, here's a little program that copies the |
723 | read and write times from its first argument to all the rest |
724 | of them. |
725 | |
726 | if (@ARGV < 2) { |
727 | die "usage: cptimes timestamp_file other_files ...\n"; |
728 | } |
729 | $timestamp = shift; |
730 | ($atime, $mtime) = (stat($timestamp))[8,9]; |
731 | utime $atime, $mtime, @ARGV; |
732 | |
65acb1b1 |
733 | Error checking is, as usual, left as an exercise for the reader. |
68dc0745 |
734 | |
735 | Note that utime() currently doesn't work correctly with Win95/NT |
736 | ports. A bug has been reported. Check it carefully before using |
a6dd486b |
737 | utime() on those platforms. |
68dc0745 |
738 | |
739 | =head2 How do I print to more than one file at once? |
740 | |
741 | If you only have to do this once, you can do this: |
742 | |
743 | for $fh (FH1, FH2, FH3) { print $fh "whatever\n" } |
744 | |
745 | To connect up to one filehandle to several output filehandles, it's |
746 | easiest to use the tee(1) program if you have it, and let it take care |
747 | of the multiplexing: |
748 | |
749 | open (FH, "| tee file1 file2 file3"); |
750 | |
5a964f20 |
751 | Or even: |
752 | |
753 | # make STDOUT go to three files, plus original STDOUT |
754 | open (STDOUT, "| tee file1 file2 file3") or die "Teeing off: $!\n"; |
755 | print "whatever\n" or die "Writing: $!\n"; |
756 | close(STDOUT) or die "Closing: $!\n"; |
68dc0745 |
757 | |
5a964f20 |
758 | Otherwise you'll have to write your own multiplexing print |
a6dd486b |
759 | function--or your own tee program--or use Tom Christiansen's, |
a93751fa |
760 | at http://www.cpan.org/authors/id/TOMC/scripts/tct.gz , which is |
5a964f20 |
761 | written in Perl and offers much greater functionality |
762 | than the stock version. |
68dc0745 |
763 | |
d92eb7b0 |
764 | =head2 How can I read in an entire file all at once? |
765 | |
766 | The customary Perl approach for processing all the lines in a file is to |
767 | do so one line at a time: |
768 | |
769 | open (INPUT, $file) || die "can't open $file: $!"; |
770 | while (<INPUT>) { |
771 | chomp; |
772 | # do something with $_ |
773 | } |
774 | close(INPUT) || die "can't close $file: $!"; |
775 | |
776 | This is tremendously more efficient than reading the entire file into |
777 | memory as an array of lines and then processing it one element at a time, |
a6dd486b |
778 | which is often--if not almost always--the wrong approach. Whenever |
d92eb7b0 |
779 | you see someone do this: |
780 | |
781 | @lines = <INPUT>; |
782 | |
a6dd486b |
783 | you should think long and hard about why you need everything loaded |
d92eb7b0 |
784 | at once. It's just not a scalable solution. You might also find it |
106325ad |
785 | more fun to use the standard DB_File module's $DB_RECNO bindings, |
d92eb7b0 |
786 | which allow you to tie an array to a file so that accessing an element |
787 | the array actually accesses the corresponding line in the file. |
788 | |
789 | On very rare occasion, you may have an algorithm that demands that |
790 | the entire file be in memory at once as one scalar. The simplest solution |
a6dd486b |
791 | to that is |
d92eb7b0 |
792 | |
793 | $var = `cat $file`; |
794 | |
795 | Being in scalar context, you get the whole thing. In list context, |
796 | you'd get a list of all the lines: |
797 | |
798 | @lines = `cat $file`; |
799 | |
87275199 |
800 | This tiny but expedient solution is neat, clean, and portable to |
801 | all systems on which decent tools have been installed. For those |
802 | who prefer not to use the toolbox, you can of course read the file |
803 | manually, although this makes for more complicated code. |
d92eb7b0 |
804 | |
805 | { |
806 | local(*INPUT, $/); |
807 | open (INPUT, $file) || die "can't open $file: $!"; |
808 | $var = <INPUT>; |
809 | } |
810 | |
811 | That temporarily undefs your record separator, and will automatically |
812 | close the file at block exit. If the file is already open, just use this: |
813 | |
814 | $var = do { local $/; <INPUT> }; |
815 | |
68dc0745 |
816 | =head2 How can I read in a file by paragraphs? |
817 | |
65acb1b1 |
818 | Use the C<$/> variable (see L<perlvar> for details). You can either |
68dc0745 |
819 | set it to C<""> to eliminate empty paragraphs (C<"abc\n\n\n\ndef">, |
820 | for instance, gets treated as two paragraphs and not three), or |
821 | C<"\n\n"> to accept empty paragraphs. |
822 | |
d05ac700 |
823 | Note that a blank line must have no blanks in it. Thus |
c4db748a |
824 | S<C<"fred\n \nstuff\n\n">> is one paragraph, but C<"fred\n\nstuff\n\n"> is two. |
65acb1b1 |
825 | |
68dc0745 |
826 | =head2 How can I read a single character from a file? From the keyboard? |
827 | |
828 | You can use the builtin C<getc()> function for most filehandles, but |
829 | it won't (easily) work on a terminal device. For STDIN, either use |
a6dd486b |
830 | the Term::ReadKey module from CPAN or use the sample code in |
68dc0745 |
831 | L<perlfunc/getc>. |
832 | |
65acb1b1 |
833 | If your system supports the portable operating system programming |
834 | interface (POSIX), you can use the following code, which you'll note |
835 | turns off echo processing as well. |
68dc0745 |
836 | |
837 | #!/usr/bin/perl -w |
838 | use strict; |
839 | $| = 1; |
840 | for (1..4) { |
841 | my $got; |
842 | print "gimme: "; |
843 | $got = getone(); |
844 | print "--> $got\n"; |
845 | } |
846 | exit; |
847 | |
848 | BEGIN { |
849 | use POSIX qw(:termios_h); |
850 | |
851 | my ($term, $oterm, $echo, $noecho, $fd_stdin); |
852 | |
853 | $fd_stdin = fileno(STDIN); |
854 | |
855 | $term = POSIX::Termios->new(); |
856 | $term->getattr($fd_stdin); |
857 | $oterm = $term->getlflag(); |
858 | |
859 | $echo = ECHO | ECHOK | ICANON; |
860 | $noecho = $oterm & ~$echo; |
861 | |
862 | sub cbreak { |
863 | $term->setlflag($noecho); |
864 | $term->setcc(VTIME, 1); |
865 | $term->setattr($fd_stdin, TCSANOW); |
866 | } |
867 | |
868 | sub cooked { |
869 | $term->setlflag($oterm); |
870 | $term->setcc(VTIME, 0); |
871 | $term->setattr($fd_stdin, TCSANOW); |
872 | } |
873 | |
874 | sub getone { |
875 | my $key = ''; |
876 | cbreak(); |
877 | sysread(STDIN, $key, 1); |
878 | cooked(); |
879 | return $key; |
880 | } |
881 | |
882 | } |
883 | |
884 | END { cooked() } |
885 | |
a6dd486b |
886 | The Term::ReadKey module from CPAN may be easier to use. Recent versions |
65acb1b1 |
887 | include also support for non-portable systems as well. |
68dc0745 |
888 | |
889 | use Term::ReadKey; |
890 | open(TTY, "</dev/tty"); |
891 | print "Gimme a char: "; |
892 | ReadMode "raw"; |
893 | $key = ReadKey 0, *TTY; |
894 | ReadMode "normal"; |
895 | printf "\nYou said %s, char number %03d\n", |
896 | $key, ord $key; |
897 | |
65acb1b1 |
898 | =head2 How can I tell whether there's a character waiting on a filehandle? |
68dc0745 |
899 | |
5a964f20 |
900 | The very first thing you should do is look into getting the Term::ReadKey |
65acb1b1 |
901 | extension from CPAN. As we mentioned earlier, it now even has limited |
902 | support for non-portable (read: not open systems, closed, proprietary, |
903 | not POSIX, not Unix, etc) systems. |
5a964f20 |
904 | |
905 | You should also check out the Frequently Asked Questions list in |
68dc0745 |
906 | comp.unix.* for things like this: the answer is essentially the same. |
907 | It's very system dependent. Here's one solution that works on BSD |
908 | systems: |
909 | |
910 | sub key_ready { |
911 | my($rin, $nfd); |
912 | vec($rin, fileno(STDIN), 1) = 1; |
913 | return $nfd = select($rin,undef,undef,0); |
914 | } |
915 | |
65acb1b1 |
916 | If you want to find out how many characters are waiting, there's |
917 | also the FIONREAD ioctl call to be looked at. The I<h2ph> tool that |
918 | comes with Perl tries to convert C include files to Perl code, which |
919 | can be C<require>d. FIONREAD ends up defined as a function in the |
920 | I<sys/ioctl.ph> file: |
68dc0745 |
921 | |
5a964f20 |
922 | require 'sys/ioctl.ph'; |
68dc0745 |
923 | |
5a964f20 |
924 | $size = pack("L", 0); |
925 | ioctl(FH, FIONREAD(), $size) or die "Couldn't call ioctl: $!\n"; |
926 | $size = unpack("L", $size); |
68dc0745 |
927 | |
5a964f20 |
928 | If I<h2ph> wasn't installed or doesn't work for you, you can |
929 | I<grep> the include files by hand: |
68dc0745 |
930 | |
5a964f20 |
931 | % grep FIONREAD /usr/include/*/* |
932 | /usr/include/asm/ioctls.h:#define FIONREAD 0x541B |
68dc0745 |
933 | |
5a964f20 |
934 | Or write a small C program using the editor of champions: |
68dc0745 |
935 | |
5a964f20 |
936 | % cat > fionread.c |
937 | #include <sys/ioctl.h> |
938 | main() { |
939 | printf("%#08x\n", FIONREAD); |
940 | } |
941 | ^D |
65acb1b1 |
942 | % cc -o fionread fionread.c |
5a964f20 |
943 | % ./fionread |
944 | 0x4004667f |
945 | |
8305e449 |
946 | And then hard code it, leaving porting as an exercise to your successor. |
5a964f20 |
947 | |
948 | $FIONREAD = 0x4004667f; # XXX: opsys dependent |
949 | |
950 | $size = pack("L", 0); |
951 | ioctl(FH, $FIONREAD, $size) or die "Couldn't call ioctl: $!\n"; |
952 | $size = unpack("L", $size); |
953 | |
a6dd486b |
954 | FIONREAD requires a filehandle connected to a stream, meaning that sockets, |
5a964f20 |
955 | pipes, and tty devices work, but I<not> files. |
68dc0745 |
956 | |
957 | =head2 How do I do a C<tail -f> in perl? |
958 | |
959 | First try |
960 | |
961 | seek(GWFILE, 0, 1); |
962 | |
963 | The statement C<seek(GWFILE, 0, 1)> doesn't change the current position, |
964 | but it does clear the end-of-file condition on the handle, so that the |
965 | next <GWFILE> makes Perl try again to read something. |
966 | |
967 | If that doesn't work (it relies on features of your stdio implementation), |
968 | then you need something more like this: |
969 | |
970 | for (;;) { |
971 | for ($curpos = tell(GWFILE); <GWFILE>; $curpos = tell(GWFILE)) { |
972 | # search for some stuff and put it into files |
973 | } |
974 | # sleep for a while |
975 | seek(GWFILE, $curpos, 0); # seek to where we had been |
976 | } |
977 | |
978 | If this still doesn't work, look into the POSIX module. POSIX defines |
979 | the clearerr() method, which can remove the end of file condition on a |
980 | filehandle. The method: read until end of file, clearerr(), read some |
981 | more. Lather, rinse, repeat. |
982 | |
65acb1b1 |
983 | There's also a File::Tail module from CPAN. |
984 | |
68dc0745 |
985 | =head2 How do I dup() a filehandle in Perl? |
986 | |
987 | If you check L<perlfunc/open>, you'll see that several of the ways |
988 | to call open() should do the trick. For example: |
989 | |
990 | open(LOG, ">>/tmp/logfile"); |
991 | open(STDERR, ">&LOG"); |
992 | |
993 | Or even with a literal numeric descriptor: |
994 | |
995 | $fd = $ENV{MHCONTEXTFD}; |
996 | open(MHCONTEXT, "<&=$fd"); # like fdopen(3S) |
997 | |
c47ff5f1 |
998 | Note that "<&STDIN" makes a copy, but "<&=STDIN" make |
5a964f20 |
999 | an alias. That means if you close an aliased handle, all |
1000 | aliases become inaccessible. This is not true with |
1001 | a copied one. |
1002 | |
1003 | Error checking, as always, has been left as an exercise for the reader. |
68dc0745 |
1004 | |
1005 | =head2 How do I close a file descriptor by number? |
1006 | |
1007 | This should rarely be necessary, as the Perl close() function is to be |
1008 | used for things that Perl opened itself, even if it was a dup of a |
a6dd486b |
1009 | numeric descriptor as with MHCONTEXT above. But if you really have |
68dc0745 |
1010 | to, you may be able to do this: |
1011 | |
1012 | require 'sys/syscall.ph'; |
1013 | $rc = syscall(&SYS_close, $fd + 0); # must force numeric |
1014 | die "can't sysclose $fd: $!" unless $rc == -1; |
1015 | |
a6dd486b |
1016 | Or, just use the fdopen(3S) feature of open(): |
d92eb7b0 |
1017 | |
1018 | { |
1019 | local *F; |
1020 | open F, "<&=$fd" or die "Cannot reopen fd=$fd: $!"; |
1021 | close F; |
1022 | } |
1023 | |
46fc3d4c |
1024 | =head2 Why can't I use "C:\temp\foo" in DOS paths? What doesn't `C:\temp\foo.exe` work? |
68dc0745 |
1025 | |
1026 | Whoops! You just put a tab and a formfeed into that filename! |
1027 | Remember that within double quoted strings ("like\this"), the |
1028 | backslash is an escape character. The full list of these is in |
1029 | L<perlop/Quote and Quote-like Operators>. Unsurprisingly, you don't |
1030 | have a file called "c:(tab)emp(formfeed)oo" or |
65acb1b1 |
1031 | "c:(tab)emp(formfeed)oo.exe" on your legacy DOS filesystem. |
68dc0745 |
1032 | |
1033 | Either single-quote your strings, or (preferably) use forward slashes. |
46fc3d4c |
1034 | Since all DOS and Windows versions since something like MS-DOS 2.0 or so |
68dc0745 |
1035 | have treated C</> and C<\> the same in a path, you might as well use the |
a6dd486b |
1036 | one that doesn't clash with Perl--or the POSIX shell, ANSI C and C++, |
65acb1b1 |
1037 | awk, Tcl, Java, or Python, just to mention a few. POSIX paths |
1038 | are more portable, too. |
68dc0745 |
1039 | |
1040 | =head2 Why doesn't glob("*.*") get all the files? |
1041 | |
1042 | Because even on non-Unix ports, Perl's glob function follows standard |
46fc3d4c |
1043 | Unix globbing semantics. You'll need C<glob("*")> to get all (non-hidden) |
65acb1b1 |
1044 | files. This makes glob() portable even to legacy systems. Your |
1045 | port may include proprietary globbing functions as well. Check its |
1046 | documentation for details. |
68dc0745 |
1047 | |
1048 | =head2 Why does Perl let me delete read-only files? Why does C<-i> clobber protected files? Isn't this a bug in Perl? |
1049 | |
06a5f41f |
1050 | This is elaborately and painstakingly described in the |
1051 | F<file-dir-perms> article in the "Far More Than You Ever Wanted To |
1052 | Know" collection in http://www.cpan.org/olddoc/FMTEYEWTK.tgz . |
68dc0745 |
1053 | |
1054 | The executive summary: learn how your filesystem works. The |
1055 | permissions on a file say what can happen to the data in that file. |
1056 | The permissions on a directory say what can happen to the list of |
1057 | files in that directory. If you delete a file, you're removing its |
1058 | name from the directory (so the operation depends on the permissions |
1059 | of the directory, not of the file). If you try to write to the file, |
1060 | the permissions of the file govern whether you're allowed to. |
1061 | |
1062 | =head2 How do I select a random line from a file? |
1063 | |
1064 | Here's an algorithm from the Camel Book: |
1065 | |
1066 | srand; |
1067 | rand($.) < 1 && ($line = $_) while <>; |
1068 | |
1069 | This has a significant advantage in space over reading the whole |
5a964f20 |
1070 | file in. A simple proof by induction is available upon |
a6dd486b |
1071 | request if you doubt the algorithm's correctness. |
68dc0745 |
1072 | |
65acb1b1 |
1073 | =head2 Why do I get weird spaces when I print an array of lines? |
1074 | |
1075 | Saying |
1076 | |
1077 | print "@lines\n"; |
1078 | |
1079 | joins together the elements of C<@lines> with a space between them. |
1080 | If C<@lines> were C<("little", "fluffy", "clouds")> then the above |
a6dd486b |
1081 | statement would print |
65acb1b1 |
1082 | |
1083 | little fluffy clouds |
1084 | |
1085 | but if each element of C<@lines> was a line of text, ending a newline |
1086 | character C<("little\n", "fluffy\n", "clouds\n")> then it would print: |
1087 | |
1088 | little |
1089 | fluffy |
1090 | clouds |
1091 | |
1092 | If your array contains lines, just print them: |
1093 | |
1094 | print @lines; |
1095 | |
68dc0745 |
1096 | =head1 AUTHOR AND COPYRIGHT |
1097 | |
0bc0ad85 |
1098 | Copyright (c) 1997-2002 Tom Christiansen and Nathan Torkington. |
5a964f20 |
1099 | All rights reserved. |
1100 | |
5a7beb56 |
1101 | This documentation is free; you can redistribute it and/or modify it |
1102 | under the same terms as Perl itself. |
c8db1d39 |
1103 | |
87275199 |
1104 | Irrespective of its distribution, all code examples here are in the public |
c8db1d39 |
1105 | domain. You are permitted and encouraged to use this code and any |
1106 | derivatives thereof in your own programs for fun or for profit as you |
1107 | see fit. A simple comment in the code giving credit to the FAQ would |
1108 | be courteous but is not required. |