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1 | =head1 NAME |
2 | |
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3 | perlfaq4 - Data Manipulation ($Revision: 3606 $) |
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4 | |
5 | =head1 DESCRIPTION |
6 | |
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7 | This section of the FAQ answers questions related to manipulating |
8 | numbers, dates, strings, arrays, hashes, and miscellaneous data issues. |
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9 | |
10 | =head1 Data: Numbers |
11 | |
46fc3d4c |
12 | =head2 Why am I getting long decimals (eg, 19.9499999999999) instead of the numbers I should be getting (eg, 19.95)? |
13 | |
49d635f9 |
14 | Internally, your computer represents floating-point numbers |
15 | in binary. Digital (as in powers of two) computers cannot |
16 | store all numbers exactly. Some real numbers lose precision |
17 | in the process. This is a problem with how computers store |
18 | numbers and affects all computer languages, not just Perl. |
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19 | |
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20 | L<perlnumber> show the gory details of number |
21 | representations and conversions. |
22 | |
23 | To limit the number of decimal places in your numbers, you |
24 | can use the printf or sprintf function. See the |
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25 | L<"Floating Point Arithmetic"|perlop> for more details. |
49d635f9 |
26 | |
27 | printf "%.2f", 10/3; |
197aec24 |
28 | |
49d635f9 |
29 | my $number = sprintf "%.2f", 10/3; |
197aec24 |
30 | |
32969b6e |
31 | =head2 Why is int() broken? |
32 | |
33 | Your int() is most probably working just fine. It's the numbers that |
34 | aren't quite what you think. |
35 | |
36 | First, see the above item "Why am I getting long decimals |
37 | (eg, 19.9499999999999) instead of the numbers I should be getting |
38 | (eg, 19.95)?". |
39 | |
40 | For example, this |
41 | |
42 | print int(0.6/0.2-2), "\n"; |
43 | |
44 | will in most computers print 0, not 1, because even such simple |
45 | numbers as 0.6 and 0.2 cannot be presented exactly by floating-point |
46 | numbers. What you think in the above as 'three' is really more like |
47 | 2.9999999999999995559. |
48 | |
68dc0745 |
49 | =head2 Why isn't my octal data interpreted correctly? |
50 | |
49d635f9 |
51 | Perl only understands octal and hex numbers as such when they occur as |
52 | literals in your program. Octal literals in perl must start with a |
53 | leading "0" and hexadecimal literals must start with a leading "0x". |
54 | If they are read in from somewhere and assigned, no automatic |
55 | conversion takes place. You must explicitly use oct() or hex() if you |
56 | want the values converted to decimal. oct() interprets hex ("0x350"), |
57 | octal ("0350" or even without the leading "0", like "377") and binary |
58 | ("0b1010") numbers, while hex() only converts hexadecimal ones, with |
59 | or without a leading "0x", like "0x255", "3A", "ff", or "deadbeef". |
33ce146f |
60 | The inverse mapping from decimal to octal can be done with either the |
49d635f9 |
61 | "%o" or "%O" sprintf() formats. |
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62 | |
63 | This problem shows up most often when people try using chmod(), mkdir(), |
197aec24 |
64 | umask(), or sysopen(), which by widespread tradition typically take |
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65 | permissions in octal. |
68dc0745 |
66 | |
33ce146f |
67 | chmod(644, $file); # WRONG |
68dc0745 |
68 | chmod(0644, $file); # right |
69 | |
197aec24 |
70 | Note the mistake in the first line was specifying the decimal literal |
33ce146f |
71 | 644, rather than the intended octal literal 0644. The problem can |
72 | be seen with: |
73 | |
434f7166 |
74 | printf("%#o",644); # prints 01204 |
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75 | |
76 | Surely you had not intended C<chmod(01204, $file);> - did you? If you |
77 | want to use numeric literals as arguments to chmod() et al. then please |
197aec24 |
78 | try to express them as octal constants, that is with a leading zero and |
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79 | with the following digits restricted to the set 0..7. |
80 | |
65acb1b1 |
81 | =head2 Does Perl have a round() function? What about ceil() and floor()? Trig functions? |
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82 | |
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83 | Remember that int() merely truncates toward 0. For rounding to a |
84 | certain number of digits, sprintf() or printf() is usually the easiest |
85 | route. |
86 | |
87 | printf("%.3f", 3.1415926535); # prints 3.142 |
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88 | |
87275199 |
89 | The POSIX module (part of the standard Perl distribution) implements |
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90 | ceil(), floor(), and a number of other mathematical and trigonometric |
91 | functions. |
92 | |
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93 | use POSIX; |
94 | $ceil = ceil(3.5); # 4 |
95 | $floor = floor(3.5); # 3 |
96 | |
a6dd486b |
97 | In 5.000 to 5.003 perls, trigonometry was done in the Math::Complex |
87275199 |
98 | module. With 5.004, the Math::Trig module (part of the standard Perl |
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99 | distribution) implements the trigonometric functions. Internally it |
100 | uses the Math::Complex module and some functions can break out from |
101 | the real axis into the complex plane, for example the inverse sine of |
102 | 2. |
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103 | |
104 | Rounding in financial applications can have serious implications, and |
105 | the rounding method used should be specified precisely. In these |
106 | cases, it probably pays not to trust whichever system rounding is |
107 | being used by Perl, but to instead implement the rounding function you |
108 | need yourself. |
109 | |
65acb1b1 |
110 | To see why, notice how you'll still have an issue on half-way-point |
111 | alternation: |
112 | |
113 | for ($i = 0; $i < 1.01; $i += 0.05) { printf "%.1f ",$i} |
114 | |
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115 | 0.0 0.1 0.1 0.2 0.2 0.2 0.3 0.3 0.4 0.4 0.5 0.5 0.6 0.7 0.7 |
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116 | 0.8 0.8 0.9 0.9 1.0 1.0 |
117 | |
118 | Don't blame Perl. It's the same as in C. IEEE says we have to do this. |
119 | Perl numbers whose absolute values are integers under 2**31 (on 32 bit |
120 | machines) will work pretty much like mathematical integers. Other numbers |
121 | are not guaranteed. |
122 | |
6f0efb17 |
123 | =head2 How do I convert between numeric representations/bases/radixes? |
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124 | |
6761e064 |
125 | As always with Perl there is more than one way to do it. Below |
126 | are a few examples of approaches to making common conversions |
127 | between number representations. This is intended to be representational |
128 | rather than exhaustive. |
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129 | |
6761e064 |
130 | Some of the examples below use the Bit::Vector module from CPAN. |
131 | The reason you might choose Bit::Vector over the perl built in |
132 | functions is that it works with numbers of ANY size, that it is |
133 | optimized for speed on some operations, and for at least some |
134 | programmers the notation might be familiar. |
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135 | |
818c4caa |
136 | =over 4 |
137 | |
138 | =item How do I convert hexadecimal into decimal |
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139 | |
6761e064 |
140 | Using perl's built in conversion of 0x notation: |
141 | |
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142 | $dec = 0xDEADBEEF; |
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143 | |
6761e064 |
144 | Using the hex function: |
145 | |
6f0efb17 |
146 | $dec = hex("DEADBEEF"); |
6761e064 |
147 | |
148 | Using pack: |
149 | |
6f0efb17 |
150 | $dec = unpack("N", pack("H8", substr("0" x 8 . "DEADBEEF", -8))); |
6761e064 |
151 | |
152 | Using the CPAN module Bit::Vector: |
153 | |
154 | use Bit::Vector; |
155 | $vec = Bit::Vector->new_Hex(32, "DEADBEEF"); |
156 | $dec = $vec->to_Dec(); |
157 | |
818c4caa |
158 | =item How do I convert from decimal to hexadecimal |
6761e064 |
159 | |
04d666b1 |
160 | Using sprintf: |
6761e064 |
161 | |
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162 | $hex = sprintf("%X", 3735928559); # upper case A-F |
163 | $hex = sprintf("%x", 3735928559); # lower case a-f |
6761e064 |
164 | |
6f0efb17 |
165 | Using unpack: |
6761e064 |
166 | |
167 | $hex = unpack("H*", pack("N", 3735928559)); |
168 | |
6f0efb17 |
169 | Using Bit::Vector: |
6761e064 |
170 | |
171 | use Bit::Vector; |
172 | $vec = Bit::Vector->new_Dec(32, -559038737); |
173 | $hex = $vec->to_Hex(); |
174 | |
175 | And Bit::Vector supports odd bit counts: |
176 | |
177 | use Bit::Vector; |
178 | $vec = Bit::Vector->new_Dec(33, 3735928559); |
179 | $vec->Resize(32); # suppress leading 0 if unwanted |
180 | $hex = $vec->to_Hex(); |
181 | |
818c4caa |
182 | =item How do I convert from octal to decimal |
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183 | |
184 | Using Perl's built in conversion of numbers with leading zeros: |
185 | |
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186 | $dec = 033653337357; # note the leading 0! |
6761e064 |
187 | |
188 | Using the oct function: |
189 | |
6f0efb17 |
190 | $dec = oct("33653337357"); |
6761e064 |
191 | |
192 | Using Bit::Vector: |
193 | |
194 | use Bit::Vector; |
195 | $vec = Bit::Vector->new(32); |
196 | $vec->Chunk_List_Store(3, split(//, reverse "33653337357")); |
197 | $dec = $vec->to_Dec(); |
198 | |
818c4caa |
199 | =item How do I convert from decimal to octal |
6761e064 |
200 | |
201 | Using sprintf: |
202 | |
203 | $oct = sprintf("%o", 3735928559); |
204 | |
6f0efb17 |
205 | Using Bit::Vector: |
6761e064 |
206 | |
207 | use Bit::Vector; |
208 | $vec = Bit::Vector->new_Dec(32, -559038737); |
209 | $oct = reverse join('', $vec->Chunk_List_Read(3)); |
210 | |
818c4caa |
211 | =item How do I convert from binary to decimal |
6761e064 |
212 | |
2c646907 |
213 | Perl 5.6 lets you write binary numbers directly with |
214 | the 0b notation: |
215 | |
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216 | $number = 0b10110110; |
217 | |
218 | Using oct: |
219 | |
220 | my $input = "10110110"; |
221 | $decimal = oct( "0b$input" ); |
2c646907 |
222 | |
6f0efb17 |
223 | Using pack and ord: |
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224 | |
225 | $decimal = ord(pack('B8', '10110110')); |
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226 | |
6f0efb17 |
227 | Using pack and unpack for larger strings: |
6761e064 |
228 | |
229 | $int = unpack("N", pack("B32", |
230 | substr("0" x 32 . "11110101011011011111011101111", -32))); |
231 | $dec = sprintf("%d", $int); |
232 | |
5efd7060 |
233 | # substr() is used to left pad a 32 character string with zeros. |
6761e064 |
234 | |
235 | Using Bit::Vector: |
236 | |
237 | $vec = Bit::Vector->new_Bin(32, "11011110101011011011111011101111"); |
238 | $dec = $vec->to_Dec(); |
239 | |
818c4caa |
240 | =item How do I convert from decimal to binary |
6761e064 |
241 | |
4dfcc30b |
242 | Using sprintf (perl 5.6+): |
243 | |
244 | $bin = sprintf("%b", 3735928559); |
245 | |
246 | Using unpack: |
6761e064 |
247 | |
248 | $bin = unpack("B*", pack("N", 3735928559)); |
249 | |
250 | Using Bit::Vector: |
251 | |
252 | use Bit::Vector; |
253 | $vec = Bit::Vector->new_Dec(32, -559038737); |
254 | $bin = $vec->to_Bin(); |
255 | |
256 | The remaining transformations (e.g. hex -> oct, bin -> hex, etc.) |
257 | are left as an exercise to the inclined reader. |
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258 | |
818c4caa |
259 | =back |
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260 | |
65acb1b1 |
261 | =head2 Why doesn't & work the way I want it to? |
262 | |
263 | The behavior of binary arithmetic operators depends on whether they're |
264 | used on numbers or strings. The operators treat a string as a series |
265 | of bits and work with that (the string C<"3"> is the bit pattern |
266 | C<00110011>). The operators work with the binary form of a number |
267 | (the number C<3> is treated as the bit pattern C<00000011>). |
268 | |
269 | So, saying C<11 & 3> performs the "and" operation on numbers (yielding |
49d635f9 |
270 | C<3>). Saying C<"11" & "3"> performs the "and" operation on strings |
65acb1b1 |
271 | (yielding C<"1">). |
272 | |
273 | Most problems with C<&> and C<|> arise because the programmer thinks |
274 | they have a number but really it's a string. The rest arise because |
275 | the programmer says: |
276 | |
277 | if ("\020\020" & "\101\101") { |
278 | # ... |
279 | } |
280 | |
281 | but a string consisting of two null bytes (the result of C<"\020\020" |
282 | & "\101\101">) is not a false value in Perl. You need: |
283 | |
284 | if ( ("\020\020" & "\101\101") !~ /[^\000]/) { |
285 | # ... |
286 | } |
287 | |
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288 | =head2 How do I multiply matrices? |
289 | |
290 | Use the Math::Matrix or Math::MatrixReal modules (available from CPAN) |
291 | or the PDL extension (also available from CPAN). |
292 | |
293 | =head2 How do I perform an operation on a series of integers? |
294 | |
295 | To call a function on each element in an array, and collect the |
296 | results, use: |
297 | |
298 | @results = map { my_func($_) } @array; |
299 | |
300 | For example: |
301 | |
302 | @triple = map { 3 * $_ } @single; |
303 | |
304 | To call a function on each element of an array, but ignore the |
305 | results: |
306 | |
307 | foreach $iterator (@array) { |
65acb1b1 |
308 | some_func($iterator); |
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309 | } |
310 | |
311 | To call a function on each integer in a (small) range, you B<can> use: |
312 | |
65acb1b1 |
313 | @results = map { some_func($_) } (5 .. 25); |
68dc0745 |
314 | |
315 | but you should be aware that the C<..> operator creates an array of |
316 | all integers in the range. This can take a lot of memory for large |
317 | ranges. Instead use: |
318 | |
319 | @results = (); |
320 | for ($i=5; $i < 500_005; $i++) { |
65acb1b1 |
321 | push(@results, some_func($i)); |
68dc0745 |
322 | } |
323 | |
87275199 |
324 | This situation has been fixed in Perl5.005. Use of C<..> in a C<for> |
325 | loop will iterate over the range, without creating the entire range. |
326 | |
327 | for my $i (5 .. 500_005) { |
328 | push(@results, some_func($i)); |
329 | } |
330 | |
331 | will not create a list of 500,000 integers. |
332 | |
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333 | =head2 How can I output Roman numerals? |
334 | |
a93751fa |
335 | Get the http://www.cpan.org/modules/by-module/Roman module. |
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336 | |
337 | =head2 Why aren't my random numbers random? |
338 | |
65acb1b1 |
339 | If you're using a version of Perl before 5.004, you must call C<srand> |
340 | once at the start of your program to seed the random number generator. |
49d635f9 |
341 | |
5cd0b561 |
342 | BEGIN { srand() if $] < 5.004 } |
49d635f9 |
343 | |
65acb1b1 |
344 | 5.004 and later automatically call C<srand> at the beginning. Don't |
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345 | call C<srand> more than once---you make your numbers less random, rather |
65acb1b1 |
346 | than more. |
92c2ed05 |
347 | |
65acb1b1 |
348 | Computers are good at being predictable and bad at being random |
06a5f41f |
349 | (despite appearances caused by bugs in your programs :-). see the |
49d635f9 |
350 | F<random> article in the "Far More Than You Ever Wanted To Know" |
351 | collection in http://www.cpan.org/misc/olddoc/FMTEYEWTK.tgz , courtesy of |
b432a672 |
352 | Tom Phoenix, talks more about this. John von Neumann said, "Anyone |
06a5f41f |
353 | who attempts to generate random numbers by deterministic means is, of |
b432a672 |
354 | course, living in a state of sin." |
65acb1b1 |
355 | |
356 | If you want numbers that are more random than C<rand> with C<srand> |
357 | provides, you should also check out the Math::TrulyRandom module from |
358 | CPAN. It uses the imperfections in your system's timer to generate |
359 | random numbers, but this takes quite a while. If you want a better |
92c2ed05 |
360 | pseudorandom generator than comes with your operating system, look at |
b432a672 |
361 | "Numerical Recipes in C" at http://www.nr.com/ . |
68dc0745 |
362 | |
881bdbd4 |
363 | =head2 How do I get a random number between X and Y? |
364 | |
500071f4 |
365 | To get a random number between two values, you can use the |
366 | C<rand()> builtin to get a random number between 0 and |
367 | |
793f5136 |
368 | C<rand($x)> returns a number such that |
369 | C<< 0 <= rand($x) < $x >>. Thus what you want to have perl |
370 | figure out is a random number in the range from 0 to the |
371 | difference between your I<X> and I<Y>. |
372 | |
373 | That is, to get a number between 10 and 15, inclusive, you |
374 | want a random number between 0 and 5 that you can then add |
375 | to 10. |
376 | |
500071f4 |
377 | my $number = 10 + int rand( 15-10+1 ); |
793f5136 |
378 | |
379 | Hence you derive the following simple function to abstract |
380 | that. It selects a random integer between the two given |
500071f4 |
381 | integers (inclusive), For example: C<random_int_between(50,120)>. |
382 | |
383 | sub random_int_between ($$) { |
384 | my($min, $max) = @_; |
385 | # Assumes that the two arguments are integers themselves! |
386 | return $min if $min == $max; |
387 | ($min, $max) = ($max, $min) if $min > $max; |
388 | return $min + int rand(1 + $max - $min); |
389 | } |
881bdbd4 |
390 | |
68dc0745 |
391 | =head1 Data: Dates |
392 | |
5cd0b561 |
393 | =head2 How do I find the day or week of the year? |
68dc0745 |
394 | |
571e049f |
395 | The localtime function returns the day of the year. Without an |
5cd0b561 |
396 | argument localtime uses the current time. |
68dc0745 |
397 | |
a05e4845 |
398 | $day_of_year = (localtime)[7]; |
ffc145e8 |
399 | |
5cd0b561 |
400 | The POSIX module can also format a date as the day of the year or |
401 | week of the year. |
68dc0745 |
402 | |
5cd0b561 |
403 | use POSIX qw/strftime/; |
404 | my $day_of_year = strftime "%j", localtime; |
405 | my $week_of_year = strftime "%W", localtime; |
406 | |
407 | To get the day of year for any date, use the Time::Local module to get |
408 | a time in epoch seconds for the argument to localtime. |
ffc145e8 |
409 | |
5cd0b561 |
410 | use POSIX qw/strftime/; |
411 | use Time::Local; |
6670e5e7 |
412 | my $week_of_year = strftime "%W", |
5cd0b561 |
413 | localtime( timelocal( 0, 0, 0, 18, 11, 1987 ) ); |
414 | |
b68463f7 |
415 | The Date::Calc module provides two functions to calculate these. |
5cd0b561 |
416 | |
417 | use Date::Calc; |
418 | my $day_of_year = Day_of_Year( 1987, 12, 18 ); |
419 | my $week_of_year = Week_of_Year( 1987, 12, 18 ); |
ffc145e8 |
420 | |
d92eb7b0 |
421 | =head2 How do I find the current century or millennium? |
422 | |
423 | Use the following simple functions: |
424 | |
197aec24 |
425 | sub get_century { |
d92eb7b0 |
426 | return int((((localtime(shift || time))[5] + 1999))/100); |
197aec24 |
427 | } |
6670e5e7 |
428 | |
197aec24 |
429 | sub get_millennium { |
d92eb7b0 |
430 | return 1+int((((localtime(shift || time))[5] + 1899))/1000); |
197aec24 |
431 | } |
d92eb7b0 |
432 | |
49d635f9 |
433 | On some systems, the POSIX module's strftime() function has |
434 | been extended in a non-standard way to use a C<%C> format, |
435 | which they sometimes claim is the "century". It isn't, |
436 | because on most such systems, this is only the first two |
437 | digits of the four-digit year, and thus cannot be used to |
438 | reliably determine the current century or millennium. |
d92eb7b0 |
439 | |
92c2ed05 |
440 | =head2 How can I compare two dates and find the difference? |
68dc0745 |
441 | |
b68463f7 |
442 | (contributed by brian d foy) |
443 | |
444 | You could just store all your dates as a number and then subtract. Life |
445 | isn't always that simple though. If you want to work with formatted |
446 | dates, the Date::Manip, Date::Calc, or DateTime modules can help you. |
447 | |
68dc0745 |
448 | |
449 | =head2 How can I take a string and turn it into epoch seconds? |
450 | |
451 | If it's a regular enough string that it always has the same format, |
92c2ed05 |
452 | you can split it up and pass the parts to C<timelocal> in the standard |
453 | Time::Local module. Otherwise, you should look into the Date::Calc |
454 | and Date::Manip modules from CPAN. |
68dc0745 |
455 | |
456 | =head2 How can I find the Julian Day? |
457 | |
7678cced |
458 | (contributed by brian d foy and Dave Cross) |
459 | |
460 | You can use the Time::JulianDay module available on CPAN. Ensure that |
461 | you really want to find a Julian day, though, as many people have |
462 | different ideas about Julian days. See |
463 | http://www.hermetic.ch/cal_stud/jdn.htm for instance. |
464 | |
465 | You can also try the DateTime module, which can convert a date/time |
466 | to a Julian Day. |
467 | |
468 | $ perl -MDateTime -le'print DateTime->today->jd' |
469 | 2453401.5 |
470 | |
471 | Or the modified Julian Day |
472 | |
473 | $ perl -MDateTime -le'print DateTime->today->mjd' |
474 | 53401 |
475 | |
476 | Or even the day of the year (which is what some people think of as a |
477 | Julian day) |
478 | |
479 | $ perl -MDateTime -le'print DateTime->today->doy' |
480 | 31 |
be94a901 |
481 | |
65acb1b1 |
482 | =head2 How do I find yesterday's date? |
483 | |
6670e5e7 |
484 | (contributed by brian d foy) |
49d635f9 |
485 | |
6670e5e7 |
486 | Use one of the Date modules. The C<DateTime> module makes it simple, and |
487 | give you the same time of day, only the day before. |
49d635f9 |
488 | |
6670e5e7 |
489 | use DateTime; |
58103a2e |
490 | |
6670e5e7 |
491 | my $yesterday = DateTime->now->subtract( days => 1 ); |
58103a2e |
492 | |
6670e5e7 |
493 | print "Yesterday was $yesterday\n"; |
49d635f9 |
494 | |
6670e5e7 |
495 | You can also use the C<Date::Calc> module using its Today_and_Now |
496 | function. |
49d635f9 |
497 | |
6670e5e7 |
498 | use Date::Calc qw( Today_and_Now Add_Delta_DHMS ); |
58103a2e |
499 | |
6670e5e7 |
500 | my @date_time = Add_Delta_DHMS( Today_and_Now(), -1, 0, 0, 0 ); |
58103a2e |
501 | |
6670e5e7 |
502 | print "@date\n"; |
58103a2e |
503 | |
6670e5e7 |
504 | Most people try to use the time rather than the calendar to figure out |
505 | dates, but that assumes that days are twenty-four hours each. For |
506 | most people, there are two days a year when they aren't: the switch to |
507 | and from summer time throws this off. Let the modules do the work. |
d92eb7b0 |
508 | |
87275199 |
509 | =head2 Does Perl have a Year 2000 problem? Is Perl Y2K compliant? |
68dc0745 |
510 | |
65acb1b1 |
511 | Short answer: No, Perl does not have a Year 2000 problem. Yes, Perl is |
512 | Y2K compliant (whatever that means). The programmers you've hired to |
513 | use it, however, probably are not. |
514 | |
515 | Long answer: The question belies a true understanding of the issue. |
516 | Perl is just as Y2K compliant as your pencil--no more, and no less. |
517 | Can you use your pencil to write a non-Y2K-compliant memo? Of course |
518 | you can. Is that the pencil's fault? Of course it isn't. |
92c2ed05 |
519 | |
87275199 |
520 | The date and time functions supplied with Perl (gmtime and localtime) |
65acb1b1 |
521 | supply adequate information to determine the year well beyond 2000 |
522 | (2038 is when trouble strikes for 32-bit machines). The year returned |
90fdbbb7 |
523 | by these functions when used in a list context is the year minus 1900. |
65acb1b1 |
524 | For years between 1910 and 1999 this I<happens> to be a 2-digit decimal |
525 | number. To avoid the year 2000 problem simply do not treat the year as |
526 | a 2-digit number. It isn't. |
68dc0745 |
527 | |
5a964f20 |
528 | When gmtime() and localtime() are used in scalar context they return |
68dc0745 |
529 | a timestamp string that contains a fully-expanded year. For example, |
530 | C<$timestamp = gmtime(1005613200)> sets $timestamp to "Tue Nov 13 01:00:00 |
531 | 2001". There's no year 2000 problem here. |
532 | |
5a964f20 |
533 | That doesn't mean that Perl can't be used to create non-Y2K compliant |
534 | programs. It can. But so can your pencil. It's the fault of the user, |
b432a672 |
535 | not the language. At the risk of inflaming the NRA: "Perl doesn't |
536 | break Y2K, people do." See http://www.perl.org/about/y2k.html for |
5a964f20 |
537 | a longer exposition. |
538 | |
68dc0745 |
539 | =head1 Data: Strings |
540 | |
541 | =head2 How do I validate input? |
542 | |
6670e5e7 |
543 | (contributed by brian d foy) |
544 | |
545 | There are many ways to ensure that values are what you expect or |
546 | want to accept. Besides the specific examples that we cover in the |
547 | perlfaq, you can also look at the modules with "Assert" and "Validate" |
548 | in their names, along with other modules such as C<Regexp::Common>. |
549 | |
550 | Some modules have validation for particular types of input, such |
551 | as C<Business::ISBN>, C<Business::CreditCard>, C<Email::Valid>, |
552 | and C<Data::Validate::IP>. |
68dc0745 |
553 | |
554 | =head2 How do I unescape a string? |
555 | |
b432a672 |
556 | It depends just what you mean by "escape". URL escapes are dealt |
92c2ed05 |
557 | with in L<perlfaq9>. Shell escapes with the backslash (C<\>) |
a6dd486b |
558 | character are removed with |
68dc0745 |
559 | |
560 | s/\\(.)/$1/g; |
561 | |
92c2ed05 |
562 | This won't expand C<"\n"> or C<"\t"> or any other special escapes. |
68dc0745 |
563 | |
564 | =head2 How do I remove consecutive pairs of characters? |
565 | |
6670e5e7 |
566 | (contributed by brian d foy) |
567 | |
568 | You can use the substitution operator to find pairs of characters (or |
569 | runs of characters) and replace them with a single instance. In this |
570 | substitution, we find a character in C<(.)>. The memory parentheses |
571 | store the matched character in the back-reference C<\1> and we use |
572 | that to require that the same thing immediately follow it. We replace |
573 | that part of the string with the character in C<$1>. |
68dc0745 |
574 | |
6670e5e7 |
575 | s/(.)\1/$1/g; |
d92eb7b0 |
576 | |
6670e5e7 |
577 | We can also use the transliteration operator, C<tr///>. In this |
578 | example, the search list side of our C<tr///> contains nothing, but |
579 | the C<c> option complements that so it contains everything. The |
580 | replacement list also contains nothing, so the transliteration is |
581 | almost a no-op since it won't do any replacements (or more exactly, |
582 | replace the character with itself). However, the C<s> option squashes |
583 | duplicated and consecutive characters in the string so a character |
584 | does not show up next to itself |
d92eb7b0 |
585 | |
6670e5e7 |
586 | my $str = 'Haarlem'; # in the Netherlands |
587 | $str =~ tr///cs; # Now Harlem, like in New York |
68dc0745 |
588 | |
589 | =head2 How do I expand function calls in a string? |
590 | |
6670e5e7 |
591 | (contributed by brian d foy) |
592 | |
593 | This is documented in L<perlref>, and although it's not the easiest |
594 | thing to read, it does work. In each of these examples, we call the |
58103a2e |
595 | function inside the braces used to dereference a reference. If we |
d7f8936a |
596 | have a more than one return value, we can construct and dereference an |
6670e5e7 |
597 | anonymous array. In this case, we call the function in list context. |
598 | |
58103a2e |
599 | print "The time values are @{ [localtime] }.\n"; |
6670e5e7 |
600 | |
601 | If we want to call the function in scalar context, we have to do a bit |
602 | more work. We can really have any code we like inside the braces, so |
603 | we simply have to end with the scalar reference, although how you do |
604 | that is up to you, and you can use code inside the braces. |
68dc0745 |
605 | |
6670e5e7 |
606 | print "The time is ${\(scalar localtime)}.\n" |
58103a2e |
607 | |
6670e5e7 |
608 | print "The time is ${ my $x = localtime; \$x }.\n"; |
58103a2e |
609 | |
6670e5e7 |
610 | If your function already returns a reference, you don't need to create |
611 | the reference yourself. |
612 | |
613 | sub timestamp { my $t = localtime; \$t } |
58103a2e |
614 | |
6670e5e7 |
615 | print "The time is ${ timestamp() }.\n"; |
58103a2e |
616 | |
617 | The C<Interpolation> module can also do a lot of magic for you. You can |
618 | specify a variable name, in this case C<E>, to set up a tied hash that |
619 | does the interpolation for you. It has several other methods to do this |
620 | as well. |
621 | |
622 | use Interpolation E => 'eval'; |
623 | print "The time values are $E{localtime()}.\n"; |
624 | |
625 | In most cases, it is probably easier to simply use string concatenation, |
626 | which also forces scalar context. |
6670e5e7 |
627 | |
628 | print "The time is " . localtime . ".\n"; |
68dc0745 |
629 | |
68dc0745 |
630 | =head2 How do I find matching/nesting anything? |
631 | |
92c2ed05 |
632 | This isn't something that can be done in one regular expression, no |
633 | matter how complicated. To find something between two single |
634 | characters, a pattern like C</x([^x]*)x/> will get the intervening |
635 | bits in $1. For multiple ones, then something more like |
636 | C</alpha(.*?)omega/> would be needed. But none of these deals with |
6670e5e7 |
637 | nested patterns. For balanced expressions using C<(>, C<{>, C<[> or |
638 | C<< < >> as delimiters, use the CPAN module Regexp::Common, or see |
639 | L<perlre/(??{ code })>. For other cases, you'll have to write a |
640 | parser. |
92c2ed05 |
641 | |
642 | If you are serious about writing a parser, there are a number of |
6a2af475 |
643 | modules or oddities that will make your life a lot easier. There are |
644 | the CPAN modules Parse::RecDescent, Parse::Yapp, and Text::Balanced; |
6670e5e7 |
645 | and the byacc program. Starting from perl 5.8 the Text::Balanced is |
646 | part of the standard distribution. |
68dc0745 |
647 | |
92c2ed05 |
648 | One simple destructive, inside-out approach that you might try is to |
649 | pull out the smallest nesting parts one at a time: |
5a964f20 |
650 | |
d92eb7b0 |
651 | while (s/BEGIN((?:(?!BEGIN)(?!END).)*)END//gs) { |
5a964f20 |
652 | # do something with $1 |
197aec24 |
653 | } |
5a964f20 |
654 | |
65acb1b1 |
655 | A more complicated and sneaky approach is to make Perl's regular |
656 | expression engine do it for you. This is courtesy Dean Inada, and |
657 | rather has the nature of an Obfuscated Perl Contest entry, but it |
658 | really does work: |
659 | |
660 | # $_ contains the string to parse |
661 | # BEGIN and END are the opening and closing markers for the |
662 | # nested text. |
c47ff5f1 |
663 | |
65acb1b1 |
664 | @( = ('(',''); |
665 | @) = (')',''); |
666 | ($re=$_)=~s/((BEGIN)|(END)|.)/$)[!$3]\Q$1\E$([!$2]/gs; |
5ed30e05 |
667 | @$ = (eval{/$re/},$@!~/unmatched/i); |
65acb1b1 |
668 | print join("\n",@$[0..$#$]) if( $$[-1] ); |
669 | |
68dc0745 |
670 | =head2 How do I reverse a string? |
671 | |
5a964f20 |
672 | Use reverse() in scalar context, as documented in |
68dc0745 |
673 | L<perlfunc/reverse>. |
674 | |
675 | $reversed = reverse $string; |
676 | |
677 | =head2 How do I expand tabs in a string? |
678 | |
5a964f20 |
679 | You can do it yourself: |
68dc0745 |
680 | |
681 | 1 while $string =~ s/\t+/' ' x (length($&) * 8 - length($`) % 8)/e; |
682 | |
87275199 |
683 | Or you can just use the Text::Tabs module (part of the standard Perl |
68dc0745 |
684 | distribution). |
685 | |
686 | use Text::Tabs; |
687 | @expanded_lines = expand(@lines_with_tabs); |
688 | |
689 | =head2 How do I reformat a paragraph? |
690 | |
87275199 |
691 | Use Text::Wrap (part of the standard Perl distribution): |
68dc0745 |
692 | |
693 | use Text::Wrap; |
694 | print wrap("\t", ' ', @paragraphs); |
695 | |
92c2ed05 |
696 | The paragraphs you give to Text::Wrap should not contain embedded |
46fc3d4c |
697 | newlines. Text::Wrap doesn't justify the lines (flush-right). |
698 | |
bc06af74 |
699 | Or use the CPAN module Text::Autoformat. Formatting files can be easily |
700 | done by making a shell alias, like so: |
701 | |
702 | alias fmt="perl -i -MText::Autoformat -n0777 \ |
703 | -e 'print autoformat $_, {all=>1}' $*" |
704 | |
705 | See the documentation for Text::Autoformat to appreciate its many |
706 | capabilities. |
707 | |
49d635f9 |
708 | =head2 How can I access or change N characters of a string? |
68dc0745 |
709 | |
49d635f9 |
710 | You can access the first characters of a string with substr(). |
711 | To get the first character, for example, start at position 0 |
197aec24 |
712 | and grab the string of length 1. |
68dc0745 |
713 | |
68dc0745 |
714 | |
49d635f9 |
715 | $string = "Just another Perl Hacker"; |
716 | $first_char = substr( $string, 0, 1 ); # 'J' |
68dc0745 |
717 | |
49d635f9 |
718 | To change part of a string, you can use the optional fourth |
719 | argument which is the replacement string. |
68dc0745 |
720 | |
49d635f9 |
721 | substr( $string, 13, 4, "Perl 5.8.0" ); |
197aec24 |
722 | |
49d635f9 |
723 | You can also use substr() as an lvalue. |
68dc0745 |
724 | |
49d635f9 |
725 | substr( $string, 13, 4 ) = "Perl 5.8.0"; |
197aec24 |
726 | |
68dc0745 |
727 | =head2 How do I change the Nth occurrence of something? |
728 | |
92c2ed05 |
729 | You have to keep track of N yourself. For example, let's say you want |
730 | to change the fifth occurrence of C<"whoever"> or C<"whomever"> into |
d92eb7b0 |
731 | C<"whosoever"> or C<"whomsoever">, case insensitively. These |
732 | all assume that $_ contains the string to be altered. |
68dc0745 |
733 | |
734 | $count = 0; |
735 | s{((whom?)ever)}{ |
736 | ++$count == 5 # is it the 5th? |
737 | ? "${2}soever" # yes, swap |
738 | : $1 # renege and leave it there |
d92eb7b0 |
739 | }ige; |
68dc0745 |
740 | |
5a964f20 |
741 | In the more general case, you can use the C</g> modifier in a C<while> |
742 | loop, keeping count of matches. |
743 | |
744 | $WANT = 3; |
745 | $count = 0; |
d92eb7b0 |
746 | $_ = "One fish two fish red fish blue fish"; |
5a964f20 |
747 | while (/(\w+)\s+fish\b/gi) { |
748 | if (++$count == $WANT) { |
749 | print "The third fish is a $1 one.\n"; |
5a964f20 |
750 | } |
751 | } |
752 | |
92c2ed05 |
753 | That prints out: C<"The third fish is a red one."> You can also use a |
5a964f20 |
754 | repetition count and repeated pattern like this: |
755 | |
756 | /(?:\w+\s+fish\s+){2}(\w+)\s+fish/i; |
757 | |
68dc0745 |
758 | =head2 How can I count the number of occurrences of a substring within a string? |
759 | |
a6dd486b |
760 | There are a number of ways, with varying efficiency. If you want a |
68dc0745 |
761 | count of a certain single character (X) within a string, you can use the |
762 | C<tr///> function like so: |
763 | |
368c9434 |
764 | $string = "ThisXlineXhasXsomeXx'sXinXit"; |
68dc0745 |
765 | $count = ($string =~ tr/X//); |
d92eb7b0 |
766 | print "There are $count X characters in the string"; |
68dc0745 |
767 | |
768 | This is fine if you are just looking for a single character. However, |
769 | if you are trying to count multiple character substrings within a |
770 | larger string, C<tr///> won't work. What you can do is wrap a while() |
771 | loop around a global pattern match. For example, let's count negative |
772 | integers: |
773 | |
774 | $string = "-9 55 48 -2 23 -76 4 14 -44"; |
775 | while ($string =~ /-\d+/g) { $count++ } |
776 | print "There are $count negative numbers in the string"; |
777 | |
881bdbd4 |
778 | Another version uses a global match in list context, then assigns the |
779 | result to a scalar, producing a count of the number of matches. |
780 | |
781 | $count = () = $string =~ /-\d+/g; |
782 | |
68dc0745 |
783 | =head2 How do I capitalize all the words on one line? |
784 | |
785 | To make the first letter of each word upper case: |
3fe9a6f1 |
786 | |
68dc0745 |
787 | $line =~ s/\b(\w)/\U$1/g; |
788 | |
46fc3d4c |
789 | This has the strange effect of turning "C<don't do it>" into "C<Don'T |
a6dd486b |
790 | Do It>". Sometimes you might want this. Other times you might need a |
24f1ba9b |
791 | more thorough solution (Suggested by brian d foy): |
46fc3d4c |
792 | |
793 | $string =~ s/ ( |
794 | (^\w) #at the beginning of the line |
795 | | # or |
796 | (\s\w) #preceded by whitespace |
797 | ) |
798 | /\U$1/xg; |
799 | $string =~ /([\w']+)/\u\L$1/g; |
800 | |
68dc0745 |
801 | To make the whole line upper case: |
3fe9a6f1 |
802 | |
68dc0745 |
803 | $line = uc($line); |
804 | |
805 | To force each word to be lower case, with the first letter upper case: |
3fe9a6f1 |
806 | |
68dc0745 |
807 | $line =~ s/(\w+)/\u\L$1/g; |
808 | |
5a964f20 |
809 | You can (and probably should) enable locale awareness of those |
810 | characters by placing a C<use locale> pragma in your program. |
92c2ed05 |
811 | See L<perllocale> for endless details on locales. |
5a964f20 |
812 | |
65acb1b1 |
813 | This is sometimes referred to as putting something into "title |
d92eb7b0 |
814 | case", but that's not quite accurate. Consider the proper |
65acb1b1 |
815 | capitalization of the movie I<Dr. Strangelove or: How I Learned to |
816 | Stop Worrying and Love the Bomb>, for example. |
817 | |
369b44b4 |
818 | Damian Conway's L<Text::Autoformat> module provides some smart |
819 | case transformations: |
820 | |
821 | use Text::Autoformat; |
822 | my $x = "Dr. Strangelove or: How I Learned to Stop ". |
823 | "Worrying and Love the Bomb"; |
824 | |
825 | print $x, "\n"; |
826 | for my $style (qw( sentence title highlight )) |
827 | { |
828 | print autoformat($x, { case => $style }), "\n"; |
829 | } |
830 | |
49d635f9 |
831 | =head2 How can I split a [character] delimited string except when inside [character]? |
68dc0745 |
832 | |
49d635f9 |
833 | Several modules can handle this sort of pasing---Text::Balanced, |
7678cced |
834 | Text::CSV, Text::CSV_XS, and Text::ParseWords, among others. |
49d635f9 |
835 | |
836 | Take the example case of trying to split a string that is |
837 | comma-separated into its different fields. You can't use C<split(/,/)> |
838 | because you shouldn't split if the comma is inside quotes. For |
839 | example, take a data line like this: |
68dc0745 |
840 | |
841 | SAR001,"","Cimetrix, Inc","Bob Smith","CAM",N,8,1,0,7,"Error, Core Dumped" |
842 | |
843 | Due to the restriction of the quotes, this is a fairly complex |
197aec24 |
844 | problem. Thankfully, we have Jeffrey Friedl, author of |
49d635f9 |
845 | I<Mastering Regular Expressions>, to handle these for us. He |
68dc0745 |
846 | suggests (assuming your string is contained in $text): |
847 | |
848 | @new = (); |
849 | push(@new, $+) while $text =~ m{ |
850 | "([^\"\\]*(?:\\.[^\"\\]*)*)",? # groups the phrase inside the quotes |
851 | | ([^,]+),? |
852 | | , |
853 | }gx; |
854 | push(@new, undef) if substr($text,-1,1) eq ','; |
855 | |
46fc3d4c |
856 | If you want to represent quotation marks inside a |
857 | quotation-mark-delimited field, escape them with backslashes (eg, |
49d635f9 |
858 | C<"like \"this\"">. |
46fc3d4c |
859 | |
87275199 |
860 | Alternatively, the Text::ParseWords module (part of the standard Perl |
68dc0745 |
861 | distribution) lets you say: |
862 | |
863 | use Text::ParseWords; |
864 | @new = quotewords(",", 0, $text); |
865 | |
a6dd486b |
866 | There's also a Text::CSV (Comma-Separated Values) module on CPAN. |
65acb1b1 |
867 | |
68dc0745 |
868 | =head2 How do I strip blank space from the beginning/end of a string? |
869 | |
6670e5e7 |
870 | (contributed by brian d foy) |
68dc0745 |
871 | |
6670e5e7 |
872 | A substitution can do this for you. For a single line, you want to |
873 | replace all the leading or trailing whitespace with nothing. You |
874 | can do that with a pair of substitutions. |
68dc0745 |
875 | |
6670e5e7 |
876 | s/^\s+//; |
877 | s/\s+$//; |
68dc0745 |
878 | |
6670e5e7 |
879 | You can also write that as a single substitution, although it turns |
880 | out the combined statement is slower than the separate ones. That |
881 | might not matter to you, though. |
68dc0745 |
882 | |
6670e5e7 |
883 | s/^\s+|\s+$//g; |
68dc0745 |
884 | |
6670e5e7 |
885 | In this regular expression, the alternation matches either at the |
886 | beginning or the end of the string since the anchors have a lower |
887 | precedence than the alternation. With the C</g> flag, the substitution |
888 | makes all possible matches, so it gets both. Remember, the trailing |
889 | newline matches the C<\s+>, and the C<$> anchor can match to the |
890 | physical end of the string, so the newline disappears too. Just add |
891 | the newline to the output, which has the added benefit of preserving |
892 | "blank" (consisting entirely of whitespace) lines which the C<^\s+> |
893 | would remove all by itself. |
68dc0745 |
894 | |
6670e5e7 |
895 | while( <> ) |
896 | { |
897 | s/^\s+|\s+$//g; |
898 | print "$_\n"; |
899 | } |
5a964f20 |
900 | |
6670e5e7 |
901 | For a multi-line string, you can apply the regular expression |
902 | to each logical line in the string by adding the C</m> flag (for |
903 | "multi-line"). With the C</m> flag, the C<$> matches I<before> an |
904 | embedded newline, so it doesn't remove it. It still removes the |
905 | newline at the end of the string. |
906 | |
907 | $string =~ s/^\s+|\s+$//gm; |
908 | |
909 | Remember that lines consisting entirely of whitespace will disappear, |
910 | since the first part of the alternation can match the entire string |
911 | and replace it with nothing. If need to keep embedded blank lines, |
912 | you have to do a little more work. Instead of matching any whitespace |
913 | (since that includes a newline), just match the other whitespace. |
914 | |
915 | $string =~ s/^[\t\f ]+|[\t\f ]+$//mg; |
5a964f20 |
916 | |
65acb1b1 |
917 | =head2 How do I pad a string with blanks or pad a number with zeroes? |
918 | |
65acb1b1 |
919 | In the following examples, C<$pad_len> is the length to which you wish |
d92eb7b0 |
920 | to pad the string, C<$text> or C<$num> contains the string to be padded, |
921 | and C<$pad_char> contains the padding character. You can use a single |
922 | character string constant instead of the C<$pad_char> variable if you |
923 | know what it is in advance. And in the same way you can use an integer in |
924 | place of C<$pad_len> if you know the pad length in advance. |
65acb1b1 |
925 | |
d92eb7b0 |
926 | The simplest method uses the C<sprintf> function. It can pad on the left |
927 | or right with blanks and on the left with zeroes and it will not |
928 | truncate the result. The C<pack> function can only pad strings on the |
929 | right with blanks and it will truncate the result to a maximum length of |
930 | C<$pad_len>. |
65acb1b1 |
931 | |
d92eb7b0 |
932 | # Left padding a string with blanks (no truncation): |
04d666b1 |
933 | $padded = sprintf("%${pad_len}s", $text); |
934 | $padded = sprintf("%*s", $pad_len, $text); # same thing |
65acb1b1 |
935 | |
d92eb7b0 |
936 | # Right padding a string with blanks (no truncation): |
04d666b1 |
937 | $padded = sprintf("%-${pad_len}s", $text); |
938 | $padded = sprintf("%-*s", $pad_len, $text); # same thing |
65acb1b1 |
939 | |
197aec24 |
940 | # Left padding a number with 0 (no truncation): |
04d666b1 |
941 | $padded = sprintf("%0${pad_len}d", $num); |
942 | $padded = sprintf("%0*d", $pad_len, $num); # same thing |
65acb1b1 |
943 | |
d92eb7b0 |
944 | # Right padding a string with blanks using pack (will truncate): |
945 | $padded = pack("A$pad_len",$text); |
65acb1b1 |
946 | |
d92eb7b0 |
947 | If you need to pad with a character other than blank or zero you can use |
948 | one of the following methods. They all generate a pad string with the |
949 | C<x> operator and combine that with C<$text>. These methods do |
950 | not truncate C<$text>. |
65acb1b1 |
951 | |
d92eb7b0 |
952 | Left and right padding with any character, creating a new string: |
65acb1b1 |
953 | |
d92eb7b0 |
954 | $padded = $pad_char x ( $pad_len - length( $text ) ) . $text; |
955 | $padded = $text . $pad_char x ( $pad_len - length( $text ) ); |
65acb1b1 |
956 | |
d92eb7b0 |
957 | Left and right padding with any character, modifying C<$text> directly: |
65acb1b1 |
958 | |
d92eb7b0 |
959 | substr( $text, 0, 0 ) = $pad_char x ( $pad_len - length( $text ) ); |
960 | $text .= $pad_char x ( $pad_len - length( $text ) ); |
65acb1b1 |
961 | |
68dc0745 |
962 | =head2 How do I extract selected columns from a string? |
963 | |
964 | Use substr() or unpack(), both documented in L<perlfunc>. |
197aec24 |
965 | If you prefer thinking in terms of columns instead of widths, |
5a964f20 |
966 | you can use this kind of thing: |
967 | |
968 | # determine the unpack format needed to split Linux ps output |
969 | # arguments are cut columns |
970 | my $fmt = cut2fmt(8, 14, 20, 26, 30, 34, 41, 47, 59, 63, 67, 72); |
971 | |
197aec24 |
972 | sub cut2fmt { |
5a964f20 |
973 | my(@positions) = @_; |
974 | my $template = ''; |
975 | my $lastpos = 1; |
976 | for my $place (@positions) { |
197aec24 |
977 | $template .= "A" . ($place - $lastpos) . " "; |
5a964f20 |
978 | $lastpos = $place; |
979 | } |
980 | $template .= "A*"; |
981 | return $template; |
982 | } |
68dc0745 |
983 | |
984 | =head2 How do I find the soundex value of a string? |
985 | |
7678cced |
986 | (contributed by brian d foy) |
987 | |
988 | You can use the Text::Soundex module. If you want to do fuzzy or close |
989 | matching, you might also try the String::Approx, and Text::Metaphone, |
990 | and Text::DoubleMetaphone modules. |
68dc0745 |
991 | |
992 | =head2 How can I expand variables in text strings? |
993 | |
7678cced |
994 | Let's assume that you have a string that contains placeholder |
995 | variables. |
68dc0745 |
996 | |
997 | $text = 'this has a $foo in it and a $bar'; |
5a964f20 |
998 | |
7678cced |
999 | You can use a substitution with a double evaluation. The |
1000 | first /e turns C<$1> into C<$foo>, and the second /e turns |
1001 | C<$foo> into its value. You may want to wrap this in an |
1002 | C<eval>: if you try to get the value of an undeclared variable |
1003 | while running under C<use strict>, you get a fatal error. |
5a964f20 |
1004 | |
7678cced |
1005 | eval { $text =~ s/(\$\w+)/$1/eeg }; |
1006 | die if $@; |
68dc0745 |
1007 | |
5a964f20 |
1008 | It's probably better in the general case to treat those |
1009 | variables as entries in some special hash. For example: |
1010 | |
197aec24 |
1011 | %user_defs = ( |
5a964f20 |
1012 | foo => 23, |
1013 | bar => 19, |
1014 | ); |
1015 | $text =~ s/\$(\w+)/$user_defs{$1}/g; |
68dc0745 |
1016 | |
1017 | =head2 What's wrong with always quoting "$vars"? |
1018 | |
a6dd486b |
1019 | The problem is that those double-quotes force stringification-- |
1020 | coercing numbers and references into strings--even when you |
1021 | don't want them to be strings. Think of it this way: double-quote |
197aec24 |
1022 | expansion is used to produce new strings. If you already |
65acb1b1 |
1023 | have a string, why do you need more? |
68dc0745 |
1024 | |
1025 | If you get used to writing odd things like these: |
1026 | |
1027 | print "$var"; # BAD |
1028 | $new = "$old"; # BAD |
1029 | somefunc("$var"); # BAD |
1030 | |
1031 | You'll be in trouble. Those should (in 99.8% of the cases) be |
1032 | the simpler and more direct: |
1033 | |
1034 | print $var; |
1035 | $new = $old; |
1036 | somefunc($var); |
1037 | |
1038 | Otherwise, besides slowing you down, you're going to break code when |
1039 | the thing in the scalar is actually neither a string nor a number, but |
1040 | a reference: |
1041 | |
1042 | func(\@array); |
1043 | sub func { |
1044 | my $aref = shift; |
1045 | my $oref = "$aref"; # WRONG |
1046 | } |
1047 | |
1048 | You can also get into subtle problems on those few operations in Perl |
1049 | that actually do care about the difference between a string and a |
1050 | number, such as the magical C<++> autoincrement operator or the |
1051 | syscall() function. |
1052 | |
197aec24 |
1053 | Stringification also destroys arrays. |
5a964f20 |
1054 | |
1055 | @lines = `command`; |
1056 | print "@lines"; # WRONG - extra blanks |
1057 | print @lines; # right |
1058 | |
04d666b1 |
1059 | =head2 Why don't my E<lt>E<lt>HERE documents work? |
68dc0745 |
1060 | |
1061 | Check for these three things: |
1062 | |
1063 | =over 4 |
1064 | |
04d666b1 |
1065 | =item There must be no space after the E<lt>E<lt> part. |
68dc0745 |
1066 | |
197aec24 |
1067 | =item There (probably) should be a semicolon at the end. |
68dc0745 |
1068 | |
197aec24 |
1069 | =item You can't (easily) have any space in front of the tag. |
68dc0745 |
1070 | |
1071 | =back |
1072 | |
197aec24 |
1073 | If you want to indent the text in the here document, you |
5a964f20 |
1074 | can do this: |
1075 | |
1076 | # all in one |
1077 | ($VAR = <<HERE_TARGET) =~ s/^\s+//gm; |
1078 | your text |
1079 | goes here |
1080 | HERE_TARGET |
1081 | |
1082 | But the HERE_TARGET must still be flush against the margin. |
197aec24 |
1083 | If you want that indented also, you'll have to quote |
5a964f20 |
1084 | in the indentation. |
1085 | |
1086 | ($quote = <<' FINIS') =~ s/^\s+//gm; |
1087 | ...we will have peace, when you and all your works have |
1088 | perished--and the works of your dark master to whom you |
1089 | would deliver us. You are a liar, Saruman, and a corrupter |
1090 | of men's hearts. --Theoden in /usr/src/perl/taint.c |
1091 | FINIS |
83ded9ee |
1092 | $quote =~ s/\s+--/\n--/; |
5a964f20 |
1093 | |
1094 | A nice general-purpose fixer-upper function for indented here documents |
1095 | follows. It expects to be called with a here document as its argument. |
1096 | It looks to see whether each line begins with a common substring, and |
a6dd486b |
1097 | if so, strips that substring off. Otherwise, it takes the amount of leading |
1098 | whitespace found on the first line and removes that much off each |
5a964f20 |
1099 | subsequent line. |
1100 | |
1101 | sub fix { |
1102 | local $_ = shift; |
a6dd486b |
1103 | my ($white, $leader); # common whitespace and common leading string |
5a964f20 |
1104 | if (/^\s*(?:([^\w\s]+)(\s*).*\n)(?:\s*\1\2?.*\n)+$/) { |
1105 | ($white, $leader) = ($2, quotemeta($1)); |
1106 | } else { |
1107 | ($white, $leader) = (/^(\s+)/, ''); |
1108 | } |
1109 | s/^\s*?$leader(?:$white)?//gm; |
1110 | return $_; |
1111 | } |
1112 | |
c8db1d39 |
1113 | This works with leading special strings, dynamically determined: |
5a964f20 |
1114 | |
1115 | $remember_the_main = fix<<' MAIN_INTERPRETER_LOOP'; |
1116 | @@@ int |
1117 | @@@ runops() { |
1118 | @@@ SAVEI32(runlevel); |
1119 | @@@ runlevel++; |
d92eb7b0 |
1120 | @@@ while ( op = (*op->op_ppaddr)() ); |
5a964f20 |
1121 | @@@ TAINT_NOT; |
1122 | @@@ return 0; |
1123 | @@@ } |
1124 | MAIN_INTERPRETER_LOOP |
1125 | |
a6dd486b |
1126 | Or with a fixed amount of leading whitespace, with remaining |
5a964f20 |
1127 | indentation correctly preserved: |
1128 | |
1129 | $poem = fix<<EVER_ON_AND_ON; |
1130 | Now far ahead the Road has gone, |
1131 | And I must follow, if I can, |
1132 | Pursuing it with eager feet, |
1133 | Until it joins some larger way |
1134 | Where many paths and errands meet. |
1135 | And whither then? I cannot say. |
1136 | --Bilbo in /usr/src/perl/pp_ctl.c |
1137 | EVER_ON_AND_ON |
1138 | |
68dc0745 |
1139 | =head1 Data: Arrays |
1140 | |
65acb1b1 |
1141 | =head2 What is the difference between a list and an array? |
1142 | |
1143 | An array has a changeable length. A list does not. An array is something |
1144 | you can push or pop, while a list is a set of values. Some people make |
1145 | the distinction that a list is a value while an array is a variable. |
1146 | Subroutines are passed and return lists, you put things into list |
1147 | context, you initialize arrays with lists, and you foreach() across |
1148 | a list. C<@> variables are arrays, anonymous arrays are arrays, arrays |
1149 | in scalar context behave like the number of elements in them, subroutines |
a6dd486b |
1150 | access their arguments through the array C<@_>, and push/pop/shift only work |
65acb1b1 |
1151 | on arrays. |
1152 | |
1153 | As a side note, there's no such thing as a list in scalar context. |
1154 | When you say |
1155 | |
1156 | $scalar = (2, 5, 7, 9); |
1157 | |
d92eb7b0 |
1158 | you're using the comma operator in scalar context, so it uses the scalar |
1159 | comma operator. There never was a list there at all! This causes the |
1160 | last value to be returned: 9. |
65acb1b1 |
1161 | |
68dc0745 |
1162 | =head2 What is the difference between $array[1] and @array[1]? |
1163 | |
a6dd486b |
1164 | The former is a scalar value; the latter an array slice, making |
68dc0745 |
1165 | it a list with one (scalar) value. You should use $ when you want a |
1166 | scalar value (most of the time) and @ when you want a list with one |
1167 | scalar value in it (very, very rarely; nearly never, in fact). |
1168 | |
1169 | Sometimes it doesn't make a difference, but sometimes it does. |
1170 | For example, compare: |
1171 | |
1172 | $good[0] = `some program that outputs several lines`; |
1173 | |
1174 | with |
1175 | |
1176 | @bad[0] = `same program that outputs several lines`; |
1177 | |
197aec24 |
1178 | The C<use warnings> pragma and the B<-w> flag will warn you about these |
9f1b1f2d |
1179 | matters. |
68dc0745 |
1180 | |
d92eb7b0 |
1181 | =head2 How can I remove duplicate elements from a list or array? |
68dc0745 |
1182 | |
6670e5e7 |
1183 | (contributed by brian d foy) |
68dc0745 |
1184 | |
6670e5e7 |
1185 | Use a hash. When you think the words "unique" or "duplicated", think |
1186 | "hash keys". |
68dc0745 |
1187 | |
6670e5e7 |
1188 | If you don't care about the order of the elements, you could just |
1189 | create the hash then extract the keys. It's not important how you |
1190 | create that hash: just that you use C<keys> to get the unique |
1191 | elements. |
551e1d92 |
1192 | |
6670e5e7 |
1193 | my %hash = map { $_, 1 } @array; |
1194 | # or a hash slice: @hash{ @array } = (); |
1195 | # or a foreach: $hash{$_} = 1 foreach ( @array ); |
68dc0745 |
1196 | |
6670e5e7 |
1197 | my @unique = keys %hash; |
68dc0745 |
1198 | |
6670e5e7 |
1199 | You can also go through each element and skip the ones you've seen |
1200 | before. Use a hash to keep track. The first time the loop sees an |
1201 | element, that element has no key in C<%Seen>. The C<next> statement |
1202 | creates the key and immediately uses its value, which is C<undef>, so |
1203 | the loop continues to the C<push> and increments the value for that |
1204 | key. The next time the loop sees that same element, its key exists in |
1205 | the hash I<and> the value for that key is true (since it's not 0 or |
1206 | undef), so the next skips that iteration and the loop goes to the next |
1207 | element. |
551e1d92 |
1208 | |
6670e5e7 |
1209 | my @unique = (); |
1210 | my %seen = (); |
68dc0745 |
1211 | |
6670e5e7 |
1212 | foreach my $elem ( @array ) |
1213 | { |
1214 | next if $seen{ $elem }++; |
1215 | push @unique, $elem; |
1216 | } |
68dc0745 |
1217 | |
6670e5e7 |
1218 | You can write this more briefly using a grep, which does the |
1219 | same thing. |
68dc0745 |
1220 | |
6670e5e7 |
1221 | my %seen = (); |
1222 | my @unique = grep { ! $seen{ $_ }++ } @array; |
65acb1b1 |
1223 | |
ddbc1f16 |
1224 | =head2 How can I tell whether a certain element is contained in a list or array? |
5a964f20 |
1225 | |
9e72e4c6 |
1226 | (portions of this answer contributed by Anno Siegel) |
1227 | |
5a964f20 |
1228 | Hearing the word "in" is an I<in>dication that you probably should have |
1229 | used a hash, not a list or array, to store your data. Hashes are |
1230 | designed to answer this question quickly and efficiently. Arrays aren't. |
68dc0745 |
1231 | |
5a964f20 |
1232 | That being said, there are several ways to approach this. If you |
1233 | are going to make this query many times over arbitrary string values, |
881bdbd4 |
1234 | the fastest way is probably to invert the original array and maintain a |
1235 | hash whose keys are the first array's values. |
68dc0745 |
1236 | |
1237 | @blues = qw/azure cerulean teal turquoise lapis-lazuli/; |
881bdbd4 |
1238 | %is_blue = (); |
68dc0745 |
1239 | for (@blues) { $is_blue{$_} = 1 } |
1240 | |
1241 | Now you can check whether $is_blue{$some_color}. It might have been a |
1242 | good idea to keep the blues all in a hash in the first place. |
1243 | |
1244 | If the values are all small integers, you could use a simple indexed |
1245 | array. This kind of an array will take up less space: |
1246 | |
1247 | @primes = (2, 3, 5, 7, 11, 13, 17, 19, 23, 29, 31); |
881bdbd4 |
1248 | @is_tiny_prime = (); |
d92eb7b0 |
1249 | for (@primes) { $is_tiny_prime[$_] = 1 } |
1250 | # or simply @istiny_prime[@primes] = (1) x @primes; |
68dc0745 |
1251 | |
1252 | Now you check whether $is_tiny_prime[$some_number]. |
1253 | |
1254 | If the values in question are integers instead of strings, you can save |
1255 | quite a lot of space by using bit strings instead: |
1256 | |
1257 | @articles = ( 1..10, 150..2000, 2017 ); |
1258 | undef $read; |
7b8d334a |
1259 | for (@articles) { vec($read,$_,1) = 1 } |
68dc0745 |
1260 | |
1261 | Now check whether C<vec($read,$n,1)> is true for some C<$n>. |
1262 | |
9e72e4c6 |
1263 | These methods guarantee fast individual tests but require a re-organization |
1264 | of the original list or array. They only pay off if you have to test |
1265 | multiple values against the same array. |
68dc0745 |
1266 | |
9e72e4c6 |
1267 | If you are testing only once, the standard module List::Util exports |
1268 | the function C<first> for this purpose. It works by stopping once it |
1269 | finds the element. It's written in C for speed, and its Perl equivalant |
1270 | looks like this subroutine: |
68dc0745 |
1271 | |
9e72e4c6 |
1272 | sub first (&@) { |
1273 | my $code = shift; |
1274 | foreach (@_) { |
1275 | return $_ if &{$code}(); |
1276 | } |
1277 | undef; |
1278 | } |
68dc0745 |
1279 | |
9e72e4c6 |
1280 | If speed is of little concern, the common idiom uses grep in scalar context |
1281 | (which returns the number of items that passed its condition) to traverse the |
1282 | entire list. This does have the benefit of telling you how many matches it |
1283 | found, though. |
68dc0745 |
1284 | |
9e72e4c6 |
1285 | my $is_there = grep $_ eq $whatever, @array; |
65acb1b1 |
1286 | |
9e72e4c6 |
1287 | If you want to actually extract the matching elements, simply use grep in |
1288 | list context. |
68dc0745 |
1289 | |
9e72e4c6 |
1290 | my @matches = grep $_ eq $whatever, @array; |
58103a2e |
1291 | |
68dc0745 |
1292 | =head2 How do I compute the difference of two arrays? How do I compute the intersection of two arrays? |
1293 | |
1294 | Use a hash. Here's code to do both and more. It assumes that |
1295 | each element is unique in a given array: |
1296 | |
1297 | @union = @intersection = @difference = (); |
1298 | %count = (); |
1299 | foreach $element (@array1, @array2) { $count{$element}++ } |
1300 | foreach $element (keys %count) { |
1301 | push @union, $element; |
1302 | push @{ $count{$element} > 1 ? \@intersection : \@difference }, $element; |
1303 | } |
1304 | |
d92eb7b0 |
1305 | Note that this is the I<symmetric difference>, that is, all elements in |
a6dd486b |
1306 | either A or in B but not in both. Think of it as an xor operation. |
d92eb7b0 |
1307 | |
65acb1b1 |
1308 | =head2 How do I test whether two arrays or hashes are equal? |
1309 | |
1310 | The following code works for single-level arrays. It uses a stringwise |
1311 | comparison, and does not distinguish defined versus undefined empty |
1312 | strings. Modify if you have other needs. |
1313 | |
1314 | $are_equal = compare_arrays(\@frogs, \@toads); |
1315 | |
1316 | sub compare_arrays { |
1317 | my ($first, $second) = @_; |
9f1b1f2d |
1318 | no warnings; # silence spurious -w undef complaints |
65acb1b1 |
1319 | return 0 unless @$first == @$second; |
1320 | for (my $i = 0; $i < @$first; $i++) { |
1321 | return 0 if $first->[$i] ne $second->[$i]; |
1322 | } |
1323 | return 1; |
1324 | } |
1325 | |
1326 | For multilevel structures, you may wish to use an approach more |
1327 | like this one. It uses the CPAN module FreezeThaw: |
1328 | |
1329 | use FreezeThaw qw(cmpStr); |
1330 | @a = @b = ( "this", "that", [ "more", "stuff" ] ); |
1331 | |
1332 | printf "a and b contain %s arrays\n", |
197aec24 |
1333 | cmpStr(\@a, \@b) == 0 |
1334 | ? "the same" |
65acb1b1 |
1335 | : "different"; |
1336 | |
1337 | This approach also works for comparing hashes. Here |
1338 | we'll demonstrate two different answers: |
1339 | |
1340 | use FreezeThaw qw(cmpStr cmpStrHard); |
1341 | |
1342 | %a = %b = ( "this" => "that", "extra" => [ "more", "stuff" ] ); |
1343 | $a{EXTRA} = \%b; |
197aec24 |
1344 | $b{EXTRA} = \%a; |
65acb1b1 |
1345 | |
1346 | printf "a and b contain %s hashes\n", |
1347 | cmpStr(\%a, \%b) == 0 ? "the same" : "different"; |
1348 | |
1349 | printf "a and b contain %s hashes\n", |
1350 | cmpStrHard(\%a, \%b) == 0 ? "the same" : "different"; |
1351 | |
1352 | |
1353 | The first reports that both those the hashes contain the same data, |
1354 | while the second reports that they do not. Which you prefer is left as |
1355 | an exercise to the reader. |
1356 | |
68dc0745 |
1357 | =head2 How do I find the first array element for which a condition is true? |
1358 | |
49d635f9 |
1359 | To find the first array element which satisfies a condition, you can |
1360 | use the first() function in the List::Util module, which comes with |
1361 | Perl 5.8. This example finds the first element that contains "Perl". |
1362 | |
1363 | use List::Util qw(first); |
197aec24 |
1364 | |
49d635f9 |
1365 | my $element = first { /Perl/ } @array; |
197aec24 |
1366 | |
49d635f9 |
1367 | If you cannot use List::Util, you can make your own loop to do the |
1368 | same thing. Once you find the element, you stop the loop with last. |
1369 | |
1370 | my $found; |
6670e5e7 |
1371 | foreach ( @array ) |
49d635f9 |
1372 | { |
6670e5e7 |
1373 | if( /Perl/ ) { $found = $_; last } |
49d635f9 |
1374 | } |
1375 | |
1376 | If you want the array index, you can iterate through the indices |
1377 | and check the array element at each index until you find one |
1378 | that satisfies the condition. |
1379 | |
197aec24 |
1380 | my( $found, $index ) = ( undef, -1 ); |
6670e5e7 |
1381 | for( $i = 0; $i < @array; $i++ ) |
1382 | { |
1383 | if( $array[$i] =~ /Perl/ ) |
1384 | { |
1385 | $found = $array[$i]; |
1386 | $index = $i; |
1387 | last; |
1388 | } |
1389 | } |
68dc0745 |
1390 | |
1391 | =head2 How do I handle linked lists? |
1392 | |
1393 | In general, you usually don't need a linked list in Perl, since with |
1394 | regular arrays, you can push and pop or shift and unshift at either end, |
5a964f20 |
1395 | or you can use splice to add and/or remove arbitrary number of elements at |
87275199 |
1396 | arbitrary points. Both pop and shift are both O(1) operations on Perl's |
5a964f20 |
1397 | dynamic arrays. In the absence of shifts and pops, push in general |
1398 | needs to reallocate on the order every log(N) times, and unshift will |
1399 | need to copy pointers each time. |
68dc0745 |
1400 | |
1401 | If you really, really wanted, you could use structures as described in |
1402 | L<perldsc> or L<perltoot> and do just what the algorithm book tells you |
65acb1b1 |
1403 | to do. For example, imagine a list node like this: |
1404 | |
1405 | $node = { |
1406 | VALUE => 42, |
1407 | LINK => undef, |
1408 | }; |
1409 | |
1410 | You could walk the list this way: |
1411 | |
1412 | print "List: "; |
1413 | for ($node = $head; $node; $node = $node->{LINK}) { |
1414 | print $node->{VALUE}, " "; |
1415 | } |
1416 | print "\n"; |
1417 | |
a6dd486b |
1418 | You could add to the list this way: |
65acb1b1 |
1419 | |
1420 | my ($head, $tail); |
1421 | $tail = append($head, 1); # grow a new head |
1422 | for $value ( 2 .. 10 ) { |
1423 | $tail = append($tail, $value); |
1424 | } |
1425 | |
1426 | sub append { |
1427 | my($list, $value) = @_; |
1428 | my $node = { VALUE => $value }; |
1429 | if ($list) { |
1430 | $node->{LINK} = $list->{LINK}; |
1431 | $list->{LINK} = $node; |
1432 | } else { |
1433 | $_[0] = $node; # replace caller's version |
1434 | } |
1435 | return $node; |
1436 | } |
1437 | |
1438 | But again, Perl's built-in are virtually always good enough. |
68dc0745 |
1439 | |
1440 | =head2 How do I handle circular lists? |
1441 | |
1442 | Circular lists could be handled in the traditional fashion with linked |
1443 | lists, or you could just do something like this with an array: |
1444 | |
1445 | unshift(@array, pop(@array)); # the last shall be first |
1446 | push(@array, shift(@array)); # and vice versa |
1447 | |
1448 | =head2 How do I shuffle an array randomly? |
1449 | |
45bbf655 |
1450 | If you either have Perl 5.8.0 or later installed, or if you have |
1451 | Scalar-List-Utils 1.03 or later installed, you can say: |
1452 | |
f05bbc40 |
1453 | use List::Util 'shuffle'; |
45bbf655 |
1454 | |
1455 | @shuffled = shuffle(@list); |
1456 | |
f05bbc40 |
1457 | If not, you can use a Fisher-Yates shuffle. |
5a964f20 |
1458 | |
5a964f20 |
1459 | sub fisher_yates_shuffle { |
cc30d1a7 |
1460 | my $deck = shift; # $deck is a reference to an array |
1461 | my $i = @$deck; |
6670e5e7 |
1462 | while (--$i) { |
5a964f20 |
1463 | my $j = int rand ($i+1); |
cc30d1a7 |
1464 | @$deck[$i,$j] = @$deck[$j,$i]; |
5a964f20 |
1465 | } |
1466 | } |
1467 | |
cc30d1a7 |
1468 | # shuffle my mpeg collection |
1469 | # |
1470 | my @mpeg = <audio/*/*.mp3>; |
1471 | fisher_yates_shuffle( \@mpeg ); # randomize @mpeg in place |
1472 | print @mpeg; |
5a964f20 |
1473 | |
45bbf655 |
1474 | Note that the above implementation shuffles an array in place, |
1475 | unlike the List::Util::shuffle() which takes a list and returns |
1476 | a new shuffled list. |
1477 | |
d92eb7b0 |
1478 | You've probably seen shuffling algorithms that work using splice, |
a6dd486b |
1479 | randomly picking another element to swap the current element with |
68dc0745 |
1480 | |
1481 | srand; |
1482 | @new = (); |
1483 | @old = 1 .. 10; # just a demo |
1484 | while (@old) { |
1485 | push(@new, splice(@old, rand @old, 1)); |
1486 | } |
1487 | |
5a964f20 |
1488 | This is bad because splice is already O(N), and since you do it N times, |
1489 | you just invented a quadratic algorithm; that is, O(N**2). This does |
1490 | not scale, although Perl is so efficient that you probably won't notice |
1491 | this until you have rather largish arrays. |
68dc0745 |
1492 | |
1493 | =head2 How do I process/modify each element of an array? |
1494 | |
1495 | Use C<for>/C<foreach>: |
1496 | |
1497 | for (@lines) { |
6670e5e7 |
1498 | s/foo/bar/; # change that word |
1499 | tr/XZ/ZX/; # swap those letters |
68dc0745 |
1500 | } |
1501 | |
1502 | Here's another; let's compute spherical volumes: |
1503 | |
5a964f20 |
1504 | for (@volumes = @radii) { # @volumes has changed parts |
6670e5e7 |
1505 | $_ **= 3; |
1506 | $_ *= (4/3) * 3.14159; # this will be constant folded |
68dc0745 |
1507 | } |
197aec24 |
1508 | |
49d635f9 |
1509 | which can also be done with map() which is made to transform |
1510 | one list into another: |
1511 | |
1512 | @volumes = map {$_ ** 3 * (4/3) * 3.14159} @radii; |
68dc0745 |
1513 | |
76817d6d |
1514 | If you want to do the same thing to modify the values of the |
1515 | hash, you can use the C<values> function. As of Perl 5.6 |
1516 | the values are not copied, so if you modify $orbit (in this |
1517 | case), you modify the value. |
5a964f20 |
1518 | |
76817d6d |
1519 | for $orbit ( values %orbits ) { |
6670e5e7 |
1520 | ($orbit **= 3) *= (4/3) * 3.14159; |
5a964f20 |
1521 | } |
818c4caa |
1522 | |
76817d6d |
1523 | Prior to perl 5.6 C<values> returned copies of the values, |
1524 | so older perl code often contains constructions such as |
1525 | C<@orbits{keys %orbits}> instead of C<values %orbits> where |
1526 | the hash is to be modified. |
818c4caa |
1527 | |
68dc0745 |
1528 | =head2 How do I select a random element from an array? |
1529 | |
1530 | Use the rand() function (see L<perlfunc/rand>): |
1531 | |
68dc0745 |
1532 | $index = rand @array; |
1533 | $element = $array[$index]; |
1534 | |
793f5136 |
1535 | Or, simply: |
1536 | my $element = $array[ rand @array ]; |
5a964f20 |
1537 | |
68dc0745 |
1538 | =head2 How do I permute N elements of a list? |
1539 | |
49d635f9 |
1540 | Use the List::Permutor module on CPAN. If the list is |
1541 | actually an array, try the Algorithm::Permute module (also |
1542 | on CPAN). It's written in XS code and is very efficient. |
1543 | |
1544 | use Algorithm::Permute; |
1545 | my @array = 'a'..'d'; |
1546 | my $p_iterator = Algorithm::Permute->new ( \@array ); |
1547 | while (my @perm = $p_iterator->next) { |
1548 | print "next permutation: (@perm)\n"; |
1549 | } |
1550 | |
197aec24 |
1551 | For even faster execution, you could do: |
1552 | |
1553 | use Algorithm::Permute; |
1554 | my @array = 'a'..'d'; |
1555 | Algorithm::Permute::permute { |
1556 | print "next permutation: (@array)\n"; |
1557 | } @array; |
1558 | |
49d635f9 |
1559 | Here's a little program that generates all permutations of |
1560 | all the words on each line of input. The algorithm embodied |
1561 | in the permute() function is discussed in Volume 4 (still |
1562 | unpublished) of Knuth's I<The Art of Computer Programming> |
1563 | and will work on any list: |
1564 | |
1565 | #!/usr/bin/perl -n |
1566 | # Fischer-Kause ordered permutation generator |
1567 | |
1568 | sub permute (&@) { |
1569 | my $code = shift; |
1570 | my @idx = 0..$#_; |
1571 | while ( $code->(@_[@idx]) ) { |
1572 | my $p = $#idx; |
1573 | --$p while $idx[$p-1] > $idx[$p]; |
1574 | my $q = $p or return; |
1575 | push @idx, reverse splice @idx, $p; |
1576 | ++$q while $idx[$p-1] > $idx[$q]; |
1577 | @idx[$p-1,$q]=@idx[$q,$p-1]; |
1578 | } |
68dc0745 |
1579 | } |
68dc0745 |
1580 | |
49d635f9 |
1581 | permute {print"@_\n"} split; |
b8d2732a |
1582 | |
68dc0745 |
1583 | =head2 How do I sort an array by (anything)? |
1584 | |
1585 | Supply a comparison function to sort() (described in L<perlfunc/sort>): |
1586 | |
1587 | @list = sort { $a <=> $b } @list; |
1588 | |
1589 | The default sort function is cmp, string comparison, which would |
c47ff5f1 |
1590 | sort C<(1, 2, 10)> into C<(1, 10, 2)>. C<< <=> >>, used above, is |
68dc0745 |
1591 | the numerical comparison operator. |
1592 | |
1593 | If you have a complicated function needed to pull out the part you |
1594 | want to sort on, then don't do it inside the sort function. Pull it |
1595 | out first, because the sort BLOCK can be called many times for the |
1596 | same element. Here's an example of how to pull out the first word |
1597 | after the first number on each item, and then sort those words |
1598 | case-insensitively. |
1599 | |
1600 | @idx = (); |
1601 | for (@data) { |
1602 | ($item) = /\d+\s*(\S+)/; |
1603 | push @idx, uc($item); |
1604 | } |
1605 | @sorted = @data[ sort { $idx[$a] cmp $idx[$b] } 0 .. $#idx ]; |
1606 | |
a6dd486b |
1607 | which could also be written this way, using a trick |
68dc0745 |
1608 | that's come to be known as the Schwartzian Transform: |
1609 | |
1610 | @sorted = map { $_->[0] } |
1611 | sort { $a->[1] cmp $b->[1] } |
d92eb7b0 |
1612 | map { [ $_, uc( (/\d+\s*(\S+)/)[0]) ] } @data; |
68dc0745 |
1613 | |
1614 | If you need to sort on several fields, the following paradigm is useful. |
1615 | |
1616 | @sorted = sort { field1($a) <=> field1($b) || |
1617 | field2($a) cmp field2($b) || |
1618 | field3($a) cmp field3($b) |
1619 | } @data; |
1620 | |
1621 | This can be conveniently combined with precalculation of keys as given |
1622 | above. |
1623 | |
379e39d7 |
1624 | See the F<sort> article in the "Far More Than You Ever Wanted |
49d635f9 |
1625 | To Know" collection in http://www.cpan.org/misc/olddoc/FMTEYEWTK.tgz for |
06a5f41f |
1626 | more about this approach. |
68dc0745 |
1627 | |
1628 | See also the question below on sorting hashes. |
1629 | |
1630 | =head2 How do I manipulate arrays of bits? |
1631 | |
1632 | Use pack() and unpack(), or else vec() and the bitwise operations. |
1633 | |
1634 | For example, this sets $vec to have bit N set if $ints[N] was set: |
1635 | |
1636 | $vec = ''; |
1637 | foreach(@ints) { vec($vec,$_,1) = 1 } |
1638 | |
cc30d1a7 |
1639 | Here's how, given a vector in $vec, you can |
68dc0745 |
1640 | get those bits into your @ints array: |
1641 | |
1642 | sub bitvec_to_list { |
1643 | my $vec = shift; |
1644 | my @ints; |
1645 | # Find null-byte density then select best algorithm |
1646 | if ($vec =~ tr/\0// / length $vec > 0.95) { |
1647 | use integer; |
1648 | my $i; |
1649 | # This method is faster with mostly null-bytes |
1650 | while($vec =~ /[^\0]/g ) { |
1651 | $i = -9 + 8 * pos $vec; |
1652 | push @ints, $i if vec($vec, ++$i, 1); |
1653 | push @ints, $i if vec($vec, ++$i, 1); |
1654 | push @ints, $i if vec($vec, ++$i, 1); |
1655 | push @ints, $i if vec($vec, ++$i, 1); |
1656 | push @ints, $i if vec($vec, ++$i, 1); |
1657 | push @ints, $i if vec($vec, ++$i, 1); |
1658 | push @ints, $i if vec($vec, ++$i, 1); |
1659 | push @ints, $i if vec($vec, ++$i, 1); |
1660 | } |
1661 | } else { |
1662 | # This method is a fast general algorithm |
1663 | use integer; |
1664 | my $bits = unpack "b*", $vec; |
1665 | push @ints, 0 if $bits =~ s/^(\d)// && $1; |
1666 | push @ints, pos $bits while($bits =~ /1/g); |
1667 | } |
1668 | return \@ints; |
1669 | } |
1670 | |
1671 | This method gets faster the more sparse the bit vector is. |
1672 | (Courtesy of Tim Bunce and Winfried Koenig.) |
1673 | |
76817d6d |
1674 | You can make the while loop a lot shorter with this suggestion |
1675 | from Benjamin Goldberg: |
1676 | |
1677 | while($vec =~ /[^\0]+/g ) { |
1678 | push @ints, grep vec($vec, $_, 1), $-[0] * 8 .. $+[0] * 8; |
1679 | } |
1680 | |
cc30d1a7 |
1681 | Or use the CPAN module Bit::Vector: |
1682 | |
1683 | $vector = Bit::Vector->new($num_of_bits); |
1684 | $vector->Index_List_Store(@ints); |
1685 | @ints = $vector->Index_List_Read(); |
1686 | |
1687 | Bit::Vector provides efficient methods for bit vector, sets of small integers |
197aec24 |
1688 | and "big int" math. |
cc30d1a7 |
1689 | |
1690 | Here's a more extensive illustration using vec(): |
65acb1b1 |
1691 | |
1692 | # vec demo |
1693 | $vector = "\xff\x0f\xef\xfe"; |
197aec24 |
1694 | print "Ilya's string \\xff\\x0f\\xef\\xfe represents the number ", |
65acb1b1 |
1695 | unpack("N", $vector), "\n"; |
1696 | $is_set = vec($vector, 23, 1); |
1697 | print "Its 23rd bit is ", $is_set ? "set" : "clear", ".\n"; |
1698 | pvec($vector); |
1699 | |
1700 | set_vec(1,1,1); |
1701 | set_vec(3,1,1); |
1702 | set_vec(23,1,1); |
1703 | |
1704 | set_vec(3,1,3); |
1705 | set_vec(3,2,3); |
1706 | set_vec(3,4,3); |
1707 | set_vec(3,4,7); |
1708 | set_vec(3,8,3); |
1709 | set_vec(3,8,7); |
1710 | |
1711 | set_vec(0,32,17); |
1712 | set_vec(1,32,17); |
1713 | |
197aec24 |
1714 | sub set_vec { |
65acb1b1 |
1715 | my ($offset, $width, $value) = @_; |
1716 | my $vector = ''; |
1717 | vec($vector, $offset, $width) = $value; |
1718 | print "offset=$offset width=$width value=$value\n"; |
1719 | pvec($vector); |
1720 | } |
1721 | |
1722 | sub pvec { |
1723 | my $vector = shift; |
1724 | my $bits = unpack("b*", $vector); |
1725 | my $i = 0; |
1726 | my $BASE = 8; |
1727 | |
1728 | print "vector length in bytes: ", length($vector), "\n"; |
1729 | @bytes = unpack("A8" x length($vector), $bits); |
1730 | print "bits are: @bytes\n\n"; |
197aec24 |
1731 | } |
65acb1b1 |
1732 | |
68dc0745 |
1733 | =head2 Why does defined() return true on empty arrays and hashes? |
1734 | |
65acb1b1 |
1735 | The short story is that you should probably only use defined on scalars or |
1736 | functions, not on aggregates (arrays and hashes). See L<perlfunc/defined> |
1737 | in the 5.004 release or later of Perl for more detail. |
68dc0745 |
1738 | |
1739 | =head1 Data: Hashes (Associative Arrays) |
1740 | |
1741 | =head2 How do I process an entire hash? |
1742 | |
1743 | Use the each() function (see L<perlfunc/each>) if you don't care |
1744 | whether it's sorted: |
1745 | |
5a964f20 |
1746 | while ( ($key, $value) = each %hash) { |
68dc0745 |
1747 | print "$key = $value\n"; |
1748 | } |
1749 | |
1750 | If you want it sorted, you'll have to use foreach() on the result of |
1751 | sorting the keys as shown in an earlier question. |
1752 | |
1753 | =head2 What happens if I add or remove keys from a hash while iterating over it? |
1754 | |
28b41a80 |
1755 | (contributed by brian d foy) |
d92eb7b0 |
1756 | |
28b41a80 |
1757 | The easy answer is "Don't do that!" |
d92eb7b0 |
1758 | |
28b41a80 |
1759 | If you iterate through the hash with each(), you can delete the key |
1760 | most recently returned without worrying about it. If you delete or add |
1761 | other keys, the iterator may skip or double up on them since perl |
1762 | may rearrange the hash table. See the |
1763 | entry for C<each()> in L<perlfunc>. |
68dc0745 |
1764 | |
1765 | =head2 How do I look up a hash element by value? |
1766 | |
1767 | Create a reverse hash: |
1768 | |
1769 | %by_value = reverse %by_key; |
1770 | $key = $by_value{$value}; |
1771 | |
1772 | That's not particularly efficient. It would be more space-efficient |
1773 | to use: |
1774 | |
1775 | while (($key, $value) = each %by_key) { |
1776 | $by_value{$value} = $key; |
1777 | } |
1778 | |
d92eb7b0 |
1779 | If your hash could have repeated values, the methods above will only find |
1780 | one of the associated keys. This may or may not worry you. If it does |
1781 | worry you, you can always reverse the hash into a hash of arrays instead: |
1782 | |
1783 | while (($key, $value) = each %by_key) { |
1784 | push @{$key_list_by_value{$value}}, $key; |
1785 | } |
68dc0745 |
1786 | |
1787 | =head2 How can I know how many entries are in a hash? |
1788 | |
1789 | If you mean how many keys, then all you have to do is |
875e5c2f |
1790 | use the keys() function in a scalar context: |
68dc0745 |
1791 | |
875e5c2f |
1792 | $num_keys = keys %hash; |
68dc0745 |
1793 | |
197aec24 |
1794 | The keys() function also resets the iterator, which means that you may |
1795 | see strange results if you use this between uses of other hash operators |
875e5c2f |
1796 | such as each(). |
68dc0745 |
1797 | |
1798 | =head2 How do I sort a hash (optionally by value instead of key)? |
1799 | |
a05e4845 |
1800 | (contributed by brian d foy) |
1801 | |
1802 | To sort a hash, start with the keys. In this example, we give the list of |
1803 | keys to the sort function which then compares them ASCIIbetically (which |
1804 | might be affected by your locale settings). The output list has the keys |
1805 | in ASCIIbetical order. Once we have the keys, we can go through them to |
1806 | create a report which lists the keys in ASCIIbetical order. |
1807 | |
1808 | my @keys = sort { $a cmp $b } keys %hash; |
58103a2e |
1809 | |
a05e4845 |
1810 | foreach my $key ( @keys ) |
1811 | { |
1812 | printf "%-20s %6d\n", $key, $hash{$value}; |
1813 | } |
1814 | |
58103a2e |
1815 | We could get more fancy in the C<sort()> block though. Instead of |
a05e4845 |
1816 | comparing the keys, we can compute a value with them and use that |
58103a2e |
1817 | value as the comparison. |
a05e4845 |
1818 | |
1819 | For instance, to make our report order case-insensitive, we use |
58103a2e |
1820 | the C<\L> sequence in a double-quoted string to make everything |
a05e4845 |
1821 | lowercase. The C<sort()> block then compares the lowercased |
1822 | values to determine in which order to put the keys. |
1823 | |
1824 | my @keys = sort { "\L$a" cmp "\L$b" } keys %hash; |
58103a2e |
1825 | |
a05e4845 |
1826 | Note: if the computation is expensive or the hash has many elements, |
58103a2e |
1827 | you may want to look at the Schwartzian Transform to cache the |
a05e4845 |
1828 | computation results. |
1829 | |
1830 | If we want to sort by the hash value instead, we use the hash key |
1831 | to look it up. We still get out a list of keys, but this time they |
1832 | are ordered by their value. |
1833 | |
1834 | my @keys = sort { $hash{$a} <=> $hash{$b} } keys %hash; |
1835 | |
1836 | From there we can get more complex. If the hash values are the same, |
1837 | we can provide a secondary sort on the hash key. |
1838 | |
58103a2e |
1839 | my @keys = sort { |
1840 | $hash{$a} <=> $hash{$b} |
a05e4845 |
1841 | or |
1842 | "\L$a" cmp "\L$b" |
1843 | } keys %hash; |
68dc0745 |
1844 | |
1845 | =head2 How can I always keep my hash sorted? |
1846 | |
1847 | You can look into using the DB_File module and tie() using the |
1848 | $DB_BTREE hash bindings as documented in L<DB_File/"In Memory Databases">. |
5a964f20 |
1849 | The Tie::IxHash module from CPAN might also be instructive. |
68dc0745 |
1850 | |
1851 | =head2 What's the difference between "delete" and "undef" with hashes? |
1852 | |
92993692 |
1853 | Hashes contain pairs of scalars: the first is the key, the |
1854 | second is the value. The key will be coerced to a string, |
1855 | although the value can be any kind of scalar: string, |
1856 | number, or reference. If a key $key is present in |
1857 | %hash, C<exists($hash{$key})> will return true. The value |
1858 | for a given key can be C<undef>, in which case |
1859 | C<$hash{$key}> will be C<undef> while C<exists $hash{$key}> |
1860 | will return true. This corresponds to (C<$key>, C<undef>) |
1861 | being in the hash. |
68dc0745 |
1862 | |
92993692 |
1863 | Pictures help... here's the %hash table: |
68dc0745 |
1864 | |
1865 | keys values |
1866 | +------+------+ |
1867 | | a | 3 | |
1868 | | x | 7 | |
1869 | | d | 0 | |
1870 | | e | 2 | |
1871 | +------+------+ |
1872 | |
1873 | And these conditions hold |
1874 | |
92993692 |
1875 | $hash{'a'} is true |
1876 | $hash{'d'} is false |
1877 | defined $hash{'d'} is true |
1878 | defined $hash{'a'} is true |
1879 | exists $hash{'a'} is true (Perl5 only) |
1880 | grep ($_ eq 'a', keys %hash) is true |
68dc0745 |
1881 | |
1882 | If you now say |
1883 | |
92993692 |
1884 | undef $hash{'a'} |
68dc0745 |
1885 | |
1886 | your table now reads: |
1887 | |
1888 | |
1889 | keys values |
1890 | +------+------+ |
1891 | | a | undef| |
1892 | | x | 7 | |
1893 | | d | 0 | |
1894 | | e | 2 | |
1895 | +------+------+ |
1896 | |
1897 | and these conditions now hold; changes in caps: |
1898 | |
92993692 |
1899 | $hash{'a'} is FALSE |
1900 | $hash{'d'} is false |
1901 | defined $hash{'d'} is true |
1902 | defined $hash{'a'} is FALSE |
1903 | exists $hash{'a'} is true (Perl5 only) |
1904 | grep ($_ eq 'a', keys %hash) is true |
68dc0745 |
1905 | |
1906 | Notice the last two: you have an undef value, but a defined key! |
1907 | |
1908 | Now, consider this: |
1909 | |
92993692 |
1910 | delete $hash{'a'} |
68dc0745 |
1911 | |
1912 | your table now reads: |
1913 | |
1914 | keys values |
1915 | +------+------+ |
1916 | | x | 7 | |
1917 | | d | 0 | |
1918 | | e | 2 | |
1919 | +------+------+ |
1920 | |
1921 | and these conditions now hold; changes in caps: |
1922 | |
92993692 |
1923 | $hash{'a'} is false |
1924 | $hash{'d'} is false |
1925 | defined $hash{'d'} is true |
1926 | defined $hash{'a'} is false |
1927 | exists $hash{'a'} is FALSE (Perl5 only) |
1928 | grep ($_ eq 'a', keys %hash) is FALSE |
68dc0745 |
1929 | |
1930 | See, the whole entry is gone! |
1931 | |
1932 | =head2 Why don't my tied hashes make the defined/exists distinction? |
1933 | |
92993692 |
1934 | This depends on the tied hash's implementation of EXISTS(). |
1935 | For example, there isn't the concept of undef with hashes |
1936 | that are tied to DBM* files. It also means that exists() and |
1937 | defined() do the same thing with a DBM* file, and what they |
1938 | end up doing is not what they do with ordinary hashes. |
68dc0745 |
1939 | |
1940 | =head2 How do I reset an each() operation part-way through? |
1941 | |
5a964f20 |
1942 | Using C<keys %hash> in scalar context returns the number of keys in |
68dc0745 |
1943 | the hash I<and> resets the iterator associated with the hash. You may |
1944 | need to do this if you use C<last> to exit a loop early so that when you |
46fc3d4c |
1945 | re-enter it, the hash iterator has been reset. |
68dc0745 |
1946 | |
1947 | =head2 How can I get the unique keys from two hashes? |
1948 | |
d92eb7b0 |
1949 | First you extract the keys from the hashes into lists, then solve |
1950 | the "removing duplicates" problem described above. For example: |
68dc0745 |
1951 | |
1952 | %seen = (); |
1953 | for $element (keys(%foo), keys(%bar)) { |
1954 | $seen{$element}++; |
1955 | } |
1956 | @uniq = keys %seen; |
1957 | |
1958 | Or more succinctly: |
1959 | |
1960 | @uniq = keys %{{%foo,%bar}}; |
1961 | |
1962 | Or if you really want to save space: |
1963 | |
1964 | %seen = (); |
1965 | while (defined ($key = each %foo)) { |
1966 | $seen{$key}++; |
1967 | } |
1968 | while (defined ($key = each %bar)) { |
1969 | $seen{$key}++; |
1970 | } |
1971 | @uniq = keys %seen; |
1972 | |
1973 | =head2 How can I store a multidimensional array in a DBM file? |
1974 | |
1975 | Either stringify the structure yourself (no fun), or else |
1976 | get the MLDBM (which uses Data::Dumper) module from CPAN and layer |
1977 | it on top of either DB_File or GDBM_File. |
1978 | |
1979 | =head2 How can I make my hash remember the order I put elements into it? |
1980 | |
1981 | Use the Tie::IxHash from CPAN. |
1982 | |
46fc3d4c |
1983 | use Tie::IxHash; |
5f8d77f1 |
1984 | tie my %myhash, 'Tie::IxHash'; |
49d635f9 |
1985 | for (my $i=0; $i<20; $i++) { |
46fc3d4c |
1986 | $myhash{$i} = 2*$i; |
1987 | } |
49d635f9 |
1988 | my @keys = keys %myhash; |
46fc3d4c |
1989 | # @keys = (0,1,2,3,...) |
1990 | |
68dc0745 |
1991 | =head2 Why does passing a subroutine an undefined element in a hash create it? |
1992 | |
1993 | If you say something like: |
1994 | |
1995 | somefunc($hash{"nonesuch key here"}); |
1996 | |
1997 | Then that element "autovivifies"; that is, it springs into existence |
1998 | whether you store something there or not. That's because functions |
1999 | get scalars passed in by reference. If somefunc() modifies C<$_[0]>, |
2000 | it has to be ready to write it back into the caller's version. |
2001 | |
87275199 |
2002 | This has been fixed as of Perl5.004. |
68dc0745 |
2003 | |
2004 | Normally, merely accessing a key's value for a nonexistent key does |
2005 | I<not> cause that key to be forever there. This is different than |
2006 | awk's behavior. |
2007 | |
fc36a67e |
2008 | =head2 How can I make the Perl equivalent of a C structure/C++ class/hash or array of hashes or arrays? |
68dc0745 |
2009 | |
65acb1b1 |
2010 | Usually a hash ref, perhaps like this: |
2011 | |
2012 | $record = { |
2013 | NAME => "Jason", |
2014 | EMPNO => 132, |
2015 | TITLE => "deputy peon", |
2016 | AGE => 23, |
2017 | SALARY => 37_000, |
2018 | PALS => [ "Norbert", "Rhys", "Phineas"], |
2019 | }; |
2020 | |
2021 | References are documented in L<perlref> and the upcoming L<perlreftut>. |
2022 | Examples of complex data structures are given in L<perldsc> and |
2023 | L<perllol>. Examples of structures and object-oriented classes are |
2024 | in L<perltoot>. |
68dc0745 |
2025 | |
2026 | =head2 How can I use a reference as a hash key? |
2027 | |
9e72e4c6 |
2028 | (contributed by brian d foy) |
2029 | |
2030 | Hash keys are strings, so you can't really use a reference as the key. |
2031 | When you try to do that, perl turns the reference into its stringified |
2032 | form (for instance, C<HASH(0xDEADBEEF)>). From there you can't get back |
2033 | the reference from the stringified form, at least without doing some |
2034 | extra work on your own. Also remember that hash keys must be unique, but |
2035 | two different variables can store the same reference (and those variables |
2036 | can change later). |
2037 | |
2038 | The Tie::RefHash module, which is distributed with perl, might be what |
2039 | you want. It handles that extra work. |
68dc0745 |
2040 | |
2041 | =head1 Data: Misc |
2042 | |
2043 | =head2 How do I handle binary data correctly? |
2044 | |
2045 | Perl is binary clean, so this shouldn't be a problem. For example, |
2046 | this works fine (assuming the files are found): |
2047 | |
2048 | if (`cat /vmunix` =~ /gzip/) { |
2049 | print "Your kernel is GNU-zip enabled!\n"; |
2050 | } |
2051 | |
d92eb7b0 |
2052 | On less elegant (read: Byzantine) systems, however, you have |
2053 | to play tedious games with "text" versus "binary" files. See |
49d635f9 |
2054 | L<perlfunc/"binmode"> or L<perlopentut>. |
68dc0745 |
2055 | |
2056 | If you're concerned about 8-bit ASCII data, then see L<perllocale>. |
2057 | |
54310121 |
2058 | If you want to deal with multibyte characters, however, there are |
68dc0745 |
2059 | some gotchas. See the section on Regular Expressions. |
2060 | |
2061 | =head2 How do I determine whether a scalar is a number/whole/integer/float? |
2062 | |
2063 | Assuming that you don't care about IEEE notations like "NaN" or |
2064 | "Infinity", you probably just want to use a regular expression. |
2065 | |
65acb1b1 |
2066 | if (/\D/) { print "has nondigits\n" } |
2067 | if (/^\d+$/) { print "is a whole number\n" } |
2068 | if (/^-?\d+$/) { print "is an integer\n" } |
2069 | if (/^[+-]?\d+$/) { print "is a +/- integer\n" } |
2070 | if (/^-?\d+\.?\d*$/) { print "is a real number\n" } |
881bdbd4 |
2071 | if (/^-?(?:\d+(?:\.\d*)?|\.\d+)$/) { print "is a decimal number\n" } |
65acb1b1 |
2072 | if (/^([+-]?)(?=\d|\.\d)\d*(\.\d*)?([Ee]([+-]?\d+))?$/) |
881bdbd4 |
2073 | { print "a C float\n" } |
68dc0745 |
2074 | |
f0d19b68 |
2075 | There are also some commonly used modules for the task. |
2076 | L<Scalar::Util> (distributed with 5.8) provides access to perl's |
2077 | internal function C<looks_like_number> for determining |
2078 | whether a variable looks like a number. L<Data::Types> |
2079 | exports functions that validate data types using both the |
2080 | above and other regular expressions. Thirdly, there is |
2081 | C<Regexp::Common> which has regular expressions to match |
2082 | various types of numbers. Those three modules are available |
2083 | from the CPAN. |
2084 | |
2085 | If you're on a POSIX system, Perl supports the C<POSIX::strtod> |
5a964f20 |
2086 | function. Its semantics are somewhat cumbersome, so here's a C<getnum> |
2087 | wrapper function for more convenient access. This function takes |
2088 | a string and returns the number it found, or C<undef> for input that |
2089 | isn't a C float. The C<is_numeric> function is a front end to C<getnum> |
b432a672 |
2090 | if you just want to say, "Is this a float?" |
5a964f20 |
2091 | |
2092 | sub getnum { |
2093 | use POSIX qw(strtod); |
2094 | my $str = shift; |
2095 | $str =~ s/^\s+//; |
2096 | $str =~ s/\s+$//; |
2097 | $! = 0; |
2098 | my($num, $unparsed) = strtod($str); |
2099 | if (($str eq '') || ($unparsed != 0) || $!) { |
2100 | return undef; |
2101 | } else { |
2102 | return $num; |
197aec24 |
2103 | } |
2104 | } |
5a964f20 |
2105 | |
197aec24 |
2106 | sub is_numeric { defined getnum($_[0]) } |
5a964f20 |
2107 | |
f0d19b68 |
2108 | Or you could check out the L<String::Scanf> module on the CPAN |
b5b6f210 |
2109 | instead. The POSIX module (part of the standard Perl distribution) provides |
2110 | the C<strtod> and C<strtol> for converting strings to double and longs, |
6cecdcac |
2111 | respectively. |
68dc0745 |
2112 | |
2113 | =head2 How do I keep persistent data across program calls? |
2114 | |
2115 | For some specific applications, you can use one of the DBM modules. |
fe854a6f |
2116 | See L<AnyDBM_File>. More generically, you should consult the FreezeThaw |
2117 | or Storable modules from CPAN. Starting from Perl 5.8 Storable is part |
2118 | of the standard distribution. Here's one example using Storable's C<store> |
2119 | and C<retrieve> functions: |
65acb1b1 |
2120 | |
197aec24 |
2121 | use Storable; |
65acb1b1 |
2122 | store(\%hash, "filename"); |
2123 | |
197aec24 |
2124 | # later on... |
65acb1b1 |
2125 | $href = retrieve("filename"); # by ref |
2126 | %hash = %{ retrieve("filename") }; # direct to hash |
68dc0745 |
2127 | |
2128 | =head2 How do I print out or copy a recursive data structure? |
2129 | |
65acb1b1 |
2130 | The Data::Dumper module on CPAN (or the 5.005 release of Perl) is great |
6f82c03a |
2131 | for printing out data structures. The Storable module on CPAN (or the |
2132 | 5.8 release of Perl), provides a function called C<dclone> that recursively |
2133 | copies its argument. |
65acb1b1 |
2134 | |
197aec24 |
2135 | use Storable qw(dclone); |
65acb1b1 |
2136 | $r2 = dclone($r1); |
68dc0745 |
2137 | |
65acb1b1 |
2138 | Where $r1 can be a reference to any kind of data structure you'd like. |
2139 | It will be deeply copied. Because C<dclone> takes and returns references, |
2140 | you'd have to add extra punctuation if you had a hash of arrays that |
2141 | you wanted to copy. |
68dc0745 |
2142 | |
65acb1b1 |
2143 | %newhash = %{ dclone(\%oldhash) }; |
68dc0745 |
2144 | |
2145 | =head2 How do I define methods for every class/object? |
2146 | |
2147 | Use the UNIVERSAL class (see L<UNIVERSAL>). |
2148 | |
2149 | =head2 How do I verify a credit card checksum? |
2150 | |
2151 | Get the Business::CreditCard module from CPAN. |
2152 | |
65acb1b1 |
2153 | =head2 How do I pack arrays of doubles or floats for XS code? |
2154 | |
2155 | The kgbpack.c code in the PGPLOT module on CPAN does just this. |
2156 | If you're doing a lot of float or double processing, consider using |
2157 | the PDL module from CPAN instead--it makes number-crunching easy. |
2158 | |
500071f4 |
2159 | =head1 REVISION |
2160 | |
2161 | Revision: $Revision: 3606 $ |
2162 | |
2163 | Date: $Date: 2006-03-06 12:05:47 +0100 (lun, 06 mar 2006) $ |
2164 | |
2165 | See L<perlfaq> for source control details and availability. |
2166 | |
68dc0745 |
2167 | =head1 AUTHOR AND COPYRIGHT |
2168 | |
58103a2e |
2169 | Copyright (c) 1997-2006 Tom Christiansen, Nathan Torkington, and |
7678cced |
2170 | other authors as noted. All rights reserved. |
5a964f20 |
2171 | |
5a7beb56 |
2172 | This documentation is free; you can redistribute it and/or modify it |
2173 | under the same terms as Perl itself. |
5a964f20 |
2174 | |
2175 | Irrespective of its distribution, all code examples in this file |
2176 | are hereby placed into the public domain. You are permitted and |
2177 | encouraged to use this code in your own programs for fun |
2178 | or for profit as you see fit. A simple comment in the code giving |
2179 | credit would be courteous but is not required. |