File Coverage

inc/File/Slurp.pm

Criterion	Covered	Total	%
statement	27	179	15.0
branch	3	92	3.2
condition	0	20	0.0
subroutine	8	13	61.5
pod	4	4	100.0
total	42	308	13.6

line	stmt	bran	cond	sub	pod	time	code
1							#line 1
2							package File::Slurp;
3	1			1		860
	1					2
	1					34
4							use strict;
5	1			1		6
	1					1
	1					76
6	1			1		897	use Carp ;
	1					6996
	1					6
7	1			1		1497	use POSIX qw( :fcntl_h ) ;
	1					2
	1					649
8	1			1		1246	use Fcntl qw( :DEFAULT ) ;
	1					1054
	1					460
9							use Symbol ;
10
11							my $is_win32 = $^O =~ /win32/i ;
12
13							# Install subs for various constants that aren't set in older perls
14							# (< 5.005). Fcntl on old perls uses Exporter to define subs without a
15							# () prototype These can't be overridden with the constant pragma or
16							# we get a prototype mismatch. Hence this less than aesthetically
17							# appealing BEGIN block:
18
19	1	50		1		2	BEGIN {
	1					6
20	0					0	unless( eval { defined SEEK_SET() } ) {
	0					0
21	0					0	*SEEK_SET = sub { 0 };
	0					0
22	0					0	*SEEK_CUR = sub { 1 };
	0					0
23							*SEEK_END = sub { 2 };
24							}
25	1	50				2
	1					4
26	0					0	unless( eval { defined O_BINARY() } ) {
	0					0
27	0					0	*O_BINARY = sub { 0 };
	0					0
28	0					0	*O_RDONLY = sub { 0 };
	0					0
29							*O_WRONLY = sub { 1 };
30							}
31	1	50				2
	1					26
32							unless ( eval { defined O_APPEND() } ) {
33	0	0				0
		0
		0
34	0					0	if ( $^O =~ /olaris/ ) {
	0					0
35	0					0	*O_APPEND = sub { 8 };
	0					0
36	0					0	*O_CREAT = sub { 256 };
	0					0
37							*O_EXCL = sub { 1024 };
38							}
39	0					0	elsif ( $^O =~ /inux/ ) {
	0					0
40	0					0	*O_APPEND = sub { 1024 };
	0					0
41	0					0	*O_CREAT = sub { 64 };
	0					0
42							*O_EXCL = sub { 128 };
43							}
44	0					0	elsif ( $^O =~ /BSD/i ) {
	0					0
45	0					0	*O_APPEND = sub { 8 };
	0					0
46	0					0	*O_CREAT = sub { 512 };
	0					0
47							*O_EXCL = sub { 2048 };
48							}
49							}
50							}
51
52							# print "OS [$^O]\n" ;
53
54							# print "O_BINARY = ", O_BINARY(), "\n" ;
55							# print "O_RDONLY = ", O_RDONLY(), "\n" ;
56							# print "O_WRONLY = ", O_WRONLY(), "\n" ;
57							# print "O_APPEND = ", O_APPEND(), "\n" ;
58							# print "O_CREAT ", O_CREAT(), "\n" ;
59							# print "O_EXCL ", O_EXCL(), "\n" ;
60	1			1		7
	1					1
	1					122
61	1			1		6	use base 'Exporter' ;
	1					1
	1					1655
62							use vars qw( %EXPORT_TAGS @EXPORT_OK $VERSION @EXPORT ) ;
63
64							%EXPORT_TAGS = ( 'all' => [
65							qw( read_file write_file overwrite_file append_file read_dir ) ] ) ;
66
67							@EXPORT = ( @{ $EXPORT_TAGS{'all'} } );
68							@EXPORT_OK = qw( slurp ) ;
69
70							$VERSION = '9999.12';
71
72							*slurp = \&read_file ;
73
74							sub read_file {
75	0			0	1
76							my( $file_name, %args ) = @_ ;
77
78							# set the buffer to either the passed in one or ours and init it to the null
79							# string
80	0
81	0		0				my $buf ;
82	0						my $buf_ref = $args{'buf_ref'} \|\| \$buf ;
	0
83							${$buf_ref} = '' ;
84	0
85							my( $read_fh, $size_left, $blk_size ) ;
86
87							# check if we are reading from a handle (glob ref or IO:: object)
88	0	0
89							if ( ref $file_name ) {
90
91							# slurping a handle so use it and don't open anything.
92							# set the block size so we know it is a handle and read that amount
93	0
94	0		0				$read_fh = $file_name ;
95	0						$blk_size = $args{'blk_size'} \|\| 1024 * 1024 ;
96							$size_left = $blk_size ;
97
98							# DEEP DARK MAGIC. this checks the UNTAINT IO flag of a
99							# glob/handle. only the DATA handle is untainted (since it is from
100							# trusted data in the source file). this allows us to test if this is
101							# the DATA handle and then to do a sysseek to make sure it gets
102							# slurped correctly. on some systems, the buffered i/o pointer is not
103							# left at the same place as the fd pointer. this sysseek makes them
104							# the same so slurping with sysread will work.
105	0
	0
106							eval{ require B } ;
107	0	0
108							if ( $@ ) {
109	0
110							@_ = ( \%args, <
111							Can't find B.pm with this Perl: $!.
112							That module is needed to slurp the DATA handle.
113	0						ERR
114							goto &_error ;
115							}
116	0	0
117							if ( B::svref_2object( $read_fh )->IO->IoFLAGS & 16 ) {
118
119							# set the seek position to the current tell.
120	0	0
121							sysseek( $read_fh, tell( $read_fh ), SEEK_SET ) \|\|
122							croak "sysseek $!" ;
123							}
124							}
125							else {
126
127							# a regular file. set the sysopen mode
128	0
129	0	0					my $mode = O_RDONLY ;
130							$mode \|= O_BINARY if $args{'binmode'} ;
131
132							#printf "RD: BINARY %x MODE %x\n", O_BINARY, $mode ;
133
134							# open the file and handle any error
135	0
136	0	0					$read_fh = gensym ;
137	0						unless ( sysopen( $read_fh, $file_name, $mode ) ) {
138	0						@_ = ( \%args, "read_file '$file_name' - sysopen: $!");
139							goto &_error ;
140							}
141
142							# get the size of the file for use in the read loop
143	0
144							$size_left = -s $read_fh ;
145	0	0
146							unless( $size_left ) {
147	0		0
148	0						$blk_size = $args{'blk_size'} \|\| 1024 * 1024 ;
149							$size_left = $blk_size ;
150							}
151							}
152
153							# infinite read loop. we exit when we are done slurping
154	0
155							while( 1 ) {
156
157							# do the read and see how much we got
158	0
	0
159	0						my $read_cnt = sysread( $read_fh, ${$buf_ref},
160							$size_left, length ${$buf_ref} ) ;
161	0	0
162							if ( defined $read_cnt ) {
163
164							# good read. see if we hit EOF (nothing left to read)
165	0	0
166							last if $read_cnt == 0 ;
167
168							# loop if we are slurping a handle. we don't track $size_left then.
169	0	0
170							next if $blk_size ;
171
172	0						# count down how much we read and loop if we have more to read.
173	0	0					$size_left -= $read_cnt ;
174	0						last if $size_left <= 0 ;
175							next ;
176							}
177
178							# handle the read error
179	0
180	0						@_ = ( \%args, "read_file '$file_name' - sysread: $!");
181							goto &_error ;
182							}
183
184							# fix up cr/lf to be a newline if this is a windows text file
185	0	0	0
	0
186							${$buf_ref} =~ s/\015\012/\n/g if $is_win32 && !$args{'binmode'} ;
187
188							# this is the 5 returns in a row. each handles one possible
189							# combination of caller context and requested return type
190	0
191	0	0	0				my $sep = $/ ;
192							$sep = '\n\n+' if defined $sep && $sep eq '' ;
193
194							# caller wants to get an array ref of lines
195
196							# this split doesn't work since it tries to use variable length lookbehind
197							# the m// line works.
198	0	0					# return [ split( m\|(?<=$sep)\|, ${$buf_ref} ) ] if $args{'array_ref'} ;
	0	0
	0
199							return [ length(${$buf_ref}) ? ${$buf_ref} =~ /(.*?$sep\|.+)/sg : () ]
200							if $args{'array_ref'} ;
201
202							# caller wants a list of lines (normal list context)
203
204							# same problem with this split as before.
205	0	0					# return split( m\|(?<=$sep)\|, ${$buf_ref} ) if wantarray ;
	0	0
	0
206							return length(${$buf_ref}) ? ${$buf_ref} =~ /(.*?$sep\|.+)/sg : ()
207							if wantarray ;
208
209							# caller wants a scalar ref to the slurped text
210	0	0
211							return $buf_ref if $args{'scalar_ref'} ;
212
213							# caller wants a scalar with the slurped text (normal scalar context)
214	0	0
	0
215							return ${$buf_ref} if defined wantarray ;
216
217							# caller passed in an i/o buffer by reference (normal void context)
218	0
219							return ;
220							}
221
222							sub write_file {
223	0			0	1
224							my $file_name = shift ;
225
226							# get the optional argument hash ref from @_ or an empty hash ref.
227	0	0
228							my $args = ( ref $_[0] eq 'HASH' ) ? shift : {} ;
229	0
230							my( $buf_ref, $write_fh, $no_truncate, $orig_file_name, $data_is_ref ) ;
231
232							# get the buffer ref - it depends on how the data is passed into write_file
233							# after this if/else $buf_ref will have a scalar ref to the data.
234	0	0
		0
		0
235							if ( ref $args->{'buf_ref'} eq 'SCALAR' ) {
236
237							# a scalar ref passed in %args has the data
238							# note that the data was passed by ref
239	0
240	0						$buf_ref = $args->{'buf_ref'} ;
241							$data_is_ref = 1 ;
242							}
243							elsif ( ref $_[0] eq 'SCALAR' ) {
244
245							# the first value in @_ is the scalar ref to the data
246							# note that the data was passed by ref
247	0
248	0						$buf_ref = shift ;
249							$data_is_ref = 1 ;
250							}
251							elsif ( ref $_[0] eq 'ARRAY' ) {
252
253							# the first value in @_ is the array ref to the data so join it.
254	0
	0
	0
255							${$buf_ref} = join '', @{$_[0]} ;
256							}
257							else {
258
259							# good old @_ has all the data so join it.
260	0
	0
261							${$buf_ref} = join '', @_ ;
262							}
263
264							# see if we were passed a open handle to spew to.
265	0	0
266							if ( ref $file_name ) {
267
268							# we have a handle. make sure we don't call truncate on it.
269	0
270	0						$write_fh = $file_name ;
271							$no_truncate = 1 ;
272							}
273							else {
274
275							# spew to regular file.
276	0	0
277							if ( $args->{'atomic'} ) {
278
279							# in atomic mode, we spew to a temp file so make one and save the original
280	0						# file name.
281	0						$orig_file_name = $file_name ;
282							$file_name .= ".$$" ;
283							}
284
285							# set the mode for the sysopen
286	0
287	0	0					my $mode = O_WRONLY \| O_CREAT ;
288	0	0					$mode \|= O_BINARY if $args->{'binmode'} ;
289	0	0					$mode \|= O_APPEND if $args->{'append'} ;
290							$mode \|= O_EXCL if $args->{'no_clobber'} ;
291
292							#printf "WR: BINARY %x MODE %x\n", O_BINARY, $mode ;
293
294							# open the file and handle any error.
295	0
296	0	0					$write_fh = gensym ;
297	0						unless ( sysopen( $write_fh, $file_name, $mode ) ) {
298	0						@_ = ( $args, "write_file '$file_name' - sysopen: $!");
299							goto &_error ;
300							}
301							}
302	0	0
303							sysseek( $write_fh, 0, SEEK_END ) if $args->{'append'} ;
304
305
306							#print 'WR before data ', unpack( 'H*', ${$buf_ref}), "\n" ;
307
308							# fix up newline to write cr/lf if this is a windows text file
309	0	0	0
310							if ( $is_win32 && !$args->{'binmode'} ) {
311
312							# copy the write data if it was passed by ref so we don't clobber the
313	0	0					# caller's data
	0
	0
314	0						$buf_ref = \do{ my $copy = ${$buf_ref}; } if $data_is_ref ;
	0
315							${$buf_ref} =~ s/\n/\015\012/g ;
316							}
317
318							#print 'after data ', unpack( 'H*', ${$buf_ref}), "\n" ;
319
320							# get the size of how much we are writing and init the offset into that buffer
321	0
	0
322	0						my $size_left = length( ${$buf_ref} ) ;
323							my $offset = 0 ;
324
325							# loop until we have no more data left to write
326	0
327							do {
328
329							# do the write and track how much we just wrote
330	0
	0
331							my $write_cnt = syswrite( $write_fh, ${$buf_ref},
332							$size_left, $offset ) ;
333	0	0
334							unless ( defined $write_cnt ) {
335
336	0						# the write failed
337	0						@_ = ( $args, "write_file '$file_name' - syswrite: $!");
338							goto &_error ;
339							}
340
341							# track much left to write and where to write from in the buffer
342	0
343	0						$size_left -= $write_cnt ;
344							$offset += $write_cnt ;
345
346							} while( $size_left > 0 ) ;
347
348							# we truncate regular files in case we overwrite a long file with a shorter file
349							# so seek to the current position to get it (same as tell()).
350	0	0
351							truncate( $write_fh,
352							sysseek( $write_fh, 0, SEEK_CUR ) ) unless $no_truncate ;
353	0
354							close( $write_fh ) ;
355
356							# handle the atomic mode - move the temp file to the original filename.
357	0	0
358							rename( $file_name, $orig_file_name ) if $args->{'atomic'} ;
359	0
360							return 1 ;
361							}
362
363							# this is for backwards compatibility with the previous File::Slurp module.
364							# write_file always overwrites an existing file
365
366							*overwrite_file = \&write_file ;
367
368							# the current write_file has an append mode so we use that. this
369							# supports the same API with an optional second argument which is a
370							# hash ref of options.
371
372							sub append_file {
373
374	0			0	1		# get the optional args hash ref
375	0	0					my $args = $_[1] ;
376							if ( ref $args eq 'HASH' ) {
377
378							# we were passed an args ref so just mark the append mode
379	0
380							$args->{append} = 1 ;
381							}
382							else {
383
384							# no args hash so insert one with the append mode
385	0
386							splice( @_, 1, 0, { append => 1 } ) ;
387							}
388
389							# magic goto the main write_file sub. this overlays the sub without touching
390							# the stack or @_
391	0
392							goto &write_file
393							}
394
395							# basic wrapper around opendir/readdir
396
397							sub read_dir {
398	0			0	1
399							my ($dir, %args ) = @_;
400
401							# this handle will be destroyed upon return
402	0
403							local(*DIRH);
404
405							# open the dir and handle any errors
406	0	0
407							unless ( opendir( DIRH, $dir ) ) {
408	0
409	0						@_ = ( \%args, "read_dir '$dir' - opendir: $!" ) ;
410							goto &_error ;
411							}
412	0
413							my @dir_entries = readdir(DIRH) ;
414	0	0	0
415							@dir_entries = grep( $_ ne "." && $_ ne "..", @dir_entries )
416							unless $args{'keep_dot_dot'} ;
417	0	0
418	0						return @dir_entries if wantarray ;
419							return \@dir_entries ;
420							}
421
422							# error handling section
423							#
424							# all the error handling uses magic goto so the caller will get the
425							# error message as if from their code and not this module. if we just
426							# did a call on the error code, the carp/croak would report it from
427							# this module since the error sub is one level down on the call stack
428							# from read_file/write_file/read_dir.
429
430
431							my %err_func = (
432							'carp' => \&carp,
433							'croak' => \&croak,
434							) ;
435
436							sub _error {
437	0			0
438							my( $args, $err_msg ) = @_ ;
439
440							# get the error function to use
441	0		0
442							my $func = $err_func{ $args->{'err_mode'} \|\| 'croak' } ;
443
444							# if we didn't find it in our error function hash, they must have set
445							# it to quiet and we don't do anything.
446	0	0
447							return unless $func ;
448
449							# call the carp/croak function
450	0
451							$func->($err_msg) ;
452
453							# return a hard undef (in list context this will be a single value of
454							# undef which is not a legal in-band value)
455	0
456							return undef ;
457							}
458
459							1;
460							__END__