27_iwrite.t
来自「source of perl for linux application,」· T 代码 · 共 236 行
T
236 行
#!/usr/bin/perl## Unit tests of _iwrite function## _iwrite($self, $data, $start, $end)## 'i' here is for 'insert'. This writes $data at absolute position $start# in the file, copying the data at that position downwards---# but only down to position $end. Data at or past $end is not moved# or even examined. Since there isn't enough room for the full copy# (Because we inserted $data at the beginning) we copy as much as possible# and return a string containing the remainder.my $file = "tf$$.txt";$| = 1;print "1..203\n";my $N = 1;my $oldfile;use Tie::File;print "ok $N\n"; $N++;$: = Tie::File::_default_recsep();$FLEN = 40970; # Use files of this length$oldfile = mkrand($FLEN);print "# MOF tests\n";# (2-85) These were generated by 'gentests.pl' to cover all possible cases# (I hope)# Legend:# x: data is entirely contained within one block# x>: data runs from the middle to the end of the block# <x: data runs from the start to the middle of the block# <x>: data occupies precisely one block# x><x: data overlaps one block boundary# <x><x: data runs from the start of one block into the middle of the next# x><x>: data runs from the middle of one block to the end of the next# <x><x>: data occupies two blocks exactly# <x><x><x>: data occupies three blocks exactly# 0: data is null## For each possible alignment of the old and new data, we investigate# up to three situations: old data is shorter, old and new data are the# same length, and new data is shorter.## try($pos, $old, $new) means to run a test where the area being# written into starts at position $pos, the area being written into# has length $old, and and the new data has length $new.try( 8605, 2394, 2394); # old=x , new=x ; old = newtry( 9768, 1361, 664); # old=x , new=x ; old > newtry( 9955, 6429, 6429); # old=x> , new=x ; old = newtry(10550, 5834, 4123); # old=x> , new=x ; old > newtry(14580, 6158, 851); # old=x><x , new=x ; old > newtry(13442, 11134, 1572); # old=x><x> , new=x ; old > newtry( 8192, 514, 514); # old=<x , new=<x ; old = newtry( 8192, 2196, 858); # old=<x , new=<x ; old > newtry( 8192, 8192, 8192); # old=<x> , new=<x ; old = newtry( 8192, 8192, 1290); # old=<x> , new=<x ; old > newtry( 8192, 10575, 6644); # old=<x><x , new=<x ; old > newtry( 8192, 16384, 5616); # old=<x><x> , new=<x ; old > newtry( 8192, 24576, 6253); # old=<x><x><x>, new=<x ; old > newtry( 9965, 6419, 6419); # old=x> , new=x> ; old = newtry(16059, 6102, 325); # old=x><x , new=x> ; old > newtry( 9503, 15073, 6881); # old=x><x> , new=x> ; old > newtry(16316, 1605, 1605); # old=x><x , new=x><x ; old = newtry(16093, 4074, 993); # old=x><x , new=x><x ; old > newtry(14739, 9837, 9837); # old=x><x> , new=x><x ; old = newtry(14071, 10505, 7344); # old=x><x> , new=x><x ; old > newtry( 8192, 8192, 8192); # old=<x> , new=<x> ; old = newtry( 8192, 14817, 8192); # old=<x><x , new=<x> ; old > newtry( 8192, 16384, 8192); # old=<x><x> , new=<x> ; old > newtry( 8192, 24576, 8192); # old=<x><x><x>, new=<x> ; old > newtry( 8192, 9001, 9001); # old=<x><x , new=<x><x ; old = newtry( 8192, 11760, 10274); # old=<x><x , new=<x><x ; old > newtry( 8192, 16384, 10781); # old=<x><x> , new=<x><x ; old > newtry( 8192, 24576, 9284); # old=<x><x><x>, new=<x><x ; old > newtry(14761, 9815, 9815); # old=x><x> , new=x><x> ; old = newtry( 8192, 16384, 16384); # old=<x><x> , new=<x><x> ; old = newtry( 8192, 24576, 16384); # old=<x><x><x>, new=<x><x> ; old > newtry( 8192, 24576, 24576); # old=<x><x><x>, new=<x><x><x>; old = newtry( 8771, 776, 0); # old=x , new=0 ; old > newtry( 8192, 2813, 0); # old=<x , new=0 ; old > newtry(13945, 2439, 0); # old=x> , new=0 ; old > newtry(14493, 6090, 0); # old=x><x , new=0 ; old > newtry( 8192, 8192, 0); # old=<x> , new=0 ; old > newtry( 8192, 10030, 0); # old=<x><x , new=0 ; old > newtry(14983, 9593, 0); # old=x><x> , new=0 ; old > newtry( 8192, 16384, 0); # old=<x><x> , new=0 ; old > newtry( 8192, 24576, 0); # old=<x><x><x>, new=0 ; old > newtry(10489, 0, 0); # old=0 , new=0 ; old = newprint "# SOF tests\n";# (86-133)# These tests all take place at the start of the filetry( 0, 4868, 4868); # old=<x , new=<x ; old = newtry( 0, 147, 118); # old=<x , new=<x ; old > newtry( 0, 8192, 8192); # old=<x> , new=<x ; old = newtry( 0, 8192, 4574); # old=<x> , new=<x ; old > newtry( 0, 11891, 1917); # old=<x><x , new=<x ; old > newtry( 0, 16384, 5155); # old=<x><x> , new=<x ; old > newtry( 0, 24576, 2953); # old=<x><x><x>, new=<x ; old > newtry( 0, 8192, 8192); # old=<x> , new=<x> ; old = newtry( 0, 11083, 8192); # old=<x><x , new=<x> ; old > newtry( 0, 16384, 8192); # old=<x><x> , new=<x> ; old > newtry( 0, 24576, 8192); # old=<x><x><x>, new=<x> ; old > newtry( 0, 14126, 14126); # old=<x><x , new=<x><x ; old = newtry( 0, 12002, 9034); # old=<x><x , new=<x><x ; old > newtry( 0, 16384, 13258); # old=<x><x> , new=<x><x ; old > newtry( 0, 24576, 14367); # old=<x><x><x>, new=<x><x ; old > newtry( 0, 16384, 16384); # old=<x><x> , new=<x><x> ; old = newtry( 0, 24576, 16384); # old=<x><x><x>, new=<x><x> ; old > newtry( 0, 24576, 24576); # old=<x><x><x>, new=<x><x><x>; old = newtry( 0, 6530, 0); # old=<x , new=0 ; old > newtry( 0, 8192, 0); # old=<x> , new=0 ; old > newtry( 0, 14707, 0); # old=<x><x , new=0 ; old > newtry( 0, 16384, 0); # old=<x><x> , new=0 ; old > newtry( 0, 24576, 0); # old=<x><x><x>, new=0 ; old > newtry( 0, 0, 0); # old=0 , new=0 ; old = newprint "# EOF tests 1\n";# (134-169)# These tests all take place at the end of the file$FLEN = 40960; # Force the file to be exactly 40960 bytes long$oldfile = mkrand($FLEN);try(32768, 8192, 8192); # old=<x> , new=<x ; old = newtry(32768, 8192, 4026); # old=<x> , new=<x ; old > newtry(24576, 16384, 1917); # old=<x><x> , new=<x ; old > newtry(16384, 24576, 3818); # old=<x><x><x>, new=<x ; old > newtry(32768, 8192, 8192); # old=<x> , new=<x> ; old = newtry(24576, 16384, 8192); # old=<x><x> , new=<x> ; old > newtry(16384, 24576, 8192); # old=<x><x><x>, new=<x> ; old > newtry(24576, 16384, 12221); # old=<x><x> , new=<x><x ; old > newtry(16384, 24576, 15030); # old=<x><x><x>, new=<x><x ; old > newtry(24576, 16384, 16384); # old=<x><x> , new=<x><x> ; old = newtry(16384, 24576, 16384); # old=<x><x><x>, new=<x><x> ; old > newtry(16384, 24576, 24576); # old=<x><x><x>, new=<x><x><x>; old = newtry(35973, 4987, 0); # old=x> , new=0 ; old > newtry(32768, 8192, 0); # old=<x> , new=0 ; old > newtry(29932, 11028, 0); # old=x><x> , new=0 ; old > newtry(24576, 16384, 0); # old=<x><x> , new=0 ; old > newtry(16384, 24576, 0); # old=<x><x><x>, new=0 ; old > newtry(40960, 0, 0); # old=0 , new=0 ; old = newprint "# EOF tests 2\n";# (170-203)# These tests all take place at the end of the file$FLEN = 42000; # Force the file to be exactly 42000 bytes long$oldfile = mkrand($FLEN);try(41683, 317, 317); # old=x , new=x ; old = newtry(41225, 775, 405); # old=x , new=x ; old > newtry(35709, 6291, 284); # old=x><x , new=x ; old > newtry(40960, 1040, 1040); # old=<x , new=<x ; old = newtry(40960, 1040, 378); # old=<x , new=<x ; old > newtry(32768, 9232, 5604); # old=<x><x , new=<x ; old > newtry(39994, 2006, 966); # old=x><x , new=x> ; old > newtry(36725, 5275, 5275); # old=x><x , new=x><x ; old = newtry(37990, 4010, 3199); # old=x><x , new=x><x ; old > newtry(32768, 9232, 8192); # old=<x><x , new=<x> ; old > newtry(32768, 9232, 9232); # old=<x><x , new=<x><x ; old = newtry(32768, 9232, 8795); # old=<x><x , new=<x><x ; old > newtry(41500, 500, 0); # old=x , new=0 ; old > newtry(40960, 1040, 0); # old=<x , new=0 ; old > newtry(35272, 6728, 0); # old=x><x , new=0 ; old > newtry(32768, 9232, 0); # old=<x><x , new=0 ; old > newtry(42000, 0, 0); # old=0 , new=0 ; old = newsub mkrand { my $len = shift; srand $len; my @c = ('a' .. 'z', 'A' .. 'Z', 0..9, $:); my $d = ""; $d .= $c[rand @c] until length($d) >= $len; substr($d, $len) = ""; # chop it off to the proper length $d;}sub try { my ($s, $len, $newlen) = @_; my $e = $s + $len; open F, "> $file" or die "Couldn't open file $file: $!"; binmode F; print F $oldfile; close F; die "wrong length!" unless -s $file == $FLEN; my $newdata = "-" x $newlen; my $expected = $oldfile; my $expected_return = substr($expected, $e - $newlen, $newlen, ""); substr($expected, $s, 0, $newdata); my $o = tie my @lines, 'Tie::File', $file or die $!; my $actual_return = $o->_iwrite($newdata, $s, $e); undef $o; untie @lines; open F, "< $file" or die "Couldn't open file $file: $!"; binmode F; my $actual; { local $/; $actual = <F>; } close F; my ($alen, $xlen) = (length $actual, length $expected); unless ($alen == $xlen) { print "# try(@_) expected file length $xlen, actual $alen!\n"; } print $actual eq $expected ? "ok $N\n" : "not ok $N\n"; $N++; if (! defined $actual_return && ! defined $expected_return) { print "ok $N\n"; } elsif (! defined $actual_return || ! defined $expected_return) { print "not ok $N\n"; } else { print $actual_return eq $expected_return ? "ok $N\n" : "not ok $N\n"; } $N++;}sub ctrlfix { for (@_) { s/\n/\\n/g; s/\r/\\r/g; }}END { 1 while unlink $file;}⌨️ 快捷键说明
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