#!/usr/bin/perl # Basic tests for "numfmt". # Copyright (C) 2012-2018 Free Software Foundation, Inc. # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # You should have received a copy of the GNU General Public License # along with this program. If not, see . use strict; (my $program_name = $0) =~ s|.*/||; my $prog = 'numfmt'; my $limits = getlimits (); # TODO: add localization tests with "grouping" # Turn off localization of executable's output. @ENV{qw(LANGUAGE LANG LC_ALL)} = ('C') x 3; my $locale = $ENV{LOCALE_FR_UTF8}; ! defined $locale || $locale eq 'none' and $locale = 'C'; my $try = "Try '$prog --help' for more information.\n"; my @Tests = ( ['1', '1234', {OUT => "1234"}], ['2', '--from=si 1K', {OUT => "1000"}], ['3', '--from=iec 1K', {OUT => "1024"}], ['4', '--from=auto 1K', {OUT => "1000"}], ['5', '--from=auto 1Ki', {OUT => "1024"}], ['5.1', '--from=iec-i 1Ki', {OUT => "1024"}], ['6', {IN_PIPE => "1234\n"}, {OUT => "1234"}], ['7', '--from=si', {IN_PIPE => "2K\n"}, {OUT => "2000"}], ['7a', '--invalid=fail', {IN_PIPE => "no_NL"}, {OUT => "no_NL"}, {ERR => "$prog: invalid number: 'no_NL'\n"}, {EXIT => '2'}], ['8', '--to=si 2000', {OUT => "2.0K"}], ['9', '--to=si 2001', {OUT => "2.1K"}], ['10', '--to=si 1999', {OUT => "2.0K"}], ['11', '--to=si --round=down 2001', {OUT => "2.0K"}], ['12', '--to=si --round=down 1999', {OUT => "1.9K"}], ['13', '--to=si --round=up 1901', {OUT => "2.0K"}], ['14', '--to=si --round=down 1901', {OUT => "1.9K"}], ['15', '--to=si --round=nearest 1901', {OUT => "1.9K"}], ['16', '--to=si --round=nearest 1945', {OUT => "1.9K"}], ['17', '--to=si --round=nearest 1955', {OUT => "2.0K"}], ['18', '--to=iec 2048', {OUT => "2.0K"}], ['19', '--to=iec 2049', {OUT => "2.1K"}], ['20', '--to=iec 2047', {OUT => "2.0K"}], ['21', '--to=iec --round=down 2049', {OUT => "2.0K"}], ['22', '--to=iec --round=down 2047', {OUT => "1.9K"}], ['23', '--to=iec --round=up 2040', {OUT => "2.0K"}], ['24', '--to=iec --round=down 2040', {OUT => "1.9K"}], ['25', '--to=iec --round=nearest 1996', {OUT => "1.9K"}], ['26', '--to=iec --round=nearest 1997', {OUT => "2.0K"}], ['27', '--to=iec-i 2048', {OUT => "2.0Ki"}], ['neg-1', '-- -1234', {OUT => "-1234"}], ['neg-2', '--padding=5 -- -1234', {OUT => "-1234"}], ['neg-3', '--padding=6 -- -1234', {OUT => " -1234"}], ['neg-4', '--to=iec -- 9100 -9100', {OUT => "8.9K\n-8.9K"}], ['neg-5', '-- -0.1', {OUT => "-0.1"}], ['neg-6', '-- -0', {OUT => "0"}], ['neg-7', '-- -0.-1', {ERR => "$prog: invalid number: '-0.-1'\n"}, {EXIT => '2'}], ['float-1', '1.1', {OUT => "1.1"}], ['float-2', '1.22', {OUT => "1.22"}], ['float-3', '1.22.', {ERR => "$prog: invalid suffix in input: '1.22.'\n"}, {EXIT => '2'}], ['unit-1', '--from-unit=512 4', {OUT => "2048"}], ['unit-2', '--to-unit=512 2048', {OUT => "4"}], ['unit-3', '--from-unit=512 --from=si 4M', {OUT => "2048000000"}], ['unit-4', '--from-unit=512 --from=iec --to=iec 4M', {OUT => "2.0G"}], ['unit-5', '--from-unit=AA --from=iec --to=iec 4M', {ERR => "$prog: invalid unit size: 'AA'\n"}, {EXIT => '1'}], ['unit-6', '--from-unit=54W --from=iec --to=iec 4M', {ERR => "$prog: invalid unit size: '54W'\n"}, {EXIT => '1'}], ['unit-7', '--from-unit=K 30', {OUT=>"30000"}], ['unit-7.1', '--from-unit=Ki 30', {OUT=>"30720"}], ['unit-7.2', '--from-unit=i 0', {ERR => "$prog: invalid unit size: 'i'\n"}, {EXIT => '1'}], ['unit-7.3', '--from-unit=1i 0', {ERR => "$prog: invalid unit size: '1i'\n"}, {EXIT => '1'}], ['unit-8', '--from-unit='.$limits->{UINTMAX_OFLOW}.' --to=iec 30', {ERR => "$prog: invalid unit size: '$limits->{UINTMAX_OFLOW}'\n"}, {EXIT => '1'}], ['unit-9', '--from-unit=0 1', {ERR => "$prog: invalid unit size: '0'\n"}, {EXIT => '1'}], ['unit-10', '--to-unit=0 1', {ERR => "$prog: invalid unit size: '0'\n"}, {EXIT => '1'}], # Test Suffix logic ['suf-1', '4000', {OUT=>'4000'}], ['suf-2', '4Q', {ERR => "$prog: invalid suffix in input: '4Q'\n"}, {EXIT => '2'}], ['suf-2.1', '4M', {ERR => "$prog: rejecting suffix " . "in input: '4M' (consider using --from)\n"}, {EXIT => '2'}], ['suf-3', '--from=si 4M', {OUT=>'4000000'}], ['suf-4', '--from=si 4Q', {ERR => "$prog: invalid suffix in input: '4Q'\n"}, {EXIT => '2'}], ['suf-5', '--from=si 4MQ', {ERR => "$prog: invalid suffix in input '4MQ': 'Q'\n"}, {EXIT => '2'}], ['suf-6', '--from=iec 4M', {OUT=>'4194304'}], ['suf-7', '--from=auto 4M', {OUT=>'4000000'}], ['suf-8', '--from=auto 4Mi', {OUT=>'4194304'}], ['suf-9', '--from=auto 4MiQ', {ERR => "$prog: invalid suffix in input '4MiQ': 'Q'\n"}, {EXIT => '2'}], ['suf-10', '--from=auto 4QiQ', {ERR => "$prog: invalid suffix in input: '4QiQ'\n"}, {EXIT => '2'}], # characters after a white space are OK - printed as-is ['suf-11', '"4 M"', {OUT=>'4 M'}], # Custom suffix ['suf-12', '--suffix=Foo 70Foo', {OUT=>'70Foo'}], ['suf-13', '--suffix=Foo 70', {OUT=>'70Foo'}], ['suf-14', '--suffix=Foo --from=si 70K', {OUT=>'70000Foo'}], ['suf-15', '--suffix=Foo --from=si 70KFoo', {OUT=>'70000Foo'}], ['suf-16', '--suffix=Foo --to=si 7000Foo', {OUT=>'7.0KFoo'}], ['suf-17', '--suffix=Foo --to=si 7000Bar', {ERR => "$prog: invalid suffix in input: '7000Bar'\n"}, {EXIT => '2'}], ['suf-18', '--suffix=Foo --to=si 7000FooF', {ERR => "$prog: invalid suffix in input: '7000FooF'\n"}, {EXIT => '2'}], # space(s) between number and suffix. Note only field 1 is used # by default so specify the NUL delimiter to consider the whole "line". ['suf-19', "-d '' --from=si '4.0 K'", {OUT => "4000"}], ## GROUPING # "C" locale - no grouping (locale-specific tests, below) ['grp-1', '--from=si --grouping 7M', {OUT=>'7000000'}], ['grp-2', '--from=si --to=si --grouping 7M', {ERR => "$prog: grouping cannot be combined with --to\n"}, {EXIT => '1'}], ## Padding ['pad-1', '--padding=10 5', {OUT=>' 5'}], ['pad-2', '--padding=-10 5', {OUT=>'5 '}], ['pad-3', '--padding=A 5', {ERR => "$prog: invalid padding value 'A'\n"}, {EXIT => '1'}], ['pad-3.1', '--padding=0 5', {ERR => "$prog: invalid padding value '0'\n"}, {EXIT => '1'}], ['pad-4', '--padding=10 --to=si 50000', {OUT=>' 50K'}], ['pad-5', '--padding=-10 --to=si 50000', {OUT=>'50K '}], # padding too narrow ['pad-6', '--padding=2 --to=si 1000', {OUT=>'1.0K'}], # Padding + suffix ['pad-7', '--padding=10 --suffix=foo --to=si 50000', {OUT=>' 50Kfoo'}], ['pad-8', '--padding=-10 --suffix=foo --to=si 50000', {OUT=>'50Kfoo '}], # Delimiters ['delim-1', '--delimiter=: --from=auto 40M:', {OUT=>'40000000:'}], ['delim-2', '--delimiter="" --from=auto "40 M"',{OUT=>'40000000'}], ['delim-3', '--delimiter=" " --from=auto "40M Foo"',{OUT=>'40000000 Foo'}], ['delim-4', '--delimiter=: --from=auto 40M:60M', {OUT=>'40000000:60M'}], ['delim-5', '-d: --field=2 --from=auto :40M:60M', {OUT=>':40000000:60M'}], ['delim-6', '-d: --field 3 --from=auto 40M:60M', {OUT=>"40M:60M"}], ['delim-err-1', '-d,, --to=si 1', {EXIT=>1}, {ERR => "$prog: the delimiter must be a single character\n"}], #Fields ['field-1', '--field A', {ERR => "$prog: invalid field value 'A'\n$try"}, {EXIT => '1'}], ['field-2', '--field 2 --from=auto "Hello 40M World 90G"', {OUT=>'Hello 40000000 World 90G'}], ['field-3', '--field 3 --from=auto "Hello 40M World 90G"', {OUT=>"Hello 40M "}, {ERR=>"$prog: invalid number: 'World'\n"}, {EXIT => 2},], # Last field - no text after number ['field-4', '--field 4 --from=auto "Hello 40M World 90G"', {OUT=>"Hello 40M World 90000000000"}], # Last field - a delimiter after the number ['field-5', '--field 4 --from=auto "Hello 40M World 90G "', {OUT=>"Hello 40M World 90000000000 "}], # Mix Fields + Delimiters ['field-6', '--delimiter=: --field 2 --from=auto "Hello:40M:World:90G"', {OUT=>"Hello:40000000:World:90G"}], # not enough fields ['field-8', '--field 3 --to=si "Hello World"', {OUT=>"Hello World"}], # Multiple fields ['field-range-1', '--field 2,4 --to=si "1000 2000 3000 4000 5000"', {OUT=>"1000 2.0K 3000 4.0K 5000"}], ['field-range-2', '--field 2-4 --to=si "1000 2000 3000 4000 5000"', {OUT=>"1000 2.0K 3.0K 4.0K 5000"}], ['field-range-3', '--field 1,2,3-5 --to=si "1000 2000 3000 4000 5000"', {OUT=>"1.0K 2.0K 3.0K 4.0K 5.0K"}], ['field-range-4', '--field 1-5 --to=si "1000 2000 3000 4000 5000"', {OUT=>"1.0K 2.0K 3.0K 4.0K 5.0K"}], ['field-range-5', '--field 1-3,5 --to=si "1000 2000 3000 4000 5000"', {OUT=>"1.0K 2.0K 3.0K 4000 5.0K"}], ['field-range-6', '--field 3- --to=si "1000 2000 3000 4000 5000"', {OUT=>"1000 2000 3.0K 4.0K 5.0K"}], ['field-range-7', '--field -3 --to=si "1000 2000 3000 4000 5000"', {OUT=>"1.0K 2.0K 3.0K 4000 5000"}], ['field-range-8', '--field 1-2,4-5 --to=si "1000 2000 3000 4000 5000"', {OUT=>"1.0K 2.0K 3000 4.0K 5.0K"}], ['field-range-9', '--field 4-5,1-2 --to=si "1000 2000 3000 4000 5000"', {OUT=>"1.0K 2.0K 3000 4.0K 5.0K"}], ['field-range-10','--field 1-3,2-4 --to=si "1000 2000 3000 4000 5000"', {OUT=>"1.0K 2.0K 3.0K 4.0K 5000"}], ['field-range-11','--field 2-4,1-3 --to=si "1000 2000 3000 4000 5000"', {OUT=>"1.0K 2.0K 3.0K 4.0K 5000"}], ['field-range-12','--field 1-1,3-3 --to=si "1000 2000 3000 4000 5000"', {OUT=>"1.0K 2000 3.0K 4000 5000"}], ['field-range-13', '--field 1,-2 --to=si "1000 2000 3000"', {OUT=>"1.0K 2.0K 3000"}], ['field-range-14', '--field -2,4- --to=si "1000 2000 3000 4000 5000"', {OUT=>"1.0K 2.0K 3000 4.0K 5.0K"}], ['field-range-15', '--field -2,-4 --to=si "1000 2000 3000 4000 5000"', {OUT=>"1.0K 2.0K 3.0K 4.0K 5000"}], ['field-range-16', '--field 2-,4- --to=si "1000 2000 3000 4000 5000"', {OUT=>"1000 2.0K 3.0K 4.0K 5.0K"}], ['field-range-17', '--field 4-,2- --to=si "1000 2000 3000 4000 5000"', {OUT=>"1000 2.0K 3.0K 4.0K 5.0K"}], # white space are valid field separators # (undocumented? but works in cut as well). ['field-range-18', '--field "1,2 4" --to=si "1000 2000 3000 4000 5000"', {OUT=>"1.0K 2.0K 3000 4.0K 5000"}], # Unlike 'cut', a lone '-' means 'all fields', even as part of a list # of fields. ['field-range-19','--field 3,- --to=si "1000 2000 3000 4000 5000"', {OUT=>"1.0K 2.0K 3.0K 4.0K 5.0K"}], ['all-fields-1', '--field=- --to=si "1000 2000 3000 4000 5000"', {OUT=>"1.0K 2.0K 3.0K 4.0K 5.0K"}], ['field-range-err-1', '--field -foo --to=si 10', {EXIT=>1}, {ERR=>"$prog: invalid field value 'foo'\n$try"}], ['field-range-err-2', '--field --3 --to=si 10', {EXIT=>1}, {ERR=>"$prog: invalid field range\n$try"}], ['field-range-err-3', '--field 0 --to=si 10', {EXIT=>1}, {ERR=>"$prog: fields are numbered from 1\n$try"}], ['field-range-err-4', '--field 3-2 --to=si 10', {EXIT=>1}, {ERR=>"$prog: invalid decreasing range\n$try"}], ['field-range-err-6', '--field - --field 1- --to=si 10', {EXIT=>1}, {ERR=>"$prog: multiple field specifications\n"}], ['field-range-err-7', '--field -1 --field 1- --to=si 10', {EXIT=>1}, {ERR=>"$prog: multiple field specifications\n"}], ['field-range-err-8', '--field -1 --field 1,2,3 --to=si 10', {EXIT=>1}, {ERR=>"$prog: multiple field specifications\n"}], ['field-range-err-9', '--field 1- --field 1,2,3 --to=si 10', {EXIT=>1}, {ERR=>"$prog: multiple field specifications\n"}], ['field-range-err-10','--field 1,2,3 --field 1- --to=si 10', {EXIT=>1}, {ERR=>"$prog: multiple field specifications\n"}], ['field-range-err-11','--field 1-2-3 --to=si 10', {EXIT=>1}, {ERR=>"$prog: invalid field range\n$try"}], ['field-range-err-12','--field 0-1 --to=si 10', {EXIT=>1}, {ERR=>"$prog: fields are numbered from 1\n$try"}], ['field-range-err-13','--field '.$limits->{UINTMAX_MAX}.',22 --to=si 10', {EXIT=>1}, {ERR=>"$prog: field number " . "'".$limits->{UINTMAX_MAX}."' is too large\n$try"}], # Auto-consume white-space, setup auto-padding ['whitespace-1', '--to=si --field 2 "A 500 B"', {OUT=>"A 500 B"}], ['whitespace-2', '--to=si --field 2 "A 5000 B"', {OUT=>"A 5.0K B"}], ['whitespace-3', '--to=si " 500"', {OUT=>" 500"}], ['whitespace-4', '--to=si " 6500"', {OUT=>" 6.5K"}], # NOTE: auto-padding is not enabled if the value is on the first # field and there's no white-space before it. ['whitespace-5', '--to=si "6000000"', {OUT=>"6.0M"}], # but if there is whitespace, assume auto-padding is desired. ['whitespace-6', '--to=si " 6000000"', {OUT=>" 6.0M"}], # auto-padding - lines have same padding-width # (padding_buffer will be alloc'd just once) ['whitespace-7', '--to=si --field 2', {IN_PIPE=>"rootfs 100000\n" . "udevxx 2000000\n"}, {OUT =>"rootfs 100K\n" . "udevxx 2.0M"}], # auto-padding - second line requires a # larger padding (padding-buffer needs to be realloc'd) ['whitespace-8', '--to=si --field 2', {IN_PIPE=>"rootfs 100000\n" . "udev 20000000\n"}, {OUT =>"rootfs 100K\n" . "udev 20M"}], # Corner-cases: # weird mix of identical suffix,delimiters # The priority is: # 1. delimiters (and fields) are parsed (in process_line() # 2. optional custom suffix is removed (in process_suffixed_number()) # 3. Remaining suffixes must be valid SI/IEC (in human_xstrtol()) # custom suffix comes BEFORE SI/IEC suffix, # so these are 40 of "M", not 40,000,000. ['mix-1', '--suffix=M --from=si 40M', {OUT=>"40M"}], # These are forty-million Ms . ['mix-2', '--suffix=M --from=si 40MM', {OUT=>"40000000M"}], ['mix-3', '--suffix=M --from=auto 40MM', {OUT=>"40000000M"}], ['mix-4', '--suffix=M --from=auto 40MiM', {OUT=>"41943040M"}], ['mix-5', '--suffix=M --to=si --from=si 4MM', {OUT=>"4.0MM"}], # This might be confusing to the user, but it's legit: # The M in the output is the custom suffix, not Mega. ['mix-6', '--suffix=M 40', {OUT=>"40M"}], ['mix-7', '--suffix=M 4000000', {OUT=>"4000000M"}], ['mix-8', '--suffix=M --to=si 4000000', {OUT=>"4.0MM"}], # The output 'M' is the custom suffix. ['mix-10', '--delimiter=M --suffix=M 40', {OUT=>"40M"}], # The INPUT 'M' is a delimiter (delimiters are top priority) # The output contains one M for custom suffix, and one 'M' delimiter. ['mix-11', '--delimiter=M --suffix=M 40M', {OUT=>"40MM"}], # Same as above, the "M" is NOT treated as a mega SI prefix, ['mix-12', '--delimiter=M --from=si --suffix=M 40M', {OUT=>"40MM"}], # The 'M' is treated as a delimiter, and so the input value is '4000' ['mix-13', '--delimiter=M --to=si --from=auto 4000M5000M9000', {OUT=>"4.0KM5000M9000"}], # 'M' is the delimiter, so the second input field is '5000' ['mix-14', '--delimiter=M --field 2 --from=auto --to=si 4000M5000M9000', {OUT=>"4000M5.0KM9000"}], ## Header testing # header - silently ignored with command line parameters ['header-1', '--header --to=iec 4096', {OUT=>"4.0K"}], # header warning with --debug ['header-2', '--debug --header --to=iec 4096', {OUT=>"4.0K"}, {ERR=>"$prog: --header ignored with command-line input\n"}], ['header-3', '--header=A', {ERR=>"$prog: invalid header value 'A'\n"}, {EXIT => 1},], ['header-4', '--header=0', {ERR=>"$prog: invalid header value '0'\n"}, {EXIT => 1},], ['header-5', '--header=-6', {ERR=>"$prog: invalid header value '-6'\n"}, {EXIT => 1},], ['header-6', '--debug --header --to=iec', {IN_PIPE=>"size\n5000\n90000\n"}, {OUT=>"size\n4.9K\n88K"}], ['header-7', '--debug --header=3 --to=iec', {IN_PIPE=>"hello\nworld\nsize\n5000\n90000\n"}, {OUT=>"hello\nworld\nsize\n4.9K\n88K"}], # header, but no actual content ['header-8', '--header=2 --to=iec', {IN_PIPE=>"hello\nworld\n"}, {OUT=>"hello\nworld"}], # not enough header lines ['header-9', '--header=3 --to=iec', {IN_PIPE=>"hello\nworld\n"}, {OUT=>"hello\nworld"}], ## human_strtod testing # NO_DIGITS_FOUND ['strtod-1', '--from=si "foo"', {ERR=>"$prog: invalid number: 'foo'\n"}, {EXIT=> 2}], ['strtod-2', '--from=si ""', {ERR=>"$prog: invalid number: ''\n"}, {EXIT=> 2}], # FRACTION_NO_DIGITS_FOUND ['strtod-5', '--from=si 12.', {ERR=>"$prog: invalid number: '12.'\n"}, {EXIT=>2}], ['strtod-6', '--from=si 12.K', {ERR=>"$prog: invalid number: '12.K'\n"}, {EXIT=>2}], # whitespace is not allowed after decimal-point ['strtod-6.1', '--from=si --delimiter=, "12. 2"', {ERR=>"$prog: invalid number: '12. 2'\n"}, {EXIT=>2}], # INVALID_SUFFIX ['strtod-9', '--from=si 12.2Q', {ERR=>"$prog: invalid suffix in input: '12.2Q'\n"}, {EXIT=>2}], # VALID_BUT_FORBIDDEN_SUFFIX ['strtod-10', '12M', {ERR => "$prog: rejecting suffix " . "in input: '12M' (consider using --from)\n"}, {EXIT=>2}], # MISSING_I_SUFFIX ['strtod-11', '--from=iec-i 12M', {ERR => "$prog: missing 'i' suffix in input: " . "'12M' (e.g Ki/Mi/Gi)\n"}, {EXIT=>2}], # # Test double_to_human() # # 1K and smaller ['dbl-to-human-1','--to=si 800', {OUT=>"800"}], ['dbl-to-human-2','--to=si 0', {OUT=>"0"}], ['dbl-to-human-2.1','--to=si 999', {OUT=>"999"}], ['dbl-to-human-2.2','--to=si 1000', {OUT=>"1.0K"}], #NOTE: the following are consistent with "ls -lh" output ['dbl-to-human-2.3','--to=iec 999', {OUT=>"999"}], ['dbl-to-human-2.4','--to=iec 1023', {OUT=>"1023"}], ['dbl-to-human-2.5','--to=iec 1024', {OUT=>"1.0K"}], ['dbl-to-human-2.6','--to=iec 1025', {OUT=>"1.1K"}], ['dbl-to-human-2.7','--to=iec 0', {OUT=>"0"}], # no "i" suffix if output has no suffix ['dbl-to-human-2.8','--to=iec-i 0', {OUT=>"0"}], # values resulting in "N.Nx" output ['dbl-to-human-3','--to=si 8000', {OUT=>"8.0K"}], ['dbl-to-human-3.1','--to=si 8001', {OUT=>"8.1K"}], ['dbl-to-human-4','--to=si --round=down 8001', {OUT=>"8.0K"}], ['dbl-to-human-5','--to=si --round=down 3500', {OUT=>"3.5K"}], ['dbl-to-human-6','--to=si --round=nearest 3500', {OUT=>"3.5K"}], ['dbl-to-human-7','--to=si --round=up 3500', {OUT=>"3.5K"}], ['dbl-to-human-8','--to=si --round=down 3501', {OUT=>"3.5K"}], ['dbl-to-human-9','--to=si --round=nearest 3501', {OUT=>"3.5K"}], ['dbl-to-human-10','--to=si --round=up 3501', {OUT=>"3.6K"}], ['dbl-to-human-11','--to=si --round=nearest 3550', {OUT=>"3.6K"}], ['dbl-to-human-12','--to=si --from=si 999.89K', {OUT=>"1.0M"}], ['dbl-to-human-13','--to=si --from=si 9.9K', {OUT=>"9.9K"}], ['dbl-to-human-14','--to=si 9900', {OUT=>"9.9K"}], ['dbl-to-human-15','--to=iec --from=si 3.3K', {OUT=>"3.3K"}], ['dbl-to-human-16','--to=iec --round=down --from=si 3.3K', {OUT=>"3.2K"}], # values resulting in 'NNx' output ['dbl-to-human-17','--to=si 9999', {OUT=>"10K"}], ['dbl-to-human-18','--to=si --round=down 35000', {OUT=>"35K"}], ['dbl-to-human-19','--to=iec 35000', {OUT=>"35K"}], ['dbl-to-human-20','--to=iec --round=down 35000', {OUT=>"34K"}], ['dbl-to-human-21','--to=iec 35000000', {OUT=>"34M"}], ['dbl-to-human-22','--to=iec --round=down 35000000', {OUT=>"33M"}], ['dbl-to-human-23','--to=si 35000001', {OUT=>"36M"}], ['dbl-to-human-24','--to=si --from=si 9.99M', {OUT=>"10M"}], ['dbl-to-human-25','--to=si --from=iec 9.99M', {OUT=>"11M"}], ['dbl-to-human-25.1','--to=iec 99999', {OUT=>"98K"}], # values resulting in 'NNNx' output ['dbl-to-human-26','--to=si 999000000000', {OUT=>"999G"}], ['dbl-to-human-27','--to=iec 999000000000', {OUT=>"931G"}], ['dbl-to-human-28','--to=si 123600000000000', {OUT=>"124T"}], ['dbl-to-human-29','--to=si 998123', {OUT=>"999K"}], ['dbl-to-human-30','--to=si --round=nearest 998123', {OUT=>"998K"}], ['dbl-to-human-31','--to=si 99999', {OUT=>"100K"}], ['dbl-to-human-32','--to=iec 102399', {OUT=>"100K"}], ['dbl-to-human-33','--to=iec-i 102399', {OUT=>"100Ki"}], # Default --round=from-zero ['round-1','--to-unit=1024 -- 6000 -6000', {OUT=>"6\n-6"}], ['round-2','--to-unit=1024 -- 6000.0 -6000.0', {OUT=>"5.9\n-5.9"}], ['round-3','--to-unit=1024 -- 6000.00 -6000.00', {OUT=>"5.86\n-5.86"}], ['round-4','--to-unit=1024 -- 6000.000 -6000.000', {OUT=>"5.860\n-5.860"}], ['round-5','--to-unit=1024 -- 6000.0000 -6000.0000', {OUT=>"5.8594\n-5.8594"}], # --round=up ['round-1-up','--round=up --to-unit=1024 -- 6000 -6000', {OUT=>"6\n-5"}], ['round-2-up','--round=up --to-unit=1024 -- 6000.0 -6000.0', {OUT=>"5.9\n-5.8"}], ['round-3-up','--round=up --to-unit=1024 -- 6000.00 -6000.00', {OUT=>"5.86\n-5.85"}], ['round-4-up','--round=up --to-unit=1024 -- 6000.000 -6000.000', {OUT=>"5.860\n-5.859"}], ['round-5-up','--round=up --to-unit=1024 -- 6000.0000 -6000.0000', {OUT=>"5.8594\n-5.8593"}], # --round=down ['round-1-down','--round=down --to-unit=1024 -- 6000 -6000', {OUT=>"5\n-6"}], ['round-2-down','--round=down --to-unit=1024 -- 6000.0 -6000.0', {OUT=>"5.8\n-5.9"}], ['round-3-down','--round=down --to-unit=1024 -- 6000.00 -6000.00', {OUT=>"5.85\n-5.86"}], ['round-4-down','--round=down --to-unit=1024 -- 6000.000 -6000.000', {OUT=>"5.859\n-5.860"}], ['round-5-down','--round=down --to-unit=1024 -- 6000.0000 -6000.0000', {OUT=>"5.8593\n-5.8594"}], # --round=towards-zero ['round-1-to-zero','--ro=towards-zero --to-u=1024 -- 6000 -6000', {OUT=>"5\n-5"}], ['round-2-to-zero','--ro=towards-zero --to-u=1024 -- 6000.0 -6000.0', {OUT=>"5.8\n-5.8"}], ['round-3-to-zero','--ro=towards-zero --to-u=1024 -- 6000.00 -6000.00', {OUT=>"5.85\n-5.85"}], ['round-4-to-zero','--ro=towards-zero --to-u=1024 -- 6000.000 -6000.000', {OUT=>"5.859\n-5.859"}], ['round-5-to-zero','--ro=towards-zero --to-u=1024 -- 6000.0000 -6000.0000', {OUT=>"5.8593\n-5.8593"}], # --round=nearest ['round-1-near','--ro=nearest --to-u=1024 -- 6000 -6000', {OUT=>"6\n-6"}], ['round-2-near','--ro=nearest --to-u=1024 -- 6000.0 -6000.0', {OUT=>"5.9\n-5.9"}], ['round-3-near','--ro=nearest --to-u=1024 -- 6000.00 -6000.00', {OUT=>"5.86\n-5.86"}], ['round-4-near','--ro=nearest --to-u=1024 -- 6000.000 -6000.000', {OUT=>"5.859\n-5.859"}], ['round-5-near','--ro=nearest --to-u=1024 -- 6000.0000 -6000.0000', {OUT=>"5.8594\n-5.8594"}], # Leading zeros weren't handled appropriately before 8.24 ['leading-1','0000000000000000000000000001', {OUT=>"1"}], ['leading-2','.1', {OUT=>"0.1"}], ['leading-3','bad.1', {ERR => "$prog: invalid number: 'bad.1'\n"}, {EXIT => 2}], ['leading-4','..1', {ERR => "$prog: invalid suffix in input: '..1'\n"}, {EXIT => 2}], ['leading-5','1.', {ERR => "$prog: invalid number: '1.'\n"}, {EXIT => 2}], # precision override ['precision-1','--format=%.4f 9991239123 --to=si', {OUT=>"9.9913G"}], ['precision-2','--format=%.1f 9991239123 --to=si', {OUT=>"10.0G"}], ['precision-3','--format=%.1f 1', {OUT=>"1.0"}], ['precision-4','--format=%.1f 1.12', {OUT=>"1.2"}], ['precision-5','--format=%.1f 9991239123 --to-unit=G', {OUT=>"10.0"}], ['precision-6','--format="% .1f" 9991239123 --to-unit=G', {OUT=>"10.0"}], ['precision-7','--format=%.-1f 1.1', {ERR => "$prog: invalid precision in format '%.-1f'\n"}, {EXIT => 1}], ['precision-8','--format=%.+1f 1.1', {ERR => "$prog: invalid precision in format '%.+1f'\n"}, {EXIT => 1}], ['precision-9','--format="%. 1f" 1.1', {ERR => "$prog: invalid precision in format '%. 1f'\n"}, {EXIT => 1}], # debug warnings ['debug-1', '--debug 4096', {OUT=>"4096"}, {ERR=>"$prog: no conversion option specified\n"}], # '--padding' is a valid conversion option - no warning should be printed ['debug-1.1', '--debug --padding 10 4096', {OUT=>" 4096"}], ['debug-2', '--debug --grouping --from=si 4.0K', {OUT=>"4000"}, {ERR=>"$prog: grouping has no effect in this locale\n"}], # dev-debug messages - the actual messages don't matter # just ensure the program works, and for code coverage testing. ['devdebug-1', '---debug --from=si 4.9K', {OUT=>"4900"}, {ERR=>""}, {ERR_SUBST=>"s/.*//msg"}], ['devdebug-2', '---debug 4900', {OUT=>"4900"}, {ERR=>""}, {ERR_SUBST=>"s/.*//msg"}], ['devdebug-3', '---debug --from=auto 4Mi', {OUT=>"4194304"}, {ERR=>""}, {ERR_SUBST=>"s/.*//msg"}], ['devdebug-4', '---debug --to=si 4000000', {OUT=>"4.0M"}, {ERR=>""}, {ERR_SUBST=>"s/.*//msg"}], ['devdebug-5', '---debug --to=si --padding=5 4000000', {OUT=>" 4.0M"}, {ERR=>""}, {ERR_SUBST=>"s/.*//msg"}], ['devdebug-6', '---debug --suffix=Foo 1234Foo', {OUT=>"1234Foo"}, {ERR=>""}, {ERR_SUBST=>"s/.*//msg"}], ['devdebug-7', '---debug --suffix=Foo 1234', {OUT=>"1234Foo"}, {ERR=>""}, {ERR_SUBST=>"s/.*//msg"}], ['devdebug-9', '---debug --grouping 10000', {OUT=>"10000"}, {ERR=>""}, {ERR_SUBST=>"s/.*//msg"}], ['devdebug-10', '---debug --format %f 10000', {OUT=>"10000"}, {ERR=>""}, {ERR_SUBST=>"s/.*//msg"}], ['devdebug-11', '---debug --format "%\'-10f" 10000',{OUT=>"10000 "}, {ERR=>""}, {ERR_SUBST=>"s/.*//msg"}], # Invalid parameters ['help-1', '--foobar', {ERR=>"$prog: unrecognized option\n$try"}, {ERR_SUBST=>"s/option.*/option/; s/unknown/unrecognized/"}, {EXIT=>1}], ## Format string - check error detection ['fmt-err-1', '--format ""', {ERR=>"$prog: format '' has no % directive\n"}, {EXIT=>1}], ['fmt-err-2', '--format "hello"', {ERR=>"$prog: format 'hello' has no % directive\n"}, {EXIT=>1}], ['fmt-err-3', '--format "hello%"', {ERR=>"$prog: format 'hello%' ends in %\n"}, {EXIT=>1}], ['fmt-err-4', '--format "%d"', {ERR=>"$prog: invalid format '%d', " . "directive must be %[0]['][-][N][.][N]f\n"}, {EXIT=>1}], ['fmt-err-5', '--format "% -43 f"', {ERR=>"$prog: invalid format '% -43 f', " . "directive must be %[0]['][-][N][.][N]f\n"}, {EXIT=>1}], ['fmt-err-6', '--format "%f %f"', {ERR=>"$prog: format '%f %f' has too many % directives\n"}, {EXIT=>1}], ['fmt-err-7', '--format "%'.$limits->{LONG_OFLOW}.'f"', {ERR=>"$prog: invalid format '%$limits->{LONG_OFLOW}f'". " (width overflow)\n"}, {EXIT=>1}], ['fmt-err-9', '--format "%f" --grouping', {ERR=>"$prog: --grouping cannot be combined with --format\n"}, {EXIT=>1}], ['fmt-err-10', '--format "%\'f" --to=si', {ERR=>"$prog: grouping cannot be combined with --to\n"}, {EXIT=>1}], ['fmt-err-11', '--debug --format "%\'f" 5000', {OUT=>"5000"}, {ERR=>"$prog: grouping has no effect in this locale\n"}], ## Format string - check some corner cases ['fmt-1', '--format "%% %f" 5000', {OUT=>"%%5000"}], ['fmt-2', '--format "%f %%" 5000', {OUT=>"5000 %%"}], ['fmt-3', '--format "--%f--" 5000000', {OUT=>"--5000000--"}], ['fmt-4', '--format "--%f--" --to=si 5000000', {OUT=>"--5.0M--"}], ['fmt-5', '--format "--%10f--" --to=si 5000000',{OUT=>"-- 5.0M--"}], ['fmt-6', '--format "--%-10f--" --to=si 5000000',{OUT=>"--5.0M --"}], ['fmt-7', '--format "--%10f--" 5000000',{OUT=>"-- 5000000--"}], ['fmt-8', '--format "--%-10f--" 5000000',{OUT=>"--5000000 --"}], # too-short width ['fmt-9', '--format "--%5f--" 5000000',{OUT=>"--5000000--"}], # Format + Suffix ['fmt-10', '--format "--%10f--" --suffix Foo 50', {OUT=>"-- 50Foo--"}], ['fmt-11', '--format "--%-10f--" --suffix Foo 50',{OUT=>"--50Foo --"}], # Grouping in C locale - no grouping effect ['fmt-12', '--format "%\'f" 50000',{OUT=>"50000"}], ['fmt-13', '--format "%\'10f" 50000', {OUT=>" 50000"}], ['fmt-14', '--format "%\'-10f" 50000',{OUT=>"50000 "}], # Very large format strings ['fmt-15', '--format "--%100000f--" --to=si 4200', {OUT=>"--" . " " x 99996 . "4.2K--" }], # --format padding overrides --padding ['fmt-16', '--format="%6f" --padding=66 1234',{OUT=>" 1234"}], # zero padding ['fmt-17', '--format="%06f" 1234',{OUT=>"001234"}], # also support spaces (which are ignored as spacing is handled separately) ['fmt-18', '--format="%0 6f" 1234',{OUT=>"001234"}], # handle generic padding in combination ['fmt-22', '--format="%06f" --padding=7 1234',{OUT=>" 001234"}], ['fmt-23', '--format="%06f" --padding=-7 1234',{OUT=>"001234 "}], ## Check all errors again, this time with --invalid=fail ## Input will be printed without conversion, ## and exit code will be 2 ['ign-err-1', '--invalid=fail 4Q', {ERR => "$prog: invalid suffix in input: '4Q'\n"}, {OUT => "4Q\n"}, {EXIT => 2}], ['ign-err-2', '--invalid=fail 4M', {ERR => "$prog: rejecting suffix " . "in input: '4M' (consider using --from)\n"}, {OUT => "4M\n"}, {EXIT => 2}], ['ign-err-3', '--invalid=fail --from=si 4MQ', {ERR => "$prog: invalid suffix in input '4MQ': 'Q'\n"}, {OUT => "4MQ\n"}, {EXIT => 2}], ['ign-err-4', '--invalid=fail --suffix=Foo --to=si 7000FooF', {ERR => "$prog: invalid suffix in input: '7000FooF'\n"}, {OUT => "7000FooF\n"}, {EXIT => 2}], ['ign-err-5','--invalid=fail --field 3 --from=auto "Hello 40M World 90G"', {ERR => "$prog: invalid number: 'World'\n"}, {OUT => "Hello 40M World 90G\n"}, {EXIT => 2}], ['ign-err-7', '--invalid=fail --from=si "foo"', {ERR => "$prog: invalid number: 'foo'\n"}, {OUT => "foo\n"}, {EXIT=> 2}], ['ign-err-8', '--invalid=fail 12M', {ERR => "$prog: rejecting suffix " . "in input: '12M' (consider using --from)\n"}, {OUT => "12M\n"}, {EXIT => 2}], ['ign-err-9', '--invalid=fail --from=iec-i 12M', {ERR => "$prog: missing 'i' suffix in input: " . "'12M' (e.g Ki/Mi/Gi)\n"}, {OUT => "12M\n"}, {EXIT=>2}], ## Ignore Errors with multiple conversions ['ign-err-m1', '--invalid=ignore --to=si 1000 2000 bad 3000', {OUT => "1.0K\n2.0K\nbad\n3.0K"}, {EXIT => 0}], ['ign-err-m1.1', '--invalid=ignore --to=si', {IN_PIPE => "1000\n2000\nbad\n3000\n"}, {OUT => "1.0K\n2.0K\nbad\n3.0K"}, {EXIT => 0}], ['ign-err-m1.3', '--invalid=fail --debug --to=si 1000 2000 3000', {OUT => "1.0K\n2.0K\n3.0K"}, {EXIT => 0}], ['ign-err-m2', '--invalid=fail --to=si 1000 Foo 3000', {OUT => "1.0K\nFoo\n3.0K\n"}, {ERR => "$prog: invalid number: 'Foo'\n"}, {EXIT => 2}], ['ign-err-m2.1', '--invalid=warn --to=si', {IN_PIPE => "1000\nFoo\n3000\n"}, {OUT => "1.0K\nFoo\n3.0K"}, {ERR => "$prog: invalid number: 'Foo'\n"}, {EXIT => 0}], # --debug will trigger a final warning at EOF ['ign-err-m2.2', '--invalid=fail --debug --to=si 1000 Foo 3000', {OUT => "1.0K\nFoo\n3.0K\n"}, {ERR => "$prog: invalid number: 'Foo'\n" . "$prog: failed to convert some of the input numbers\n"}, {EXIT => 2}], ['ign-err-m3', '--invalid=fail --field 2 --from=si --to=iec', {IN_PIPE => "A 1K x\nB 2M y\nC 3G z\n"}, {OUT => "A 1000 x\nB 2.0M y\nC 2.8G z"}, {EXIT => 0}], # invalid input on one of the fields ['ign-err-m3.1', '--invalid=fail --field 2 --from=si --to=iec', {IN_PIPE => "A 1K x\nB Foo y\nC 3G z\n"}, {OUT => "A 1000 x\nB Foo y\nC 2.8G z\n"}, {ERR => "$prog: invalid number: 'Foo'\n"}, {EXIT => 2}], ); # test null-terminated lines my @NullDelim_Tests = ( # Input from STDIN ['z1', '-z --to=iec', {IN_PIPE => "1025\x002048\x00"}, {OUT=>"1.1K\x002.0K\x00"}], # Input from the commandline - terminated by NULL vs NL ['z3', ' --to=iec 1024', {OUT=>"1.0K\n"}], ['z2', '-z --to=iec 1024', {OUT=>"1.0K\x00"}], # Input from STDIN, with fields ['z4', '-z --field=3 --to=si', {IN_PIPE => "A B 1001 C\x00" . "D E 2002 F\x00"}, {OUT => "A B 1.1K C\x00" . "D E 2.1K F\x00"}], # Input from STDIN, with fields and embedded NL ['z5', '-z --field=3 --to=si', {IN_PIPE => "A\nB 1001 C\x00" . "D E\n2002 F\x00"}, {OUT => "A B 1.1K C\x00" . "D E 2.1K F\x00"}], ); my @Limit_Tests = ( # Large Values ['large-1','1000000000000000', {OUT=>"1000000000000000"}], # 18 digits is OK ['large-2','1000000000000000000', {OUT=>"1000000000000000000"}], # 19 digits is too much (without output scaling) ['large-3','10000000000000000000', {ERR => "$prog: value too large to be printed: '1e+19' " . "(consider using --to)\n"}, {EXIT=>2}], ['large-4','1000000000000000000.0', {ERR => "$prog: value/precision too large to be printed: " . "'1e+18/1' (consider using --to)\n"}, {EXIT=>2}], # Test input: # Up to 27 digits is OK. ['large-3.1', '--to=si 1', {OUT=> "1"}], ['large-3.2', '--to=si 10', {OUT=> "10"}], ['large-3.3', '--to=si 100', {OUT=> "100"}], ['large-3.4', '--to=si 1000', {OUT=>"1.0K"}], ['large-3.5', '--to=si 10000', {OUT=> "10K"}], ['large-3.6', '--to=si 100000', {OUT=>"100K"}], ['large-3.7', '--to=si 1000000', {OUT=>"1.0M"}], ['large-3.8', '--to=si 10000000', {OUT=> "10M"}], ['large-3.9', '--to=si 100000000', {OUT=>"100M"}], ['large-3.10','--to=si 1000000000', {OUT=>"1.0G"}], ['large-3.11','--to=si 10000000000', {OUT=> "10G"}], ['large-3.12','--to=si 100000000000', {OUT=>"100G"}], ['large-3.13','--to=si 1000000000000', {OUT=>"1.0T"}], ['large-3.14','--to=si 10000000000000', {OUT=> "10T"}], ['large-3.15','--to=si 100000000000000', {OUT=>"100T"}], ['large-3.16','--to=si 1000000000000000', {OUT=>"1.0P"}], ['large-3.17','--to=si 10000000000000000', {OUT=> "10P"}], ['large-3.18','--to=si 100000000000000000', {OUT=>"100P"}], ['large-3.19','--to=si 1000000000000000000', {OUT=>"1.0E"}], ['large-3.20','--to=si 10000000000000000000', {OUT=> "10E"}], ['large-3.21','--to=si 210000000000000000000', {OUT=>"210E"}], ['large-3.22','--to=si 3210000000000000000000', {OUT=>"3.3Z"}], ['large-3.23','--to=si 43210000000000000000000', {OUT=> "44Z"}], ['large-3.24','--to=si 543210000000000000000000', {OUT=>"544Z"}], ['large-3.25','--to=si 6543210000000000000000000', {OUT=>"6.6Y"}], ['large-3.26','--to=si 76543210000000000000000000', {OUT=> "77Y"}], ['large-3.27','--to=si 876543210000000000000000000', {OUT=>"877Y"}], # More than 27 digits is not OK ['large-3.28','--to=si 9876543210000000000000000000', {ERR => "$prog: value too large to be converted: " . "'9876543210000000000000000000'\n"}, {EXIT => 2}], # Test Output ['large-4.1', '--from=si 9.7M', {OUT=>"9700000"}], ['large-4.2', '--from=si 10M', {OUT =>"10000000"}], ['large-4.3', '--from=si 200M', {OUT =>"200000000"}], ['large-4.4', '--from=si 3G', {OUT =>"3000000000"}], ['large-4.5', '--from=si 40G', {OUT =>"40000000000"}], ['large-4.6', '--from=si 500G', {OUT =>"500000000000"}], ['large-4.7', '--from=si 6T', {OUT =>"6000000000000"}], ['large-4.8', '--from=si 70T', {OUT =>"70000000000000"}], ['large-4.9', '--from=si 800T', {OUT =>"800000000000000"}], ['large-4.10','--from=si 9P', {OUT =>"9000000000000000"}], ['large-4.11','--from=si 10P', {OUT =>"10000000000000000"}], ['large-4.12','--from=si 200P', {OUT =>"200000000000000000"}], ['large-4.13','--from=si 3E', {OUT =>"3000000000000000000"}], # More than 18 digits of output without scaling - no good. ['large-4.14','--from=si 40E', {ERR => "$prog: value too large to be printed: '4e+19' " . "(consider using --to)\n"}, {EXIT => 2}], ['large-4.15','--from=si 500E', {ERR => "$prog: value too large to be printed: '5e+20' " . "(consider using --to)\n"}, {EXIT => 2}], ['large-4.16','--from=si 6Z', {ERR => "$prog: value too large to be printed: '6e+21' " . "(consider using --to)\n"}, {EXIT => 2}], ['large-4.17','--from=si 70Z', {ERR => "$prog: value too large to be printed: '7e+22' " . "(consider using --to)\n"}, {EXIT => 2}], ['large-4.18','--from=si 800Z', {ERR => "$prog: value too large to be printed: '8e+23' " . "(consider using --to)\n"}, {EXIT => 2}], ['large-4.19','--from=si 9Y', {ERR => "$prog: value too large to be printed: '9e+24' " . "(consider using --to)\n"}, {EXIT => 2}], ['large-4.20','--from=si 10Y', {ERR => "$prog: value too large to be printed: '1e+25' " . "(consider using --to)\n"}, {EXIT => 2}], ['large-4.21','--from=si 200Y', {ERR => "$prog: value too large to be printed: '2e+26' " . "(consider using --to)\n"}, {EXIT => 2}], ['large-5.1','--to=si 1000000000000000000', {OUT=>"1.0E"}], ['large-5','--from=si --to=si 2E', {OUT=>"2.0E"}], ['large-6','--from=si --to=si 3.4Z', {OUT=>"3.4Z"}], ['large-7','--from=si --to=si 80Y', {OUT=>"80Y"}], ['large-8','--from=si --to=si 9000Z', {OUT=>"9.0Y"}], ['large-10','--from=si --to=si 999Y', {OUT=>"999Y"}], ['large-11','--from=si --to=iec 999Y', {OUT=>"827Y"}], ['large-12','--from=si --round=down --to=iec 999Y', {OUT=>"826Y"}], # units can also affect the output ['large-13','--from=si --from-unit=1000000 9P', {ERR => "$prog: value too large to be printed: '9e+21' " . "(consider using --to)\n"}, {EXIT => 2}], ['large-13.1','--from=si --from-unit=1000000 --to=si 9P', {OUT=>"9.0Z"}], # Numbers>999Y are never acceptable, regardless of scaling ['large-14','--from=si --to=si 999Y', {OUT=>"999Y"}], ['large-14.1','--from=si --to=si 1000Y', {ERR => "$prog: value too large to be printed: '1e+27' " . "(cannot handle values > 999Y)\n"}, {EXIT => 2}], ['large-14.2','--from=si --to=si --from-unit=10000 1Y', {ERR => "$prog: value too large to be printed: '1e+28' " . "(cannot handle values > 999Y)\n"}, {EXIT => 2}], # intmax_t overflow when rounding caused this to fail before 8.24 ['large-15',$limits->{INTMAX_OFLOW}, {OUT=>$limits->{INTMAX_OFLOW}}], ['large-16','9.300000000000000000', {OUT=>'9.300000000000000000'}], # INTEGRAL_OVERFLOW ['strtod-3', '--from=si "1234567890123456789012345678901234567890'. '1234567890123456789012345678901234567890"', {ERR=>"$prog: value too large to be converted: '" . "1234567890123456789012345678901234567890" . "1234567890123456789012345678901234567890'\n", }, {EXIT=> 2}], # FRACTION_OVERFLOW ['strtod-7', '--from=si "12.1234567890123456789012345678901234567890'. '1234567890123456789012345678901234567890"', {ERR=>"$prog: value too large to be converted: '" . "12.1234567890123456789012345678901234567890" . "1234567890123456789012345678901234567890'\n", }, {EXIT=> 2}], ['debug-4', '--to=si --debug 12345678901234567890', {OUT=>"13E"}, {ERR=>"$prog: large input value '12345678901234567890':" . " possible precision loss\n"}], ['debug-5', '--to=si --from=si --debug 1.12345678901234567890Y', {OUT=>"1.2Y"}, {ERR=>"$prog: large input value '1.12345678901234567890Y':" . " possible precision loss\n"}], ['ign-err-10','--invalid=fail 10000000000000000000', {ERR => "$prog: value too large to be printed: '1e+19' " . "(consider using --to)\n"}, {OUT => "10000000000000000000\n"}, {EXIT=>2}], ['ign-err-11','--invalid=fail --to=si 9876543210000000000000000000', {ERR => "$prog: value too large to be converted: " . "'9876543210000000000000000000'\n"}, {OUT => "9876543210000000000000000000\n"}, {EXIT => 2}], ); # Restrict these tests to systems with LDBL_DIG == 18 (system "$prog ---debug 1 2>&1|grep 'MAX_UNSCALED_DIGITS: 18' > /dev/null") == 0 and push @Tests, @Limit_Tests; my @Locale_Tests = ( # Locale that supports grouping, but without '--grouping' parameter ['lcl-grp-1', '--from=si 7M', {OUT=>"7000000"}, {ENV=>"LC_ALL=$locale"}], # Locale with grouping ['lcl-grp-2', '--from=si --grouping 7M', {OUT=>"7 000 000"}, {ENV=>"LC_ALL=$locale"}], # Locale with grouping and debug - no debug warning message ['lcl-grp-3', '--from=si --debug --grouping 7M', {OUT=>"7 000 000"}, {ENV=>"LC_ALL=$locale"}], # Input with locale'd decimal-point ['lcl-stdtod-1', '--from=si 12,2K', {OUT=>"12200"}, {ENV=>"LC_ALL=$locale"}], ['lcl-dbl-to-human-1', '--to=si 1100', {OUT=>"1,1K"}, {ENV=>"LC_ALL=$locale"}], # Format + Grouping ['lcl-fmt-1', '--format "%\'f" 50000',{OUT=>"50 000"}, {ENV=>"LC_ALL=$locale"}], ['lcl-fmt-2', '--format "--%\'10f--" 50000', {OUT=>"-- 50 000--"}, {ENV=>"LC_ALL=$locale"}], ['lcl-fmt-3', '--format "--%\'-10f--" 50000',{OUT=>"--50 000 --"}, {ENV=>"LC_ALL=$locale"}], ['lcl-fmt-4', '--format "--%-10f--" --to=si 5000000', {OUT=>"--5,0M --"}, {ENV=>"LC_ALL=$locale"}], # handle zero/grouping in combination ['lcl-fmt-5', '--format="%\'06f" 1234',{OUT=>"01 234"}, {ENV=>"LC_ALL=$locale"}], ['lcl-fmt-6', '--format="%0\'6f" 1234',{OUT=>"01 234"}, {ENV=>"LC_ALL=$locale"}], ['lcl-fmt-7', '--format="%0\'\'6f" 1234',{OUT=>"01 234"}, {ENV=>"LC_ALL=$locale"}], ); if ($locale ne 'C') { # Reset locale to 'C' if LOCALE_FR_UTF8 doesn't output as expected # as determined by the separate printf program. open(LOC_NUM, "env LC_ALL=$locale printf \"%'d\" 1234|") or die "Can't fork command: $!"; my $loc_num = ; close(LOC_NUM) || die "Failed to read grouped number from printf"; if ($loc_num ne '1 234') { warn "skipping locale grouping tests as 1234 groups like $loc_num\n"; $locale = 'C'; } } push @Tests, @Locale_Tests if $locale ne 'C'; ## Check all valid/invalid suffixes foreach my $suf ( 'A' .. 'Z', 'a' .. 'z' ) { if ( $suf =~ /^[KMGTPEZY]$/ ) { push @Tests, ["auto-suf-si-$suf","--from=si --to=si 1$suf", {OUT=>"1.0$suf"}]; push @Tests, ["auto-suf-iec-$suf","--from=iec --to=iec 1$suf", {OUT=>"1.0$suf"}]; push @Tests, ["auto-suf-auto-$suf","--from=auto --to=iec 1${suf}i", {OUT=>"1.0$suf"}]; push @Tests, ["auto-suf-iec-to-ieci-$suf","--from=iec --to=iec-i 1${suf}", {OUT=>"1.0${suf}i"}]; push @Tests, ["auto-suf-ieci-to-iec-$suf", "--from=iec-i --to=iec 1${suf}i",{OUT=>"1.0${suf}"}]; } else { push @Tests, ["auto-suf-si-$suf","--from=si --to=si 1$suf", {ERR=>"$prog: invalid suffix in input: '1${suf}'\n"}, {EXIT=>2}]; } } # Prepend the command line argument and append a newline to end # of each expected 'OUT' string. my $t; Test: foreach $t (@Tests) { # Don't fiddle with expected OUT string if there's a nonzero exit status. foreach my $e (@$t) { ref $e eq 'HASH' && exists $e->{EXIT} && $e->{EXIT} and next Test; } foreach my $e (@$t) { ref $e eq 'HASH' && exists $e->{OUT} and $e->{OUT} .= "\n" } } # Add test for null-terminated lines (after adjusting the OUT string, above). push @Tests, @NullDelim_Tests; my $save_temps = $ENV{SAVE_TEMPS}; my $verbose = $ENV{VERBOSE}; my $fail = run_tests ($program_name, $prog, \@Tests, $save_temps, $verbose); exit $fail;