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require 'abstract_unit'
class NumberHelperTest < ActionView::TestCase
tests ActionView::Helpers::NumberHelper
def kilobytes(number)
number * 1024
end
def megabytes(number)
kilobytes(number) * 1024
end
def gigabytes(number)
megabytes(number) * 1024
end
def terabytes(number)
gigabytes(number) * 1024
end
def silence_deprecation_warnings
@old_deprecatios_silenced = ActiveSupport::Deprecation.silenced
ActiveSupport::Deprecation.silenced = true
end
def restore_deprecation_warnings
ActiveSupport::Deprecation.silenced = @old_deprecatios_silenced
end
def test_number_to_phone
assert_equal("555-1234", number_to_phone(5551234))
assert_equal("800-555-1212", number_to_phone(8005551212))
assert_equal("(800) 555-1212", number_to_phone(8005551212, {:area_code => true}))
assert_equal("", number_to_phone("", {:area_code => true}))
assert_equal("800 555 1212", number_to_phone(8005551212, {:delimiter => " "}))
assert_equal("(800) 555-1212 x 123", number_to_phone(8005551212, {:area_code => true, :extension => 123}))
assert_equal("800-555-1212", number_to_phone(8005551212, :extension => " "))
assert_equal("800-555-1212", number_to_phone("8005551212"))
assert_equal("+1-800-555-1212", number_to_phone(8005551212, :country_code => 1))
assert_equal("+18005551212", number_to_phone(8005551212, :country_code => 1, :delimiter => ''))
assert_equal("22-555-1212", number_to_phone(225551212))
assert_equal("+45-22-555-1212", number_to_phone(225551212, :country_code => 45))
end
def test_number_to_currency
assert_equal("$1,234,567,890.50", number_to_currency(1234567890.50))
assert_equal("$1,234,567,890.51", number_to_currency(1234567890.506))
assert_equal("-$1,234,567,890.50", number_to_currency(-1234567890.50))
assert_equal("-$ 1,234,567,890.50", number_to_currency(-1234567890.50, {:format => "%u %n"}))
assert_equal("($1,234,567,890.50)", number_to_currency(-1234567890.50, {:negative_format => "(%u%n)"}))
assert_equal("$1,234,567,892", number_to_currency(1234567891.50, {:precision => 0}))
assert_equal("$1,234,567,890.5", number_to_currency(1234567890.50, {:precision => 1}))
assert_equal("£1234567890,50", number_to_currency(1234567890.50, {:unit => "£", :separator => ",", :delimiter => ""}))
assert_equal("$1,234,567,890.50", number_to_currency("1234567890.50"))
assert_equal("1,234,567,890.50 Kč", number_to_currency("1234567890.50", {:unit => "Kč", :format => "%n %u"}))
assert_equal("1,234,567,890.50 - Kč", number_to_currency("-1234567890.50", {:unit => "Kč", :format => "%n %u", :negative_format => "%n - %u"}))
end
def test_number_to_percentage
assert_equal("100.000%", number_to_percentage(100))
assert_equal("100%", number_to_percentage(100, {:precision => 0}))
assert_equal("302.06%", number_to_percentage(302.0574, {:precision => 2}))
assert_equal("100.000%", number_to_percentage("100"))
assert_equal("1000.000%", number_to_percentage("1000"))
assert_equal("123.4%", number_to_percentage(123.400, :precision => 3, :strip_insignificant_zeros => true))
assert_equal("1.000,000%", number_to_percentage(1000, :delimiter => '.', :separator => ','))
end
def test_number_with_delimiter
assert_equal("12,345,678", number_with_delimiter(12345678))
assert_equal("0", number_with_delimiter(0))
assert_equal("123", number_with_delimiter(123))
assert_equal("123,456", number_with_delimiter(123456))
assert_equal("123,456.78", number_with_delimiter(123456.78))
assert_equal("123,456.789", number_with_delimiter(123456.789))
assert_equal("123,456.78901", number_with_delimiter(123456.78901))
assert_equal("123,456,789.78901", number_with_delimiter(123456789.78901))
assert_equal("0.78901", number_with_delimiter(0.78901))
assert_equal("123,456.78", number_with_delimiter("123456.78"))
end
def test_number_with_delimiter_with_options_hash
assert_equal '12 345 678', number_with_delimiter(12345678, :delimiter => ' ')
assert_equal '12,345,678-05', number_with_delimiter(12345678.05, :separator => '-')
assert_equal '12.345.678,05', number_with_delimiter(12345678.05, :separator => ',', :delimiter => '.')
assert_equal '12.345.678,05', number_with_delimiter(12345678.05, :delimiter => '.', :separator => ',')
end
def test_number_with_precision
assert_equal("-111.235", number_with_precision(-111.2346))
assert_equal("111.235", number_with_precision(111.2346))
assert_equal("31.83", number_with_precision(31.825, :precision => 2))
assert_equal("111.23", number_with_precision(111.2346, :precision => 2))
assert_equal("111.00", number_with_precision(111, :precision => 2))
assert_equal("111.235", number_with_precision("111.2346"))
assert_equal("31.83", number_with_precision("31.825", :precision => 2))
assert_equal("3268", number_with_precision((32.6751 * 100.00), :precision => 0))
assert_equal("112", number_with_precision(111.50, :precision => 0))
assert_equal("1234567892", number_with_precision(1234567891.50, :precision => 0))
assert_equal("0", number_with_precision(0, :precision => 0))
assert_equal("0.00100", number_with_precision(0.001, :precision => 5))
assert_equal("0.001", number_with_precision(0.00111, :precision => 3))
assert_equal("10.00", number_with_precision(9.995, :precision => 2))
assert_equal("11.00", number_with_precision(10.995, :precision => 2))
end
def test_number_with_precision_with_custom_delimiter_and_separator
assert_equal '31,83', number_with_precision(31.825, :precision => 2, :separator => ',')
assert_equal '1.231,83', number_with_precision(1231.825, :precision => 2, :separator => ',', :delimiter => '.')
end
def test_number_with_precision_with_significant_digits
assert_equal "124000", number_with_precision(123987, :precision => 3, :significant => true)
assert_equal "120000000", number_with_precision(123987876, :precision => 2, :significant => true )
assert_equal "40000", number_with_precision("43523", :precision => 1, :significant => true )
assert_equal "9775", number_with_precision(9775, :precision => 4, :significant => true )
assert_equal "5.4", number_with_precision(5.3923, :precision => 2, :significant => true )
assert_equal "5", number_with_precision(5.3923, :precision => 1, :significant => true )
assert_equal "1", number_with_precision(1.232, :precision => 1, :significant => true )
assert_equal "7", number_with_precision(7, :precision => 1, :significant => true )
assert_equal "1", number_with_precision(1, :precision => 1, :significant => true )
assert_equal "53", number_with_precision(52.7923, :precision => 2, :significant => true )
assert_equal "9775.00", number_with_precision(9775, :precision => 6, :significant => true )
assert_equal "5.392900", number_with_precision(5.3929, :precision => 7, :significant => true )
assert_equal "0.0", number_with_precision(0, :precision => 2, :significant => true )
assert_equal "0", number_with_precision(0, :precision => 1, :significant => true )
assert_equal "0.0001", number_with_precision(0.0001, :precision => 1, :significant => true )
assert_equal "0.000100", number_with_precision(0.0001, :precision => 3, :significant => true )
assert_equal "0.0001", number_with_precision(0.0001111, :precision => 1, :significant => true )
assert_equal "10.0", number_with_precision(9.995, :precision => 3, :significant => true)
assert_equal "9.99", number_with_precision(9.994, :precision => 3, :significant => true)
assert_equal "11.0", number_with_precision(10.995, :precision => 3, :significant => true)
end
def test_number_with_precision_with_strip_insignificant_zeros
assert_equal "9775.43", number_with_precision(9775.43, :precision => 4, :strip_insignificant_zeros => true )
assert_equal "9775.2", number_with_precision(9775.2, :precision => 6, :significant => true, :strip_insignificant_zeros => true )
assert_equal "0", number_with_precision(0, :precision => 6, :significant => true, :strip_insignificant_zeros => true )
end
def test_number_with_precision_with_significant_true_and_zero_precision
# Zero precision with significant is a mistake (would always return zero),
# so we treat it as if significant was false (increases backwards compatibility for number_to_human_size)
assert_equal "124", number_with_precision(123.987, :precision => 0, :significant => true)
assert_equal "12", number_with_precision(12, :precision => 0, :significant => true )
assert_equal "12", number_with_precision("12.3", :precision => 0, :significant => true )
end
def test_number_to_human_size
assert_equal '0 Bytes', number_to_human_size(0)
assert_equal '1 Byte', number_to_human_size(1)
assert_equal '3 Bytes', number_to_human_size(3.14159265)
assert_equal '123 Bytes', number_to_human_size(123.0)
assert_equal '123 Bytes', number_to_human_size(123)
assert_equal '1.21 KB', number_to_human_size(1234)
assert_equal '12.1 KB', number_to_human_size(12345)
assert_equal '1.18 MB', number_to_human_size(1234567)
assert_equal '1.15 GB', number_to_human_size(1234567890)
assert_equal '1.12 TB', number_to_human_size(1234567890123)
assert_equal '1030 TB', number_to_human_size(terabytes(1026))
assert_equal '444 KB', number_to_human_size(kilobytes(444))
assert_equal '1020 MB', number_to_human_size(megabytes(1023))
assert_equal '3 TB', number_to_human_size(terabytes(3))
assert_equal '1.2 MB', number_to_human_size(1234567, :precision => 2)
assert_equal '3 Bytes', number_to_human_size(3.14159265, :precision => 4)
assert_equal '123 Bytes', number_to_human_size('123')
assert_equal '1 KB', number_to_human_size(kilobytes(1.0123), :precision => 2)
assert_equal '1.01 KB', number_to_human_size(kilobytes(1.0100), :precision => 4)
assert_equal '10 KB', number_to_human_size(kilobytes(10.000), :precision => 4)
assert_equal '1 Byte', number_to_human_size(1.1)
assert_equal '10 Bytes', number_to_human_size(10)
end
def test_number_to_human_size_with_options_hash
assert_equal '1.2 MB', number_to_human_size(1234567, :precision => 2)
assert_equal '3 Bytes', number_to_human_size(3.14159265, :precision => 4)
assert_equal '1 KB', number_to_human_size(kilobytes(1.0123), :precision => 2)
assert_equal '1.01 KB', number_to_human_size(kilobytes(1.0100), :precision => 4)
assert_equal '10 KB', number_to_human_size(kilobytes(10.000), :precision => 4)
assert_equal '1 TB', number_to_human_size(1234567890123, :precision => 1)
assert_equal '500 MB', number_to_human_size(524288000, :precision=>3)
assert_equal '10 MB', number_to_human_size(9961472, :precision=>0)
assert_equal '40 KB', number_to_human_size(41010, :precision => 1)
assert_equal '40 KB', number_to_human_size(41100, :precision => 2)
assert_equal '1.0 KB', number_to_human_size(kilobytes(1.0123), :precision => 2, :strip_insignificant_zeros => false)
assert_equal '1.012 KB', number_to_human_size(kilobytes(1.0123), :precision => 3, :significant => false)
assert_equal '1 KB', number_to_human_size(kilobytes(1.0123), :precision => 0, :significant => true) #ignores significant it precision is 0
end
def test_number_to_human_size_with_custom_delimiter_and_separator
assert_equal '1,01 KB', number_to_human_size(kilobytes(1.0123), :precision => 3, :separator => ',')
assert_equal '1,01 KB', number_to_human_size(kilobytes(1.0100), :precision => 4, :separator => ',')
assert_equal '1.000,1 TB', number_to_human_size(terabytes(1000.1), :precision => 5, :delimiter => '.', :separator => ',')
end
def test_number_to_human
assert_equal '-123', number_to_human(-123)
assert_equal '-0.5', number_to_human(-0.5)
assert_equal '0', number_to_human(0)
assert_equal '0.5', number_to_human(0.5)
assert_equal '123', number_to_human(123)
assert_equal '1.23 Thousand', number_to_human(1234)
assert_equal '12.3 Thousand', number_to_human(12345)
assert_equal '1.23 Million', number_to_human(1234567)
assert_equal '1.23 Billion', number_to_human(1234567890)
assert_equal '1.23 Trillion', number_to_human(1234567890123)
assert_equal '1.23 Quadrillion', number_to_human(1234567890123456)
assert_equal '1230 Quadrillion', number_to_human(1234567890123456789)
assert_equal '490 Thousand', number_to_human(489939, :precision => 2)
assert_equal '489.9 Thousand', number_to_human(489939, :precision => 4)
assert_equal '489 Thousand', number_to_human(489000, :precision => 4)
assert_equal '489.0 Thousand', number_to_human(489000, :precision => 4, :strip_insignificant_zeros => false)
assert_equal '1.2346 Million', number_to_human(1234567, :precision => 4, :significant => false)
assert_equal '1,2 Million', number_to_human(1234567, :precision => 1, :significant => false, :separator => ',')
assert_equal '1 Million', number_to_human(1234567, :precision => 0, :significant => true, :separator => ',') #significant forced to false
end
def test_number_to_human_with_custom_units
#Only integers
volume = {:unit => "ml", :thousand => "lt", :million => "m3"}
assert_equal '123 lt', number_to_human(123456, :units => volume)
assert_equal '12 ml', number_to_human(12, :units => volume)
assert_equal '1.23 m3', number_to_human(1234567, :units => volume)
#Including fractionals
distance = {:mili => "mm", :centi => "cm", :deci => "dm", :unit => "m", :ten => "dam", :hundred => "hm", :thousand => "km"}
assert_equal '1.23 mm', number_to_human(0.00123, :units => distance)
assert_equal '1.23 cm', number_to_human(0.0123, :units => distance)
assert_equal '1.23 dm', number_to_human(0.123, :units => distance)
assert_equal '1.23 m', number_to_human(1.23, :units => distance)
assert_equal '1.23 dam', number_to_human(12.3, :units => distance)
assert_equal '1.23 hm', number_to_human(123, :units => distance)
assert_equal '1.23 km', number_to_human(1230, :units => distance)
assert_equal '1.23 km', number_to_human(1230, :units => distance)
assert_equal '1.23 km', number_to_human(1230, :units => distance)
assert_equal '12.3 km', number_to_human(12300, :units => distance)
#The quantifiers don't need to be a continuous sequence
gangster = {:hundred => "hundred bucks", :million => "thousand quids"}
assert_equal '1 hundred bucks', number_to_human(100, :units => gangster)
assert_equal '25 hundred bucks', number_to_human(2500, :units => gangster)
assert_equal '25 thousand quids', number_to_human(25000000, :units => gangster)
assert_equal '12300 thousand quids', number_to_human(12345000000, :units => gangster)
#Spaces are stripped from the resulting string
assert_equal '4', number_to_human(4, :units => {:unit => "", :ten => 'tens '})
assert_equal '4.5 tens', number_to_human(45, :units => {:unit => "", :ten => ' tens '})
end
def test_number_to_human_with_custom_format
assert_equal '123 times Thousand', number_to_human(123456, :format => "%n times %u")
volume = {:unit => "ml", :thousand => "lt", :million => "m3"}
assert_equal '123.lt', number_to_human(123456, :units => volume, :format => "%n.%u")
end
def test_number_helpers_should_return_nil_when_given_nil
assert_nil number_to_phone(nil)
assert_nil number_to_currency(nil)
assert_nil number_to_percentage(nil)
assert_nil number_with_delimiter(nil)
assert_nil number_with_precision(nil)
assert_nil number_to_human_size(nil)
assert_nil number_to_human(nil)
end
def test_number_helpers_should_return_non_numeric_param_unchanged
assert_equal("+1-x x 123", number_to_phone("x", :country_code => 1, :extension => 123))
assert_equal("x", number_to_phone("x"))
assert_equal("$x.", number_to_currency("x."))
assert_equal("$x", number_to_currency("x"))
assert_equal("x%", number_to_percentage("x"))
assert_equal("x", number_with_delimiter("x"))
assert_equal("x.", number_with_precision("x."))
assert_equal("x", number_with_precision("x"))
assert_equal "x", number_to_human_size('x')
assert_equal "x", number_to_human('x')
end
def test_number_helpers_outputs_are_html_safe
assert number_to_human(1).html_safe?
assert !number_to_human("<script></script>").html_safe?
assert number_to_human("asdf".html_safe).html_safe?
assert number_to_human_size(1).html_safe?
assert number_to_human_size(1000000).html_safe?
assert !number_to_human_size("<script></script>").html_safe?
assert number_to_human_size("asdf".html_safe).html_safe?
assert number_with_precision(1, :strip_insignificant_zeros => false).html_safe?
assert number_with_precision(1, :strip_insignificant_zeros => true).html_safe?
assert !number_with_precision("<script></script>").html_safe?
assert number_with_precision("asdf".html_safe).html_safe?
assert number_to_currency(1).html_safe?
assert !number_to_currency("<script></script>").html_safe?
assert number_to_currency("asdf".html_safe).html_safe?
assert number_to_percentage(1).html_safe?
assert !number_to_percentage("<script></script>").html_safe?
assert number_to_percentage("asdf".html_safe).html_safe?
assert number_to_phone(1).html_safe?
assert_equal "<script></script>", number_to_phone("<script></script>")
assert number_to_phone("<script></script>").html_safe?
assert number_to_phone("asdf".html_safe).html_safe?
assert number_with_delimiter(1).html_safe?
assert !number_with_delimiter("<script></script>").html_safe?
assert number_with_delimiter("asdf".html_safe).html_safe?
end
def test_number_helpers_should_raise_error_if_invalid_when_specified
assert_raise InvalidNumberError do
number_to_human("x", :raise => true)
end
begin
number_to_human("x", :raise => true)
rescue InvalidNumberError => e
assert_equal "x", e.number
end
assert_raise InvalidNumberError do
number_to_human_size("x", :raise => true)
end
begin
number_to_human_size("x", :raise => true)
rescue InvalidNumberError => e
assert_equal "x", e.number
end
assert_raise InvalidNumberError do
number_with_precision("x", :raise => true)
end
begin
number_with_precision("x", :raise => true)
rescue InvalidNumberError => e
assert_equal "x", e.number
end
assert_raise InvalidNumberError do
number_to_currency("x", :raise => true)
end
begin
number_with_precision("x", :raise => true)
rescue InvalidNumberError => e
assert_equal "x", e.number
end
assert_raise InvalidNumberError do
number_to_percentage("x", :raise => true)
end
begin
number_to_percentage("x", :raise => true)
rescue InvalidNumberError => e
assert_equal "x", e.number
end
assert_raise InvalidNumberError do
number_with_delimiter("x", :raise => true)
end
begin
number_with_delimiter("x", :raise => true)
rescue InvalidNumberError => e
assert_equal "x", e.number
end
assert_raise InvalidNumberError do
number_to_phone("x", :raise => true)
end
begin
number_to_phone("x", :raise => true)
rescue InvalidNumberError => e
assert_equal "x", e.number
end
end
end
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