describe :kernel_sprintf, shared: true do describe "integer formats" do it "converts argument into Integer with to_int" do obj = Object.new def obj.to_i; 10; end def obj.to_int; 10; end obj.should_receive(:to_int).and_return(10) @method.call("%b", obj).should == "1010" end it "converts argument into Integer with to_i if to_int isn't available" do obj = Object.new def obj.to_i; 10; end obj.should_receive(:to_i).and_return(10) @method.call("%b", obj).should == "1010" end it "converts String argument with Kernel#Integer" do @method.call("%d", "0b1010").should == "10" @method.call("%d", "112").should == "112" @method.call("%d", "0127").should == "87" @method.call("%d", "0xc4").should == "196" end it "raises TypeError exception if cannot convert to Integer" do -> { @method.call("%b", Object.new) }.should raise_error(TypeError) end ["b", "B"].each do |f| describe f do it "converts argument as a binary number" do @method.call("%#{f}", 10).should == "1010" end it "displays negative number as a two's complement prefixed with '..1'" do @method.call("%#{f}", -10).should == "..1" + "0110" end it "collapse negative number representation if it equals 1" do @method.call("%#{f}", -1).should_not == "..11" @method.call("%#{f}", -1).should == "..1" end end end ["d", "i", "u"].each do |f| describe f do it "converts argument as a decimal number" do @method.call("%#{f}", 112).should == "112" @method.call("%#{f}", -112).should == "-112" end it "works well with large numbers" do @method.call("%#{f}", 1234567890987654321).should == "1234567890987654321" end end end describe "o" do it "converts argument as an octal number" do @method.call("%o", 87).should == "127" end it "displays negative number as a two's complement prefixed with '..7'" do @method.call("%o", -87).should == "..7" + "651" end it "collapse negative number representation if it equals 7" do @method.call("%o", -1).should_not == "..77" @method.call("%o", -1).should == "..7" end end describe "x" do it "converts argument as a hexadecimal number" do @method.call("%x", 196).should == "c4" end it "displays negative number as a two's complement prefixed with '..f'" do @method.call("%x", -196).should == "..f" + "3c" end it "collapse negative number representation if it equals f" do @method.call("%x", -1).should_not == "..ff" @method.call("%x", -1).should == "..f" end end describe "X" do it "converts argument as a hexadecimal number with uppercase letters" do @method.call("%X", 196).should == "C4" end it "displays negative number as a two's complement prefixed with '..f'" do @method.call("%X", -196).should == "..F" + "3C" end it "collapse negative number representation if it equals F" do @method.call("%X", -1).should_not == "..FF" @method.call("%X", -1).should == "..F" end end end describe "float formats" do it "converts argument into Float" do obj = mock("float") obj.should_receive(:to_f).and_return(9.6) @method.call("%f", obj).should == "9.600000" end it "raises TypeError exception if cannot convert to Float" do -> { @method.call("%f", Object.new) }.should raise_error(TypeError) end {"e" => "e", "E" => "E"}.each_pair do |f, exp| describe f do it "converts argument into exponential notation [-]d.dddddde[+-]dd" do @method.call("%#{f}", 109.52).should == "1.095200#{exp}+02" @method.call("%#{f}", -109.52).should == "-1.095200#{exp}+02" @method.call("%#{f}", 0.10952).should == "1.095200#{exp}-01" @method.call("%#{f}", -0.10952).should == "-1.095200#{exp}-01" end it "cuts excessive digits and keeps only 6 ones" do @method.call("%#{f}", 1.123456789).should == "1.123457#{exp}+00" end it "rounds the last significant digit to the closest one" do @method.call("%#{f}", 1.555555555).should == "1.555556#{exp}+00" @method.call("%#{f}", -1.555555555).should == "-1.555556#{exp}+00" @method.call("%#{f}", 1.444444444).should == "1.444444#{exp}+00" end it "displays Float::INFINITY as Inf" do @method.call("%#{f}", Float::INFINITY).should == "Inf" @method.call("%#{f}", -Float::INFINITY).should == "-Inf" end it "displays Float::NAN as NaN" do @method.call("%#{f}", Float::NAN).should == "NaN" @method.call("%#{f}", -Float::NAN).should == "NaN" end end end describe "f" do it "converts floating point argument as [-]ddd.dddddd" do @method.call("%f", 10.952).should == "10.952000" @method.call("%f", -10.952).should == "-10.952000" end it "cuts excessive digits and keeps only 6 ones" do @method.call("%f", 1.123456789).should == "1.123457" end it "rounds the last significant digit to the closest one" do @method.call("%f", 1.555555555).should == "1.555556" @method.call("%f", -1.555555555).should == "-1.555556" @method.call("%f", 1.444444444).should == "1.444444" end it "displays Float::INFINITY as Inf" do @method.call("%f", Float::INFINITY).should == "Inf" @method.call("%f", -Float::INFINITY).should == "-Inf" end it "displays Float::NAN as NaN" do @method.call("%f", Float::NAN).should == "NaN" @method.call("%f", -Float::NAN).should == "NaN" end end {"g" => "e", "G" => "E"}.each_pair do |f, exp| describe f do context "the exponent is less than -4" do it "converts a floating point number using exponential form" do @method.call("%#{f}", 0.0000123456).should == "1.23456#{exp}-05" @method.call("%#{f}", -0.0000123456).should == "-1.23456#{exp}-05" @method.call("%#{f}", 0.000000000123456).should == "1.23456#{exp}-10" @method.call("%#{f}", -0.000000000123456).should == "-1.23456#{exp}-10" end end context "the exponent is greater than or equal to the precision (6 by default)" do it "converts a floating point number using exponential form" do @method.call("%#{f}", 1234567).should == "1.23457#{exp}+06" @method.call("%#{f}", 1234567890123).should == "1.23457#{exp}+12" @method.call("%#{f}", -1234567).should == "-1.23457#{exp}+06" end end context "otherwise" do it "converts a floating point number in dd.dddd form" do @method.call("%#{f}", 0.0001).should == "0.0001" @method.call("%#{f}", -0.0001).should == "-0.0001" @method.call("%#{f}", 123456).should == "123456" @method.call("%#{f}", -123456).should == "-123456" end it "cuts excessive digits in fractional part and keeps only 4 ones" do @method.call("%#{f}", 12.12341111).should == "12.1234" @method.call("%#{f}", -12.12341111).should == "-12.1234" end it "rounds the last significant digit to the closest one in fractional part" do @method.call("%#{f}", 1.555555555).should == "1.55556" @method.call("%#{f}", -1.555555555).should == "-1.55556" @method.call("%#{f}", 1.444444444).should == "1.44444" end it "cuts fraction part to have only 6 digits at all" do @method.call("%#{f}", 1.1234567).should == "1.12346" @method.call("%#{f}", 12.1234567).should == "12.1235" @method.call("%#{f}", 123.1234567).should == "123.123" @method.call("%#{f}", 1234.1234567).should == "1234.12" @method.call("%#{f}", 12345.1234567).should == "12345.1" @method.call("%#{f}", 123456.1234567).should == "123456" end end it "displays Float::INFINITY as Inf" do @method.call("%#{f}", Float::INFINITY).should == "Inf" @method.call("%#{f}", -Float::INFINITY).should == "-Inf" end it "displays Float::NAN as NaN" do @method.call("%#{f}", Float::NAN).should == "NaN" @method.call("%#{f}", -Float::NAN).should == "NaN" end end end describe "a" do it "converts floating point argument as [-]0xh.hhhhp[+-]dd" do @method.call("%a", 196).should == "0x1.88p+7" @method.call("%a", -196).should == "-0x1.88p+7" @method.call("%a", 196.1).should == "0x1.8833333333333p+7" @method.call("%a", 0.01).should == "0x1.47ae147ae147bp-7" @method.call("%a", -0.01).should == "-0x1.47ae147ae147bp-7" end it "displays Float::INFINITY as Inf" do @method.call("%a", Float::INFINITY).should == "Inf" @method.call("%a", -Float::INFINITY).should == "-Inf" end it "displays Float::NAN as NaN" do @method.call("%a", Float::NAN).should == "NaN" @method.call("%a", -Float::NAN).should == "NaN" end end describe "A" do it "converts floating point argument as [-]0xh.hhhhp[+-]dd and use uppercase X and P" do @method.call("%A", 196).should == "0X1.88P+7" @method.call("%A", -196).should == "-0X1.88P+7" @method.call("%A", 196.1).should == "0X1.8833333333333P+7" @method.call("%A", 0.01).should == "0X1.47AE147AE147BP-7" @method.call("%A", -0.01).should == "-0X1.47AE147AE147BP-7" end it "displays Float::INFINITY as Inf" do @method.call("%A", Float::INFINITY).should == "Inf" @method.call("%A", -Float::INFINITY).should == "-Inf" end it "displays Float::NAN as NaN" do @method.call("%A", Float::NAN).should == "NaN" @method.call("%A", -Float::NAN).should == "NaN" end end end describe "other formats" do describe "c" do it "displays character if argument is a numeric code of character" do @method.call("%c", 97).should == "a" end it "displays character if argument is a single character string" do @method.call("%c", "a").should == "a" end it "raises ArgumentError if argument is a string of several characters" do -> { @method.call("%c", "abc") }.should raise_error(ArgumentError) end it "raises ArgumentError if argument is an empty string" do -> { @method.call("%c", "") }.should raise_error(ArgumentError) end it "supports Unicode characters" do @method.call("%c", 1286).should == "Ԇ" @method.call("%c", "ش").should == "ش" end end describe "p" do it "displays argument.inspect value" do obj = mock("object") obj.should_receive(:inspect).and_return("") @method.call("%p", obj).should == "" end end describe "s" do it "substitute argument passes as a string" do @method.call("%s", "abc").should == "abc" end it "substitutes '' for nil" do @method.call("%s", nil).should == "" end it "converts argument to string with to_s" do obj = mock("string") obj.should_receive(:to_s).and_return("abc") @method.call("%s", obj).should == "abc" end it "does not try to convert with to_str" do obj = BasicObject.new def obj.to_str "abc" end -> { @method.call("%s", obj) }.should raise_error(NoMethodError) end it "formats a partial substring without including omitted characters" do long_string = "aabbccddhelloddccbbaa" sub_string = long_string[8, 5] sprintf("%.#{1 * 3}s", sub_string).should == "hel" end it "formats string with precision" do Kernel.format("%.3s", "hello").should == "hel" Kernel.format("%-3.3s", "hello").should == "hel" end it "formats string with width" do @method.call("%6s", "abc").should == " abc" @method.call("%6s", "abcdefg").should == "abcdefg" end it "formats string with width and precision" do @method.call("%4.6s", "abc").should == " abc" @method.call("%4.6s", "abcdefg").should == "abcdef" end it "formats nli with width" do @method.call("%6s", nil).should == " " end it "formats nli with precision" do @method.call("%.6s", nil).should == "" end it "formats nil with width and precision" do @method.call("%4.6s", nil).should == " " end it "formats multibyte string with precision" do Kernel.format("%.2s", "été").should == "ét" end it "preserves encoding of the format string" do str = format('%s'.encode(Encoding::UTF_8), 'foobar') str.encoding.should == Encoding::UTF_8 str = format('%s'.encode(Encoding::US_ASCII), 'foobar') str.encoding.should == Encoding::US_ASCII end end describe "%" do it "alone raises an ArgumentError" do -> { @method.call("%") }.should raise_error(ArgumentError) end it "is escaped by %" do @method.call("%%").should == "%" @method.call("%%d", 10).should == "%d" end end end describe "flags" do describe "space" do context "applies to numeric formats bBdiouxXeEfgGaA" do it "leaves a space at the start of non-negative numbers" do @method.call("% b", 10).should == " 1010" @method.call("% B", 10).should == " 1010" @method.call("% d", 112).should == " 112" @method.call("% i", 112).should == " 112" @method.call("% o", 87).should == " 127" @method.call("% u", 112).should == " 112" @method.call("% x", 196).should == " c4" @method.call("% X", 196).should == " C4" @method.call("% e", 109.52).should == " 1.095200e+02" @method.call("% E", 109.52).should == " 1.095200E+02" @method.call("% f", 10.952).should == " 10.952000" @method.call("% g", 12.1234).should == " 12.1234" @method.call("% G", 12.1234).should == " 12.1234" @method.call("% a", 196).should == " 0x1.88p+7" @method.call("% A", 196).should == " 0X1.88P+7" end it "does not leave a space at the start of negative numbers" do @method.call("% b", -10).should == "-1010" @method.call("% B", -10).should == "-1010" @method.call("% d", -112).should == "-112" @method.call("% i", -112).should == "-112" @method.call("% o", -87).should == "-127" @method.call("% u", -112).should == "-112" @method.call("% x", -196).should == "-c4" @method.call("% X", -196).should == "-C4" @method.call("% e", -109.52).should == "-1.095200e+02" @method.call("% E", -109.52).should == "-1.095200E+02" @method.call("% f", -10.952).should == "-10.952000" @method.call("% g", -12.1234).should == "-12.1234" @method.call("% G", -12.1234).should == "-12.1234" @method.call("% a", -196).should == "-0x1.88p+7" @method.call("% A", -196).should == "-0X1.88P+7" end it "prevents converting negative argument to two's complement form" do @method.call("% b", -10).should == "-1010" @method.call("% B", -10).should == "-1010" @method.call("% o", -87).should == "-127" @method.call("% x", -196).should == "-c4" @method.call("% X", -196).should == "-C4" end it "treats several white spaces as one" do @method.call("% b", 10).should == " 1010" @method.call("% B", 10).should == " 1010" @method.call("% d", 112).should == " 112" @method.call("% i", 112).should == " 112" @method.call("% o", 87).should == " 127" @method.call("% u", 112).should == " 112" @method.call("% x", 196).should == " c4" @method.call("% X", 196).should == " C4" @method.call("% e", 109.52).should == " 1.095200e+02" @method.call("% E", 109.52).should == " 1.095200E+02" @method.call("% f", 10.952).should == " 10.952000" @method.call("% g", 12.1234).should == " 12.1234" @method.call("% G", 12.1234).should == " 12.1234" @method.call("% a", 196).should == " 0x1.88p+7" @method.call("% A", 196).should == " 0X1.88P+7" end end end describe "(digit)$" do it "specifies the absolute argument number for this field" do @method.call("%2$b", 0, 10).should == "1010" @method.call("%2$B", 0, 10).should == "1010" @method.call("%2$d", 0, 112).should == "112" @method.call("%2$i", 0, 112).should == "112" @method.call("%2$o", 0, 87).should == "127" @method.call("%2$u", 0, 112).should == "112" @method.call("%2$x", 0, 196).should == "c4" @method.call("%2$X", 0, 196).should == "C4" @method.call("%2$e", 0, 109.52).should == "1.095200e+02" @method.call("%2$E", 0, 109.52).should == "1.095200E+02" @method.call("%2$f", 0, 10.952).should == "10.952000" @method.call("%2$g", 0, 12.1234).should == "12.1234" @method.call("%2$G", 0, 12.1234).should == "12.1234" @method.call("%2$a", 0, 196).should == "0x1.88p+7" @method.call("%2$A", 0, 196).should == "0X1.88P+7" @method.call("%2$c", 1, 97).should == "a" @method.call("%2$p", "a", []).should == "[]" @method.call("%2$s", "-", "abc").should == "abc" end it "raises exception if argument number is bigger than actual arguments list" do -> { @method.call("%4$d", 1, 2, 3) }.should raise_error(ArgumentError) end it "ignores '-' sign" do @method.call("%2$d", 1, 2, 3).should == "2" @method.call("%-2$d", 1, 2, 3).should == "2" end it "raises ArgumentError exception when absolute and relative argument numbers are mixed" do -> { @method.call("%1$d %d", 1, 2) }.should raise_error(ArgumentError) end end describe "#" do context "applies to format o" do it "increases the precision until the first digit will be `0' if it is not formatted as complements" do @method.call("%#o", 87).should == "0127" end it "does nothing for negative argument" do @method.call("%#o", -87).should == "..7651" end end context "applies to formats bBxX" do it "prefixes the result with 0x, 0X, 0b and 0B respectively for non-zero argument" do @method.call("%#b", 10).should == "0b1010" @method.call("%#b", -10).should == "0b..10110" @method.call("%#B", 10).should == "0B1010" @method.call("%#B", -10).should == "0B..10110" @method.call("%#x", 196).should == "0xc4" @method.call("%#x", -196).should == "0x..f3c" @method.call("%#X", 196).should == "0XC4" @method.call("%#X", -196).should == "0X..F3C" end it "does nothing for zero argument" do @method.call("%#b", 0).should == "0" @method.call("%#B", 0).should == "0" @method.call("%#o", 0).should == "0" @method.call("%#x", 0).should == "0" @method.call("%#X", 0).should == "0" end end context "applies to formats aAeEfgG" do it "forces a decimal point to be added, even if no digits follow" do @method.call("%#.0a", 16.25).should == "0x1.p+4" @method.call("%#.0A", 16.25).should == "0X1.P+4" @method.call("%#.0e", 100).should == "1.e+02" @method.call("%#.0E", 100).should == "1.E+02" @method.call("%#.0f", 123.4).should == "123." @method.call("%#g", 123456).should == "123456." @method.call("%#G", 123456).should == "123456." end it "changes format from dd.dddd to exponential form for gG" do @method.call("%#.0g", 123.4).should_not == "123." @method.call("%#.0g", 123.4).should == "1.e+02" end end context "applies to gG" do it "does not remove trailing zeros" do @method.call("%#g", 123.4).should == "123.400" @method.call("%#g", 123.4).should == "123.400" end end end describe "+" do context "applies to numeric formats bBdiouxXaAeEfgG" do it "adds a leading plus sign to non-negative numbers" do @method.call("%+b", 10).should == "+1010" @method.call("%+B", 10).should == "+1010" @method.call("%+d", 112).should == "+112" @method.call("%+i", 112).should == "+112" @method.call("%+o", 87).should == "+127" @method.call("%+u", 112).should == "+112" @method.call("%+x", 196).should == "+c4" @method.call("%+X", 196).should == "+C4" @method.call("%+e", 109.52).should == "+1.095200e+02" @method.call("%+E", 109.52).should == "+1.095200E+02" @method.call("%+f", 10.952).should == "+10.952000" @method.call("%+g", 12.1234).should == "+12.1234" @method.call("%+G", 12.1234).should == "+12.1234" @method.call("%+a", 196).should == "+0x1.88p+7" @method.call("%+A", 196).should == "+0X1.88P+7" end it "does not use two's complement form for negative numbers for formats bBoxX" do @method.call("%+b", -10).should == "-1010" @method.call("%+B", -10).should == "-1010" @method.call("%+o", -87).should == "-127" @method.call("%+x", -196).should == "-c4" @method.call("%+X", -196).should == "-C4" end end end describe "-" do it "left-justifies the result of conversion if width is specified" do @method.call("%-10b", 10).should == "1010 " @method.call("%-10B", 10).should == "1010 " @method.call("%-10d", 112).should == "112 " @method.call("%-10i", 112).should == "112 " @method.call("%-10o", 87).should == "127 " @method.call("%-10u", 112).should == "112 " @method.call("%-10x", 196).should == "c4 " @method.call("%-10X", 196).should == "C4 " @method.call("%-20e", 109.52).should == "1.095200e+02 " @method.call("%-20E", 109.52).should == "1.095200E+02 " @method.call("%-20f", 10.952).should == "10.952000 " @method.call("%-20g", 12.1234).should == "12.1234 " @method.call("%-20G", 12.1234).should == "12.1234 " @method.call("%-20a", 196).should == "0x1.88p+7 " @method.call("%-20A", 196).should == "0X1.88P+7 " @method.call("%-10c", 97).should == "a " @method.call("%-10p", []).should == "[] " @method.call("%-10s", "abc").should == "abc " end end describe "0 (zero)" do context "applies to numeric formats bBdiouxXaAeEfgG and width is specified" do it "pads with zeros, not spaces" do @method.call("%010b", 10).should == "0000001010" @method.call("%010B", 10).should == "0000001010" @method.call("%010d", 112).should == "0000000112" @method.call("%010i", 112).should == "0000000112" @method.call("%010o", 87).should == "0000000127" @method.call("%010u", 112).should == "0000000112" @method.call("%010x", 196).should == "00000000c4" @method.call("%010X", 196).should == "00000000C4" @method.call("%020e", 109.52).should == "000000001.095200e+02" @method.call("%020E", 109.52).should == "000000001.095200E+02" @method.call("%020f", 10.952).should == "0000000000010.952000" @method.call("%020g", 12.1234).should == "000000000000012.1234" @method.call("%020G", 12.1234).should == "000000000000012.1234" @method.call("%020a", 196).should == "0x000000000001.88p+7" @method.call("%020A", 196).should == "0X000000000001.88P+7" end it "uses radix-1 when displays negative argument as a two's complement" do @method.call("%010b", -10).should == "..11110110" @method.call("%010B", -10).should == "..11110110" @method.call("%010o", -87).should == "..77777651" @method.call("%010x", -196).should == "..ffffff3c" @method.call("%010X", -196).should == "..FFFFFF3C" end end end describe "*" do it "uses the previous argument as the field width" do @method.call("%*b", 10, 10).should == " 1010" @method.call("%*B", 10, 10).should == " 1010" @method.call("%*d", 10, 112).should == " 112" @method.call("%*i", 10, 112).should == " 112" @method.call("%*o", 10, 87).should == " 127" @method.call("%*u", 10, 112).should == " 112" @method.call("%*x", 10, 196).should == " c4" @method.call("%*X", 10, 196).should == " C4" @method.call("%*e", 20, 109.52).should == " 1.095200e+02" @method.call("%*E", 20, 109.52).should == " 1.095200E+02" @method.call("%*f", 20, 10.952).should == " 10.952000" @method.call("%*g", 20, 12.1234).should == " 12.1234" @method.call("%*G", 20, 12.1234).should == " 12.1234" @method.call("%*a", 20, 196).should == " 0x1.88p+7" @method.call("%*A", 20, 196).should == " 0X1.88P+7" @method.call("%*c", 10, 97).should == " a" @method.call("%*p", 10, []).should == " []" @method.call("%*s", 10, "abc").should == " abc" end it "left-justifies the result if width is negative" do @method.call("%*b", -10, 10).should == "1010 " @method.call("%*B", -10, 10).should == "1010 " @method.call("%*d", -10, 112).should == "112 " @method.call("%*i", -10, 112).should == "112 " @method.call("%*o", -10, 87).should == "127 " @method.call("%*u", -10, 112).should == "112 " @method.call("%*x", -10, 196).should == "c4 " @method.call("%*X", -10, 196).should == "C4 " @method.call("%*e", -20, 109.52).should == "1.095200e+02 " @method.call("%*E", -20, 109.52).should == "1.095200E+02 " @method.call("%*f", -20, 10.952).should == "10.952000 " @method.call("%*g", -20, 12.1234).should == "12.1234 " @method.call("%*G", -20, 12.1234).should == "12.1234 " @method.call("%*a", -20, 196).should == "0x1.88p+7 " @method.call("%*A", -20, 196).should == "0X1.88P+7 " @method.call("%*c", -10, 97).should == "a " @method.call("%*p", -10, []).should == "[] " @method.call("%*s", -10, "abc").should == "abc " end it "uses the specified argument as the width if * is followed by a number and $" do @method.call("%1$*2$b", 10, 10).should == " 1010" @method.call("%1$*2$B", 10, 10).should == " 1010" @method.call("%1$*2$d", 112, 10).should == " 112" @method.call("%1$*2$i", 112, 10).should == " 112" @method.call("%1$*2$o", 87, 10).should == " 127" @method.call("%1$*2$u", 112, 10).should == " 112" @method.call("%1$*2$x", 196, 10).should == " c4" @method.call("%1$*2$X", 196, 10).should == " C4" @method.call("%1$*2$e", 109.52, 20).should == " 1.095200e+02" @method.call("%1$*2$E", 109.52, 20).should == " 1.095200E+02" @method.call("%1$*2$f", 10.952, 20).should == " 10.952000" @method.call("%1$*2$g", 12.1234, 20).should == " 12.1234" @method.call("%1$*2$G", 12.1234, 20).should == " 12.1234" @method.call("%1$*2$a", 196, 20).should == " 0x1.88p+7" @method.call("%1$*2$A", 196, 20).should == " 0X1.88P+7" @method.call("%1$*2$c", 97, 10).should == " a" @method.call("%1$*2$p", [], 10).should == " []" @method.call("%1$*2$s", "abc", 10).should == " abc" end it "left-justifies the result if specified with $ argument is negative" do @method.call("%1$*2$b", 10, -10).should == "1010 " @method.call("%1$*2$B", 10, -10).should == "1010 " @method.call("%1$*2$d", 112, -10).should == "112 " @method.call("%1$*2$i", 112, -10).should == "112 " @method.call("%1$*2$o", 87, -10).should == "127 " @method.call("%1$*2$u", 112, -10).should == "112 " @method.call("%1$*2$x", 196, -10).should == "c4 " @method.call("%1$*2$X", 196, -10).should == "C4 " @method.call("%1$*2$e", 109.52, -20).should == "1.095200e+02 " @method.call("%1$*2$E", 109.52, -20).should == "1.095200E+02 " @method.call("%1$*2$f", 10.952, -20).should == "10.952000 " @method.call("%1$*2$g", 12.1234, -20).should == "12.1234 " @method.call("%1$*2$G", 12.1234, -20).should == "12.1234 " @method.call("%1$*2$a", 196, -20).should == "0x1.88p+7 " @method.call("%1$*2$A", 196, -20).should == "0X1.88P+7 " @method.call("%1$*2$c", 97, -10).should == "a " @method.call("%1$*2$p", [], -10).should == "[] " @method.call("%1$*2$s", "abc", -10).should == "abc " end it "raises ArgumentError when is mixed with width" do -> { @method.call("%*10d", 10, 112) }.should raise_error(ArgumentError) end end end describe "width" do it "specifies the minimum number of characters that will be written to the result" do @method.call("%10b", 10).should == " 1010" @method.call("%10B", 10).should == " 1010" @method.call("%10d", 112).should == " 112" @method.call("%10i", 112).should == " 112" @method.call("%10o", 87).should == " 127" @method.call("%10u", 112).should == " 112" @method.call("%10x", 196).should == " c4" @method.call("%10X", 196).should == " C4" @method.call("%20e", 109.52).should == " 1.095200e+02" @method.call("%20E", 109.52).should == " 1.095200E+02" @method.call("%20f", 10.952).should == " 10.952000" @method.call("%20g", 12.1234).should == " 12.1234" @method.call("%20G", 12.1234).should == " 12.1234" @method.call("%20a", 196).should == " 0x1.88p+7" @method.call("%20A", 196).should == " 0X1.88P+7" @method.call("%10c", 97).should == " a" @method.call("%10p", []).should == " []" @method.call("%10s", "abc").should == " abc" end it "is ignored if argument's actual length is greater" do @method.call("%5d", 1234567890).should == "1234567890" end end describe "precision" do context "integer types" do it "controls the number of decimal places displayed" do @method.call("%.6b", 10).should == "001010" @method.call("%.6B", 10).should == "001010" @method.call("%.5d", 112).should == "00112" @method.call("%.5i", 112).should == "00112" @method.call("%.5o", 87).should == "00127" @method.call("%.5u", 112).should == "00112" @method.call("%.5x", 196).should == "000c4" @method.call("%.5X", 196).should == "000C4" end end context "float types" do it "controls the number of decimal places displayed in fraction part" do @method.call("%.10e", 109.52).should == "1.0952000000e+02" @method.call("%.10E", 109.52).should == "1.0952000000E+02" @method.call("%.10f", 10.952).should == "10.9520000000" @method.call("%.10a", 196).should == "0x1.8800000000p+7" @method.call("%.10A", 196).should == "0X1.8800000000P+7" end it "does not affect G format" do @method.call("%.10g", 12.1234).should == "12.1234" @method.call("%.10g", 123456789).should == "123456789" end end context "string formats" do it "determines the maximum number of characters to be copied from the string" do @method.call("%.1p", [1]).should == "[" @method.call("%.2p", [1]).should == "[1" @method.call("%.10p", [1]).should == "[1]" @method.call("%.0p", [1]).should == "" @method.call("%.1s", "abc").should == "a" @method.call("%.2s", "abc").should == "ab" @method.call("%.10s", "abc").should == "abc" @method.call("%.0s", "abc").should == "" end end end describe "reference by name" do describe "%s style" do it "uses value passed in a hash argument" do @method.call("%d", foo: 123).should == "123" end it "supports flags, width, precision and type" do @method.call("%+20.10f", foo: 10.952).should == " +10.9520000000" end it "allows to place name in any position" do @method.call("%+15.5f", foo: 10.952).should == " +10.95200" @method.call("%+15.5f", foo: 10.952).should == " +10.95200" @method.call("%+15.5f", foo: 10.952).should == " +10.95200" @method.call("%+15.5f", foo: 10.952).should == " +10.95200" end it "cannot be mixed with unnamed style" do -> { @method.call("%d %d", 1, foo: "123") }.should raise_error(ArgumentError) end end describe "%{name} style" do it "uses value passed in a hash argument" do @method.call("%{foo}", foo: 123).should == "123" end it "does not support type style" do @method.call("%{foo}d", foo: 123).should == "123d" end it "supports flags, width and precision" do @method.call("%-20.5{foo}", foo: "123456789").should == "12345 " end it "cannot be mixed with unnamed style" do -> { @method.call("%d %{foo}", 1, foo: "123") }.should raise_error(ArgumentError) end it "raises KeyError when there is no matching key" do -> { @method.call("%{foo}", {}) }.should raise_error(KeyError) end it "converts value to String with to_s" do obj = Object.new def obj.to_s; end def obj.to_str; end obj.should_receive(:to_s).and_return("42") obj.should_not_receive(:to_str) @method.call("%{foo}", foo: obj).should == "42" end end end describe "faulty key" do before :each do @object = { foooo: 1 } end it "raises a KeyError" do -> { @method.call("%s", @object) }.should raise_error(KeyError) end it "sets the Hash as the receiver of KeyError" do -> { @method.call("%s", @object) }.should raise_error(KeyError) { |err| err.receiver.should equal(@object) } end it "sets the unmatched key as the key of KeyError" do -> { @method.call("%s", @object) }.should raise_error(KeyError) { |err| err.key.to_s.should == 'foo' } end end end