// Test creation and conversion functions. // Ref: false --- // Compare both ways. #test-repr(rgb(0%, 30.2%, 70.2%), rgb("004db3")) // Alpha channel. #test(rgb(255, 0, 0, 50%), rgb("ff000080")) // Test color modification methods. #test(rgb(25, 35, 45).lighten(10%), rgb(48, 57, 66)) #test(rgb(40, 30, 20).darken(10%), rgb(36, 27, 18)) #test(rgb("#133337").negate(), rgb(236, 204, 200)) #test(white.lighten(100%), white) // Color mixing, in Oklab space by default. #test(rgb(color.mix(rgb("#ff0000"), rgb("#00ff00"))), rgb("#d0a800")) #test(rgb(color.mix(rgb("#ff0000"), rgb("#00ff00"), space: oklab)), rgb("#d0a800")) #test(rgb(color.mix(rgb("#ff0000"), rgb("#00ff00"), space: rgb)), rgb("#808000")) #test(rgb(color.mix(red, green, blue)), rgb("#909282")) #test(rgb(color.mix(red, blue, green)), rgb("#909282")) #test(rgb(color.mix(blue, red, green)), rgb("#909282")) // Mix with weights. #test(rgb(color.mix((red, 50%), (green, 50%))), rgb("#c0983b")) #test(rgb(color.mix((red, 0.5), (green, 0.5))), rgb("#c0983b")) #test(rgb(color.mix((red, 5), (green, 5))), rgb("#c0983b")) #test(rgb(color.mix((green, 5), (white, 0), (red, 5))), rgb("#c0983b")) #test(color.mix((rgb("#aaff00"), 25%), (rgb("#aa00ff"), 75%), space: rgb), rgb("#aa40bf")) #test(color.mix((rgb("#aaff00"), 50%), (rgb("#aa00ff"), 50%), space: rgb), rgb("#aa8080")) #test(color.mix((rgb("#aaff00"), 75%), (rgb("#aa00ff"), 25%), space: rgb), rgb("#aabf40")) --- // Test color conversion method kinds #test(rgb(rgb(10, 20, 30)).space(), rgb) #test(color.linear-rgb(rgb(10, 20, 30)).space(), color.linear-rgb) #test(oklab(rgb(10, 20, 30)).space(), oklab) #test(color.hsl(rgb(10, 20, 30)).space(), color.hsl) #test(color.hsv(rgb(10, 20, 30)).space(), color.hsv) #test(cmyk(rgb(10, 20, 30)).space(), cmyk) #test(luma(rgb(10, 20, 30)).space(), luma) #test(rgb(color.linear-rgb(10, 20, 30)).space(), rgb) #test(color.linear-rgb(color.linear-rgb(10, 20, 30)).space(), color.linear-rgb) #test(oklab(color.linear-rgb(10, 20, 30)).space(), oklab) #test(color.hsl(color.linear-rgb(10, 20, 30)).space(), color.hsl) #test(color.hsv(color.linear-rgb(10, 20, 30)).space(), color.hsv) #test(cmyk(color.linear-rgb(10, 20, 30)).space(), cmyk) #test(luma(color.linear-rgb(10, 20, 30)).space(), luma) #test(rgb(oklab(10%, 20%, 30%)).space(), rgb) #test(color.linear-rgb(oklab(10%, 20%, 30%)).space(), color.linear-rgb) #test(oklab(oklab(10%, 20%, 30%)).space(), oklab) #test(color.hsl(oklab(10%, 20%, 30%)).space(), color.hsl) #test(color.hsv(oklab(10%, 20%, 30%)).space(), color.hsv) #test(cmyk(oklab(10%, 20%, 30%)).space(), cmyk) #test(luma(oklab(10%, 20%, 30%)).space(), luma) #test(rgb(color.hsl(10deg, 20%, 30%)).space(), rgb) #test(color.linear-rgb(color.hsl(10deg, 20%, 30%)).space(), color.linear-rgb) #test(oklab(color.hsl(10deg, 20%, 30%)).space(), oklab) #test(color.hsl(color.hsl(10deg, 20%, 30%)).space(), color.hsl) #test(color.hsv(color.hsl(10deg, 20%, 30%)).space(), color.hsv) #test(cmyk(color.hsl(10deg, 20%, 30%)).space(), cmyk) #test(luma(color.hsl(10deg, 20%, 30%)).space(), luma) #test(rgb(color.hsv(10deg, 20%, 30%)).space(), rgb) #test(color.linear-rgb(color.hsv(10deg, 20%, 30%)).space(), color.linear-rgb) #test(oklab(color.hsv(10deg, 20%, 30%)).space(), oklab) #test(color.hsl(color.hsv(10deg, 20%, 30%)).space(), color.hsl) #test(color.hsv(color.hsv(10deg, 20%, 30%)).space(), color.hsv) #test(cmyk(color.hsv(10deg, 20%, 30%)).space(), cmyk) #test(luma(color.hsv(10deg, 20%, 30%)).space(), luma) #test(rgb(cmyk(10%, 20%, 30%, 40%)).space(), rgb) #test(color.linear-rgb(cmyk(10%, 20%, 30%, 40%)).space(), color.linear-rgb) #test(oklab(cmyk(10%, 20%, 30%, 40%)).space(), oklab) #test(color.hsl(cmyk(10%, 20%, 30%, 40%)).space(), color.hsl) #test(color.hsv(cmyk(10%, 20%, 30%, 40%)).space(), color.hsv) #test(cmyk(cmyk(10%, 20%, 30%, 40%)).space(), cmyk) #test(luma(cmyk(10%, 20%, 30%, 40%)).space(), luma) #test(rgb(luma(10%)).space(), rgb) #test(color.linear-rgb(luma(10%)).space(), color.linear-rgb) #test(oklab(luma(10%)).space(), oklab) #test(color.hsl(luma(10%)).space(), color.hsl) #test(color.hsv(luma(10%)).space(), color.hsv) #test(cmyk(luma(10%)).space(), cmyk) #test(luma(luma(10%)).space(), luma) --- // Test gray color conversion. // Ref: true #stack(dir: ltr, rect(fill: luma(0)), rect(fill: luma(80%))) --- // Error for values that are out of range. // Error: 11-14 number must be between 0 and 255 #test(rgb(-30, 15, 50)) --- // Error: 6-11 color string contains non-hexadecimal letters #rgb("lol") --- // Error: 5-7 missing argument: red component #rgb() --- // Error: 5-11 missing argument: blue component #rgb(0, 1) --- // Error: 21-26 expected integer or ratio, found boolean #rgb(10%, 20%, 30%, false) --- // Error: 12-24 expected float or ratio, found string // Error: 26-39 expected float or ratio, found string #color.mix((red, "yes"), (green, "no"), (green, 10%)) --- // Error: 12-23 expected a color or color-weight pair #color.mix((red, 1, 2)) --- // Error: 31-38 expected `rgb`, `luma`, `cmyk`, `oklab`, `color.linear-rgb`, `color.hsl`, or `color.hsv`, found string #color.mix(red, green, space: "cyber") --- // Error: 31-36 expected `rgb`, `luma`, `cmyk`, `oklab`, `color.linear-rgb`, `color.hsl`, or `color.hsv` #color.mix(red, green, space: image) --- // Error: 31-41 expected `rgb`, `luma`, `cmyk`, `oklab`, `color.linear-rgb`, `color.hsl`, or `color.hsv` #color.mix(red, green, space: calc.round) --- // Ref: true #let envelope = symbol( "🖂", ("stamped", "🖃"), ("stamped.pen", "🖆"), ("lightning", "🖄"), ("fly", "🖅"), ) #envelope #envelope.stamped #envelope.pen #envelope.stamped.pen #envelope.lightning #envelope.fly --- // Error: 8-10 expected at least one variant #symbol() --- // Test conversion to string. #test(str(123), "123") #test(str(123, base: 3), "11120") #test(str(-123, base: 16), "−7b") #test(str(9223372036854775807, base: 36), "1y2p0ij32e8e7") #test(str(50.14), "50.14") #test(str(10 / 3).len() > 10, true) --- // Error: 6-8 expected integer, float, version, bytes, label, type, or string, found content #str([]) --- // Error: 17-19 base must be between 2 and 36 #str(123, base: 99) --- // Error: 18-19 base is only supported for integers #str(1.23, base: 2) --- // Test the unicode function. #test(str.from-unicode(97), "a") #test(str.to-unicode("a"), 97) --- // Error: 19-22 expected integer, found content #str.from-unicode([a]) --- // Error: 17-21 expected exactly one character #str.to-unicode("ab") --- // Error: 19-21 number must be at least zero #str.from-unicode(-1) --- // Error: 18-28 0x110000 is not a valid codepoint #str.from-unicode(0x110000) // 0x10ffff is the highest valid code point --- #assert(range(2, 5) == (2, 3, 4)) --- // Test displaying of dates. #test(datetime(year: 2023, month: 4, day: 29).display(), "2023-04-29") #test(datetime(year: 2023, month: 4, day: 29).display("[year]"), "2023") #test( datetime(year: 2023, month: 4, day: 29) .display("[year repr:last_two]"), "23", ) #test( datetime(year: 2023, month: 4, day: 29) .display("[year] [month repr:long] [day] [week_number] [weekday]"), "2023 April 29 17 Saturday", ) // Test displaying of times #test(datetime(hour: 14, minute: 26, second: 50).display(), "14:26:50") #test(datetime(hour: 14, minute: 26, second: 50).display("[hour]"), "14") #test( datetime(hour: 14, minute: 26, second: 50) .display("[hour repr:12 padding:none]"), "2", ) #test( datetime(hour: 14, minute: 26, second: 50) .display("[hour], [minute], [second]"), "14, 26, 50", ) // Test displaying of datetimes #test( datetime(year: 2023, month: 4, day: 29, hour: 14, minute: 26, second: 50).display(), "2023-04-29 14:26:50", ) // Test getting the year/month/day etc. of a datetime #let d = datetime(year: 2023, month: 4, day: 29, hour: 14, minute: 26, second: 50) #test(d.year(), 2023) #test(d.month(), 4) #test(d.weekday(), 6) #test(d.day(), 29) #test(d.hour(), 14) #test(d.minute(), 26) #test(d.second(), 50) #let e = datetime(year: 2023, month: 4, day: 29) #test(e.hour(), none) #test(e.minute(), none) #test(e.second(), none) // Test today #test(datetime.today().display(), "1970-01-01") #test(datetime.today(offset: auto).display(), "1970-01-01") #test(datetime.today(offset: 2).display(), "1970-01-01") --- // Error: 10-12 at least one of date or time must be fully specified #datetime() --- // Error: 10-42 time is invalid #datetime(hour: 25, minute: 0, second: 0) --- // Error: 10-41 date is invalid #datetime(year: 2000, month: 2, day: 30) --- // Error: 27-34 missing closing bracket for bracket at index 0 #datetime.today().display("[year") --- // Error: 27-38 invalid component name 'nothing' at index 1 #datetime.today().display("[nothing]") --- // Error: 27-50 invalid modifier 'wrong' at index 6 #datetime.today().display("[year wrong:last_two]") --- // Error: 27-33 expected component name at index 2 #datetime.today().display(" []") --- // Error: 2-36 failed to format datetime (insufficient information) #datetime.today().display("[hour]")