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// Test string related methods.
// Ref: false
---
// Test conversion to string.
#test(str(123), "123")
#test(str(50.14), "50.14")
#test(str(10 / 3).len() > 10, true)
#test(repr(ltr), "ltr")
#test(repr((1, 2, false, )), "(1, 2, false)")
---
// Error: 6-8 cannot convert content to string
#str([])
---
// Test the `slice` method.
#test("abc".slice(1, 2), "b")
#test("abc🏡def".slice(2, 7), "c🏡")
#test("abc🏡def".slice(2, -2), "c🏡d")
#test("abc🏡def".slice(-3, -1), "de")
---
// Test the `contains` method.
#test("abc".contains("b"), true)
#test("b" in "abc", true)
#test("1234f".contains(regex("\d")), true)
#test(regex("\d") in "1234f", true)
#test("abc".contains("d"), false)
#test("1234g" in "1234f", false)
#test("abc".contains(regex("^[abc]$")), false)
#test("abc".contains(regex("^[abc]+$")), true)
---
// Test the `starts-with` and `ends-with` methods.
#test("Typst".starts-with("Ty"), true)
#test("Typst".starts-with(regex("[Tt]ys")), false)
#test("Typst".starts-with("st"), false)
#test("Typst".ends-with("st"), true)
#test("Typst".ends-with(regex("\d*")), true)
#test("Typst".ends-with(regex("\d+")), false)
#test("Typ12".ends-with(regex("\d+")), true)
---
// Test the `find` and `position` methods.
#let date = regex("\d{2}:\d{2}")
#test("Hello World".find("World"), "World")
#test("Hello World".position("World"), 6)
#test("It's 12:13 now".find(date), "12:13")
#test("It's 12:13 now".position(date), 5)
---
// Test the `match` method.
#test("Is there a".match("for this?"), none)
#test(
"The time of my life.".match(regex("[mit]+e")),
(start: 4, end: 8, text: "time", captures: ()),
)
// Test the `matches` method.
#test("Hello there".matches("\d"), ())
#test("Day by Day.".matches("Day"), (
(start: 0, end: 3, text: "Day", captures: ()),
(start: 7, end: 10, text: "Day", captures: ()),
))
// Compute the sum of all timestamps in the text.
#let timesum(text) = {
let time = 0
for match in text.matches(regex("(\d+):(\d+)")) {
let caps = match.captures
time += 60 * int(caps(0)) + int(caps(1))
}
str(int(time / 60)) + ":" + str(mod(time, 60))
}
#test(timesum(""), "0:0")
#test(timesum("2:70"), "3:10")
#test(timesum("1:20, 2:10, 0:40"), "4:10")
---
// Test the `replace` method.
#test("ABC".replace("", "-"), "-A-B-C-")
#test("Ok".replace("Ok", "Nope", count: 0), "Ok")
#test("to add?".replace("", "How ", count: 1), "How to add?")
#test("AB C DEF GH J".replace(" ", ",", count: 2), "AB,C,DEF GH J")
#test("Walcemo"
.replace("o", "k")
.replace("e", "o")
.replace("k", "e")
.replace("a", "e"),
"Welcome"
)
#test("123".replace(regex("\d$"), "_"), "12_")
#test("123".replace(regex("\d{1,2}$"), "__"), "1__")
---
// Test the `trim` method.
#let str = "Typst, LaTeX, Word, InDesign"
#let array = ("Typst", "LaTeX", "Word", "InDesign")
#test(str.split(",").map(s => s.trim()), array)
#test("".trim(), "")
#test(" abc ".trim(at: start), "abc ")
#test(" abc ".trim(at: end, repeat: true), " abc")
#test(" abc".trim(at: start, repeat: false), "abc")
#test("aabcaa".trim("a", repeat: false), "abca")
#test("aabca".trim("a", at: start), "bca")
#test("aabcaa".trim("a", at: end, repeat: false), "aabca")
#test("".trim(regex(".")), "")
#test("123abc456".trim(regex("\d")), "abc")
#test("123abc456".trim(regex("\d"), repeat: false), "23abc45")
#test("123a4b5c678".trim(regex("\d"), repeat: true), "a4b5c")
#test("123a4b5c678".trim(regex("\d"), repeat: false), "23a4b5c67")
#test("123abc456".trim(regex("\d"), at: start), "abc456")
#test("123abc456".trim(regex("\d"), at: end), "123abc")
#test("123abc456".trim(regex("\d+"), at: end, repeat: false), "123abc")
#test("123abc456".trim(regex("\d{1,2}$"), repeat: false), "123abc4")
#test("hello world".trim(regex(".")), "")
---
// Error: 17-21 expected either `start` or `end`
{"abc".trim(at: left)}
---
// Test the `split` method.
#test("abc".split(""), ("", "a", "b", "c", ""))
#test("abc".split("b"), ("a", "c"))
#test("a123c".split(regex("\d")), ("a", "", "", "c"))
#test("a123c".split(regex("\d+")), ("a", "c"))
---
// Test the `upper` and `lower` functions.
#let memes = "ArE mEmEs gReAt?";
#test(lower(memes), "are memes great?")
#test(upper(memes), "ARE MEMES GREAT?")
#test(upper("Ελλάδα"), "ΕΛΛΆΔΑ")
---
// Test integrated lower, upper and symbols.
// Ref: true
#upper("Abc 8")
#upper[def]
#lower("SCREAMING MUST BE SILENCED in " + roman(1672) + " years")
#for i in range(9) {
symbol(i)
[ and ]
roman(i)
[ for #i]
parbreak()
}
---
// Error: 8-9 expected string or content, found integer
#upper(1)
---
// Error: 9-11 must be at least zero
#symbol(-1)
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