459 lines
10 KiB
V
459 lines
10 KiB
V
module builtin
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pub struct string {
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pub:
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str JS.String
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len u32
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}
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pub fn (s string) slice(a int, b int) string {
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return string(s.str.slice(a, b))
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}
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pub fn (s string) after(dot string) string {
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return string(s.str.slice(s.str.lastIndexOf(dot.str) + 1, int(s.str.length)))
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}
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pub fn (s string) after_char(dot byte) string {
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// TODO: Implement after byte
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return s
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}
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pub fn (s string) all_after(dot string) string {
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return string(s.str.slice(s.str.indexOf(dot.str) + 1, int(s.str.length)))
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}
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// why does this exist?
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pub fn (s string) all_after_last(dot string) string {
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return s.after(dot)
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}
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pub fn (s string) all_before(dot string) string {
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return string(s.str.slice(0, s.str.indexOf(dot.str)))
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}
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pub fn (s string) all_before_last(dot string) string {
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return string(s.str.slice(0, s.str.lastIndexOf(dot.str)))
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}
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pub fn (s string) bool() bool {
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return s == 'true'
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}
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pub fn (s string) split(dot string) []string {
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mut arr := s.str.split(dot.str).map(string(it))
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#arr = new array(arr)
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return arr
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}
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pub fn (s string) bytes() []byte {
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sep := ''
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mut arr := s.str.split(sep.str).map(it.charCodeAt(0))
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#arr = new array(arr)
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return arr
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}
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pub fn (s string) capitalize() string {
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part := string(s.str.slice(1, int(s.str.length)))
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return string(s.str.charAt(0).toUpperCase().concat(part.str))
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}
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pub fn (s string) clone() string {
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return string(s.str)
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}
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pub fn (s string) contains(substr string) bool {
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return s.str.includes(substr.str)
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}
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pub fn (s string) contains_any(chars string) bool {
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sep := ''
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for x in chars.str.split(sep.str) {
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if s.str.includes(x) {
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return true
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}
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}
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return false
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}
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pub fn (s string) contains_any_substr(chars []string) bool {
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for x in chars {
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if s.str.includes(x.str) {
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return true
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}
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}
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return false
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}
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pub fn (s string) count(substr string) int {
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// TODO: "error: `[]JS.String` is not a struct" when returning arr.length or arr.len
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arr := s.str.split(substr.str)
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return native_str_arr_len(arr)
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}
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pub fn (s string) ends_with(p string) bool {
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return s.str.endsWith(p.str)
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}
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pub fn (s string) starts_with(p string) bool {
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return s.str.startsWith(p.str)
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}
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pub fn (s string) fields() []string {
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mut res := []string{}
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mut word_start := 0
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mut word_len := 0
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mut is_in_word := false
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mut is_space := false
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for i, c in s {
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is_space = c in [32, 9, 10]
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if !is_space {
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word_len++
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}
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if !is_in_word && !is_space {
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word_start = i
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is_in_word = true
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continue
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}
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if is_space && is_in_word {
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res << s[word_start..word_start + word_len]
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is_in_word = false
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word_len = 0
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word_start = 0
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continue
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}
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}
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if is_in_word && word_len > 0 {
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// collect the remainder word at the end
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res << s[word_start..s.len]
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}
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return res
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}
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pub fn (s string) find_between(start string, end string) string {
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return string(s.str.slice(s.str.indexOf(start.str), s.str.indexOf(end.str) + 1))
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}
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// unnecessary in the JS backend, implemented for api parity.
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pub fn (s string) free() {}
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pub fn (s string) hash() int {
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mut h := u32(0)
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if h == 0 && s.len > 0 {
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for c in s {
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h = h * 31 + u32(c)
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}
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}
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return int(h)
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}
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// int returns the value of the string as an integer `'1'.int() == 1`.
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pub fn (s string) int() int {
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return int(JS.parseInt(s))
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}
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// i64 returns the value of the string as i64 `'1'.i64() == i64(1)`.
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pub fn (s string) i64() i64 {
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return i64(JS.parseInt(s))
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}
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// i8 returns the value of the string as i8 `'1'.i8() == i8(1)`.
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pub fn (s string) i8() i8 {
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return i8(JS.parseInt(s))
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}
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// i16 returns the value of the string as i16 `'1'.i16() == i16(1)`.
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pub fn (s string) i16() i16 {
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return i16(JS.parseInt(s))
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}
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// f32 returns the value of the string as f32 `'1.0'.f32() == f32(1)`.
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pub fn (s string) f32() f32 {
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// return C.atof(&char(s.str))
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return f32(JS.parseFloat(s))
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}
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// f64 returns the value of the string as f64 `'1.0'.f64() == f64(1)`.
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pub fn (s string) f64() f64 {
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return f64(JS.parseFloat(s))
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}
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// u16 returns the value of the string as u16 `'1'.u16() == u16(1)`.
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pub fn (s string) u16() u16 {
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return u16(JS.parseInt(s))
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}
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// u32 returns the value of the string as u32 `'1'.u32() == u32(1)`.
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pub fn (s string) u32() u32 {
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return u32(JS.parseInt(s))
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}
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// u64 returns the value of the string as u64 `'1'.u64() == u64(1)`.
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pub fn (s string) u64() u64 {
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return u64(JS.parseInt(s))
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}
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// trim_right strips any of the characters given in `cutset` from the right of the string.
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// Example: assert ' Hello V d'.trim_right(' d') == ' Hello V'
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pub fn (s string) trim_right(cutset string) string {
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if s.len < 1 || cutset.len < 1 {
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return s.clone()
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}
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mut pos := s.len - 1
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for pos >= 0 {
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mut found := false
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for cs in cutset {
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if s[pos] == cs {
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found = true
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}
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}
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if !found {
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break
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}
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pos--
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}
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if pos < 0 {
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return ''
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}
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return s[..pos + 1]
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}
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// trim_left strips any of the characters given in `cutset` from the left of the string.
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// Example: assert 'd Hello V developer'.trim_left(' d') == 'Hello V developer'
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[direct_array_access]
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pub fn (s string) trim_left(cutset string) string {
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if s.len < 1 || cutset.len < 1 {
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return s.clone()
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}
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mut pos := 0
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for pos < s.len {
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mut found := false
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for cs in cutset {
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if s[pos] == cs {
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found = true
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break
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}
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}
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if !found {
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break
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}
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pos++
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}
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return s[pos..]
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}
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// trim_prefix strips `str` from the start of the string.
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// Example: assert 'WorldHello V'.trim_prefix('World') == 'Hello V'
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pub fn (s string) trim_prefix(str string) string {
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if s.starts_with(str) {
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return s[str.len..]
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}
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return s.clone()
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}
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// trim_suffix strips `str` from the end of the string.
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// Example: assert 'Hello VWorld'.trim_suffix('World') == 'Hello V'
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pub fn (s string) trim_suffix(str string) string {
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if s.ends_with(str) {
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return s[..s.len - str.len]
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}
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return s.clone()
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}
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// compare_strings returns `-1` if `a < b`, `1` if `a > b` else `0`.
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pub fn compare_strings(a &string, b &string) int {
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if a < b {
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return -1
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}
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if a > b {
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return 1
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}
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return 0
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}
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// compare_strings_reverse returns `1` if `a < b`, `-1` if `a > b` else `0`.
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fn compare_strings_reverse(a &string, b &string) int {
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if a < b {
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return 1
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}
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if a > b {
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return -1
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}
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return 0
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}
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// compare_strings_by_len returns `-1` if `a.len < b.len`, `1` if `a.len > b.len` else `0`.
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fn compare_strings_by_len(a &string, b &string) int {
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if a.len < b.len {
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return -1
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}
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if a.len > b.len {
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return 1
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}
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return 0
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}
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// compare_lower_strings returns the same as compare_strings but converts `a` and `b` to lower case before comparing.
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fn compare_lower_strings(a &string, b &string) int {
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aa := a.to_lower()
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bb := b.to_lower()
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return compare_strings(&aa, &bb)
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}
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// at returns the byte at index `idx`.
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// Example: assert 'ABC'.at(1) == byte(`B`)
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fn (s string) at(idx int) byte {
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mut result := byte(0)
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#result = new byte(s.str.charCodeAt(result))
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return result
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}
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pub fn (s string) to_lower() string {
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mut result := ''
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#let str = s.str.toLowerCase()
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#result = new string(str)
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return result
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}
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pub fn (s string) to_upper() string {
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mut result := ''
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#let str = s.str.toUpperCase()
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#result = new string(str)
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return result
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}
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// sort sorts the string array.
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pub fn (mut s []string) sort() {
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s.sort_with_compare(compare_strings)
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}
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// sort_ignore_case sorts the string array using case insesitive comparing.
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pub fn (mut s []string) sort_ignore_case() {
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s.sort_with_compare(compare_lower_strings)
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}
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// sort_by_len sorts the the string array by each string's `.len` length.
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pub fn (mut s []string) sort_by_len() {
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s.sort_with_compare(compare_strings_by_len)
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}
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// str returns a copy of the string
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pub fn (s string) str() string {
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return s.clone()
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}
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pub fn (s string) repeat(count int) string {
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mut result := ''
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#result = new string(s.str.repeat(count))
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return result
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}
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// TODO(playX): Use this iterator instead of using .split('').map(c => byte(c))
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#function string_iterator(string) { this.stringIteratorFieldIndex = 0; this.stringIteratorIteratedString = string.str; }
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#string_iterator.prototype.next = function next() {
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#var done = true;
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#var value = undefined;
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#var position = this.stringIteratorFieldIndex;
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#if (position !== -1) {
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#var string = this.stringIteratorIteratedString;
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#var length = string.length >>> 0;
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#if (position >= length) {
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#this.stringIteratorFieldIndex = -1;
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#} else {
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#done = false;
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#var first = string.charCodeAt(position);
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#if (first < 0xD800 || first > 0xDBFF || position + 1 === length)
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#value = new byte(string[position]);
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#else {
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#value = new byte(string[position]+string[position+1])
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#}
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#this.stringIteratorFieldIndex = position + value.length;
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#}
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#}
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#return {
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#value, done
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#}
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#}
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#string.prototype[Symbol.iterator] = function () { return new string_iterator(this) }
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// TODO: Make these functions actually work.
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// strip_margin allows multi-line strings to be formatted in a way that removes white-space
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// before a delimeter. by default `|` is used.
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// Note: the delimiter has to be a byte at this time. That means surrounding
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// the value in ``.
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//
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// Example:
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// st := 'Hello there,
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// |this is a string,
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// | Everything before the first | is removed'.strip_margin()
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// Returns:
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// Hello there,
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// this is a string,
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// Everything before the first | is removed
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pub fn (s string) strip_margin() string {
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return s.strip_margin_custom(`|`)
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}
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// strip_margin_custom does the same as `strip_margin` but will use `del` as delimiter instead of `|`
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[direct_array_access]
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pub fn (s string) strip_margin_custom(del byte) string {
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mut sep := del
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if sep.is_space() {
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eprintln('Warning: `strip_margin` cannot use white-space as a delimiter')
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eprintln(' Defaulting to `|`')
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sep = `|`
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}
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// don't know how much space the resulting string will be, but the max it
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// can be is this big
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mut ret := []byte{}
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#ret = new array()
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mut count := 0
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for i := 0; i < s.len; i++ {
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if s[i] in [10, 13] {
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unsafe {
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ret[count] = s[i]
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}
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count++
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// CRLF
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if s[i] == 13 && i < s.len - 1 && s[i + 1] == 10 {
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unsafe {
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ret[count] = s[i + 1]
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}
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count++
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i++
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}
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for s[i] != sep {
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i++
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if i >= s.len {
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break
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}
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}
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} else {
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unsafe {
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ret[count] = s[i]
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}
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count++
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}
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}
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/*
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unsafe {
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ret[count] = 0
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return ret.vstring_with_len(count)
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}*/
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mut result := ''
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#for (let x of ret.arr) result.str += String.fromCharCode(x.val)
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return result
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}
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