// Copyright (c) 2019 Alexander Medvednikov. All rights reserved. // Use of this source code is governed by an MIT license // that can be found in the LICENSE file. module builtin // V strings are not null-terminated. struct string { pub: str byteptr len int } struct ustring { pub: s string runes []int len int } // For C strings only fn C.strlen(s byteptr) int // Converts a C string to a V string fn tos(s byteptr, len int) string { // This should never happen. if isnil(s) { panic('tos(): nil string') } return string { str: s len: len } } fn tos_clone(s byteptr) string { if isnil(s) { panic('tos: nil string') return string{} } len := strlen(s) res := tos(s, len) return res.clone() } // Same as `tos`, but calculates the length itself. TODO bad name. fn tos2(s byteptr) string { if isnil(s) { panic('tos2: nil string') return string{} } len := C.strlen(s) res := tos(s, len) return res } fn tos_no_len(s byteptr) string { return tos2(s) } fn (a string) clone() string { mut b := string { len: a.len str: malloc(a.len + 1) } for i := 0; i < a.len; i++ { b[i] = a[i] } b[a.len] = `\0` return b } fn (s string) cstr() byteptr { clone := s.clone() return clone.str } pub fn (s string) replace(rep, with string) string { if s.len == 0 || rep.len == 0 { return '' } if !s.contains(rep) { return s } // println('"$s" replace "$rep" with "$with" rep.len=$rep.len') // TODO PERF Allocating ints is expensive. Should be a stack array // Get locations of all reps within this string mut idxs := []int{} // idxs := []int { // 2, 8, 14 // } for i := 0; i < s.len; i++ { // Do we have the string we are looking for (rep) starting at i? // Go thru all chars in rep and compare. mut rep_i := 0 mut j := i for rep_i < rep.len && j < s.len && s[j] == rep[rep_i] { rep_i++ j++ } if rep_i == rep.len { idxs << i } } // Dont change the string if there's nothing to replace if idxs.len == 0 { return s } // Now we know the number of replacements we need to do and we can calc the len of the new string new_len := s.len + idxs.len * (with.len - rep.len) mut b := malloc(new_len + 1)// add a newline just in case // Fill the new string mut idx_pos := 0 mut cur_idx := idxs[idx_pos] mut b_i = 0 for i := 0; i < s.len; i++ { // Reached the location of rep, replace it with "with" if i == cur_idx { for j := 0; j < with.len; j++ { b[b_i] = with[j] b_i++ } // Skip the length of rep, since we just replaced it with "with" i += rep.len - 1 // Go to the next index idx_pos++ if idx_pos < idxs.len { cur_idx = idxs[idx_pos] } } // Rep doesnt start here, just copy else { b[b_i] = s[i] b_i++ } } b[new_len] = `\0` return tos(b, new_len) } fn (s string) int() int { return C.atoi(s.str) } fn (s string) f32() f32 { return C.atof(s.str) } // == fn (s string) eq(a string) bool { if isnil(s.str) { panic('string.eq(): nil string') } if s.len != a.len { return false } for i := 0; i < s.len; i++ { if s[i] != a[i] { return false } } return true } // != fn (s string) ne(a string) bool { return !s.eq(a) } // s < a fn (s string) lt(a string) bool { for i := 0; i < s.len; i++ { if i >= a.len || s[i] > a[i] { return false } else if s[i] < a[i] { return true } } if s.len < a.len { return true } return false } // s <= a fn (s string) le(a string) bool { return s.lt(a) || s.eq(a) } // s > a fn (s string) gt(a string) bool { return !s.le(a) } // s >= a fn (s string) ge(a string) bool { return !s.lt(a) } // TODO `fn (s string) + (a string)` ? To be consistent with operator overloading syntax. fn (s string) add(a string) string { new_len := a.len + s.len mut res := string { len: new_len str: malloc(new_len + 1) } for j := 0; j < s.len; j++ { res[j] = s[j] } for j := 0; j < a.len; j++ { res[s.len + j] = a[j] } res[new_len] = `\0`// V strings are not null terminated, but just in case return res } pub fn (s string) split(delim string) []string { // println('string split delim="$delim" s="$s"') mut res := []string if delim.len == 0 { res << s return res } if delim.len == 1 { return s.split_single(delim[0]) // println('split 1 only') // os.exit() } mut i := 0 mut start := 0// - 1 for i < s.len { // printiln(i) mut a := s[i] == delim[0] mut j := 1 for j < delim.len && a { a = a && s[i + j] == delim[j] j++ } last := i == s.len - 1 if a || last { if last { i++ } mut val := s.substr(start, i) // println('got it "$val" start=$start i=$i delim="$delim"') if val.len > 0 { // todo perf // val now is '___VAL'. remove '___' from the start if val.starts_with(delim) { // println('!!') val = val.right(delim.len) } res << val.trim_space() } start = i } i++ } return res } fn (s string) split_single(delim byte) []string { mut res := []string if int(delim) == 0 { res << s return res } mut i := 0 mut start := 0 for i < s.len { a := s[i] == delim b := i == s.len - 1 if a || b { if i == s.len - 1 { i++ } val := s.substr(start, i) if val.len > 0 { res << val.trim_space() } start = i + 1 } i++ } return res } pub fn (s string) split_into_lines() []string { mut res := []string if s.len == 0 { return res } mut start := 0 for i := 0; i < s.len; i++ { last := i == s.len - 1 if int(s[i]) == 10 || last { if last { i++ } line := s.substr(start, i) res << line start = i + 1 } } return res } // 'hello'.left(2) => 'he' pub fn (s string) left(n int) string { if n >= s.len { return s } return s.substr(0, n) } pub fn (s string) right(n int) string { if n >= s.len { return '' } return s.substr(n, s.len) } // Because the string is immutable, it is safe for multiple strings to share // the same storage, so slicing s results in a new 2-word structure with a // potentially different pointer and length that still refers to the same byte // sequence. This means that slicing can be done without allocation or copying, // making string slices as efficient as passing around explicit indexes. // substr without allocations. Reuses memory and works great. BUT. This substring does not have // a \0 at the end, and it's not possible to add it. So if we have s = 'privet' // and substr := s.substr_fast(1, 4) ('riv') // puts(substr.str) will print 'rivet' // Avoid using C functions with these substrs! pub fn (s string) substr(start, end int) string { /* if start > end || start >= s.len || end > s.len || start < 0 || end < 0 { panic('substr($start, $end) out of bounds (len=$s.len)') return '' } */ if start >= s.len { return '' } len := end - start res := string { str: s.str + start len: len } return res } // KMP search pub fn (s string) index(p string) int { if p.len > s.len { return -1 } mut prefix := [0] mut j := 0 for i := 1; i < p.len; i++ { for p[j] != p[i] && j > 0 { j = prefix[j - 1] } if p[j] == p[i] { j++ } prefix << j } j = 0 for i := 0; i < s.len; i++ { for p[j] != s[i] && j > 0 { j = prefix[j - 1] } if p[j] == s[i] { j++ } if j == p.len { prefix.free() return i - p.len + 1 } } prefix.free() return -1 } pub fn (s string) last_index(p string) int { if p.len > s.len { return -1 } mut i := s.len - p.len for i >= 0 { mut j := 0 for j < p.len && s[i + j] == p[j] { j++ } if j == p.len { return i } i-- } return -1 } pub fn (s string) index_after(p string, start int) int { if p.len > s.len { return -1 } mut strt := start if start < 0 { strt = 0 } if start >= s.len { return -1 } mut i := strt for i < s.len { mut j := 0 mut ii := i for j < p.len && s[ii] == p[j] { j++ ii++ } if j == p.len { return i } i++ } return -1 } pub fn (s string) contains(p string) bool { res := s.index(p) > 0 - 1 return res } pub fn (s string) starts_with(p string) bool { res := s.index(p) == 0 return res } pub fn (s string) ends_with(p string) bool { if p.len > s.len { return false } res := s.last_index(p) == s.len - p.len return res } // TODO only works with ASCII pub fn (s string) to_lower() string { mut b := malloc(s.len)// TODO + 1 ?? for i := 0; i < s.len; i++ { b[i] = C.tolower(s.str[i]) } return tos(b, s.len) } pub fn (s string) to_upper() string { mut b := malloc(s.len)// TODO + 1 ?? for i := 0; i < s.len; i++ { b[i] = C.toupper(s.str[i]) } return tos(b, s.len) } // 'hey [man] how you doin' // find_between('[', ']') == 'man' fn (s string) find_between(start, end string) string { start_pos := s.index(start) if start_pos == -1 { return '' } // First get everything to the right of 'start' val := s.right(start_pos + start.len) end_pos := val.index(end) if end_pos == -1 { return val } return val.left(end_pos) } // TODO generic fn (ar[]string) contains(val string) bool { for s in ar { if s == val { return true } } return false } // TODO generic fn (ar[]int) contains(val int) bool { for i, s in ar { if s == val { return true } } return false } fn (a[]string) to_c() voidptr { # char ** res = malloc(sizeof(char*) * a.len); for i := 0; i < a.len; i++ { val := a[i] # res[i] = val.str; } # return res; return 0 } fn is_space(c byte) bool { return C.isspace(c) } fn (c byte) is_space() bool { return is_space(c) } pub fn (s string) trim_space() string { if s == '' { return '' } // println('TRIM SPACE "$s"') mut i := 0 for i < s.len && is_space(s[i]) { i++ } mut res := s.right(i) mut end := res.len - 1 for end >= 0 && is_space(res[end]) { // C.printf('end=%d c=%d %c\n', end, res.str[end]) end-- } res = res.left(end + 1) // println('after SPACE "$res"') return res } pub fn (s string) trim(c byte) string { if s == '' { return '' } mut i := 0 for i < s.len && c == s[i] { i++ } mut res := s.right(i) mut end := res.len - 1 for end >= 0 && c == res[end] { end-- } res = res.left(end + 1) return res } fn (s string) trim_left(cutset string) string { mut start := s.index(cutset) if start != 0 { return s } for start < s.len - 1 && s[start] == cutset[0] { start++ } return s.right(start) } fn (s string) trim_right(cutset string) string { pos := s.last_index(cutset) if pos == -1 { return s } return s.left(pos) } // fn print_cur_thread() { // //C.printf("tid = %08x \n", pthread_self()); // } fn compare_strings(a, b *string) int { if a.lt(b) { return -1 } if a.gt(b) { return 1 } return 0 } fn compare_strings_by_len(a, b *string) int { if a.len < b.len { return -1 } if a.len > b.len { return 1 } return 0 } fn compare_lower_strings(a, b *string) int { aa := a.to_lower() bb := b.to_lower() return compare_strings(aa, bb) } pub fn (s mut []string) sort() { s.sort_with_compare(compare_strings) } fn (s mut []string) sort_ignore_case() { s.sort_with_compare(compare_lower_strings) } fn (s mut []string) sort_by_len() { s.sort_with_compare(compare_strings_by_len) } fn (s string) ustring() ustring { mut res := ustring { s: s // runes will have at least s.len elements, save reallocations // TODO use VLA for small strings? runes: new_array(0, s.len, sizeof(int)) } for i := 0; i < s.len; i++ { char_len := 0 # char_len =UTF8_CHAR_LEN(s.str[i]); // println('cl=$char_len') res.runes << i i += char_len - 1 res.len++ } return res } // A hack that allows to create ustring without allocations. // It's called from functions like draw_text() where we know that the string is going to be freed // right away. Uses global buffer for storing runes []int array. # array_int g_ustring_runes; fn (s string) ustring_tmp() ustring { mut res := ustring { s: s runes: 0 } # res.runes = g_ustring_runes ; # res.runes.len = s.len ; mut j := 0 for i := 0; i < s.len; i++ { char_len := 0 # char_len =UTF8_CHAR_LEN(s.str[i]); res.runes[j] = i j++ i += char_len - 1 res.len++ } return res } fn (u ustring) substr(start, end int) string { // println('substr($start, $end)') // println('runes=') // println(u.runes) start = u.runes[start] // handle last char if end >= u.runes.len { end = u.s.len } else { end = u.runes[end] } // println('fast $start, $end') return u.s.substr(start, end) } fn (u ustring) left(pos int) string { return u.substr(0, pos) } fn (u ustring) right(pos int) string { return u.substr(pos, u.len) } fn (s string) at(idx int) byte { if idx < 0 || idx >= s.len { panic('string index out of range: $idx / $s.len') } return s.str[idx] } fn (u ustring) at(idx int) string { return u.substr(idx, idx + 1) } fn (u ustring) free() { u.runes.free() } fn abs(a int) int { if a >= 0 { return a } return -a } fn (c byte) is_digit() bool { return c >= `0` && c <= `9` } fn (c byte) is_letter() bool { return (c >= `a` && c <= `z`) || (c >= `A` && c <= `Z`) } pub fn (s string) free() { C.free(s.str) } fn (arr[]string) free() { for s in arr { s.free() } C.free(arr.data) } // all_before('23:34:45.234', '.') == '23:34:45' fn (s string) all_before(dot string) string { pos := s.index(dot) if pos == -1 { return s } return s.left(pos) } fn (s string) all_before_last(dot string) string { pos := s.last_index(dot) if pos == -1 { return s } return s.left(pos) } fn (s string) all_after(dot string) string { pos := s.last_index(dot) if pos == -1 { return s } return s.right(pos + dot.len) } // fn (s []string) substr(a, b int) string { // return join_strings(s.slice_fast(a, b)) // } pub fn (a[]string) join(del string) string { if a.len == 0 { return '' } mut len := 0 for i, val in a { len += val.len + del.len } len -= del.len // Allocate enough memory mut res := '' res.len = len res.str = malloc(res.len + 1) mut idx := 0 // Go thru every string and copy its every char one by one for i, val in a { for j := 0; j < val.len; j++ { c := val[j] res.str[idx] = val.str[j] idx++ } // Add del if it's not last if i != a.len - 1 { for k := 0; k < del.len; k++ { res.str[idx] = del.str[k] idx++ } } } res.str[res.len] = `\0` return res } fn (s[]string) join_lines() string { return s.join('\n') } fn (s string) reverse() string { mut res := string { len: s.len str: malloc(s.len + 1) } for i := s.len - 1; i >= 0; i-- { res[s.len-i-1] = s[i] } return res } // 'hello'.limit(2) => 'he' // 'hi'.limit(10) => 'hi' fn (s string) limit(max int) string { u := s.ustring() if u.len <= max { return s } return u.substr(0, max) } // TODO is_white_space() fn (c byte) is_white() bool { i := int(c) return i == 10 || i == 32 || i == 9 || i == 13 || c == `\r` } // TODO move this to strings.repeat() fn repeat_char(c byte, n int) string { if n <= 0 { return '' } mut arr := malloc(n + 1) for i := 0; i < n; i++ { arr[i] = c } arr[n] = `\0` return tos(arr, n) } pub fn (s string) hash() int { mut hash := int(0) for i := 0; i < s.len; i++ { // if key == 'Content-Type' { // println('$i) $hash') // } hash = hash * int(31) + int(s.str[i]) } return hash }