// Copyright (c) 2019-2022 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 pub fn utf8_char_len(b u8) int { return ((0xe5000000 >> ((b >> 3) & 0x1e)) & 3) + 1 } // Convert utf32 to utf8 // utf32 == Codepoint pub fn utf32_to_str(code u32) string { unsafe { mut buffer := malloc_noscan(5) res := utf32_to_str_no_malloc(code, buffer) if res.len == 0 { // the buffer was not used at all free(buffer) } return res } } [manualfree; unsafe] pub fn utf32_to_str_no_malloc(code u32, buf &u8) string { unsafe { len := utf32_decode_to_buffer(code, buf) if len == 0 { return '' } buf[len] = 0 return tos(buf, len) } } [manualfree; unsafe] pub fn utf32_decode_to_buffer(code u32, buf &u8) int { unsafe { icode := int(code) // Prevents doing casts everywhere mut buffer := &u8(buf) if icode <= 127 { // 0x7F buffer[0] = u8(icode) return 1 } else if icode <= 2047 { // 0x7FF buffer[0] = 192 | u8(icode >> 6) // 0xC0 - 110xxxxx buffer[1] = 128 | u8(icode & 63) // 0x80 - 0x3F - 10xxxxxx return 2 } else if icode <= 65535 { // 0xFFFF buffer[0] = 224 | u8(icode >> 12) // 0xE0 - 1110xxxx buffer[1] = 128 | (u8(icode >> 6) & 63) // 0x80 - 0x3F - 10xxxxxx buffer[2] = 128 | u8(icode & 63) // 0x80 - 0x3F - 10xxxxxx return 3 } // 0x10FFFF else if icode <= 1114111 { buffer[0] = 240 | u8(icode >> 18) // 0xF0 - 11110xxx buffer[1] = 128 | (u8(icode >> 12) & 63) // 0x80 - 0x3F - 10xxxxxx buffer[2] = 128 | (u8(icode >> 6) & 63) // 0x80 - 0x3F - 10xxxxxx buffer[3] = 128 | u8(icode & 63) // 0x80 - 0x3F - 10xxxxxx return 4 } } return 0 } // utf8_str_len returns the number of runes contained in the string. [deprecated: 'use `string.len_utf8()` instead'] [deprecated_after: '2022-05-28'] pub fn utf8_str_len(s string) int { mut l := 0 mut i := 0 for i < s.len { l++ i += ((0xe5000000 >> ((unsafe { s.str[i] } >> 3) & 0x1e)) & 3) + 1 } return l } // Convert utf8 to utf32 // the original implementation did not check for // valid utf8 in the string, and could result in // values greater than the utf32 spec // it has been replaced by `utf8_to_utf32` which // has an option return type. // // this function is left for backward compatibility // it is used in vlib/builtin/string.v, // and also in vlib/v/gen/c/cgen.v pub fn (_rune string) utf32_code() int { return int(_rune.bytes().utf8_to_utf32() or { // error('more than one utf-8 rune found in this string') rune(0) }) } // convert array of utf8 bytes to single utf32 value // will error if more than 4 bytes are submitted pub fn (_bytes []u8) utf8_to_utf32() !rune { if _bytes.len == 0 { return 0 } // return ASCII unchanged if _bytes.len == 1 { return rune(_bytes[0]) } if _bytes.len > 4 { return error('attempted to decode too many bytes, utf-8 is limited to four bytes maximum') } mut b := u8(int(_bytes[0])) b = b << _bytes.len mut res := rune(b) mut shift := 6 - _bytes.len for i := 1; i < _bytes.len; i++ { c := rune(_bytes[i]) res = rune(res) << shift res |= c & 63 // 0x3f shift = 6 } return res } // Calculate string length for formatting, i.e. number of "characters" // This is simplified implementation. if you need specification compliant width, // use utf8.east_asian.display_width. pub fn utf8_str_visible_length(s string) int { mut l := 0 mut ul := 1 for i := 0; i < s.len; i += ul { c := unsafe { s.str[i] } ul = ((0xe5000000 >> ((unsafe { s.str[i] } >> 3) & 0x1e)) & 3) + 1 if i + ul > s.len { // incomplete UTF-8 sequence return l } l++ // avoid the match if not needed if ul == 1 { continue } // recognize combining characters and wide characters match ul { 2 { r := u64((u16(c) << 8) | unsafe { s.str[i + 1] }) if r >= 0xcc80 && r < 0xcdb0 { // diacritical marks l-- } } 3 { r := u64((u32(c) << 16) | unsafe { (u32(s.str[i + 1]) << 8) | s.str[i + 2] }) // diacritical marks extended // diacritical marks supplement // diacritical marks for symbols if (r >= 0xe1aab0 && r <= 0xe1ac7f) || (r >= 0xe1b780 && r <= 0xe1b87f) || (r >= 0xe28390 && r <= 0xe2847f) || (r >= 0xefb8a0 && r <= 0xefb8af) { // diacritical marks l-- } // Hangru // CJK Unified Ideographics // Hangru // CJK else if (r >= 0xe18480 && r <= 0xe1859f) || (r >= 0xe2ba80 && r <= 0xe2bf95) || (r >= 0xe38080 && r <= 0xe4b77f) || (r >= 0xe4b880 && r <= 0xea807f) || (r >= 0xeaa5a0 && r <= 0xeaa79f) || (r >= 0xeab080 && r <= 0xed9eaf) || (r >= 0xefa480 && r <= 0xefac7f) || (r >= 0xefb8b8 && r <= 0xefb9af) { // half marks l++ } } 4 { r := u64((u32(c) << 24) | unsafe { (u32(s.str[i + 1]) << 16) | (u32(s.str[i + 2]) << 8) | s.str[i + 3] }) // Enclosed Ideographic Supplement // Emoji // CJK Unified Ideographs Extension B-G if (r >= 0x0f9f8880 && r <= 0xf09f8a8f) || (r >= 0xf09f8c80 && r <= 0xf09f9c90) || (r >= 0xf09fa490 && r <= 0xf09fa7af) || (r >= 0xf0a08080 && r <= 0xf180807f) { l++ } } else {} } } return l }