// 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 fn (s string) is_utf8() int { faulty_bytes := 0 len := s.len i := 0 // # size_t i = 0; # byte * str = s.str; # # while (i < len) { # if (str[i] <= 0x7F) /* 00..7F */ { # i += 1; # } #else if (str[i] >= 0xC2 && str[i] <= 0xDF) /* C2..DF 80..BF */ { # if (i + 1 < len) /* Expect a 2nd byte */ { # if (str[i + 1] < 0x80 || str[i + 1] > 0xBF) { # printf( "After a first byte between C2 and DF, expecting a 2nd byte between 80 and BF"); # faulty_bytes = 2; # goto end; # } # } #else { # printf( "After a first byte between C2 and DF, expecting a 2nd byte."); # faulty_bytes = 1; # goto end; # } # i += 2; # } #else if (str[i] == 0xE0) /* E0 A0..BF 80..BF */ { # if (i + 2 < len) /* Expect a 2nd and 3rd byte */ { # if (str[i + 1] < 0xA0 || str[i + 1] > 0xBF) { # printf( "After a first byte of E0, expecting a 2nd byte between A0 and BF."); # faulty_bytes = 2; # goto end; # } # if (str[i + 2] < 0x80 || str[i + 2] > 0xBF) { # printf( "After a first byte of E0, expecting a 3nd byte between 80 and BF."); # faulty_bytes = 3; # goto end; # } # } #else { # printf( "After a first byte of E0, expecting two following bytes."); # faulty_bytes = 1; # goto end; # } # i += 3; # } #else if (str[i] >= 0xE1 && str[i] <= 0xEC) /* E1..EC 80..BF 80..BF */ { # if (i + 2 < len) /* Expect a 2nd and 3rd byte */ { # if (str[i + 1] < 0x80 || str[i + 1] > 0xBF) { # printf( "After a first byte between E1 and EC, expecting the 2nd byte between 80 and BF."); # faulty_bytes = 2; # goto end; # } # if (str[i + 2] < 0x80 || str[i + 2] > 0xBF) { # printf( "After a first byte between E1 and EC, expecting the 3rd byte between 80 and BF."); # faulty_bytes = 3; # goto end; # } # } #else { # printf( "After a first byte between E1 and EC, expecting two following bytes."); # faulty_bytes = 1; # goto end; # } # i += 3; # } #else if (str[i] == 0xED) /* ED 80..9F 80..BF */ { # if (i + 2 < len) /* Expect a 2nd and 3rd byte */ { # if (str[i + 1] < 0x80 || str[i + 1] > 0x9F) { # printf( "After a first byte of ED, expecting 2nd byte between 80 and 9F."); # faulty_bytes = 2; # goto end; # } # if (str[i + 2] < 0x80 || str[i + 2] > 0xBF) { # printf( "After a first byte of ED, expecting 3rd byte between 80 and BF."); # faulty_bytes = 3; # goto end; # } # } #else { # printf( "After a first byte of ED, expecting two following bytes."); # faulty_bytes = 1; # goto end; # } # i += 3; # } #else if (str[i] >= 0xEE && str[i] <= 0xEF) /* EE..EF 80..BF 80..BF */ { # if (i + 2 < len) /* Expect a 2nd and 3rd byte */ { # if (str[i + 1] < 0x80 || str[i + 1] > 0xBF) { # printf( "After a first byte between EE and EF, expecting 2nd byte between 80 and BF."); # faulty_bytes = 2; # goto end; # } # if (str[i + 2] < 0x80 || str[i + 2] > 0xBF) { # printf( "After a first byte between EE and EF, expecting 3rd byte between 80 and BF."); # faulty_bytes = 3; # goto end; # } # } #else { # printf( "After a first byte between EE and EF, two following bytes."); # faulty_bytes = 1; # goto end; # } # i += 3; # } #else if (str[i] == 0xF0) /* F0 90..BF 80..BF 80..BF */ { # if (i + 3 < len) /* Expect a 2nd, 3rd 3th byte */ { # if (str[i + 1] < 0x90 || str[i + 1] > 0xBF) { # printf( "After a first byte of F0, expecting 2nd byte between 90 and BF."); # faulty_bytes = 2; # goto end; # } # if (str[i + 2] < 0x80 || str[i + 2] > 0xBF) { # printf( "After a first byte of F0, expecting 3rd byte between 80 and BF."); # faulty_bytes = 3; # goto end; # } # if (str[i + 3] < 0x80 || str[i + 3] > 0xBF) { # printf( "After a first byte of F0, expecting 4th byte between 80 and BF."); # faulty_bytes = 4; # goto end; # } # } #else { # printf( "After a first byte of F0, expecting three following bytes."); # faulty_bytes = 1; # goto end; # } # i += 4; # } #else if (str[i] >= 0xF1 && str[i] <= 0xF3) /* F1..F3 80..BF 80..BF 80..BF */ { # if (i + 3 < len) /* Expect a 2nd, 3rd 3th byte */ { # if (str[i + 1] < 0x80 || str[i + 1] > 0xBF) { # printf( "After a first byte of F1, F2, or F3, expecting a 2nd byte between 80 and BF."); # faulty_bytes = 2; # goto end; # } # if (str[i + 2] < 0x80 || str[i + 2] > 0xBF) { # printf( "After a first byte of F1, F2, or F3, expecting a 3rd byte between 80 and BF."); # faulty_bytes = 3; # goto end; # } # if (str[i + 3] < 0x80 || str[i + 3] > 0xBF) { # printf( "After a first byte of F1, F2, or F3, expecting a 4th byte between 80 and BF."); # faulty_bytes = 4; # goto end; # } # } #else { # printf( "After a first byte of F1, F2, or F3, expecting three following bytes."); # faulty_bytes = 1; # goto end; # } # i += 4; # } #else if (str[i] == 0xF4) /* F4 80..8F 80..BF 80..BF */ { # if (i + 3 < len) /* Expect a 2nd, 3rd 3th byte */ { # if (str[i + 1] < 0x80 || str[i + 1] > 0x8F) { # printf( "After a first byte of F4, expecting 2nd byte between 80 and 8F."); # faulty_bytes = 2; # goto end; # } # if (str[i + 2] < 0x80 || str[i + 2] > 0xBF) { # printf( "After a first byte of F4, expecting 3rd byte between 80 and BF."); # faulty_bytes = 3; # goto end; # } # if (str[i + 3] < 0x80 || str[i + 3] > 0xBF) { # printf( "After a first byte of F4, expecting 4th byte between 80 and BF."); # faulty_bytes = 4; # goto end; # } # } #else { # printf( "After a first byte of F4, expecting three following bytes."); # faulty_bytes = 1; # goto end; # } # i += 4; # } #else { # printf( "i=%d Expecting bytes in the following ranges: 00..7F C2..F4.", # i); # faulty_bytes = 1; # goto end; # } # } # # end: ; // println('faulty bytes=$faulty_bytes i=$i') // # printf("c='%c'\n", str[i]); ok := faulty_bytes == 0 if ok { return -1 } if !ok { println('utf is bad dalen=$len KEK $s sdf') // s = s.left(i) } return i // return ok } /* fn (s string) runes() []string { res2 := []string{} // res := new_empty_array_with_cap_string(s.len) res := []string{} if !s.is_utf8() { mys := s println('string.me runes bad utf $mys HAHA') return res } for i := 0; i < s.len; i++ { char_len := 0 # char_len =UTF8_CHAR_LEN(s.str[i]); switch char_len { case 1: // println('ONE') res <<(char2string(s[i])) case 2: // println('TWO') rune2 := s.substr(i, i + 2) res <<(rune2) i++ case 3: // println('TWO') rune3 := s.substr(i, i + 3) res <<(rune3) i++ i++ case 4: // println('TWO') rune4 := s.substr(i, i + 4) res <<(rune4) i++ i++ i++ } } return res } */ // Convert utf32 to utf8 // utf32 == Codepoint fn utf32_to_str(code u32) string { // println('code = $code') buffer := malloc(5) # if (code <= 0x7F) { // println('!!!!!!!1') # buffer[0] = code; # return tos(buffer, 1); # } # if (code <= 0x7FF) { // println('!!!!!!!2') # buffer[0] = 0xC0 | (code >> 6); /* 110xxxxx */ # buffer[1] = 0x80 | (code & 0x3F); /* 10xxxxxx */ # return tos(buffer, 2); # } # if (code <= 0xFFFF) { // println('!!!!!!!3') # buffer[0] = 0xE0 | (code >> 12); /* 1110xxxx */ # buffer[1] = 0x80 | ((code >> 6) & 0x3F); /* 10xxxxxx */ # buffer[2] = 0x80 | (code & 0x3F); /* 10xxxxxx */ # return tos(buffer, 3); # } # if (code <= 0x10FFFF) { # buffer[0] = 0xF0 | (code >> 18); /* 11110xxx */ # buffer[1] = 0x80 | ((code >> 12) & 0x3F); /* 10xxxxxx */ # buffer[2] = 0x80 | ((code >> 6) & 0x3F); /* 10xxxxxx */ # buffer[3] = 0x80 | (code & 0x3F); /* 10xxxxxx */ # return tos(buffer, 4); # } return '' } // TODO copypasta fn utf32_to_str_no_malloc(code u32, buf voidptr) string { // println('code = $code') # char* buffer = buf; # if (code <= 0x7F) { // println('!!!!!!!1') # buffer[0] = code; # return tos(buffer, 1); # } # if (code <= 0x7FF) { // println('!!!!!!!2') # buffer[0] = 0xC0 | (code >> 6); /* 110xxxxx */ # buffer[1] = 0x80 | (code & 0x3F); /* 10xxxxxx */ # return tos(buffer, 2); # } # if (code <= 0xFFFF) { // println('!!!!!!!3') # buffer[0] = 0xE0 | (code >> 12); /* 1110xxxx */ # buffer[1] = 0x80 | ((code >> 6) & 0x3F); /* 10xxxxxx */ # buffer[2] = 0x80 | (code & 0x3F); /* 10xxxxxx */ # return tos(buffer, 3); # } # if (code <= 0x10FFFF) { # buffer[0] = 0xF0 | (code >> 18); /* 11110xxx */ # buffer[1] = 0x80 | ((code >> 12) & 0x3F); /* 10xxxxxx */ # buffer[2] = 0x80 | ((code >> 6) & 0x3F); /* 10xxxxxx */ # buffer[3] = 0x80 | (code & 0x3F); /* 10xxxxxx */ # return tos(buffer, 4); # } return '' } // Convert utf8 to utf32 fn (_rune string) utf32_code() int { // println('utf 32 of $rune len=$rune.len') if _rune.len == 0 { return 0 } // save ASC symbol as is if _rune.len == 1 { return int(_rune[0]) } b := byte(int(_rune[0])) // TODO should be // res := int( rune[0] << rune.len) # b <<= _rune.len; res := int(b) mut shift := 6 - _rune.len for i := 1; i < _rune.len; i++ { // println('c=$res') c := int(_rune[i]) # res <<= shift; # res |= c & 0x3f; shift = 6 } // println('!!!!!!!! utf32 $rune res = $res') return res }