/* Copyright 2021 Gabriel Jensen This file is part of u8c. u8c is free software: you can redistribute it and/or modify it under the terms of the GNU Affero General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. u8c is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Affero General Public License for more details. You should have received a copy of the GNU Affero General Public License along with u8c. If not, see . */ # include "seterr.h" # include # include # include # include # include uint_least8_t u8c_u8dec(size_t * const _sz,uint_least32_t * * const _out,uint_least8_t * const _in) { assert(_in != NULL); register size_t insz = SIZE_C(0x0); register size_t outsz = SIZE_C(0x1); for(register size_t n = SIZE_C(0x0);n <= SIZE_MAX;outsz += SIZE_C(0x1)) { /* First pass: get size of input array and determine size of output array. */ register uint_least8_t const tmp = _in[n]; if(tmp == UINT8_C(0x0)) { /* Null-terminator: end of string has been reached. */ insz = n + SIZE_C(0x1); goto nottoobig; } if(tmp >= UINT8_C(0xF8)) { /* Too big. */ u8c_seterr((uint_least32_t[]){UINT32_C(0x75),UINT32_C(0x38),UINT32_C(0x63),UINT32_C(0x5F),UINT32_C(0x75),UINT32_C(0x38),UINT32_C(0x64),UINT32_C(0x65),UINT32_C(0x63),UINT32_C(0x3A),UINT32_C(0x20),UINT32_C(0x43),UINT32_C(0x68),UINT32_C(0x61),UINT32_C(0x72),UINT32_C(0x61),UINT32_C(0x63),UINT32_C(0x74),UINT32_C(0x65),UINT32_C(0x72),UINT32_C(0x20),UINT32_C(0x6F),UINT32_C(0x75),UINT32_C(0x74),UINT32_C(0x20),UINT32_C(0x6F),UINT32_C(0x66),UINT32_C(0x20),UINT32_C(0x72),UINT32_C(0x61),UINT32_C(0x6E),UINT32_C(0x67),UINT32_C(0x65),UINT32_C(0x20),UINT32_C(0x28),UINT32_C(0x74),UINT32_C(0x6F),UINT32_C(0x6F),UINT32_C(0x20),UINT32_C(0x62),UINT32_C(0x69),UINT32_C(0x67),UINT32_C(0x29),UINT32_C(0x2E),UINT32_C(0x0),}); /* u8c_u8dec: Character out of range (too big). */ return UINT8_C(0x1); } if(tmp >= UINT8_C(0xF0)) { /* Four byte. */ n += SIZE_C(0x4); continue; } if(tmp >= UINT8_C(0xE0)) { /* Three bytes. */ n += SIZE_C(0x3); continue; } if(tmp >= UINT8_C(0xC0)) { /* Two bytes. */ n += SIZE_C(0x2); continue; } /* One byte. */ n += SIZE_C(0x1); } /* Input is not null-terminated. */ u8c_seterr((uint_least32_t[]){UINT32_C(0x75),UINT32_C(0x38),UINT32_C(0x63),UINT32_C(0x5F),UINT32_C(0x75),UINT32_C(0x38),UINT32_C(0x64),UINT32_C(0x65),UINT32_C(0x63),UINT32_C(0x3A),UINT32_C(0x20),UINT32_C(0x55),UINT32_C(0x6E),UINT32_C(0x74),UINT32_C(0x65),UINT32_C(0x72),UINT32_C(0x6D),UINT32_C(0x69),UINT32_C(0x6E),UINT32_C(0x61),UINT32_C(0x74),UINT32_C(0x65),UINT32_C(0x64),UINT32_C(0x20),UINT32_C(0x69),UINT32_C(0x6E),UINT32_C(0x70),UINT32_C(0x75),UINT32_C(0x74),UINT32_C(0x2E),UINT32_C(0x0),}); /* u8c_u8dec: Unterminated input. */ return UINT8_C(0x1); nottoobig:; if(_sz != NULL) { *_sz = outsz; } *_out = calloc(sizeof(uint_least32_t),outsz); for(register size_t n = SIZE_C(0x0),outn = SIZE_C(0x0);n < insz;outn += SIZE_C(0x1)) { /* Second pass: decode UTF-8. */ if(_in[n] >= UINT8_C(0xF0)) { /* Four byte. */ uint_least32_t codep = (_in[n] ^ UINT32_C(0xF0)) << UINT32_C(0x12); n += SIZE_C(0x1); codep += (_in[n] ^ UINT32_C(0x80)) << UINT32_C(0xC); n += SIZE_C(0x1); codep += (_in[n] ^ UINT32_C(0x80)) << UINT32_C(0x6); n += SIZE_C(0x1); codep += (uint_least32_t)(_in[n]) ^ SIZE_C(0x80); n += SIZE_C(0x1); (*_out)[outn] = codep; continue; } if(_in[n] >= UINT8_C(0xE0)) { /* Three bytes. */ uint_least32_t codep = (_in[n] ^ UINT32_C(0xE0)) << UINT32_C(0xC); n += SIZE_C(0x1); codep += (_in[n] ^ UINT32_C(0x80)) << UINT32_C(0x6); n += SIZE_C(0x1); codep += _in[n] ^ UINT32_C(0x80); n += SIZE_C(0x1); (*_out)[outn] = codep; continue; } if(_in[n] >= UINT8_C(0xC0)) { /* Two bytes. */ uint_least32_t codep = (_in[n] ^ UINT32_C(0xC0)) << UINT32_C(0x6); n += SIZE_C(0x1); codep += _in[n] ^ UINT32_C(0x80); n += SIZE_C(0x1); (*_out)[outn] = codep; continue; } /* One byte. */ (*_out)[outn] = (uint_least32_t)(_in[n]); n += SIZE_C(0x1); continue; } return UINT8_C(0x0); }