/* 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 # include # include # include # include # include # include # include # include bool u8c_u8enc(size_t * const _sz,unsigned char const * * const _out,char32_t const * const _in) { assert(_out != NULL); assert(_in != NULL); size_t insz = SIZE_C(0x0); /* Size of input array (bytes). */ size_t outsz = SIZE_C(0x0); /* Size of output array /bytes). */ for(register size_t n = SIZE_C(0x0);n <= SIZE_MAX;n += SIZE_C(0x1)) { /* First pass: get size of input array, and determine size of output array. */ register char32_t const tmp = _in[n]; if(tmp > u8c_unimax) { /* Codepoint out of range. */ u8c_seterr(U"u8c_u8enc: Codepoint out of range (too big).",u8c_errtyp_u32oor); return true; } if(tmp >= UINT32_C(0x10000)) { /* 4 bytes. */ outsz += SIZE_C(0x4); continue; } if(tmp >= UINT32_C(0x800)) { /* 3 bytes. */ outsz += SIZE_C(0x3); continue; } if(tmp >= UINT32_C(0x80)) { /* 2 bytes. */ outsz += SIZE_C(0x2); continue; } /* 1 byte. */ outsz += SIZE_C(0x1); if(tmp == UINT32_C(0x0)) { insz = n + SIZE_C(0x1); goto nottoobig; } } u8c_seterr(U"u8c_u8enc: Unterminated input.",u8c_errtyp_untermin); return true; nottoobig:; if(_sz != NULL) { *_sz = outsz; } unsigned char * out = NULL; if(u8c_u8alloc(&out,outsz + SIZE_C(0x1))) { return true; } for(register size_t n = SIZE_C(0x0), outn = SIZE_C(0x0);n < insz;n += SIZE_C(0x1),outn += SIZE_C(0x1)) { /* Second pass: encode each codepoint into UTF-8. */ register char32_t const tmp = _in[n]; if(tmp >= UINT32_C(0x10000)) { // Four bytes. out[outn] = UINT8_C(0xF0) + (uint_least8_t)(tmp >> UINT32_C(0x12)); outn += SIZE_C(0x1); out[outn] = UINT8_C(0x80) + (uint_least8_t)(tmp >> UINT32_C(0xC) & UINT8_C(0x3F)); outn += SIZE_C(0x1); out[outn] = UINT8_C(0x80) + (uint_least8_t)(tmp >> UINT32_C(0x6) & UINT8_C(0x3F)); outn += SIZE_C(0x1); out[outn] = UINT8_C(0x80) + (uint_least8_t)(tmp & UINT32_C(0x3F)); continue; } if(tmp >= UINT32_C(0x800)) { /* Three bytes. */ out[outn] = UINT8_C(0xE0) + (uint_least8_t)(tmp >> UINT32_C(0xC)); outn += SIZE_C(0x1); out[outn] = UINT8_C(0x80) + (uint_least8_t)(tmp >> UINT32_C(0x6) & UINT8_C(0x3F)); outn += SIZE_C(0x1); out[outn] = UINT8_C(0x80) + (uint_least8_t)(tmp & UINT32_C(0x3F)); continue; } if(tmp >= UINT32_C(0x80)) { /* Two bytes. */ out[outn] = UINT8_C(0xC0) + (uint_least8_t)(tmp >> UINT8_C(0x6)); outn += SIZE_C(0x1); out[outn] = UINT8_C(0x80) + (uint_least8_t)(tmp & UINT8_C(0x3F)); continue; } /* One byte. */ out[outn] = (uint_least8_t)tmp; } u8c_u8free(_out); *_out = out; return false; }