/* Search character in UTF-8 string. Copyright (C) 1999, 2002, 2006-2007, 2009-2016 Free Software Foundation, Inc. Written by Bruno Haible , 2002. This program is free software: you can redistribute it and/or modify it under the terms of either: * the GNU Lesser General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. or * the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. or both in parallel, as here. This program 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 Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this program. If not, see . */ #include /* Specification. */ #include "unistr.h" #include uint8_t * u8_strchr (const uint8_t *s, ucs4_t uc) { uint8_t c[6]; if (uc < 0x80) { uint8_t c0 = uc; if (false) { /* Unoptimized code. */ for (;;) { uint8_t s0 = *s; if (s0 == c0) return (uint8_t *) s; s++; if (s0 == 0) break; } } else { /* Optimized code. strchr() is often so well optimized, that it's worth the added function call. */ return (uint8_t *) strchr ((const char *) s, c0); } } else /* Loops equivalent to strstr, optimized for a specific length (2, 3, 4) of the needle. We use an algorithm similar to Boyer-Moore which is documented in lib/unistr/u8-chr.c. There is additional complication because we need to check after every byte for a NUL byte, but the idea is the same. */ switch (u8_uctomb_aux (c, uc, 6)) { case 2: if (*s == 0 || s[1] == 0) break; { uint8_t c0 = c[0]; uint8_t c1 = c[1]; /* Search for { c0, c1 }. */ uint8_t s1 = s[1]; for (;;) { /* Here s[0] != 0, s[1] != 0. Test whether s[0..1] == { c0, c1 }. */ if (s1 == c1) { if (*s == c0) return (uint8_t *) s; else /* Skip the search at s + 1, because s[1] = c1 < c0. */ goto case2_skip2; } else { if (s1 == c0) goto case2_skip1; else /* Skip the search at s + 1, because s[1] != c0. */ goto case2_skip2; } case2_skip2: s++; s1 = s[1]; if (s[1] == 0) break; case2_skip1: s++; s1 = s[1]; if (s[1] == 0) break; } } break; case 3: if (*s == 0 || s[1] == 0 || s[2] == 0) break; { uint8_t c0 = c[0]; uint8_t c1 = c[1]; uint8_t c2 = c[2]; /* Search for { c0, c1, c2 }. */ uint8_t s2 = s[2]; for (;;) { /* Here s[0] != 0, s[1] != 0, s[2] != 0. Test whether s[0..2] == { c0, c1, c2 }. */ if (s2 == c2) { if (s[1] == c1 && *s == c0) return (uint8_t *) s; else /* If c2 != c1: Skip the search at s + 1, because s[2] == c2 != c1. Skip the search at s + 2, because s[2] == c2 < c0. */ if (c2 == c1) goto case3_skip1; else goto case3_skip3; } else { if (s2 == c1) goto case3_skip1; else if (s2 == c0) /* Skip the search at s + 1, because s[2] != c1. */ goto case3_skip2; else /* Skip the search at s + 1, because s[2] != c1. Skip the search at s + 2, because s[2] != c0. */ goto case3_skip3; } case3_skip3: s++; s2 = s[2]; if (s[2] == 0) break; case3_skip2: s++; s2 = s[2]; if (s[2] == 0) break; case3_skip1: s++; s2 = s[2]; if (s[2] == 0) break; } } break; case 4: if (*s == 0 || s[1] == 0 || s[2] == 0 || s[3] == 0) break; { uint8_t c0 = c[0]; uint8_t c1 = c[1]; uint8_t c2 = c[2]; uint8_t c3 = c[3]; /* Search for { c0, c1, c2, c3 }. */ uint8_t s3 = s[3]; for (;;) { /* Here s[0] != 0, s[1] != 0, s[2] != 0, s[3] != 0. Test whether s[0..3] == { c0, c1, c2, c3 }. */ if (s3 == c3) { if (s[2] == c2 && s[1] == c1 && *s == c0) return (uint8_t *) s; else /* If c3 != c2: Skip the search at s + 1, because s[3] == c3 != c2. If c3 != c1: Skip the search at s + 2, because s[3] == c3 != c1. Skip the search at s + 3, because s[3] == c3 < c0. */ if (c3 == c2) goto case4_skip1; else if (c3 == c1) goto case4_skip2; else goto case4_skip4; } else { if (s3 == c2) goto case4_skip1; else if (s3 == c1) /* Skip the search at s + 1, because s[3] != c2. */ goto case4_skip2; else if (s3 == c0) /* Skip the search at s + 1, because s[3] != c2. Skip the search at s + 2, because s[3] != c1. */ goto case4_skip3; else /* Skip the search at s + 1, because s[3] != c2. Skip the search at s + 2, because s[3] != c1. Skip the search at s + 3, because s[3] != c0. */ goto case4_skip4; } case4_skip4: s++; s3 = s[3]; if (s[3] == 0) break; case4_skip3: s++; s3 = s[3]; if (s[3] == 0) break; case4_skip2: s++; s3 = s[3]; if (s[3] == 0) break; case4_skip1: s++; s3 = s[3]; if (s[3] == 0) break; } } break; } return NULL; }