// Copyright (c) 2013, Thomas Goyne // // Permission to use, copy, modify, and distribute this software for any // purpose with or without fee is hereby granted, provided that the above // copyright notice and this permission notice appear in all copies. // // THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES // WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF // MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR // ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES // WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN // ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF // OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. // // Aegisub Project http://www.aegisub.org/ #include "libaegisub/util.h" #include "libaegisub/util_osx.h" #include #include #include #include namespace { const size_t bad_pos = (size_t)-1; const std::pair bad_match(bad_pos, bad_pos); template size_t advance_both(Iterator& folded, Iterator& raw) { size_t len; if (*folded == *raw) { len = folded->length(); ++folded; } else { // This character was changed by case folding, so refold it and eat the // appropriate number of characters from folded len = boost::locale::fold_case(raw->str()).size(); for (size_t folded_consumed = 0; folded_consumed < len; ++folded) folded_consumed += folded->length(); } ++raw; return len; } std::pair find_range(std::string const& haystack, std::string const& needle, size_t start = 0) { const size_t match_start = haystack.find(needle, start); if (match_start == std::string::npos) return bad_match; return {match_start, match_start + needle.size()}; } void parse_blocks(std::vector>& blocks, std::string const& str) { blocks.clear(); size_t ovr_start = bad_pos; size_t i = 0; for (auto const& c : str) { if (c == '{' && ovr_start == bad_pos) ovr_start = i; else if (c == '}' && ovr_start != bad_pos) { blocks.emplace_back(ovr_start, i + 1); ovr_start = bad_pos; } ++i; } } } // anonymous namespace namespace agi { namespace util { std::string strftime(const char *fmt, const tm *tmptr) { if (!tmptr) { time_t t = time(nullptr); tmptr = localtime(&t); } char buff[65536]; ::strftime(buff, sizeof buff, fmt, tmptr); return buff; } std::pair ifind(std::string const& haystack, std::string const& needle) { const auto folded_hs = boost::locale::fold_case(haystack); const auto folded_n = boost::locale::fold_case(needle); auto match = find_range(folded_hs, folded_n); if (match == bad_match || folded_hs == haystack) return match; // We have a match, but the position is an index into the folded string // and we want an index into the unfolded string. using namespace boost::locale::boundary; const ssegment_index haystack_characters(character, begin(haystack), end(haystack)); const ssegment_index folded_characters(character, begin(folded_hs), end(folded_hs)); const size_t haystack_char_count = boost::distance(haystack_characters); const size_t folded_char_count = boost::distance(folded_characters); // As of Unicode 6.2, case folding can never reduce the number of // characters, and can only reduce the number of bytes with UTF-8 when // increasing the number of characters. As a result, iff the bytes and // characters are unchanged, no folds changed the size of any characters // and our indices are correct. if (haystack.size() == folded_hs.size() && haystack_char_count == folded_char_count) return match; const auto map_folded_to_raw = [&]() -> std::pair { size_t start = -1; // Iterate over each pair of characters and refold each character which was // changed by folding, so that we can find the corresponding positions in // the unfolded string auto folded_it = begin(folded_characters); auto haystack_it = begin(haystack_characters); size_t folded_pos = 0; while (folded_pos < match.first) folded_pos += advance_both(folded_it, haystack_it); // If we overshot the start then the match started in the middle of a // character which was folded to multiple characters if (folded_pos > match.first) return bad_match; start = distance(begin(haystack), begin(*haystack_it)); while (folded_pos < match.second) folded_pos += advance_both(folded_it, haystack_it); if (folded_pos > match.second) return bad_match; return {start, distance(begin(haystack), begin(*haystack_it))}; }; auto ret = map_folded_to_raw(); while (ret == bad_match) { // Found something, but it was an invalid match so retry from the next character match = find_range(folded_hs, folded_n, match.first + 1); if (match == bad_match) return match; ret = map_folded_to_raw(); } return ret; } std::string tagless_find_helper::strip_tags(std::string const& str, size_t s) { parse_blocks(blocks, str); std::string out; size_t last = s; for (auto const& block : blocks) { if (block.second <= s) continue; if (block.first > last) out.append(str.begin() + last, str.begin() + block.first); last = block.second; } if (last < str.size()) out.append(str.begin() + last, str.end()); start = s; return out; } void tagless_find_helper::map_range(size_t &s, size_t &e) { s += start; e += start; // Shift the start and end of the match to be relative to the unstripped // match for (auto const& block : blocks) { // Any blocks before start are irrelevant as they're included in `start` if (block.second <= start) continue; // Skip over blocks at the very beginning of the match // < should only happen if the cursor was within an override block // when the user started a search if (block.first <= s) { size_t len = block.second - std::max(block.first, start); s += len; e += len; continue; } // Blocks after the match are irrelevant if (block.first >= e) break; // Extend the match to include blocks within the match // Note that blocks cannot be partially within the match e += block.second - block.first; } } } // namespace util #ifndef __APPLE__ namespace osx { AppNapDisabler::AppNapDisabler(std::string reason) { } AppNapDisabler::~AppNapDisabler() { } } #endif } // namespace agi