// Helper functions for working with wcstring. #include "config.h" // IWYU pragma: keep #include "wcstringutil.h" #include #include #include "common.h" #include "flog.h" wcstring_range wcstring_tok(wcstring &str, const wcstring &needle, wcstring_range last) { using size_type = wcstring::size_type; size_type pos = last.second == wcstring::npos ? wcstring::npos : last.first; if (pos != wcstring::npos && last.second != wcstring::npos) pos += last.second; if (pos != wcstring::npos && pos != 0) ++pos; if (pos == wcstring::npos || pos >= str.size()) { return std::make_pair(wcstring::npos, wcstring::npos); } if (needle.empty()) { return std::make_pair(pos, wcstring::npos); } pos = str.find_first_not_of(needle, pos); if (pos == wcstring::npos) return std::make_pair(wcstring::npos, wcstring::npos); size_type next_pos = str.find_first_of(needle, pos); if (next_pos == wcstring::npos) { return std::make_pair(pos, wcstring::npos); } str[next_pos] = L'\0'; return std::make_pair(pos, next_pos - pos); } wcstring truncate(const wcstring &input, int max_len, ellipsis_type etype) { if (input.size() <= static_cast(max_len)) { return input; } if (etype == ellipsis_type::None) { return input.substr(0, max_len); } if (etype == ellipsis_type::Prettiest) { const wchar_t *ellipsis_str = get_ellipsis_str(); return input.substr(0, max_len - std::wcslen(ellipsis_str)).append(ellipsis_str); } wcstring output = input.substr(0, max_len - 1); output.push_back(get_ellipsis_char()); return output; } wcstring trim(wcstring input) { return trim(std::move(input), L"\t\v \r\n"); } wcstring trim(wcstring input, const wchar_t *any_of) { wcstring result = std::move(input); size_t suffix = result.find_last_not_of(any_of); if (suffix == wcstring::npos) { return wcstring{}; } result.erase(suffix + 1); auto prefix = result.find_first_not_of(any_of); assert(prefix != wcstring::npos && "Should have one non-trimmed character"); result.erase(0, prefix); return result; } wcstring wcstolower(wcstring input) { wcstring result = std::move(input); std::transform(result.begin(), result.end(), result.begin(), towlower); return result; } bool string_prefixes_string(const wchar_t *proposed_prefix, const wcstring &value) { return string_prefixes_string(proposed_prefix, value.c_str()); } bool string_prefixes_string(const wcstring &proposed_prefix, const wcstring &value) { size_t prefix_size = proposed_prefix.size(); return prefix_size <= value.size() && value.compare(0, prefix_size, proposed_prefix) == 0; } bool string_prefixes_string(const wchar_t *proposed_prefix, const wchar_t *value) { for (size_t idx = 0; proposed_prefix[idx] != L'\0'; idx++) { // Note if the prefix is longer than value, then we will compare a nonzero prefix character // against a zero value character, and so we'll return false; if (proposed_prefix[idx] != value[idx]) return false; } // We must have that proposed_prefix[idx] == L'\0', so we have a prefix match. return true; } bool string_prefixes_string(const char *proposed_prefix, const std::string &value) { return string_prefixes_string(proposed_prefix, value.c_str()); } bool string_prefixes_string(const char *proposed_prefix, const char *value) { for (size_t idx = 0; proposed_prefix[idx] != L'\0'; idx++) { if (proposed_prefix[idx] != value[idx]) return false; } return true; } bool string_prefixes_string_case_insensitive(const wcstring &proposed_prefix, const wcstring &value) { size_t prefix_size = proposed_prefix.size(); return prefix_size <= value.size() && wcsncasecmp(proposed_prefix.c_str(), value.c_str(), prefix_size) == 0; } bool string_suffixes_string(const wcstring &proposed_suffix, const wcstring &value) { size_t suffix_size = proposed_suffix.size(); return suffix_size <= value.size() && value.compare(value.size() - suffix_size, suffix_size, proposed_suffix) == 0; } bool string_suffixes_string(const wchar_t *proposed_suffix, const wcstring &value) { size_t suffix_size = std::wcslen(proposed_suffix); return suffix_size <= value.size() && value.compare(value.size() - suffix_size, suffix_size, proposed_suffix) == 0; } bool string_suffixes_string_case_insensitive(const wcstring &proposed_suffix, const wcstring &value) { size_t suffix_size = proposed_suffix.size(); return suffix_size <= value.size() && wcsncasecmp(value.c_str() + (value.size() - suffix_size), proposed_suffix.c_str(), suffix_size) == 0; } template size_t ifind_impl(const T &haystack, const T &needle) { using char_t = typename T::value_type; std::locale locale; auto ieq = [&locale](char_t c1, char_t c2) { if (c1 == c2 || std::toupper(c1, locale) == std::toupper(c2, locale)) return true; // In fuzzy matching treat treat `-` and `_` as equal (#3584). if (Fuzzy) { if ((c1 == '-' || c1 == '_') && (c2 == '-' || c2 == '_')) return true; } return false; }; auto result = std::search(haystack.begin(), haystack.end(), needle.begin(), needle.end(), ieq); if (result != haystack.end()) { return result - haystack.begin(); } return T::npos; } size_t ifind(const wcstring &haystack, const wcstring &needle, bool fuzzy) { return fuzzy ? ifind_impl(haystack, needle) : ifind_impl(haystack, needle); } size_t ifind(const std::string &haystack, const std::string &needle, bool fuzzy) { return fuzzy ? ifind_impl(haystack, needle) : ifind_impl(haystack, needle); } wcstring_list_t split_string(const wcstring &val, wchar_t sep) { wcstring_list_t out; size_t pos = 0, end = val.size(); while (pos <= end) { size_t next_pos = val.find(sep, pos); if (next_pos == wcstring::npos) { next_pos = end; } out.emplace_back(val, pos, next_pos - pos); pos = next_pos + 1; // skip the separator, or skip past the end } return out; } wcstring join_strings(const wcstring_list_t &vals, wchar_t sep) { if (vals.empty()) return wcstring{}; // Reserve the size we will need. // count-1 separators, plus the length of all strings. size_t size = vals.size() - 1; for (const wcstring &s : vals) { size += s.size(); } // Construct the string. wcstring result; result.reserve(size); bool first = true; for (const wcstring &s : vals) { if (!first) { result.push_back(sep); } result.append(s); first = false; } return result; } void wcs2string_bad_char(wchar_t wc) { FLOGF(char_encoding, L"Wide character U+%4X has no narrow representation", wc); }