#include "file.hh" #include "assert.hh" #include "buffer.hh" #include "buffer_manager.hh" #include "completion.hh" #include "debug.hh" #include "unicode.hh" #include #include #include #include #include #include namespace Kakoune { String parse_filename(const String& filename) { if (filename.length() >= 1 and filename[0] == '~' and (filename.length() == 1 or filename[1] == '/')) return parse_filename("$HOME" + filename.substr(1_byte)); ByteCount pos = 0; String result; for (ByteCount i = 0; i < filename.length(); ++i) { if (filename[i] == '$' and (i == 0 or filename[i-1] != '\\')) { result += filename.substr(pos, i - pos); ByteCount end = i+1; while (end != filename.length() and is_word(filename[end])) ++end; String var_name = filename.substr(i+1, end - i - 1); const char* var_value = getenv(var_name.c_str()); if (var_value) result += var_value; pos = end; } } if (pos != filename.length()) result += filename.substr(pos); return result; } String real_path(const String& filename) { String dirname = "."; String basename = filename; auto it = find(reversed(filename), '/'); if (it != filename.rend()) { dirname = String{filename.begin(), it.base()}; basename = String{it.base(), filename.end()}; } char buffer[PATH_MAX+1]; char* res = realpath(dirname.c_str(), buffer); if (not res) throw file_not_found{dirname}; return res + "/"_str + basename; } String compact_path(const String& filename) { String real_filename = real_path(filename); char cwd[1024]; getcwd(cwd, 1024); String real_cwd = real_path(cwd); if (real_filename.substr(0, real_cwd.length()) == real_cwd) return real_filename.substr(real_cwd.length()+1); const char* home = getenv("HOME"); if (home) { ByteCount home_len = (int)strlen(home); if (real_filename.substr(0, home_len) == home) return "~" + real_filename.substr(home_len); } return filename; } String read_file(const String& filename) { int fd = open(parse_filename(filename).c_str(), O_RDONLY); if (fd == -1) { if (errno == ENOENT) throw file_not_found(filename); throw file_access_error(filename, strerror(errno)); } auto close_fd = on_scope_end([fd]{ close(fd); }); String content; char buf[256]; while (true) { ssize_t size = read(fd, buf, 256); if (size == -1 or size == 0) break; content += String(buf, buf + size); } return content; } Buffer* create_buffer_from_file(String filename) { filename = real_path(parse_filename(filename)); int fd = open(filename.c_str(), O_RDONLY); if (fd == -1) { if (errno == ENOENT) return nullptr; throw file_access_error(filename, strerror(errno)); } struct stat st; fstat(fd, &st); if (S_ISDIR(st.st_mode)) { close(fd); throw file_access_error(filename, "is a directory"); } const char* data = (const char*)mmap(nullptr, st.st_size, PROT_READ, MAP_PRIVATE, fd, 0); auto cleanup = on_scope_end([&]{ munmap((void*)data, st.st_size); close(fd); }); BufferManager::instance().delete_buffer_if_exists(filename); const char* pos = data; bool crlf = false; bool bom = false; if (st.st_size >= 3 and data[0] == '\xEF' and data[1] == '\xBB' and data[2] == '\xBF') { bom = true; pos = data + 3; } std::vector lines; const char* end = data + st.st_size; while (pos < end) { const char* line_end = pos; while (line_end < end and *line_end != '\r' and *line_end != '\n') ++line_end; // this should happen only when opening a file which has no // end of line as last character. if (line_end == end) { lines.emplace_back(pos, line_end); lines.back() += '\n'; break; } lines.emplace_back(pos, line_end + 1); lines.back().back() = '\n'; if (line_end+1 != end and *line_end == '\r' and *(line_end+1) == '\n') { crlf = true; pos = line_end + 2; } else pos = line_end + 1; } Buffer* buffer = new Buffer(filename, Buffer::Flags::File, std::move(lines)); OptionManager& options = buffer->options(); options.get_local_option("eolformat").set(crlf ? "crlf" : "lf"); options.get_local_option("BOM").set(bom ? "utf-8" : "no"); return buffer; } static void write(int fd, const memoryview& data, const String& filename) { const char* ptr = data.pointer(); ssize_t count = data.size(); while (count) { ssize_t written = ::write(fd, ptr, count); ptr += written; count -= written; if (written == -1) throw file_access_error(filename, strerror(errno)); } } void write_buffer_to_file(const Buffer& buffer, const String& filename) { String eolformat = buffer.options()["eolformat"].get(); if (eolformat == "crlf") eolformat = "\r\n"; else eolformat = "\n"; auto eoldata = eolformat.data(); int fd = open(parse_filename(filename).c_str(), O_CREAT | O_WRONLY | O_TRUNC, 0644); if (fd == -1) throw file_access_error(filename, strerror(errno)); auto close_fd = on_scope_end([fd]{ close(fd); }); if (buffer.options()["BOM"].get() == "utf-8") ::write(fd, "\xEF\xBB\xBF", 3); for (LineCount i = 0; i < buffer.line_count(); ++i) { // end of lines are written according to eolformat but always // stored as \n memoryview linedata = buffer.line_content(i).data(); write(fd, linedata.subrange(0, linedata.size()-1), filename); write(fd, eoldata, filename); } } String find_file(const String& filename, const memoryview& paths) { for (auto candidate : paths) { if (not candidate.empty() and candidate.back() != '/') candidate += '/'; candidate += filename; struct stat buf; if (stat(candidate.c_str(), &buf) == 0 and S_ISREG(buf.st_mode)) return candidate; } return ""; } static boost::regex make_regex_ifp(const String& ex) { boost::regex result; if (not ex.empty()) { try { result = boost::regex(ex.c_str()); } catch(boost::regex_error& err) { write_debug(err.what()); } } return result; } std::vector complete_filename(const String& prefix, const Regex& ignored_regex, ByteCount cursor_pos) { String real_prefix = parse_filename(prefix.substr(0, cursor_pos)); String dirname = "./"; String dirprefix; String fileprefix = real_prefix; ByteCount dir_end = -1; for (ByteCount i = 0; i < real_prefix.length(); ++i) { if (real_prefix[i] == '/') dir_end = i; } if (dir_end != -1) { dirname = real_prefix.substr(0, dir_end + 1); dirprefix = dirname; fileprefix = real_prefix.substr(dir_end + 1); } DIR* dir = opendir(dirname.c_str()); auto closeDir = on_scope_end([=]{ closedir(dir); }); std::vector result; if (not dir) return result; const bool check_ignored_regex = not ignored_regex.empty() and not boost::regex_match(fileprefix.c_str(), ignored_regex); boost::regex file_regex = make_regex_ifp(fileprefix); std::vector regex_result; while (dirent* entry = readdir(dir)) { String filename = entry->d_name; if (filename.empty()) continue; if (check_ignored_regex and boost::regex_match(filename.c_str(), ignored_regex)) continue; const bool match_prefix = (filename.substr(0, fileprefix.length()) == fileprefix); const bool match_regex = not file_regex.empty() and boost::regex_match(filename.c_str(), file_regex); if (match_prefix or match_regex) { String name = dirprefix + filename; if (entry->d_type == DT_DIR) name += '/'; if (fileprefix.length() != 0 or filename[0] != '.') { if (match_prefix) result.push_back(escape(name)); if (match_regex) regex_result.push_back(escape(name)); } } } auto& real_result = result.empty() ? regex_result : result; std::sort(real_result.begin(), real_result.end()); return real_result; } }