#ifndef slic3r_Utils_hpp_ #define slic3r_Utils_hpp_ #include #include #include #include #include #include #include "libslic3r.h" namespace boost { namespace filesystem { class directory_entry; }} namespace Slic3r { extern void set_logging_level(unsigned int level); extern unsigned get_logging_level(); extern void trace(unsigned int level, const char *message); // Format memory allocated, separate thousands by comma. extern std::string format_memsize_MB(size_t n); // Return string to be added to the boost::log output to inform about the current process memory allocation. // The string is non-empty if the loglevel >= info (3) or ignore_loglevel==true. // Latter is used to get the memory info from SysInfoDialog. extern std::string log_memory_info(bool ignore_loglevel = false); extern void disable_multi_threading(); // Returns the size of physical memory (RAM) in bytes. extern size_t total_physical_memory(); // Set a path with GUI resource files. void set_var_dir(const std::string &path); // Return a full path to the GUI resource files. const std::string& var_dir(); // Return a full resource path for a file_name. std::string var(const std::string &file_name); // Set a path with various static definition data (for example the initial config bundles). void set_resources_dir(const std::string &path); // Return a full path to the resources directory. const std::string& resources_dir(); // Set a path with GUI localization files. void set_local_dir(const std::string &path); // Return a full path to the localization directory. const std::string& localization_dir(); // Set a path with shapes gallery files. void set_sys_shapes_dir(const std::string &path); // Return a full path to the system shapes gallery directory. const std::string& sys_shapes_dir(); // Return a full path to the custom shapes gallery directory. std::string custom_shapes_dir(); // Set a path with preset files. void set_data_dir(const std::string &path); // Return a full path to the GUI resource files. const std::string& data_dir(); // A special type for strings encoded in the local Windows 8-bit code page. // This type is only needed for Perl bindings to relay to Perl that the string is raw, not UTF-8 encoded. typedef std::string local_encoded_string; // Convert an UTF-8 encoded string into local coding. // On Windows, the UTF-8 string is converted to a local 8-bit code page. // On OSX and Linux, this function does no conversion and returns a copy of the source string. extern local_encoded_string encode_path(const char *src); extern std::string decode_path(const char *src); extern std::string normalize_utf8_nfc(const char *src); // Safely rename a file even if the target exists. // On Windows, the file explorer (or anti-virus or whatever else) often locks the file // for a short while, so the file may not be movable. Retry while we see recoverable errors. extern std::error_code rename_file(const std::string &from, const std::string &to); enum CopyFileResult { SUCCESS = 0, FAIL_COPY_FILE, FAIL_FILES_DIFFERENT, FAIL_RENAMING, FAIL_CHECK_ORIGIN_NOT_OPENED, FAIL_CHECK_TARGET_NOT_OPENED }; // Copy a file, adjust the access attributes, so that the target is writable. CopyFileResult copy_file_inner(const std::string &from, const std::string &to, std::string& error_message); // Copy file to a temp file first, then rename it to the final file name. // If with_check is true, then the content of the copied file is compared to the content // of the source file before renaming. // Additional error info is passed in error message. extern CopyFileResult copy_file(const std::string &from, const std::string &to, std::string& error_message, const bool with_check = false); // Compares two files if identical. extern CopyFileResult check_copy(const std::string& origin, const std::string& copy); // Ignore system and hidden files, which may be created by the DropBox synchronisation process. // https://github.com/prusa3d/PrusaSlicer/issues/1298 extern bool is_plain_file(const boost::filesystem::directory_entry &path); extern bool is_ini_file(const boost::filesystem::directory_entry &path); extern bool is_idx_file(const boost::filesystem::directory_entry &path); extern bool is_gcode_file(const std::string &path); extern bool is_img_file(const std::string& path); extern bool is_gallery_file(const boost::filesystem::directory_entry& path, char const* type); extern bool is_gallery_file(const std::string& path, char const* type); extern bool is_shapes_dir(const std::string& dir); // File path / name / extension splitting utilities, working with UTF-8, // to be published to Perl. namespace PerlUtils { // Get a file name including the extension. extern std::string path_to_filename(const char *src); // Get a file name without the extension. extern std::string path_to_stem(const char *src); // Get just the extension. extern std::string path_to_extension(const char *src); // Get a directory without the trailing slash. extern std::string path_to_parent_path(const char *src); }; std::string string_printf(const char *format, ...); // Standard "generated by Slic3r version xxx timestamp xxx" header string, // to be placed at the top of Slic3r generated files. std::string header_slic3r_generated(); // Standard "generated by PrusaGCodeViewer version xxx timestamp xxx" header string, // to be placed at the top of Slic3r generated files. std::string header_gcodeviewer_generated(); // getpid platform wrapper extern unsigned get_current_pid(); // Compute the next highest power of 2 of 32-bit v // http://graphics.stanford.edu/~seander/bithacks.html inline uint16_t next_highest_power_of_2(uint16_t v) { if (v != 0) -- v; v |= v >> 1; v |= v >> 2; v |= v >> 4; v |= v >> 8; return ++ v; } inline uint32_t next_highest_power_of_2(uint32_t v) { if (v != 0) -- v; v |= v >> 1; v |= v >> 2; v |= v >> 4; v |= v >> 8; v |= v >> 16; return ++ v; } inline uint64_t next_highest_power_of_2(uint64_t v) { if (v != 0) -- v; v |= v >> 1; v |= v >> 2; v |= v >> 4; v |= v >> 8; v |= v >> 16; v |= v >> 32; return ++ v; } // On some implementations (such as some versions of clang), the size_t is a type of its own, so we need to overload for size_t. // Typically, though, the size_t type aliases to uint64_t / uint32_t. // We distinguish that here and provide implementation for size_t if and only if it is a distinct type template size_t next_highest_power_of_2(T v, typename std::enable_if::value, T>::type = 0, // T is size_t typename std::enable_if::value, T>::type = 0, // T is not uint64_t typename std::enable_if::value, T>::type = 0, // T is not uint32_t typename std::enable_if::type = 0) // T is 64 bits { return next_highest_power_of_2(uint64_t(v)); } template size_t next_highest_power_of_2(T v, typename std::enable_if::value, T>::type = 0, // T is size_t typename std::enable_if::value, T>::type = 0, // T is not uint64_t typename std::enable_if::value, T>::type = 0, // T is not uint32_t typename std::enable_if::type = 0) // T is 32 bits { return next_highest_power_of_2(uint32_t(v)); } template inline INDEX_TYPE prev_idx_modulo(INDEX_TYPE idx, const INDEX_TYPE count) { if (idx == 0) idx = count; return -- idx; } template inline INDEX_TYPE next_idx_modulo(INDEX_TYPE idx, const INDEX_TYPE count) { if (++ idx == count) idx = 0; return idx; } template inline typename CONTAINER_TYPE::size_type prev_idx_modulo(typename CONTAINER_TYPE::size_type idx, const CONTAINER_TYPE &container) { return prev_idx_modulo(idx, container.size()); } template inline typename CONTAINER_TYPE::size_type next_idx_modulo(typename CONTAINER_TYPE::size_type idx, const CONTAINER_TYPE &container) { return next_idx_modulo(idx, container.size()); } template inline const typename CONTAINER_TYPE::value_type& prev_value_modulo(typename CONTAINER_TYPE::size_type idx, const CONTAINER_TYPE &container) { return container[prev_idx_modulo(idx, container.size())]; } template inline typename CONTAINER_TYPE::value_type& prev_value_modulo(typename CONTAINER_TYPE::size_type idx, CONTAINER_TYPE &container) { return container[prev_idx_modulo(idx, container.size())]; } template inline const typename CONTAINER_TYPE::value_type& next_value_modulo(typename CONTAINER_TYPE::size_type idx, const CONTAINER_TYPE &container) { return container[next_idx_modulo(idx, container.size())]; } template inline typename CONTAINER_TYPE::value_type& next_value_modulo(typename CONTAINER_TYPE::size_type idx, CONTAINER_TYPE &container) { return container[next_idx_modulo(idx, container.size())]; } extern std::string xml_escape(std::string text); #if defined __GNUC__ && __GNUC__ < 5 && !defined __clang__ // Older GCCs don't have std::is_trivially_copyable // cf. https://gcc.gnu.org/onlinedocs/gcc-4.9.4/libstdc++/manual/manual/status.html#status.iso.2011 // #warning "GCC version < 5, faking std::is_trivially_copyable" template struct IsTriviallyCopyable { static constexpr bool value = true; }; #else template struct IsTriviallyCopyable : public std::is_trivially_copyable {}; #endif class ScopeGuard { public: typedef std::function Closure; private: // bool committed; Closure closure; public: ScopeGuard() {} ScopeGuard(Closure closure) : closure(std::move(closure)) {} ScopeGuard(const ScopeGuard&) = delete; ScopeGuard(ScopeGuard &&other) : closure(std::move(other.closure)) {} ~ScopeGuard() { if (closure) { closure(); } } ScopeGuard& operator=(const ScopeGuard&) = delete; ScopeGuard& operator=(ScopeGuard &&other) { closure = std::move(other.closure); return *this; } void reset() { closure = Closure(); } }; // Shorten the dhms time by removing the seconds, rounding the dhm to full minutes // and removing spaces. inline std::string short_time(const std::string &time) { // Parse the dhms time format. int days = 0; int hours = 0; int minutes = 0; int seconds = 0; if (time.find('d') != std::string::npos) ::sscanf(time.c_str(), "%dd %dh %dm %ds", &days, &hours, &minutes, &seconds); else if (time.find('h') != std::string::npos) ::sscanf(time.c_str(), "%dh %dm %ds", &hours, &minutes, &seconds); else if (time.find('m') != std::string::npos) ::sscanf(time.c_str(), "%dm %ds", &minutes, &seconds); else if (time.find('s') != std::string::npos) ::sscanf(time.c_str(), "%ds", &seconds); // Round to full minutes. if (days + hours + minutes > 0 && seconds >= 30) { if (++minutes == 60) { minutes = 0; if (++hours == 24) { hours = 0; ++days; } } } // Format the dhm time. char buffer[64]; if (days > 0) ::sprintf(buffer, "%dd%dh%dm", days, hours, minutes); else if (hours > 0) ::sprintf(buffer, "%dh%dm", hours, minutes); else if (minutes > 0) ::sprintf(buffer, "%dm", minutes); else ::sprintf(buffer, "%ds", seconds); return buffer; } // Returns the given time is seconds in format DDd HHh MMm SSs inline std::string get_time_dhms(float time_in_secs) { int days = (int)(time_in_secs / 86400.0f); time_in_secs -= (float)days * 86400.0f; int hours = (int)(time_in_secs / 3600.0f); time_in_secs -= (float)hours * 3600.0f; int minutes = (int)(time_in_secs / 60.0f); time_in_secs -= (float)minutes * 60.0f; char buffer[64]; if (days > 0) ::sprintf(buffer, "%dd %dh %dm %ds", days, hours, minutes, (int)time_in_secs); else if (hours > 0) ::sprintf(buffer, "%dh %dm %ds", hours, minutes, (int)time_in_secs); else if (minutes > 0) ::sprintf(buffer, "%dm %ds", minutes, (int)time_in_secs); else ::sprintf(buffer, "%ds", (int)time_in_secs); return buffer; } inline std::string get_time_dhm(float time_in_secs) { int days = (int)(time_in_secs / 86400.0f); time_in_secs -= (float)days * 86400.0f; int hours = (int)(time_in_secs / 3600.0f); time_in_secs -= (float)hours * 3600.0f; int minutes = (int)(time_in_secs / 60.0f); char buffer[64]; if (days > 0) ::sprintf(buffer, "%dd %dh %dm", days, hours, minutes); else if (hours > 0) ::sprintf(buffer, "%dh %dm", hours, minutes); else if (minutes > 0) ::sprintf(buffer, "%dm", minutes); return buffer; } } // namespace Slic3r #if WIN32 #define SLIC3R_STDVEC_MEMSIZE(NAME, TYPE) NAME.capacity() * ((sizeof(TYPE) + __alignof(TYPE) - 1) / __alignof(TYPE)) * __alignof(TYPE) //FIXME this is an inprecise hack. Add the hash table size and possibly some estimate of the linked list at each of the used bin. #define SLIC3R_STDUNORDEREDSET_MEMSIZE(NAME, TYPE) NAME.size() * ((sizeof(TYPE) + __alignof(TYPE) - 1) / __alignof(TYPE)) * __alignof(TYPE) #else #define SLIC3R_STDVEC_MEMSIZE(NAME, TYPE) NAME.capacity() * ((sizeof(TYPE) + alignof(TYPE) - 1) / alignof(TYPE)) * alignof(TYPE) //FIXME this is an inprecise hack. Add the hash table size and possibly some estimate of the linked list at each of the used bin. #define SLIC3R_STDUNORDEREDSET_MEMSIZE(NAME, TYPE) NAME.size() * ((sizeof(TYPE) + alignof(TYPE) - 1) / alignof(TYPE)) * alignof(TYPE) #endif #endif // slic3r_Utils_hpp_