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BambuStudio/libslic3r/Utils.hpp

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初始化
2024-12-20 06:44:50 +00:00
#ifndef slic3r_Utils_hpp_
#define slic3r_Utils_hpp_
#include <iomanip>
#include <locale>
#include <utility>
#include <functional>
#include <type_traits>
#include <system_error>
#include <boost/system/error_code.hpp>
#include <boost/algorithm/string.hpp>
#include <openssl/md5.h>
#include "libslic3r.h"
//define CLI errors
#define CLI_SUCCESS 0
#define CLI_ENVIRONMENT_ERROR -1
#define CLI_INVALID_PARAMS -2
#define CLI_FILE_NOTFOUND -3
#define CLI_FILELIST_INVALID_ORDER -4
#define CLI_CONFIG_FILE_ERROR -5
#define CLI_DATA_FILE_ERROR -6
#define CLI_INVALID_PRINTER_TECH -7
#define CLI_UNSUPPORTED_OPERATION -8
#define CLI_COPY_OBJECTS_ERROR -9
#define CLI_SCALE_TO_FIT_ERROR -10
#define CLI_EXPORT_STL_ERROR -11
#define CLI_EXPORT_OBJ_ERROR -12
#define CLI_EXPORT_3MF_ERROR -13
#define CLI_OUT_OF_MEMORY -14
#define CLI_3MF_NOT_SUPPORT_MACHINE_CHANGE -15
#define CLI_3MF_NEW_MACHINE_NOT_SUPPORTED -16
#define CLI_PROCESS_NOT_COMPATIBLE -17
#define CLI_INVALID_VALUES_IN_3MF -18
#define CLI_POSTPROCESS_NOT_SUPPORTED -19
#define CLI_PRINTABLE_SIZE_REDUCED -20
#define CLI_OBJECT_ARRANGE_FAILED -21
#define CLI_OBJECT_ORIENT_FAILED -22
#define CLI_MODIFIED_PARAMS_TO_PRINTER -23
#define CLI_FILE_VERSION_NOT_SUPPORTED -24
#define CLI_NO_SUITABLE_OBJECTS -50
#define CLI_VALIDATE_ERROR -51
#define CLI_OBJECTS_PARTLY_INSIDE -52
#define CLI_EXPORT_CACHE_DIRECTORY_CREATE_FAILED -53
#define CLI_EXPORT_CACHE_WRITE_FAILED -54
#define CLI_IMPORT_CACHE_NOT_FOUND -55
#define CLI_IMPORT_CACHE_DATA_CAN_NOT_USE -56
#define CLI_IMPORT_CACHE_LOAD_FAILED -57
#define CLI_SLICING_TIME_EXCEEDS_LIMIT -58
#define CLI_TRIANGLE_COUNT_EXCEEDS_LIMIT -59
#define CLI_NO_SUITABLE_OBJECTS_AFTER_SKIP -60
#define CLI_FILAMENT_NOT_MATCH_BED_TYPE -61
#define CLI_FILAMENTS_DIFFERENT_TEMP -62
#define CLI_OBJECT_COLLISION_IN_SEQ_PRINT -63
#define CLI_OBJECT_COLLISION_IN_LAYER_PRINT -64
#define CLI_SPIRAL_MODE_INVALID_PARAMS -65
#define CLI_SLICING_ERROR -100
#define CLI_GCODE_PATH_CONFLICTS -101
namespace boost { namespace filesystem { class directory_entry; }}
namespace Slic3r {
extern void set_logging_level(unsigned int level);
extern unsigned int level_string_to_boost(std::string level);
extern std::string get_string_logging_level(unsigned 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();
//BBS: add temp dir
void set_temporary_dir(const std::string &path);
const std::string& temporary_dir();
//BBS: convert 0.1.3.4 version format to 00.01.03.04 format, like AA.BB.CC.DD
inline std::string convert_to_full_version(std::string short_version)
{
std::string result = "";
std::vector<std::string> items;
boost::split(items, short_version, boost::is_any_of("."));
if (items.size() == 4) {
for (int i = 0; i < 4; i++) {
std::stringstream ss;
ss << std::setw(2) << std::setfill('0') << items[i];
result += ss.str();
if (i != 4 - 1)
result += ".";
}
return result;
}
return result;
}
template<typename DataType>
inline DataType round_divide(DataType dividend, DataType divisor) //!< Return dividend divided by divisor rounded to the nearest integer
{
return (dividend + divisor / 2) / divisor;
}
template<typename DataType>
inline DataType round_up_divide(DataType dividend, DataType divisor) //!< Return dividend divided by divisor rounded to the nearest integer
{
return (dividend + divisor - 1) / divisor;
}
// 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();
// BBL: true: succeed create or dir exists; false: fail to create
bool makedir(const std::string path);
// Format an output path for debugging purposes.
// Writes out the output path prefix to the console for the first time the function is called,
// so the user knows where to search for the debugging output.
std::string debug_out_path(const char *name, ...);
// smaller level means less log. level=5 means saving all logs.
void set_log_path_and_level(const std::string& file, unsigned int level);
void flush_logs();
// 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);
//BBS: add json support
extern bool is_json_file(const std::string& path);
// 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();
// BBS: backup & restore
std::string get_process_name(int 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<class T> size_t next_highest_power_of_2(T v,
typename std::enable_if<std::is_same<T, size_t>::value, T>::type = 0, // T is size_t
typename std::enable_if<!std::is_same<T, uint64_t>::value, T>::type = 0, // T is not uint64_t
typename std::enable_if<!std::is_same<T, uint32_t>::value, T>::type = 0, // T is not uint32_t
typename std::enable_if<sizeof(T) == 8, T>::type = 0) // T is 64 bits
{
return next_highest_power_of_2(uint64_t(v));
}
template<class T> size_t next_highest_power_of_2(T v,
typename std::enable_if<std::is_same<T, size_t>::value, T>::type = 0, // T is size_t
typename std::enable_if<!std::is_same<T, uint64_t>::value, T>::type = 0, // T is not uint64_t
typename std::enable_if<!std::is_same<T, uint32_t>::value, T>::type = 0, // T is not uint32_t
typename std::enable_if<sizeof(T) == 4, T>::type = 0) // T is 32 bits
{
return next_highest_power_of_2(uint32_t(v));
}
template<class VectorType> void reserve_more(VectorType &vector, size_t n)
{
vector.reserve(vector.size() + n);
}
template<class VectorType> void reserve_more_power_of_2(VectorType &vector, size_t n)
{
vector.reserve(next_highest_power_of_2(vector.size() + n));
}
template<typename INDEX_TYPE>
inline INDEX_TYPE prev_idx_modulo(INDEX_TYPE idx, const INDEX_TYPE count)
{
if (idx == 0)
idx = count;
return -- idx;
}
template<typename INDEX_TYPE>
inline INDEX_TYPE next_idx_modulo(INDEX_TYPE idx, const INDEX_TYPE count)
{
if (++ idx == count)
idx = 0;
return idx;
}
template<typename CONTAINER_TYPE>
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<typename CONTAINER_TYPE>
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<typename CONTAINER_TYPE>
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<typename CONTAINER_TYPE>
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<typename CONTAINER_TYPE>
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<typename CONTAINER_TYPE>
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, bool is_marked = false);
extern std::string xml_unescape(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<typename T> struct IsTriviallyCopyable { static constexpr bool value = true; };
#else
template<typename T> struct IsTriviallyCopyable : public std::is_trivially_copyable<T> {};
#endif
// A very lightweight ROII wrapper around C FILE.
// The old C file API is much faster than C++ streams, thus they are recommended for processing large / huge files.
struct FilePtr {
FilePtr(FILE *f) : f(f) {}
~FilePtr() { this->close(); }
void close() {
if (this->f) {
::fclose(this->f);
this->f = nullptr;
}
}
FILE* f = nullptr;
};
class ScopeGuard
{
public:
typedef std::function<void()> 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;
float f_seconds = 0.0;
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(), "%fs", &f_seconds);
seconds = int(f_seconds);
}
// Round to full minutes.
if (days + hours > 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%ds", minutes, (int)seconds);
else if (seconds >= 1)
::sprintf(buffer, "%ds", (int)seconds);
else if (f_seconds > 0 && f_seconds < 1)
::sprintf(buffer, "<1s");
else if (seconds == 0)
::sprintf(buffer, "0s");
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 if (time_in_secs > 1)
::sprintf(buffer, "%ds", (int)time_in_secs);
else
::sprintf(buffer, "%fs", time_in_secs);
return buffer;
}
inline std::string get_bbl_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_timezone_utc_hm(long second)
{
bool pos = true;
if (second < 0) {
pos = false;
second = -second;
}
int hours = (int)(second / 3600.0f);
second -= (float)hours * 3600.0f;
int minutes = (int)(second / 60.0f);
second -= (float)minutes * 60.0f;
char buffer[64];
::sprintf(buffer, "UTC%s%02d:%02d", pos ? "+" : "-", hours, minutes);
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);
else
::sprintf(buffer, "%dm", 0);
return buffer;
}
inline std::string get_time_hms(float time_in_secs)
{
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;
int secs = (int)time_in_secs;
char buffer[64];
::sprintf(buffer, "%02d:%02d:%02d", hours, minutes, secs);
return buffer;
}
inline std::string get_bbl_monitor_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);
else {
return "";
}
return buffer;
}
inline std::string get_bbl_remain_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;
}
bool bbl_calc_md5(std::string &filename, std::string &md5_out);
inline std::string filter_characters(const std::string& str, const std::string& filterChars)
{
std::string filteredStr = str;
auto removeFunc = [&filterChars](char ch) {
return filterChars.find(ch) != std::string::npos;
};
filteredStr.erase(std::remove_if(filteredStr.begin(), filteredStr.end(), removeFunc), filteredStr.end());
return filteredStr;
}
} // 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_