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/*************************************************************************/
/* os.cpp */
/*************************************************************************/
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/* This file is part of: */
/* PANDEMONIUM ENGINE */
/* https://github.com/Relintai/pandemonium_engine */
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/*************************************************************************/
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/* Copyright (c) 2022-present Péter Magyar. */
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/* Copyright (c) 2014-2022 Godot Engine contributors (cf. AUTHORS.md). */
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/* Copyright (c) 2007-2022 Juan Linietsky, Ariel Manzur. */
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/* */
/* Permission is hereby granted, free of charge, to any person obtaining */
/* a copy of this software and associated documentation files (the */
/* "Software"), to deal in the Software without restriction, including */
/* without limitation the rights to use, copy, modify, merge, publish, */
/* distribute, sublicense, and/or sell copies of the Software, and to */
/* permit persons to whom the Software is furnished to do so, subject to */
/* the following conditions: */
/* */
/* The above copyright notice and this permission notice shall be */
/* included in all copies or substantial portions of the Software. */
/* */
/* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, */
/* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF */
/* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.*/
/* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY */
/* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, */
/* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE */
/* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
/*************************************************************************/
# include "os.h"
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# include "core/config/project_settings.h"
# include "core/input/input.h"
# include "core/io/json.h"
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# include "core/os/dir_access.h"
# include "core/os/file_access.h"
# include "core/os/midi_driver.h"
# include "core/version_generated.gen.h"
# include "servers/audio_server.h"
# include <stdarg.h>
OS * OS : : singleton = nullptr ;
uint64_t OS : : target_ticks = 0 ;
OS * OS : : get_singleton ( ) {
return singleton ;
}
uint32_t OS : : get_ticks_msec ( ) const {
return get_ticks_usec ( ) / 1000 ;
}
String OS : : get_iso_date_time ( bool local ) const {
OS : : Date date = get_date ( local ) ;
OS : : Time time = get_time ( local ) ;
String timezone ;
if ( ! local ) {
TimeZoneInfo zone = get_time_zone_info ( ) ;
if ( zone . bias > = 0 ) {
timezone = " + " ;
}
timezone = timezone + itos ( zone . bias / 60 ) . pad_zeros ( 2 ) + itos ( zone . bias % 60 ) . pad_zeros ( 2 ) ;
} else {
timezone = " Z " ;
}
return itos ( date . year ) . pad_zeros ( 2 ) + " - " +
itos ( date . month ) . pad_zeros ( 2 ) + " - " +
itos ( date . day ) . pad_zeros ( 2 ) + " T " +
itos ( time . hour ) . pad_zeros ( 2 ) + " : " +
itos ( time . min ) . pad_zeros ( 2 ) + " : " +
itos ( time . sec ) . pad_zeros ( 2 ) + timezone ;
}
uint64_t OS : : get_splash_tick_msec ( ) const {
return _msec_splash ;
}
uint64_t OS : : get_unix_time ( ) const {
return 0 ;
} ;
uint64_t OS : : get_system_time_secs ( ) const {
return 0 ;
}
uint64_t OS : : get_system_time_msecs ( ) const {
return 0 ;
}
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/**
* Time constants borrowed from loc_time . h
*/
# define EPOCH_YR 1970 /* EPOCH = Jan 1 1970 00:00:00 */
# define SECS_DAY (24L * 60L * 60L)
# define LEAPYEAR(year) (!((year) % 4) && (((year) % 100) || !((year) % 400)))
# define YEARSIZE(year) (LEAPYEAR(year) ? 366 : 365)
/// Table of number of days in each month (for regular year and leap year)
static const unsigned int MONTH_DAYS_TABLE [ 2 ] [ 12 ] = {
{ 31 , 28 , 31 , 30 , 31 , 30 , 31 , 31 , 30 , 31 , 30 , 31 } ,
{ 31 , 29 , 31 , 30 , 31 , 30 , 31 , 31 , 30 , 31 , 30 , 31 }
} ;
OS : : DateTime OS : : get_datetime_from_unix_time ( int64_t unix_time_val ) const {
DateTime dt ;
long dayclock , dayno ;
int year = EPOCH_YR ;
if ( unix_time_val > = 0 ) {
dayno = unix_time_val / SECS_DAY ;
dayclock = unix_time_val % SECS_DAY ;
/* day 0 was a thursday */
dt . date . weekday = static_cast < OS : : Weekday > ( ( dayno + 4 ) % 7 ) ;
while ( dayno > = YEARSIZE ( year ) ) {
dayno - = YEARSIZE ( year ) ;
year + + ;
}
} else {
dayno = ( unix_time_val - SECS_DAY + 1 ) / SECS_DAY ;
dayclock = unix_time_val - dayno * SECS_DAY ;
dt . date . weekday = static_cast < OS : : Weekday > ( ( ( dayno % 7 ) + 11 ) % 7 ) ;
do {
year - - ;
dayno + = YEARSIZE ( year ) ;
} while ( dayno < 0 ) ;
}
dt . time . sec = dayclock % 60 ;
dt . time . min = ( dayclock % 3600 ) / 60 ;
dt . time . hour = dayclock / 3600 ;
dt . date . year = year ;
size_t imonth = 0 ;
while ( ( unsigned long ) dayno > = MONTH_DAYS_TABLE [ LEAPYEAR ( year ) ] [ imonth ] ) {
dayno - = MONTH_DAYS_TABLE [ LEAPYEAR ( year ) ] [ imonth ] ;
imonth + + ;
}
/// Add 1 to month to make sure months are indexed starting at 1
dt . date . month = static_cast < OS : : Month > ( imonth + 1 ) ;
dt . date . day = dayno + 1 ;
return dt ;
}
int64_t OS : : get_unix_time_from_datetime ( const DateTime & datetime ) const {
// Bunch of conversion constants
static const unsigned int SECONDS_PER_MINUTE = 60 ;
static const unsigned int MINUTES_PER_HOUR = 60 ;
static const unsigned int HOURS_PER_DAY = 24 ;
static const unsigned int SECONDS_PER_HOUR = MINUTES_PER_HOUR * SECONDS_PER_MINUTE ;
static const unsigned int SECONDS_PER_DAY = SECONDS_PER_HOUR * HOURS_PER_DAY ;
unsigned int second = static_cast < unsigned int > ( datetime . time . sec ) ;
unsigned int minute = static_cast < unsigned int > ( datetime . time . min ) ;
unsigned int hour = static_cast < unsigned int > ( datetime . time . hour ) ;
unsigned int day = static_cast < unsigned int > ( datetime . date . day ) ;
unsigned int month = static_cast < unsigned int > ( datetime . date . month ) ;
unsigned int year = static_cast < unsigned int > ( datetime . date . year ) ;
/// How many days come before each month (0-12)
static const unsigned short int DAYS_PAST_THIS_YEAR_TABLE [ 2 ] [ 13 ] = {
/* Normal years. */
{ 0 , 31 , 59 , 90 , 120 , 151 , 181 , 212 , 243 , 273 , 304 , 334 , 365 } ,
/* Leap years. */
{ 0 , 31 , 60 , 91 , 121 , 152 , 182 , 213 , 244 , 274 , 305 , 335 , 366 }
} ;
ERR_FAIL_COND_V_MSG ( second > 59 , 0 , " Invalid second value of: " + itos ( second ) + " . " ) ;
ERR_FAIL_COND_V_MSG ( minute > 59 , 0 , " Invalid minute value of: " + itos ( minute ) + " . " ) ;
ERR_FAIL_COND_V_MSG ( hour > 23 , 0 , " Invalid hour value of: " + itos ( hour ) + " . " ) ;
ERR_FAIL_COND_V_MSG ( year = = 0 , 0 , " Years before 1 AD are not supported. Value passed: " + itos ( year ) + " . " ) ;
ERR_FAIL_COND_V_MSG ( month > 12 | | month = = 0 , 0 , " Invalid month value of: " + itos ( month ) + " . " ) ;
// Do this check after month is tested as valid
unsigned int days_in_month = MONTH_DAYS_TABLE [ LEAPYEAR ( year ) ] [ month - 1 ] ;
ERR_FAIL_COND_V_MSG ( day = = 0 | | day > days_in_month , 0 , " Invalid day value of: " + itos ( day ) + " . It should be comprised between 1 and " + itos ( days_in_month ) + " for month " + itos ( month ) + " . " ) ;
// Calculate all the seconds from months past in this year
uint64_t SECONDS_FROM_MONTHS_PAST_THIS_YEAR = DAYS_PAST_THIS_YEAR_TABLE [ LEAPYEAR ( year ) ] [ month - 1 ] * SECONDS_PER_DAY ;
int64_t SECONDS_FROM_YEARS_PAST = 0 ;
if ( year > = EPOCH_YR ) {
for ( unsigned int iyear = EPOCH_YR ; iyear < year ; iyear + + ) {
SECONDS_FROM_YEARS_PAST + = YEARSIZE ( iyear ) * SECONDS_PER_DAY ;
}
} else {
for ( unsigned int iyear = EPOCH_YR - 1 ; iyear > = year ; iyear - - ) {
SECONDS_FROM_YEARS_PAST - = YEARSIZE ( iyear ) * SECONDS_PER_DAY ;
}
}
int64_t epoch =
second +
minute * SECONDS_PER_MINUTE +
hour * SECONDS_PER_HOUR +
// Subtract 1 from day, since the current day isn't over yet
// and we cannot count all 24 hours.
( day - 1 ) * SECONDS_PER_DAY +
SECONDS_FROM_MONTHS_PAST_THIS_YEAR +
SECONDS_FROM_YEARS_PAST ;
return epoch ;
}
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void OS : : _set_logger ( CompositeLogger * p_logger ) {
if ( _logger ) {
memdelete ( _logger ) ;
}
_logger = p_logger ;
}
void OS : : add_logger ( Logger * p_logger ) {
if ( ! _logger ) {
Vector < Logger * > loggers ;
loggers . push_back ( p_logger ) ;
_logger = memnew ( CompositeLogger ( loggers ) ) ;
} else {
_logger - > add_logger ( p_logger ) ;
}
}
void OS : : print_error ( const char * p_function , const char * p_file , int p_line , const char * p_code , const char * p_rationale , Logger : : ErrorType p_type ) {
_logger - > log_error ( p_function , p_file , p_line , p_code , p_rationale , p_type ) ;
}
void OS : : print ( const char * p_format , . . . ) {
va_list argp ;
va_start ( argp , p_format ) ;
_logger - > logv ( p_format , argp , false ) ;
va_end ( argp ) ;
} ;
void OS : : printerr ( const char * p_format , . . . ) {
va_list argp ;
va_start ( argp , p_format ) ;
_logger - > logv ( p_format , argp , true ) ;
va_end ( argp ) ;
} ;
void OS : : set_keep_screen_on ( bool p_enabled ) {
_keep_screen_on = p_enabled ;
}
bool OS : : is_keep_screen_on ( ) const {
return _keep_screen_on ;
}
void OS : : set_low_processor_usage_mode ( bool p_enabled ) {
low_processor_usage_mode = p_enabled ;
}
bool OS : : is_in_low_processor_usage_mode ( ) const {
return low_processor_usage_mode ;
}
void OS : : set_update_vital_only ( bool p_enabled ) {
_update_vital_only = p_enabled ;
}
void OS : : set_low_processor_usage_mode_sleep_usec ( int p_usec ) {
low_processor_usage_mode_sleep_usec = p_usec ;
}
int OS : : get_low_processor_usage_mode_sleep_usec ( ) const {
return low_processor_usage_mode_sleep_usec ;
}
void OS : : set_clipboard ( const String & p_text ) {
_local_clipboard = p_text ;
}
String OS : : get_clipboard ( ) const {
return _local_clipboard ;
}
bool OS : : has_clipboard ( ) const {
return ! get_clipboard ( ) . empty ( ) ;
}
String OS : : get_executable_path ( ) const {
return _execpath ;
}
int OS : : get_process_id ( ) const {
return - 1 ;
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}
bool OS : : is_process_running ( const ProcessID & p_pid ) const {
return false ;
}
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bool OS : : is_stdout_verbose ( ) const {
return _verbose_stdout ;
}
bool OS : : is_stdout_debug_enabled ( ) const {
return _debug_stdout ;
}
void OS : : dump_memory_to_file ( const char * p_file ) {
//Memory::dump_static_mem_to_file(p_file);
}
static FileAccess * _OSPRF = nullptr ;
static void _OS_printres ( Object * p_obj ) {
Resource * res = Object : : cast_to < Resource > ( p_obj ) ;
if ( ! res ) {
return ;
}
String str = vformat ( " %s - %s - %s " , res - > to_string ( ) , res - > get_name ( ) , res - > get_path ( ) ) ;
if ( _OSPRF ) {
_OSPRF - > store_line ( str ) ;
} else {
print_line ( str ) ;
}
}
bool OS : : has_virtual_keyboard ( ) const {
return false ;
}
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void OS : : show_virtual_keyboard ( const String & p_existing_text , const Rect2 & p_screen_rect , VirtualKeyboardType p_type , int p_max_input_length , int p_cursor_start , int p_cursor_end ) {
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}
void OS : : hide_virtual_keyboard ( ) {
}
int OS : : get_virtual_keyboard_height ( ) const {
return 0 ;
}
uint32_t OS : : keyboard_get_scancode_from_physical ( uint32_t p_scancode ) const {
return p_scancode ;
}
void OS : : set_cursor_shape ( CursorShape p_shape ) {
}
OS : : CursorShape OS : : get_cursor_shape ( ) const {
return CURSOR_ARROW ;
}
void OS : : set_custom_mouse_cursor ( const RES & p_cursor , CursorShape p_shape , const Vector2 & p_hotspot ) {
}
void OS : : print_all_resources ( String p_to_file ) {
ERR_FAIL_COND ( p_to_file ! = " " & & _OSPRF ) ;
if ( p_to_file ! = " " ) {
Error err ;
_OSPRF = FileAccess : : open ( p_to_file , FileAccess : : WRITE , & err ) ;
if ( err ! = OK ) {
_OSPRF = nullptr ;
ERR_FAIL_MSG ( " Can't print all resources to file: " + String ( p_to_file ) + " . " ) ;
}
}
ObjectDB : : debug_objects ( _OS_printres ) ;
if ( p_to_file ! = " " ) {
if ( _OSPRF ) {
memdelete ( _OSPRF ) ;
}
_OSPRF = nullptr ;
}
}
void OS : : print_resources_in_use ( bool p_short ) {
ResourceCache : : dump ( nullptr , p_short ) ;
}
void OS : : dump_resources_to_file ( const char * p_file ) {
ResourceCache : : dump ( p_file ) ;
}
void OS : : set_no_window_mode ( bool p_enable ) {
_no_window = p_enable ;
}
bool OS : : is_no_window_mode_enabled ( ) const {
return _no_window ;
}
int OS : : get_exit_code ( ) const {
return _exit_code ;
}
void OS : : set_exit_code ( int p_code ) {
_exit_code = p_code ;
_is_custom_exit_code = true ;
}
bool OS : : is_custom_exit_code ( ) {
return _is_custom_exit_code ;
}
String OS : : get_locale ( ) const {
return " en " ;
}
// Non-virtual helper to extract the 2 or 3-letter language code from
// `get_locale()` in a way that's consistent for all platforms.
String OS : : get_locale_language ( ) const {
return get_locale ( ) . left ( 3 ) . replace ( " _ " , " " ) ;
}
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// Embedded PCK offset.
uint64_t OS : : get_embedded_pck_offset ( ) const {
return 0 ;
}
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// Helper function to ensure that a dir name/path will be valid on the OS
String OS : : get_safe_dir_name ( const String & p_dir_name , bool p_allow_dir_separator ) const {
Vector < String > invalid_chars = String ( " : * ? \" < > | " ) . split ( " " ) ;
if ( p_allow_dir_separator ) {
// Dir separators are allowed, but disallow ".." to avoid going up the filesystem
invalid_chars . push_back ( " .. " ) ;
} else {
invalid_chars . push_back ( " / " ) ;
}
String safe_dir_name = p_dir_name . replace ( " \\ " , " / " ) . strip_edges ( ) ;
for ( int i = 0 ; i < invalid_chars . size ( ) ; i + + ) {
safe_dir_name = safe_dir_name . replace ( invalid_chars [ i ] , " - " ) ;
}
return safe_dir_name ;
}
// Path to data, config, cache, etc. OS-specific folders
// Get properly capitalized engine name for system paths
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String OS : : get_pandemonium_dir_name ( ) const {
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// Default to lowercase, so only override when different case is needed
return String ( VERSION_SHORT_NAME ) . to_lower ( ) ;
}
// OS equivalent of XDG_DATA_HOME
String OS : : get_data_path ( ) const {
return " . " ;
}
// OS equivalent of XDG_CONFIG_HOME
String OS : : get_config_path ( ) const {
return " . " ;
}
// OS equivalent of XDG_CACHE_HOME
String OS : : get_cache_path ( ) const {
return " . " ;
}
// Path to macOS .app bundle resources
String OS : : get_bundle_resource_dir ( ) const {
return " . " ;
} ;
// Path to macOS .app bundle embedded icon
String OS : : get_bundle_icon_path ( ) const {
return String ( ) ;
}
// OS specific path for user://
String OS : : get_user_data_dir ( ) const {
return " . " ;
} ;
// Absolute path to res://
String OS : : get_resource_dir ( ) const {
return ProjectSettings : : get_singleton ( ) - > get_resource_path ( ) ;
}
// Access system-specific dirs like Documents, Downloads, etc.
String OS : : get_system_dir ( SystemDir p_dir , bool p_shared_storage ) const {
return " . " ;
}
Error OS : : shell_open ( String p_uri ) {
return ERR_UNAVAILABLE ;
} ;
// implement these with the canvas?
Error OS : : dialog_show ( String p_title , String p_description , Vector < String > p_buttons , Object * p_obj , String p_callback ) {
while ( true ) {
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print ( " %s \n -------- \n %s \n " , p_title . utf8 ( ) . get_data ( ) , p_description . utf8 ( ) . get_data ( ) ) ;
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for ( int i = 0 ; i < p_buttons . size ( ) ; i + + ) {
if ( i > 0 ) {
print ( " , " ) ;
}
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print ( " %i=%s " , i + 1 , p_buttons [ i ] . utf8 ( ) . get_data ( ) ) ;
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} ;
print ( " \n " ) ;
String res = get_stdin_string ( ) . strip_edges ( ) ;
if ( ! res . is_numeric ( ) ) {
continue ;
}
int n = res . to_int ( ) ;
if ( n < 0 | | n > = p_buttons . size ( ) ) {
continue ;
}
if ( p_obj & & p_callback ! = " " ) {
p_obj - > call_deferred ( p_callback , n ) ;
}
break ;
} ;
return OK ;
} ;
Error OS : : dialog_input_text ( String p_title , String p_description , String p_partial , Object * p_obj , String p_callback ) {
ERR_FAIL_COND_V ( ! p_obj , FAILED ) ;
ERR_FAIL_COND_V ( p_callback = = " " , FAILED ) ;
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print ( " %s \n --------- \n %s \n [%s]: \n " , p_title . utf8 ( ) . get_data ( ) , p_description . utf8 ( ) . get_data ( ) , p_partial . utf8 ( ) . get_data ( ) ) ;
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String res = get_stdin_string ( ) . strip_edges ( ) ;
bool success = true ;
if ( res = = " " ) {
res = p_partial ;
} ;
p_obj - > call_deferred ( p_callback , success , res ) ;
return OK ;
} ;
uint64_t OS : : get_static_memory_usage ( ) const {
return Memory : : get_mem_usage ( ) ;
}
uint64_t OS : : get_dynamic_memory_usage ( ) const {
return MemoryPool : : total_memory ;
}
uint64_t OS : : get_static_memory_peak_usage ( ) const {
return Memory : : get_mem_max_usage ( ) ;
}
Error OS : : set_cwd ( const String & p_cwd ) {
return ERR_CANT_OPEN ;
}
bool OS : : has_touchscreen_ui_hint ( ) const {
//return false;
return Input : : get_singleton ( ) & & Input : : get_singleton ( ) - > is_emulating_touch_from_mouse ( ) ;
}
uint64_t OS : : get_free_static_memory ( ) const {
return Memory : : get_mem_available ( ) ;
}
void OS : : yield ( ) {
}
void OS : : set_screen_orientation ( ScreenOrientation p_orientation ) {
_orientation = p_orientation ;
}
OS : : ScreenOrientation OS : : get_screen_orientation ( ) const {
return ( OS : : ScreenOrientation ) _orientation ;
}
// Internal helper function that returns the screen orientation enum value from a string
// (generally coming from the Project Settings).
// This is required to keep compatibility with existing projects.
OS : : ScreenOrientation OS : : get_screen_orientation_from_string ( const String & p_orientation ) const {
if ( p_orientation = = " portrait " ) {
return OS : : SCREEN_PORTRAIT ;
} else if ( p_orientation = = " reverse_landscape " ) {
return OS : : SCREEN_REVERSE_LANDSCAPE ;
} else if ( p_orientation = = " reverse_portrait " ) {
return OS : : SCREEN_REVERSE_PORTRAIT ;
} else if ( p_orientation = = " sensor_landscape " ) {
return OS : : SCREEN_SENSOR_LANDSCAPE ;
} else if ( p_orientation = = " sensor_portrait " ) {
return OS : : SCREEN_SENSOR_PORTRAIT ;
} else if ( p_orientation = = " sensor " ) {
return OS : : SCREEN_SENSOR ;
}
return OS : : SCREEN_LANDSCAPE ;
}
void OS : : ensure_user_data_dir ( ) {
String dd = get_user_data_dir ( ) ;
DirAccess * da = DirAccess : : open ( dd ) ;
if ( da ) {
memdelete ( da ) ;
return ;
}
da = DirAccess : : create ( DirAccess : : ACCESS_FILESYSTEM ) ;
Error err = da - > make_dir_recursive ( dd ) ;
ERR_FAIL_COND_MSG ( err ! = OK , " Error attempting to create data dir: " + dd + " . " ) ;
memdelete ( da ) ;
}
void OS : : set_native_icon ( const String & p_filename ) {
}
void OS : : set_icon ( const Ref < Image > & p_icon ) {
}
String OS : : get_model_name ( ) const {
return " GenericDevice " ;
}
void OS : : set_cmdline ( const char * p_execpath , const List < String > & p_args ) {
_execpath = String : : utf8 ( p_execpath ) ;
_cmdline = p_args ;
} ;
void OS : : release_rendering_thread ( ) {
}
void OS : : make_rendering_thread ( ) {
}
void OS : : swap_buffers ( ) {
}
String OS : : get_unique_id ( ) const {
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return " " ;
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}
int OS : : get_processor_count ( ) const {
return 1 ;
}
String OS : : get_processor_name ( ) const {
return " " ;
}
Error OS : : native_video_play ( String p_path , float p_volume , String p_audio_track , String p_subtitle_track ) {
return FAILED ;
}
bool OS : : native_video_is_playing ( ) const {
return false ;
}
void OS : : native_video_pause ( ) {
}
void OS : : native_video_unpause ( ) {
}
void OS : : native_video_stop ( ) {
}
void OS : : set_mouse_mode ( MouseMode p_mode ) {
}
bool OS : : can_use_threads ( ) const {
# ifdef NO_THREADS
return false ;
# else
return true ;
# endif
}
OS : : MouseMode OS : : get_mouse_mode ( ) const {
return MOUSE_MODE_VISIBLE ;
}
OS : : LatinKeyboardVariant OS : : get_latin_keyboard_variant ( ) const {
return LATIN_KEYBOARD_QWERTY ;
}
int OS : : keyboard_get_layout_count ( ) const {
return 0 ;
}
int OS : : keyboard_get_current_layout ( ) const {
return - 1 ;
}
void OS : : keyboard_set_current_layout ( int p_index ) { }
String OS : : keyboard_get_layout_language ( int p_index ) const {
return " " ;
}
String OS : : keyboard_get_layout_name ( int p_index ) const {
return " " ;
}
bool OS : : is_joy_known ( int p_device ) {
return true ;
}
String OS : : get_joy_guid ( int p_device ) const {
return " Default Joypad " ;
}
void OS : : set_context ( int p_context ) {
}
OS : : SwitchVSyncCallbackInThread OS : : switch_vsync_function = nullptr ;
void OS : : set_use_vsync ( bool p_enable ) {
_use_vsync = p_enable ;
if ( switch_vsync_function ) { //if a function was set, use function
switch_vsync_function ( p_enable ) ;
} else { //otherwise just call here
_set_use_vsync ( p_enable ) ;
}
}
bool OS : : is_vsync_enabled ( ) const {
return _use_vsync ;
}
void OS : : set_vsync_via_compositor ( bool p_enable ) {
_vsync_via_compositor = p_enable ;
}
bool OS : : is_vsync_via_compositor_enabled ( ) const {
return _vsync_via_compositor ;
}
void OS : : set_delta_smoothing ( bool p_enabled ) {
_delta_smoothing_enabled = p_enabled ;
}
bool OS : : is_delta_smoothing_enabled ( ) const {
return _delta_smoothing_enabled ;
}
OS : : PowerState OS : : get_power_state ( ) {
return POWERSTATE_UNKNOWN ;
}
int OS : : get_power_seconds_left ( ) {
return - 1 ;
}
int OS : : get_power_percent_left ( ) {
return - 1 ;
}
void OS : : set_has_server_feature_callback ( HasServerFeatureCallback p_callback ) {
has_server_feature_callback = p_callback ;
}
bool OS : : has_feature ( const String & p_feature ) {
if ( p_feature = = get_name ( ) ) {
return true ;
}
# ifdef DEBUG_ENABLED
if ( p_feature = = " debug " ) {
return true ;
}
# else
if ( p_feature = = " release " ) {
return true ;
}
# endif
# ifdef TOOLS_ENABLED
if ( p_feature = = " editor " ) {
return true ;
}
# else
if ( p_feature = = " standalone " ) {
return true ;
}
# endif
if ( sizeof ( void * ) = = 8 & & p_feature = = " 64 " ) {
return true ;
}
if ( sizeof ( void * ) = = 4 & & p_feature = = " 32 " ) {
return true ;
}
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# if defined(__x86_64) || defined(__x86_64__) || defined(__amd64__) || defined(_M_X64)
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if ( p_feature = = " x86_64 " ) {
return true ;
}
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# elif defined(__i386) || defined(__i386__) || defined(_M_IX86)
if ( p_feature = = " x86_32 " ) {
return true ;
}
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if ( p_feature = = " x86 " ) {
return true ;
}
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# elif defined(__aarch64__) || defined(_M_ARM64)
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if ( p_feature = = " arm64 " ) {
return true ;
}
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# elif defined(__arm__) || defined(_M_ARM)
if ( p_feature = = " arm32 " ) {
return true ;
}
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# if defined(__ARM_ARCH_7A__)
if ( p_feature = = " armv7a " | | p_feature = = " armv7 " ) {
return true ;
}
# endif
# if defined(__ARM_ARCH_7S__)
if ( p_feature = = " armv7s " | | p_feature = = " armv7 " ) {
return true ;
}
# endif
if ( p_feature = = " arm " ) {
return true ;
}
# elif defined(__riscv)
# if __riscv_xlen == 8
if ( p_feature = = " rv64 " ) {
return true ;
}
# endif
if ( p_feature = = " riscv " ) {
return true ;
}
# elif defined(__powerpc__)
# if defined(__powerpc64__)
if ( p_feature = = " ppc64 " ) {
return true ;
}
# endif
if ( p_feature = = " ppc " ) {
return true ;
}
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# elif defined(__wasm__)
# if defined(__wasm64__)
if ( p_feature = = " wasm64 " ) {
return true ;
}
# elif defined(__wasm32__)
if ( p_feature = = " wasm32 " ) {
return true ;
}
# endif
if ( p_feature = = " wasm " ) {
return true ;
}
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# endif
if ( _check_internal_feature_support ( p_feature ) ) {
return true ;
}
if ( has_server_feature_callback & & has_server_feature_callback ( p_feature ) ) {
return true ;
}
if ( ProjectSettings : : get_singleton ( ) - > has_custom_feature ( p_feature ) ) {
return true ;
}
return false ;
}
void OS : : center_window ( ) {
if ( is_window_fullscreen ( ) ) {
return ;
}
Point2 sp = get_screen_position ( get_current_screen ( ) ) ;
Size2 scr = get_screen_size ( get_current_screen ( ) ) ;
Size2 wnd = get_real_window_size ( ) ;
int x = sp . width + ( scr . width - wnd . width ) / 2 ;
int y = sp . height + ( scr . height - wnd . height ) / 2 ;
set_window_position ( Vector2 ( x , y ) ) ;
}
int OS : : get_video_driver_count ( ) const {
return 2 ;
}
const char * OS : : get_video_driver_name ( int p_driver ) const {
switch ( p_driver ) {
case VIDEO_DRIVER_GLES2 :
return " GLES2 " ;
default :
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return " GLES2 " ;
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}
}
bool OS : : is_offscreen_gl_available ( ) const {
return false ;
}
void OS : : set_offscreen_gl_current ( bool p_current ) { }
int OS : : get_audio_driver_count ( ) const {
return AudioDriverManager : : get_driver_count ( ) ;
}
const char * OS : : get_audio_driver_name ( int p_driver ) const {
AudioDriver * driver = AudioDriverManager : : get_driver ( p_driver ) ;
ERR_FAIL_COND_V_MSG ( ! driver , " " , " Cannot get audio driver at index ' " + itos ( p_driver ) + " '. " ) ;
return AudioDriverManager : : get_driver ( p_driver ) - > get_name ( ) ;
}
void OS : : set_restart_on_exit ( bool p_restart , const List < String > & p_restart_arguments ) {
restart_on_exit = p_restart ;
restart_commandline = p_restart_arguments ;
}
bool OS : : is_restart_on_exit_set ( ) const {
return restart_on_exit ;
}
List < String > OS : : get_restart_on_exit_arguments ( ) const {
return restart_commandline ;
}
PoolStringArray OS : : get_connected_midi_inputs ( ) {
if ( MIDIDriver : : get_singleton ( ) ) {
return MIDIDriver : : get_singleton ( ) - > get_connected_inputs ( ) ;
}
PoolStringArray list ;
ERR_FAIL_V_MSG ( list , vformat ( " MIDI input isn't supported on %s. " , OS : : get_singleton ( ) - > get_name ( ) ) ) ;
}
void OS : : open_midi_inputs ( ) {
if ( MIDIDriver : : get_singleton ( ) ) {
MIDIDriver : : get_singleton ( ) - > open ( ) ;
} else {
ERR_PRINT ( vformat ( " MIDI input isn't supported on %s. " , OS : : get_singleton ( ) - > get_name ( ) ) ) ;
}
}
void OS : : close_midi_inputs ( ) {
if ( MIDIDriver : : get_singleton ( ) ) {
MIDIDriver : : get_singleton ( ) - > close ( ) ;
} else {
ERR_PRINT ( vformat ( " MIDI input isn't supported on %s. " , OS : : get_singleton ( ) - > get_name ( ) ) ) ;
}
}
void OS : : add_frame_delay ( bool p_can_draw ) {
const uint32_t frame_delay = Engine : : get_singleton ( ) - > get_frame_delay ( ) ;
if ( frame_delay ) {
// Add fixed frame delay to decrease CPU/GPU usage. This doesn't take
// the actual frame time into account.
// Due to the high fluctuation of the actual sleep duration, it's not recommended
// to use this as a FPS limiter.
delay_usec ( frame_delay * 1000 ) ;
}
// Add a dynamic frame delay to decrease CPU/GPU usage. This takes the
// previous frame time into account for a smoother result.
uint64_t dynamic_delay = 0 ;
if ( is_in_low_processor_usage_mode ( ) | | ! p_can_draw ) {
dynamic_delay = get_low_processor_usage_mode_sleep_usec ( ) ;
}
const int target_fps = Engine : : get_singleton ( ) - > get_target_fps ( ) ;
if ( target_fps > 0 & & ! Engine : : get_singleton ( ) - > is_editor_hint ( ) ) {
// Override the low processor usage mode sleep delay if the target FPS is lower.
dynamic_delay = MAX ( dynamic_delay , ( uint64_t ) ( 1000000 / target_fps ) ) ;
}
if ( dynamic_delay > 0 ) {
target_ticks + = dynamic_delay ;
uint64_t current_ticks = get_ticks_usec ( ) ;
if ( current_ticks < target_ticks ) {
delay_usec ( target_ticks - current_ticks ) ;
}
current_ticks = get_ticks_usec ( ) ;
target_ticks = MIN ( MAX ( target_ticks , current_ticks - dynamic_delay ) , current_ticks + dynamic_delay ) ;
}
}
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void OS : : set_use_benchmark ( bool p_use_benchmark ) {
use_benchmark = p_use_benchmark ;
}
bool OS : : is_use_benchmark_set ( ) {
return use_benchmark ;
}
void OS : : set_benchmark_file ( const String & p_benchmark_file ) {
benchmark_file = p_benchmark_file ;
}
String OS : : get_benchmark_file ( ) {
return benchmark_file ;
}
void OS : : benchmark_begin_measure ( const String & p_what ) {
# ifdef TOOLS_ENABLED
start_benchmark_from [ p_what ] = OS : : get_singleton ( ) - > get_ticks_usec ( ) ;
# endif
}
void OS : : benchmark_end_measure ( const String & p_what ) {
# ifdef TOOLS_ENABLED
uint64_t total = OS : : get_singleton ( ) - > get_ticks_usec ( ) - start_benchmark_from [ p_what ] ;
double total_f = double ( total ) / double ( 1000000 ) ;
startup_benchmark_json [ p_what ] = total_f ;
# endif
}
void OS : : benchmark_dump ( ) {
# ifdef TOOLS_ENABLED
if ( ! use_benchmark ) {
return ;
}
if ( ! benchmark_file . empty ( ) ) {
FileAccess * f = FileAccess : : open ( benchmark_file , FileAccess : : WRITE ) ;
if ( f ) {
f - > store_string ( JSON : : print ( startup_benchmark_json , " \t " , false ) ) ;
}
} else {
List < Variant > keys ;
startup_benchmark_json . get_key_list ( & keys ) ;
print_line ( " BENCHMARK: " ) ;
for ( List < Variant > : : Element * E = keys . front ( ) ; E ; E = E - > next ( ) ) {
Variant & K = E - > get ( ) ;
print_line ( " \t - " + K . operator String ( ) + " : " + startup_benchmark_json [ K ] + " sec. " ) ;
}
}
# endif
}
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OS : : OS ( ) {
void * volatile stack_bottom ;
restart_on_exit = false ;
singleton = this ;
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_keep_screen_on = true ; // set default value to true, because this had been true before pandemonium 2.0.
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low_processor_usage_mode = false ;
low_processor_usage_mode_sleep_usec = 10000 ;
_update_vital_only = false ;
_update_pending = false ;
_verbose_stdout = false ;
_debug_stdout = false ;
_no_window = false ;
_exit_code = 0 ;
_orientation = SCREEN_LANDSCAPE ;
_delta_smoothing_enabled = false ;
_render_thread_mode = RENDER_THREAD_SAFE ;
_allow_hidpi = false ;
_allow_layered = false ;
_stack_bottom = ( void * ) ( & stack_bottom ) ;
_logger = nullptr ;
has_server_feature_callback = nullptr ;
Vector < Logger * > loggers ;
loggers . push_back ( memnew ( StdLogger ) ) ;
_set_logger ( memnew ( CompositeLogger ( loggers ) ) ) ;
}
OS : : ~ OS ( ) {
memdelete ( _logger ) ;
singleton = nullptr ;
}