1 // fg_commands.cxx - internal FGFS commands.
3 #include <string.h> // strcmp()
5 #include <simgear/compiler.h>
10 #include <simgear/sg_inlines.h>
11 #include <simgear/debug/logstream.hxx>
12 #include <simgear/math/sg_random.h>
13 #include <simgear/structure/exception.hxx>
14 #include <simgear/structure/commands.hxx>
15 #include <simgear/props/props.hxx>
17 #include <Cockpit/panel.hxx>
18 #include <Cockpit/panel_io.hxx>
19 #include <Environment/environment.hxx>
20 #include <FDM/flight.hxx>
22 #include <GUI/new_gui.hxx>
23 #include <GUI/dialog.hxx>
24 #include <Replay/replay.hxx>
25 #include <Scenery/tilemgr.hxx>
26 #if defined(HAVE_PLIB_PSL)
27 # include <Scripting/scriptmgr.hxx>
29 #include <Scripting/NasalSys.hxx>
30 #include <Time/sunsolver.hxx>
31 #include <Time/tmp.hxx>
33 #include "fg_init.hxx"
35 #include "fg_commands.hxx"
36 #include "fg_props.hxx"
37 #include "globals.hxx"
40 #include "viewmgr.hxx"
43 SG_USING_STD(ifstream);
44 SG_USING_STD(ofstream);
48 ////////////////////////////////////////////////////////////////////////
49 // Static helper functions.
50 ////////////////////////////////////////////////////////////////////////
53 static inline SGPropertyNode *
54 get_prop (const SGPropertyNode * arg)
56 return fgGetNode(arg->getStringValue("property[0]", "/null"), true);
59 static inline SGPropertyNode *
60 get_prop2 (const SGPropertyNode * arg)
62 return fgGetNode(arg->getStringValue("property[1]", "/null"), true);
67 * Get a double value and split it as required.
70 split_value (double full_value, const char * mask,
71 double * unmodifiable, double * modifiable)
73 if (!strcmp("integer", mask)) {
74 *modifiable = (full_value < 0 ? ceil(full_value) : floor (full_value));
75 *unmodifiable = full_value - *modifiable;
76 } else if (!strcmp("decimal", mask)) {
77 *unmodifiable = (full_value < 0 ? ceil(full_value) : floor(full_value));
78 *modifiable = full_value - *unmodifiable;
80 if (strcmp("all", mask))
81 SG_LOG(SG_GENERAL, SG_ALERT, "Bad value " << mask << " for mask;"
82 << " assuming 'all'");
84 *modifiable = full_value;
90 * Clamp or wrap a value as specified.
93 limit_value (double * value, const SGPropertyNode * arg)
95 const SGPropertyNode * min_node = arg->getChild("min");
96 const SGPropertyNode * max_node = arg->getChild("max");
98 bool wrap = arg->getBoolValue("wrap");
100 if (min_node == 0 || max_node == 0)
103 if (wrap) { // wrap such that min <= x < max
104 double min_val = min_node->getDoubleValue();
105 double max_val = max_node->getDoubleValue();
106 double resolution = arg->getDoubleValue("resolution");
107 if (resolution > 0.0) {
108 // snap to (min + N*resolution), taking special care to handle imprecision
109 int n = (int)floor((*value - min_val) / resolution + 0.5);
110 int steps = (int)floor((max_val - min_val) / resolution + 0.5);
111 SG_NORMALIZE_RANGE(n, 0, steps);
112 *value = min_val + resolution * n;
114 // plain circular wrapping
115 SG_NORMALIZE_RANGE(*value, min_val, max_val);
117 } else { // clamp such that min <= x <= max
118 if ((min_node != 0) && (*value < min_node->getDoubleValue()))
119 *value = min_node->getDoubleValue();
120 else if ((max_node != 0) && (*value > max_node->getDoubleValue()))
121 *value = max_node->getDoubleValue();
126 compare_values (SGPropertyNode * value1, SGPropertyNode * value2)
128 switch (value1->getType()) {
129 case SGPropertyNode::BOOL:
130 return (value1->getBoolValue() == value2->getBoolValue());
131 case SGPropertyNode::INT:
132 return (value1->getIntValue() == value2->getIntValue());
133 case SGPropertyNode::LONG:
134 return (value1->getLongValue() == value2->getLongValue());
135 case SGPropertyNode::FLOAT:
136 return (value1->getFloatValue() == value2->getFloatValue());
137 case SGPropertyNode::DOUBLE:
138 return (value1->getDoubleValue() == value2->getDoubleValue());
140 return !strcmp(value1->getStringValue(), value2->getStringValue());
146 ////////////////////////////////////////////////////////////////////////
147 // Command implementations.
148 ////////////////////////////////////////////////////////////////////////
152 * Built-in command: do nothing.
155 do_null (const SGPropertyNode * arg)
160 #if defined(HAVE_PLIB_PSL)
162 * Built-in command: run a PSL script.
164 * script: the PSL script to execute
167 do_script (const SGPropertyNode * arg)
169 FGScriptMgr * mgr = (FGScriptMgr *)globals->get_subsystem("scripting");
170 return mgr->run(arg->getStringValue("script"));
172 #endif // HAVE_PLIB_PSL
175 * Built-in command: run a Nasal script.
178 do_nasal (const SGPropertyNode * arg)
180 return ((FGNasalSys*)globals->get_subsystem("nasal"))->handleCommand(arg);
184 * Built-in command: exit FlightGear.
186 * status: the exit status to return to the operating system (defaults to 0)
189 do_exit (const SGPropertyNode * arg)
191 SG_LOG(SG_INPUT, SG_INFO, "Program exit requested.");
192 fgExit(arg->getIntValue("status", 0));
198 * Built-in command: reinitialize one or more subsystems.
200 * subsystem[*]: the name(s) of the subsystem(s) to reinitialize; if
201 * none is specified, reinitialize all of them.
204 do_reinit (const SGPropertyNode * arg)
208 vector<SGPropertyNode_ptr> subsystems = arg->getChildren("subsystem");
209 if (subsystems.size() == 0) {
210 globals->get_subsystem_mgr()->reinit();
212 for ( unsigned int i = 0; i < subsystems.size(); i++ ) {
213 const char * name = subsystems[i]->getStringValue();
214 SGSubsystem * subsystem = globals->get_subsystem(name);
215 if (subsystem == 0) {
217 SG_LOG( SG_GENERAL, SG_ALERT,
218 "Subsystem " << name << "not found" );
225 globals->get_event_mgr()->reinit();
231 * Built-in command: suspend one or more subsystems.
233 * subsystem[*] - the name(s) of the subsystem(s) to suspend.
236 do_suspend (const SGPropertyNode * arg)
240 vector<SGPropertyNode_ptr> subsystems = arg->getChildren("subsystem");
241 for ( unsigned int i = 0; i < subsystems.size(); i++ ) {
242 const char * name = subsystems[i]->getStringValue();
243 SGSubsystem * subsystem = globals->get_subsystem(name);
244 if (subsystem == 0) {
246 SG_LOG(SG_GENERAL, SG_ALERT, "Subsystem " << name << "not found");
248 subsystem->suspend();
255 * Built-in command: suspend one or more subsystems.
257 * subsystem[*] - the name(s) of the subsystem(s) to suspend.
260 do_resume (const SGPropertyNode * arg)
264 vector<SGPropertyNode_ptr> subsystems = arg->getChildren("subsystem");
265 for ( unsigned int i = 0; i < subsystems.size(); i++ ) {
266 const char * name = subsystems[i]->getStringValue();
267 SGSubsystem * subsystem = globals->get_subsystem(name);
268 if (subsystem == 0) {
270 SG_LOG(SG_GENERAL, SG_ALERT, "Subsystem " << name << "not found");
280 * Built-in command: load flight.
282 * file (optional): the name of the file to load (relative to current
283 * directory). Defaults to "fgfs.sav"
286 do_load (const SGPropertyNode * arg)
288 const string &file = arg->getStringValue("file", "fgfs.sav");
289 ifstream input(file.c_str());
290 if (input.good() && fgLoadFlight(input)) {
292 SG_LOG(SG_INPUT, SG_INFO, "Restored flight from " << file);
295 SG_LOG(SG_INPUT, SG_ALERT, "Cannot load flight from " << file);
302 * Built-in command: save flight.
304 * file (optional): the name of the file to save (relative to the
305 * current directory). Defaults to "fgfs.sav".
308 do_save (const SGPropertyNode * arg)
310 const string &file = arg->getStringValue("file", "fgfs.sav");
311 bool write_all = arg->getBoolValue("write-all", false);
312 SG_LOG(SG_INPUT, SG_INFO, "Saving flight");
313 ofstream output(file.c_str());
314 if (output.good() && fgSaveFlight(output, write_all)) {
316 SG_LOG(SG_INPUT, SG_INFO, "Saved flight to " << file);
319 SG_LOG(SG_INPUT, SG_ALERT, "Cannot save flight to " << file);
326 * Built-in command: (re)load the panel.
328 * path (optional): the file name to load the panel from
329 * (relative to FG_ROOT). Defaults to the value of /sim/panel/path,
330 * and if that's unspecified, to "Panels/Default/default.xml".
333 do_panel_load (const SGPropertyNode * arg)
336 arg->getStringValue("path",
337 fgGetString("/sim/panel/path",
338 "Panels/Default/default.xml"));
339 FGPanel * new_panel = fgReadPanel(panel_path);
340 if (new_panel == 0) {
341 SG_LOG(SG_INPUT, SG_ALERT,
342 "Error reading new panel from " << panel_path);
345 SG_LOG(SG_INPUT, SG_INFO, "Loaded new panel from " << panel_path);
346 globals->get_current_panel()->unbind();
347 delete globals->get_current_panel();
348 globals->set_current_panel( new_panel );
349 globals->get_current_panel()->bind();
355 * Built-in command: pass a mouse click to the panel.
357 * button: the mouse button number, zero-based.
358 * is-down: true if the button is down, false if it is up.
359 * x-pos: the x position of the mouse click.
360 * y-pos: the y position of the mouse click.
363 do_panel_mouse_click (const SGPropertyNode * arg)
365 if (globals->get_current_panel() != 0)
366 return globals->get_current_panel()
367 ->doMouseAction(arg->getIntValue("button"),
368 arg->getBoolValue("is-down") ? PU_DOWN : PU_UP,
369 arg->getIntValue("x-pos"),
370 arg->getIntValue("y-pos"));
377 * Built-in command: (re)load preferences.
379 * path (optional): the file name to load the panel from (relative
380 * to FG_ROOT). Defaults to "preferences.xml".
383 do_preferences_load (const SGPropertyNode * arg)
386 fgLoadProps(arg->getStringValue("path", "preferences.xml"),
387 globals->get_props());
388 } catch (const sg_exception &e) {
389 guiErrorMessage("Error reading global preferences: ", e);
392 SG_LOG(SG_INPUT, SG_INFO, "Successfully read global preferences.");
400 if ( !strcmp(fgGetString("/sim/flight-model"), "ada") ) {
401 globals->get_props()->setBoolValue( "/sim/hud/visibility", true );
402 if ( globals->get_viewmgr()->get_current() == 1 ) {
403 globals->get_props()->setBoolValue( "/sim/hud/visibility", false );
411 globals->get_current_view()->setHeadingOffset_deg(0.0);
412 globals->get_viewmgr()->next_view();
413 fix_hud_visibility();
414 globals->get_tile_mgr()->refresh_view_timestamps();
420 globals->get_current_view()->setHeadingOffset_deg(0.0);
421 globals->get_viewmgr()->prev_view();
422 fix_hud_visibility();
423 globals->get_tile_mgr()->refresh_view_timestamps();
427 * Built-in command: cycle view.
430 do_view_cycle (const SGPropertyNode * arg)
432 globals->get_current_view()->setHeadingOffset_deg(0.0);
433 globals->get_viewmgr()->next_view();
434 fix_hud_visibility();
435 globals->get_tile_mgr()->refresh_view_timestamps();
436 // fgReshape(fgGetInt("/sim/startup/xsize"), fgGetInt("/sim/startup/ysize"));
441 * Built-in command: capture screen.
444 do_screen_capture (const SGPropertyNode * arg)
452 * Reload the tile cache.
455 do_tile_cache_reload (const SGPropertyNode * arg)
457 static const SGPropertyNode *master_freeze
458 = fgGetNode("/sim/freeze/master");
459 bool freeze = master_freeze->getBoolValue();
460 SG_LOG(SG_INPUT, SG_INFO, "ReIniting TileCache");
462 fgSetBool("/sim/freeze/master", true);
465 if ( globals->get_tile_mgr()->init() ) {
466 // Load the local scenery data
467 double visibility_meters = fgGetDouble("/environment/visibility-m");
468 globals->get_tile_mgr()->update( visibility_meters );
470 SG_LOG( SG_GENERAL, SG_ALERT,
471 "Error in Tile Manager initialization!" );
476 fgSetBool("/sim/freeze/master", false);
483 * Set the outside air temperature at the "current" altitude by first
484 * calculating the corresponding sea level temp, and assigning that to
485 * all boundary and aloft environment layers.
488 do_set_oat_degc (const SGPropertyNode * arg)
490 const string &temp_str = arg->getStringValue("temp-degc", "15.0");
492 static const SGPropertyNode *altitude_ft
493 = fgGetNode("/position/altitude-ft");
495 FGEnvironment dummy; // instantiate a dummy so we can leech a method
496 dummy.set_elevation_ft( altitude_ft->getDoubleValue() );
497 dummy.set_temperature_degc( atof( temp_str.c_str() ) );
498 double temp_sea_level_degc = dummy.get_temperature_sea_level_degc();
500 cout << "Altitude = " << altitude_ft->getDoubleValue() << endl;
501 cout << "Temp at alt (C) = " << atof( temp_str.c_str() ) << endl;
502 cout << "Temp sea level (C) = " << temp_sea_level_degc << endl;
504 SGPropertyNode *node, *child;
507 node = fgGetNode( "/environment/config/boundary" );
508 if ( node != NULL ) {
510 while ( ( child = node->getNode( "entry", i ) ) != NULL ) {
511 child->setDoubleValue( "temperature-sea-level-degc",
512 temp_sea_level_degc );
518 node = fgGetNode( "/environment/config/aloft" );
519 if ( node != NULL ) {
521 while ( ( child = node->getNode( "entry", i ) ) != NULL ) {
522 child->setDoubleValue( "temperature-sea-level-degc",
523 temp_sea_level_degc );
532 * Update the lighting manually.
535 do_timeofday (const SGPropertyNode * arg)
537 const string &offset_type = arg->getStringValue("timeofday", "noon");
539 static const SGPropertyNode *longitude
540 = fgGetNode("/position/longitude-deg");
541 static const SGPropertyNode *latitude
542 = fgGetNode("/position/latitude-deg");
543 static const SGPropertyNode *cur_time_override
544 = fgGetNode("/sim/time/cur-time-override", true);
546 int orig_warp = globals->get_warp();
547 SGTime *t = globals->get_time_params();
548 time_t cur_time = t->get_cur_time();
549 // cout << "cur_time = " << cur_time << endl;
550 // cout << "orig_warp = " << orig_warp << endl;
553 if ( offset_type == "real" ) {
555 } else if ( offset_type == "dawn" ) {
556 warp = fgTimeSecondsUntilSunAngle( cur_time,
557 longitude->getDoubleValue()
558 * SGD_DEGREES_TO_RADIANS,
559 latitude->getDoubleValue()
560 * SGD_DEGREES_TO_RADIANS,
562 } else if ( offset_type == "morning" ) {
563 warp = fgTimeSecondsUntilSunAngle( cur_time,
564 longitude->getDoubleValue()
565 * SGD_DEGREES_TO_RADIANS,
566 latitude->getDoubleValue()
567 * SGD_DEGREES_TO_RADIANS,
569 } else if ( offset_type == "noon" ) {
570 warp = fgTimeSecondsUntilSunAngle( cur_time,
571 longitude->getDoubleValue()
572 * SGD_DEGREES_TO_RADIANS,
573 latitude->getDoubleValue()
574 * SGD_DEGREES_TO_RADIANS,
576 } else if ( offset_type == "afternoon" ) {
577 warp = fgTimeSecondsUntilSunAngle( cur_time,
578 longitude->getDoubleValue()
579 * SGD_DEGREES_TO_RADIANS,
580 latitude->getDoubleValue()
581 * SGD_DEGREES_TO_RADIANS,
583 } else if ( offset_type == "dusk" ) {
584 warp = fgTimeSecondsUntilSunAngle( cur_time,
585 longitude->getDoubleValue()
586 * SGD_DEGREES_TO_RADIANS,
587 latitude->getDoubleValue()
588 * SGD_DEGREES_TO_RADIANS,
590 } else if ( offset_type == "evening" ) {
591 warp = fgTimeSecondsUntilSunAngle( cur_time,
592 longitude->getDoubleValue()
593 * SGD_DEGREES_TO_RADIANS,
594 latitude->getDoubleValue()
595 * SGD_DEGREES_TO_RADIANS,
597 } else if ( offset_type == "midnight" ) {
598 warp = fgTimeSecondsUntilSunAngle( cur_time,
599 longitude->getDoubleValue()
600 * SGD_DEGREES_TO_RADIANS,
601 latitude->getDoubleValue()
602 * SGD_DEGREES_TO_RADIANS,
605 // cout << "warp = " << warp << endl;
606 globals->set_warp( orig_warp + warp );
608 t->update( longitude->getDoubleValue() * SGD_DEGREES_TO_RADIANS,
609 latitude->getDoubleValue() * SGD_DEGREES_TO_RADIANS,
610 cur_time_override->getLongValue(),
611 globals->get_warp() );
618 * Built-in command: toggle a bool property value.
620 * property: The name of the property to toggle.
623 do_property_toggle (const SGPropertyNode * arg)
625 SGPropertyNode * prop = get_prop(arg);
626 return prop->setBoolValue(!prop->getBoolValue());
631 * Built-in command: assign a value to a property.
633 * property: the name of the property to assign.
634 * value: the value to assign; or
635 * property[1]: the property to copy from.
638 do_property_assign (const SGPropertyNode * arg)
640 SGPropertyNode * prop = get_prop(arg);
641 const SGPropertyNode * prop2 = get_prop2(arg);
642 const SGPropertyNode * value = arg->getNode("value");
645 return prop->setUnspecifiedValue(value->getStringValue());
647 return prop->setUnspecifiedValue(prop2->getStringValue());
654 * Built-in command: increment or decrement a property value.
656 * If the 'step' argument is present, it will be used; otherwise,
657 * the command uses 'offset' and 'factor', usually from the mouse.
659 * property: the name of the property to increment or decrement.
660 * step: the amount of the increment or decrement (default: 0).
661 * offset: offset from the current setting (used for the mouse; multiplied
663 * factor: scaling amount for the offset (defaults to 1).
664 * min: the minimum allowed value (default: no minimum).
665 * max: the maximum allowed value (default: no maximum).
666 * mask: 'integer' to apply only to the left of the decimal point,
667 * 'decimal' to apply only to the right of the decimal point,
668 * or 'all' to apply to the whole number (the default).
669 * wrap: true if the value should be wrapped when it passes min or max;
670 * both min and max must be present for this to work (default:
674 do_property_adjust (const SGPropertyNode * arg)
676 SGPropertyNode * prop = get_prop(arg);
679 if (arg->hasValue("step"))
680 amount = arg->getDoubleValue("step");
682 amount = (arg->getDoubleValue("factor", 1)
683 * arg->getDoubleValue("offset"));
685 double unmodifiable, modifiable;
686 split_value(prop->getDoubleValue(), arg->getStringValue("mask", "all"),
687 &unmodifiable, &modifiable);
688 modifiable += amount;
689 limit_value(&modifiable, arg);
691 prop->setDoubleValue(unmodifiable + modifiable);
698 * Built-in command: multiply a property value.
700 * property: the name of the property to multiply.
701 * factor: the amount by which to multiply.
702 * min: the minimum allowed value (default: no minimum).
703 * max: the maximum allowed value (default: no maximum).
704 * mask: 'integer' to apply only to the left of the decimal point,
705 * 'decimal' to apply only to the right of the decimal point,
706 * or 'all' to apply to the whole number (the default).
707 * wrap: true if the value should be wrapped when it passes min or max;
708 * both min and max must be present for this to work (default:
712 do_property_multiply (const SGPropertyNode * arg)
714 SGPropertyNode * prop = get_prop(arg);
715 double factor = arg->getDoubleValue("factor", 1);
717 double unmodifiable, modifiable;
718 split_value(prop->getDoubleValue(), arg->getStringValue("mask", "all"),
719 &unmodifiable, &modifiable);
720 modifiable *= factor;
721 limit_value(&modifiable, arg);
723 prop->setDoubleValue(unmodifiable + modifiable);
730 * Built-in command: swap two property values.
732 * property[0]: the name of the first property.
733 * property[1]: the name of the second property.
736 do_property_swap (const SGPropertyNode * arg)
738 SGPropertyNode * prop1 = get_prop(arg);
739 SGPropertyNode * prop2 = get_prop2(arg);
741 // FIXME: inefficient
742 const string & tmp = prop1->getStringValue();
743 return (prop1->setUnspecifiedValue(prop2->getStringValue()) &&
744 prop2->setUnspecifiedValue(tmp.c_str()));
749 * Built-in command: Set a property to an axis or other moving input.
751 * property: the name of the property to set.
752 * setting: the current input setting, usually between -1.0 and 1.0.
753 * offset: the offset to shift by, before applying the factor.
754 * factor: the factor to multiply by (use negative to reverse).
757 do_property_scale (const SGPropertyNode * arg)
759 SGPropertyNode * prop = get_prop(arg);
760 double setting = arg->getDoubleValue("setting");
761 double offset = arg->getDoubleValue("offset", 0.0);
762 double factor = arg->getDoubleValue("factor", 1.0);
763 bool squared = arg->getBoolValue("squared", false);
764 int power = arg->getIntValue("power", (squared ? 2 : 1));
766 int sign = (setting < 0 ? -1 : 1);
772 setting = setting * setting * sign;
775 setting = setting * setting * setting;
778 setting = setting * setting * setting * setting * sign;
781 setting = pow(setting, power);
782 if ((power % 2) == 0)
787 return prop->setDoubleValue((setting + offset) * factor);
792 * Built-in command: cycle a property through a set of values.
794 * If the current value isn't in the list, the cycle will
795 * (re)start from the beginning.
797 * property: the name of the property to cycle.
798 * value[*]: the list of values to cycle through.
801 do_property_cycle (const SGPropertyNode * arg)
803 SGPropertyNode * prop = get_prop(arg);
804 vector<SGPropertyNode_ptr> values = arg->getChildren("value");
806 int nSelections = values.size();
808 if (nSelections < 1) {
809 SG_LOG(SG_GENERAL, SG_ALERT, "No values for property-cycle");
813 // Try to find the current selection
814 for (int i = 0; i < nSelections; i++) {
815 if (compare_values(prop, values[i])) {
821 // Default or wrap to the first selection
822 if (selection < 0 || selection >= nSelections)
825 prop->setUnspecifiedValue(values[selection]->getStringValue());
831 * Built-in command: randomize a numeric property value.
833 * property: the name of the property value to randomize.
834 * min: the minimum allowed value.
835 * max: the maximum allowed value.
838 do_property_randomize (const SGPropertyNode * arg)
840 SGPropertyNode * prop = get_prop(arg);
841 double min = arg->getDoubleValue("min", DBL_MIN);
842 double max = arg->getDoubleValue("max", DBL_MAX);
843 prop->setDoubleValue(sg_random() * (max - min) + min);
849 * Built-in command: reinit the data logging system based on the
850 * current contents of the /logger tree.
853 do_data_logging_commit (const SGPropertyNode * arg)
855 FGLogger *log = (FGLogger *)globals->get_subsystem("logger");
861 * Built-in command: Add a dialog to the GUI system. Does *not*
862 * display the dialog. The property node should have the same format
863 * as a dialog XML configuration. It must include:
865 * name: the name of the GUI dialog for future reference.
868 do_dialog_new (const SGPropertyNode * arg)
870 NewGUI * gui = (NewGUI *)globals->get_subsystem("gui");
872 // Note the casting away of const: this is *real*. Doing a
873 // "dialog-apply" command later on will mutate this property node.
874 // I'm not convinced that this isn't the Right Thing though; it
875 // allows client to create a node, pass it to dialog-new, and get
876 // the values back from the dialog by reading the same node.
877 // Perhaps command arguments are not as "const" as they would
879 gui->newDialog((SGPropertyNode*)arg);
884 * Built-in command: Show an XML-configured dialog.
886 * dialog-name: the name of the GUI dialog to display.
889 do_dialog_show (const SGPropertyNode * arg)
891 NewGUI * gui = (NewGUI *)globals->get_subsystem("gui");
892 gui->showDialog(arg->getStringValue("dialog-name"));
898 * Built-in Command: Hide the active XML-configured dialog.
901 do_dialog_close (const SGPropertyNode * arg)
903 NewGUI * gui = (NewGUI *)globals->get_subsystem("gui");
904 if(arg->hasValue("dialog-name"))
905 return gui->closeDialog(arg->getStringValue("dialog-name"));
906 return gui->closeActiveDialog();
911 * Update a value in the active XML-configured dialog.
913 * object-name: The name of the GUI object(s) (all GUI objects if omitted).
916 do_dialog_update (const SGPropertyNode * arg)
918 NewGUI * gui = (NewGUI *)globals->get_subsystem("gui");
919 FGDialog * dialog = gui->getActiveDialog();
921 if (arg->hasValue("object-name")) {
922 dialog->updateValue(arg->getStringValue("object-name"));
924 dialog->updateValues();
934 * Apply a value in the active XML-configured dialog.
936 * object-name: The name of the GUI object(s) (all GUI objects if omitted).
939 do_dialog_apply (const SGPropertyNode * arg)
941 NewGUI * gui = (NewGUI *)globals->get_subsystem("gui");
942 FGDialog * dialog = gui->getActiveDialog();
944 if (arg->hasValue("object-name")) {
945 const char * name = arg->getStringValue("object-name");
946 dialog->applyValue(name);
947 dialog->updateValue(name);
949 dialog->applyValues();
950 dialog->updateValues();
960 * Built-in command: commit presets (read from in /sim/presets/)
963 do_presets_commit (const SGPropertyNode * arg)
965 // unbind the current fdm state so property changes
966 // don't get lost when we subsequently delete this fdm
967 // and create a new one.
968 cur_fdm_state->unbind();
970 // set position from presets
974 fgReInitSubsystems();
976 globals->get_tile_mgr()->update( fgGetDouble("/environment/visibility-m") );
979 if ( ! fgGetBool("/sim/presets/onground") ) {
980 fgSetBool( "/sim/freeze/master", true );
981 fgSetBool( "/sim/freeze/clock", true );
989 * Built-in command: set log level (0 ... 7)
992 do_log_level (const SGPropertyNode * arg)
994 sglog().setLogLevels( SG_ALL, (sgDebugPriority)arg->getIntValue() );
1000 * Built-in command: replay the FDR buffer
1003 do_replay (const SGPropertyNode * arg)
1005 // freeze the master fdm
1006 fgSetBool( "/sim/freeze/replay", true );
1008 FGReplay *r = (FGReplay *)(globals->get_subsystem( "replay" ));
1010 fgSetDouble( "/sim/replay/start-time", r->get_start_time() );
1011 fgSetDouble( "/sim/replay/end-time", r->get_end_time() );
1012 double duration = fgGetDouble( "/sim/replay/duration" );
1013 if( duration && duration < (r->get_end_time() - r->get_start_time()) ) {
1014 fgSetDouble( "/sim/replay/time", r->get_end_time() - duration );
1016 fgSetDouble( "/sim/replay/time", r->get_start_time() );
1019 cout << "start = " << r->get_start_time()
1020 << " end = " << r->get_end_time() << endl;
1028 do_decrease_visibility (const SGPropertyNode * arg)
1030 double new_value = fgGetDouble("/environment/visibility-m") * 0.9;
1031 fgSetDouble("/environment/visibility-m", new_value);
1032 fgDefaultWeatherValue("visibility-m", new_value);
1033 globals->get_subsystem("environment")->reinit();
1039 do_increase_visibility (const SGPropertyNode * arg)
1041 double new_value = fgGetDouble("/environment/visibility-m") * 1.1;
1042 fgSetDouble("/environment/visibility-m", new_value);
1043 fgDefaultWeatherValue("visibility-m", new_value);
1044 globals->get_subsystem("environment")->reinit();
1050 ////////////////////////////////////////////////////////////////////////
1052 ////////////////////////////////////////////////////////////////////////
1056 * Table of built-in commands.
1058 * New commands do not have to be added here; any module in the application
1059 * can add a new command using globals->get_commands()->addCommand(...).
1063 SGCommandMgr::command_t command;
1065 { "null", do_null },
1066 #if defined(HAVE_PLIB_PSL)
1067 { "script", do_script },
1068 #endif // HAVE_PLIB_PSL
1069 { "nasal", do_nasal },
1070 { "exit", do_exit },
1071 { "reinit", do_reinit },
1072 { "suspend", do_reinit },
1073 { "resume", do_reinit },
1074 { "load", do_load },
1075 { "save", do_save },
1076 { "panel-load", do_panel_load },
1077 { "panel-mouse-click", do_panel_mouse_click },
1078 { "preferences-load", do_preferences_load },
1079 { "view-cycle", do_view_cycle },
1080 { "screen-capture", do_screen_capture },
1081 { "tile-cache-reload", do_tile_cache_reload },
1082 { "set-outside-air-temp-degc", do_set_oat_degc },
1083 { "timeofday", do_timeofday },
1084 { "property-toggle", do_property_toggle },
1085 { "property-assign", do_property_assign },
1086 { "property-adjust", do_property_adjust },
1087 { "property-multiply", do_property_multiply },
1088 { "property-swap", do_property_swap },
1089 { "property-scale", do_property_scale },
1090 { "property-cycle", do_property_cycle },
1091 { "property-randomize", do_property_randomize },
1092 { "data-logging-commit", do_data_logging_commit },
1093 { "dialog-new", do_dialog_new },
1094 { "dialog-show", do_dialog_show },
1095 { "dialog-close", do_dialog_close },
1096 { "dialog-show", do_dialog_show },
1097 { "dialog-update", do_dialog_update },
1098 { "dialog-apply", do_dialog_apply },
1099 { "presets-commit", do_presets_commit },
1100 { "log-level", do_log_level },
1101 { "replay", do_replay },
1102 { "decrease-visibility", do_decrease_visibility },
1103 { "increase-visibility", do_increase_visibility },
1104 { 0, 0 } // zero-terminated
1109 * Initialize the default built-in commands.
1111 * Other commands may be added by other parts of the application.
1116 SG_LOG(SG_GENERAL, SG_INFO, "Initializing basic built-in commands:");
1117 for (int i = 0; built_ins[i].name != 0; i++) {
1118 SG_LOG(SG_GENERAL, SG_INFO, " " << built_ins[i].name);
1119 globals->get_commands()->addCommand(built_ins[i].name,
1120 built_ins[i].command);
1123 typedef bool (*dummy)();
1124 fgTie( "/command/view/next", dummy(0), do_view_next );
1125 fgTie( "/command/view/prev", dummy(0), do_view_prev );
1128 // end of fg_commands.cxx