// dialog.cxx: implementation of an XML-configurable dialog box. #ifdef HAVE_CONFIG_H # include "config.h" #endif #include #include #include #include #include #include
#include
#include
#include "FGPUIDialog.hxx" #include "new_gui.hxx" #include "AirportList.hxx" #include "property_list.hxx" #include "layout.hxx" #include "WaypointList.hxx" #include "CanvasWidget.hxx" #include "MapWidget.hxx" #include "FGFontCache.hxx" #include "FGColor.hxx" using std::string; enum format_type { f_INVALID, f_INT, f_LONG, f_FLOAT, f_DOUBLE, f_STRING }; static const int FORMAT_BUFSIZE = 255; static const int RESIZE_MARGIN = 7; /** * Makes sure the format matches '%[ -+#]?\d*(\.\d*)?(l?[df]|s)', with * only one number or string placeholder and otherwise arbitrary prefix * and postfix containing only quoted percent signs (%%). */ static format_type validate_format(const char *f) { bool l = false; format_type type; for (; *f; f++) { if (*f == '%') { if (f[1] == '%') f++; else break; } } if (*f++ != '%') return f_INVALID; while (*f == ' ' || *f == '+' || *f == '-' || *f == '#' || *f == '0') f++; while (*f && isdigit(*f)) f++; if (*f == '.') { f++; while (*f && isdigit(*f)) f++; } if (*f == 'l') l = true, f++; if (*f == 'd') { type = l ? f_LONG : f_INT; } else if (*f == 'f') type = l ? f_DOUBLE : f_FLOAT; else if (*f == 's') { if (l) return f_INVALID; type = f_STRING; } else return f_INVALID; for (++f; *f; f++) { if (*f == '%') { if (f[1] == '%') f++; else return f_INVALID; } } return type; } //////////////////////////////////////////////////////////////////////// // // Custom subclass of puPopup to implement "draggable" windows in the // interface. Note that this is a subclass of puPopup, not // puDialogBox. Sadly, PUI (mis)uses subclassing to implement a // boolean property: modality. That means that we can't implement // dragging of both puPopup windows and puDialogBoxes with the same // code. Rather than duplicate code, I've chosen to implement only // "non-modal dragability" here. Modal dialog boxes (like the exit // confirmation) are not draggable. // class fgPopup : public puPopup { public: fgPopup(int x, int y, bool r = true, bool d = true) : puPopup(x, y), _draggable(d), _resizable(r), _dragging(false) {} int checkHit(int b, int up, int x, int y); int checkKey(int key, int updown); int getHitObjects(puObject *, int x, int y); bool checkHitCanvas(puObject *, int x, int y); puObject *getKeyObject(puObject *, int key); puObject *getActiveInputField(puObject *); void applySize(puObject *); private: enum { LEFT = 1, RIGHT = 2, TOP = 4, BOTTOM = 8 }; bool _draggable; bool _resizable; bool _dragging; int _resizing; int _start_cursor; int _cursor; int _dlgX, _dlgY, _dlgW, _dlgH; int _startX, _startY; }; class fgValueList { public: fgValueList(SGPropertyNode *p); virtual ~fgValueList(); virtual void update(); protected: char **_list; private: void make_list(); void destroy_list(); SGPropertyNode_ptr _props; }; class fgList : public fgValueList, public puaList, public GUI_ID { public: fgList(int x1, int y1, int x2, int y2, SGPropertyNode *p, int sw) : fgValueList(p), puaList(x1, y1, x2, y2, _list, sw), GUI_ID(FGCLASS_LIST) {} void update(); }; class fgComboBox : public fgValueList, public puaComboBox { public: fgComboBox(int x1, int y1, int x2, int y2, SGPropertyNode *p, bool editable) : fgValueList(p), puaComboBox(x1, y1, x2, y2, _list, editable), _inHit(false) {} void update(); virtual void setSize(int w, int h); virtual int checkHit(int b, int up, int x, int y); virtual void recalc_bbox(); private: bool _inHit; }; class LogList : public puaList, public FGPUIDialog::ActiveWidget, public GUI_ID { public: LogList(int x1, int y1, int x2, int y2, int sw) : puaList(x1, y1, x2, y2, sw), GUI_ID(FGCLASS_LOGLIST) { m_buffer = NULL; m_stamp = 0; } void setBuffer(simgear::BufferedLogCallback* buf); virtual void update(); private: std::vector m_items; simgear::BufferedLogCallback* m_buffer; unsigned int m_stamp; }; class fgSelectBox : public fgValueList, public puaSelectBox { public: fgSelectBox(int x1, int y1, int x2, int y2, SGPropertyNode *p) : fgValueList(p), puaSelectBox(x1, y1, x2, y2, _list) {} }; //////////////////////////////////////////////////////////////////////// // Implementation of GUIInfo. //////////////////////////////////////////////////////////////////////// /** * User data for a GUI object. */ struct GUIInfo { GUIInfo(FGPUIDialog *d); virtual ~GUIInfo(); void apply_format(SGPropertyNode *); FGPUIDialog *dialog; SGPropertyNode_ptr node; std::vector bindings; int key; string label, legend, text, format; format_type fmt_type; }; GUIInfo::GUIInfo (FGPUIDialog *d) : dialog(d), key(-1), fmt_type(f_INVALID) { } GUIInfo::~GUIInfo () { for (unsigned int i = 0; i < bindings.size(); i++) { delete bindings[i]; bindings[i] = 0; } } void GUIInfo::apply_format(SGPropertyNode *n) { char buf[FORMAT_BUFSIZE + 1]; if (fmt_type == f_INT) snprintf(buf, FORMAT_BUFSIZE, format.c_str(), n->getIntValue()); else if (fmt_type == f_LONG) snprintf(buf, FORMAT_BUFSIZE, format.c_str(), n->getLongValue()); else if (fmt_type == f_FLOAT) snprintf(buf, FORMAT_BUFSIZE, format.c_str(), n->getFloatValue()); else if (fmt_type == f_DOUBLE) snprintf(buf, FORMAT_BUFSIZE, format.c_str(), n->getDoubleValue()); else snprintf(buf, FORMAT_BUFSIZE, format.c_str(), n->getStringValue()); buf[FORMAT_BUFSIZE] = '\0'; text = buf; } /** * Key handler. */ int fgPopup::checkKey(int key, int updown) { if (updown == PU_UP || !isVisible() || !isActive() || window != puGetWindow()) return false; puObject *input = getActiveInputField(this); if (input) return input->checkKey(key, updown); puObject *object = getKeyObject(this, key); if (!object) return puPopup::checkKey(key, updown); // invokeCallback() isn't enough; we need to simulate a mouse button press object->checkHit(PU_LEFT_BUTTON, PU_DOWN, (object->getABox()->min[0] + object->getABox()->max[0]) / 2, (object->getABox()->min[1] + object->getABox()->max[1]) / 2); object->checkHit(PU_LEFT_BUTTON, PU_UP, (object->getABox()->min[0] + object->getABox()->max[0]) / 2, (object->getABox()->min[1] + object->getABox()->max[1]) / 2); return true; } puObject *fgPopup::getKeyObject(puObject *object, int key) { puObject *ret; if (object->getType() & PUCLASS_GROUP) for (puObject *obj = ((puGroup *)object)->getFirstChild(); obj; obj = obj->getNextObject()) if ((ret = getKeyObject(obj, key))) return ret; GUIInfo *info = (GUIInfo *)object->getUserData(); if (info && info->key == key) return object; return 0; } puObject *fgPopup::getActiveInputField(puObject *object) { puObject *ret; if (object->getType() & PUCLASS_GROUP) for (puObject *obj = ((puGroup *)object)->getFirstChild(); obj; obj = obj->getNextObject()) if ((ret = getActiveInputField(obj))) return ret; if (object->getType() & (PUCLASS_INPUT|PUCLASS_LARGEINPUT) && ((puInput *)object)->isAcceptingInput()) return object; return 0; } /** * Mouse handler. */ int fgPopup::checkHit(int button, int updown, int x, int y) { int result = 0; if (updown != PU_DRAG && !_dragging) result = puPopup::checkHit(button, updown, x, y); if (!_draggable) return result; // This is annoying. We would really want a true result from the // superclass to indicate "handled by child object", but all it // tells us is that the pointer is inside the dialog. So do the // intersection test (again) to make sure we don't start a drag // when inside controls. if (updown == PU_DOWN && !_dragging) { if (!result) return 0; int global_drag = fgGetKeyModifiers() & KEYMOD_SHIFT; int global_resize = fgGetKeyModifiers() & KEYMOD_CTRL; int hit = getHitObjects(this, x, y); if (hit & PUCLASS_LIST) // ctrl-click in property browser (toggle bool) return result; if( !global_resize && ( (hit & (PUCLASS_BUTTON|PUCLASS_ONESHOT|PUCLASS_INPUT |PUCLASS_LARGEINPUT|PUCLASS_SCROLLBAR)) // The canvas should handle drag events on its own so exit // here if mouse is over a CanvasWidget || (!global_drag && checkHitCanvas(this, x, y)) ) ) { return result; } getPosition(&_dlgX, &_dlgY); getSize(&_dlgW, &_dlgH); _start_cursor = fgGetMouseCursor(); _dragging = true; _startX = x; _startY = y; // check and prepare for resizing static const int cursor[] = { MOUSE_CURSOR_POINTER, MOUSE_CURSOR_LEFTSIDE, MOUSE_CURSOR_RIGHTSIDE, 0, MOUSE_CURSOR_TOPSIDE, MOUSE_CURSOR_TOPLEFT, MOUSE_CURSOR_TOPRIGHT, 0, MOUSE_CURSOR_BOTTOMSIDE, MOUSE_CURSOR_BOTTOMLEFT, MOUSE_CURSOR_BOTTOMRIGHT, 0, }; _resizing = 0; if (!global_drag && _resizable) { int hmargin = global_resize ? _dlgW / 3 : RESIZE_MARGIN; int vmargin = global_resize ? _dlgH / 3 : RESIZE_MARGIN; if (y - _dlgY < vmargin) _resizing |= BOTTOM; else if (_dlgY + _dlgH - y < vmargin) _resizing |= TOP; if (x - _dlgX < hmargin) _resizing |= LEFT; else if (_dlgX + _dlgW - x < hmargin) _resizing |= RIGHT; if (!_resizing && global_resize) _resizing = BOTTOM|RIGHT; _cursor = cursor[_resizing]; if (_resizing && _resizable) fgSetMouseCursor(_cursor); } } else if (updown == PU_DRAG && _dragging) { if (_resizing) { GUIInfo *info = (GUIInfo *)getUserData(); if (_resizable && info && info->node) { int w = _dlgW; int h = _dlgH; if (_resizing & LEFT) w += _startX - x; if (_resizing & RIGHT) w += x - _startX; if (_resizing & TOP) h += y - _startY; if (_resizing & BOTTOM) h += _startY - y; int prefw, prefh; LayoutWidget wid(info->node); wid.calcPrefSize(&prefw, &prefh); if (w < prefw) w = prefw; if (h < prefh) h = prefh; int x = _dlgX; int y = _dlgY; if (_resizing & LEFT) x += _dlgW - w; if (_resizing & BOTTOM) y += _dlgH - h; wid.layout(x, y, w, h); setSize(w, h); setPosition(x, y); applySize(static_cast(this)); getFirstChild()->setSize(w, h); // dialog background puFrame } } else { int posX = x + _dlgX - _startX, posY = y + _dlgY - _startY; setPosition(posX, posY); GUIInfo *info = (GUIInfo *)getUserData(); if (info && info->node) { info->node->setIntValue("x", posX); info->node->setIntValue("y", posY); } } // re-positioning } else if (_dragging) { fgSetMouseCursor(_start_cursor); _dragging = false; } return result; } int fgPopup::getHitObjects(puObject *object, int x, int y) { if (!object->isVisible()) return 0; int type = 0; if (object->getType() & PUCLASS_GROUP) for (puObject *obj = ((puGroup *)object)->getFirstChild(); obj; obj = obj->getNextObject()) type |= getHitObjects(obj, x, y); int cx, cy, cw, ch; object->getAbsolutePosition(&cx, &cy); object->getSize(&cw, &ch); if (x >= cx && x < cx + cw && y >= cy && y < cy + ch) type |= object->getType(); return type; } bool fgPopup::checkHitCanvas(puObject* object, int x, int y) { if( !object->isVisible() ) return 0; if( object->getType() & PUCLASS_GROUP ) { for( puObject* obj = ((puGroup*)object)->getFirstChild(); obj; obj = obj->getNextObject() ) { if( checkHitCanvas(obj, x, y) ) return true; } } int cx, cy, cw, ch; object->getAbsolutePosition(&cx, &cy); object->getSize(&cw, &ch); if( x >= cx && x < cx + cw && y >= cy && y < cy + ch && dynamic_cast(object) ) return true; return false; } void fgPopup::applySize(puObject *object) { // compound plib widgets use setUserData() for internal purposes, so refuse // to descend into anything that has other bits set than the following const int validUserData = PUCLASS_VALUE|PUCLASS_OBJECT|PUCLASS_GROUP|PUCLASS_INTERFACE |PUCLASS_FRAME|PUCLASS_TEXT|PUCLASS_BUTTON|PUCLASS_ONESHOT|PUCLASS_INPUT |PUCLASS_ARROW|PUCLASS_DIAL|PUCLASS_POPUP; int type = object->getType(); if (type & PUCLASS_GROUP && !(type & ~validUserData)) for (puObject *obj = ((puGroup *)object)->getFirstChild(); obj; obj = obj->getNextObject()) applySize(obj); GUIInfo *info = (GUIInfo *)object->getUserData(); if (!info) return; SGPropertyNode *n = info->node; if (!n) { SG_LOG(SG_GENERAL, SG_ALERT, "fgPopup::applySize: no props"); return; } int x = n->getIntValue("x"); int y = n->getIntValue("y"); int w = n->getIntValue("width", 4); int h = n->getIntValue("height", 4); object->setPosition(x, y); object->setSize(w, h); } //////////////////////////////////////////////////////////////////////// void FGPUIDialog::ConditionalObject::update(FGPUIDialog* aDlg) { if (_name == "visible") { bool wasVis = _pu->isVisible() != 0; bool newVis = test(); if (newVis == wasVis) { return; } if (newVis) { // puObject needs a setVisible. Oh well. _pu->reveal(); } else { _pu->hide(); } } else if (_name == "enable") { bool wasEnabled = _pu->isActive() != 0; bool newEnable = test(); if (wasEnabled == newEnable) { return; } if (newEnable) { _pu->activate(); } else { _pu->greyOut(); } } aDlg->setNeedsLayout(); } //////////////////////////////////////////////////////////////////////// // Callbacks. //////////////////////////////////////////////////////////////////////// /** * Action callback. */ static void action_callback (puObject *object) { GUIInfo *info = (GUIInfo *)object->getUserData(); NewGUI *gui = (NewGUI *)globals->get_subsystem("gui"); gui->setActiveDialog(info->dialog); int nBindings = info->bindings.size(); for (int i = 0; i < nBindings; i++) { info->bindings[i]->fire(); if (gui->getActiveDialog() == 0) break; } gui->setActiveDialog(0); } //////////////////////////////////////////////////////////////////////// // Static helper functions. //////////////////////////////////////////////////////////////////////// /** * Copy a property value to a PUI object. */ static void copy_to_pui (SGPropertyNode *node, puObject *object) { using namespace simgear; GUIInfo *info = (GUIInfo *)object->getUserData(); if (!info) { SG_LOG(SG_GENERAL, SG_ALERT, "dialog: widget without GUIInfo!"); return; // this can't really happen } // Treat puText objects specially, so their "values" can be set // from properties. if (object->getType() & PUCLASS_TEXT) { if (info->fmt_type != f_INVALID) info->apply_format(node); else info->text = node->getStringValue(); object->setLabel(info->text.c_str()); return; } switch (node->getType()) { case props::BOOL: case props::INT: case props::LONG: object->setValue(node->getIntValue()); break; case props::FLOAT: case props::DOUBLE: object->setValue(node->getFloatValue()); break; default: info->text = node->getStringValue(); object->setValue(info->text.c_str()); break; } } static void copy_from_pui (puObject *object, SGPropertyNode *node) { using namespace simgear; // puText objects are immutable, so should not be copied out if (object->getType() & PUCLASS_TEXT) return; switch (node->getType()) { case props::BOOL: case props::INT: case props::LONG: node->setIntValue(object->getIntegerValue()); break; case props::FLOAT: node->setFloatValue(object->getFloatValue()); break; case props::DOUBLE: { // puObject only provides float, not double, which causes precision/rounding issues // with some numerical values (try "114.2"). // Work around: obtain string value, and manually convert with proper double precision. const char *s = object->getStringValue(); node->setDoubleValue(atof(s)); break; } default: const char *s = object->getStringValue(); if (s) node->setStringValue(s); break; } } //////////////////////////////////////////////////////////////////////// // Implementation of FGDialog. //////////////////////////////////////////////////////////////////////// FGPUIDialog::FGPUIDialog (SGPropertyNode *props) : FGDialog(props), _object(0), _gui((NewGUI *)globals->get_subsystem("gui")), _props(props), _needsRelayout(false) { _module = string("__dlg:") + props->getStringValue("name", "[unnamed]"); SGPropertyNode *nasal = props->getNode("nasal"); if (nasal) { _nasal_close = nasal->getNode("close"); SGPropertyNode *open = nasal->getNode("open"); if (open) { const char *s = open->getStringValue(); FGNasalSys *nas = (FGNasalSys *)globals->get_subsystem("nasal"); if (nas) nas->createModule(_module.c_str(), _module.c_str(), s, strlen(s), props); } } display(props); } FGPUIDialog::~FGPUIDialog () { int x, y; _object->getAbsolutePosition(&x, &y); _props->setIntValue("lastx", x); _props->setIntValue("lasty", y); FGNasalSys *nas = (FGNasalSys *)globals->get_subsystem("nasal"); if (nas) { if (_nasal_close) { const char *s = _nasal_close->getStringValue(); nas->createModule(_module.c_str(), _module.c_str(), s, strlen(s), _props); } nas->deleteModule(_module.c_str()); } puDeleteObject(_object); unsigned int i; // Delete all the info objects we // were forced to keep around because // PUI cannot delete its own user data. for (i = 0; i < _info.size(); i++) { delete (GUIInfo *)_info[i]; _info[i] = 0; } // Finally, delete the property links. for (i = 0; i < _propertyObjects.size(); i++) { delete _propertyObjects[i]; _propertyObjects[i] = 0; } } void FGPUIDialog::updateValues(const std::string& objectName) { for (unsigned int i = 0; i < _propertyObjects.size(); i++) { const string &name = _propertyObjects[i]->name; if( !objectName.empty() && name != objectName ) continue; puObject *widget = _propertyObjects[i]->object; int widgetType = widget->getType(); if (widgetType & PUCLASS_LIST) { GUI_ID* gui_id = dynamic_cast(widget); if (gui_id && (gui_id->id & FGCLASS_LIST)) { fgList *pl = static_cast(widget); pl->update(); } else { copy_to_pui(_propertyObjects[i]->node, widget); } } else if (widgetType & PUCLASS_COMBOBOX) { fgComboBox* combo = static_cast(widget); combo->update(); } else { copy_to_pui(_propertyObjects[i]->node, widget); } } // of property objects iteration } void FGPUIDialog::applyValues(const std::string& objectName) { for (unsigned int i = 0; i < _propertyObjects.size(); i++) { const string &name = _propertyObjects[i]->name; if( !objectName.empty() && name != objectName ) continue; copy_from_pui(_propertyObjects[i]->object, _propertyObjects[i]->node); } } void FGPUIDialog::update () { for (unsigned int i = 0; i < _liveObjects.size(); i++) { puObject *obj = _liveObjects[i]->object; if (obj->getType() & PUCLASS_INPUT && ((puInput *)obj)->isAcceptingInput()) continue; copy_to_pui(_liveObjects[i]->node, obj); } for (unsigned int j=0; j < _conditionalObjects.size(); ++j) { _conditionalObjects[j]->update(this); } for (unsigned int i = 0; i < _activeWidgets.size(); i++) { _activeWidgets[i]->update(); } if (_needsRelayout) { relayout(); } } void FGPUIDialog::display (SGPropertyNode *props) { if (_object != 0) { SG_LOG(SG_GENERAL, SG_ALERT, "This widget is already active"); return; } // map from physical to logical units for PUI const double ratio = fgGetDouble("/sim/rendering/gui-pixel-ratio", 1.0); const int physicalWidth = fgGetInt("/sim/startup/xsize"), physicalHeight = fgGetInt("/sim/startup/ysize"); const int screenw = static_cast(physicalWidth / ratio), screenh = static_cast(physicalHeight / ratio); bool userx = props->hasValue("x"); bool usery = props->hasValue("y"); bool userw = props->hasValue("width"); bool userh = props->hasValue("height"); // Let the layout widget work in the same property subtree. LayoutWidget wid(props); SGPropertyNode *fontnode = props->getNode("font"); if (fontnode) { SGPropertyNode *property_node = fontnode->getChild("property"); if (property_node) fontnode = globals->get_props()->getNode(property_node->getStringValue()); _font = FGFontCache::instance()->get(fontnode); } else { _font = _gui->getDefaultFont(); } wid.setDefaultFont(_font, int(_font->getPointSize())); int pw = 0, ph = 0; int px, py, savex, savey; if (!userw || !userh) wid.calcPrefSize(&pw, &ph); pw = props->getIntValue("width", pw); ph = props->getIntValue("height", ph); px = savex = props->getIntValue("x", (screenw - pw) / 2); py = savey = props->getIntValue("y", (screenh - ph) / 2); // Negative x/y coordinates are interpreted as distance from the top/right // corner rather than bottom/left. if (userx && px < 0) px = screenw - pw + px; if (usery && py < 0) py = screenh - ph + py; // Define "x", "y", "width" and/or "height" in the property tree if they // are not specified in the configuration file. wid.layout(px, py, pw, ph); // Use the dimension and location properties as specified in the // configuration file or from the layout widget. _object = makeObject(props, screenw, screenh); // Remove automatically generated properties, so the layout looks // the same next time around, or restore x and y to preserve negative coords. if (userx) props->setIntValue("x", savex); else props->removeChild("x"); if (usery) props->setIntValue("y", savey); else props->removeChild("y"); if (!userw) props->removeChild("width"); if (!userh) props->removeChild("height"); if (_object != 0) { _object->reveal(); } else { SG_LOG(SG_GENERAL, SG_ALERT, "Widget " << props->getStringValue("name", "[unnamed]") << " does not contain a proper GUI definition"); } } puObject * FGPUIDialog::makeObject (SGPropertyNode *props, int parentWidth, int parentHeight) { if (!props->getBoolValue("enabled", true)) return 0; bool presetSize = props->hasValue("width") && props->hasValue("height"); int width = props->getIntValue("width", parentWidth); int height = props->getIntValue("height", parentHeight); int x = props->getIntValue("x", (parentWidth - width) / 2); int y = props->getIntValue("y", (parentHeight - height) / 2); string type = props->getName(); if (type.empty()) type = "dialog"; if (type == "dialog") { puPopup *obj; bool draggable = props->getBoolValue("draggable", true); bool resizable = props->getBoolValue("resizable", false); if (props->getBoolValue("modal", false)) obj = new puDialogBox(x, y); else obj = new fgPopup(x, y, resizable, draggable); setupGroup(obj, props, width, height, true); setColor(obj, props); return obj; } else if (type == "group") { puGroup *obj = new puGroup(x, y); setupGroup(obj, props, width, height, false); setColor(obj, props); return obj; } else if (type == "frame") { puGroup *obj = new puGroup(x, y); setupGroup(obj, props, width, height, true); setColor(obj, props); return obj; } else if (type == "hrule" || type == "vrule") { puFrame *obj = new puFrame(x, y, x + width, y + height); obj->setBorderThickness(0); setupObject(obj, props); setColor(obj, props, BACKGROUND|FOREGROUND|HIGHLIGHT); return obj; } else if (type == "list") { int slider_width = props->getIntValue("slider", 20); fgList *obj = new fgList(x, y, x + width, y + height, props, slider_width); if (presetSize) obj->setSize(width, height); setupObject(obj, props); setColor(obj, props); return obj; } else if (type == "airport-list") { AirportList *obj = new AirportList(x, y, x + width, y + height); if (presetSize) obj->setSize(width, height); setupObject(obj, props); setColor(obj, props); return obj; } else if (type == "property-list") { PropertyList *obj = new PropertyList(x, y, x + width, y + height, globals->get_props()); if (presetSize) obj->setSize(width, height); setupObject(obj, props); setColor(obj, props); return obj; } else if (type == "input") { puInput *obj = new puInput(x, y, x + width, y + height); setupObject(obj, props); setColor(obj, props, FOREGROUND|LABEL); return obj; } else if (type == "text") { puText *obj = new puText(x, y); setupObject(obj, props); // Layed-out objects need their size set, and non-layout ones // get a different placement. if (presetSize) obj->setSize(width, height); else obj->setLabelPlace(PUPLACE_LABEL_DEFAULT); setColor(obj, props, LABEL); return obj; } else if (type == "checkbox") { puButton *obj; obj = new puButton(x, y, x + width, y + height, PUBUTTON_XCHECK); setupObject(obj, props); setColor(obj, props, FOREGROUND|LABEL); return obj; } else if (type == "radio") { puButton *obj; obj = new puButton(x, y, x + width, y + height, PUBUTTON_CIRCLE); setupObject(obj, props); setColor(obj, props, FOREGROUND|LABEL); return obj; } else if (type == "button") { puButton *obj; const char *legend = props->getStringValue("legend", "[none]"); if (props->getBoolValue("one-shot", true)) obj = new puOneShot(x, y, legend); else obj = new puButton(x, y, legend); if (presetSize) obj->setSize(width, height); setupObject(obj, props); setColor(obj, props); return obj; } else if (type == "map") { MapWidget* mapWidget = new MapWidget(x, y, x + width, y + height); setupObject(mapWidget, props); _activeWidgets.push_back(mapWidget); return mapWidget; } else if (type == "canvas") { CanvasWidget* canvasWidget = new CanvasWidget( x, y, x + width, y + height, props, _module ); setupObject(canvasWidget, props); return canvasWidget; } else if (type == "combo") { fgComboBox *obj = new fgComboBox(x, y, x + width, y + height, props, props->getBoolValue("editable", false)); setupObject(obj, props); setColor(obj, props, EDITFIELD); return obj; } else if (type == "slider") { bool vertical = props->getBoolValue("vertical", false); puSlider *obj = new puSlider(x, y, (vertical ? height : width), vertical); obj->setMinValue(props->getFloatValue("min", 0.0)); obj->setMaxValue(props->getFloatValue("max", 1.0)); obj->setStepSize(props->getFloatValue("step")); obj->setSliderFraction(props->getFloatValue("fraction")); #if PLIB_VERSION > 185 obj->setPageStepSize(props->getFloatValue("pagestep")); #endif setupObject(obj, props); if (presetSize) obj->setSize(width, height); setColor(obj, props, FOREGROUND|LABEL); return obj; } else if (type == "dial") { puDial *obj = new puDial(x, y, width); obj->setMinValue(props->getFloatValue("min", 0.0)); obj->setMaxValue(props->getFloatValue("max", 1.0)); obj->setWrap(props->getBoolValue("wrap", true)); setupObject(obj, props); setColor(obj, props, FOREGROUND|LABEL); return obj; } else if (type == "textbox") { int slider_width = props->getIntValue("slider", 20); int wrap = props->getBoolValue("wrap", true); #if PLIB_VERSION > 185 puaLargeInput *obj = new puaLargeInput(x, y, x + width, x + height, 11, slider_width, wrap); #else puaLargeInput *obj = new puaLargeInput(x, y, x + width, x + height, 2, slider_width, wrap); #endif if (props->getBoolValue("editable")) obj->enableInput(); else obj->disableInput(); if (presetSize) obj->setSize(width, height); setupObject(obj, props); setColor(obj, props, FOREGROUND|LABEL); int top = props->getIntValue("top-line", 0); obj->setTopLineInWindow(top < 0 ? unsigned(-1) >> 1 : top); return obj; } else if (type == "select") { fgSelectBox *obj = new fgSelectBox(x, y, x + width, y + height, props); setupObject(obj, props); setColor(obj, props, EDITFIELD); return obj; } else if (type == "waypointlist") { ScrolledWaypointList* obj = new ScrolledWaypointList(x, y, width, height); setupObject(obj, props); return obj; } else if (type == "loglist") { LogList* obj = new LogList(x, y, width, height, 20); string logClass = props->getStringValue("logclass"); if (logClass == "terrasync") { simgear::SGTerraSync* tsync = (simgear::SGTerraSync*) globals->get_subsystem("terrasync"); if (tsync) { obj->setBuffer(tsync->log()); } } else { FGNasalSys* nasal = (FGNasalSys*) globals->get_subsystem("nasal"); obj->setBuffer(nasal->log()); } setupObject(obj, props); _activeWidgets.push_back(obj); setColor(obj, props, FOREGROUND | LABEL); return obj; } else { return 0; } } void FGPUIDialog::setupObject (puObject *object, SGPropertyNode *props) { GUIInfo *info = new GUIInfo(this); object->setUserData(info); _info.push_back(info); object->setLabelPlace(PUPLACE_CENTERED_RIGHT); object->makeReturnDefault(props->getBoolValue("default")); info->node = props; if (props->hasValue("legend")) { info->legend = props->getStringValue("legend"); object->setLegend(info->legend.c_str()); } if (props->hasValue("label")) { info->label = props->getStringValue("label"); object->setLabel(info->label.c_str()); } if (props->hasValue("border")) object->setBorderThickness( props->getIntValue("border", 2) ); if (SGPropertyNode *nft = props->getNode("font", false)) { if (nft) { SGPropertyNode *property_node = nft->getChild("property"); if (property_node) nft = globals->get_props()->getNode(property_node->getStringValue()); _font = FGFontCache::instance()->get(nft); } else { _font = _gui->getDefaultFont(); } puFont *lfnt = FGFontCache::instance()->get(nft); object->setLabelFont(*lfnt); object->setLegendFont(*lfnt); } else { object->setLabelFont(*_font); } if (props->hasChild("visible")) { ConditionalObject* cnd = new ConditionalObject("visible", object); cnd->setCondition(sgReadCondition(globals->get_props(), props->getChild("visible"))); _conditionalObjects.push_back(cnd); } if (props->hasChild("enable")) { ConditionalObject* cnd = new ConditionalObject("enable", object); cnd->setCondition(sgReadCondition(globals->get_props(), props->getChild("enable"))); _conditionalObjects.push_back(cnd); } string type = props->getName(); if (type == "input" && props->getBoolValue("live")) object->setDownCallback(action_callback); if (type == "text") { const char *format = props->getStringValue("format", 0); if (format) { info->fmt_type = validate_format(format); if (info->fmt_type != f_INVALID) info->format = format; else SG_LOG(SG_GENERAL, SG_ALERT, "DIALOG: invalid '" << format << '\''); } } if (props->hasValue("property")) { const char *name = props->getStringValue("name"); if (name == 0) name = ""; const char *propname = props->getStringValue("property"); SGPropertyNode_ptr node = fgGetNode(propname, true); if (type == "map") { // mapWidget binds to a sub-tree of properties, and // ignores the puValue mechanism, so special case things here MapWidget* mw = static_cast(object); mw->setProperty(node); } else { // normal widget, creating PropertyObject copy_to_pui(node, object); PropertyObject *po = new PropertyObject(name, object, node); _propertyObjects.push_back(po); if (props->getBoolValue("live")) _liveObjects.push_back(po); } } SGPropertyNode *dest = fgGetNode("/sim/bindings/gui", true); std::vector bindings = props->getChildren("binding"); if (bindings.size() > 0) { info->key = props->getIntValue("keynum", -1); if (props->hasValue("key")) info->key = getKeyCode(props->getStringValue("key", "")); for (unsigned int i = 0; i < bindings.size(); i++) { unsigned int j = 0; SGPropertyNode_ptr binding; while (dest->getChild("binding", j)) j++; const char *cmd = bindings[i]->getStringValue("command"); if (!strcmp(cmd, "nasal")) bindings[i]->setStringValue("module", _module.c_str()); binding = dest->getChild("binding", j, true); copyProperties(bindings[i], binding); info->bindings.push_back(new SGBinding(binding, globals->get_props())); } object->setCallback(action_callback); } } void FGPUIDialog::setupGroup(puGroup *group, SGPropertyNode *props, int width, int height, bool makeFrame) { setupObject(group, props); if (makeFrame) { puFrame* f = new puFrame(0, 0, width, height); setColor(f, props); } int nChildren = props->nChildren(); for (int i = 0; i < nChildren; i++) makeObject(props->getChild(i), width, height); group->close(); } void FGPUIDialog::setColor(puObject *object, SGPropertyNode *props, int which) { string type = props->getName(); if (type.empty()) type = "dialog"; if (type == "textbox" && props->getBoolValue("editable")) type += "-editable"; FGColor c(_gui->getColor("background")); c.merge(_gui->getColor(type)); c.merge(props->getNode("color")); if (c.isValid()) object->setColourScheme(c.red(), c.green(), c.blue(), c.alpha()); const struct { int mask; int id; const char *name; const char *cname; } pucol[] = { { BACKGROUND, PUCOL_BACKGROUND, "background", "color-background" }, { FOREGROUND, PUCOL_FOREGROUND, "foreground", "color-foreground" }, { HIGHLIGHT, PUCOL_HIGHLIGHT, "highlight", "color-highlight" }, { LABEL, PUCOL_LABEL, "label", "color-label" }, { LEGEND, PUCOL_LEGEND, "legend", "color-legend" }, { MISC, PUCOL_MISC, "misc", "color-misc" }, { EDITFIELD, PUCOL_EDITFIELD, "editfield", "color-editfield" }, }; const int numcol = sizeof(pucol) / sizeof(pucol[0]); for (int i = 0; i < numcol; i++) { bool dirty = false; c.clear(); c.setAlpha(1.0); dirty |= c.merge(_gui->getColor(type + '-' + pucol[i].name)); if (which & pucol[i].mask) dirty |= c.merge(props->getNode("color")); if ((pucol[i].mask == LABEL) && !c.isValid()) dirty |= c.merge(_gui->getColor("label")); dirty |= c.merge(props->getNode(pucol[i].cname)); if (c.isValid() && dirty) object->setColor(pucol[i].id, c.red(), c.green(), c.blue(), c.alpha()); } } static struct { const char *name; int key; } keymap[] = { {"backspace", 8}, {"tab", 9}, {"return", 13}, {"enter", 13}, {"esc", 27}, {"escape", 27}, {"space", ' '}, {"&", '&'}, {"and", '&'}, {"<", '<'}, {">", '>'}, {"f1", PU_KEY_F1}, {"f2", PU_KEY_F2}, {"f3", PU_KEY_F3}, {"f4", PU_KEY_F4}, {"f5", PU_KEY_F5}, {"f6", PU_KEY_F6}, {"f7", PU_KEY_F7}, {"f8", PU_KEY_F8}, {"f9", PU_KEY_F9}, {"f10", PU_KEY_F10}, {"f11", PU_KEY_F11}, {"f12", PU_KEY_F12}, {"left", PU_KEY_LEFT}, {"up", PU_KEY_UP}, {"right", PU_KEY_RIGHT}, {"down", PU_KEY_DOWN}, {"pageup", PU_KEY_PAGE_UP}, {"pagedn", PU_KEY_PAGE_DOWN}, {"home", PU_KEY_HOME}, {"end", PU_KEY_END}, {"insert", PU_KEY_INSERT}, {0, -1}, }; int FGPUIDialog::getKeyCode(const char *str) { enum { CTRL = 0x1, SHIFT = 0x2, ALT = 0x4, }; while (*str == ' ') str++; char *buf = new char[strlen(str) + 1]; strcpy(buf, str); char *s = buf + strlen(buf); while (s > str && s[-1] == ' ') s--; *s = 0; s = buf; int mod = 0; while (1) { if (!strncmp(s, "Ctrl-", 5) || !strncmp(s, "CTRL-", 5)) s += 5, mod |= CTRL; else if (!strncmp(s, "Shift-", 6) || !strncmp(s, "SHIFT-", 6)) s += 6, mod |= SHIFT; else if (!strncmp(s, "Alt-", 4) || !strncmp(s, "ALT-", 4)) s += 4, mod |= ALT; else break; } int key = -1; if (strlen(s) == 1 && isascii(*s)) { key = *s; if (mod & SHIFT) key = toupper(key); if (mod & CTRL) key = toupper(key) - '@'; /* if (mod & ALT) ; // Alt not propagated to the gui */ } else { for (char *t = s; *t; t++) *t = tolower(*t); for (int i = 0; keymap[i].name; i++) { if (!strcmp(s, keymap[i].name)) { key = keymap[i].key; break; } } } delete[] buf; return key; } void FGPUIDialog::relayout() { _needsRelayout = false; int screenw = globals->get_props()->getIntValue("/sim/startup/xsize"); int screenh = globals->get_props()->getIntValue("/sim/startup/ysize"); bool userx = _props->hasValue("x"); bool usery = _props->hasValue("y"); bool userw = _props->hasValue("width"); bool userh = _props->hasValue("height"); // Let the layout widget work in the same property subtree. LayoutWidget wid(_props); wid.setDefaultFont(_font, int(_font->getPointSize())); int pw = 0, ph = 0; int px, py, savex, savey; if (!userw || !userh) { wid.calcPrefSize(&pw, &ph); } pw = _props->getIntValue("width", pw); ph = _props->getIntValue("height", ph); px = savex = _props->getIntValue("x", (screenw - pw) / 2); py = savey = _props->getIntValue("y", (screenh - ph) / 2); // Negative x/y coordinates are interpreted as distance from the top/right // corner rather than bottom/left. if (userx && px < 0) px = screenw - pw + px; if (usery && py < 0) py = screenh - ph + py; // Define "x", "y", "width" and/or "height" in the property tree if they // are not specified in the configuration file. wid.layout(px, py, pw, ph); applySize(_object); // Remove automatically generated properties, so the layout looks // the same next time around, or restore x and y to preserve negative coords. if (userx) _props->setIntValue("x", savex); else _props->removeChild("x"); if (usery) _props->setIntValue("y", savey); else _props->removeChild("y"); if (!userw) _props->removeChild("width"); if (!userh) _props->removeChild("height"); } void FGPUIDialog::applySize(puObject *object) { // compound plib widgets use setUserData() for internal purposes, so refuse // to descend into anything that has other bits set than the following const int validUserData = PUCLASS_VALUE|PUCLASS_OBJECT|PUCLASS_GROUP|PUCLASS_INTERFACE |PUCLASS_FRAME|PUCLASS_TEXT|PUCLASS_BUTTON|PUCLASS_ONESHOT|PUCLASS_INPUT |PUCLASS_ARROW|PUCLASS_DIAL|PUCLASS_POPUP; int type = object->getType(); if ((type & PUCLASS_GROUP) && !(type & ~validUserData)) { puObject* c = ((puGroup *)object)->getFirstChild(); for (; c != NULL; c = c->getNextObject()) { applySize(c); } // of child iteration } // of group object case GUIInfo *info = (GUIInfo *)object->getUserData(); if (!info) return; SGPropertyNode *n = info->node; if (!n) { SG_LOG(SG_GENERAL, SG_ALERT, "FGDialog::applySize: no props"); return; } int x = n->getIntValue("x"); int y = n->getIntValue("y"); int w = n->getIntValue("width", 4); int h = n->getIntValue("height", 4); object->setPosition(x, y); object->setSize(w, h); } //////////////////////////////////////////////////////////////////////// // Implementation of FGDialog::PropertyObject. //////////////////////////////////////////////////////////////////////// FGPUIDialog::PropertyObject::PropertyObject(const char *n, puObject *o, SGPropertyNode_ptr p) : name(n), object(o), node(p) { } //////////////////////////////////////////////////////////////////////// // Implementation of fgValueList and derived pui widgets //////////////////////////////////////////////////////////////////////// fgValueList::fgValueList(SGPropertyNode *p) : _props(p) { make_list(); } void fgValueList::update() { destroy_list(); make_list(); } fgValueList::~fgValueList() { destroy_list(); } void fgValueList::make_list() { SGPropertyNode_ptr values = _props; const char* vname = "value"; if (_props->hasChild("properties")) { // dynamic values, read from a property's children const char* path = _props->getStringValue("properties"); values = fgGetNode(path, true); } if (_props->hasChild("property-name")) { vname = _props->getStringValue("property-name"); } std::vector value_nodes = values->getChildren(vname); _list = new char *[value_nodes.size() + 1]; unsigned int i; for (i = 0; i < value_nodes.size(); i++) { _list[i] = strdup((char *)value_nodes[i]->getStringValue()); } _list[i] = 0; } void fgValueList::destroy_list() { for (int i = 0; _list[i] != 0; i++) if (_list[i]) free(_list[i]); delete[] _list; } void fgList::update() { fgValueList::update(); int top = getTopItem(); newList(_list); setTopItem(top); } //////////////////////////////////////////////////////////////////////// // Implementation of fgLogList //////////////////////////////////////////////////////////////////////// void LogList::update() { if (!m_buffer) return; if (m_stamp != m_buffer->stamp()) { m_stamp = m_buffer->threadsafeCopy(m_items); m_items.push_back(NULL); // terminator value newList((char**) m_items.data()); setTopItem(m_items.size() - 1); // scroll to bottom of list } } void LogList::setBuffer(simgear::BufferedLogCallback* buf) { m_buffer = buf; m_stamp = m_buffer->stamp() - 1; // force an update update(); } //////////////////////////////////////////////////////////////////////// // Implementation of fgComboBox //////////////////////////////////////////////////////////////////////// void fgComboBox::update() { if (_inHit) { return; } std::string curValue(getStringValue()); fgValueList::update(); newList(_list); int currentItem = puaComboBox::getCurrentItem(); // look for the previous value, in the new list for (int i = 0; _list[i] != 0; i++) { if (_list[i] == curValue) { // don't set the current item again; this is important to avoid // recursion here if the combo callback ultimately causes another dialog-update if (i != currentItem) { puaComboBox::setCurrentItem(i); } return; } } // of list values iteration // cound't find current item, default to first if (currentItem != 0) { puaComboBox::setCurrentItem(0); } } int fgComboBox::checkHit(int b, int up, int x, int y) { _inHit = true; int r = puaComboBox::checkHit(b, up, x, y); _inHit = false; return r; } void fgComboBox::setSize(int w, int h) { puaComboBox::setSize(w, h); recalc_bbox(); } void fgComboBox::recalc_bbox() { // bug-fix for issue #192 // http://code.google.com/p/flightgear-bugs/issues/detail?id=192 // puaComboBox is including the height of its popupMenu in the height // computation, which breaks layout computations. // this implementation skips popup-menus puBox contents; contents.empty(); for (puObject *bo = dlist; bo != NULL; bo = bo -> getNextObject()) { if (bo->getType() & PUCLASS_POPUPMENU) { continue; } contents.extend (bo -> getBBox()) ; } abox.max[0] = abox.min[0] + contents.max[0] ; abox.max[1] = abox.min[1] + contents.max[1] ; puObject::recalc_bbox () ; } // end of FGPUIDialog.cxx