// Copyright 2007 Google Inc. All Rights Reserved. // // Author: Joern Wanke // // Simple drawing program to illustrate ScrollView capabilities. // // Functionality: // - The menubar is used to select from different sample styles of input. // - With the RMB it is possible to change the RGB values in different // popup menus. // - A LMB click either draws point-to-point, point or text. // - A LMB dragging either draws a line, a rectangle or ellipse. // Include automatically generated configuration file if running autoconf. #ifdef HAVE_CONFIG_H #include "config_auto.h" #endif #ifndef GRAPHICS_DISABLED #include "scrollview.h" #include "svmnode.h" #include #include // The current color values we use, initially white (== ScrollView::WHITE). int rgb[3] = { 255, 255, 255 }; class SVPaint : public SVEventHandler { public: explicit SVPaint(const char* server_name); // This is the main event handling function that we need to overwrite, defined // in SVEventHandler. void Notify(const SVEvent* sv_event); private: // The Handler take care of the SVET_POPUP, SVET_MENU, SVET_CLICK and // SVET_SELECTION events. void PopupHandler(const SVEvent* sv_event); void MenuBarHandler(const SVEvent* sv_event); void ClickHandler(const SVEvent* sv_event); void SelectionHandler(const SVEvent* sv_event); // Convenience functions to build little menus. SVMenuNode* BuildPopupMenu(); SVMenuNode* BuildMenuBar(); // Our window. ScrollView* window_; // The mode we are in when an SVET_CLICK or an SVET_SELECTION event occurs. int click_mode_; int drag_mode_; // In the point-to-point drawing mode, we need to set a start-point the first // time we call it (e.g. call SetCursor). bool has_start_point_; }; // Build a sample popup menu. SVMenuNode* SVPaint::BuildPopupMenu() { SVMenuNode* root = new SVMenuNode(); // Empty root node // Initial color is white, so we all values to 255. root->AddChild("R", // Shown caption. 1, // assoc. command_id. "255", // initial value. "Red Color Value?"); // Shown description. root->AddChild("G", 2, "255", "Green Color Value?"); root->AddChild("B", 3, "255", "Blue Color Value?"); return root; } // Build a sample menu bar. SVMenuNode* SVPaint::BuildMenuBar() { SVMenuNode* root = new SVMenuNode(); // Empty root node // Create some submenus and add them to the root. SVMenuNode* click = root->AddChild("Clicking"); SVMenuNode* drag = root->AddChild("Dragging"); // Put some nodes into the submenus. click->AddChild("Point to Point Drawing", // Caption. 1); // command_id. click->AddChild("Point Drawing", 2); click->AddChild("Text Drawing", 3); drag->AddChild("Line Drawing", 4); drag->AddChild("Rectangle Drawing", 5); drag->AddChild("Ellipse Drawing", 6); return root; } // Takes care of the SVET_POPUP events. // In our case, SVET_POPUP is used to set RGB values. void SVPaint::PopupHandler(const SVEvent* sv_event) { // Since we only have the RGB values as popup items, // we take a shortcut to not bloat up code: rgb[sv_event->command_id - 1] = atoi(sv_event->parameter); window_->Pen(rgb[0], rgb[1], rgb[2]); } // Takes care of the SVET_MENU events. // In our case, we change either the click_mode_ (commands 1-3) // or the drag_mode_ (commands 4-6). void SVPaint::MenuBarHandler(const SVEvent* sv_event) { if ((sv_event->command_id > 0) && (sv_event->command_id < 4)) { click_mode_ = sv_event->command_id; has_start_point_ = false; } else { drag_mode_ = sv_event->command_id; } } // Takes care of the SVET_CLICK events. // Depending on the click_mode_ we are in, either do Point-to-Point drawing, // point drawing, or draw text. void SVPaint::ClickHandler(const SVEvent* sv_event) { switch (click_mode_) { case 1: //Point to Point if (has_start_point_) { window_->DrawTo(sv_event->x, sv_event->y); } else { has_start_point_ = true; window_->SetCursor(sv_event->x, sv_event->y); } break; case 2: //Point Drawing..simulated by drawing a 1 pixel line. window_->Line(sv_event->x, sv_event->y, sv_event->x, sv_event->y); break; case 3: //Text // We show a modal input dialog on our window, then draw the input and // finally delete the input pointer. char* p = window_->ShowInputDialog("Text:"); window_->Text(sv_event->x, sv_event->y, p); delete [] p; break; } } // Takes care of the SVET_SELECTION events. // Depending on the drag_mode_ we are in, either draw a line, a rectangle or // an ellipse. void SVPaint::SelectionHandler(const SVEvent* sv_event) { switch (drag_mode_) { //FIXME inversed x_size, y_size case 4: //Line window_->Line(sv_event->x, sv_event->y, sv_event->x - sv_event->x_size, sv_event->y - sv_event->y_size); break; case 5: //Rectangle window_->Rectangle(sv_event->x, sv_event->y, sv_event->x - sv_event->x_size, sv_event->y - sv_event->y_size); break; case 6: //Ellipse window_->Ellipse(sv_event->x - sv_event->x_size, sv_event->y - sv_event->y_size, sv_event->x_size, sv_event->y_size); break; } } // The event handling function from ScrollView which we have to overwrite. // We handle CLICK, SELECTION, MENU and POPUP and throw away all other events. void SVPaint::Notify(const SVEvent* sv_event) { if (sv_event->type == SVET_CLICK) { ClickHandler(sv_event); } else if (sv_event->type == SVET_SELECTION) { SelectionHandler(sv_event); } else if (sv_event->type == SVET_MENU) { MenuBarHandler(sv_event); } else if (sv_event->type == SVET_POPUP) { PopupHandler(sv_event); } else {} //throw other events away } // Builds a new window, initializes the variables and event handler and builds // the menu. SVPaint::SVPaint(const char *server_name) { window_ = new ScrollView("ScrollView Paint Example", // window caption 0, 0, // x,y window position 500, 500, // window size 500, 500, // canvas size false, // whether the Y axis is inversed. // this is included due to legacy // reasons for tesseract and enables // us to have (0,0) as the LOWER left // of the coordinate system. server_name); // the server address. // Set the start modes to point-to-point and line drawing. click_mode_ = 1; drag_mode_ = 4; has_start_point_ = false; // Bild our menus and add them to the window. The flag illustrates whether // this is a menu bar. SVMenuNode* popup_menu = BuildPopupMenu(); popup_menu->BuildMenu(window_,false); SVMenuNode* bar_menu = BuildMenuBar(); bar_menu->BuildMenu(window_,true); // Set the initial color values to White (could also be done by // passing (rgb[0], rgb[1], rgb[2]). window_->Pen(ScrollView::WHITE); window_->Brush(ScrollView::WHITE); // Adds the event handler to the window. This actually ensures that Notify // gets called when events occur. window_->AddEventHandler(this); // Set the window visible (calling this is important to actually render // everything. Without this call, the window would also be drawn, but the // menu bars would be missing. window_->SetVisible(true); // Rest this thread until its window is destroyed. // Note that a special eventhandling thread was created when constructing // the window. Due to this, the application will not deadlock here. window_->AwaitEvent(SVET_DESTROY); // We now have 3 Threads running: // (1) The MessageReceiver thread which fetches messages and distributes them // (2) The EventHandler thread which handles all events for window_ // (3) The main thread which waits on window_ for a DESTROY event (blocked) } // If a parameter is given, we try to connect to the given server. // This enables us to test the remote capabilites of ScrollView. int main(int argc, char** argv) { const char* server_name; if (argc > 1) { server_name = argv[1]; } else { server_name = "localhost"; } SVPaint svp(server_name); } #endif // GRAPHICS_DISABLED