""" Copyright 2007-2011 Free Software Foundation, Inc. This file is part of GNU Radio GNU Radio Companion is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. GNU Radio Companion is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA """ import os import signal from Constants import IMAGE_FILE_EXTENSION import Actions import pygtk pygtk.require('2.0') import gtk import gobject import Preferences from threading import Thread import Messages from .. base import ParseXML from MainWindow import MainWindow from PropsDialog import PropsDialog import Dialogs from FileDialogs import OpenFlowGraphFileDialog, SaveFlowGraphFileDialog, SaveImageFileDialog gobject.threads_init() class ActionHandler: """ The action handler will setup all the major window components, and handle button presses and flow graph operations from the GUI. """ def __init__(self, file_paths, platform): """ ActionHandler constructor. Create the main window, setup the message handler, import the preferences, and connect all of the action handlers. Finally, enter the gtk main loop and block. @param file_paths a list of flow graph file passed from command line @param platform platform module """ self.clipboard = None for action in Actions.get_all_actions(): action.connect('activate', self._handle_action) #setup the main window self.platform = platform; self.main_window = MainWindow(platform) self.main_window.connect('delete-event', self._quit) self.main_window.connect('key-press-event', self._handle_key_press) self.get_page = self.main_window.get_page self.get_flow_graph = self.main_window.get_flow_graph self.get_focus_flag = self.main_window.get_focus_flag #setup the messages Messages.register_messenger(self.main_window.add_report_line) Messages.send_init(platform) #initialize self.init_file_paths = file_paths Actions.APPLICATION_INITIALIZE() #enter the mainloop gtk.main() def _handle_key_press(self, widget, event): """ Handle key presses from the keyboard and translate key combinations into actions. This key press handler is called prior to the gtk key press handler. This handler bypasses built in accelerator key handling when in focus because * some keys are ignored by the accelerators like the direction keys, * some keys are not registered to any accelerators but are still used. When not in focus, gtk and the accelerators handle the the key press. @return false to let gtk handle the key action """ if not self.get_focus_flag(): return False return Actions.handle_key_press(event) def _quit(self, window, event): """ Handle the delete event from the main window. Generated by pressing X to close, alt+f4, or right click+close. This method in turns calls the state handler to quit. @return true """ Actions.APPLICATION_QUIT() return True def _handle_action(self, action): #print action ################################################## # Initalize/Quit ################################################## if action == Actions.APPLICATION_INITIALIZE: for action in Actions.get_all_actions(): action.set_sensitive(False) #set all actions disabled #enable a select few actions for action in ( Actions.APPLICATION_QUIT, Actions.FLOW_GRAPH_NEW, Actions.FLOW_GRAPH_OPEN, Actions.FLOW_GRAPH_SAVE_AS, Actions.FLOW_GRAPH_CLOSE, Actions.ABOUT_WINDOW_DISPLAY, Actions.FLOW_GRAPH_SCREEN_CAPTURE, Actions.HELP_WINDOW_DISPLAY, Actions.TYPES_WINDOW_DISPLAY, ): action.set_sensitive(True) if not self.init_file_paths: self.init_file_paths = Preferences.files_open() if not self.init_file_paths: self.init_file_paths = [''] for file_path in self.init_file_paths: if file_path: self.main_window.new_page(file_path) #load pages from file paths if Preferences.file_open() in self.init_file_paths: self.main_window.new_page(Preferences.file_open(), show=True) if not self.get_page(): self.main_window.new_page() #ensure that at least a blank page exists elif action == Actions.APPLICATION_QUIT: if self.main_window.close_pages(): gtk.main_quit() exit(0) ################################################## # Selections ################################################## elif action == Actions.ELEMENT_SELECT: pass #do nothing, update routines below elif action == Actions.NOTHING_SELECT: self.get_flow_graph().unselect() ################################################## # Enable/Disable ################################################## elif action == Actions.BLOCK_ENABLE: if self.get_flow_graph().enable_selected(True): self.get_flow_graph().update() self.get_page().get_state_cache().save_new_state(self.get_flow_graph().export_data()) self.get_page().set_saved(False) elif action == Actions.BLOCK_DISABLE: if self.get_flow_graph().enable_selected(False): self.get_flow_graph().update() self.get_page().get_state_cache().save_new_state(self.get_flow_graph().export_data()) self.get_page().set_saved(False) ################################################## # Cut/Copy/Paste ################################################## elif action == Actions.BLOCK_CUT: Actions.BLOCK_COPY() Actions.ELEMENT_DELETE() elif action == Actions.BLOCK_COPY: self.clipboard = self.get_flow_graph().copy_to_clipboard() elif action == Actions.BLOCK_PASTE: if self.clipboard: self.get_flow_graph().paste_from_clipboard(self.clipboard) self.get_flow_graph().update() self.get_page().get_state_cache().save_new_state(self.get_flow_graph().export_data()) self.get_page().set_saved(False) ################################################## # Create heir block ################################################## elif action == Actions.BLOCK_CREATE_HIER: # keeping track of coordinates for pasting later coords = self.get_flow_graph().get_selected_blocks()[0].get_coordinate() x,y = coords x_min = x y_min = y pads = []; params = []; # Save the state of the leaf blocks for block in self.get_flow_graph().get_selected_blocks(): # Check for string variables within the blocks for param in block.get_params(): for variable in self.get_flow_graph().get_variables(): # If a block parameter exists that is a variable, create a parameter for it if param.get_value() == variable.get_id(): params.append(param.get_value()) for flow_param in self.get_flow_graph().get_parameters(): # If a block parameter exists that is a parameter, create a parameter for it if param.get_value() == flow_param.get_id(): params.append(param.get_value()) # keep track of x,y mins for pasting later (x,y) = block.get_coordinate() if x < x_min: x_min = x if y < y_min: y_min = y for connection in block.get_connections(): # Get id of connected blocks source_id = connection.get_source().get_parent().get_id() sink_id = connection.get_sink().get_parent().get_id() # If connected block is not in the list of selected blocks create a pad for it if self.get_flow_graph().get_block(source_id) not in self.get_flow_graph().get_selected_blocks(): pads.append({'key': connection.get_sink().get_key(), 'coord': connection.get_source().get_coordinate(), 'block_id' : block.get_id(), 'direction': 'source'}) if self.get_flow_graph().get_block(sink_id) not in self.get_flow_graph().get_selected_blocks(): pads.append({'key': connection.get_source().get_key(), 'coord': connection.get_sink().get_coordinate(), 'block_id' : block.get_id(), 'direction': 'sink'}) # Copy the selected blocks and paste them into a new page # then move the flowgraph to a reasonable position Actions.BLOCK_COPY() self.main_window.new_page() Actions.BLOCK_PASTE() coords = (x_min,y_min) self.get_flow_graph().move_selected(coords) # Set flow graph to heir block type top_block = self.get_flow_graph().get_block("top_block") top_block.get_param('generate_options').set_value('hb') # this needs to be a unique name top_block.get_param('id').set_value('new_heir') # Remove the default samp_rate variable block that is created remove_me = self.get_flow_graph().get_block("samp_rate") self.get_flow_graph().remove_element(remove_me) # Add the param blocks along the top of the window x_pos = 150 for param in params: param_id = self.get_flow_graph().add_new_block('parameter',(x_pos,10)) param_block = self.get_flow_graph().get_block(param_id) param_block.get_param('id').set_value(param) x_pos = x_pos + 100 for pad in pads: # Add the pad sources and sinks within the new heir block if pad['direction'] == 'sink': # Add new PAD_SINK block to the canvas pad_id = self.get_flow_graph().add_new_block('pad_sink', pad['coord']) # setup the references to the sink and source pad_block = self.get_flow_graph().get_block(pad_id) pad_sink = pad_block.get_sinks()[0] source_block = self.get_flow_graph().get_block(pad['block_id']) source = source_block.get_source(pad['key']) # Ensure the port types match while pad_sink.get_type() != source.get_type(): # Special case for some blocks that have non-standard type names, e.g. uhd if pad_sink.get_type() == 'complex' and source.get_type() == 'fc32': break; pad_block.type_controller_modify(1) # Connect the pad to the proper sinks new_connection = self.get_flow_graph().connect(source,pad_sink) elif pad['direction'] == 'source': pad_id = self.get_flow_graph().add_new_block('pad_source', pad['coord']) # setup the references to the sink and source pad_block = self.get_flow_graph().get_block(pad_id) pad_source = pad_block.get_sources()[0] sink_block = self.get_flow_graph().get_block(pad['block_id']) sink = sink_block.get_sink(pad['key']) # Ensure the port types match while sink.get_type() != pad_source.get_type(): # Special case for some blocks that have non-standard type names, e.g. uhd if pad_source.get_type() == 'complex' and sink.get_type() == 'fc32': break; pad_block.type_controller_modify(1) # Connect the pad to the proper sinks new_connection = self.get_flow_graph().connect(pad_source,sink) # update the new heir block flow graph self.get_flow_graph().update() ################################################## # Move/Rotate/Delete/Create ################################################## elif action == Actions.BLOCK_MOVE: self.get_page().get_state_cache().save_new_state(self.get_flow_graph().export_data()) self.get_page().set_saved(False) elif action == Actions.BLOCK_ROTATE_CCW: if self.get_flow_graph().rotate_selected(90): self.get_flow_graph().update() self.get_page().get_state_cache().save_new_state(self.get_flow_graph().export_data()) self.get_page().set_saved(False) elif action == Actions.BLOCK_ROTATE_CW: if self.get_flow_graph().rotate_selected(-90): self.get_flow_graph().update() self.get_page().get_state_cache().save_new_state(self.get_flow_graph().export_data()) self.get_page().set_saved(False) elif action == Actions.ELEMENT_DELETE: if self.get_flow_graph().remove_selected(): self.get_flow_graph().update() self.get_page().get_state_cache().save_new_state(self.get_flow_graph().export_data()) Actions.NOTHING_SELECT() self.get_page().set_saved(False) elif action == Actions.ELEMENT_CREATE: self.get_flow_graph().update() self.get_page().get_state_cache().save_new_state(self.get_flow_graph().export_data()) Actions.NOTHING_SELECT() self.get_page().set_saved(False) elif action == Actions.BLOCK_INC_TYPE: if self.get_flow_graph().type_controller_modify_selected(1): self.get_flow_graph().update() self.get_page().get_state_cache().save_new_state(self.get_flow_graph().export_data()) self.get_page().set_saved(False) elif action == Actions.BLOCK_DEC_TYPE: if self.get_flow_graph().type_controller_modify_selected(-1): self.get_flow_graph().update() self.get_page().get_state_cache().save_new_state(self.get_flow_graph().export_data()) self.get_page().set_saved(False) elif action == Actions.PORT_CONTROLLER_INC: if self.get_flow_graph().port_controller_modify_selected(1): self.get_flow_graph().update() self.get_page().get_state_cache().save_new_state(self.get_flow_graph().export_data()) self.get_page().set_saved(False) elif action == Actions.PORT_CONTROLLER_DEC: if self.get_flow_graph().port_controller_modify_selected(-1): self.get_flow_graph().update() self.get_page().get_state_cache().save_new_state(self.get_flow_graph().export_data()) self.get_page().set_saved(False) ################################################## # Window stuff ################################################## elif action == Actions.ABOUT_WINDOW_DISPLAY: Dialogs.AboutDialog(self.get_flow_graph().get_parent()) elif action == Actions.HELP_WINDOW_DISPLAY: Dialogs.HelpDialog() elif action == Actions.TYPES_WINDOW_DISPLAY: Dialogs.TypesDialog(self.get_flow_graph().get_parent()) elif action == Actions.ERRORS_WINDOW_DISPLAY: Dialogs.ErrorsDialog(self.get_flow_graph()) ################################################## # Param Modifications ################################################## elif action == Actions.BLOCK_PARAM_MODIFY: selected_block = self.get_flow_graph().get_selected_block() if selected_block: if PropsDialog(selected_block).run(): #save the new state self.get_flow_graph().update() self.get_page().get_state_cache().save_new_state(self.get_flow_graph().export_data()) self.get_page().set_saved(False) else: #restore the current state n = self.get_page().get_state_cache().get_current_state() self.get_flow_graph().import_data(n) self.get_flow_graph().update() ################################################## # Undo/Redo ################################################## elif action == Actions.FLOW_GRAPH_UNDO: n = self.get_page().get_state_cache().get_prev_state() if n: self.get_flow_graph().unselect() self.get_flow_graph().import_data(n) self.get_flow_graph().update() self.get_page().set_saved(False) elif action == Actions.FLOW_GRAPH_REDO: n = self.get_page().get_state_cache().get_next_state() if n: self.get_flow_graph().unselect() self.get_flow_graph().import_data(n) self.get_flow_graph().update() self.get_page().set_saved(False) ################################################## # New/Open/Save/Close ################################################## elif action == Actions.FLOW_GRAPH_NEW: self.main_window.new_page() elif action == Actions.FLOW_GRAPH_OPEN: file_paths = OpenFlowGraphFileDialog(self.get_page().get_file_path()).run() if file_paths: #open a new page for each file, show only the first for i,file_path in enumerate(file_paths): self.main_window.new_page(file_path, show=(i==0)) elif action == Actions.FLOW_GRAPH_CLOSE: self.main_window.close_page() elif action == Actions.FLOW_GRAPH_SAVE: #read-only or undefined file path, do save-as if self.get_page().get_read_only() or not self.get_page().get_file_path(): Actions.FLOW_GRAPH_SAVE_AS() #otherwise try to save else: try: ParseXML.to_file(self.get_flow_graph().export_data(), self.get_page().get_file_path()) self.get_flow_graph().grc_file_path = self.get_page().get_file_path() self.get_page().set_saved(True) except IOError: Messages.send_fail_save(self.get_page().get_file_path()) self.get_page().set_saved(False) elif action == Actions.FLOW_GRAPH_SAVE_AS: file_path = SaveFlowGraphFileDialog(self.get_page().get_file_path()).run() if file_path is not None: self.get_page().set_file_path(file_path) Actions.FLOW_GRAPH_SAVE() elif action == Actions.FLOW_GRAPH_SCREEN_CAPTURE: file_path = SaveImageFileDialog(self.get_page().get_file_path()).run() if file_path is not None: pixbuf = self.get_flow_graph().get_drawing_area().get_pixbuf() pixbuf.save(file_path, IMAGE_FILE_EXTENSION[1:]) ################################################## # Gen/Exec/Stop ################################################## elif action == Actions.FLOW_GRAPH_GEN: if not self.get_page().get_proc(): if not self.get_page().get_saved() or not self.get_page().get_file_path(): Actions.FLOW_GRAPH_SAVE() #only save if file path missing or not saved if self.get_page().get_saved() and self.get_page().get_file_path(): generator = self.get_page().get_generator() try: Messages.send_start_gen(generator.get_file_path()) generator.write() except Exception,e: Messages.send_fail_gen(e) else: self.generator = None elif action == Actions.FLOW_GRAPH_EXEC: if not self.get_page().get_proc(): Actions.FLOW_GRAPH_GEN() if self.get_page().get_saved() and self.get_page().get_file_path(): ExecFlowGraphThread(self) elif action == Actions.FLOW_GRAPH_KILL: if self.get_page().get_proc(): try: self.get_page().get_proc().kill() except: print "could not kill process: %d"%self.get_page().get_proc().pid elif action == Actions.PAGE_CHANGE: #pass and run the global actions pass elif action == Actions.RELOAD_BLOCKS: self.platform.loadblocks() self.main_window.btwin.clear(); self.platform.load_block_tree(self.main_window.btwin); elif action == Actions.OPEN_HIER: bn = []; for b in self.get_flow_graph().get_selected_blocks(): if b._grc_source: self.main_window.new_page(b._grc_source, show=True); else: print '!!! Action "%s" not handled !!!'%action ################################################## # Global Actions for all States ################################################## #update general buttons Actions.ERRORS_WINDOW_DISPLAY.set_sensitive(not self.get_flow_graph().is_valid()) Actions.ELEMENT_DELETE.set_sensitive(bool(self.get_flow_graph().get_selected_elements())) Actions.BLOCK_PARAM_MODIFY.set_sensitive(bool(self.get_flow_graph().get_selected_block())) Actions.BLOCK_ROTATE_CCW.set_sensitive(bool(self.get_flow_graph().get_selected_blocks())) Actions.BLOCK_ROTATE_CW.set_sensitive(bool(self.get_flow_graph().get_selected_blocks())) #update cut/copy/paste Actions.BLOCK_CUT.set_sensitive(bool(self.get_flow_graph().get_selected_blocks())) Actions.BLOCK_COPY.set_sensitive(bool(self.get_flow_graph().get_selected_blocks())) Actions.BLOCK_PASTE.set_sensitive(bool(self.clipboard)) #update enable/disable Actions.BLOCK_ENABLE.set_sensitive(bool(self.get_flow_graph().get_selected_blocks())) Actions.BLOCK_DISABLE.set_sensitive(bool(self.get_flow_graph().get_selected_blocks())) Actions.BLOCK_CREATE_HIER.set_sensitive(bool(self.get_flow_graph().get_selected_blocks())) Actions.OPEN_HIER.set_sensitive(bool(self.get_flow_graph().get_selected_blocks())) Actions.RELOAD_BLOCKS.set_sensitive(True) #set the exec and stop buttons self.update_exec_stop() #saved status Actions.FLOW_GRAPH_SAVE.set_sensitive(not self.get_page().get_saved()) self.main_window.update() try: #set the size of the flow graph area (if changed) new_size = self.get_flow_graph().get_option('window_size') if self.get_flow_graph().get_size() != tuple(new_size): self.get_flow_graph().set_size(*new_size) except: pass #draw the flow graph self.get_flow_graph().update_selected() self.get_flow_graph().queue_draw() return True #action was handled def update_exec_stop(self): """ Update the exec and stop buttons. Lock and unlock the mutex for race conditions with exec flow graph threads. """ sensitive = self.get_flow_graph().is_valid() and not self.get_page().get_proc() Actions.FLOW_GRAPH_GEN.set_sensitive(sensitive) Actions.FLOW_GRAPH_EXEC.set_sensitive(sensitive) Actions.FLOW_GRAPH_KILL.set_sensitive(self.get_page().get_proc() != None) class ExecFlowGraphThread(Thread): """Execute the flow graph as a new process and wait on it to finish.""" def __init__ (self, action_handler): """ ExecFlowGraphThread constructor. @param action_handler an instance of an ActionHandler """ Thread.__init__(self) self.update_exec_stop = action_handler.update_exec_stop self.flow_graph = action_handler.get_flow_graph() #store page and dont use main window calls in run self.page = action_handler.get_page() Messages.send_start_exec(self.page.get_generator().get_file_path()) #get the popen try: self.p = self.page.get_generator().get_popen() self.page.set_proc(self.p) #update self.update_exec_stop() self.start() except Exception, e: Messages.send_verbose_exec(str(e)) Messages.send_end_exec() def run(self): """ Wait on the executing process by reading from its stdout. Use gobject.idle_add when calling functions that modify gtk objects. """ #handle completion r = "\n" while(r): gobject.idle_add(Messages.send_verbose_exec, r) r = os.read(self.p.stdout.fileno(), 1024) gobject.idle_add(self.done) def done(self): """Perform end of execution tasks.""" Messages.send_end_exec() self.page.set_proc(None) self.update_exec_stop()