#!/usr/bin/env python2 import openmv import gtk import gobject import pango import serial import platform import sys, os, os.path from time import sleep from os.path import expanduser import gtksourceview2 as gtksourceview from glob import glob import urllib2, json import numpy as np #import pydfu on Linux if platform.system() == "Linux": import pydfu try: # 3.x name import configparser except ImportError: # 2.x name configparser = __import__("ConfigParser") if hasattr(sys,"frozen"): IDE_DIR=os.path.dirname(sys.executable) BUNDLE_DIR = sys._MEIPASS else: IDE_DIR=os.path.dirname(os.path.realpath(__file__)) BUNDLE_DIR = IDE_DIR FIRMWARE_VERSION_MAJOR = 1 FIRMWARE_VERSION_MINOR = 2 FIRMWARE_VERSION_PATCH = 0 DATA_DIR = os.path.join(os.path.expanduser("~"), "openmv") #use home dir SCRIPTS_DIR = os.path.join(DATA_DIR, "scripts") EXAMPLES_DIR = os.path.join(IDE_DIR, "examples") GLADE_PATH = os.path.join(BUNDLE_DIR, "openmv-ide.glade") CONFIG_PATH = os.path.join(DATA_DIR, "openmv.config") UDEV_PATH = "/etc/udev/rules.d/50-openmv.rules" SCALE =1 RECENT_FILES_LIMIT=5 FLASH_OFFSETS= [0x08000000, 0x08004000, 0x08008000, 0x0800C000, 0x08010000, 0x08020000, 0x08040000, 0x08060000, 0x08080000, 0x080A0000, 0x080C0000, 0x080E0000] DEFAULT_CONFIG='''\ [main] board = OpenMV2 serial_port = /dev/openmvcam recent = last_fw_path = baudrate = 921600 enable_jpeg = True ''' CONFIG_KEYS = ['board', 'serial_port', 'recent', 'last_fw_path', 'baudrate', 'enable_jpeg'] RELEASE_TAG_NAME = 'v1.2' RELEASE_URL = 'https://api.github.com/repos/openmv/openmv/releases/latest' class OMVGtk: def __init__(self): #Set the Glade file self.builder = gtk.Builder() self.builder.add_from_file(GLADE_PATH) # get top window self.window = self.builder.get_object("top_window") # status bar stuff self.statusbar = self.builder.get_object("statusbar") self.statusbar_ctx = self.statusbar.get_context_id("default") # set buttons self.save_button = self.builder.get_object('save_file_toolbutton') self.connect_button = self.builder.get_object('connect_button') self.exec_button = self.builder.get_object('exec_button') self.stop_button = self.builder.get_object('stop_button') self.fwupdate_button = self.builder.get_object('bootloader_button') self.save_button.set_sensitive(False) self.exec_button.set_sensitive(False) self.stop_button.set_sensitive(False) self.connect_button.set_sensitive(True) # set control buttons self.controls = [ self.builder.get_object('reset_button'), self.builder.get_object('bootloader_button'), self.builder.get_object('exec_button'), self.builder.get_object('zoomin_button'), self.builder.get_object('zoomout_button'), self.builder.get_object('bestfit_button'), self.builder.get_object('refresh_button')] self.connected = False map(lambda x:x.set_sensitive(False), self.controls) # Disable dfu button on Windows if platform.system() == "Windows": self.controls.pop(1) # gtksourceview widget sourceview = gtksourceview.View() lang_manager = gtksourceview.language_manager_get_default() style_manager = gtksourceview.style_scheme_manager_get_default() # append cwd to style search paths style_manager.set_search_path(style_manager.get_search_path() + [os.path.join(IDE_DIR, "share/gtksourceview-2.0/styles")]) # append cwd to language search paths lang_manager.set_search_path(lang_manager.get_search_path() + [os.path.join(IDE_DIR, "share/gtksourceview-2.0/language-specs")]) # configure gtksourceview widget sourceview.set_show_line_numbers(True) sourceview.set_tab_width(4) sourceview.set_indent_on_tab(True) sourceview.set_insert_spaces_instead_of_tabs(True) sourceview.set_auto_indent(True) sourceview.set_highlight_current_line(True) fonts = [] for font in sourceview.get_pango_context().list_families(): fonts.append(font.get_name().lower()) if sys.platform.startswith("win"): if "consolas" in fonts: sourceview.modify_font(pango.FontDescription("consolas 10")) else: sourceview.modify_font(pango.FontDescription("courier new 10")) elif sys.platform.startswith("darwin"): if "monaco" in fonts: sourceview.modify_font(pango.FontDescription("monaco 10")) else: sourceview.modify_font(pango.FontDescription("courier new 10")) elif sys.platform.startswith("linux"): if "dejavu sans mono" in fonts: sourceview.modify_font(pango.FontDescription("dejavu sans mono 10")) else: sourceview.modify_font(pango.FontDescription("courier new 10")) # configure gtksourceview buffer self.buffer = gtksourceview.Buffer() self.buffer.set_highlight_syntax(True) self.buffer.set_language(lang_manager.get_language("python")) self.buffer.connect("changed", self.text_changed) sourceview.set_buffer(self.buffer) self.builder.get_object("src_scrolledwindow").add(sourceview) # Configure terminal window self.terminal_scroll = self.builder.get_object('vte_scrolledwindow') self.terminal = self.builder.get_object('vte_textview') self.terminal.modify_base(gtk.STATE_NORMAL, gtk.gdk.color_parse('black')) self.terminal.modify_text(gtk.STATE_NORMAL, gtk.gdk.color_parse('green')) # get drawingarea self.fb = None self.pixbuf = None self.drawingarea = self.builder.get_object("drawingarea") self.da_menu = self.builder.get_object("da_menu") # selection coords self.sel_ended=False self.selection_started=False self.x1 = self.y1 = self.x2 = self.y2 =0 # set control scales attributes self.builder.get_object("contrast_adjust").attr= openmv.ATTR_CONTRAST self.builder.get_object("brightness_adjust").attr= openmv.ATTR_BRIGHTNESS self.builder.get_object("saturation_adjust").attr= openmv.ATTR_SATURATION self.builder.get_object("gainceiling_adjust").attr= openmv.ATTR_GAINCEILING #connect signals signals = { "on_top_window_destroy" : self.quit, "on_connect_clicked" : self.connect_clicked, "on_reset_clicked" : self.reset_clicked, "on_fwupdate_clicked" : self.fwupdate_clicked, "on_fwpath_clicked" : self.fwpath_clicked, "on_execute_clicked" : self.execute_clicked, "on_stop_clicked" : self.stop_clicked, "on_motion_notify" : self.motion_notify, "on_button_press" : self.button_pressed, "on_button_release" : self.button_released, "on_open_file" : self.open_file, "on_new_file" : self.new_file, "on_save_file" : self.save_file, "on_save_file_as" : self.save_file_as, "on_about_dialog" : self.about_dialog, "on_pinout_dialog" : self.pinout_dialog, "on_copy_color_activate" : self.copy_color, "on_save_template_activate" : self.save_template, "on_save_descriptor_activate" : self.save_descriptor, "on_ctrl_scale_value_changed" : self.on_ctrl_scale_value_changed, "on_zoomin_clicked" : self.zoomin_clicked, "on_zoomout_clicked" : self.zoomout_clicked, "on_bestfit_clicked" : self.bestfit_clicked, "on_preferences_clicked" : self.preferences_clicked, "on_updatefb_clicked" : self.updatefb_clicked, "on_vte_size_allocate" : self.scroll_terminal, } self.builder.connect_signals(signals) # create data directory if not os.path.isdir(DATA_DIR): os.makedirs(DATA_DIR) # create user scripts directory if not os.path.isdir(SCRIPTS_DIR): os.makedirs(SCRIPTS_DIR) # set config parser self.config = configparser.ConfigParser() config_valid = True # check if config file exists if os.path.isfile(CONFIG_PATH): try: # load config self.config.read(CONFIG_PATH) except Exception as e: print ("Failed to open config file %s"%(e)) sys.exit(1) # Check config keys, if one is missing set invalid for key in CONFIG_KEYS: if not self.config.has_option('main', key): config_valid = False break else: config_valid = False # create fresh config if needed if config_valid == False: try: with open(CONFIG_PATH, "w") as f: f.write(DEFAULT_CONFIG) except Exception as e: print ("Failed to create config file %s"%(e)) sys.exit(1) # load or reload the config file try: self.config.read(CONFIG_PATH) except Exception as e: print ("Failed to open config file %s"%(e)) sys.exit(1) # current file path self.file_path= None self.fw_file_path="" path = self.config.get("main", "last_fw_path") if os.path.isfile(path): self.fw_file_path = path # built-in examples menu submenu = gtk.Menu() menu = self.builder.get_object('example_menu') files = sorted(os.listdir(EXAMPLES_DIR)) for f in files: if f.endswith(".py"): label = os.path.basename(f) mitem = gtk.MenuItem(label, use_underline=False) mitem.connect("activate", self.open_example, EXAMPLES_DIR) submenu.append(mitem) menu.set_submenu(submenu) # recent files menu self.files = [] files =self.config.get("main", "recent") if files: self.files = files.split(',') self.update_recent_files() self.baudrate = int(self.config.get("main", "baudrate")) # set enable/disable JPEG self.enable_jpeg = self.config.get("main", "enable_jpeg") == 'True' # load helloworld.py self._load_file(os.path.join(EXAMPLES_DIR, "helloworld.py")) self.save_button.set_sensitive(False) def show_message_dialog(self, msg_type, msg): message = gtk.MessageDialog(parent=self.window, flags=gtk.DIALOG_DESTROY_WITH_PARENT, type=msg_type, buttons=gtk.BUTTONS_OK, message_format=msg) message.run() message.destroy() def refresh_gui(self, delay=0.0001, wait=0.0001): sleep(delay) gtk.main_iteration_do(block=False) sleep(wait) def connect(self): connected = False for i in range(10): try: # opens CDC port. # Set small timeout when connecting openmv.init(self.config.get("main", "serial_port"), baudrate=self.baudrate, timeout=0.050) connected = True break except Exception as e: connected = False sleep(0.100) if not connected: # create fresh config if needed if platform.system() == "Linux" and not os.path.isfile(UDEV_PATH): error_msg = ("Failed to open serial port.\n" "Please install OpenMV's udev rules first:\n\n" "sudo cp openmv/udev/50-openmv.rules /etc/udev/rules.d/\n" "sudo udevadm control --reload-rules\n\n") else: error_msg = ("Failed to open serial port.\n" "Please check the preferences Dialog.\n") self.show_message_dialog(gtk.MESSAGE_ERROR,"%s%s"%(error_msg, e)) return # Set higher timeout after connecting for lengthy transfers. openmv.set_timeout(1*2) # SD Cards can cause big hicups. # add terminal update callback gobject.gobject.timeout_add(30, omvgtk.update_terminal) # check firmware version self.fw_mismatch = False fw_ver = openmv.fw_version() ide_ver = (FIRMWARE_VERSION_MAJOR, FIRMWARE_VERSION_MINOR, FIRMWARE_VERSION_PATCH) print("fw_version:" + str(fw_ver)) print("ide_version:" + str(ide_ver)) if (fw_ver[0] != FIRMWARE_VERSION_MAJOR): # If ABI versions don't match, nothing todo here... self.show_message_dialog(gtk.MESSAGE_ERROR, "Firmware ABI version mismatch!\n" "Please update the IDE and/or FW manually\n") return elif (FIRMWARE_VERSION_MINOR > fw_ver[1] or FIRMWARE_VERSION_PATCH > fw_ver[2]): self.fw_mismatch = True self.show_message_dialog(gtk.MESSAGE_ERROR, "Firmware version mismatch!\n" "An older firmware version has been detected.\n" "Please update the firmware!") if (self.fw_mismatch): self.connected = True self.connect_button.set_sensitive(False) self.fwupdate_button.set_sensitive(True) return # interrupt any running code openmv.stop_script() # set enable JPEG openmv.enable_jpeg(self.enable_jpeg) self.connected = True self._update_title() self.connect_button.set_sensitive(False) map(lambda x:x.set_sensitive(True), self.controls) def disconnect(self): try: # stop running code openmv.stop_script(); except: pass self.connected = False self._update_title() self.stop_button.set_sensitive(False) self.connect_button.set_sensitive(True) map(lambda x:x.set_sensitive(False), self.controls) def connect_clicked(self, widget): self.connect() def fwpath_clicked(self, widget): fw_entry = self.builder.get_object("fw_entry") dialog = gtk.FileChooserDialog(title=None,action=gtk.FILE_CHOOSER_ACTION_OPEN, buttons=(gtk.STOCK_CANCEL, gtk.RESPONSE_CANCEL, gtk.STOCK_OPEN, gtk.RESPONSE_OK)) dialog.set_default_response(gtk.RESPONSE_OK) dialog.set_current_folder(SCRIPTS_DIR) ff = gtk.FileFilter() ff.set_name("dfu") ff.add_pattern("*.bin") #TODO change to DFU dialog.add_filter(ff) if dialog.run() == gtk.RESPONSE_OK: fw_entry.set_text(dialog.get_filename()) dialog.destroy() # Fake multitasking :P def fwupdate_task(self, state): if (state["init"]): pydfu.init() state["init"]=False state["erase"]=True state["bar"].set_text("Erasing...") return True elif (state["erase"]): page = state["page"] total = len(FLASH_OFFSETS) pydfu.page_erase(FLASH_OFFSETS[page]) page +=1 state["bar"].set_fraction(page/float(total)) if (page == total): state["erase"] = False state["write"] = True state["bar"].set_text("Uploading...") state["page"] = page return True elif (state["write"]): buf = state["buf"] xfer_bytes = state["xfer_bytes"] xfer_total = state["xfer_total"] # Send chunk chunk = min (64, xfer_total-xfer_bytes) pydfu.write_page(buf[xfer_bytes:xfer_bytes+chunk], xfer_bytes) xfer_bytes += chunk state["xfer_bytes"] = xfer_bytes state["bar"].set_fraction(xfer_bytes/float(xfer_total)) if (xfer_bytes == xfer_total): pydfu.exit_dfu() state["dialog"].hide() self.disconnect() return False return True def fwupdate_clicked(self, widget): if (self.connected): dialog = self.builder.get_object("fw_dialog") fw_entry = self.builder.get_object("fw_entry") fw_progress = self.builder.get_object("fw_progressbar") ok_button = self.builder.get_object("fw_ok_button") cancel_button = self.builder.get_object("fw_cancel_button") ok_button.set_sensitive(True) cancel_button.set_sensitive(True) dialog.set_transient_for(self.window); # default FW bin path fw_entry.set_text(self.fw_file_path) fw_progress.set_text("") fw_progress.set_fraction(0.0) if dialog.run() == gtk.RESPONSE_OK: ok_button.set_sensitive(False) cancel_button.set_sensitive(False) fw_path = fw_entry.get_text() try: with open(fw_path, 'r') as f: buf= f.read() except Exception as e: dialog.hide() self.show_message_dialog(gtk.MESSAGE_ERROR, "Failed to open file %s"%str(e)) return self.fw_file_path = fw_path self.config.set("main", "last_fw_path", fw_path) state={"init":True, "erase":False, "write":False, "page":0, "buf":buf, "bar":fw_progress, "dialog":dialog, "xfer_bytes":0, "xfer_total":len(buf)} # call dfu-util openmv.enter_dfu() sleep(1.0) gobject.gobject.idle_add(self.fwupdate_task, state) else: dialog.hide() def reset_clicked(self, widget): if (self.connected): openmv.reset() def execute_clicked(self, widget): buf = self.buffer.get_text(self.buffer.get_start_iter(), self.buffer.get_end_iter()) # exec script openmv.exec_script(buf) self.exec_button.set_sensitive(False) self.stop_button.set_sensitive(True) def stop_clicked(self, widget): openmv.stop_script(); self.exec_button.set_sensitive(True) self.stop_button.set_sensitive(False) def zoomin_clicked(self, widget): global SCALE SCALE+=1 def zoomout_clicked(self, widget): global SCALE if SCALE>1: SCALE-=1 def bestfit_clicked(self, widget): global SCALE SCALE=1 def preferences_clicked(self, widget): board_combo = self.builder.get_object("board_combo") sport_combo = self.builder.get_object("sport_combo") baud_combo = self.builder.get_object("baud_combo") dialog = self.builder.get_object("preferences_dialog") jpeg_check = self.builder.get_object("jpeg_check") # Fill serial ports combo sport_combo.get_model().clear() serial_ports = self.list_serial_ports() for i in serial_ports: sport_combo.append_text(i) if len(serial_ports): sport_combo.set_active(0) jpeg_check.set_active(self.enable_jpeg) # Save config if dialog.run() == gtk.RESPONSE_OK: self.config.set("main", "board", board_combo.get_active_text()) self.config.set("main", "serial_port", sport_combo.get_active_text()) self.config.set("main", "baudrate", baud_combo.get_active_text()) self.config.set("main", "enable_jpeg", jpeg_check.get_active()) self.enable_jpeg = jpeg_check.get_active() self.save_config() # Enable/Disable JPEG if (self.connected): openmv.enable_jpeg(self.enable_jpeg) dialog.hide() def updatefb_clicked(self, widget): openmv.fb_update() def button_pressed(self, widget, event): self.x1 = int(event.x) self.y1 = int(event.y) self.x2 = int(event.x) self.y2 = int(event.y) self.selection_started = True def button_released(self, widget, event): self.x2 = int(event.x) self.y2 = int(event.y) self.selection_started = False if (self.connected): self.da_menu.popup(None, None, None, event.button, event.time, None) self.da_menu.show_all() def motion_notify(self, widget, event): x = int(event.x) y = int(event.y) self.x2 = int(event.x) self.y2 = int(event.y) if self.pixbuf and x < self.pixbuf.get_width() and y < self.pixbuf.get_height(): pixel = self.pixbuf.get_pixels_array()[y][x] rgb = "(%d, %d, %d)" %(pixel[0], pixel[1], pixel[2]) self.statusbar.pop(self.statusbar_ctx) self.statusbar.push(self.statusbar_ctx, rgb) def scroll_terminal(self, widget, event): adj = self.terminal_scroll.get_vadjustment() adj.set_value(adj.upper - adj.page_size) def update_terminal(self): if (self.connected and not self.fw_mismatch): try: buf_len = openmv.tx_buf_len() if (buf_len): buf = openmv.tx_buf(buf_len) buffer = self.terminal.get_buffer() buffer.insert(buffer.get_end_iter(), buf) except: pass return True def update_drawing(self): fb = None if (self.connected and not self.fw_mismatch): try: # read drawingarea fb = openmv.fb_dump() except Exception as e: self.disconnect() self._update_title() return True if fb: self.fb = fb else: fb = self.fb if fb: # create pixbuf from np array self.pixbuf = gtk.gdk.pixbuf_new_from_array(fb[2], gtk.gdk.COLORSPACE_RGB, 8) self.pixbuf = self.pixbuf.scale_simple(fb[0]*SCALE, fb[1]*SCALE, gtk.gdk.INTERP_BILINEAR) self.drawingarea.realize(); cm = self.drawingarea.window.get_colormap() gc = self.drawingarea.window.new_gc(foreground=cm.alloc_color('#FFFFFF',True,False)) self.drawingarea.set_size_request(fb[0]*SCALE, fb[1]*SCALE) self.drawingarea.window.draw_pixbuf(gc, self.pixbuf, 0, 0, 0, 0) if self.selection_started or self.da_menu.flags() & gtk.MAPPED: self.drawingarea.window.draw_rectangle(gc, False, self.x1, self.y1, self.x2-self.x1, self.y2-self.y1) return True def update_exec_button(self): if (self.connected and not self.fw_mismatch): try: # read drawingarea running = (openmv.script_running()==1) self.stop_button.set_sensitive(running) self.exec_button.set_sensitive(not running) except Exception as e: self.disconnect() self._update_title() return True def on_ctrl_scale_value_changed(self, adjust): openmv.set_attr(adjust.attr, int(adjust.value)) def save_config(self): # config.set("section", "key", value) self.config.set("main", "recent", ','.join(self.files)) with open(CONFIG_PATH, "w") as file: self.config.write(file) def _update_title(self): if (self.file_path==None): title = "Untitled" else: title = os.path.basename(self.file_path) title += " [Connected]" if self.connected else " [Disconnected]" self.window.set_title(title) def update_recent_files(self): if (self.file_path and self.file_path not in self.files ): self.files.insert(0, self.file_path) if len(self.files)>RECENT_FILES_LIMIT: self.files.pop() submenu = gtk.Menu() menu = self.builder.get_object('recent_menu') for f in self.files: if f.endswith(".py"): mitem =gtk.MenuItem(f, use_underline=False) mitem.connect("activate", self.open_example, "") submenu.append(mitem) menu.set_submenu(submenu) menu.show_all() def _load_file(self, path): self.file_path = path if path == None: # New file self.save_button.set_sensitive(True) self.buffer.set_text("") else: self.save_button.set_sensitive(False) with open(path, "r") as file: self.buffer.set_text(file.read()) self.update_recent_files() self._update_title() def _save_file(self, new_file): if new_file: dialog = gtk.FileChooserDialog(title=None,action=gtk.FILE_CHOOSER_ACTION_SAVE, buttons=(gtk.STOCK_CANCEL, gtk.RESPONSE_CANCEL, gtk.STOCK_OPEN, gtk.RESPONSE_OK)) dialog.set_default_response(gtk.RESPONSE_OK) dialog.set_current_folder(SCRIPTS_DIR) ff = gtk.FileFilter() ff.set_name("python") ff.add_pattern("*.py") dialog.add_filter(ff) if dialog.run() == gtk.RESPONSE_OK: self.file_path = dialog.get_filename() self.save_button.set_sensitive(False) self._update_title() self.update_recent_files() # append .py filename = dialog.get_filename() if not filename.endswith(".py"): filename += ".py" # save file with open(filename, "w") as file: file.write(self.buffer.get_text(self.buffer.get_start_iter(), self.buffer.get_end_iter())) dialog.destroy() else: self.save_button.set_sensitive(False) with open(self.file_path, "w") as file: file.write(self.buffer.get_text(self.buffer.get_start_iter(), self.buffer.get_end_iter())) def copy_color(self, widget): self.da_menu.hide() x = self.x1 y = self.y1 w = self.x2-self.x1 h = self.y2-self.y1 def rgb2lab(rgb): def lin(c): return 100 * ((c/12.92) if (c<=0.04045) else pow((c+0.055)/1.055, 2.4)) def f(t): return pow(t, (1/3.0)) if (t>0.008856) else ((7.787037*t)+0.137931) r_lin = lin(rgb[0] / 255.0) g_lin = lin(rgb[1] / 255.0) b_lin = lin(rgb[2] / 255.0) x = (r_lin * 0.4124) + (g_lin * 0.3576) + (b_lin * 0.1805); y = (r_lin * 0.2126) + (g_lin * 0.7152) + (b_lin * 0.0722); z = (r_lin * 0.0193) + (g_lin * 0.1192) + (b_lin * 0.9505); x = f(x / 095.047) y = f(y / 100.000) z = f(z / 108.883) l = int(round(116 * y)) - 16; a = int(round(500 * (x-y))); b = int(round(200 * (y-z))); return (l, a, b) def rgb2gry(rgb): def lin(c): return 100 * ((c/12.92) if (c<=0.04045) else pow((c+0.055)/1.055, 2.4)) def f(t): return (1.055*pow(t, (1/2.4)))-0.055 if (t>0.0031308) else 12.92*t r_lin = lin(rgb[0] / 255.0) g_lin = lin(rgb[1] / 255.0) b_lin = lin(rgb[2] / 255.0) y = f(((r_lin * 0.2126) + (g_lin * 0.7152) + (b_lin * 0.0722)) / 100.0); return max(min(y * 255, 255), 0) def stats(buf, f): new_buf = np.zeros((buf.shape[0], buf.shape[1]), int) hist = np.zeros(384, int) for i in range(buf.shape[0]): for j in range(buf.shape[1]): color = f(buf[i][j]) new_buf[i][j] = color hist[color + 128] += 1 return (np.mean(new_buf), np.median(new_buf), np.argmax(hist) - 128, np.std(new_buf), np.amin(new_buf), np.amax(new_buf), np.percentile(new_buf, 25), np.percentile(new_buf, 75)) buf = self.pixbuf.subpixbuf(x, y, w, h).get_pixels_array() r_stats = stats(buf, lambda x: x[0]) g_stats = stats(buf, lambda x: x[1]) b1stats = stats(buf, lambda x: x[2]) l_stats = stats(buf, lambda x: rgb2lab(x)[0]) a_stats = stats(buf, lambda x: rgb2lab(x)[1]) b2stats = stats(buf, lambda x: rgb2lab(x)[2]) y_stats = stats(buf, lambda x: rgb2gry(x)) out = [r_stats, g_stats, b1stats, l_stats, a_stats, b2stats, y_stats] rgb_thresholds = [max(r_stats[6] - r_stats[3]*3, 0), min(r_stats[7] + r_stats[3]*3, 255), max(g_stats[6] - g_stats[3]*3, 0), min(g_stats[7] + g_stats[3]*3, 255), max(b1stats[6] - b1stats[3]*3, 0), min(b1stats[7] + b1stats[3]*3, 255)] lab_thresholds = [max(l_stats[6] - l_stats[3]*3, 0), min(l_stats[7] + l_stats[3]*3, 100), max(a_stats[6] - a_stats[3]*3, -128), min(a_stats[7] + a_stats[3]*3, 127), max(b2stats[6] - b2stats[3]*3, -128), min(b2stats[7] + b2stats[3]*3, 127)] gry_thresholds = [max(y_stats[6] - y_stats[3]*3, 0), min(y_stats[7] + y_stats[3]*3, 255)] out.extend([rgb_thresholds, lab_thresholds, gry_thresholds]) self.buffer.begin_user_action() iter = self.buffer.get_iter_at_mark(self.buffer.get_mark("insert")) iter.forward_line() self.buffer.insert(iter,\ "# = RGB Color Space Stats ========================\n"\ "# R: Mean %4d, Median %4d, Mode %4d, Stdev %4d\n"\ "# Min %4d, Max %4d, LQ %4d, UQ %4d\n"\ "# G: Mean %4d, Median %4d, Mode %4d, Stdev %4d\n"\ "# Min %4d, Max %4d, LQ %4d, UQ %4d\n"\ "# B: Mean %4d, Median %4d, Mode %4d, Stdev %4d\n"\ "# Min %4d, Max %4d, LQ %4d, UQ %4d\n"\ "# = LAB Color Space Stats ========================\n"\ "# L: Mean %4d, Median %4d, Mode %4d, Stdev %4d\n"\ "# Min %4d, Max %4d, LQ %4d, UQ %4d\n"\ "# A: Mean %4d, Median %4d, Mode %4d, Stdev %4d\n"\ "# Min %4d, Max %4d, LQ %4d, UQ %4d\n"\ "# B: Mean %4d, Median %4d, Mode %4d, Stdev %4d\n"\ "# Min %4d, Max %4d, LQ %4d, UQ %4d\n"\ "# = GRY Color Space Stats ========================\n"\ "# Mean %4d, Median %4d, Mode %4d, Stdev %4d\n"\ "# Min %4d, Max %4d, LQ %4d, UQ %4d\n"\ "# = Suggested Thresholds (LQ-Stdev*3, UQ+Stdev*3) \n"\ "# Use LAB for RGB565 and GRY for GRAYSCALE images.\n"\ "# RGB = (%4d, %4d, %4d, %4d, %4d, %4d)\n"\ "# LAB = (%4d, %4d, %4d, %4d, %4d, %4d)\n"\ "# GRY = (%4d, %4d)\n"\ "# ================================================\n"\ % tuple([i for sub in out for i in sub])) self.buffer.end_user_action() def save_template(self, widget): self.da_menu.hide() x = self.x1 y = self.y1 w = self.x2-self.x1 h = self.y2-self.y1 entry = self.builder.get_object("template_entry") image = self.builder.get_object("template_image") image.set_from_pixbuf(self.pixbuf.subpixbuf(x, y, w, h)) dialog = self.builder.get_object("save_template_dialog") dialog.set_transient_for(self.window); #dialog.set_default_response(gtk.RESPONSE_OK) if dialog.run() == gtk.RESPONSE_OK: openmv.save_template(x/SCALE, y/SCALE, w/SCALE, h/SCALE, entry.get_text()) #Use Scale dialog.hide() def save_descriptor(self, widget): self.da_menu.hide() x = self.x1 y = self.y1 w = self.x2-self.x1 h = self.y2-self.y1 entry = self.builder.get_object("desc_entry") image = self.builder.get_object("desc_image") image.set_from_pixbuf(self.pixbuf.subpixbuf(x, y, w, h)) dialog = self.builder.get_object("save_descriptor_dialog") dialog.set_transient_for(self.window); #dialog.set_default_response(gtk.RESPONSE_OK) if dialog.run() == gtk.RESPONSE_OK: #if not entry.get_text(): openmv.save_descriptor(x/SCALE, y/SCALE, w/SCALE, h/SCALE, entry.get_text()) #Use Scale dialog.hide() def new_file(self, widget): self._load_file(None) def save_file(self, widget): self._save_file(self.file_path==None) def save_file_as(self, widget): self._save_file(True) def open_file(self, widget): dialog = gtk.FileChooserDialog(title=None,action=gtk.FILE_CHOOSER_ACTION_OPEN, buttons=(gtk.STOCK_CANCEL, gtk.RESPONSE_CANCEL, gtk.STOCK_OPEN, gtk.RESPONSE_OK)) dialog.set_default_response(gtk.RESPONSE_OK) dialog.set_current_folder(SCRIPTS_DIR) ff = gtk.FileFilter() ff.set_name("python") ff.add_pattern("*.py") dialog.add_filter(ff) if dialog.run() == gtk.RESPONSE_OK: self._load_file(dialog.get_filename()) dialog.destroy() def open_example(self, widget, basedir): self.file_path = os.path.join(basedir, widget.get_label()) self._load_file(self.file_path) def about_dialog(self, widget): dialog = self.builder.get_object("about_dialog") ide_version = "v%d.%d.%d"%(FIRMWARE_VERSION_MAJOR, FIRMWARE_VERSION_MINOR, FIRMWARE_VERSION_PATCH) dialog.set_version(ide_version) dialog.run() dialog.hide() def pinout_dialog(self, widget): dialog = self.builder.get_object("pinout_dialog") dialog.run() dialog.hide() def text_changed(self, widget): self.save_button.set_sensitive(True) def list_serial_ports(self): serial_ports = [] system_name = platform.system() if system_name == "Linux": serial_ports.append("/dev/openmvcam") elif system_name == "Darwin": serial_ports.extend(glob('/dev/tty.*')) elif system_name == "Windows": for i in range(256): try: port = "COM%d"%i s = serial.Serial(port) serial_ports.append(port) s.close() except serial.SerialException: pass return serial_ports def check_for_updates(self): try: url = urllib2.urlopen(RELEASE_URL) release = json.loads(url.read()) url.close() if (release['tag_name'] != RELEASE_TAG_NAME): dialog = self.builder.get_object("update_dialog") dn_button = self.builder.get_object("download_button") # Set release notes self.builder.get_object("rn_label").\ set_text('Release notes (%s):\n\n%s'%(release['tag_name'], release['body'])) # Set URL dn_button.set_uri(release['html_url']) dialog.run() dialog.hide() except: pass #pass quietly def quit(self, widget): try: # disconnect self.disconnect() except: pass self.save_config() # exit gtk.main_quit() if __name__ == "__main__": omvgtk = OMVGtk() omvgtk.window.show_all() omvgtk.check_for_updates() gobject.gobject.timeout_add(30, omvgtk.update_drawing) gobject.gobject.timeout_add(500, omvgtk.update_exec_button) gtk.main()