Exemplo n.º 1
0
Arquivo: config.py Projeto: cmci/cecog
class SectionRegistry(object):

    def __init__(self):
        self._registry = OrderedDict()

    def register_section(self, section):
        self._registry[section.SECTION_NAME] = section

    def unregister_section(self, name):
        del self._registry[name]

    def get_section(self, name):
        return self._registry[name]

    def get_section_names(self):
        return self._registry.keys()

    def get_path_settings(self):
        result = []
        for section_name, section in self._registry.iteritems():
            for trait_name in section.get_trait_names():
                trait = section.get_trait(trait_name)
                if (isinstance(trait, StringTrait) and
                    trait.widget_info in [StringTrait.STRING_FILE,
                                          StringTrait.STRING_PATH]):
                    result.append((section_name, trait_name, trait))
        return result
Exemplo n.º 2
0
Arquivo: config.py Projeto: cmci/cecog
class TraitGroup(object):

    def __init__(self, name):
        self.name = name
        self._registry = OrderedDict()

    def register_trait(self, name, trait):
        self._registry[name] = trait

    def get_trait(self, name):
        return self._registry[name]

    def get_trait_names(self):
        return self._registry.keys()
Exemplo n.º 3
0
Arquivo: config.py Projeto: cmci/cecog
class _Section(object):

    SECTION_NAME = None
    OPTIONS = None

    def __init__(self):
        self._registry = OrderedDict()
        self._traitname_grpname = OrderedDict()

        for grp_name, grp_items in self.OPTIONS:
            grp = TraitGroup(grp_name)
            self._registry[grp_name] = grp
            for trait_name, trait in grp_items:
                trait_name = trait_name.lower()
                grp.register_trait(trait_name, trait)
                self._traitname_grpname[trait_name] = grp_name

    def get_group(self, name):
        return self._registry[name]

    def get_group_names(self):
        return self._registry.keys()

    def get_trait(self, trait_name):
        grp_name = self._traitname_grpname[trait_name]
        grp = self._registry[grp_name]
        return grp.get_trait(trait_name)

    def get_trait_names(self):
        names = []
        for grp in self._registry.values():
            names += grp.get_trait_names()
        return set(names)

    def get_trait_names_for_group(self, name):
        grp = self.get_group(name)
        return grp.get_trait_names()
Exemplo n.º 4
0
class PluginManager(object):

    PREFIX = 'plugin'
    LABEL = ''

    def __init__(self, display_name, name, section):
        super(PluginManager, self).__init__()
        self.display_name = display_name
        self.name = name
        self.section = section
        self._plugins = OrderedDict()
        self._instances = OrderedDict()
        self._observer = []

    def init_from_settings(self, settings):
        plugin_params = {}
        plugin_cls_names = {}

        for option_name in settings.options(self.section):
            items = option_name.split('__')
            if len(items
                   ) > 4 and items[0] == self.PREFIX and items[1] == self.name:
                plugin_cls_name = items[2]
                plugin_name = items[3]
                params = items[4]
                if not plugin_name in plugin_cls_names:
                    plugin_cls_names[plugin_name] = plugin_cls_name
                else:
                    assert plugin_cls_names[plugin_name] == plugin_cls_name
                plugin_params.setdefault(plugin_name, []).append(
                    (option_name, params))

        for plugin_name in plugin_params:
            plugin_cls_name = plugin_cls_names[plugin_name]
            plugin_cls = self._plugins[plugin_cls_name]
            param_manager = \
                ParamManager.from_settings(plugin_cls, plugin_name, settings, self, plugin_params[plugin_name])
            instance = plugin_cls(plugin_name, param_manager)
            self._instances[plugin_name] = instance
            self.notify_instance_modified(plugin_name)

        for observer in self._observer:
            observer.init()

    def clear(self):
        for plugin_name, instance in self._instances.iteritems():
            instance.close()
            self.notify_instance_modified(plugin_name, True)
        self._instances.clear()

    def add_instance(self, plugin_cls_name, settings):
        if not plugin_cls_name in self._plugins:
            raise ValueError("Plugin '%s' not registered for '%s'." %
                             (plugin_cls_name, self.name))

        plugin_cls = self._plugins[plugin_cls_name]
        plugin_name = self._get_plugin_name(plugin_cls)
        param_manager = ParamManager(plugin_cls, plugin_name, settings, self)
        instance = plugin_cls(plugin_name, param_manager)
        self._instances[plugin_name] = instance
        self.notify_instance_modified(plugin_name)
        return plugin_name

    def remove_instance(self, plugin_name, settings):
        if not plugin_name in self._instances:
            raise ValueError("Plugin instance '%s' not found for '%s'." %
                             (plugin_name, self.name))

        plugin = self._instances[plugin_name]
        plugin.close()
        del self._instances[plugin_name]
        self.notify_instance_modified(plugin_name, True)

    def notify_instance_modified(self, plugin_name, removed=False):
        for observer in self._observer:
            observer.notify(plugin_name, removed)

    def _get_plugin_name(self, plugin_cls):
        """
        generate new plugin name which is not used yet. starting at the plugin class NAME and appending numbers from
        2 to n, like 'primary', 'primary2', 'primary3'
        """
        cnt = 2
        result = plugin_cls.NAME
        while result in self._instances:
            result = plugin_cls.NAME + str(cnt)
            cnt += 1
        return result

    def get_trait_name_template(self, plugin_cls_name, plugin_name):
        return '__'.join(
            [self.PREFIX, self.name, plugin_cls_name, plugin_name, '%s'])

    def register_plugin(self, plugin_cls):
        self._plugins[plugin_cls.NAME] = plugin_cls

    def register_observer(self, observer):
        self._observer.append(observer)

    def unregister_observer(self, observer):
        self._observer.remove(observer)

    def add_referee_to_instance(self, plugin_name, referee):
        instance = self.get_plugin_instance(plugin_name)
        instance.add_referee(referee)

    def remove_referee_from_instance(self, plugin_name, referee):
        instance = self.get_plugin_instance(plugin_name)
        instance.remove_referee(referee)

    def handle_referee(self, plugin_name_new, plugin_name_old, referee):
        # remove old and add new referee to instance
        #print self.name, plugin_name_new, plugin_name_old, referee
        if plugin_name_old in self._instances:
            self.remove_referee_from_instance(plugin_name_old, referee)
        if plugin_name_new in self._instances:
            self.add_referee_to_instance(plugin_name_new, referee)

    def get_referees_for_instance(self, plugin_name):
        instance = self.get_plugin_instance(plugin_name)
        return instance.referees

    def get_plugin_cls_names(self):
        return self._plugins.keys()

    def get_plugin_labels(self):
        return [(name, cls.LABEL) for name, cls in self._plugins.iteritems()]

    def get_plugin_names(self):
        return sorted(self._instances.keys())

    def get_plugin_cls(self, name):
        return self._plugins[name]

    def get_plugin_instance(self, name):
        return self._instances[name]

    def number_loaded_plugins(self):
        """Return the number of plugins that are invoked if run is executed."""
        return len(self._instances)

    # FIXME **option is dangerous, what if one calls run(foo=bar)
    @stopwatch(level=logging.INFO)
    def run(self, *args, **options):
        results = OrderedDict()
        for instance in self._instances.itervalues():
            inst_args = list(args)
            if not instance.REQUIRES is None:
                if not 'requirements' in options:
                    raise ValueError((
                        "PluginManager(%s).run needs 'requirements' options, "
                        "because Plugin instances '%s' defines requirements." %
                        (self.name, instance.name)))
                requirements = options['requirements']
                for idx in range(len(instance.REQUIRES)):
                    value = instance.get_requirement_info(idx)[1]
                    data = requirements[idx].get_requirement(value)
                    inst_args.append(data)
            results[instance.name] = instance.run(*inst_args)
        return results
Exemplo n.º 5
0
class PluginBay(QFrame):
    def __init__(self, parent, plugin_manager, settings):
        super(QFrame, self).__init__(parent)
        self.plugin_manager = plugin_manager
        self.plugin_manager.register_observer(self)

        self.settings = settings
        self._plugins = OrderedDict()

        self.setStyleSheet(
            "PluginItem { border: 1px solid black; background: white; }")

        layout = QVBoxLayout(self)
        layout.setContentsMargins(0, 0, 0, 0)
        frame1 = QFrame(self)
        self._frame2 = QFrame(self)
        layout.addWidget(frame1)
        layout.addSpacing(10)
        layout.addWidget(self._frame2)

        label = QLabel('%s plugins' % plugin_manager.display_name, frame1)
        label.setStyleSheet("font-weight: bold;")
        btn = QPushButton('Add', frame1)
        btn.clicked.connect(self._on_add_plugin)
        self._cb = QComboBox(frame1)
        self._set_plugin_labels()

        layout = QHBoxLayout(frame1)
        layout.setContentsMargins(0, 0, 0, 0)
        layout.addWidget(label)
        layout.addWidget(self._cb, 1)
        layout.addWidget(btn)

        layout = QVBoxLayout(self._frame2)
        layout.setContentsMargins(0, 0, 0, 0)

    def init(self):
        self.reset()
        for plugin_name in self.plugin_manager.get_plugin_names():
            self.add_plugin(plugin_name)

    def notify(self, plugin_name, removed):
        pass

    def _set_plugin_labels(self):
        self._cb.clear()
        for name, label in self.plugin_manager.get_plugin_labels():
            self._cb.addItem(label, name)

    def reset(self):
        self._set_plugin_labels()
        for plugin_name in self._plugins.keys()[:]:
            self.remove_plugin(plugin_name)

    def add_plugin(self, plugin_name):
        plugin = self.plugin_manager.get_plugin_instance(plugin_name)
        item = PluginItem(self._frame2, plugin, self.settings)
        item.remove_item.connect(
            functools.partial(self._on_remove_plugin, plugin_name))
        layout = self._frame2.layout()
        layout.insertWidget(0, item)
        self._plugins[plugin_name] = item

    def remove_plugin(self, plugin_name):
        layout = self._frame2.layout()
        item = self._plugins[plugin_name]
        item.close()
        layout.removeWidget(item)
        del self._plugins[plugin_name]

    def _on_add_plugin(self):
        name_cls = self._cb.itemData(self._cb.currentIndex())
        plugin_name = self.plugin_manager.add_instance(name_cls, self.settings)
        self.add_plugin(plugin_name)

    def _on_remove_plugin(self, plugin_name):
        instance = self.plugin_manager.get_plugin_instance(plugin_name)
        result = False
        n = len(instance.referees)
        if n == 0:
            result = question(None, 'Removing the plugin "%s"' % plugin_name,
                              "Are you sure to remove this plugin?")
        elif n > 0:
            detail = '\n'.join(['%s (%s)' % x[:2] for x in instance.referees])
            result = question(
                None,
                'Removing the plugin "%s"' % plugin_name,
                '%d other plugin%s require%s this plugin.\n\nAre you sure to remove this plugin?'
                % (n, 's' if n > 1 else '', 's' if n == 1 else ''),
                detail=detail,
                icon=QMessageBox.Warning)
        if result:
            self.remove_plugin(plugin_name)
            self.plugin_manager.remove_instance(plugin_name, self.settings)
Exemplo n.º 6
0
class TabControl(QFrame):
    """General tab control: list of buttons at the top and stacked widget below"""

    current_changed = pyqtSignal(int)

    def __init__(self, parent, hide_one=True):
        QFrame.__init__(self, parent)

        self.setStyleSheet(TAB_STYLE)

        self._hide_one = hide_one
        self._tabs = OrderedDict()
        layout = QVBoxLayout(self)
        layout.setContentsMargins(0, 0, 0, 0)
        self._btn_frame = QFrame(self)
        self._btn_grp = QButtonGroup(self._btn_frame)
        self._btn_grp.setExclusive(True)
        self._btn_layout = QHBoxLayout(self._btn_frame)
        self._btn_layout.insertStretch(0, 1)
        self._btn_layout.insertStretch(1, 1)
        self._stacked_frame = QStackedWidget(self)
        self._stacked_frame.setObjectName('stacked')
        layout.addWidget(self._btn_frame)
        layout.addWidget(self._stacked_frame)
        self._btn_frame.hide()
        self._current_name = None

    def add_tab(self, name, frame):
        scroll_area = QScrollArea(self)
        scroll_area.setVerticalScrollBarPolicy(Qt.ScrollBarAsNeeded)
        scroll_area.setHorizontalScrollBarPolicy(Qt.ScrollBarAsNeeded)
        scroll_area.setWidgetResizable(True)
        scroll_area.setFrameShape(QFrame.NoFrame)
        scroll_area.setWidget(frame)

        btn = QPushButton(name, self._btn_frame)
        btn.setObjectName('tab')
        btn.setFlat(True)
        btn.setCheckable(True)
        btn.toggled.connect(functools.partial(self._on_btn_toggled, name))
        self._btn_grp.addButton(btn)
        self._tabs[name] = (scroll_area, frame, btn)
        self._stacked_frame.addWidget(scroll_area)
        self._btn_layout.insertWidget(len(self._tabs), btn)
        if not self._hide_one or len(self._tabs) > 1:
            self._btn_frame.show()

        self._current_name = name

    def remove_tab(self, name):
        scroll_area = self._tabs[name][0]
        btn = self._tabs[name][1]
        self._btn_layout.removeWidget(btn)
        self._stacked_frame.removeWidget(scroll_area)
        if (self._hide_one and len(self._tabs) <= 1) or (not self._hide_one and len(self._tabs) == 0):
            self._btn_frame.hide()

    def set_active(self, name, toggle=True):
        scroll_area = self._tabs[name][0]
        if toggle:
            btn = self._tabs[name][2]
            btn.setChecked(True)
        self._stacked_frame.setCurrentWidget(scroll_area)
        self._current_name = name
        self.current_changed.emit(self._tabs.index(name))

    def set_active_index(self, index):
        name = self._tabs.keys()[index]
        self.set_active(name)

    def _on_btn_toggled(self, name):
        self.set_active(name, toggle=False)

    def enable_non_active(self, state=True):
        for name in self._tabs:
            frame, btn = self._tabs[name][1:]
            if frame != self._stacked_frame.currentWidget():
                btn.setEnabled(state)

    def get_frame(self, name):
        return self._tabs[name][1]

    @property
    def current_name(self):
        return self._current_name

    @property
    def current_index(self):
        return self._tabs.index(self._current_name)
Exemplo n.º 7
0
class CellAnalyzer(PropertyManager):

    PROPERTIES = \
        dict(P =
                 StringProperty(True, doc=''),
             bCreateImages =
                 BooleanProperty(True, doc="Create output images"),
             iBinningFactor =
                 IntProperty(None,
                             is_mandatory=True,
                             doc=''),
             detect_objects =
                 BooleanProperty(True),


             time_holder =
                 InstanceProperty(None,
                                  TimeHolder,
                                  doc="Instance of TimeHolder.",
                                  is_mandatory=True),
            )

    __attributes__ = [Attribute('_channel_registry'),
                      Attribute('_iT'),
                      Attribute('_oLogger'),
                      ]

    def __init__(self, **dctOptions):
        super(CellAnalyzer, self).__init__(**dctOptions)
        self._oLogger = logging.getLogger(self.__class__.__name__)

    def initTimepoint(self, iT):
        self._channel_registry = OrderedDict()
        self._iT = iT
        self.time_holder.initTimePoint(iT)

    def register_channel(self, channel):
        self._channel_registry[channel.NAME] = channel

    def get_channel_names(self):
        return self._channel_registry.keys()

    def get_channel(self, name):
        return self._channel_registry[name]

    def process(self, apply=True, extract_features=True):
        # sort by Channel `RANK`
        channels = sorted(self._channel_registry.values())
        primary_channel = None
        for channel in channels:

            self.time_holder.prepare_raw_image(channel)

            if self.detect_objects:
                self.time_holder.apply_segmentation(channel, primary_channel)
                if extract_features:
                    self.time_holder.apply_features(channel)

                if primary_channel is None:
                    assert channel.RANK == 1
                    primary_channel = channel

        if apply:
            for channel in channels:
                self.time_holder.apply_channel(channel)

    def purge(self, features=None):
        for oChannel in self._channel_registry.values():
            if not features is None and oChannel.strChannelId in features:
                channelFeatures = features[oChannel.strChannelId]
            else:
                channelFeatures = None
            oChannel.purge(features=channelFeatures)

    def exportLabelImages(self, pathOut, compression='LZW'):
        for name, channel in self._channel_registry.iteritems():
            channel_id = channel.strChannelId
            for strRegion, oContainer in channel.dctContainers.iteritems():
                strPathOutImage = os.path.join(pathOut,
                                               channel_id,
                                               strRegion)
                safe_mkdirs(strPathOutImage)
                oContainer.exportLabelImage(os.path.join(strPathOutImage,
                                                         'P%s_T%05d.tif' % (self.P, self._iT)),
                                            compression)

    def getImageSize(self, name):
        oChannel = self._channel_registry[name]
        w = oChannel.meta_image.width
        h = oChannel.meta_image.height
        return (w,h)

    def render(self, strPathOut, dctRenderInfo=None,
               strFileSuffix='.jpg', strCompression='98', writeToDisc=True,
               images=None):
        lstImages = []
        if not images is None:
            lstImages += images

        if dctRenderInfo is None:
            for name, oChannel in self._channel_registry.iteritems():
                for strRegion, oContainer in oChannel.dctContainers.iteritems():
                    strHexColor, fAlpha = oChannel.dctAreaRendering[strRegion]
                    imgRaw = oChannel.meta_image.image
                    imgCon = ccore.Image(imgRaw.width, imgRaw.height)
                    ccore.drawContour(oContainer.getBinary(), imgCon, 255, False)
                    lstImages.append((imgRaw, strHexColor, 1.0))
                    lstImages.append((imgCon, strHexColor, fAlpha))
        else:
            for channel_name, dctChannelInfo in dctRenderInfo.iteritems():
                if channel_name in self._channel_registry:
                    oChannel = self._channel_registry[channel_name]
                    if 'raw' in dctChannelInfo:
                        strHexColor, fAlpha = dctChannelInfo['raw']
                        lstImages.append((oChannel.meta_image.image, strHexColor, fAlpha))

                    if 'contours' in dctChannelInfo:
                        # transform the old dict-style to the new tuple-style,
                        # which allows multiple definitions for one region
                        if type(dctChannelInfo['contours']) == types.DictType:
                            lstContourInfos = [(k,)+v
                                               for k,v in dctChannelInfo['contours'].iteritems()]
                        else:
                            lstContourInfos = dctChannelInfo['contours']

                        for tplData in lstContourInfos:
                            strRegion, strNameOrColor, fAlpha, bShowLabels = tplData[:4]

                            # draw contours only if region is present
                            if oChannel.has_region(strRegion):
                                if len(tplData) > 4:
                                    bThickContours = tplData[4]
                                else:
                                    bThickContours = False
                                if strNameOrColor == 'class_label':
                                    oContainer = oChannel.dctContainers[strRegion]
                                    oRegion = oChannel.get_region(strRegion)
                                    dctLabels = {}
                                    dctColors = {}
                                    for iObjId, oObj in oRegion.iteritems():
                                        iLabel = oObj.iLabel
                                        if not iLabel is None:
                                            if not iLabel in dctLabels:
                                                dctLabels[iLabel] = []
                                            dctLabels[iLabel].append(iObjId)
                                            dctColors[iLabel] = oObj.strHexColor
                                    #print dctLabels
                                    imgRaw = oChannel.meta_image.image
                                    imgCon2 = ccore.Image(imgRaw.width, imgRaw.height)
                                    for iLabel, lstObjIds in dctLabels.iteritems():
                                        imgCon = ccore.Image(imgRaw.width, imgRaw.height)
                                        oContainer.drawContoursByIds(lstObjIds, 255, imgCon, bThickContours, False)
                                        lstImages.append((imgCon, dctColors[iLabel], fAlpha))

                                        if type(bShowLabels) == types.BooleanType and bShowLabels:
                                        #    oContainer.drawTextsByIds(lstObjIds, lstObjIds, imgCon2)
                                        #else:
                                            oContainer.drawTextsByIds(lstObjIds, [str(iLabel)]*len(lstObjIds), imgCon2)
                                    lstImages.append((imgCon2, '#FFFFFF', 1.0))

                                else:
                                    oContainer = oChannel.dctContainers[strRegion]
                                    oRegion = oChannel.get_region(strRegion)
                                    lstObjIds = oRegion.keys()
                                    imgRaw = oChannel.meta_image.image
                                    imgCon = ccore.Image(imgRaw.width, imgRaw.height)
                                    if not strNameOrColor is None:
                                        oContainer.drawContoursByIds(lstObjIds, 255, imgCon, bThickContours, False)
                                    else:
                                        strNameOrColor = '#FFFFFF'
                                    lstImages.append((imgCon, strNameOrColor, fAlpha))
                                    if bShowLabels:
                                        imgCon2 = ccore.Image(imgRaw.width, imgRaw.height)
                                        oContainer.drawLabelsByIds(lstObjIds, imgCon2)
                                        lstImages.append((imgCon2, '#FFFFFF', 1.0))


        if len(lstImages) > 0:
            imgRgb = ccore.makeRGBImage([x[0].getView() for x in lstImages],
                                        [ccore.RGBValue(*hexToRgb(x[1])) for x in lstImages],
                                        [x[2] for x in lstImages])

            if writeToDisc:
                strFilePath = os.path.join(strPathOut, "P%s_T%05d%s" % (self.P, self._iT, strFileSuffix))
                safe_mkdirs(strPathOut)
                ccore.writeImage(imgRgb, strFilePath, strCompression)
                self._oLogger.debug("* rendered image written '%s'" % strFilePath)
            else:
                strFilePath = ''
            return imgRgb, strFilePath


    def collectObjects(self, plate_id, P, lstReader, oLearner, byTime=True):

        #channel_name = oLearner.strChannelId
        strRegionId = oLearner.strRegionId
        img_rgb = None

        self._oLogger.debug('* collecting samples...')

#        bSuccess = True
#        channels = sorted(self._channel_registry.values())
#        primary_cChannel = None
#        for channel2 in lstChannels:
#
#            self.time_holder.prepare_raw_image(channel)
#            self.time_holder.apply_segmentation(oChannel2, oPrimaryChannel)
#
#            if oPrimaryChannel is None:
#                assert oChannel2.RANK == 1
#                oPrimaryChannel = oChannel2
        self.process(apply = False, extract_features = False)

        # self._channel_registry
        oChannel = self._channel_registry[oLearner.channel_name]
        oContainer = oChannel.get_container(strRegionId)
        objects = oContainer.getObjects()

        object_lookup = {}
        for oReader in lstReader:
            lstCoordinates = None
            if (byTime and P == oReader.getPosition() and self._iT in oReader):
                lstCoordinates = oReader[self._iT]
            elif (not byTime and P in oReader):
                lstCoordinates = oReader[P]
            #print "moo", P, oReader.getPosition(), byTime, self._iT in oReader
            #print lstCoordinates, byTime, self.P, oReader.keys()

            if not lstCoordinates is None:
                #print self.iP, self._iT, lstCoordinates
                for dctData in lstCoordinates:
                    label = dctData['iClassLabel']
                    if (label in oLearner.dctClassNames and
                        dctData['iPosX'] >= 0 and
                        dctData['iPosX'] < oContainer.width and
                        dctData['iPosY'] >= 0 and
                        dctData['iPosY'] < oContainer.height):

                        center1 = ccore.Diff2D(dctData['iPosX'],
                                               dctData['iPosY'])

                        # test for obj_id "under" annotated pixel first
                        obj_id = oContainer.img_labels[center1]

                        # if not background: valid obj_id found
                        if obj_id > 0:
                            dict_append_list(object_lookup, label, obj_id)

                        # otherwise try to find nearest object in a search
                        # radius of 30 pixel (compatibility with CellCounter)
                        else:
                            dists = []
                            for obj_id, obj in objects.iteritems():
                                diff = obj.oCenterAbs - center1
                                dist_sq = diff.squaredMagnitude()
                                # limit to 30 pixel radius
                                if dist_sq < 900:
                                    dists.append((obj_id, dist_sq))
                            if len(dists) > 0:
                                dists.sort(lambda a,b: cmp(a[1], b[1]))
                                obj_id = dists[0][0]
                                dict_append_list(object_lookup, label, obj_id)

        object_ids = set(flatten(object_lookup.values()))
        objects_del = set(objects.keys()) - object_ids
        for obj_id in objects_del:
            oContainer.delObject(obj_id)

        self.time_holder.apply_features(oChannel)
        region = oChannel.get_region(strRegionId)

        learner_objects = []
        for label, object_ids in object_lookup.iteritems():
            class_name = oLearner.dctClassNames[label]
            hex_color = oLearner.dctHexColors[class_name]
            rgb_value = ccore.RGBValue(*hexToRgb(hex_color))
            for obj_id in object_ids:
                obj = region[obj_id]
                obj.iLabel = label
                obj.strClassName = class_name
                obj.strHexColor = hex_color

                if (obj.oRoi.upperLeft[0] >= 0 and
                    obj.oRoi.upperLeft[1] >= 0 and
                    obj.oRoi.lowerRight[0] < oContainer.width and
                    obj.oRoi.lowerRight[1] < oContainer.height):
                    iCenterX, iCenterY = obj.oCenterAbs

                    strPathOutLabel = os.path.join(oLearner.dctEnvPaths['samples'],
                                                   oLearner.dctClassNames[label])
                    safe_mkdirs(strPathOutLabel)

                    strFilenameBase = 'PL%s___P%s___T%05d___X%04d___Y%04d' % (plate_id, self.P, self._iT, iCenterX, iCenterY)

                    obj.sample_id = strFilenameBase
                    learner_objects.append(obj)

                    strFilenameImg = os.path.join(strPathOutLabel, '%s___img.png' % strFilenameBase)
                    strFilenameMsk = os.path.join(strPathOutLabel, '%s___msk.png' % strFilenameBase)
                    # FIXME: export Objects is segfaulting for objects
                    #        where its bounding box is touching the border
                    #        i.e. one corner point equals zero!
                    oContainer.exportObject(obj_id,
                                            strFilenameImg,
                                            strFilenameMsk)

                    oContainer.markObjects([obj_id], rgb_value, False, True)

                    #print obj_id, obj.oCenterAbs, iCenterX, iCenterY
                    print '*** CSdebug: drawFilledCircle', iCenterX, iCenterY
                    ccore.drawFilledCircle(ccore.Diff2D(iCenterX, iCenterY),
                                           3, oContainer.img_rgb, rgb_value)


        if len(learner_objects) > 0:
            oLearner.applyObjects(learner_objects)
            # we don't want to apply None for feature names
            oLearner.setFeatureNames(oChannel.lstFeatureNames)

        strPathOut = os.path.join(oLearner.dctEnvPaths['controls'])
        safe_mkdirs(strPathOut)
        oContainer.exportRGB(os.path.join(strPathOut,
                                          "P%s_T%05d_C%s_R%s.jpg" %\
                                           (self.P, self._iT, oLearner.strChannelId, oLearner.strRegionId)),
                            '90')
        img_rgb = oContainer.img_rgb
        return img_rgb


    def classifyObjects(self, oPredictor):
        channel_name = oPredictor.strChannelId
        strRegionId = oPredictor.strRegionId
        oChannel = self._channel_registry[channel_name]
        oRegion = oChannel.get_region(strRegionId)
        for iObjId, oObj in oRegion.iteritems():
            iLabel, dctProb = oPredictor.predict(oObj.aFeatures.copy(), oRegion.getFeatureNames())
            oObj.iLabel = iLabel
            oObj.dctProb = dctProb
            oObj.strClassName = oPredictor.dctClassNames[iLabel]
            oObj.strHexColor = oPredictor.dctHexColors[oObj.strClassName]
Exemplo n.º 8
0
class PluginBay(QFrame):

    def __init__(self, parent, plugin_manager, settings):
        super(QFrame, self).__init__(parent)
        self.plugin_manager = plugin_manager
        self.plugin_manager.register_observer(self)

        self.settings = settings
        self._plugins = OrderedDict()

        self.setStyleSheet("PluginItem { border: 1px solid black; background: white; }")

        layout = QVBoxLayout(self)
        layout.setContentsMargins(0, 0, 0, 0)
        frame1 = QFrame(self)
        self._frame2 = QFrame(self)
        layout.addWidget(frame1)
        layout.addSpacing(10)
        layout.addWidget(self._frame2)

        label = QLabel('%s plugins' % plugin_manager.display_name, frame1)
        label.setStyleSheet("font-weight: bold;")
        btn = QPushButton('Add', frame1)
        btn.clicked.connect(self._on_add_plugin)
        self._cb = QComboBox(frame1)
        self._set_plugin_labels()

        layout = QHBoxLayout(frame1)
        layout.setContentsMargins(0, 0, 0, 0)
        layout.addWidget(label)
        layout.addWidget(self._cb, 1)
        layout.addWidget(btn)

        layout = QVBoxLayout(self._frame2)
        layout.setContentsMargins(0, 0, 0, 0)

    def init(self):
        self.reset()
        for plugin_name in self.plugin_manager.get_plugin_names():
            self.add_plugin(plugin_name)

    def notify(self, plugin_name, removed):
        pass

    def _set_plugin_labels(self):
        self._cb.clear()
        for name, label in self.plugin_manager.get_plugin_labels():
            self._cb.addItem(label, name)

    def reset(self):
        self._set_plugin_labels()
        for plugin_name in self._plugins.keys()[:]:
            self.remove_plugin(plugin_name)

    def add_plugin(self, plugin_name):
        plugin = self.plugin_manager.get_plugin_instance(plugin_name)
        item = PluginItem(self._frame2, plugin, self.settings)
        item.remove_item.connect(functools.partial(self._on_remove_plugin, plugin_name))
        layout = self._frame2.layout()
        layout.insertWidget(0, item)
        self._plugins[plugin_name] = item

    def remove_plugin(self, plugin_name):
        layout = self._frame2.layout()
        item = self._plugins[plugin_name]
        item.close()
        layout.removeWidget(item)
        del self._plugins[plugin_name]

    def _on_add_plugin(self):
        name_cls = self._cb.itemData(self._cb.currentIndex())
        plugin_name = self.plugin_manager.add_instance(name_cls, self.settings)
        self.add_plugin(plugin_name)

    def _on_remove_plugin(self, plugin_name):
        instance = self.plugin_manager.get_plugin_instance(plugin_name)
        result = False
        n = len(instance.referees)
        if n == 0:
            result = question(None, 'Removing the plugin "%s"' % plugin_name, "Are you sure to remove this plugin?")
        elif n > 0:
            detail = '\n'.join(['%s (%s)' % x[:2] for x in instance.referees])
            result = question(None, 'Removing the plugin "%s"' % plugin_name,
                             '%d other plugin%s require%s this plugin.\n\nAre you sure to remove this plugin?' %
                             (n, 's' if n > 1 else '', 's' if n == 1 else ''),
                             detail=detail, icon=QMessageBox.Warning)
        if result:
            self.remove_plugin(plugin_name)
            self.plugin_manager.remove_instance(plugin_name, self.settings)