示例#1
0
    (re.compile(r'__libcalico_version__\s*=\s*".*"'),
     '__libcalico_version__ = "{libcalico-version}-dev"'),

    (re.compile(r'__felix_version__\s*=\s*".*"'),
     '__felix_version__ = "{calico-version}-dev"'),

    (re.compile(r'__kubernetes_plugin_version__\s*=\s*".*"'),
     '__kubernetes_plugin_version__ = "{kubernetes-version}"'),

    (re.compile(r'https://github\.com/projectcalico/calico\-docker/blob/.*/README\.md'),
     'https://github.com/projectcalico/calico-docker/blob/{version}/README.md')
]


# Load the globally required release data.
release_data = utils.load_release_data()


# ============== Define the release steps. ===============

def start_release():
    """
    Start the release process, asking user for version information.
    :return:
    """
    para("Step 1 of 5: Create and push release branch with new versions.")
    para("Your git repository should be checked out to the correct revision "
         "that you want to cut a release with.  This is usually the HEAD of "
         "the master branch.")
    utils.check_or_exit("Are you currently on the correct revision")
示例#2
0
    def __init__(self, gui_params, params):

        self.curation_data = utils.load_manual_curation(
            params['curation_csvpath'])
        self.males_list = utils.load_male_list(params['male_listpath'])
        self.induction_dates = utils.load_induction_data(
            params['induction_csvpath'])
        self.season_data = utils.load_pond_season_data(
            params['pond_season_csvpath'])
        self.early_release = utils.load_release_data(
            params['early_release_csvpath'])
        self.late_release = utils.load_release_data(
            params['late_release_csvpath'])
        self.duplicate_data = utils.load_duplicate_data(
            params['duplicate_csvpath'])
        self.experimenter_data, self.inducer_data = utils.load_experimenter_data(
            params['experimenter_csvpath'])

        self.gui_params = gui_params
        self.params = params
        self.params.update(self.gui_params)
        self.auto_save_count = 0

        file_list = []
        metadata_list = []
        print "Reading in image file list"

        with open(self.params["image_list_filepath"], "rb") as f:
            line = f.readline().strip()
            while line:
                file_list.append(line)
                line = f.readline().strip()

        print "Reading in analysis file"

        self.data = utils.csv_to_df(self.params["input_analysis_file"])

        try:
            saved_data = utils.csv_to_df(self.params["output_analysis_file"])

            for row in saved_data.iterrows():
                i = np.where(self.data['filebase'] == row[1]['filebase'])
                for k, v in row[1].iteritems():
                    self.data.loc[i[0], k] = v

        except IOError:
            pass

        if not hasattr(self.data, 'accepted'):
            self.data['accepted'] = np.zeros(len(self.data))

        self.shape_data = utils.read_shape_long(
            self.params["input_shape_file"])

        try:
            saved_shape_data = utils.read_shape_long(
                self.params["output_shape_file"])
            fbs = np.unique(saved_shape_data['filebase'])
            self.shape_data = self.shape_data.drop(
                self.shape_data[self.shape_data['filebase'].isin(fbs)].index)
            self.shape_data = self.shape_data.append(saved_shape_data)
        except IOError:
            pass

        try:
            self.masked_regions = utils.read_masked_regions_long(
                self.params["masked_regions_output"])
        except IOError:
            self.masked_regions = {}

        all_clone_list = []

        for f in file_list:
            try:
                fileparts = f.split("/")
                clone = utils.dfrow_to_clone(
                    self.data,
                    np.where(self.data.filebase == fileparts[-1])[0][0],
                    self.params)
                clone.filepath = f
                all_clone_list.append(clone)

            except IndexError:
                print "No entry found in datafile for " + str(f)

        for i in xrange(len(all_clone_list)):
            index = (self.shape_data.filebase == all_clone_list[i].filebase)
            all_clone_list[i].dorsal_edge = np.transpose(
                np.vstack((np.transpose(self.shape_data.loc[index].x),
                           np.transpose(self.shape_data.loc[index].y))))
            all_clone_list[i].q = np.array(self.shape_data.loc[index].q)
            all_clone_list[i].qi = np.array(self.shape_data.loc[index].qi)
            idx = self.shape_data.loc[index].checkpoint == 1
            all_clone_list[i].checkpoints = all_clone_list[i].dorsal_edge[
                idx, :]

        clone_list = []
        for clone in all_clone_list:
            if len(clone.dorsal_edge) > 0:
                if not (int(self.params['skip_accepted']) and clone.accepted):
                    clone_list.append(clone)
            else:
                print "No shape data found for " + clone.filebase

        if len(clone_list) == 0:
            print "Either image list is empty or they have all been 'accepted'"
            return

        self.all_clone_list = all_clone_list
        self.clone_list = clone_list

        self.curr_idx = 0
        self.clone = self.clone_list[self.curr_idx]

        self.saving = 0
        self.fig = plt.figure(figsize=(15, 10))
        self.fig.patch.set_facecolor("lightgrey")
        self.display = self.fig.add_subplot(111)
        self.display.axis('off')

        try:
            self.obj = PointFixer(self.clone, self.display)

            try:
                self.obj.masked_regions = self.masked_regions[
                    self.clone.filebase]
                self.mask_all_regions()
            except (AttributeError, KeyError):
                pass

        except IOError:

            try:
                self.clone.modification_notes += " Image file not found."
            except TypeError:
                self.clone.modification_notes = "Image file not found."

            if self.curr_idx < len(self.clone_list) - 1:
                self.next_button_press(1)

        self.obj.clone.modifier = self.gui_params["default_modifier"]
        self.populate_figure()
        self.add_checkpoint = False

        return
示例#3
0
    (re.compile(r'__libnetwork_plugin_version__\s*=\s*".*"'),
     '__libnetwork_plugin_version__ = "{libnetwork-version}-dev"'),
    (re.compile(r'__libcalico_version__\s*=\s*".*"'),
     '__libcalico_version__ = "{libcalico-version}-dev"'),
    (re.compile(r'__felix_version__\s*=\s*".*"'),
     '__felix_version__ = "{calico-version}-dev"'),
    (re.compile(r'__kubernetes_plugin_version__\s*=\s*".*"'),
     '__kubernetes_plugin_version__ = "{kubernetes-version}"'),
    (re.compile(
        r'https://github\.com/projectcalico/calico\-docker/blob/.*/README\.md'
    ),
     'https://github.com/projectcalico/calico-docker/blob/{version}/README.md')
]

# Load the globally required release data.
release_data = utils.load_release_data()

# ============== Define the release steps. ===============


def start_release():
    """
    Start the release process, asking user for version information.
    :return:
    """
    para("Step 1 of 5: Create and push release branch with new versions.")
    para("Your git repository should be checked out to the correct revision "
         "that you want to cut a release with.  This is usually the HEAD of "
         "the master branch.")
    utils.check_or_exit("Are you currently on the correct revision")