def create_zonal_layer_selector(self):
self.zonal_layer_gbx = QGroupBox()
self.zonal_layer_gbx.setTitle('Aggregate by zone (optional)')
self.zonal_layer_gbx.setCheckable(True)
self.zonal_layer_gbx.setChecked(False)
self.zonal_layer_gbx_v_layout = QVBoxLayout()
self.zonal_layer_gbx.setLayout(self.zonal_layer_gbx_v_layout)
self.zonal_layer_cbx = QComboBox()
self.zonal_layer_cbx.addItem('')
self.zonal_layer_lbl = QLabel('Zonal layer')
self.zonal_layer_tbn = QToolButton()
self.zonal_layer_tbn.setText('...')
self.zonal_layer_h_layout = QHBoxLayout()
self.zonal_layer_h_layout.addWidget(self.zonal_layer_cbx)
self.zonal_layer_h_layout.addWidget(self.zonal_layer_tbn)
self.zonal_layer_gbx_v_layout.addWidget(self.zonal_layer_lbl)
self.zonal_layer_gbx_v_layout.addLayout(self.zonal_layer_h_layout)
self.zone_id_field_lbl = QLabel('Field containing zone ids')
self.zone_id_field_cbx = QComboBox()
self.zonal_layer_gbx_v_layout.addWidget(self.zone_id_field_lbl)
self.zonal_layer_gbx_v_layout.addWidget(self.zone_id_field_cbx)
self.vlayout.addWidget(self.zonal_layer_gbx)
self.zonal_layer_tbn.clicked.connect(self.on_zonal_layer_tbn_clicked)
self.zonal_layer_cbx.currentIndexChanged[int].connect(
self.on_zonal_layer_cbx_currentIndexChanged)
self.zonal_layer_gbx.toggled[bool].connect(
self.on_zonal_layer_gbx_toggled)
def setupUi(self, autoSaverDialogBase):
autoSaverDialogBase.setObjectName(_fromUtf8("autoSaverDialogBase"))
autoSaverDialogBase.resize(364, 141)
self.buttonOkNo = QDialogButtonBox(autoSaverDialogBase)
self.buttonOkNo.setGeometry(QtCore.QRect(185, 103, 171, 32))
self.buttonOkNo.setOrientation(QtCore.Qt.Horizontal)
self.buttonOkNo.setStandardButtons(QDialogButtonBox.Cancel|QDialogButtonBox.Ok)
self.buttonOkNo.setObjectName(_fromUtf8("buttonOkNo"))
self.enableAutoSave = QCheckBox(autoSaverDialogBase)
self.enableAutoSave.setGeometry(QtCore.QRect(30, 10, 151, 17))
self.enableAutoSave.setObjectName(_fromUtf8("enableAutoSave"))
self.enableAlternate = QCheckBox(autoSaverDialogBase)
self.enableAlternate.setGeometry(QtCore.QRect(30, 30, 321, 17))
self.enableAlternate.setObjectName(_fromUtf8("enableAlternate"))
self.interval = QLineEdit(autoSaverDialogBase)
self.interval.setGeometry(QtCore.QRect(12, 110, 31, 20))
font = QtGui.QFont()
font.setPointSize(7)
self.interval.setFont(font)
self.interval.setInputMethodHints(QtCore.Qt.ImhNone)
self.interval.setAlignment(QtCore.Qt.AlignRight|QtCore.Qt.AlignTrailing|QtCore.Qt.AlignVCenter)
self.interval.setObjectName(_fromUtf8("interval"))
self.intervalLabel = QLabel(autoSaverDialogBase)
self.intervalLabel.setGeometry(QtCore.QRect(48, 110, 91, 16))
self.intervalLabel.setObjectName(_fromUtf8("intervalLabel"))
self.enableSaveLayers = QCheckBox(autoSaverDialogBase)
self.enableSaveLayers.setGeometry(QtCore.QRect(30, 50, 221, 18))
self.enableSaveLayers.setObjectName(_fromUtf8("enableSaveLayers"))
self.enableSaveLayersBuffer = QCheckBox(autoSaverDialogBase)
self.enableSaveLayersBuffer.setGeometry(QtCore.QRect(30, 70, 321, 18))
self.enableSaveLayersBuffer.setObjectName(_fromUtf8("enableSaveLayersBuffer"))
self.retranslateUi(autoSaverDialogBase)
QtCore.QMetaObject.connectSlotsByName(autoSaverDialogBase)
def create_rlz_or_stat_selector(self, label='Realization'):
self.rlz_or_stat_lbl = QLabel(label)
self.rlz_or_stat_cbx = QComboBox()
self.rlz_or_stat_cbx.setEnabled(False)
self.rlz_or_stat_cbx.currentIndexChanged['QString'].connect(
self.on_rlz_or_stat_changed)
self.vlayout.addWidget(self.rlz_or_stat_lbl)
self.vlayout.addWidget(self.rlz_or_stat_cbx)
def create_loss_type_selector(self):
self.loss_type_lbl = QLabel('Loss Type')
self.loss_type_cbx = QComboBox()
self.loss_type_cbx.setEnabled(False)
self.loss_type_cbx.currentIndexChanged['QString'].connect(
self.on_loss_type_changed)
self.vlayout.addWidget(self.loss_type_lbl)
self.vlayout.addWidget(self.loss_type_cbx)
def create_dmg_state_selector(self):
self.dmg_state_lbl = QLabel('Damage state')
self.dmg_state_cbx = QComboBox()
self.dmg_state_cbx.setEnabled(False)
self.dmg_state_cbx.currentIndexChanged['QString'].connect(
self.on_dmg_state_changed)
self.vlayout.addWidget(self.dmg_state_lbl)
self.vlayout.addWidget(self.dmg_state_cbx)
def create_poe_selector(self):
self.poe_lbl = QLabel('Probability of Exceedance')
self.poe_cbx = QComboBox()
self.poe_cbx.setEnabled(False)
self.poe_cbx.currentIndexChanged['QString'].connect(
self.on_poe_changed)
self.vlayout.addWidget(self.poe_lbl)
self.vlayout.addWidget(self.poe_cbx)
def create_imt_selector(self):
self.imt_lbl = QLabel('Intensity Measure Type')
self.imt_cbx = QComboBox()
self.imt_cbx.setEnabled(False)
self.imt_cbx.currentIndexChanged['QString'].connect(
self.on_imt_changed)
self.vlayout.addWidget(self.imt_lbl)
self.vlayout.addWidget(self.imt_cbx)
def create_file_hlayout(self):
self.file_hlayout = QHBoxLayout()
self.file_lbl = QLabel('File to load')
self.file_browser_tbn = QToolButton()
self.file_browser_tbn.setText('...')
self.file_browser_tbn.clicked.connect(self.on_file_browser_tbn_clicked)
self.path_le = QLineEdit()
self.path_le.setEnabled(False)
self.file_hlayout.addWidget(self.file_lbl)
self.file_hlayout.addWidget(self.file_browser_tbn)
self.file_hlayout.addWidget(self.path_le)
self.vlayout.addLayout(self.file_hlayout)
class Ui_autoSaverDialogBase(object):
def setupUi(self, autoSaverDialogBase):
autoSaverDialogBase.setObjectName(_fromUtf8("autoSaverDialogBase"))
autoSaverDialogBase.resize(364, 141)
self.buttonOkNo = QDialogButtonBox(autoSaverDialogBase)
self.buttonOkNo.setGeometry(QtCore.QRect(185, 103, 171, 32))
self.buttonOkNo.setOrientation(QtCore.Qt.Horizontal)
self.buttonOkNo.setStandardButtons(QDialogButtonBox.Cancel
| QDialogButtonBox.Ok)
self.buttonOkNo.setObjectName(_fromUtf8("buttonOkNo"))
self.enableAutoSave = QCheckBox(autoSaverDialogBase)
self.enableAutoSave.setGeometry(QtCore.QRect(30, 10, 151, 17))
self.enableAutoSave.setObjectName(_fromUtf8("enableAutoSave"))
self.enableAlternate = QCheckBox(autoSaverDialogBase)
self.enableAlternate.setGeometry(QtCore.QRect(30, 30, 321, 17))
self.enableAlternate.setObjectName(_fromUtf8("enableAlternate"))
self.interval = QLineEdit(autoSaverDialogBase)
self.interval.setGeometry(QtCore.QRect(12, 110, 31, 20))
font = QtGui.QFont()
font.setPointSize(7)
self.interval.setFont(font)
self.interval.setInputMethodHints(QtCore.Qt.ImhNone)
self.interval.setAlignment(QtCore.Qt.AlignRight
| QtCore.Qt.AlignTrailing
| QtCore.Qt.AlignVCenter)
self.interval.setObjectName(_fromUtf8("interval"))
self.intervalLabel = QLabel(autoSaverDialogBase)
self.intervalLabel.setGeometry(QtCore.QRect(48, 110, 91, 16))
self.intervalLabel.setObjectName(_fromUtf8("intervalLabel"))
self.enableSaveLayers = QCheckBox(autoSaverDialogBase)
self.enableSaveLayers.setGeometry(QtCore.QRect(30, 50, 221, 18))
self.enableSaveLayers.setObjectName(_fromUtf8("enableSaveLayers"))
self.enableSaveLayersBuffer = QCheckBox(autoSaverDialogBase)
self.enableSaveLayersBuffer.setGeometry(QtCore.QRect(30, 70, 321, 18))
self.enableSaveLayersBuffer.setObjectName(
_fromUtf8("enableSaveLayersBuffer"))
self.retranslateUi(autoSaverDialogBase)
QtCore.QMetaObject.connectSlotsByName(autoSaverDialogBase)
def retranslateUi(self, autoSaverDialogBase):
autoSaverDialogBase.setWindowTitle(
_translate("autoSaverDialogBase", "autoSaver", None))
self.enableAutoSave.setText(
_translate("autoSaverDialogBase", "Enable auto saver", None))
self.enableAlternate.setText(
_translate("autoSaverDialogBase",
"Auto save in alternate backup file (*.bak)", None))
self.interval.setInputMask(
_translate("autoSaverDialogBase", "00; ", None))
self.intervalLabel.setText(
_translate("autoSaverDialogBase", "Interval (minutes)", None))
self.enableSaveLayers.setText(
_translate("autoSaverDialogBase", "Auto save layers in edit mode",
None))
self.enableSaveLayersBuffer.setText(
_translate(
"autoSaverDialogBase",
"Auto save layers in file *.qlv (to open with layerVersion plugin)",
None))
def setupUi(self, autoSaverDialogBase):
autoSaverDialogBase.setObjectName(_fromUtf8("autoSaverDialogBase"))
autoSaverDialogBase.resize(364, 141)
self.buttonOkNo = QDialogButtonBox(autoSaverDialogBase)
self.buttonOkNo.setGeometry(QtCore.QRect(185, 103, 171, 32))
self.buttonOkNo.setOrientation(QtCore.Qt.Horizontal)
self.buttonOkNo.setStandardButtons(QDialogButtonBox.Cancel
| QDialogButtonBox.Ok)
self.buttonOkNo.setObjectName(_fromUtf8("buttonOkNo"))
self.enableAutoSave = QCheckBox(autoSaverDialogBase)
self.enableAutoSave.setGeometry(QtCore.QRect(30, 10, 151, 17))
self.enableAutoSave.setObjectName(_fromUtf8("enableAutoSave"))
self.enableAlternate = QCheckBox(autoSaverDialogBase)
self.enableAlternate.setGeometry(QtCore.QRect(30, 30, 321, 17))
self.enableAlternate.setObjectName(_fromUtf8("enableAlternate"))
self.interval = QLineEdit(autoSaverDialogBase)
self.interval.setGeometry(QtCore.QRect(12, 110, 31, 20))
font = QtGui.QFont()
font.setPointSize(7)
self.interval.setFont(font)
self.interval.setInputMethodHints(QtCore.Qt.ImhNone)
self.interval.setAlignment(QtCore.Qt.AlignRight
| QtCore.Qt.AlignTrailing
| QtCore.Qt.AlignVCenter)
self.interval.setObjectName(_fromUtf8("interval"))
self.intervalLabel = QLabel(autoSaverDialogBase)
self.intervalLabel.setGeometry(QtCore.QRect(48, 110, 91, 16))
self.intervalLabel.setObjectName(_fromUtf8("intervalLabel"))
self.enableSaveLayers = QCheckBox(autoSaverDialogBase)
self.enableSaveLayers.setGeometry(QtCore.QRect(30, 50, 221, 18))
self.enableSaveLayers.setObjectName(_fromUtf8("enableSaveLayers"))
self.enableSaveLayersBuffer = QCheckBox(autoSaverDialogBase)
self.enableSaveLayersBuffer.setGeometry(QtCore.QRect(30, 70, 321, 18))
self.enableSaveLayersBuffer.setObjectName(
_fromUtf8("enableSaveLayersBuffer"))
self.retranslateUi(autoSaverDialogBase)
QtCore.QMetaObject.connectSlotsByName(autoSaverDialogBase)
def __init__(self, parent=None):
super(postTelemacComboboxDialog, self).__init__(parent)
# Set up the user interface from Designer.
# After setupUI you can access any designer object by doing
# self.<objectname>, and you can use autoconnect slots - see
# http://qt-project.org/doc/qt-4.8/designer-using-a-ui-file.html
# #widgets-and-dialogs-with-auto-connect
#self.setupUi(self)
self.layout = QVBoxLayout()
self.label = QLabel()
self.combobox = QComboBox()
self.dlgbuttonbox = QDialogButtonBox(QDialogButtonBox.Ok
| QDialogButtonBox.Cancel)
self.layout.addWidget(self.label)
self.layout.addWidget(self.combobox)
self.layout.addWidget(self.dlgbuttonbox)
self.setLayout(self.layout)
self.dlgbuttonbox.accepted.connect(self.accept)
self.dlgbuttonbox.rejected.connect(self.reject)
class Ui_autoSaverDialogBase(object):
def setupUi(self, autoSaverDialogBase):
autoSaverDialogBase.setObjectName(_fromUtf8("autoSaverDialogBase"))
autoSaverDialogBase.resize(364, 141)
self.buttonOkNo = QDialogButtonBox(autoSaverDialogBase)
self.buttonOkNo.setGeometry(QtCore.QRect(185, 103, 171, 32))
self.buttonOkNo.setOrientation(QtCore.Qt.Horizontal)
self.buttonOkNo.setStandardButtons(QDialogButtonBox.Cancel|QDialogButtonBox.Ok)
self.buttonOkNo.setObjectName(_fromUtf8("buttonOkNo"))
self.enableAutoSave = QCheckBox(autoSaverDialogBase)
self.enableAutoSave.setGeometry(QtCore.QRect(30, 10, 151, 17))
self.enableAutoSave.setObjectName(_fromUtf8("enableAutoSave"))
self.enableAlternate = QCheckBox(autoSaverDialogBase)
self.enableAlternate.setGeometry(QtCore.QRect(30, 30, 321, 17))
self.enableAlternate.setObjectName(_fromUtf8("enableAlternate"))
self.interval = QLineEdit(autoSaverDialogBase)
self.interval.setGeometry(QtCore.QRect(12, 110, 31, 20))
font = QtGui.QFont()
font.setPointSize(7)
self.interval.setFont(font)
self.interval.setInputMethodHints(QtCore.Qt.ImhNone)
self.interval.setAlignment(QtCore.Qt.AlignRight|QtCore.Qt.AlignTrailing|QtCore.Qt.AlignVCenter)
self.interval.setObjectName(_fromUtf8("interval"))
self.intervalLabel = QLabel(autoSaverDialogBase)
self.intervalLabel.setGeometry(QtCore.QRect(48, 110, 91, 16))
self.intervalLabel.setObjectName(_fromUtf8("intervalLabel"))
self.enableSaveLayers = QCheckBox(autoSaverDialogBase)
self.enableSaveLayers.setGeometry(QtCore.QRect(30, 50, 221, 18))
self.enableSaveLayers.setObjectName(_fromUtf8("enableSaveLayers"))
self.enableSaveLayersBuffer = QCheckBox(autoSaverDialogBase)
self.enableSaveLayersBuffer.setGeometry(QtCore.QRect(30, 70, 321, 18))
self.enableSaveLayersBuffer.setObjectName(_fromUtf8("enableSaveLayersBuffer"))
self.retranslateUi(autoSaverDialogBase)
QtCore.QMetaObject.connectSlotsByName(autoSaverDialogBase)
def retranslateUi(self, autoSaverDialogBase):
autoSaverDialogBase.setWindowTitle(_translate("autoSaverDialogBase", "autoSaver", None))
self.enableAutoSave.setText(_translate("autoSaverDialogBase", "Enable auto saver", None))
self.enableAlternate.setText(_translate("autoSaverDialogBase", "Auto save in alternate backup file (*.bak)", None))
self.interval.setInputMask(_translate("autoSaverDialogBase", "00; ", None))
self.intervalLabel.setText(_translate("autoSaverDialogBase", "Interval (minutes)", None))
self.enableSaveLayers.setText(_translate("autoSaverDialogBase", "Auto save layers in edit mode", None))
self.enableSaveLayersBuffer.setText(_translate("autoSaverDialogBase", "Auto save layers in file *.qlv (to open with layerVersion plugin)", None))
def show_results(self, api_results, tbl_result=None, pg_connections=dict(), progress_bar=QProgressBar):
"""Display the results in a table ."""
logger.info("Results manager called. Displaying the results")
# check parameters
if not tbl_result:
tbl_result = self.isogeo_widget.tbl_result
else:
pass
# Get the name (and other informations) of all databases whose
# connection is set up in QGIS
if pg_connections == {}:
pg_connections = self.pg_connections
else:
pass
# Set table rows
if api_results.get("total") >= 10:
tbl_result.setRowCount(10)
else:
tbl_result.setRowCount(api_results.get("total"))
# Looping inside the table lines. For each of them, showing the title,
# abstract, geometry type, and a button that allow to add the data
# to the canvas.
count = 0
for i in api_results.get("results"):
# get useful metadata
md_id = i.get("_id")
md_keywords = [i.get("tags").get(k)
for k in i.get("tags", ["NR", ])
if k.startswith("keyword:isogeo")]
md_title = i.get("title", "NR")
ds_geometry = i.get("geometry")
# COLUMN 1 - Title and abstract
# Displaying the metadata title inside a button
btn_md_title = QPushButton(plg_tools.format_button_title(md_title))
# Connecting the button to the full metadata popup
btn_md_title.pressed.connect(partial(
self.send_details_request, md_id=md_id))
# Putting the abstract as a tooltip on this button
btn_md_title.setToolTip(i.get("abstract", "")[:300])
# Insert it in column 1
tbl_result.setCellWidget(count, 0, btn_md_title)
# COLUMN 2 - Data last update
tbl_result.setItem(
count, 1, QTableWidgetItem(
plg_tools.handle_date(i.get("_modified"))))
# COLUMN 3 - Geometry type
lbl_geom = QLabel(tbl_result)
if ds_geometry:
if ds_geometry in point_list:
lbl_geom.setPixmap(pix_point)
lbl_geom.setToolTip(self.tr("Point", "ResultsManager"))
elif ds_geometry in polygon_list:
lbl_geom.setPixmap(pix_polyg)
lbl_geom.setToolTip(self.tr("Polygon", "ResultsManager"))
elif ds_geometry in line_list:
lbl_geom.setPixmap(pix_line)
lbl_geom.setToolTip(self.tr("Line", "ResultsManager"))
elif ds_geometry in multi_list:
lbl_geom.setPixmap(pix_multi)
lbl_geom.setToolTip(self.tr("MultiPolygon", "ResultsManager"))
elif ds_geometry == "TIN":
tbl_result.setItem(
count, 2, QTableWidgetItem(u"TIN"))
else:
tbl_result.setItem(
count, 2, QTableWidgetItem(
self.tr("Unknown geometry", "ResultsManager")))
else:
if "rasterDataset" in i.get("type"):
lbl_geom.setPixmap(pix_rastr)
lbl_geom.setToolTip(self.tr("Raster", "ResultsManager"))
elif "service" in i.get("type"):
lbl_geom.setPixmap(pix_serv)
lbl_geom.setToolTip(self.tr("Service", "ResultsManager"))
else:
lbl_geom.setPixmap(pix_nogeo)
lbl_geom.setToolTip(self.tr("Unknown geometry", "ResultsManager"))
tbl_result.setCellWidget(count, 2, lbl_geom)
# COLUMN 4 - Add options
dico_add_options = {}
# Files and PostGIS direct access
if "format" in i.keys():
# If the data is a vector and the path is available, store
# useful information in the dict
if i.get("format", "NR") in li_formats_vect and "path" in i:
add_path = self._filepath_builder(i.get("path"))
if add_path:
params = ["vector", add_path,
i.get("title", "NR"),
i.get("abstract", "NR"),
md_keywords]
dico_add_options[self.tr("Data file", "ResultsManager")] = params
else:
pass
# Same if the data is a raster
elif i.get("format", "NR") in li_formats_rastr and "path" in i:
add_path = self._filepath_builder(i.get("path"))
if add_path:
params = ["raster", add_path,
i.get("title", "NR"),
i.get("abstract", "NR"),
md_keywords]
dico_add_options[self.tr("Data file", "ResultsManager")] = params
else:
pass
# If the data is a postGIS table and the connexion has
# been saved in QGIS.
elif i.get("format") == "postgis":
base_name = i.get("path", "No path")
if base_name in pg_connections.keys():
params = {}
params["base_name"] = base_name
schema_table = i.get("name")
if schema_table is not None and "." in schema_table:
params["schema"] = schema_table.split(".")[0]
params["table"] = schema_table.split(".")[1]
params["abstract"] = i.get("abstract", None)
params["title"] = i.get("title", None)
params["keywords"] = md_keywords
dico_add_options[self.tr("PostGIS table", "ResultsManager")] = params
else:
pass
else:
pass
else:
logger.debug("Metadata {} has a format but it's not recognized or path is missing".format(md_id))
pass
# Associated service layers
d_type = i.get("type")
if d_type == "vectorDataset" or d_type == "rasterDataset":
for layer in i.get("serviceLayers"):
service = layer.get("service")
if service is not None:
srv_details = {"path": service.get("path", "NR"),
"formatVersion": service.get("formatVersion")}
# EFS
if service.get("format") == "efs":
name_url = plg_url_bldr.build_efs_url(layer, srv_details,
rsc_type="ds_dyn_lyr_srv",
mode="quicky")
if name_url[0] != 0:
dico_add_options[name_url[5]] = name_url
else:
pass
# EMS
if service.get("format") == "ems":
name_url = plg_url_bldr.build_ems_url(layer, srv_details,
rsc_type="ds_dyn_lyr_srv",
mode="quicky")
if name_url[0] != 0:
dico_add_options[name_url[5]] = name_url
else:
pass
# WFS
if service.get("format") == "wfs":
name_url = plg_url_bldr.build_wfs_url(layer, srv_details,
rsc_type="ds_dyn_lyr_srv",
mode="quicky")
if name_url[0] != 0:
dico_add_options[name_url[5]] = name_url
else:
pass
# WMS
elif service.get("format") == "wms":
name_url = plg_url_bldr.build_wms_url(layer, srv_details,
rsc_type="ds_dyn_lyr_srv",
mode="quicky")
if name_url[0] != 0:
dico_add_options[name_url[5]] = name_url
else:
pass
# WMTS
elif service.get("format") == "wmts":
name_url = plg_url_bldr.build_wmts_url(layer, srv_details,
rsc_type="ds_dyn_lyr_srv")
if name_url[0] != 0:
dico_add_options[u"WMTS : " + name_url[1]] = name_url
else:
pass
else:
pass
else:
pass
# New association mode. For services metadata sheet, the layers
# are stored in the purposely named include: "layers".
elif i.get("type") == "service":
if i.get("layers") is not None:
srv_details = {"path": i.get("path", "NR"),
"formatVersion": i.get("formatVersion")}
# EFS
if i.get("format") == "efs":
for layer in i.get("layers"):
name_url = plg_url_bldr.build_efs_url(layer, srv_details,
rsc_type="service",
mode="quicky")
if name_url[0] != 0:
dico_add_options[name_url[5]] = name_url
else:
continue
# EMS
if i.get("format") == "ems":
for layer in i.get("layers"):
name_url = plg_url_bldr.build_ems_url(layer, srv_details,
rsc_type="service",
mode="quicky")
if name_url[0] != 0:
dico_add_options[name_url[5]] = name_url
else:
continue
# WFS
if i.get("format") == "wfs":
for layer in i.get("layers"):
name_url = plg_url_bldr.build_wfs_url(layer, srv_details,
rsc_type="service",
mode="quicky")
if name_url[0] != 0:
dico_add_options[name_url[5]] = name_url
else:
continue
# WMS
elif i.get("format") == "wms":
for layer in i.get("layers"):
name_url = plg_url_bldr.build_wms_url(layer, srv_details,
rsc_type="service",
mode="quicky")
if name_url[0] != 0:
dico_add_options[name_url[5]] = name_url
else:
continue
# WMTS
elif i.get("format") == "wmts":
for layer in i.get("layers"):
name_url = plg_url_bldr.build_wmts_url(layer, srv_details,
rsc_type="service")
if name_url[0] != 0:
btn_label = "WMTS : {}".format(name_url[1])
dico_add_options[btn_label] = name_url
else:
continue
else:
pass
else:
pass
# Now the plugin has tested every possibility for the layer to be
# added. The "Add" column has to be filled accordingly.
# If the data can't be added, just insert "can't" text.
if dico_add_options == {}:
text = self.tr("Can't be added", "ResultsManager")
fake_button = QPushButton(text)
fake_button.setStyleSheet("text-align: left")
fake_button.setEnabled(False)
tbl_result.setCellWidget(count, 3, fake_button)
# If there is only one way for the data to be added, insert a
# button.
elif len(dico_add_options) == 1:
text = dico_add_options.keys()[0]
params = dico_add_options.get(text)
if text.startswith("WFS"):
icon = ico_wfs
elif text.startswith("WMS"):
icon = ico_wms
elif text.startswith("WMTS"):
icon = ico_wmts
elif text.startswith("EFS"):
icon = ico_efs
elif text.startswith("EMS"):
icon = ico_ems
elif text.startswith(self.tr("PostGIS table", "ResultsManager")):
icon = ico_pgis
elif text.startswith(self.tr("Data file", "ResultsManager")):
icon = ico_file
add_button = QPushButton(icon, text)
add_button.setStyleSheet("text-align: left")
add_button.pressed.connect(partial(self.add_layer,
layer_info=["info", params])
)
tbl_result.setCellWidget(count, 3, add_button)
# Else, add a combobox, storing all possibilities.
else:
combo = QComboBox()
for i in dico_add_options:
if i.startswith("WFS"):
icon = ico_wfs
elif i.startswith("WMS"):
icon = ico_wms
elif i.startswith("WMTS"):
icon = ico_wmts
elif i.startswith("EFS"):
icon = ico_efs
elif i.startswith("EMS"):
icon = ico_ems
elif i.startswith(self.tr("PostGIS table", "ResultsManager")):
icon = ico_pgis
elif i.startswith(self.tr("Data file", "ResultsManager")):
icon = ico_file
combo.addItem(icon, i, dico_add_options.get(i))
combo.activated.connect(partial(self.add_layer,
layer_info=["index", count]))
combo.model().sort(0) # sort alphabetically on option prefix. see: #113
tbl_result.setCellWidget(count, 3, combo)
count += 1
# dimensions
header = tbl_result.horizontalHeader()
header.setResizeMode(0, QHeaderView.Stretch)
header.setResizeMode(1, QHeaderView.ResizeToContents)
header.setResizeMode(2, QHeaderView.ResizeToContents)
# Remove the "loading" bar
iface.mainWindow().statusBar().removeWidget(progress_bar)
# method ending
return None
class LoadOutputAsLayerDialog(QDialog, FORM_CLASS):
"""
Modal dialog to load an oq-engine output as layer
"""
def __init__(self,
iface,
viewer_dock,
session,
hostname,
calc_id,
output_type=None,
path=None,
mode=None,
zonal_layer_path=None,
engine_version=None):
# sanity check
if output_type not in OQ_TO_LAYER_TYPES:
raise NotImplementedError(output_type)
self.iface = iface
self.viewer_dock = viewer_dock
self.path = path
self.session = session
self.hostname = hostname
self.calc_id = calc_id
self.output_type = output_type
self.mode = mode # if 'testing' it will avoid some user interaction
self.zonal_layer_path = zonal_layer_path
self.engine_version = engine_version
QDialog.__init__(self)
# Set up the user interface from Designer.
self.setupUi(self)
# Disable ok_button until all user options are set
self.ok_button = self.buttonBox.button(QDialogButtonBox.Ok)
self.ok_button.setDisabled(True)
def create_file_hlayout(self):
self.file_hlayout = QHBoxLayout()
self.file_lbl = QLabel('File to load')
self.file_browser_tbn = QToolButton()
self.file_browser_tbn.setText('...')
self.file_browser_tbn.clicked.connect(self.on_file_browser_tbn_clicked)
self.path_le = QLineEdit()
self.path_le.setEnabled(False)
self.file_hlayout.addWidget(self.file_lbl)
self.file_hlayout.addWidget(self.file_browser_tbn)
self.file_hlayout.addWidget(self.path_le)
self.vlayout.addLayout(self.file_hlayout)
def create_num_sites_indicator(self):
self.num_sites_msg = 'Number of sites: %s'
self.num_sites_lbl = QLabel(self.num_sites_msg % '')
self.vlayout.addWidget(self.num_sites_lbl)
def create_file_size_indicator(self):
self.file_size_msg = 'File size: %s'
self.file_size_lbl = QLabel(self.file_size_msg % '')
self.vlayout.addWidget(self.file_size_lbl)
def create_rlz_or_stat_selector(self, label='Realization'):
self.rlz_or_stat_lbl = QLabel(label)
self.rlz_or_stat_cbx = QComboBox()
self.rlz_or_stat_cbx.setEnabled(False)
self.rlz_or_stat_cbx.currentIndexChanged['QString'].connect(
self.on_rlz_or_stat_changed)
self.vlayout.addWidget(self.rlz_or_stat_lbl)
self.vlayout.addWidget(self.rlz_or_stat_cbx)
def create_imt_selector(self):
self.imt_lbl = QLabel('Intensity Measure Type')
self.imt_cbx = QComboBox()
self.imt_cbx.setEnabled(False)
self.imt_cbx.currentIndexChanged['QString'].connect(
self.on_imt_changed)
self.vlayout.addWidget(self.imt_lbl)
self.vlayout.addWidget(self.imt_cbx)
def create_poe_selector(self):
self.poe_lbl = QLabel('Probability of Exceedance')
self.poe_cbx = QComboBox()
self.poe_cbx.setEnabled(False)
self.poe_cbx.currentIndexChanged['QString'].connect(
self.on_poe_changed)
self.vlayout.addWidget(self.poe_lbl)
self.vlayout.addWidget(self.poe_cbx)
def create_loss_type_selector(self):
self.loss_type_lbl = QLabel('Loss Type')
self.loss_type_cbx = QComboBox()
self.loss_type_cbx.setEnabled(False)
self.loss_type_cbx.currentIndexChanged['QString'].connect(
self.on_loss_type_changed)
self.vlayout.addWidget(self.loss_type_lbl)
self.vlayout.addWidget(self.loss_type_cbx)
def create_eid_selector(self):
self.eid_lbl = QLabel('Event ID')
self.eid_sbx = QSpinBox()
self.eid_sbx.setEnabled(False)
self.vlayout.addWidget(self.eid_lbl)
self.vlayout.addWidget(self.eid_sbx)
def create_dmg_state_selector(self):
self.dmg_state_lbl = QLabel('Damage state')
self.dmg_state_cbx = QComboBox()
self.dmg_state_cbx.setEnabled(False)
self.dmg_state_cbx.currentIndexChanged['QString'].connect(
self.on_dmg_state_changed)
self.vlayout.addWidget(self.dmg_state_lbl)
self.vlayout.addWidget(self.dmg_state_cbx)
def create_taxonomy_selector(self):
self.taxonomy_lbl = QLabel('Taxonomy')
self.taxonomy_cbx = QComboBox()
self.taxonomy_cbx.setEnabled(False)
self.vlayout.addWidget(self.taxonomy_lbl)
self.vlayout.addWidget(self.taxonomy_cbx)
def create_style_by_selector(self):
self.style_by_lbl = QLabel('Style by')
self.style_by_cbx = QComboBox()
self.vlayout.addWidget(self.style_by_lbl)
self.vlayout.addWidget(self.style_by_cbx)
def create_load_selected_only_ckb(self):
self.load_selected_only_ckb = QCheckBox("Load only the selected items")
self.load_selected_only_ckb.setChecked(True)
self.vlayout.addWidget(self.load_selected_only_ckb)
def create_save_as_shp_ckb(self):
self.save_as_shp_ckb = QCheckBox("Save the loaded layer as shapefile")
self.save_as_shp_ckb.setChecked(False)
self.vlayout.addWidget(self.save_as_shp_ckb)
def create_zonal_layer_selector(self):
self.zonal_layer_gbx = QGroupBox()
self.zonal_layer_gbx.setTitle('Aggregate by zone (optional)')
self.zonal_layer_gbx.setCheckable(True)
self.zonal_layer_gbx.setChecked(False)
self.zonal_layer_gbx_v_layout = QVBoxLayout()
self.zonal_layer_gbx.setLayout(self.zonal_layer_gbx_v_layout)
self.zonal_layer_cbx = QComboBox()
self.zonal_layer_cbx.addItem('')
self.zonal_layer_lbl = QLabel('Zonal layer')
self.zonal_layer_tbn = QToolButton()
self.zonal_layer_tbn.setText('...')
self.zonal_layer_h_layout = QHBoxLayout()
self.zonal_layer_h_layout.addWidget(self.zonal_layer_cbx)
self.zonal_layer_h_layout.addWidget(self.zonal_layer_tbn)
self.zonal_layer_gbx_v_layout.addWidget(self.zonal_layer_lbl)
self.zonal_layer_gbx_v_layout.addLayout(self.zonal_layer_h_layout)
self.zone_id_field_lbl = QLabel('Field containing zone ids')
self.zone_id_field_cbx = QComboBox()
self.zonal_layer_gbx_v_layout.addWidget(self.zone_id_field_lbl)
self.zonal_layer_gbx_v_layout.addWidget(self.zone_id_field_cbx)
self.vlayout.addWidget(self.zonal_layer_gbx)
self.zonal_layer_tbn.clicked.connect(self.on_zonal_layer_tbn_clicked)
self.zonal_layer_cbx.currentIndexChanged[int].connect(
self.on_zonal_layer_cbx_currentIndexChanged)
self.zonal_layer_gbx.toggled[bool].connect(
self.on_zonal_layer_gbx_toggled)
def pre_populate_zonal_layer_cbx(self):
for key, layer in \
QgsMapLayerRegistry.instance().mapLayers().iteritems():
# populate loss cbx only with layers containing points
if layer.type() != QgsMapLayer.VectorLayer:
continue
if layer.geometryType() == QGis.Polygon:
self.zonal_layer_cbx.addItem(layer.name())
self.zonal_layer_cbx.setItemData(
self.zonal_layer_cbx.count() - 1, layer.id())
def on_zonal_layer_cbx_currentIndexChanged(self, new_index):
self.zone_id_field_cbx.clear()
zonal_layer = None
if not self.zonal_layer_cbx.currentText():
if self.zonal_layer_gbx.isChecked():
self.ok_button.setEnabled(False)
return
zonal_layer_id = self.zonal_layer_cbx.itemData(new_index)
zonal_layer = QgsMapLayerRegistry.instance().mapLayer(zonal_layer_id)
# if the zonal_layer doesn't have a field containing a unique zone id,
# the user can choose to add such unique id
self.zone_id_field_cbx.addItem("Add field with unique zone id")
for field in zonal_layer.fields():
# for the zone id accept both numeric or textual fields
self.zone_id_field_cbx.addItem(field.name())
# by default, set the selection to the first textual field
self.set_ok_button()
def on_zonal_layer_gbx_toggled(self, on):
if on and not self.zonal_layer_cbx.currentText():
self.ok_button.setEnabled(False)
else:
self.set_ok_button()
def on_output_type_changed(self):
if self.output_type in OQ_TO_LAYER_TYPES:
self.create_load_selected_only_ckb()
elif self.output_type in OQ_COMPLEX_CSV_TO_LAYER_TYPES:
self.create_save_as_shp_ckb()
self.set_ok_button()
@pyqtSlot()
def on_file_browser_tbn_clicked(self):
path = self.open_file_dialog()
if path:
self.populate_out_dep_widgets()
self.set_ok_button()
def on_rlz_or_stat_changed(self):
self.dataset = self.npz_file[self.rlz_or_stat_cbx.currentText()]
self.set_ok_button()
def on_loss_type_changed(self):
self.set_ok_button()
def on_imt_changed(self):
self.set_ok_button()
def on_poe_changed(self):
self.set_ok_button()
def on_eid_changed(self):
self.set_ok_button()
def on_dmg_state_changed(self):
self.set_ok_button()
def open_file_dialog(self):
"""
Open a file dialog to select the data file to be loaded
"""
text = self.tr('Select the OQ-Engine output file to import')
if self.output_type in OQ_CSV_TO_LAYER_TYPES:
filters = self.tr('CSV files (*.csv)')
else:
raise NotImplementedError(self.output_type)
default_dir = QSettings().value('irmt/load_as_layer_dir',
QDir.homePath())
path = QFileDialog.getOpenFileName(self, text, default_dir, filters)
if not path:
return
selected_dir = QFileInfo(path).dir().path()
QSettings().setValue('irmt/load_as_layer_dir', selected_dir)
self.path = path
self.path_le.setText(self.path)
return path
def populate_out_dep_widgets(self):
self.populate_rlz_or_stat_cbx()
self.show_num_sites()
def get_taxonomies(self):
raise NotImplementedError()
def populate_rlz_or_stat_cbx(self):
self.rlzs_or_stats = [
key for key in sorted(self.npz_file)
if key not in ('imtls', 'array')
]
self.rlz_or_stat_cbx.clear()
self.rlz_or_stat_cbx.setEnabled(True)
self.rlz_or_stat_cbx.addItems(self.rlzs_or_stats)
def populate_loss_type_cbx(self, loss_types):
self.loss_type_cbx.clear()
self.loss_type_cbx.setEnabled(True)
self.loss_type_cbx.addItems(loss_types)
def show_num_sites(self):
# NOTE: we are assuming all realizations have the same number of sites,
# which currently is always true.
# If different realizations have a different number of sites, we
# need to move this block of code inside on_rlz_or_stat_changed()
rlz_or_stat_data = self.npz_file[self.rlz_or_stat_cbx.currentText()]
self.num_sites_lbl.setText(self.num_sites_msg % rlz_or_stat_data.shape)
def set_ok_button(self):
raise NotImplementedError()
def build_layer_name(self, *args, **kwargs):
raise NotImplementedError()
def get_field_names(self, **kwargs):
raise NotImplementedError()
def add_field_to_layer(self, field_name):
raise NotImplementedError()
def read_npz_into_layer(self, field_names, **kwargs):
raise NotImplementedError()
def load_from_npz(self):
raise NotImplementedError()
def get_investigation_time(self):
if self.output_type in ('hcurves', 'uhs', 'hmaps'):
try:
investigation_time = self.npz_file['investigation_time']
except KeyError:
msg = ('investigation_time not found. It is mandatory for %s.'
' Please check if the ouptut was produced by an'
' obsolete version of the OpenQuake Engine'
' Server.') % self.output_type
log_msg(msg, level='C', message_bar=self.iface.messageBar())
else:
return investigation_time
else:
# some outputs do not need the investigation time
return None
def build_layer(self,
rlz_or_stat=None,
taxonomy=None,
poe=None,
loss_type=None,
dmg_state=None,
gsim=None):
layer_name = self.build_layer_name(rlz_or_stat=rlz_or_stat,
taxonomy=taxonomy,
poe=poe,
loss_type=loss_type,
dmg_state=dmg_state,
gsim=gsim)
field_names = self.get_field_names(rlz_or_stat=rlz_or_stat,
taxonomy=taxonomy,
poe=poe,
loss_type=loss_type,
dmg_state=dmg_state)
# create layer
self.layer = QgsVectorLayer("Point?crs=epsg:4326", layer_name,
"memory")
for field_name in field_names:
if field_name in ['lon', 'lat']:
continue
added_field_name = self.add_field_to_layer(field_name)
if field_name != added_field_name:
if field_name == self.default_field_name:
self.default_field_name = added_field_name
# replace field_name with the actual added_field_name
field_name_idx = field_names.index(field_name)
field_names.remove(field_name)
field_names.insert(field_name_idx, added_field_name)
self.read_npz_into_layer(field_names,
rlz_or_stat=rlz_or_stat,
taxonomy=taxonomy,
poe=poe,
loss_type=loss_type,
dmg_state=dmg_state)
self.layer.setCustomProperty('output_type', self.output_type)
investigation_time = self.get_investigation_time()
if investigation_time is not None:
self.layer.setCustomProperty('investigation_time',
investigation_time)
if self.engine_version is not None:
self.layer.setCustomProperty('engine_version', self.engine_version)
irmt_version = get_irmt_version()
self.layer.setCustomProperty('irmt_version', irmt_version)
self.layer.setCustomProperty('calc_id', self.calc_id)
QgsMapLayerRegistry.instance().addMapLayer(self.layer)
self.iface.setActiveLayer(self.layer)
self.iface.zoomToActiveLayer()
def _set_symbol_size(self, symbol):
if self.iface.mapCanvas().mapUnits() == QGis.Degrees:
point_size = 0.05
elif self.iface.mapCanvas().mapUnits() == QGis.Meters:
point_size = 4000
else:
# it is not obvious how to choose the point size in the other
# cases, so we conservatively keep the default sizing
return
symbol.symbolLayer(0).setSizeUnit(symbol.MapUnit)
symbol.symbolLayer(0).setSize(point_size)
map_unit_scale = QgsMapUnitScale()
map_unit_scale.maxSizeMMEnabled = True
map_unit_scale.minSizeMMEnabled = True
map_unit_scale.minSizeMM = 0.5
map_unit_scale.maxSizeMM = 10
symbol.symbolLayer(0).setSizeMapUnitScale(map_unit_scale)
def style_maps(self, layer=None, style_by=None):
if layer is None:
layer = self.layer
if style_by is None:
style_by = self.default_field_name
symbol = QgsSymbolV2.defaultSymbol(layer.geometryType())
# see properties at:
# https://qgis.org/api/qgsmarkersymbollayerv2_8cpp_source.html#l01073
symbol.setAlpha(1) # opacity
if isinstance(symbol, QgsMarkerSymbolV2):
# do it only for the layer with points
self._set_symbol_size(symbol)
symbol.symbolLayer(0).setOutlineStyle(Qt.PenStyle(Qt.NoPen))
style = get_style(layer, self.iface.messageBar())
# this is the default, as specified in the user settings
ramp = QgsVectorGradientColorRampV2(style['color_from'],
style['color_to'])
mode = style['mode']
# in most cases, we override the user-specified setting, and use
# instead a setting that was required by scientists
if self.output_type in OQ_TO_LAYER_TYPES:
default_qgs_style = QgsStyleV2().defaultStyle()
default_color_ramp_names = default_qgs_style.colorRampNames()
if self.output_type in ('dmg_by_asset', 'losses_by_asset',
'avg_losses-stats'):
# options are EqualInterval, Quantile, Jenks, StdDev, Pretty
# jenks = natural breaks
mode = QgsGraduatedSymbolRendererV2.Jenks
ramp_type_idx = default_color_ramp_names.index('Reds')
inverted = False
elif self.output_type in ('hmaps', 'gmf_data', 'ruptures'):
# options are EqualInterval, Quantile, Jenks, StdDev, Pretty
if self.output_type == 'ruptures':
mode = QgsGraduatedSymbolRendererV2.Pretty
else:
mode = QgsGraduatedSymbolRendererV2.EqualInterval
ramp_type_idx = default_color_ramp_names.index('Spectral')
inverted = True
ramp = default_qgs_style.colorRamp(
default_color_ramp_names[ramp_type_idx])
graduated_renderer = QgsGraduatedSymbolRendererV2.createRenderer(
layer,
style_by,
style['classes'],
mode,
symbol,
ramp,
inverted=inverted)
label_format = graduated_renderer.labelFormat()
# label_format.setTrimTrailingZeroes(True) # it might be useful
label_format.setPrecision(2)
graduated_renderer.setLabelFormat(label_format, updateRanges=True)
# add a class for 0 values, unless while styling ruptures
if self.output_type != 'ruptures':
VERY_SMALL_VALUE = 1e-20
graduated_renderer.updateRangeLowerValue(0, VERY_SMALL_VALUE)
symbol_zeros = QgsSymbolV2.defaultSymbol(layer.geometryType())
symbol_zeros.setColor(QColor(240, 240, 240)) # very light grey
if isinstance(symbol, QgsMarkerSymbolV2):
# do it only for the layer with points
self._set_symbol_size(symbol_zeros)
symbol_zeros.symbolLayer(0).setOutlineStyle(
Qt.PenStyle(Qt.NoPen))
zeros_min = 0.0
zeros_max = VERY_SMALL_VALUE
range_zeros = QgsRendererRangeV2(
zeros_min, zeros_max, symbol_zeros,
" %.2f - %.2f" % (zeros_min, zeros_max), True)
graduated_renderer.addClassRange(range_zeros)
graduated_renderer.moveClass(
len(graduated_renderer.ranges()) - 1, 0)
layer.setRendererV2(graduated_renderer)
layer.setLayerTransparency(30) # percent
layer.triggerRepaint()
self.iface.legendInterface().refreshLayerSymbology(layer)
self.iface.mapCanvas().refresh()
def style_categorized(self, layer, style_by):
# get unique values
fni = layer.fieldNameIndex(style_by)
unique_values = layer.dataProvider().uniqueValues(fni)
# define categories
categories = []
for unique_value in unique_values:
# initialize the default symbol for this geometry type
symbol = QgsSymbolV2.defaultSymbol(layer.geometryType())
# configure a symbol layer
layer_style = {}
layer_style['color'] = '%d, %d, %d' % (randrange(
0, 256), randrange(0, 256), randrange(0, 256))
layer_style['outline'] = '#000000'
symbol_layer = QgsSimpleFillSymbolLayerV2.create(layer_style)
# replace default symbol layer with the configured one
if symbol_layer is not None:
symbol.changeSymbolLayer(0, symbol_layer)
# create renderer object
category = QgsRendererCategoryV2(unique_value, symbol,
str(unique_value))
# entry for the list of category items
categories.append(category)
# create renderer object
renderer = QgsCategorizedSymbolRendererV2(style_by, categories)
# assign the created renderer to the layer
if renderer is not None:
layer.setRendererV2(renderer)
layer.triggerRepaint()
self.iface.legendInterface().refreshLayerSymbology(layer)
self.iface.mapCanvas().refresh()
def style_curves(self):
registry = QgsSymbolLayerV2Registry.instance()
cross = registry.symbolLayerMetadata("SimpleMarker").createSymbolLayer(
{
'name': 'cross2',
'color': '0,0,0',
'color_border': '0,0,0',
'offset': '0,0',
'size': '1.5',
'angle': '0'
})
symbol = QgsSymbolV2.defaultSymbol(self.layer.geometryType())
symbol.deleteSymbolLayer(0)
symbol.appendSymbolLayer(cross)
self._set_symbol_size(symbol)
renderer = QgsSingleSymbolRendererV2(symbol)
effect = QgsOuterGlowEffect()
effect.setSpread(0.5)
effect.setTransparency(0)
effect.setColor(QColor(255, 255, 255))
effect.setBlurLevel(1)
renderer.paintEffect().appendEffect(effect)
renderer.paintEffect().setEnabled(True)
self.layer.setRendererV2(renderer)
self.layer.setLayerTransparency(30) # percent
self.layer.triggerRepaint()
self.iface.legendInterface().refreshLayerSymbology(self.layer)
self.iface.mapCanvas().refresh()
def open_zonal_layer_dialog(self):
"""
Open a file dialog to select the zonal layer to be loaded
:returns: the zonal layer
"""
text = self.tr('Select zonal layer to import')
filters = self.tr('Vector shapefiles (*.shp);;SQLite (*.sqlite);;'
'All files (*.*)')
default_dir = QSettings().value('irmt/select_layer_dir',
QDir.homePath())
file_name, file_type = QFileDialog.getOpenFileNameAndFilter(
self, text, default_dir, filters)
if not file_name:
return None
selected_dir = QFileInfo(file_name).dir().path()
QSettings().setValue('irmt/select_layer_dir', selected_dir)
zonal_layer_plus_stats = self.load_zonal_layer(file_name)
return zonal_layer_plus_stats
def load_zonal_layer(self, zonal_layer_path, make_a_copy=False):
# Load zonal layer
zonal_layer = QgsVectorLayer(zonal_layer_path, tr('Zonal data'), 'ogr')
if not zonal_layer.geometryType() == QGis.Polygon:
msg = 'Zonal layer must contain zone polygons'
log_msg(msg, level='C', message_bar=self.iface.messageBar())
return False
if make_a_copy:
# Make a copy, where stats will be added
zonal_layer_plus_stats = ProcessLayer(
zonal_layer).duplicate_in_memory()
else:
zonal_layer_plus_stats = zonal_layer
# Add zonal layer to registry
if zonal_layer_plus_stats.isValid():
QgsMapLayerRegistry.instance().addMapLayer(zonal_layer_plus_stats)
else:
msg = 'Invalid zonal layer'
log_msg(msg, level='C', message_bar=self.iface.messageBar())
return None
return zonal_layer_plus_stats
def on_zonal_layer_tbn_clicked(self):
zonal_layer_plus_stats = self.open_zonal_layer_dialog()
if (zonal_layer_plus_stats
and zonal_layer_plus_stats.geometryType() == QGis.Polygon):
self.populate_zonal_layer_cbx(zonal_layer_plus_stats)
def populate_zonal_layer_cbx(self, zonal_layer_plus_stats):
cbx = self.zonal_layer_cbx
cbx.addItem(zonal_layer_plus_stats.name())
last_index = cbx.count() - 1
cbx.setItemData(last_index, zonal_layer_plus_stats.id())
cbx.setCurrentIndex(last_index)
def show_file_size(self):
file_size = get_file_size(self.path)
self.file_size_lbl.setText(self.file_size_msg % file_size)
def accept(self):
if self.output_type in OQ_EXTRACT_TO_LAYER_TYPES:
self.load_from_npz()
if self.output_type in ('losses_by_asset', 'dmg_by_asset',
'avg_losses-stats'):
# check if also aggregating by zone or not
if (not self.zonal_layer_cbx.currentText()
or not self.zonal_layer_gbx.isChecked()):
super(LoadOutputAsLayerDialog, self).accept()
return
loss_layer = self.layer
self.iface.legendInterface().setLayerVisible(loss_layer, False)
zonal_layer_id = self.zonal_layer_cbx.itemData(
self.zonal_layer_cbx.currentIndex())
zonal_layer = QgsMapLayerRegistry.instance().mapLayer(
zonal_layer_id)
# if the two layers have different projections, display an
# error message and return
have_same_projection, check_projection_msg = ProcessLayer(
loss_layer).has_same_projection_as(zonal_layer)
if not have_same_projection:
log_msg(check_projection_msg,
level='C',
message_bar=self.iface.messageBar())
# TODO: load only loss layer
super(LoadOutputAsLayerDialog, self).accept()
return
loss_attr_names = [
field.name() for field in loss_layer.fields()
]
zone_id_in_losses_attr_name = None
# index 0 is for "Add field with unique zone id"
if self.zone_id_field_cbx.currentIndex() == 0:
zone_id_in_zones_attr_name = None
else:
zone_id_in_zones_attr_name = \
self.zone_id_field_cbx.currentText()
# aggregate losses by zone (calculate count of points in the
# zone, sum and average loss values for the same zone)
loss_layer_is_vector = True
try:
res = calculate_zonal_stats(loss_layer,
zonal_layer,
loss_attr_names,
loss_layer_is_vector,
zone_id_in_losses_attr_name,
zone_id_in_zones_attr_name,
self.iface,
extra=False)
except TypeError as exc:
log_msg(str(exc),
level='C',
message_bar=self.iface.messageBar())
return
(loss_layer, zonal_layer, loss_attrs_dict) = res
# sanity check
assert len(loss_attrs_dict) == 1, (
"Only one attribute should be added to the zonal layer."
" %s were added insted" % len(loss_attrs_dict))
# NOTE: in scenario damage, keys are like
# u'structural_no_damage_mean', and not just
# u'structural', therefore we can't just use the selected
# loss type, but we must use the actual only key in the
# dict
[added_loss_attr] = loss_attrs_dict
style_by = loss_attrs_dict[added_loss_attr]['sum']
self.style_maps(layer=zonal_layer, style_by=style_by)
elif self.output_type in OQ_CSV_TO_LAYER_TYPES:
self.load_from_csv()
super(LoadOutputAsLayerDialog, self).accept()
def reject(self):
if (hasattr(self, 'npz_file') and self.npz_file is not None
and self.output_type in OQ_TO_LAYER_TYPES):
self.npz_file.close()
super(LoadOutputAsLayerDialog, self).reject()
def show_results(self,
api_results,
tbl_result=None,
pg_connections=dict(),
progress_bar=QProgressBar):
"""Display the results in a table ."""
logger.info("Results manager called. Displaying the results")
# check parameters
if not tbl_result:
tbl_result = self.isogeo_widget.tbl_result
else:
pass
# Get the name (and other informations) of all databases whose
# connection is set up in QGIS
if pg_connections == {}:
pg_connections = self.pg_connections
else:
pass
# Set table rows
if api_results.get("total") >= 10:
tbl_result.setRowCount(10)
else:
tbl_result.setRowCount(api_results.get("total"))
# Looping inside the table lines. For each of them, showing the title,
# abstract, geometry type, and a button that allow to add the data
# to the canvas.
count = 0
for i in api_results.get("results"):
# get useful metadata
md_id = i.get("_id")
md_keywords = [
i.get("tags").get(k) for k in i.get("tags", [
"NR",
]) if k.startswith("keyword:isogeo")
]
md_title = i.get("title", "NR")
ds_geometry = i.get("geometry")
# COLUMN 1 - Title and abstract
# Displaying the metadata title inside a button
btn_md_title = QPushButton(
custom_tools.format_button_title(md_title))
# Connecting the button to the full metadata popup
btn_md_title.pressed.connect(
partial(self.send_details_request, md_id=md_id))
# Putting the abstract as a tooltip on this button
btn_md_title.setToolTip(i.get("abstract", "")[:300])
# Insert it in column 1
tbl_result.setCellWidget(count, 0, btn_md_title)
# COLUMN 2 - Data last update
tbl_result.setItem(
count, 1,
QTableWidgetItem(custom_tools.handle_date(i.get("_modified"))))
# COLUMN 3 - Geometry type
lbl_geom = QLabel(tbl_result)
if ds_geometry:
if ds_geometry in point_list:
lbl_geom.setPixmap(pix_point)
lbl_geom.setToolTip(self.tr("Point", "ResultsManager"))
elif ds_geometry in polygon_list:
lbl_geom.setPixmap(pix_polyg)
lbl_geom.setToolTip(self.tr("Polygon", "ResultsManager"))
elif ds_geometry in line_list:
lbl_geom.setPixmap(pix_line)
lbl_geom.setToolTip(self.tr("Line", "ResultsManager"))
elif ds_geometry in multi_list:
lbl_geom.setPixmap(pix_multi)
lbl_geom.setToolTip(
self.tr("MultiPolygon", "ResultsManager"))
elif ds_geometry == "TIN":
tbl_result.setItem(count, 2, QTableWidgetItem(u"TIN"))
else:
tbl_result.setItem(
count, 2,
QTableWidgetItem(
self.tr("Unknown geometry", "ResultsManager")))
else:
if "rasterDataset" in i.get("type"):
lbl_geom.setPixmap(pix_rastr)
lbl_geom.setToolTip(self.tr("Raster", "ResultsManager"))
elif "service" in i.get("type"):
lbl_geom.setPixmap(pix_serv)
lbl_geom.setToolTip(self.tr("Service", "ResultsManager"))
else:
lbl_geom.setPixmap(pix_nogeo)
lbl_geom.setToolTip(
self.tr("Unknown geometry", "ResultsManager"))
tbl_result.setCellWidget(count, 2, lbl_geom)
# COLUMN 4 - Add options
dico_add_options = {}
# Files and PostGIS direct access
if "format" in i.keys():
# If the data is a vector and the path is available, store
# useful information in the dict
if i.get("format", "NR") in li_formats_vect and "path" in i:
filepath = custom_tools.format_path(i.get("path"))
dir_file = os.path.dirname(filepath)
if dir_file not in self.cached_unreach_paths:
try:
open(filepath)
params = [
"vector", filepath,
i.get("title", "NR"),
i.get("abstract", "NR"), md_keywords
]
dico_add_options[self.tr(
"Data file", "ResultsManager")] = params
except IOError:
self.cached_unreach_paths.append(dir_file)
self.cached_unreach_paths = list(
set(self.cached_unreach_paths))
else:
logger.debug(
"Path has been ignored because it's cached.")
pass
# Same if the data is a raster
elif i.get("format", "NR") in li_formats_rastr and "path" in i:
filepath = custom_tools.format_path(i.get("path"))
dir_file = os.path.dirname(filepath)
if dir_file not in self.cached_unreach_paths:
try:
open(filepath)
params = [
"raster", filepath,
i.get("title", "NR"),
i.get("abstract", "NR"), md_keywords
]
dico_add_options[self.tr(
"Data file", "ResultsManager")] = params
except IOError:
self.cached_unreach_paths.append(dir_file)
pass
else:
logger.debug(
"Path has been ignored because it's cached.")
pass
# If the data is a postGIS table and the connexion has
# been saved in QGIS.
elif i.get("format") == "postgis":
# Récupère le nom de la base de données
base_name = i.get("path")
if base_name in pg_connections.keys():
params = {}
params["base_name"] = base_name
schema_table = i.get("name")
if schema_table is not None and "." in schema_table:
params["schema"] = schema_table.split(".")[0]
params["table"] = schema_table.split(".")[1]
params["abstract"] = i.get("abstract", None)
params["title"] = i.get("title", None)
params["keywords"] = md_keywords
dico_add_options[self.tr(
"PostGIS table", "ResultsManager")] = params
else:
pass
else:
pass
else:
pass
# Associated service layers
d_type = i.get("type")
if d_type == "vectorDataset" or d_type == "rasterDataset":
for layer in i.get("serviceLayers"):
service = layer.get("service")
if service is not None:
srv_details = {
"path": service.get("path", "NR"),
"formatVersion": service.get("formatVersion")
}
# EFS
if service.get("format") == "efs":
name_url = srv_url_bld.build_efs_url(
layer,
srv_details,
rsc_type="ds_dyn_lyr_srv",
mode="quicky")
if name_url[0] != 0:
dico_add_options[name_url[5]] = name_url
else:
pass
# EMS
if service.get("format") == "ems":
name_url = srv_url_bld.build_ems_url(
layer,
srv_details,
rsc_type="ds_dyn_lyr_srv",
mode="quicky")
if name_url[0] != 0:
dico_add_options[name_url[5]] = name_url
else:
pass
# WFS
if service.get("format") == "wfs":
name_url = srv_url_bld.build_wfs_url(
layer,
srv_details,
rsc_type="ds_dyn_lyr_srv",
mode="quicky")
if name_url[0] != 0:
dico_add_options[name_url[5]] = name_url
else:
pass
# WMS
elif service.get("format") == "wms":
name_url = srv_url_bld.build_wms_url(
layer,
srv_details,
rsc_type="ds_dyn_lyr_srv",
mode="quicky")
if name_url[0] != 0:
dico_add_options[name_url[5]] = name_url
else:
pass
# WMTS
elif service.get("format") == "wmts":
name_url = srv_url_bld.build_wmts_url(
layer, srv_details, rsc_type="ds_dyn_lyr_srv")
if name_url[0] != 0:
dico_add_options[u"WMTS : " +
name_url[1]] = name_url
else:
pass
else:
pass
else:
pass
# New association mode. For services metadata sheet, the layers
# are stored in the purposely named include: "layers".
elif i.get("type") == "service":
if i.get("layers") is not None:
srv_details = {
"path": i.get("path", "NR"),
"formatVersion": i.get("formatVersion")
}
# WFS
if i.get("format") == "wfs":
for layer in i.get("layers"):
name_url = srv_url_bld.build_wfs_url(
layer,
srv_details,
rsc_type="service",
mode="quicky")
if name_url[0] != 0:
dico_add_options[name_url[5]] = name_url
else:
continue
pass
# WMS
elif i.get("format") == "wms":
for layer in i.get("layers"):
name_url = srv_url_bld.build_wms_url(
layer,
srv_details,
rsc_type="service",
mode="quicky")
if name_url[0] != 0:
dico_add_options[name_url[5]] = name_url
else:
continue
pass
# WMTS
elif i.get("format") == "wmts":
for layer in i.get("layers"):
name_url = srv_url_bld.build_wmts_url(
layer, srv_details, rsc_type="service")
if name_url[0] != 0:
btn_label = "WMTS : {}".format(name_url[1])
dico_add_options[btn_label] = name_url
else:
continue
pass
else:
pass
else:
pass
# Now the plugin has tested every possibility for the layer to be
# added. The "Add" column has to be filled accordingly.
# If the data can't be added, just insert "can't" text.
if dico_add_options == {}:
text = self.tr("Can't be added", "ResultsManager")
fake_button = QPushButton(text)
fake_button.setStyleSheet("text-align: left")
fake_button.setEnabled(False)
tbl_result.setCellWidget(count, 3, fake_button)
# If there is only one way for the data to be added, insert a
# button.
elif len(dico_add_options) == 1:
text = dico_add_options.keys()[0]
params = dico_add_options.get(text)
if text.startswith("WFS"):
icon = ico_wfs
elif text.startswith("WMS"):
icon = ico_wms
elif text.startswith("WMTS"):
icon = ico_wmts
elif text.startswith("EFS"):
icon = ico_efs
elif text.startswith("EMS"):
icon = ico_ems
elif text.startswith(self.tr("PostGIS table",
"ResultsManager")):
icon = ico_pgis
elif text.startswith(self.tr("Data file", "ResultsManager")):
icon = ico_file
add_button = QPushButton(icon, text)
add_button.setStyleSheet("text-align: left")
add_button.pressed.connect(
partial(self.add_layer, layer_info=["info", params]))
tbl_result.setCellWidget(count, 3, add_button)
# Else, add a combobox, storing all possibilities.
else:
combo = QComboBox()
for i in dico_add_options:
if i.startswith("WFS"):
icon = ico_wfs
elif i.startswith("WMS"):
icon = ico_wms
elif i.startswith("WMTS"):
icon = ico_wmts
elif i.startswith("EFS"):
icon = ico_efs
elif i.startswith("EMS"):
icon = ico_ems
elif i.startswith(
self.tr("PostGIS table", "ResultsManager")):
icon = ico_pgis
elif i.startswith(self.tr("Data file", "ResultsManager")):
icon = ico_file
combo.addItem(icon, i, dico_add_options.get(i))
combo.activated.connect(
partial(self.add_layer, layer_info=["index", count]))
tbl_result.setCellWidget(count, 3, combo)
count += 1
# dimensions
header = tbl_result.horizontalHeader()
header.setResizeMode(0, QHeaderView.Stretch)
header.setResizeMode(1, QHeaderView.ResizeToContents)
header.setResizeMode(2, QHeaderView.ResizeToContents)
# Remove the "loading" bar
iface.mainWindow().statusBar().removeWidget(progress_bar)
# method ending
return None
def create_style_by_selector(self):
self.style_by_lbl = QLabel('Style by')
self.style_by_cbx = QComboBox()
self.vlayout.addWidget(self.style_by_lbl)
self.vlayout.addWidget(self.style_by_cbx)
def create_taxonomy_selector(self):
self.taxonomy_lbl = QLabel('Taxonomy')
self.taxonomy_cbx = QComboBox()
self.taxonomy_cbx.setEnabled(False)
self.vlayout.addWidget(self.taxonomy_lbl)
self.vlayout.addWidget(self.taxonomy_cbx)
def create_num_sites_indicator(self):
self.num_sites_msg = 'Number of sites: %s'
self.num_sites_lbl = QLabel(self.num_sites_msg % '')
self.vlayout.addWidget(self.num_sites_lbl)
def create_eid_selector(self):
self.eid_lbl = QLabel('Event ID')
self.eid_sbx = QSpinBox()
self.eid_sbx.setEnabled(False)
self.vlayout.addWidget(self.eid_lbl)
self.vlayout.addWidget(self.eid_sbx)
def create_file_size_indicator(self):
self.file_size_msg = 'File size: %s'
self.file_size_lbl = QLabel(self.file_size_msg % '')
self.vlayout.addWidget(self.file_size_lbl)
