class Meta:
model = InputDataInformation
exclude = ('impact_model', )
widgets = {
'climate_variables_info': MyTextInput(textarea=True),
'additional_input_data_sets': MyTextInput(textarea=True),
}
class Meta:
model = ImpactModel
exclude = ('base_model', 'public', 'simulation_round')
widgets = {
'version': MyTextInput(),
'main_reference_paper': RefPaperWidget(),
'other_references': RefPaperWidget(),
'responsible_person': MyTextInput(),
}
class Meta:
model = ImpactModel
exclude = ('base_model', 'public', 'simulation_round',
'dataset_history')
widgets = {
'version': MyTextInput(),
'main_reference_paper': RefPaperWidget(),
'other_references': RefPaperWidget(),
'responsible_person': MyTextInput(),
'model_license': forms.TextInput(attrs={'readonly': 'readonly'})
}
class Meta:
model = TechnicalInformation
exclude = ('impact_model', )
widgets = {
'spatial_resolution': MyMultiSelect(allowcustom=True),
'spatial_resolution_info': MyTextInput(textarea=True),
'temporal_resolution_climate': MyMultiSelect(allowcustom=True),
'temporal_resolution_co2': MyMultiSelect(allowcustom=True),
'temporal_resolution_land': MyMultiSelect(allowcustom=True),
'temporal_resolution_soil': MyMultiSelect(allowcustom=True),
'temporal_resolution_info': MyTextInput(textarea=True),
}
class Meta:
model = Attachment
exclude = ('impact_model', )
widgets = {
'attachment1': ClearableFileInput,
'attachment1_description': MyTextInput(),
'attachment2': ClearableFileInput,
'attachment2_description': MyTextInput(),
'attachment3': ClearableFileInput,
'attachment3_description': MyTextInput(),
'attachment4': ClearableFileInput,
'attachment4_description': MyTextInput(),
'attachment5': ClearableFileInput,
'attachment5_description': MyTextInput(),
}
def __init__(self, *args, **kwargs):
instance = kwargs.get('instance', None)
super(BaseSectorForm, self).__init__(*args, **kwargs)
if instance:
sector = instance.impact_model.base_model.sector
self.generic_groups = []
for group in SectorInformationGroup.objects.filter(sector=sector):
fields = []
for field in group.fields.all():
fields.append(field.unique_identifier)
self.generic_fields.append(field.unique_identifier)
self.fields[field.unique_identifier] = forms.CharField(
widget=MyTextInput(textarea=True),
label=field.name,
help_text=field.help_text,
required=False,
initial='')
if instance.data and field.unique_identifier in instance.data:
field_initial = instance.data[field.unique_identifier]
if field_initial:
self.fields[
field.
unique_identifier].initial = field_initial
self.generic_groups.append({
'name': group.name,
'fields': fields,
'description': group.description
})
class Meta:
model = MarineEcosystems
exclude = ('impact_model', )
widgets = {
'defining_features': MyTextInput(textarea=True),
'spatial_scale': MyTextInput(),
'spatial_resolution': MyTextInput(),
'temporal_scale': MyTextInput(),
'temporal_resolution': MyTextInput(),
'taxonomic_scope': MyTextInput(),
'vertical_resolution': MyTextInput(),
'spatial_dispersal_included': MyTextInput(),
'fishbase_used_for_mass_length_conversion': MyTextInput(),
}
class Meta:
model = OtherInformation
exclude = ('impact_model', )
widgets = {
'exceptions_to_protocol': MyTextInput(textarea=True),
'spin_up': MyBooleanSelect(nullable=False),
'spin_up_design': MyTextInput(textarea=True),
'natural_vegetation_partition': MyTextInput(textarea=True),
'natural_vegetation_dynamics': MyTextInput(textarea=True),
'natural_vegetation_cover_dataset': MyTextInput(),
'management': MyTextInput(textarea=True),
'extreme_events': MyTextInput(textarea=True),
'anything_else': MyTextInput(textarea=True),
}
class Meta:
model = WaterRegional
exclude = ('impact_model', )
widgets = {
"methods_evapotranspiration": MyTextInput(textarea=True),
'methods_snowmelt': MyTextInput(textarea=True),
'vegetation': MyBooleanSelect(nullable=True),
'vegetation_approach_used': MyTextInput(textarea=True),
'vegetation_representation': MyMultiSelect(allowcustom=False),
'routing': MyTextInput(textarea=True),
'routing_data': MyTextInput(textarea=True),
'calibration': MyBooleanSelect(nullable=True),
'calibration_model_evaluated': MyBooleanSelect(nullable=True),
'calibration_periods': MyTextInput(textarea=True),
'calibration_methods': MyTextInput(textarea=True),
}
class Meta:
model = Biodiversity
exclude = ('impact_model', )
widgets = {
'model_algorithm': MyMultiSelect(allowcustom=False),
'explanatory_variables': MyTextInput(textarea=True),
'response_variable': MyMultiSelect(allowcustom=False),
'additional_information_response_variable':
MyTextInput(textarea=True),
'distribution_response_variable': MyMultiSelect(allowcustom=False),
'parameters': MyTextInput(textarea=True),
'additional_info_parameters': MyTextInput(textarea=True),
'software_function': MyMultiSelect(allowcustom=False),
'software_package': MyMultiSelect(allowcustom=False),
'software_program': MyTextInput(textarea=True),
'additional_info_model_output': MyTextInput(textarea=True),
}
class Meta:
model = Biomes
exclude = ('impact_model', )
widgets = {
'output':
MyTextInput(textarea=True),
'output_per_pft':
MyTextInput(),
'considerations':
MyTextInput(textarea=True),
'dynamic_vegetation':
MyTextInput(textarea=True),
'nitrogen_limitation':
MyTextInput(textarea=True),
'co2_effects':
MyTextInput(textarea=True),
'light_interception':
MyTextInput(textarea=True),
'light_utilization':
MyTextInput(textarea=True),
'phenology':
MyTextInput(textarea=True),
'water_stress':
MyTextInput(textarea=True),
'heat_stress':
MyTextInput(textarea=True),
'evapotranspiration_approach':
MyTextInput(textarea=True),
'rooting_depth_differences':
MyTextInput(textarea=True),
'root_distribution':
MyTextInput(textarea=True),
'permafrost':
MyTextInput(textarea=True),
'closed_energy_balance':
MyTextInput(textarea=True),
'soil_moisture_surface_temperature_coupling':
MyTextInput(textarea=True),
'latent_heat':
MyTextInput(textarea=True),
'sensible_heat':
MyTextInput(textarea=True),
'mortality_age':
MyTextInput(textarea=True),
'mortality_fire':
MyTextInput(textarea=True),
'mortality_drought':
MyTextInput(textarea=True),
'mortality_insects':
MyTextInput(textarea=True),
'mortality_storm':
MyTextInput(textarea=True),
'mortality_stochastic_random_disturbance':
MyTextInput(textarea=True),
'mortality_other':
MyTextInput(textarea=True),
'mortality_remarks':
MyTextInput(textarea=True),
'nbp_fire':
MyTextInput(textarea=True),
'nbp_landuse_change':
MyTextInput(textarea=True),
'nbp_harvest':
MyTextInput(textarea=True),
'nbp_other':
MyTextInput(textarea=True),
'nbp_comments':
MyTextInput(textarea=True),
'list_of_pfts':
MyTextInput(textarea=True),
'pfts_comments':
MyTextInput(textarea=True),
'compute_soil_carbon':
MyTextInput(textarea=True),
'seperate_soil_carbon':
MyTextInput(textarea=True),
'harvest_npp_crops':
MyTextInput(textarea=True),
'treat_biofuel_npp':
MyTextInput(textarea=True),
'npp_litter_output':
MyTextInput(textarea=True),
'simulate_bioenergy':
MyTextInput(textarea=True),
'transition_cropland':
MyTextInput(textarea=True),
'simulate_pasture':
MyTextInput(textarea=True),
}
class Meta:
model = Water
exclude = ('impact_model', )
widgets = {
'technological_progress': MyTextInput(textarea=True),
'soil_layers': MyTextInput(textarea=True),
'water_use': MyTextInput(textarea=True),
'water_sectors': MyTextInput(textarea=True),
'routing': MyTextInput(textarea=True),
'routing_data': MyTextInput(textarea=True),
'land_use': MyTextInput(textarea=True),
'dams_reservoirs': MyTextInput(textarea=True),
'calibration': MyBooleanSelect(nullable=True),
'calibration_years': MyTextInput(),
'calibration_dataset': MyTextInput(),
'calibration_catchments': MyTextInput(),
'vegetation': MyBooleanSelect(nullable=True),
'vegetation_representation': MyTextInput(textarea=True),
"methods_evapotranspiration": MyTextInput(textarea=True),
'methods_snowmelt': MyTextInput(textarea=True),
}
class Meta:
model = Energy
exclude = ('impact_model', )
widgets = {
'model_type':
MyTextInput(textarea=True),
'temporal_extent':
MyTextInput(textarea=True),
'temporal_resolution':
MyTextInput(textarea=True),
'data_format_for_input':
MyTextInput(textarea=True),
'impact_types_energy_demand':
MyTextInput(textarea=True),
'impact_types_temperature_effects_on_thermal_power':
MyTextInput(textarea=True),
'impact_types_weather_effects_on_renewables':
MyTextInput(textarea=True),
'impact_types_water_scarcity_impacts':
MyTextInput(textarea=True),
'impact_types_other':
MyTextInput(textarea=True),
'output_energy_demand':
MyTextInput(textarea=True),
'output_energy_supply':
MyTextInput(textarea=True),
'output_water_scarcity':
MyTextInput(textarea=True),
'output_economics':
MyTextInput(textarea=True),
'output_other':
MyTextInput(textarea=True),
'variables_not_directly_from_GCMs':
MyTextInput(textarea=True),
'response_function_of_energy_demand_to_HDD_CDD':
MyTextInput(textarea=True),
'factor_definition_and_calculation':
MyTextInput(textarea=True),
'biomass_types':
MyTextInput(textarea=True),
'maximum_potential_assumption':
MyTextInput(textarea=True),
'bioenergy_supply_costs':
MyTextInput(textarea=True),
'socioeconomic_input':
MyTextInput(textarea=True),
}
class Meta:
model = Fire
exclude = ('impact_model', )
widgets = {
'output':
MyTextInput(textarea=True),
'output_per_pft':
MyTextInput(),
'considerations':
MyTextInput(textarea=True),
'dynamic_vegetation':
MyTextInput(textarea=True),
'nitrogen_limitation':
MyTextInput(textarea=True),
'co2_effects':
MyTextInput(textarea=True),
'light_interception':
MyTextInput(textarea=True),
'light_utilization':
MyTextInput(textarea=True),
'phenology':
MyTextInput(textarea=True),
'water_stress':
MyTextInput(textarea=True),
'heat_stress':
MyTextInput(textarea=True),
'evapotranspiration_approach':
MyTextInput(textarea=True),
'rooting_depth_differences':
MyTextInput(textarea=True),
'root_distribution':
MyTextInput(textarea=True),
'permafrost':
MyTextInput(textarea=True),
'closed_energy_balance':
MyTextInput(textarea=True),
'soil_moisture_surface_temperature_coupling':
MyTextInput(textarea=True),
'latent_heat':
MyTextInput(textarea=True),
'sensible_heat':
MyTextInput(textarea=True),
'mortality_age':
MyTextInput(textarea=True),
'mortality_fire':
MyTextInput(textarea=True),
'mortality_drought':
MyTextInput(textarea=True),
'mortality_insects':
MyTextInput(textarea=True),
'mortality_storm':
MyTextInput(textarea=True),
'mortality_stochastic_random_disturbance':
MyTextInput(textarea=True),
'mortality_other':
MyTextInput(textarea=True),
'mortality_remarks':
MyTextInput(textarea=True),
'nbp_fire':
MyTextInput(textarea=True),
'nbp_landuse_change':
MyTextInput(textarea=True),
'nbp_harvest':
MyTextInput(textarea=True),
'nbp_other':
MyTextInput(textarea=True),
'nbp_comments':
MyTextInput(textarea=True),
'list_of_pfts':
MyTextInput(textarea=True),
'pfts_comments':
MyTextInput(textarea=True),
'compute_soil_carbon':
MyTextInput(textarea=True),
'seperate_soil_carbon':
MyTextInput(textarea=True),
'harvest_npp_crops':
MyTextInput(textarea=True),
'treat_biofuel_npp':
MyTextInput(textarea=True),
'npp_litter_output':
MyTextInput(textarea=True),
'simulate_bioenergy':
MyTextInput(textarea=True),
'transition_cropland':
MyTextInput(textarea=True),
'simulate_pasture':
MyTextInput(textarea=True),
'main_components_burnt_area':
MyTextInput(textarea=True),
'sources_of_ignition':
MyTextInput(textarea=True),
'fire_ignition_implemented':
MyTextInput(textarea=True),
'natural_ignition_implemented':
MyTextInput(textarea=True),
'human_ignition':
MyTextInput(textarea=True),
'human_ignition_conditions':
MyTextInput(textarea=True),
'how_does_fire_spread':
MyTextInput(textarea=True),
'fire_duration_computed':
MyTextInput(textarea=True),
'model_compute_fuel_load':
MyTextInput(textarea=True),
'list_of_fuel_classes':
MyTextInput(textarea=True),
'fuel_moisture_linked':
MyTextInput(textarea=True),
'carbon_pools_combusted':
MyTextInput(textarea=True),
'combustion_completeness':
MyTextInput(textarea=True),
'min_max_burned_area_grid':
MyTextInput(textarea=True),
'land_cover_classes_allowed':
MyTextInput(textarea=True),
'burned_area_computed_separately':
MyTextInput(textarea=True),
'peatland_fires_included':
MyTextInput(textarea=True),
'deforestation_or_clearing_included':
MyTextInput(textarea=True),
'pastures_represented':
MyTextInput(textarea=True),
'cropland_burn_differ':
MyTextInput(textarea=True),
'pasture_burn_differ':
MyTextInput(textarea=True),
'vegetation_fire_mortality':
MyTextInput(textarea=True),
}
class Meta:
model = BaseImpactModel
exclude = ('owners', 'public', 'sector', 'name', 'drkz_folder_name')
widgets = {
'short_description': MyTextInput(textarea=True),
}
class Meta:
model = Forests
exclude = ('impact_model', )
widgets = {
# Forest Model Set-up Specifications
'initialize_model':
MyTextInput(textarea=True),
'data_profound_db':
MyTextInput(textarea=True),
'management_implementation':
MyTextInput(textarea=True),
'harvesting_simulated':
MyTextInput(textarea=True),
'regenerate':
MyTextInput(textarea=True),
'unmanaged_simulations':
MyTextInput(textarea=True),
'noco2_scenario':
MyTextInput(textarea=True),
'leap_years':
MyTextInput(textarea=True),
'simulate_minor_tree':
MyTextInput(textarea=True),
'nitrogen_simulation':
MyTextInput(textarea=True),
'soil_depth':
MyTextInput(textarea=True),
'upload_parameter_list':
MyTextInput(textarea=True),
'minimum_diameter_tree':
MyTextInput(textarea=True),
'model_historically_calibrated':
MyTextInput(textarea=True),
'stochastic_element':
MyTextInput(textarea=True),
# Forest Model Output Specifications
'initial_state':
MyTextInput(textarea=True),
'total_calculation':
MyTextInput(textarea=True),
'output_dbh_class':
MyTextInput(textarea=True),
'output':
MyTextInput(textarea=True),
'output_per_pft':
MyTextInput(),
'considerations':
MyTextInput(textarea=True),
'dynamic_vegetation':
MyTextInput(textarea=True),
'nitrogen_limitation':
MyTextInput(textarea=True),
'co2_effects':
MyTextInput(textarea=True),
'light_interception':
MyTextInput(textarea=True),
'light_utilization':
MyTextInput(textarea=True),
'phenology':
MyTextInput(textarea=True),
'water_stress':
MyTextInput(textarea=True),
'heat_stress':
MyTextInput(textarea=True),
'evapotranspiration_approach':
MyTextInput(textarea=True),
'rooting_depth_differences':
MyTextInput(textarea=True),
'root_distribution':
MyTextInput(textarea=True),
'permafrost':
MyTextInput(textarea=True),
'closed_energy_balance':
MyTextInput(textarea=True),
'soil_moisture_surface_temperature_coupling':
MyTextInput(textarea=True),
'latent_heat':
MyTextInput(textarea=True),
'sensible_heat':
MyTextInput(textarea=True),
'mortality_age':
MyTextInput(textarea=True),
'mortality_fire':
MyTextInput(textarea=True),
'mortality_drought':
MyTextInput(textarea=True),
'mortality_insects':
MyTextInput(textarea=True),
'mortality_storm':
MyTextInput(textarea=True),
'mortality_stochastic_random_disturbance':
MyTextInput(textarea=True),
'mortality_other':
MyTextInput(textarea=True),
'mortality_remarks':
MyTextInput(textarea=True),
'nbp_fire':
MyTextInput(textarea=True),
'nbp_landuse_change':
MyTextInput(textarea=True),
'nbp_harvest':
MyTextInput(textarea=True),
'nbp_other':
MyTextInput(textarea=True),
'nbp_comments':
MyTextInput(textarea=True),
'list_of_pfts':
MyTextInput(textarea=True),
'pfts_comments':
MyTextInput(textarea=True),
'assimilation':
MyTextInput(textarea=True),
'respiration':
MyTextInput(textarea=True),
'carbon_allocation':
MyTextInput(textarea=True),
'regeneration_planting':
MyTextInput(textarea=True),
'soil_water_balance':
MyTextInput(textarea=True),
'carbon_nitrogen_balance':
MyTextInput(textarea=True),
'feedbacks_considered':
MyTextInput(textarea=True),
}
class ForestsForm(BaseSectorForm):
template = 'edit_forests.html'
upload_parameter_list = forms.CharField(
widget=MyTextInput(textarea=True),
required=False,
label=mark_safe(
'Please upload a list of your parameters as an attachment (Section 7). The list should include species-specific parameters and other parameters not depending on initialization data including the following information: short name, long name, short explanation, unit, value, see here for an example (<a href="http://www.pik-potsdam.de/4c/web_4c/theory/parameter_table_0514.pdf" target="_blank">parameter_table_0514.pdf</a>)'
))
class Meta:
model = Forests
exclude = ('impact_model', )
widgets = {
# Forest Model Set-up Specifications
'initialize_model':
MyTextInput(textarea=True),
'data_profound_db':
MyTextInput(textarea=True),
'management_implementation':
MyTextInput(textarea=True),
'harvesting_simulated':
MyTextInput(textarea=True),
'regenerate':
MyTextInput(textarea=True),
'unmanaged_simulations':
MyTextInput(textarea=True),
'noco2_scenario':
MyTextInput(textarea=True),
'leap_years':
MyTextInput(textarea=True),
'simulate_minor_tree':
MyTextInput(textarea=True),
'nitrogen_simulation':
MyTextInput(textarea=True),
'soil_depth':
MyTextInput(textarea=True),
'upload_parameter_list':
MyTextInput(textarea=True),
'minimum_diameter_tree':
MyTextInput(textarea=True),
'model_historically_calibrated':
MyTextInput(textarea=True),
'stochastic_element':
MyTextInput(textarea=True),
# Forest Model Output Specifications
'initial_state':
MyTextInput(textarea=True),
'total_calculation':
MyTextInput(textarea=True),
'output_dbh_class':
MyTextInput(textarea=True),
'output':
MyTextInput(textarea=True),
'output_per_pft':
MyTextInput(),
'considerations':
MyTextInput(textarea=True),
'dynamic_vegetation':
MyTextInput(textarea=True),
'nitrogen_limitation':
MyTextInput(textarea=True),
'co2_effects':
MyTextInput(textarea=True),
'light_interception':
MyTextInput(textarea=True),
'light_utilization':
MyTextInput(textarea=True),
'phenology':
MyTextInput(textarea=True),
'water_stress':
MyTextInput(textarea=True),
'heat_stress':
MyTextInput(textarea=True),
'evapotranspiration_approach':
MyTextInput(textarea=True),
'rooting_depth_differences':
MyTextInput(textarea=True),
'root_distribution':
MyTextInput(textarea=True),
'permafrost':
MyTextInput(textarea=True),
'closed_energy_balance':
MyTextInput(textarea=True),
'soil_moisture_surface_temperature_coupling':
MyTextInput(textarea=True),
'latent_heat':
MyTextInput(textarea=True),
'sensible_heat':
MyTextInput(textarea=True),
'mortality_age':
MyTextInput(textarea=True),
'mortality_fire':
MyTextInput(textarea=True),
'mortality_drought':
MyTextInput(textarea=True),
'mortality_insects':
MyTextInput(textarea=True),
'mortality_storm':
MyTextInput(textarea=True),
'mortality_stochastic_random_disturbance':
MyTextInput(textarea=True),
'mortality_other':
MyTextInput(textarea=True),
'mortality_remarks':
MyTextInput(textarea=True),
'nbp_fire':
MyTextInput(textarea=True),
'nbp_landuse_change':
MyTextInput(textarea=True),
'nbp_harvest':
MyTextInput(textarea=True),
'nbp_other':
MyTextInput(textarea=True),
'nbp_comments':
MyTextInput(textarea=True),
'list_of_pfts':
MyTextInput(textarea=True),
'pfts_comments':
MyTextInput(textarea=True),
'assimilation':
MyTextInput(textarea=True),
'respiration':
MyTextInput(textarea=True),
'carbon_allocation':
MyTextInput(textarea=True),
'regeneration_planting':
MyTextInput(textarea=True),
'soil_water_balance':
MyTextInput(textarea=True),
'carbon_nitrogen_balance':
MyTextInput(textarea=True),
'feedbacks_considered':
MyTextInput(textarea=True),
}
class Meta:
model = Agriculture
exclude = ('impact_model', )
widgets = {
'crops': MyTextInput(textarea=True),
'land_coverage': MyTextInput(textarea=True),
'planting_date_decision': MyTextInput(textarea=True),
'planting_density': MyTextInput(textarea=True),
'crop_cultivars': MyTextInput(textarea=True),
'fertilizer_application': MyTextInput(textarea=True),
'irrigation': MyTextInput(textarea=True),
'crop_residue': MyTextInput(textarea=True),
'initial_soil_water': MyTextInput(textarea=True),
'initial_soil_nitrate_and_ammonia': MyTextInput(textarea=True),
'initial_soil_C_and_OM': MyTextInput(textarea=True),
'initial_crop_residue': MyTextInput(textarea=True),
'lead_area_development': MyTextInput(textarea=True),
'light_interception': MyTextInput(textarea=True),
'light_utilization': MyTextInput(textarea=True),
'yield_formation': MyTextInput(textarea=True),
'crop_phenology': MyTextInput(textarea=True),
'root_distribution_over_depth': MyTextInput(textarea=True),
'stresses_involved': MyTextInput(textarea=True),
'type_of_water_stress': MyTextInput(textarea=True),
'type_of_heat_stress': MyTextInput(textarea=True),
'water_dynamics': MyTextInput(textarea=True),
'evapo_transpiration': MyTextInput(textarea=True),
'soil_CN_modeling': MyTextInput(textarea=True),
'co2_effects': MyTextInput(textarea=True),
'parameters_number_and_description': MyTextInput(textarea=True),
'calibrated_values': MyTextInput(textarea=True),
'output_variable_and_dataset': MyTextInput(textarea=True),
'spatial_scale_of_calibration_validation':
MyTextInput(textarea=True),
'temporal_scale_of_calibration_validation':
MyTextInput(textarea=True),
'criteria_for_evaluation': MyTextInput(textarea=True),
}