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Layer_Package_Generator.py
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Layer_Package_Generator.py
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# # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # #
# Name: Layer Package Generator
# Purpose: Finds existing layers in a project, generates them if they are missing and their base exists, and then puts
# them into a layer package
#
# Author: Braden Anderson
# Created on: 14 June 2018
# # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # #
import arcpy
import os
import glob
from SupportingFunctions import find_folder, find_available_num_prefix, make_folder, make_layer
import re
def main(output_folder, layer_package_name, clipping_network):
"""
Generates a layer package from a BRAT project
:param output_folder: What output folder we want to use for our layer package
:param layer_package_name: What we want to name our layer package
:param clipping_network: What we want to clip our network to
:return:
"""
arcpy.env.overwriteOutput = 'TRUE'
if layer_package_name == "None":
layer_package_name = None
if clipping_network == "None":
clipping_network = None
if layer_package_name is None:
if clipping_network is not None:
layer_package_name = "LayerPackage_Clipped"
else:
layer_package_name = "LayerPackage"
validate_inputs(output_folder)
project_folder = os.path.dirname(os.path.dirname(output_folder))
inputs_folder = find_folder(project_folder, "Inputs")
intermediates_folder = os.path.join(output_folder, "01_Intermediates")
analyses_folder = os.path.join(output_folder, "02_Analyses")
trib_code_folder = os.path.dirname(os.path.abspath(__file__))
symbology_folder = os.path.join(trib_code_folder, 'BRATSymbology')
try:
check_for_layers(intermediates_folder, analyses_folder, inputs_folder, symbology_folder)
except Exception as err:
arcpy.AddMessage(
"Something went wrong while checking for layers. The process will package the layers that exist.")
arcpy.AddMessage("The error message thrown was the following:")
arcpy.AddWarning(err)
if clipping_network is not None:
brat_table_clip, network_clip, cons_rest_clip, valid_clip = \
create_clipped_layers(output_folder, clipping_network, symbology_folder)
make_layer_package(output_folder, intermediates_folder, analyses_folder,
inputs_folder, symbology_folder, layer_package_name, clipping_network)
def create_clipped_layers(output_folder, clipping_network, symbology_folder):
"""
Makes clipped layers of all BRAT outputs
param output_folder: folder where BRAT outputs will be found
param clipping_network: network which BRAT outputs will be clipped to (e.g. the perennial)
param symbology_folder: folder where standardized BRAT layers are found
"""
arcpy.AddMessage("Making clipped layers.....")
proj_path = os.path.dirname(os.path.dirname(output_folder))
intermediates_folder = find_folder(output_folder, 'Intermediates')
analyses_folder = find_folder(output_folder, 'Analyses')
buffer_folder = find_folder(intermediates_folder, "Buffers")
# find relevant files
network = find_file(proj_path, 'Inputs/*[0-9]*_Network/Network_*[0-9]*/*.shp')
brat_table_file = find_brat_table_output(intermediates_folder)
conservation_restoration_file = find_shape_file_with_field(analyses_folder, "oPBRC_CR")
validation_file = find_shape_file_with_field(analyses_folder, "ExCategor")
# clip all files
network_clip = clip_file(network, clipping_network)
brat_table_clip = clip_file(brat_table_file, clipping_network)
cons_rest_clip = clip_file(conservation_restoration_file, clipping_network)
if validation_file is not None:
valid_clip = clip_file(validation_file, clipping_network)
else:
valid_clip = None
# make new network layer
make_clipped_layers(os.path.dirname(network), network_clip, clipping_network, symbology_folder)
# make new buffers
buf_30_symbol = os.path.join(symbology_folder, "buffer_30m.lyr")
buf_100_symbol = os.path.join(symbology_folder, "buffer_100m.lyr")
buf_30m = os.path.join(buffer_folder, "buffer_30m_clipped.shp")
buf_100m = os.path.join(buffer_folder, "buffer_100m_clipped.shp")
arcpy.Buffer_analysis(network_clip, buf_100m, "100 Meters", "", "ROUND")
arcpy.Buffer_analysis(network_clip, buf_30m, "30 Meters", "", "ROUND")
make_layer(buffer_folder, buf_30m, "30 m Buffer", buf_30_symbol, file_name="30mBuffer_clipped.lyr")
make_layer(buffer_folder, buf_100m, "100 m Buffer", buf_100_symbol, file_name="100mBuffer_clipped.lyr")
# make new intermediates layers
inter_folders = filter(lambda x: os.path.isdir(os.path.join(intermediates_folder, x)),
os.listdir(intermediates_folder))
perennial_folder = find_folder(intermediates_folder, "Perennial")
if os.path.basename(buffer_folder) in inter_folders:
inter_folders.remove(os.path.basename(buffer_folder))
if os.path.basename(perennial_folder) in inter_folders:
inter_folders.remove(os.path.basename(perennial_folder))
if len(inter_folders) > 0:
for folder_name in inter_folders:
folder = os.path.join(intermediates_folder, folder_name)
make_clipped_layers(folder, brat_table_clip, clipping_network, symbology_folder)
# make new analyses layers
capacity_folder = find_folder(analyses_folder, "Capacity")
historic_folder = find_folder(capacity_folder, "HistoricCapacity")
existing_folder = find_folder(capacity_folder, "ExistingCapacity")
management_folder = find_folder(analyses_folder, "Management")
validation_folder = find_folder(analyses_folder, "Validation")
analyses_folders = [capacity_folder, historic_folder, existing_folder, management_folder]
if len(analyses_folders) > 0:
for folder in analyses_folders:
make_clipped_layers(folder, cons_rest_clip, clipping_network, symbology_folder)
if validation_file is not None:
make_clipped_layers(validation_folder, valid_clip, clipping_network, symbology_folder)
return brat_table_clip, network_clip, cons_rest_clip, valid_clip
def clip_file(shapefile, clipping_network):
"""
Clips BRAT outputs to clipping network with standardized name
param shapefile: BRAT output to be clipped
param clipping_network: polyline to clip BRAT outputs to
"""
if os.path.exists(shapefile):
perennial_shapefile = shapefile.split('.')[0] + "_Perennial.shp"
if os.path.exists(perennial_shapefile):
arcpy.AddMessage('.........Using previously clipped ' + os.path.basename(perennial_shapefile))
return perennial_shapefile
elif shapefile.endswith('_Perennial.shp') or shapefile.endswith('_clipped.shp'):
arcpy.AddMessage('.........Using previously clipped ' + os.path.basename(shapefile))
return shapefile
else:
try:
out_name = shapefile.split('.')[0] + "_clipped.shp"
arcpy.Clip_analysis(shapefile, clipping_network, out_name)
return out_name
except Exception as err:
print err
else:
arcpy.AddMessage("WARNING: Could not find " + shapefile + " to make clipped layers")
def make_clipped_layers(folder, shapefile, clipping_network, symbology_folder):
"""
Makes clipped layers for all layer in folder based on shapefile that has been clipped
param folder: folder where old layers will be found and new clipped layers stored
param shapefile: shapefile layers will be based off
param symbology_folder: folder where base layers will be found
"""
lyrs = find_layers_in_folder(folder, None)
for lyr in lyrs[:]:
if lyr.endswith('_clipped.lyr'):
lyrs.remove(lyr)
if os.path.basename(lyr) == 'SurveyedBeaverDamLocations.lyr':
lyrs.remove(lyr)
for lyr in lyrs:
name = os.path.basename(lyr)
symbology = os.path.join(symbology_folder, name)
desc = arcpy.Describe(lyr)
out_name = str(desc.nameString)
out_file = name.split('.')[0]+'_clipped.lyr'
if os.path.exists(os.path.join(folder, out_file)):
arcpy.Delete_management(os.path.join(folder, out_file))
if os.path.exists(symbology):
try:
make_layer(folder, shapefile, new_layer_name=out_name,
symbology_layer=symbology, is_raster=False, file_name=out_file)
except Exception as err:
arcpy.AddMessage("WARNING: Failed to make " + out_file + ". Error thrown was:")
arcpy.AddMessage(err)
def validate_inputs(output_folder):
"""
Checks that the inputs are in the form that we want them to be
:param output_folder: What output folder we want to base our layer package off of
:return:
"""
if not re.match(r'Output_\d\d', os.path.basename(output_folder)):
raise Exception("Given output folder is invalid.\n\n" +
'Look for a folder formatted like "Output_##", where # represents any number')
def check_for_layers(intermediates_folder, analyses_folder, inputs_folder, symbology_folder):
"""
Checks for what layers exist, and creates them if they do not exist
:param intermediates_folder: Where our intermediates are kept
:param analyses_folder: Where our analyses are kept
:param inputs_folder: Where our inputs are kept
:param symbology_folder: Where we pull symbology from
:return:
"""
arcpy.AddMessage("Recreating missing layers (if possible)...")
check_intermediates(intermediates_folder, symbology_folder)
check_analyses(analyses_folder, symbology_folder)
check_inputs(inputs_folder, symbology_folder)
def check_intermediates(intermediates_folder, symbology_folder):
"""
Checks for all the intermediate layers
:param intermediates_folder: Where our intermediates are kept
:param symbology_folder: Where we pull symbology from
:return:
"""
brat_table_file = find_brat_table_output(intermediates_folder)
if brat_table_file == "":
arcpy.AddMessage("Could not find BRAT Table output in intermediates, so could not generate layers for them")
return
check_buffer_layers(intermediates_folder, symbology_folder)
check_intermediate_layer(intermediates_folder, symbology_folder,
"UpstreamDrainageArea.lyr", brat_table_file, "TopographicMetrics",
"Upstream Drainage Area", "iGeo_DA")
check_intermediate_layer(intermediates_folder, symbology_folder,
"ReachSlope.lyr", brat_table_file, "TopographicMetrics",
"Reach Slope", "iGeo_Slope")
check_intermediate_layer(intermediates_folder, symbology_folder,
"LandUseIntensity.lyr", brat_table_file, "AnthropogenicMetrics",
"Land Use Intensity", "iPC_LU")
check_intermediate_layer(intermediates_folder, symbology_folder,
"DistancetoClosestInfrastructure.lyr", brat_table_file, "AnthropogenicMetrics",
"Distance to Canals & Ditches", "iPC_Canal")
check_intermediate_layer(intermediates_folder, symbology_folder,
"DistancetoClosestInfrastructure.lyr", brat_table_file, "AnthropogenicMetrics",
"Distance to Closest Infrastructure", "oPC_Dist")
check_intermediate_layer(intermediates_folder, symbology_folder,
"DistancetoClosestInfrastructure.lyr", brat_table_file, "AnthropogenicMetrics",
"Distance to Railroad", "iPC_Rail")
check_intermediate_layer(intermediates_folder, symbology_folder,
"DistancetoClosestInfrastructure.lyr", brat_table_file, "AnthropogenicMetrics",
"Distance to Railroad in Valley Bottom", "iPC_RailVB")
check_intermediate_layer(intermediates_folder, symbology_folder,
"DistancetoClosestInfrastructure.lyr", brat_table_file, "AnthropogenicMetrics",
"Distance to Road Crossing", "iPC_RoadX")
check_intermediate_layer(intermediates_folder, symbology_folder,
"DistancetoClosestInfrastructure.lyr", brat_table_file, "AnthropogenicMetrics",
"Distance to Road", "iPC_Road")
check_intermediate_layer(intermediates_folder, symbology_folder,
"DistancetoClosestInfrastructure.lyr", brat_table_file, "AnthropogenicMetrics",
"Distance to Road in Valley Bottom", "iPC_RoadVB")
check_intermediate_layer(intermediates_folder, symbology_folder,
"AnabranchTypes.lyr", brat_table_file, "AnabranchHandler",
"Anabranch Types", "IsMainCh")
check_intermediate_layer(intermediates_folder, symbology_folder,
"HighflowStreamPower.lyr", brat_table_file, "Hydrology",
"Highflow Stream Power", "iHyd_SP2")
check_intermediate_layer(intermediates_folder, symbology_folder,
"BaseflowStreamPower.lyr", brat_table_file, "Hydrology",
"Baseflow Stream Power", "iHyd_SPLow")
check_intermediate_layer(intermediates_folder, symbology_folder,
"ExistingVegDamBuildingCapacity.lyr", brat_table_file, "VegDamCapacity",
"Existing Veg Dam Building Capacity", "oVC_EX")
check_intermediate_layer(intermediates_folder, symbology_folder,
"HistoricVegDamBuildingCapacity.lyr", brat_table_file, "VegDamCapacity",
"Historic Veg Dam Building Capacity", "oVC_HPE")
def check_intermediate_layer(intermediates_folder, symbology_folder, symbology_layer_name, brat_table_file, folder_name,
layer_name, field_for_layer, layer_file_name=None):
"""
Checks that the layer exists. If it has the proper field, and it missing, the layer will be created again
:param intermediates_folder: The path to the intermediates folder
:param symbology_folder: The path to the symbology folder
:param symbology_layer_name: The name of the symbology layer, that we'll pull our symbology from
:param brat_table_file: The BRAT table output, which we'll use for our layers
:param folder_name: The name of the folder that we'll look in for the layer
:param layer_name: The name we need to give to the layer (in the Table of Contents)
:param field_for_layer: The name of the field we'll need for the layer
:param layer_file_name: The name we'll give to the layer file (defaults to the name in the ToC, without spaces)
:return:
"""
fields = [f.name for f in arcpy.ListFields(brat_table_file)]
if field_for_layer not in fields: # we don't want to create the layer if the field isn't in the BRAT table file
return
if layer_file_name is None:
layer_file_name = layer_name.replace(" ", "")
layer_symbology = os.path.join(symbology_folder, symbology_layer_name)
layer_folder = find_folder(intermediates_folder, folder_name)
if layer_folder is None:
layer_folder = make_folder(intermediates_folder,
find_available_num_prefix(intermediates_folder) + "_" + folder_name)
layer_path = os.path.join(layer_folder, layer_file_name)
if not layer_path.endswith(".lyr"):
layer_path += '.lyr'
if not os.path.exists(layer_path):
make_layer(layer_folder, brat_table_file, layer_name, layer_symbology, file_name=layer_file_name)
def check_layer(layer_path, base_path, symbology_layer=None, is_raster=False, layer_name=None):
"""
If the base exists, but the layer does not, makes the layer
:param layer_path: The layer we want to check for
:param base_path: The file that the layer is based off of
:param symbology_layer: The symbology to apply to the new layer (if necessary)
:param is_raster: If the new layer is a raster
:param layer_name: The name of the layer to check
:return:
"""
if not os.path.exists(layer_path) and os.path.exists(base_path):
output_folder = os.path.dirname(layer_path)
if layer_name is None:
layer_name = os.path.basename(layer_path)
make_layer(output_folder, base_path, layer_name, symbology_layer, is_raster=is_raster)
def find_brat_table_output(intermediates_folder):
"""
Finds the path to the BRAT Table output for use in generating layers
:param intermediates_folder: Where the BRAT Table output should be
:return:
"""
brat_table_file = ""
for shape_dir in os.listdir(intermediates_folder):
if shape_dir.endswith(".shp"):
brat_table_file = os.path.join(intermediates_folder, shape_dir)
return brat_table_file
def check_buffer_layers(intermediates_folder, symbology_folder):
"""
Finds the buffer folder, and checks that it has the
:param intermediates_folder: The path to the intermediates folder
:param symbology_folder: The path to the symbology folder
:return:
"""
buffer_folder = find_folder(intermediates_folder, "Buffers")
buffer_100m = os.path.join(buffer_folder, "buffer_100m.shp")
buffer_100m_layer = os.path.join(buffer_folder, "100mBuffer.lyr")
buffer_100m_symbology = os.path.join(symbology_folder, "buffer_100m.lyr")
check_layer(buffer_100m_layer, buffer_100m, buffer_100m_symbology, is_raster=False, layer_name='100 m Buffer')
buffer_30m = os.path.join(buffer_folder, "buffer_30m.shp")
buffer_30m_layer = os.path.join(buffer_folder, "30mBuffer.lyr")
buffer_30m_symbology = os.path.join(symbology_folder, "buffer_30m.lyr")
check_layer(buffer_30m_layer, buffer_30m, buffer_30m_symbology, is_raster=False, layer_name='30 m Buffer')
def check_analyses(analyses_folder, symbology_folder):
"""
Checks for all the intermediate layers
:param analyses_folder: Where our analyses are kept
:param symbology_folder: Where we pull symbology from
:return:
"""
capacity_folder = find_folder(analyses_folder, "Capacity")
historic_capacity_folder = find_folder(capacity_folder, "HistoricCapacity")
existing_capacity_folder = find_folder(capacity_folder, "ExistingCapacity")
management_folder = find_folder(analyses_folder, "Management")
check_analyses_layer(analyses_folder, existing_capacity_folder, "Existing Dam Building Capacity",
symbology_folder, "ExistingDamBuildingCapacity.lyr", "oCC_EX")
check_analyses_layer(analyses_folder, historic_capacity_folder, "Historic Dam Building Capacity",
symbology_folder, "HistoricDamBuildingCapacity.lyr", "oCC_HPE")
check_analyses_layer(analyses_folder, existing_capacity_folder, "Existing Dam Complex Size",
symbology_folder, "ExistingDamComplexSize.lyr", "mCC_EX_Ct")
check_analyses_layer(analyses_folder, historic_capacity_folder, "Historic Dam Complex Size",
symbology_folder, "HistoricDamComplexSize.lyr", "mCC_HPE_Ct")
check_analyses_layer(analyses_folder, management_folder, "Unsuitable or Limited Dam Building Opportunities",
symbology_folder, "UnsuitableorLimitedDamBuildingOpportunities.lyr", "oPBRC_UD")
check_analyses_layer(analyses_folder, management_folder, "Risk of Undesirable Dams",
symbology_folder, "RiskofUndesirableDams.lyr", "oPBRC_UI")
check_analyses_layer(analyses_folder, management_folder, "Beaver Dam Constraints and Opportunities",
symbology_folder, "BeaverDamConstraintsandOpportunities.lyr", "oPBRC_CR")
def check_analyses_layer(analyses_folder, layer_base_folder, layer_name, symbology_folder,
symbology_file_name, field_name, layer_file_name=None):
"""
Checks if an analyses layer exists. If it does not, it looks for a shape file that can create the proper symbology.
If it finds a proper shape file, it creates the layer that was missing
:param analyses_folder: The root of the analyses folder
:param layer_base_folder: The folder containing the layer file
:param layer_name: The name of the layer to create
:param symbology_folder: The path to the symbology folder
:param symbology_file_name: The name of the symbology layer we want to pull from
:param field_name: The name of the field we'll be basing our symbology off of
:param layer_file_name: The name of the layer file (if different from the layer_name without spaces)
:return:
"""
if layer_file_name is None:
layer_file_name = layer_name.replace(" ", "") + ".lyr"
layer_file = os.path.join(layer_base_folder, layer_file_name)
if os.path.exists(layer_file): # if the layer already exists, we don't care, we can exit the function
return
shape_file = find_shape_file_with_field(analyses_folder, field_name)
if shape_file is None:
return
layer_symbology = os.path.join(symbology_folder, symbology_file_name)
make_layer(layer_base_folder, shape_file, layer_name, symbology_layer=layer_symbology)
def find_shape_file_with_field(folder, field_name):
"""
Looks for a file in the given folder that has the field name we're looking for
:param folder: The folder to look in
:param field_name: The field name we're looking for
:return: The file path that has the field we want
"""
for check_file in os.listdir(folder):
if check_file.endswith(".shp"):
file_path = os.path.join(folder, check_file)
file_fields = [f.name for f in arcpy.ListFields(file_path)]
if field_name in file_fields:
return file_path
return None
def check_inputs(inputs_folder, symbology_folder):
"""
Checks for all the intermediate layers
:param inputs_folder: Where our inputs are kept
:param symbology_folder: Where we pull symbology from
:return:
"""
vegetation_folder = find_folder(inputs_folder, "Vegetation")
network_folder = find_folder(inputs_folder, "Network")
topo_folder = find_folder(inputs_folder, "Topography")
anthropogenic_folder = find_folder(inputs_folder, "Anthropogenic")
ex_veg_folder = find_folder(vegetation_folder, "ExistingVegetation")
hist_veg_folder = find_folder(vegetation_folder, "HistoricVegetation")
valley_bottom_folder = find_folder(anthropogenic_folder, "ValleyBottom")
road_folder = find_folder(anthropogenic_folder, "Roads")
railroad_folder = find_folder(anthropogenic_folder, "Railroads")
canals_folder = find_folder(anthropogenic_folder, "Canals")
land_use_folder = find_folder(anthropogenic_folder, "LandUse")
land_ownership_folder = find_folder(anthropogenic_folder, "LandOwnership")
ex_veg_suitability_symbology = os.path.join(symbology_folder, "Existing_Veg_Suitability.lyr")
ex_veg_riparian_symbology = os.path.join(symbology_folder, "Existing_Veg_Riparian.lyr")
ex_veg_evt_type_symbology = os.path.join(symbology_folder, "Existing_Veg_EVT_Type.lyr")
ex_veg_evt_class_symbology = os.path.join(symbology_folder, "Existing_Veg_EVT_Class.lyr")
ex_veg_class_name_symbology = os.path.join(symbology_folder, "Existing_Veg_EVT_Name.lyr")
hist_veg_group_symbology = os.path.join(symbology_folder, "Historic_Veg_BPS_Type.lyr")
hist_veg_bps_name_symbology = os.path.join(symbology_folder, "Historic_Veg_BPS_Name.lyr")
hist_veg_suitability_symbology = os.path.join(symbology_folder, "Historic_Veg_Suitability.lyr")
hist_veg_riparian_symbology = os.path.join(symbology_folder, "Historic_Veg_Riparian.lyr")
network_symbology = os.path.join(symbology_folder, "Network.lyr")
landuse_symbology = os.path.join(symbology_folder, "Land_Use_Raster.lyr")
land_ownership_symbology = os.path.join(symbology_folder, "SurfaceManagementAgency.lyr")
canals_symbology = os.path.join(symbology_folder, "CanalsDitches.lyr")
roads_symbology = os.path.join(symbology_folder, "Roads.lyr")
railroads_symbology = os.path.join(symbology_folder, "Railroads.lyr")
valley_bottom_symbology = os.path.join(symbology_folder, "ValleyBottom_Fill.lyr")
valley_bottom_outline_symbology = os.path.join(symbology_folder, "ValleyBottom_Outline.lyr")
flow_direction_symbology = os.path.join(symbology_folder, "FlowDirection.lyr")
ex_veg_destinations = find_destinations(ex_veg_folder)
make_input_layers(ex_veg_destinations, "Existing Vegetation Suitability for Beaver Dam Building",
symbology_layer=ex_veg_suitability_symbology, is_raster=True, file_name="ExVegSuitability")
make_input_layers(ex_veg_destinations, "Existing Riparian",
symbology_layer=ex_veg_riparian_symbology, is_raster=True)
make_input_layers(ex_veg_destinations, "Veg Type - EVT Type",
symbology_layer=ex_veg_evt_type_symbology, is_raster=True)
make_input_layers(ex_veg_destinations, "Veg Type - EVT Class",
symbology_layer=ex_veg_evt_class_symbology, is_raster=True)
make_input_layers(ex_veg_destinations, "Veg Type - EVT Name",
symbology_layer=ex_veg_class_name_symbology, is_raster=True)
hist_veg_destinations = find_destinations(hist_veg_folder)
make_input_layers(hist_veg_destinations, "Historic Vegetation Suitability for Beaver Dam Building",
symbology_layer=hist_veg_suitability_symbology, is_raster=True, file_name="HistVegSuitability")
make_input_layers(hist_veg_destinations, "Veg Type - BPS Type",
symbology_layer=hist_veg_group_symbology, is_raster=True, check_field="GROUPVEG")
make_input_layers(hist_veg_destinations, "Veg Type - BPS Name",
symbology_layer=hist_veg_bps_name_symbology, is_raster=True)
make_input_layers(hist_veg_destinations, "Historic Riparian",
symbology_layer=hist_veg_riparian_symbology, is_raster=True, check_field="GROUPVEG")
network_destinations = find_destinations(network_folder)
make_input_layers(network_destinations, "Network", symbology_layer=network_symbology, is_raster=False)
make_input_layers(network_destinations, "Flow Direction", symbology_layer=flow_direction_symbology, is_raster=False)
make_topo_layers(topo_folder)
# add landuse raster to the project
if land_use_folder is not None:
landuse_destinations = find_destinations(land_use_folder)
make_input_layers(landuse_destinations, "Land Use Raster", symbology_layer=landuse_symbology, is_raster=True)
# add the anthropogenic inputs to the project
if valley_bottom_folder is not None:
vally_bottom_destinations = find_destinations(valley_bottom_folder)
make_input_layers(vally_bottom_destinations, "Valley Bottom Fill",
symbology_layer=valley_bottom_symbology, is_raster=False)
make_input_layers(vally_bottom_destinations, "Valley Bottom Outline",
symbology_layer=valley_bottom_outline_symbology, is_raster=False)
# add road layers to the project
if road_folder is not None:
road_destinations = find_destinations(road_folder)
make_input_layers(road_destinations, "Roads", symbology_layer=roads_symbology, is_raster=False)
# add railroad layers to the project
if railroad_folder is not None:
rr_destinations = find_destinations(railroad_folder)
make_input_layers(rr_destinations, "Railroads", symbology_layer=railroads_symbology, is_raster=False)
if canals_folder is not None:
canal_destinations = find_destinations(canals_folder)
make_input_layers(canal_destinations, "Canals & Ditches", symbology_layer=canals_symbology, is_raster=False)
# add land ownership layers to the project
if land_ownership_folder is not None:
ownership_destinations = find_destinations(land_ownership_folder)
make_input_layers(ownership_destinations, "Land Ownership",
symbology_layer=land_ownership_symbology, is_raster=False)
def make_topo_layers(topo_folder):
"""
Writes the layers
:param topo_folder: We want to make layers for the stuff in this folder
:return:
"""
source_code_folder = os.path.dirname(os.path.abspath(__file__))
symbology_folder = os.path.join(source_code_folder, 'BRATSymbology')
dem_symbology = os.path.join(symbology_folder, "DEM.lyr")
slope_symbology = os.path.join(symbology_folder, "Slope.lyr")
for folder in os.listdir(topo_folder):
dem_folder_path = os.path.join(topo_folder, folder)
for file_name in os.listdir(dem_folder_path):
if file_name.endswith(".tif"):
dem_file = os.path.join(dem_folder_path, file_name)
if not os.path.exists(os.path.join(dem_folder_path, "DEM.lyr")) and os.path.exists(dem_file):
make_layer(dem_folder_path, dem_file, "DEM", dem_symbology, is_raster=True)
hillshade_folder = find_folder(dem_folder_path, "Hillshade")
hillshade_file = os.path.join(hillshade_folder, "Hillshade.tif")
if not os.path.exists(os.path.join(hillshade_folder, "Hillshade.lyr")) and os.path.exists(hillshade_file):
make_layer(hillshade_folder, hillshade_file, "Hillshade", is_raster=True)
slope_folder = find_folder(dem_folder_path, "Slope")
slope_file = os.path.join(slope_folder, "Slope.tif")
if not os.path.exists(os.path.join(slope_folder, "Slope.lyr")) and os.path.exists(slope_file):
make_layer(slope_folder, slope_file, "Slope", slope_symbology, is_raster=True)
def find_destinations(root_folder):
"""
Finds all the .shp and .tif files in a directory, and returns an array with the paths to them
:param root_folder: The root folder where we want to find shape files
:return:
"""
destinations = []
for root, dirs, files in os.walk(root_folder):
for check_file in files:
if check_file.endswith(".shp") or check_file.endswith('.tif'):
destinations.append(os.path.join(root, check_file))
return destinations
def make_input_layers(destinations, layer_name, is_raster, symbology_layer=None, file_name=None, check_field=None):
"""
Makes the layers for everything in the folder
:param destinations: A list of paths to our inputs
:param layer_name: The name of the layer
:param is_raster: Whether or not it's a raster
:param symbology_layer: The base for the symbology
:param file_name: The name for the file (if it's different from the layerName)
:param check_field: The name of the field that the symbology is based on
:return:
"""
if file_name is None:
file_name = layer_name
for destination in destinations:
skip_loop = False
dest_dir_name = os.path.dirname(destination)
if file_name is None:
file_name = layer_name.replace(" ", "")
new_layer_save = os.path.join(dest_dir_name, file_name.replace(' ', ''))
if not new_layer_save.endswith(".lyr"):
new_layer_save += ".lyr"
if os.path.exists(new_layer_save):
skip_loop = True
if check_field:
fields = [f.name for f in arcpy.ListFields(destination)]
if check_field not in fields:
# Skip the loop if the base doesn't support
skip_loop = True
if not skip_loop:
make_layer(dest_dir_name, destination, layer_name,
symbology_layer=symbology_layer, is_raster=is_raster, file_name=file_name)
def make_layer_package(output_folder, intermediates_folder, analyses_folder,
inputs_folder, symbology_folder, layer_package_name, clipping_network):
"""
Makes a layer package for the project
:param output_folder: Folder to output the layer package to
:param intermediates_folder: Folder containing intermediates layers
:param analyses_folder: Folder containing analyses layers
:param inputs_folder: Folder containing inputs layers
:param symbology_folder: Folder containing symbology layers
:param layer_package_name: Name for the layer package output
:param clipping_network: Network to clip the layer package with
:return:
"""
if layer_package_name == "" or layer_package_name is None:
layer_package_name = "LayerPackage"
if not layer_package_name.endswith(".lpk"):
layer_package_name += ".lpk"
arcpy.AddMessage("Assembling Layer Package...")
empty_group_layer = os.path.join(symbology_folder, "EmptyGroupLayer.lyr")
mxd = arcpy.mapping.MapDocument("CURRENT")
mxd.relativePaths = False
df = arcpy.mapping.ListDataFrames(mxd)[0]
for lyr in arcpy.mapping.ListLayers(mxd, "", df):
arcpy.mapping.RemoveLayer(df, lyr)
analyses_layer = get_analyses_layer(analyses_folder, empty_group_layer, df, mxd, clipping_network)
inputs_layer = get_inputs_layer(empty_group_layer, inputs_folder, df, mxd, clipping_network)
intermediates_layer = get_intermediates_layers(empty_group_layer, intermediates_folder, df, mxd, clipping_network)
output_layer = group_layers(empty_group_layer, "Output", [intermediates_layer, analyses_layer], df, mxd)
output_layer = group_layers(empty_group_layer, layer_package_name[:-4],
[output_layer, inputs_layer], df, mxd, remove_layer=False)
layer_package = os.path.join(output_folder, layer_package_name)
arcpy.AddMessage("Saving Layer Package...")
arcpy.PackageLayer_management(output_layer, layer_package)
def get_analyses_layer(analyses_folder, empty_group_layer, df, mxd, clipping_network):
"""
Returns the layers we want for the 'BRAT Outputs' section
:param analyses_folder: folder holding capacity, conservation restoration, and validation outputs
:param empty_group_layer: empty group layer
:param df: data frame where layer package is being built
:param mxd: ArcMap document where layer package is being built
:param clipping_network: The network BRAT outputs will be clipped
:return:
"""
capacity_folder = find_folder(analyses_folder, "Capacity")
existing_capacity_folder = find_folder(capacity_folder, "ExistingCapacity")
if clipping_network is None:
existing_density_lyr = find_file(existing_capacity_folder, 'ExistingDamBuildingCapacity.lyr')
existing_complex_lyr = find_file(existing_capacity_folder, 'ExistingDamComplexSize.lyr')
else:
existing_density_lyr = find_file(existing_capacity_folder, 'ExistingDamBuildingCapacity_clipped.lyr')
existing_complex_lyr = find_file(existing_capacity_folder, 'ExistingDamComplexSize_clipped.lyr')
historic_capacity_folder = find_folder(capacity_folder, "HistoricCapacity")
if clipping_network is None:
historic_density_lyr = find_file(historic_capacity_folder, 'HistoricDamBuildingCapacity.lyr')
historic_complex_lyr = find_file(historic_capacity_folder, 'HistoricDamComplexSize.lyr')
else:
historic_density_lyr = find_file(historic_capacity_folder, 'HistoricDamBuildingCapacity_clipped.lyr')
historic_complex_lyr = find_file(historic_capacity_folder, 'HistoricDamComplexSize_clipped.lyr')
management_folder = find_folder(analyses_folder, "Management")
validation_folder = find_folder(analyses_folder, "Validation")
existing_density_group = group_layers(empty_group_layer, "Dam Density", [existing_density_lyr], df, mxd)
existing_complex_group = group_layers(empty_group_layer, "Size of Complex", [existing_complex_lyr], df, mxd)
existing_capacity_layers = [existing_complex_group, existing_density_group]
existing_capacity_layer = group_layers(empty_group_layer, "Existing Capacity", existing_capacity_layers, df, mxd)
historic_density_group = group_layers(empty_group_layer, "Dam Density", [historic_density_lyr], df, mxd)
historic_complex_group = group_layers(empty_group_layer, "Size of Complex", [historic_complex_lyr], df, mxd)
historic_capacity_layers = [historic_complex_group, historic_density_group]
historic_capacity_layer = group_layers(empty_group_layer, "Historic Capacity", historic_capacity_layers, df, mxd)
management_layers = find_layers_in_folder(management_folder, clipping_network)
management_layer = group_layers(empty_group_layer, "Management", management_layers, df, mxd)
validation_layers = find_layers_in_folder(validation_folder, clipping_network)
validation_layer = group_layers(empty_group_layer, "Validation", validation_layers, df, mxd)
capacity_layer = group_layers(empty_group_layer, "Capacity",
[historic_capacity_layer, existing_capacity_layer], df, mxd)
output_layer = group_layers(empty_group_layer, "Beaver Restoration Assessment Tool - BRAT",
[management_layer, capacity_layer, validation_layer], df, mxd)
return output_layer
def get_inputs_layer(empty_group_layer, inputs_folder, df, mxd, clipping_network):
"""
Gets all the input layers, groups them properly, returns the layer
:param empty_group_layer: The base to build the group layer with
:param inputs_folder: Path to the inputs folder
:param df: The dataframe we're working with
:param mxd: The map document we're working with
:param clipping_network: The network to clip th layer with
:return: layer for inputs
"""
vegetation_folder = find_folder(inputs_folder, "_Vegetation")
ex_veg_folder = find_folder(vegetation_folder, "_ExistingVegetation")
hist_veg_folder = find_folder(vegetation_folder, "_HistoricVegetation")
network_folder = find_folder(inputs_folder, "_Network")
topo_folder = find_folder(inputs_folder, "_Topography")
anthropogenic_folder = find_folder(inputs_folder, "Anthropogenic")
valley_folder = find_folder(anthropogenic_folder, "ValleyBottom")
roads_folder = find_folder(anthropogenic_folder, "Roads")
railroads_folder = find_folder(anthropogenic_folder, "Railroads")
canals_folder = find_folder(anthropogenic_folder, "Canals")
land_use_folder = find_folder(anthropogenic_folder, "LandUse")
ex_veg_layers = find_instance_layers(ex_veg_folder, None)
ex_veg_layer = group_layers(empty_group_layer, "Existing Vegetation", ex_veg_layers, df, mxd)
hist_veg_layers = find_instance_layers(hist_veg_folder, None)
hist_veg_layer = group_layers(empty_group_layer, "Historic Vegetation", hist_veg_layers, df, mxd)
veg_layer = group_layers(empty_group_layer, "Vegetation", [hist_veg_layer, ex_veg_layer], df, mxd)
network_layers = find_instance_layers(network_folder, clipping_network)
network_layer = group_layers(empty_group_layer, "Network", network_layers, df, mxd)
dem_layers = find_instance_layers(topo_folder, None)
hillshade_layers = find_dem_derivative(topo_folder, "Hillshade")
slope_layers = find_dem_derivative(topo_folder, "Slope")
flow_layers = find_dem_derivative(topo_folder, "Flow")
topo_layer = group_layers(empty_group_layer, "Topography",
hillshade_layers + dem_layers + slope_layers + flow_layers, df, mxd)
valley_layers = find_instance_layers(valley_folder, None)
valley_layer = group_layers(empty_group_layer, "Valley Bottom", valley_layers, df, mxd)
road_layers = find_instance_layers(roads_folder, None)
road_layer = group_layers(empty_group_layer, "Roads", road_layers, df, mxd)
railroad_layers = find_instance_layers(railroads_folder, None)
railroad_layer = group_layers(empty_group_layer, "Railroads", railroad_layers, df, mxd)
canal_layers = find_instance_layers(canals_folder, None)
canal_layer = group_layers(empty_group_layer, "Canals", canal_layers, df, mxd)
land_use_layers = find_instance_layers(land_use_folder, None)
land_use_layer = group_layers(empty_group_layer, "Land Use", land_use_layers, df, mxd)
anthropogenic_layer = group_layers(empty_group_layer, "Anthropogenic Layers",
[valley_layer, road_layer, railroad_layer, canal_layer, land_use_layer], df, mxd)
return group_layers(empty_group_layer, "Inputs",
[topo_layer, veg_layer, network_layer, anthropogenic_layer], df, mxd)
def get_intermediates_layers(empty_group_layer, intermediates_folder, df, mxd, clipping_network):
"""
Returns a group layer with all of the intermediates
:param empty_group_layer: The base to build the group layer with
:param intermediates_folder: Path to the intermediates folder
:param df: The dataframe we're working with
:param mxd: The map document we're working with
:param clipping_network: The network to clip the layer with
:return: Layer for intermediates
"""
intermediate_layers = []
# findAndGroupLayers(intermediate_layers, intermediatesFolder,
# "AnthropogenicIntermediates", "Anthropogenic Intermediates", emptyGroupLayer, df, mxd)
anthropogenic_metrics_folder = find_folder(intermediates_folder, "AnthropogenicMetrics")
if anthropogenic_metrics_folder:
sorted_anthropogenic_layers = []
wanted_anthropogenic_layers = []
existing_anthropogenic_layers = find_layers_in_folder(anthropogenic_metrics_folder, clipping_network)
if clipping_network is not None:
wanted_anthropogenic_layers.append(os.path.join(anthropogenic_metrics_folder,
"DistancetoCanal_clipped.lyr"))
wanted_anthropogenic_layers.append(os.path.join(anthropogenic_metrics_folder,
"DistancetoPointsofDiversion_clipped.lyr"))
wanted_anthropogenic_layers.append(os.path.join(anthropogenic_metrics_folder,
"DistancetoRailroad_clipped.lyr"))
wanted_anthropogenic_layers.append(os.path.join(anthropogenic_metrics_folder,
"DistancetoRailroadinValleyBottom_clipped.lyr"))
wanted_anthropogenic_layers.append(os.path.join(anthropogenic_metrics_folder,
"DistancetoRoad_clipped.lyr"))
wanted_anthropogenic_layers.append(os.path.join(anthropogenic_metrics_folder,
"DistancetoRoadCrossing_clipped.lyr"))
wanted_anthropogenic_layers.append(os.path.join(anthropogenic_metrics_folder,
"DistancetoRoadinValleyBottom_clipped.lyr"))
wanted_anthropogenic_layers.append(os.path.join(anthropogenic_metrics_folder,
"DistancetoClosestInfrastructure_clipped.lyr"))
wanted_anthropogenic_layers.append(os.path.join(anthropogenic_metrics_folder,
"LandOwnershipperReach_clipped.lyr"))
wanted_anthropogenic_layers.append(os.path.join(anthropogenic_metrics_folder,
"PriorityBeaverTranslocationAreas_clipped.lyr"))
wanted_anthropogenic_layers.append(os.path.join(anthropogenic_metrics_folder,
"LandUseIntensity_clipped.lyr"))
else:
wanted_anthropogenic_layers.append(os.path.join(anthropogenic_metrics_folder,
"DistancetoCanal.lyr"))
wanted_anthropogenic_layers.append(os.path.join(anthropogenic_metrics_folder,
"DistancetoPointsofDiversion.lyr"))
wanted_anthropogenic_layers.append(os.path.join(anthropogenic_metrics_folder,
"DistancetoRailroad.lyr"))
wanted_anthropogenic_layers.append(os.path.join(anthropogenic_metrics_folder,
"DistancetoRailroadinValleyBottom.lyr"))
wanted_anthropogenic_layers.append(os.path.join(anthropogenic_metrics_folder,
"DistancetoRoad.lyr"))
wanted_anthropogenic_layers.append(os.path.join(anthropogenic_metrics_folder,
"DistancetoRoadCrossing.lyr"))
wanted_anthropogenic_layers.append(os.path.join(anthropogenic_metrics_folder,
"DistancetoRoadinValleyBottom.lyr"))
wanted_anthropogenic_layers.append(os.path.join(anthropogenic_metrics_folder,
"DistancetoClosestInfrastructure.lyr"))
wanted_anthropogenic_layers.append(os.path.join(anthropogenic_metrics_folder,
"LandOwnershipperReach.lyr"))
wanted_anthropogenic_layers.append(os.path.join(anthropogenic_metrics_folder,
"PriorityBeaverTranslocationAreas.lyr"))
wanted_anthropogenic_layers.append(os.path.join(anthropogenic_metrics_folder,
"LandUseIntensity.lyr"))
for layer in wanted_anthropogenic_layers:
if layer in existing_anthropogenic_layers:
sorted_anthropogenic_layers.append(layer)
intermediate_layers.append(group_layers(empty_group_layer,
"Anthropogenic Intermediates", sorted_anthropogenic_layers, df, mxd))
find_and_group_layers(intermediate_layers, intermediates_folder,
"VegDamCapacity", "Overall Vegetation Dam Capacity",
empty_group_layer, df, mxd, clipping_network)
find_and_group_layers(intermediate_layers, intermediates_folder,
"Buffers", "Buffers",
empty_group_layer, df, mxd, clipping_network)
find_and_group_layers(intermediate_layers, intermediates_folder,
"Hydrology", "Hydrology",
empty_group_layer, df, mxd, clipping_network)
find_and_group_layers(intermediate_layers, intermediates_folder,
"AnabranchHandler", "Anabranch Handler",
empty_group_layer, df, mxd, clipping_network)
find_and_group_layers(intermediate_layers, intermediates_folder,
"TopographicMetrics", "Topographic Index",
empty_group_layer, df, mxd, clipping_network)
find_and_group_layers(intermediate_layers, intermediates_folder,
"Perennial", "Perennial",
empty_group_layer, df, mxd, clipping_network)
return group_layers(empty_group_layer, "Intermediates", intermediate_layers, df, mxd)
def find_and_group_layers(layers_list, folder_base, folder_name,
group_layer_name, empty_group_layer, df, mxd, clipping_network):
"""
Looks for the folder that matches what we're looking for, then groups them together. Adds that grouped layer to the
list of grouped layers that it was given
:param layers_list: The list of layers that we will add our grouped layer to
:param folder_base: Path to the folder that contains the folder we want
:param folder_name: The name of the folder to look in
:param group_layer_name: What we want to name the group layer
:param empty_group_layer: The base to build the group layer with
:param df: The dataframe we're working with
:param mxd: The map document we're working with
:param clipping_network: The network to clip the layer with
:return:
"""
folder_path = find_folder(folder_base, folder_name)
if folder_path:
layers = find_layers_in_folder(folder_path, clipping_network)
layers_list.append(group_layers(empty_group_layer, group_layer_name, layers, df, mxd))
def find_instance_layers(root_folder, clipping_network):
"""
Finds every layer when buried beneath an additional layer of folders (ie, in DEM_1, DEM_2, DEM_3, etc)
:param root_folder: The path to the folder root
:param clipping_network: The network to clip the layer with
:return: A list of layers
"""
if root_folder is None:
return []
layers = []
for instance_folder in os.listdir(root_folder):
instance_folder_path = os.path.join(root_folder, instance_folder)
layers += find_layers_in_folder(instance_folder_path, clipping_network)
return layers
def find_dem_derivative(root_folder, dir_name, clipping_network=None):
"""
Designed to look specifically for flow, slope, and hillshade layers
:param root_folder: Where we look
:param dir_name: The directory we're looking for
:return:
"""
layers = []
for instance_folder in os.listdir(root_folder):
instance_folder_path = os.path.join(os.path.join(root_folder, instance_folder), dir_name)
layers += find_layers_in_folder(instance_folder_path, clipping_network)
return layers
def find_layers_in_folder(folder_root, clipping_network):
"""
Returns a list of all layers in a folder
:param folder_root: Where we want to look
:param clipping_network: The network to clip the layer with
:return:
"""
layers = []
if folder_root is None:
return layers
for instance_file in os.listdir(folder_root):
if clipping_network is not None:
if instance_file.endswith("_clipped.lyr"):
layers.append(os.path.join(folder_root, instance_file))
elif os.path.basename(instance_file) == "SurveyedBeaverDamLocations.lyr":
layers.append(os.path.join(folder_root, instance_file))
elif instance_file.endswith(".lyr"):
layers.append(os.path.join(folder_root, instance_file))
return layers
def group_layers(group_layer, group_name, layers, df, mxd, remove_layer=True):
"""
Groups a bunch of layers together
:param group_layer: The empty group layer we'll add stuff to
:param group_name: The name of the group layer
:param layers: The list of layers we want to put together
:param df:
:param mxd:
:param remove_layer: Tells us if we should remove the layer from the map display
:return: The layer that we put our layers in
"""
if layers == [] or layers is None:
return None
layers = [x for x in layers if x is not None] # remove none type from the layers
group_layer = arcpy.mapping.Layer(group_layer)
group_layer.name = group_name
group_layer.description = "Made Up Description"
arcpy.mapping.AddLayer(df, group_layer, "BOTTOM")
group_layer = arcpy.mapping.ListLayers(mxd, group_name, df)[0]
for layer in layers:
if isinstance(layer, arcpy.mapping.Layer):
layer_instance = layer
else:
layer_instance = arcpy.mapping.Layer(layer)
arcpy.mapping.AddLayerToGroup(df, group_layer, layer_instance)
if remove_layer:
arcpy.mapping.RemoveLayer(df, group_layer)
return group_layer
def find_file(proj_path, file_pattern):
"""
Finds and returns a specific file
:param proj_path: The path to the project folder
:param file_pattern: A string representing the pattern to follow to get to the file
:return: The filepath retrieved
"""
search_path = os.path.join(proj_path, file_pattern)
if len(glob.glob(search_path)) > 0:
file_path = glob.glob(search_path)[0]
else:
file_path = None
return file_path
if __name__ == "__main__":
main(