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gee2Pandas.py
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gee2Pandas.py
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"""
Take data from GEE to Pandas and back
geeViz.gee2Pandas facilitates converting GEE objects to tabular formats that work well in more common packages such as Pandas.
"""
"""
Copyright 2024 Ian Housman
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
"""
# --------------------------------------------------------------------------
# Module to use GEE's online compute capabilities to take data from GEE into more universal environments such as Pandas
# --------------------------------------------------------------------------
import geeViz.geeView
import sys, ee, os, shutil, subprocess, datetime, calendar, json, glob, numpy, pandas
import time, logging, pdb
from simpledbf import Dbf5
#########################################################################
# Function to convert a featureCollection to json
# If the output json file already exists, it will read it in
# Returns the json version of the featureCollection
# Currently maxNumberOfFeatures > 5000 will error out (need to handle slicing a feature list)
def featureCollection_to_json(
featureCollection, output_json_name, overwrite=False, maxNumberOfFeatures=5000
):
if not os.path.exists(output_json_name) or overwrite:
print(
"Converting featureCollection to json:", os.path.basename(output_json_name)
)
t = featureCollection.limit(maxNumberOfFeatures).getInfo()
o = open(output_json_name, "w")
o.write(json.dumps(t))
o.close()
else:
print(
"Already converted featureCollection to json:",
os.path.basename(output_json_name),
)
o = open(output_json_name, "r")
t = json.load(o)
o.close()
return t
#########################################################################
# Convert featureCollection to csv
# Can accept geojson or GEE featureCollection as the featureCollection argument
# Will automatically create geojson version if given a gee FeatureCollection
def featureCollection_to_csv(featureCollection, output_csv_name, overwrite=False):
if not os.path.exists(output_csv_name) or overwrite:
df = robust_featureCollection_to_df(featureCollection)
print("Writing:", output_csv_name)
df.to_csv(output_csv_name, index=False)
else:
print(output_csv_name, " already exists")
# # First find out if it is a file pathname or GEE featureCollection
# # Read in if it's a json file pathname
# # If it is a GEE featureCollection, convert it to json
# if isinstance(featureCollection,str) and os.path.splitext(featureCollection)[1].lower().find('json') >-1:
# o = open(featureCollection,'r')
# table = json.load(o)
# o.close()
# elif isinstance(featureCollection,ee.featurecollection.FeatureCollection):
# output_json_name = os.path.splitext(output_csv_name)[0]+'.json'
# table = featureCollection_to_json(featureCollection,output_json_name,overwrite,maxNumberOfFeatures)
# # Set up the header
# # Pull in ID and Lng and Lat field names if it's a point
# if table['features'][0]['geometry']['type'] == 'Point':
# bands = ['ID','Lng','Lat']
# else:
# bands = ['ID']
# bands.extend(list(table['features'][0]['properties'].keys()))
# header = ','.join(bands)+'\n'
# out = header
# # Iterate across each feature and pull in the id, and properties
# for feature in table['features']:
# props = feature['properties']
# geo = feature['geometry']
# geoType = geo['type']
# ID = str(feature['id'])
# values = numpy.array(list(props.values()))
# if geoType == 'Point':
# ptCoords = geo['coordinates']
# values = numpy.concatenate([[ID],geo['coordinates'],values])
# values = ','.join([str(i) for i in values])+'\n'
# values = values.replace(',None',',')
# out+=values
# o = open(output_csv_name,'w')
# o.write(out)
# o.close()
#########################################################################
# Function to convert GEE featureCollection to a Pandas Dataframe
# Handles the 5000 limit
# This will run into memory errors if any complex operations precede the tables creation
# In those instances, the featureCollections should first be exported to asset and then brought back in and run through
# this function
def robust_featureCollection_to_df(featureCollection, sep="___"):
maxFeatures = 5000
nFeatures = featureCollection.size().getInfo()
featureCollection = featureCollection.toList(1000000, 0)
out_df = []
for start in range(0, nFeatures, maxFeatures):
end = start + maxFeatures
if end > nFeatures:
end = nFeatures
print(f"Converting features {start+1}-{end}")
fcT = ee.FeatureCollection(featureCollection.slice(start, end))
features = fcT.getInfo()["features"]
df = pandas.json_normalize(features, sep=sep)
out_df.append(df)
out_df = pandas.concat(out_df)
properties = out_df.columns
properties_out = [prop.replace(f"properties{sep}", "") for prop in properties]
properties_out = [
prop.replace(f"geometry{sep}", "geometry.") for prop in properties_out
]
prop_dict = dict(zip(properties, properties_out))
out_df = out_df.rename(columns=prop_dict)
return out_df
#########################################################################
# Function to compute zonal stats in GEE and download results to a local csv
def geeToLocalZonalStats(
zones,
raster,
output_csv,
reducer=ee.Reducer.first(),
scale=None,
crs=None,
transform=None,
tileScale=4,
overwrite=False,
maxNumberOfFeatures=5000,
):
table = raster.reduceRegions(zones, reducer, scale, crs, transform, tileScale)
featureCollection_to_csv(table, output_csv, overwrite)
#########################################################################
# Function to convert a Pandas dataframe to geojson
# Assumes point location geometry
# Function adapted from: https://notebook.community/captainsafia/nteract/applications/desktop/example-notebooks/pandas-to-geojson
def df_to_geojson(
df,
properties=None,
geometry_type_fieldname="geometry.type",
geometry_coordinates_fieldname="geometry.coordinates",
):
# create a new python dict to contain our geojson data, using geojson format
geojson = {"type": "FeatureCollection", "features": []}
# Pull all non geo props if none are provided
if properties == [] or properties == None:
properties = [
col
for col in df.columns
if col not in [geometry_type_fieldname, geometry_coordinates_fieldname]
]
# loop through each row in the dataframe and convert each row to geojson format
for _, row in df.iterrows():
if not pandas.isnull(row[geometry_type_fieldname]) and not pandas.isnull(
row[geometry_coordinates_fieldname]
):
# create a feature
feature = {
"type": "Feature",
"properties": {},
"geometry": {
"type": row[geometry_type_fieldname],
"coordinates": json.loads(row[geometry_coordinates_fieldname]),
},
}
# for each column, get the value and add it as a new feature property
for prop in properties:
p = row[prop]
if pandas.isnull(p):
p = "NA"
feature["properties"][prop] = p
# add this feature (aka, converted dataframe row) to the list of features inside our dict
geojson["features"].append(feature)
return geojson
####################################################################################################
# Function to take the Excel spreadsheet and convert it to a GEE featureCollection
# Supports Excel (mode='Excel'), CSV (mode='csv'), and Pickle (mode='pickle') input table formats
def tableToFeatureCollection(
table_path,
properties=None,
dateCol=None,
groupByColumns=None,
mode=None,
geometry_type_fieldname="geometry.type",
geometry_coordinates_fieldname="geometry.coordinates",
):
mode_dict = {
".csv": "csv",
".xls": "excel",
".xlsx": "excel",
".pkl": "pickle",
".pickle": "pickle",
}
if mode == None:
try:
mode = mode_dict[os.path.splitext(table_path)[1]]
except:
mode = ""
# Read in the table as a Pandas dataframe
if mode.lower() == "excel":
df = pandas.read_excel(table_path)
elif mode.lower() == "csv":
df = pandas.read_csv(table_path)
elif mode.lower() == "pickle":
df = pandas.read_pickle(table_path)
else:
raise Exception(
"Table format not recognized. Support formats are: {}".format(
",".join(list(mode_dict.keys()))
)
)
# Convert the time to a user-friendly format of yyyy-mm-DD
if dateCol == None:
for c in df.columns[df.dtypes == "datetime64[ns]"]:
df[c] = df[c].dt.strftime("%Y-%m-%d")
else:
# hcb_df[dateCol]= hcb_df[dateCol].dt.strftime('%Y-%m-%d')
df[dateCol] = pandas.to_datetime(df[dateCol]).astype(str)
if groupByColumns != None:
df = df.groupby(groupByColumns).sum(numeric_only=True).reset_index()
# Convert the dataframe to geojson
df_json = df_to_geojson(
df,
properties,
geometry_type_fieldname=geometry_type_fieldname,
geometry_coordinates_fieldname=geometry_coordinates_fieldname,
)
# Read in the geojson as a GEE featureCollection
df_fc = ee.FeatureCollection(df_json)
return df_fc
#########################################################################
# Function to convert a dbf to json
def dfToJSON(dbf, outJsonFilename):
dbf = Dbf5(dbf)
df = dbf.to_dataframe() # .head()
columns = df.columns
rows = df.transpose().to_numpy()
outJson = {}
for i, c in enumerate(columns):
outJson[c] = list(rows[i])
o = open(outJsonFilename, "w")
o.write(json.dumps(outJson))
o.close()
return outJson
#########################################################################
# Show image array at a location
def setDFTitle(df, title):
styles = [
dict(
selector="caption",
props=[
("text-align", "left"),
("font-size", "150%"),
("font-weight", "bold"),
],
)
]
df = df.style.set_caption(title).set_table_styles(styles)
return df
def imageArrayPixelToDataFrame(
img,
pt,
scale=None,
crs=None,
transform=None,
title=None,
index=None,
columns=None,
bandName=None,
reducer=ee.Reducer.first(),
arrayImage=None,
):
# Pull the values
vals = img.reduceRegion(
reducer, pt, scale=scale, crs=crs, crsTransform=transform
).getInfo()
# Determine if it is an array image
# Only handle the first band or a single specified band if it is
if arrayImage == None:
if type(list(vals.values())[0]) == list:
arrayImage = True
else:
arrayImage = False
if arrayImage:
# If no band is specified, and its an array image, pull the first band
if bandName == None:
bandName = list(vals.keys())[0]
# Get the values for the band
vals = vals[bandName]
# Convert to Pandas dataframe
df = pandas.DataFrame(vals, columns=columns, index=index)
else:
df = pandas.DataFrame(
list(vals.values()), columns=["Values"], index=list(vals.keys())
)
# Set a title if provided
if title != None:
df = setDFTitle(df, title)
return df
# Functions to extract any EE image object type to a dataframe
# Handles multi-band images (with array images as well) and image collections
# While intended for point locations using the ee.Reducer.first() reducer, it can handle polygons and multi-polygons with an appropriate reducer (e.g. ee.Reducer.mean() or ee.Reducer.median())
def extractPointImageValues(
ee_image,
pt,
scale=None,
crs=None,
transform=None,
reducer=ee.Reducer.first(),
includeNonSystemProperties=False,
includeSystemProperties=True,
):
# Pull the values
ee_image = ee.Image(ee_image)
system_props = ee_image.toDictionary(
["system:index", "system:time_start", "system:time_end"]
)
props = ee_image.toDictionary()
vals = ee.Image(ee_image).reduceRegion(
reducer, pt, scale=scale, crs=crs, crsTransform=transform
)
if includeNonSystemProperties and includeSystemProperties:
props = system_props.combine(props)
return props.combine(vals)
elif includeNonSystemProperties and not includeSystemProperties:
return props.combine(vals)
elif not includeNonSystemProperties and includeSystemProperties:
return system_props.combine(vals)
else:
return vals
def extractPointValuesToDataFrame(
ee_object,
pt,
scale=None,
crs=None,
transform=None,
title=None,
index=None,
columns=None,
bandName=None,
reducer=ee.Reducer.first(),
includeNonSystemProperties=False,
includeSystemProperties=True,
):
if isinstance(ee_object, ee.imagecollection.ImageCollection):
vals = (
ee_object.toList(10000, 0)
.map(
lambda ee_image: extractPointImageValues(
ee_image,
pt,
scale=scale,
crs=crs,
transform=transform,
reducer=reducer,
includeNonSystemProperties=includeNonSystemProperties,
includeSystemProperties=includeSystemProperties,
)
)
.getInfo()
)
elif isinstance(ee_object, ee.image.Image):
vals = extractPointImageValues(
ee_object,
pt,
scale=scale,
crs=crs,
transform=transform,
reducer=reducer,
includeNonSystemProperties=includeNonSystemProperties,
includeSystemProperties=includeSystemProperties,
).getInfo()
return pandas.json_normalize(vals)
####################################################################################################
# Scratch space for testing
if __name__ == "__main__":
output_dir = r"C:\tmp\geeToPandasTest"
if not os.path.exists(output_dir):
os.makedirs(output_dir)
# out_json = os.path.join(output_dir,'test_json.json')
# out_csv = os.path.join(output_dir,'test_json.csv')
# if not os.path.exists(output_dir):os.makedirs(output_dir)
# fc = ee.FeatureCollection('projects/lcms-292214/assets/CONUS-LCMS/Training-Tables/Training-Tables-AnnualizedFormat_v2022/LCMS-CONUS-2015').limit(5)
# composite = ee.ImageCollection('projects/lcms-tcc-shared/assets/Composites/Composite-Collection-yesL7-1984-2020')\
# .filter(ee.Filter.calendarRange(2015,2015,'year')).mosaic()
# # fc = ee.FeatureCollection('projects/lcms-292214/assets/CONUS-Ancillary-Data/FS_District_Boundaries')
# # print(fc.size().getInfo())
# geeToLocalZonalStats(fc,composite,out_csv,reducer=ee.Reducer.first(),scale=30,crs='EPSG:5070',transform=None,tileScale=4,overwrite=False,maxNumberOfFeatures=500)
# fc_test = tableToFeatureCollection(out_csv,lat='Lat', lon='Lng',properties=[],dateCol=None,groupByColumns = None)
# print(fc_test.first().getInfo())
# # # featureCollection_to_json(fc,out_json,overwrite=True,maxNumberOfFeatures=20)
# # # featureCollection_to_csv(fc,out_csv,overwrite = True,maxNumberOfFeatures=500)
# assets = ee.data.listAssets({'parent': 'projects/rcr-gee/assets/lcms-training/lcms-training_module-4_timeSync'})['assets']
# training_data = ee.FeatureCollection([ee.FeatureCollection(asset['name']) for asset in assets]).flatten()
# robust_featureCollection_to_df(training_data.limit(10))
# featureCollection_to_csv(training_data,out_csv,overwrite = True)
pt = ee.Geometry.Point([-65.8491, 18.2233])
comps = ee.ImageCollection(
"projects/rcr-gee/assets/lcms-training/lcms-training_module-2_composites"
)
lt = ee.ImageCollection(
"projects/rcr-gee/assets/lcms-training/lcms-training_module-3_landTrendr"
) # .filter(ee.Filter.eq('band','NBR')).first()\
# .select(['LandTrendr'])
# eeObjToDataFrame(ee.Image([1,2,3]),pt,crs = 'EPSG:5070', scale=30,transform = None,title = None,index = None,
# columns = None,bandName = None, reducer = ee.Reducer.first())
# extractPointValues(ee.Image.cat([ee.Image([1,2,3]).toArray(),ee.Image(1)]),pt,crs = 'EPSG:5070', scale=30,transform = None,title = None,index = None,columns = None,bandName = None, reducer = ee.Reducer.first())
# extracted = extractPointValuesToDataFrame(comps,pt,crs = 'EPSG:5070', scale=30,transform = None,title = None,index = None,columns = None,bandName = None, reducer = ee.Reducer.first(),includeNonSystemProperties = False,includeSystemProperties=True)
# print(extracted)
# df = imagePixelToDataFrame(lt,pt,crs = 'EPSG:5070', scale=30,transform = None,index = ['year','vertex fit'],columns = None,bandName = None, reducer = ee.Reducer.first())
# print(df)
# df = imagePixelToDataFrame(ee.Image([1,2,3]).byte(),pt,crs = 'EPSG:5070', scale=30,transform = None)
# print(df)