Metadata-Version: 2.1
Name: geobeam
Version: 0.4.0
Summary: geobeam adds GIS capabilities to your Apache Beam pipelines
Home-page: UNKNOWN
Author: Travis Webb
Author-email: traviswebb@google.com
License: UNKNOWN
Description: geobeam adds GIS capabilities to your Apache Beam pipelines.
        
        ## What does geobeam do?
        
        `geobeam` enables you to ingest and analyze massive amounts of geospatial data in parallel using [Dataflow](https://cloud.google.com/dataflow).
        geobeam provides a set of [FileBasedSource](https://beam.apache.org/releases/pydoc/2.27.0/apache_beam.io.filebasedsource.html)
        classes that make it easy to read, process, and write geospatial data, and provides a set of helpful
        Apache Beam transforms and utilities that make it easier to process GIS data in your Dataflow pipelines.
        
        See the [Full Documentation](https://storage.googleapis.com/geobeam/docs/all.pdf) for complete API specification.
        
        ### Requirements
        - Apache Beam 2.27+
        - Python 3.7+
        
        > Note: Make sure the Python version used to run the pipeline matches the version in the built container.
        
        ### Supported input types
        
        | **File format** | **Data type** | **Geobeam class**  |
        |:----------------|:--------------|:-------------------|
        | `tiff`         | raster        | `GeotiffSource`
        | `shp`          | vector        | `ShapefileSource`
        | `gdb`          | vector        | `GeodatabaseSource`
        | `json`         | vector        | `GeoJSONSource`
        | URL            | vector        | `ESRIServerSource`
        
        ### Included libraries
        
        `geobeam` includes several python modules that allow you to perform a wide variety of operations and analyses on your geospatial data.
        
        | **Module**      | **Version** | **Description** |
        |:----------------|:------------|:----------------|
        | [gdal](https://pypi.org/project/GDAL/)          | 3.2.1       | python bindings for GDAL
        | [rasterio](https://pypi.org/project/rasterio/)  | 1.1.8       | reads and writes geospatial raster data
        | [fiona](https://pypi.org/project/Fiona/)        | 1.8.18      | reads and writes geospatial vector data
        | [shapely](https://pypi.org/project/Shapely/)    | 1.7.1       | manipulation and analysis of geometric objects in the cartesian plane
        | [esridump](https://pypi.org/project/esridump/)  | 1.10.1      | read layer from ESRI server
        
        
        ## How to Use
        
        ### 1. Install the module
        ```
        pip install geobeam
        ```
        
        ### 2. Write your pipeline
        
        Write a normal Apache Beam pipeline using one of `geobeam`s file sources.
        See [`geobeam/examples`](https://github.com/GoogleCloudPlatform/dataflow-geobeam/tree/main/geobeam/examples) for inspiration.
        
        ### 3. Run
        
        #### Run locally
        
        ```
        python -m geobeam.examples.geotiff_dem \
          --gcs_url gs://geobeam/examples/dem-clipped-test.tif \
          --dataset=examples \
          --table=dem \
          --band_column=elev \
          --centroid_only=true \
          --runner=DirectRunner \
          --temp_location <temp gs://> \
          --project <project_id>
        ```
        
        You can also run "locally" in [Cloud Shell](https://cloud.google.com/shell) using the [`py-37` container variants](https://github.com/GoogleCloudPlatform/dataflow-geobeam#note-on-python-versions)
        
        > Note: Some of the provided examples may take a very long time to run locally...
        
        #### Run in Dataflow
        
        ##### Write a Dockerfile
        
        This will run in Dataflow as a [custom container](https://cloud.google.com/dataflow/docs/guides/using-custom-containers) based on the [`dataflow-geobeam/base`](Dockerfile) image.
        See [`geobeam/examples/Dockerfile`] for an example that installed the latest geobeam from source.
        
        
        ```dockerfile
        FROM gcr.io/dataflow-geobeam/base
        # FROM gcr.io/dataflow-geobeam/base-py37
        
        RUN pip install geobeam
        
        COPY requirements.txt .
        RUN pip install -r requirements.txt
        
        COPY . .
        ```
        
        ```bash
        # build locally with docker
        docker build -t gcr.io/<project_id>/example
        docker push gcr.io/<project_id>/example
        
        # or build with Cloud Build
        gcloud builds submit --tag gcr.io/<project_id>/<name> --timeout=3600s --machine-type=n1-highcpu-8
        ```
        
        #### Start the Dataflow job
        
        ##### Note on Python versions
        
        > If you are starting a Dataflow job on a machine running Python 3.7, you must use the images suffixed with **`py-37`**.
        > (Cloud Shell runs Python 3.7 by default, as of Feb 2021).
        > A separate version of the base image is built for Python 3.7, and is available at `gcr.io/dataflow-geobeam/base-py37`.
        > The Python 3.7-compatible examples image is similarly-named `gcr.io/dataflow-geobeam/example-py37`
        
        ```
        # run the geotiff_soilgrid example in dataflow
        python -m geobeam.examples.geotiff_soilgrid \
          --gcs_url gs://geobeam/examples/AWCh3_M_sl1_250m_ll.tif \
          --dataset=examples \
          --table=soilgrid \
          --band_column=h3 \
          --runner=DataflowRunner \
          --worker_harness_container_image=gcr.io/dataflow-geobeam/example \
          --experiment=use_runner_v2 \
          --temp_location=<temp bucket> \
          --service_account_email <service account> \
          --region us-central1 \
          --max_num_workers 2 \
          --machine_type c2-standard-30 \
          --merge_blocks 64
        ```
        
        
        ## Examples
        
        #### Polygonize Raster
        ```py
        def run(options):
          from geobeam.io import GeotiffSource
          from geobeam.fn import format_record
        
          with beam.Pipeline(options) as p:
            (p  | 'ReadRaster' >> beam.io.Read(GeotiffSource(gcs_url))
                | 'FormatRecord' >> beam.Map(format_record, 'elev', 'float')
                | 'WriteToBigquery' >> beam.io.WriteToBigQuery('geo.dem'))
        ```
        
        #### Validate and Simplify Shapefile
        
        ```py
        def run(options):
          from geobeam.io import ShapefileSource
          from geobeam.fn import make_valid, filter_invalid, format_record
        
          with beam.Pipeline(options) as p:
            (p  | 'ReadShapefile' >> beam.io.Read(ShapefileSource(gcs_url))
                | 'Validate' >> beam.Map(make_valid)
                | 'FilterInvalid' >> beam.Filter(filter_invalid)
                | 'FormatRecord' >> beam.Map(format_record)
                | 'WriteToBigquery' >> beam.io.WriteToBigQuery('geo.parcel'))
        ```
        
        See `geobeam/examples/` for complete examples.
        
        A number of example pipelines are available in the `geobeam/examples/` folder.
        To run them in your Google Cloud project, run the included [terraform](https://www.terraform.io) file to set up the Bigquery dataset and tables used by the example pipelines.
        
        Open up Bigquery GeoViz to visualize your data.
        
        ### Shapefile Example
        
        The National Flood Hazard Layer loaded from a shapefile. Example pipeline at [`geobeam/examples/shapefile_nfhl.py`](https://github.com/GoogleCloudPlatform/dataflow-geobeam/blob/main/geobeam/examples/shapefile_nfhl.py)
        
        ![](https://storage.googleapis.com/geobeam/examples/geobeam-nfhl-geoviz-example.png)
        
        ### Raster Example
        
        The Digital Elevation Model is a high-resolution model of elevation measurements at 1-meter resolution. (Values converted to centimeters). Example pipeline: [`geobeam/examples/geotiff_dem.py`](https://github.com/GoogleCloudPlatform/dataflow-geobeam/blob/main/geobeam/examples/geotiff_dem.py).
        
        ![](https://storage.googleapis.com/geobeam/examples/geobeam-dem-example-geoviz.png)
        
        ## Included Transforms
        
        The `geobeam.fn` module includes several [Beam Transforms](https://beam.apache.org/documentation/programming-guide/#transforms) that you can use in your pipelines.
        
        | **Module**      | **Description**
        |:----------------|:------------|
        | `geobeam.fn.make_valid`     | Attempt to make all geometries valid. 
        | `geobeam.fn.filter_invalid` | Filter out invalid geometries that cannot be made valid
        | `geobeam.fn.format_record`  | Format the (props, geom) tuple received from a FileSource into a `dict` that can be inserted into the destination table
        
        
        ## Execution parameters
        
        Each FileSource accepts several parameters that you can use to configure how your data is loaded and processed.
        These can be parsed as pipeline arguments and passed into the respective FileSources as seen in the examples pipelines.
        
        | **Parameter**      | **Input type** | **Description** | **Default** | **Required?**
        |:-------------------|:---------------|:----------------|:------------|---------------|
        | `skip_reproject`   | All     | True to skip reprojection during read | `False` | No
        | `in_epsg`          | All     | An [EPSG integer](https://en.wikipedia.org/wiki/EPSG_Geodetic_Parameter_Dataset) to override the input source CRS to reproject from | | No
        | `in_proj`          | All     | A [PROJ string](https://proj.org/usage/quickstart.html) to override the input source CRS | | No
        | `band_number`      | Raster  | The raster band to read from | `1` | No
        | `include_nodata`   | Raster  | True to include `nodata` values | `False` | No
        | `centroid_only`    | Raster  | True to only read pixel centroids | `False` | No
        | `merge_blocks`     | Raster  | Number of block windows to combine during read. Larger values will generate larger, better-connected polygons. | | No
        | `layer_name`       | Vector  | Name of layer to read | | Yes, for shapefiles
        | `gdb_name`         | Vector  | Name of geodatabase directory in a gdb zip archive | | Yes, for GDB files
        
        
        ## License
        
        This is not an officially supported Google product, though support will be provided on a best-effort basis.
        
        ```
        Copyright 2021 Google LLC
        
        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
        
            https://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.
        ```
        
Keywords: beam dataflow gdal gis
Platform: UNKNOWN
Classifier: Development Status :: 2 - Pre-Alpha
Classifier: License :: OSI Approved :: Apache Software License
Classifier: Programming Language :: Python :: 3
Classifier: Topic :: Scientific/Engineering :: GIS
Classifier: Intended Audience :: Science/Research
Classifier: Intended Audience :: Developers
Requires-Python: >=3.7
Description-Content-Type: text/markdown
