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🌍 Create 3d-printable STLs from satellite elevation data 🌏

Project description

mapa 🌍

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mapa let's you create 3d-printable STL files from satellite elevation data (using DEM data).

Under the hood mapa uses:

Installation

pip install mapa

Usage

mapa provides the following approaches for creating STL files:

1. Using the mapa interactive map

The easiest way is using the mapa cli. Simply type

mapa

A jupyter notebook will be started with an interactive map. Follow the described steps by executing the cells to create a 3d model of whatever place you like.

Choose bounding box Create STL file
Slice STL file 3D print

2. Using the dem2stl cli

The dem2stl cli lets you create a 3d-printable STL file based on your tiff file. You can run a demo computation to get a feeling of how the output STL will look like:

dem2stl --demo

If you have your tiff file ready, you may run something like

dem2stl --input your_file.tiff --output output.stl --model-size 200 --z-offset 3.0 --z-scale 1.5

The full list of options and their intention can be found with dem2stl --help:

Usage: dem2stl [OPTIONS]

  🌍 Convert DEM data into STL files 🌏

Options:
  --input TEXT                Path to input TIFF file.
  --output TEXT               Path to output STL file.
  --as-ascii                  Save output STL as ascii file. If not provided,
                              output file will be binary.
  --model-size INTEGER        Desired size of the generated 3d model in
                              millimeter.
  --max-res                   Whether maximum resolution should be used. Note,
                              that this flag potentially increases compute
                              time dramatically. The default behavior (i.e.
                              max_res=False) should return 3d models with
                              sufficient resolution, while the output stl file
                              should be < ~400 MB.
  --z-offset FLOAT            Offset distance in millimeter to be put below
                              the 3d model. Defaults to 4.0. Is not influenced
                              by z-scale.
  --z-scale FLOAT             Value to be multiplied to the z-axis elevation
                              data to scale up the height of the model.
                              Defaults to 1.0.
  --demo                      Converts a demo tiff of Hawaii into a STL file.
  --cut-to-format-ratio TEXT  Cut the input tiff file to a specified format.
                              Set to `1` if you want the output model to be
                              squared. Set to `0.5` if you want one side to be
                              half the length of the other side. Omit this
                              flag to keep the input format. This option is
                              particularly useful when an exact output format
                              ratio is required for example when planning to
                              put the 3d printed model into a picture frame.
                              Using this option will always try to cut the
                              shorter side of the input tiff.
  --version                   Show the version and exit.
  --help                      Show this message and exit.

3. Using mapa as python library

In case you are building your own application you can simply use mapa's functionality within your application by importing the functions of the module.

from mapa import convert_tiff_to_stl

path_to_stl = convert_tiff_to_stl(
    input_file: "path/to/your/input_file.tiff",
    as_ascii: False,
    model_size: 200,
    output_file: "path/to/your/output_file.stl",
    max_res: False,
    z_offset: 3.0,
    z_scale: 1.5,
    cut_to_format_ratio: None,
)

Algorithm Deep Dive

In case you are curios about the algorithm which turns a GeoTIFF into a STL file, I'd recommend reading the header of algorithm.py.

Changelog

See Releases.

Contributing

Contributions, feedback or issues are welcome.

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