Converts a GDAL-readable dataset into an MBTiles file.This is used to generate web maps.
Project description
Convert GDAL-readable datasets into an MBTiles file
gdal2mbtiles helps you generate web mapping tiles that can be shown through a browser-based mapping library on your website.
GDAL-readable files are images that are georeference, that means that they are positioned and projected on to the world. In order to display a dynamic map on the web, you don’t want to serve the whole image at once, so it must be sliced into tiles that are hosted by a tile server.
The MBTiles file format was developed by MapBox to make tile storage easier. You can upload the final file to their service, or run your own tile server. MapBox provides one called TileStream.
Later versions of GDAL (>= 2) allow generation of mbtiles files via the gdal_translate and gdaladdo commands. However, gdal2mbtiles offers some advantages:
allows you to specify an upper resolution/zoom level. GDAL always uses the native resolution of the input raster to determine the highest zoom level of the mbtiles output, whereas gdal2mbtiles can also upsample to create zoom levels at a higher resolution than your original file.
the gdal_translate command only converts the geotiff at the native resolution, so the lower resolutions are added to the file via overviews (gdaladdo)
gdaladdo can only add overviews down to the zoom level corresponding to the size of the tile/block size (256x256). gdal2mbtiles can always create images down to zoom level 1.
performance: gdal2mbtiles uses pyvips for image processing, which is parallel and quick. Compared to the equivalent processing with GDAL, gdal2mbtiles is typically 2-4 times quicker. For example:
a resolution 14 file, 13000x11000 pixels, min resolution 0, max resolution 14: ~5 minutes with gdal2mbtiles and ~8 minutes with GDAL commands.
a resoluton 11 file, 200,000x200,000, zoom level 11 only: ~30min with gdal2mbtiles and ~133min with GDAL (with GDAL_CACHE_MAX and GDAL_NUM_THREADS options)
Installation
PyPI package page: https://pypi-hypernode.com/pypi/gdal2mbtiles/
Using pip:
$ pip install gdal2mbtiles
From source:
$ git clone https://github.com/ecometrica/gdal2mbtiles.git $ cd gdal2mbtiles $ python setup.py install
External Dependencies
We rely on GDAL to read georeferenced datasets. Under Debian or Ubuntu, you can install the GDAL library & binary via apt.
Default GDAL versions in Ubuntu LTS:
Xenial: 1.11
Bionic: 2.2
Focal: 3.0
We recommend using the UbuntuGIS PPA to get more recent versions of GDAL, if needed, as is the case for Xenial.
sudo add-apt-repository ppa:ubuntugis/ppa && sudo apt-get update
sudo apt-get install gdal-bin libgdal-dev
The ubuntugis PPA also usually includes python-gdal or python3-gdal that will install the python bindings at the system level. Installing that may be enough for you if you aren’t planning to use a non-default python or a virtual environment.
Otherwise, you will also need to install the GDAL python bindings package from PyPI. Make sure to install the version that matches the installed GDAL library. You can double-check that version with gdal-config --version.
pip install \
--global-option=build_ext \
--global-option=--gdal-config=/usr/bin/gdal-config \
--global-option=--include-dirs=/usr/include/gdal/ \
GDAL=="$(gdal-config --version)"
We also rely on VIPS (version 8.2+) to do fast image processing.
Under Debian or Ubuntu, run the following to install it without the GUI nip2:
$ sudo apt-get install --no-install-recommends libvips libvips-dev
You’ll also need a few other libraries to deal with large TIFF files and to optimize the resulting PNG tiles.
Under Debian or Ubuntu, run the following to install them:
$ sudo apt-get install libtiff5 optipng pngquant
Command Line Interface
$ gdal2mbtiles --help
usage: gdal2mbtiles [-h] [-v] [--name NAME] [--description DESCRIPTION]
[--layer-type {baselayer,overlay}] [--version VERSION]
[--format {jpg,png}]
[--spatial-reference SPATIAL_REFERENCE]
[--resampling {near,bilinear,cubic,cubicspline,lanczos}]
[--min-resolution MIN_RESOLUTION]
[--max-resolution MAX_RESOLUTION] [--fill-borders]
[--no-fill-borders] [--zoom-offset N]
[--coloring {gradient,palette,exact}]
[--color BAND-VALUE:HTML-COLOR]
[--colorize-band COLORIZE-BAND]
[--png8 PNG8]
[INPUT] [OUTPUT]
Converts a GDAL-readable into an MBTiles file
optional arguments:
-h, --help show this help message and exit
-v, --verbose explain what is being done
Positional arguments:
INPUT GDAL-readable file.
OUTPUT Output filename. Defaults to INPUT.mbtiles
MBTiles metadata arguments:
--name NAME Human-readable name of the tileset. Defaults to INPUT
--description DESCRIPTION
Description of the layer. Defaults to ""
--layer-type {baselayer,overlay}
Type of layer. Defaults to "overlay"
--version VERSION Version of the tileset. Defaults to "1.0.0"
--format {jpg,png} Tile image format. Defaults to "png"
GDAL warp arguments:
--spatial-reference SPATIAL_REFERENCE
Destination EPSG spatial reference. Defaults to 3857
--resampling {near,bilinear,cubic,cubicspline,lanczos}
Resampling algorithm for warping. Defaults to "near"
(nearest-neighbour)
Rendering arguments:
--min-resolution MIN_RESOLUTION
Minimum resolution/zoom level to render and slice.
Defaults to None (do not downsample)
--max-resolution MAX_RESOLUTION
Maximum resolution/zoom level to render and slice.
Defaults to None (do not upsample)
--fill-borders Fill image to whole world with empty tiles. Default.
--no-fill-borders Do not add borders to fill image.
--zoom-offset N Offset zoom level by N to fit unprojected images to
square maps. Defaults to 0.
--png8 Quantizes 32-bit RGBA to 8-bit RGBA paletted PNGs.
value range from 2 to 256. Default to False.
Coloring arguments:
--coloring {gradient,palette,exact}
Coloring algorithm.
--color BAND-VALUE:HTML-COLOR
Examples: --color="0:#ff00ff" --color=255:red
--colorize-band COLORIZE-BAND
Raster band to colorize. Defaults to 1
Contributing
Reporting bugs and submitting patches
Please check our issue tracker for known bugs and feature requests.
We accept pull requests for fixes and new features.
Development and Testing
We use Tox and Pytest to test locally and CircleCI for remote testing.
Clone the repo
Install whichever External Dependencies are suitable for your OS/VM.
Create and activate a virtual environment
Install tox: pip install tox
Set the GDAL_CONFIG env var for tox via the venv activations script.
If using virtualenv: echo 'export GDAL_VERSION=$(gdal-config --version)' >> $VIRTUAL_ENV/bin/postactivate
If using venv: echo 'export GDAL_VERSION=$(gdal-config --version)' >> $VIRTUAL_ENV/bin/activate
Run tests to confirm all is working: tox
Do some development:
Make some changes
Run the tests
Fix any errors
Run the tests again
Update CHANGELOG.rst with a line about the change in the UNRELEASED section
Add yourself to AUTHORS.rst if not already there
Write a nice commit message
Repeat
Make a PR
You don’t need to worry initially about testing in every combination of GDAL and Ubuntu, leave that to the remote CI build matrix when you make a PR and let the reviewers figure out if it needs more work from that.
Credits
Maxime Dupuis and Simon Law wrote this program, with the generous support of Ecometrica.
See AUTHORS.rst for the full list of contributors.
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