🌐 Local tile server for viewing geospatial raster files with ipyleaflet

Bane Sullivan

Last update: Jan 4, 2023

Related tags

Overview

🌐 Local Tile Server for Geospatial Rasters

Need to visualize a rather large raster (gigabytes) you have locally? This is for you.

A Flask application for serving tiles from large raster files in the Slippy Maps standard (i.e., /zoom/x/y.png)

Disclaimer: I whipped this together over a weekend and I'm definitely going to change a few things moving forward to make it more stable/robust. This means that things will most likely break between minor releases (I use the major.minor.patch versioning scheme).

🌟 Highlights

Create a local tile server for large geospatial images
Extract regions of interest (ROIs) interactively
View local raster files with ipyleaflet

Under the hood, this uses large_image to launch a tile server in a background thread which will serve raster imagery to a tile viewer (see ipyleaflet examples below). This tile server can efficiently deliver varying levels of detail of your raster imagery to your viewer; it helps to have pre-tiled, Cloud Optimized GeoTIFFs (COG), but no wories if not as large_image will tile and cache for you when opening the raster.

There is an included, standalone web viewer leveraging GeoJS. You can use the web viewer to select and extract regions of interest from rasters.

⬇️ Installation

Install from PyPI: https://pypi.org/project/flask-tileserver/

pip install flask-tileserver

📝 A Brief Note on Installing GDAL

GDAL can be a pain in the 🍑 to install, and you may want to handle GDAL before installing flask-tileserver.

If on linux, I highly recommend using the large_image_wheels from Kitware.

pip install --find-links=https://girder.github.io/large_image_wheels --no-cache GDAL

Otherwise, I recommend using conda:

conda install -c conda-forge GDAL

💭 Feedback

Please share your thoughts and questions on the Discussions board. If you would like to report any bugs or make feature requests, please open an issue.

If filing a bug report, please share a scooby Report:

import tileserver
print(tileserver.Report())

🚀 Usage

🍃 `ipyleaflet` Tile Layers

The TileServer class is a nifty tool to launch a tile server as a background thread to serve image tiles from any raster file on your local file system. Additionally, it can be used in conjunction with the get_leaflet_tile_layer utility to create an ipyleaflet.TileLayer for interactive visualization in a Jupyter notebook. Here is an example:

from tileserver import get_leaflet_tile_layer, TileServer
from ipyleaflet import Map

# First, create a tile server from local raster file
tile_server = TileServer('~/Desktop/TC_NG_SFBay_US_Geo.tif')

# Create ipyleaflet tile layer from that server
t = get_leaflet_tile_layer(tile_server)

# Create ipyleaflet map, add tile layer, and display
m = Map(center=tile_server.center())
m.add_layer(t)
m

🥓 Two Rasters at Once

from tileserver import get_leaflet_tile_layer
from ipyleaflet import Map, ScaleControl, FullScreenControl, SplitMapControl

m = Map(center=(37.7249511580583, -122.27230466902257), zoom=9)

# Create 2 tile layers from 2 separate raster files
l = get_leaflet_tile_layer('~/Desktop/TC_NG_SFBay_US_Geo.tif',
                           band=1, palette='matplotlib.Viridis_20', vmin=50, vmax=200)
r = get_leaflet_tile_layer('~/Desktop/small.tif',
                           band=2, palette='matplotlib.Plasma_6', vmin=0, vmax=150)

control = SplitMapControl(left_layer=l, right_layer=r)
m.add_control(control)
m.add_control(ScaleControl(position='bottomleft'))
m.add_control(FullScreenControl())
m

🎯 Using `ipyleaflet` for ROI Extraction

from tileserver import get_leaflet_tile_layer, TileServer
from ipyleaflet import Map, ScaleControl, FullScreenControl, DrawControl

# First, create a tile server from local raster file
tile_server = TileServer('~/Desktop/TC_NG_SFBay_US_Geo.tif')

# Create ipyleaflet tile layer from that server
t = get_leaflet_tile_layer(tile_server)

# Create ipyleaflet map, add layers, add draw control, display
m = Map(center=(37.7249511580583, -122.27230466902257), zoom=9)
m.add_layer(t)
m.add_control(ScaleControl(position='bottomleft'))
m.add_control(FullScreenControl())
draw_control = DrawControl()
m.add_control(draw_control)
m

from shapely.geometry import Polygon

# Inspect `draw_control.data` to get the ROI
bbox = draw_control.data[0]
p = Polygon([tuple(l) for l in bbox['geometry']['coordinates'][0]])
left, bottom, right, top = p.bounds

roi_path = tile_server.extract_roi(left, right, bottom, top)
roi_path

r = get_leaflet_tile_layer(roi_path)

m2 = Map(
        center=(37.7249511580583, -122.27230466902257),
        zoom=9,
       )
m2.add_layer(r)
m2.add_control(ScaleControl(position='bottomleft'))
m2.add_control(FullScreenControl())
m2

🗺️ Example Datasets

A few example datasets are included with tileserver. A particularly useful one has global elevation data which you can use to create high resolution Digital Elevation Models (DEMs) of a local region.

from tileserver import get_leaflet_tile_layer, examples
from ipyleaflet import Map, DrawControl

# Load example tile layer from publicly available DEM source
tile_server = examples.get_elevation()

# Create ipyleaflet tile layer from that server
t = get_leaflet_tile_layer(tile_server,
                           band=1, vmin=-500, vmax=5000,
                           palette='mycarta.Cube1_19',
                           opacity=0.75)

m = Map(zoom=2)
m.add_layer(t)
draw_control = DrawControl()
m.add_control(draw_control)
m

Then you can follow the same routine as described above to extract an ROI.

I zoomed in over Golden, Colorado and drew a polygon of the extent of the DEM I would like to create:

And perform the extraction:

from shapely.geometry import Polygon

# Inspect `draw_control.data` to get the ROI
bbox = draw_control.data[0]
p = Polygon([tuple(l) for l in bbox['geometry']['coordinates'][0]])
left, bottom, right, top = p.bounds

roi_path = tile_server.extract_roi(left, right, bottom, top)

r = get_leaflet_tile_layer(roi_path, band=1,
                           palette='mycarta.Cube1_19', opacity=0.75)

m2 = Map(
        center=(39.763427033262175, -105.20614908076823),
        zoom=12,
       )
m2.add_layer(r)
m2

Here is another example with the Virtual Earth satellite imagery

from tileserver import get_leaflet_tile_layer, examples
from ipyleaflet import Map, DrawControl

# Load example tile layer from publicly available imagery
tile_server = examples.get_virtual_earth()

# Create ipyleaflet tile layer from that server
t = get_leaflet_tile_layer(tile_server,opacity=1)

m = Map(center=(39.751343612695145, -105.22181306125279), zoom=18)
m.add_layer(t)
draw_control = DrawControl()
m.add_control(draw_control)
m

🖥️ Local Web Application

Launch the tileserver from the commandline to use the included web application where you can view the raster and extract regions of interest.

python -m tileserver path/to/raster.tif

Usage Notes

get_leaflet_tile_layer accepts either an existing TileServer or a path from which to create a TileServer under the hood.
The color palette choices come from palettable.

Comments

Accessing localtileserver from remote Jupyter environment
The localtileserver works nicely locally. However, I have not been able to make it work in a cloud environment. I have tested it multiple cloud env without success, such as https://binder.pangeo.io, https://mybinder.org, https://streamlit.io/cloud and Google Colab. Below is the environment.yml I used to create the env. It would be nice to have a working env that users can launch a notebook to test localtileserver with a simple click.

name: tileserver channels: - conda-forge dependencies: - gdal=3.2.2 - pip - pip: - geopandas - leafmap - localtileserver
opened by giswqs 12

AttributeError: 'Map' object has no attribute 'add_child'

I am trying to run the minimal example and getting this error. Maybe I am missing something big. Screen Shot 2022-03-30 at 8 14 15 AM

Report:

Date: Tue Mar 29 23:20:12 2022 UTC

                 OS : Linux
             CPU(s) : 8
            Machine : x86_64
       Architecture : 64bit
                RAM : 31.4 GiB
        Environment : Jupyter

  Python 3.8.10 (default, Nov 26 2021, 20:14:08)  [GCC 9.3.0]

    localtileserver : 0.4.4
              flask : 2.1.0
      flask_caching : 1.10.1
        flask_restx : 0.5.1
           requests : 2.27.1
           werkzeug : 2.0.3
              click : 8.0.4
             scooby : 0.5.12
        large_image : 1.12.0
large_image_source_gdal : 1.12.0
         cachetools : 5.0.0
                PIL : 9.0.1
             psutil : 5.9.0
              numpy : 1.22.3
         palettable : 3.3.0
             pyproj : 3.3.0
         osgeo.gdal : 3.0.4
         ipyleaflet : 0.15.0
          traitlets : 5.1.1
            shapely : 1.8.1.post1
             folium : 0.12.1.post1
         matplotlib : 3.5.1

opened by haseeb33 10

Extend to fix ImageOverlay, too?

Thank you! This repo looks very promising, indeed, and gives me hope to work around https://github.com/jupyter-widgets/ipyleaflet/issues/234! Is there any chance to extend this to load ImageOverlays also from local files and/or memory, like mentioned in that issue's title? That would allow to refresh the image inside an ImageOverlay which should work with this approach, too.

opened by deeplook 10

get_leaflet_tile_layer error (v0.3.13)

Both v0.3.13 and the GitHub source throws the same error when using the example. v0.3.12 works fine.

from localtileserver import get_leaflet_tile_layer, TileClient
from ipyleaflet import Map

# First, create a tile server from local raster file
tile_client = TileClient('~/Downloads/dem.tif')

# Create ipyleaflet tile layer from that server
t = get_leaflet_tile_layer(tile_client)

# Create ipyleaflet map, add tile layer, and display
m = Map(center=tile_client.center())
m.add_layer(t)
m

v0.3.13

v0.3.12

opened by giswqs 9

Bokeh tile server

I'd like to use localtileserver in conjunction with bokeh, though I'm not having luck. Ideally, I'd like to spin up a bokeh server, though I haven't had luck within jupyter either. I suspect this is related to 66, just not sure exactly how to point bokeh to the tiles served up by this repo.

opened by avanetten 8
localtileserver with streamlit

I created an interactive streamlit web app for visualizing local and remote COG based on localtileserver and leafmap. The web app works fine when running locally. However, when deployed to Streamlit Cloud, the tile layer won't show up. I turned on the debug mode and found that the app in streamlit cloud is missing GET /tiles/. See the screenshots and video demo below. Any advice? Thanks.

Web App: https://share.streamlit.io/giswqs/streamlit-geospatial/app.py?page=Visualize+Raster+Data Source code: https://github.com/giswqs/streamlit-geospatial/blob/master/apps/raster.py

The app running on Streamlit Cloud (missing GET /tiles/ ) - layer not shown up

The app running locally (with GET /tiles/ ) - layer shown up correctly

https://user-images.githubusercontent.com/5016453/143720329-fa20b1f8-3f1c-4cb0-9460-735d9d23da19.mp4

opened by giswqs 8
Packaging with pyinstaller

Hello, I am using the localetileserver, and it is working but when I try to convert my py to exe the program shows me this error.

large_image.exceptions.TileSourceError: No available tilesource for C:\Users\iiMox\AppData\Local\Temp_MEI50602\NE1_LR_LC_SR_W_DR.tif

opened by iiMox 7
Deploy on Heroku

Its live at https://localtileserver-demo.herokuapp.com

I'm using a free dyno so if this gets any traffic at all, it will probably crash

The changes in this PR make it so that any URL file can be passed as a query param at that URL for viewing. For example:

https://localtileserver-demo.herokuapp.com?filename=https://opendata.digitalglobe.com/events/california-fire-2020/pre-event/2018-02-16/pine-gulch-fire20/1030010076004E00.tif

And another file hosted on S3: https://localtileserver-demo.herokuapp.com/?filename=s3://sentinel-cogs/sentinel-s2-l2a-cogs/2020/S2A_31QHU_20200714_0_L2A/B01.tif

opened by banesullivan 7

Multiband support and MPL colormaps

Resolve #22

This all feels a bit hacky, but it works. @giswqs, would you please review/test.

Here is an example

from localtileserver import get_leaflet_tile_layer, TileClient
from ipyleaflet import Map

# First, create a tile server from local raster file
tile_client = TileClient('./landsat.tif')

# Create ipyleaflet tile layer from that server
t = get_leaflet_tile_layer(tile_client, band=[4, 3, 2])

# Create ipyleaflet map, add tile layer, and display
m = Map(center=tile_client.center())
m.add_layer(t)
m

or like the screenshots in #22:

# Create ipyleaflet tile layer from that server
t = get_leaflet_tile_layer(tile_client, band=[5, 4, 3])

# Create ipyleaflet map, add tile layer, and display
m = Map(center=tile_client.center())
m.add_layer(t)
m

To do:

[x] Update type hints and documentation
[x] Add example to README
[ ] User test

opened by banesullivan 7

Add package to conda-forge

Thank you for developing this nice package. I just tested it on my computer, and it works like a charm! I plan to incorporate the package into geemap and leafmap. Would you consider making the package available on conda-forge? Thanks.

opened by giswqs 6
Update flake8 requirement from <5.0.0 to <6.0.0
Updates the requirements on flake8 to permit the latest version.

Commits

70c0b3d Release 5.0.2

5e69ba9 Merge pull request #1642 from PyCQA/no-home

8b51ee4 skip skipping home if home does not exist

446b18d Merge pull request #1641 from PyCQA/entry-points-not-pickleable

b70d7a2 work around un-pickleabiliy of EntryPoint in 3.8.0

91a7fa9 fix order of release notes

405cfe0 Release 5.0.1

d20bb97 Merge pull request #1631 from PyCQA/dupe-sys-path

fce93b9 prevent duplicate plugin discovery on misconfigured pythons

3f4872a Merge pull request #1628 from mxr/patch-1

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dependencies python
opened by dependabot[bot] 5
Bump sphinx from 5.3.0 to 6.0.0
Bumps sphinx from 5.3.0 to 6.0.0.

Release notes

Sourced from sphinx's releases.

v6.0.0

Changelog: https://www.sphinx-doc.org/en/master/changes.html

v6.0.0b2

Changelog: https://www.sphinx-doc.org/en/master/changes.html

v6.0.0b1

Changelog: https://www.sphinx-doc.org/en/master/changes.html

Changelog

Sourced from sphinx's changelog.

Release 6.0.0 (released Dec 29, 2022)

Dependencies

#10468: Drop Python 3.6 support

#10470: Drop Python 3.7, Docutils 0.14, Docutils 0.15, Docutils 0.16, and Docutils 0.17 support. Patch by Adam Turner

Incompatible changes

#7405: Removed the jQuery and underscore.js JavaScript frameworks.

These frameworks are no longer be automatically injected into themes from Sphinx 6.0. If you develop a theme or extension that uses the jQuery, $, or $u global objects, you need to update your JavaScript to modern standards, or use the mitigation below.

The first option is to use the sphinxcontrib.jquery_ extension, which has been developed by the Sphinx team and contributors. To use this, add sphinxcontrib.jquery to the extensions list in conf.py, or call app.setup_extension("sphinxcontrib.jquery") if you develop a Sphinx theme or extension.

The second option is to manually ensure that the frameworks are present. To re-add jQuery and underscore.js, you will need to copy jquery.js and underscore.js from the Sphinx repository_ to your static directory, and add the following to your layout.html:

.. code-block:: html+jinja

{%- block scripts %} {{ super() }} {%- endblock %}

.. _sphinxcontrib.jquery: https://github.com/sphinx-contrib/jquery/

Patch by Adam Turner.

#10471, #10565: Removed deprecated APIs scheduled for removal in Sphinx 6.0. See :ref:dev-deprecated-apis for details. Patch by Adam Turner.

#10901: C Domain: Remove support for parsing pre-v3 style type directives and roles. Also remove associated configuration variables c_allow_pre_v3 and c_warn_on_allowed_pre_v3. Patch by Adam Turner.

Features added

... (truncated)

Commits

5b56a23 Bump to 6.0.0 final

f1d1e9c Update coverage workflow for Tox 4

66a738c Update coverage workflow for new configuration location

041e5f8 Add test coverage for 'today_fmt' reference substitution (#10980)

da25145 Remove unnecessary conditional import in sphinx.ext.napoleon (#11043)

45a0ea9 Migrate coveragepy config into pyproject.toml (#11025)

3ec54f1 Create a pydata_sphinx_theme section in usage examples (#11046)

32bce8f Copy edit the tutorial (#11049)

9844162 Fix example using add_config_value (#10937)

bf4a626 RTD builder: add graphviz depedendency (#11040)

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dependencies python
opened by dependabot[bot] 1
Bump python from 3.10.7-slim to 3.11.1-slim
Bumps python from 3.10.7-slim to 3.11.1-slim.

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dependencies docker
opened by dependabot[bot] 1
Bump jupyter/base-notebook from python-3.9.12 to python-3.10.8
Bumps jupyter/base-notebook from python-3.9.12 to python-3.10.8.

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dependencies docker
opened by dependabot[bot] 0
Support for Amazon SageMaker Studio Lab
Amazon SageMaker Studio is a free cloud computing platform, similar to Binder but users can install packages and save files permanently. It seems localtileserver is not working on SageMaker, even after running the following code. Any advice?

import os os.environ["LOCALTILESERVER_CLIENT_PREFIX"] = "proxy/{port}"
opened by giswqs 1
Raster image stretch e.g. min max stretching

Hi, has there been any work or examples on stretching the rasters when used with localtileserver.get_leaflet_tile_layer? Working with uint16 raster at the time and imagery is extremely dark. I have seen this example using the ee library, https://github.com/giswqs/earthengine-py-notebooks/blob/master/Visualization/image_stretch.py, but I have not seen any available args in order to work on stretching the image (https://girder.github.io/large_image/tilesource_options.html#style). Thanks!
enhancement

opened by jordancaraballo 10

Very slow on Windows

I noticed that localtileserver is very slow on Windows. It took ~13 seconds to generate tiles for thisvery small GeoTIFF (14 MB). It used to be very fast on Linux. I am not sure what causes the issue.

Animation

from localtileserver import get_leaflet_tile_layer, TileClient
from ipyleaflet import Map

# First, create a tile server from local raster file
client = TileClient('srtm90.tif')

# Create ipyleaflet tile layer from that server
t = get_leaflet_tile_layer(client)

m = Map(center=client.center(), zoom=client.default_zoom)
m.add_layer(t)
m

env

--------------------------------------------------------------------------------
  Date: Wed Aug 03 16:17:46 2022 Eastern Daylight Time

                     OS : Windows
                 CPU(s) : 16
                Machine : AMD64
           Architecture : 64bit
                    RAM : 31.7 GiB
            Environment : Jupyter

  Python 3.10.4 | packaged by conda-forge | (main, Mar 30 2022, 08:38:02) [MSC
  v.1916 64 bit (AMD64)]

        localtileserver : 0.5.11
                  flask : 2.1.3
          flask_caching : 1.10.1
             flask_cors : 3.0.10
            flask_restx : 0.5.1
               requests : 2.28.1
               werkzeug : 2.1.2
                  click : 8.1.3
          server_thread : 0.2.0
                 scooby : 0.5.12
            large_image : 1.15.1
large_image_source_gdal : 1.15.1
             cachetools : 4.2.4
                    PIL : 9.2.0
                 psutil : 5.9.1
                  numpy : 1.23.1
             palettable : 3.3.0
                 pyproj : 3.3.1
             osgeo.gdal : 3.4.2
             ipyleaflet : 0.17.0
             jupyterlab : 3.4.4
              traitlets : 5.3.0
                shapely : 1.8.2
                 folium : 0.12.1.post1
             matplotlib : 3.5.2
--------------------------------------------------------------------------------

bug

opened by giswqs 6

Releases(0.5.5)

0.5.5(Apr 29, 2022)
New features:

Add COG validate helper (see #80)

Enable * CORS by user choice

Add is_geospatial property to TileClient

Add default_zoom property to TileClient to determine starting zoom on map

Handle tile serving in pixel coordinates for non-geospatial images

Niceties:

Handle large_image source as input to TileClient

Add _ipython_display_ to TileClient to quickly display a map in Jupyter

Add _repr_png_ to TileClient to quickly show a thumbnail in Qt IPython

Add URL form field to web app

Maintenance:

Maintenance of Docker images

Internal refactoring to utilize new server-thread package (see #79)

Documentation and examples improvements

Source code(tar.gz)
Source code(zip)
0.5.3(Apr 18, 2022)
Style parameters can now be included as a JSON blob in the request body following the format specified by large-image or as a dict in the syle parameter in the Python client.

cmap alias for palette in Python client (see #71)

Better error handling

Handle Dropbox URLs

New save_new_raster helper method

Bug fixes, cleanup, and other internal maintenance (see diff)

This release adds support for rasterio datasets so that users can easily visualize their data when working with rasterio:

import rasterio from ipyleaflet import Map from localtileserver import TileClient, get_leaflet_tile_layer # Open raster with rasterio src = rasterio.open('path/to/geo.tif') # Pass rasterio source to localtileserver client = TileClient(src) t = get_leaflet_tile_layer(client) m = Map(center=client.center(), zoom=8) m.add_layer(t) m
Source code(tar.gz)
Source code(zip)
0.4.2(Feb 6, 2022)
This release adds support for using localtileserver in remote Jupyter environments (e.g., MyBinder or JupyterHub) through jupyter-server-proxy. Included in this release is a new Docker image on GitHub's package registry for using localtileserver in Jupyter.

docker pull ghcr.io/banesullivan/localtileserver-jupyter:latest docker run -p 8888:8888 ghcr.io/banesullivan/localtileserver-jupyter:latest

To configure this in your own set up, you must set the following environment variables

LOCALTILESERVER_CLIENT_PREFIX='proxy/{port}' - Same for everyone using jupyter-server-proxy

Optional:

LOCALTILESERVER_CLIENT_HOST=127.0.0.1 - The host on which you launch Jupyter (the URL/domain of the Jupyter instance if using MyBinder or JupyterHub)

LOCALTILESERVER_CLIENT_PORT=8888 - The port on which you launch Jupyter (leave blank if using MyBinder or JupyterHub)

There is a demo in https://github.com/banesullivan/localtileserver-demo that shows how this will work on MyBinder by setting the following at run-time:

# Set host forwarding for MyBinder import os os.environ['LOCALTILESERVER_CLIENT_PREFIX'] = f"{os.environ['JUPYTERHUB_SERVICE_PREFIX'].lstrip('/')}/proxy/{{port}}"

Resolves #29, #66, and https://github.com/banesullivan/localtileserver-demo/issues/1
Source code(tar.gz)
Source code(zip)
0.4.0(Jan 12, 2022)
This release has one breaking change (breaking for a small minority of users) where the API endpoints were renamed to have the api/ prefix where applicable (see #51). Other notes:

Document style parameters for Thumbnail endpoint (see 7e27db045b7798ba191f0b4350928eda17625c15)

Support custom, user-defined palettes (see #54)

Cesium Split Viewer (see #47 and https://github.com/banesullivan/localtileserver/discussions/53)

Cesium terrain model is now disabled by default (see fe1c2103aa13cbdc49eb5ec2e785e3a35b8907b8)

Standalone Docker Image - #57

Now you can easily pull a docker image for the latest release or for a specific Pull Request in the repository. Check out the tags for https://github.com/banesullivan/localtileserver/pkgs/container/localtileserver

This is particularly useful if you do not want to install GDAL on your system or want a dedicated service for tile serving.

To use the docker image:

docker pull ghcr.io/banesullivan/localtileserver:latest docker run -p 8000:8000 ghcr.io/banesullivan/localtileserver:latest

Then visit http://0.0.0.0:8000 in your browser. You can pass the ?filename= argument in the URL params to access any URL/S3 file.

Note that you can mount your file system to access files locally. For example, I mount my Desktop by:

docker run -p 8000:8000 -v /Users/bane/Desktop/:/data/ ghcr.io/banesullivan/localtileserver:latest

Then I can add the ?filename= parameter to the URL to access the file TC_NG_SFBay_US_Geo.tif file on my desktop. Since this is mounted under /data/ in the container, you must build the path as /data/TC_NG_SFBay_US_Geo.tif, such that the URL would be http://0.0.0.0:8000/?filename=/data/TC_NG_SFBay_US_Geo.tif (or http://0.0.0.0:8000/?filename=%2Fdata%2FTC_NG_SFBay_US_Geo.tif)
Source code(tar.gz)
Source code(zip)
0.3.13(Dec 27, 2021)

Bye-bye, Python 3.6! 👋🏻

This release introduces an override to ipyleaflet.TileLayer that constrains the region of requested tiles, per jupyter-widgets/ipyleaflet#888. This significantly reduces the load on the tile server when viewing tiles in an ipyleaflet.Map

This change required dropping Python 3.6 and was good timing since Python 3.6's Security Support ended Dec 23, 2021 (4 days ago) (ref https://endoflife.date/python). Since conda-forge hasn't been building on Python 3.6 for some time, I'm hoping there is minimal impact here
Source code(tar.gz)
Source code(zip)
0.3.12(Dec 20, 2021)
The last few tags have been full of useful/nice to have features and clean up. The follow is a recap

Multi-band support: create composite images from selected bands

Automatically opens web browser when launching from command line

Under the hood improvements and abstraction of the underlying flask app to a Blueprint

Major UI improvements with color mapping options

Support user provided CesiumIon tokens

Support memcached

Better handle bad filenames/URLs with 404 page

Improvements to CesiumJS and GeoJS tile viewers

Google Analytics support

New pixel endpoint

New Histogram endpoint

New tile sources endpoint

New colormaps listing endpoint

Swagger API Docs

There is now an /swagger/ view with full API documentation:

| List | Tiles | |---|---| | | |

This introduced a new flask-restx dependency.

Docker Image

You can now pull a pre-built docker image from the packages of this repository

docker pull ghcr.io/banesullivan/localtileserver/localtileserver:latest

To run:

docker run --rm -it -p 8000:8000 ghcr.io/banesullivan/localtileserver/localtileserver

If you want to serve/visualize tiles from files on your local system, simply mount the directory:

docker run --rm -it -p 8000:8000 -v /path/to/mount/:/data ghcr.io/banesullivan/localtileserver/localtileserver

Then be sure to put the ?filename=/data/... in the URL params
Source code(tar.gz)
Source code(zip)

0.3.5(Dec 6, 2021)

This release adds support for three new features:

Choose which bands to use for RGB channels when tile serving
Generate thumbnails with the same styling parameters as tile serving
Use any Matplotlib colormap as a palette choice

Example

There is a new example in the README to demonstrate RGB channel selection:

from localtileserver import get_leaflet_tile_layer, TileClient
from ipyleaflet import Map, ScaleControl, FullScreenControl, SplitMapControl

# First, create a tile server from local raster file
tile_client = TileClient('landsat.tif')

# Create 2 tile layers from same raster viewing different bands
l = get_leaflet_tile_layer(tile_client, band=[7, 5, 4])
r = get_leaflet_tile_layer(tile_client, band=[5, 3, 2])

# Make the ipyleaflet map
m = Map(center=tile_client.center(), zoom=12)
control = SplitMapControl(left_layer=l, right_layer=r)
m.add_control(control)
m.add_control(ScaleControl(position='bottomleft'))
m.add_control(FullScreenControl())
m

Thumbnails

and you can also generate styled thumbnails with

tile_client.thumbnail(band=[5, 3, 2], output_path='thumbnail_styled.png')

thumbnail

as opposed to the default channels:

tile_client.thumbnail(output_path='thumbnail_default.png')

thumbnail

Matplotlib Colormaps

and you can plot any single band with a matplotlib colormap by:

l = get_leaflet_tile_layer(tile_client, band=7, palette='rainbow')


m = Map(center=tile_client.center(), zoom=10)
m.add_layer(l)
m

Source code(tar.gz)
Source code(zip)

0.3.4(Nov 27, 2021)
This adds support for serving tiles from remote raster files through GDAL's Virtual Storage Interface. Simply pass your http<s>:// or s3:// URL to the TileClient. This will work quite well for pre-tiled Cloud Optimized GeoTiffs, but I do not recommend doing this with non-tiled raster formats.

Further, this release contains a few internal changes that dramatically improve the performance of the underlying tile server. Users can control whether the server is run in a multi-threaded or multi-process manner.

from localtileserver import get_folium_tile_layer from localtileserver import TileClient from folium import Map # This is a ~3GiB image url = 'https://opendata.digitalglobe.com/events/california-fire-2020/pre-event/2018-02-16/pine-gulch-fire20/1030010076004E00.tif' # First, create a tile server from local raster file tile_client = TileClient(url) # Create folium tile layer from that server t = get_folium_tile_layer(tile_client) m = Map(location=tile_client.center()) m.add_child(t) m
Source code(tar.gz)
Source code(zip)

0.3.2(Nov 26, 2021)

Now you can easily create tile layers for viewing with Folium!

from localtileserver import get_folium_tile_layer
from localtileserver import TileClient
from folium import Map

# First, create a tile server from local raster file
tile_client = TileClient('~/Desktop/TC_NG_SFBay_US_Geo.tif')

# Create folium tile layer from that server
t = get_folium_tile_layer(tile_client)

m = Map(location=tile_client.center())
m.add_child(t)
m

https://user-images.githubusercontent.com/22067021/143659402-f1ee453c-4c56-4908-a7d7-1e34c83a3edf.mov

Source code(tar.gz)
Source code(zip)

0.3.0(Nov 25, 2021)

I decided to rename the package to localtileserver to simplify installation and have a name consistent with the scope of package.
Source code(tar.gz)
Source code(zip)
0.2.3(Nov 24, 2021)

Now included are some prebaked UI controls for ipyleaflet that let you easily extract ROIs. Take a look at the example in the README.

https://user-images.githubusercontent.com/22067021/143311931-e19647d0-74bc-490a-821c-8046fc9c5dfa.mov
Source code(tar.gz)
Source code(zip)
0.2.2(Nov 24, 2021)

The default viewer in the included web app now uses CesiumJS!

https://user-images.githubusercontent.com/22067021/143178656-12e6e0fa-b601-4746-aae9-726d6f109fee.mov
Source code(tar.gz)
Source code(zip)