{"name":"napari-boardgame-maker","display_name":"FooBar Segmentation","visibility":"public","icon":"","categories":[],"schema_version":"0.2.0","on_activate":null,"on_deactivate":null,"contributions":{"commands":[{"id":"napari-boardgame-maker.write_single_image","title":"Save image data with FooBar Segmentation","python_name":"napari_boardgame_maker._writer:write_single_image","short_title":null,"category":null,"icon":null,"enablement":null},{"id":"napari-boardgame-maker.boardgame_maker","title":"Boardgame Tile Maker","python_name":"napari_boardgame_maker._widget:BoardgameMakerWidget","short_title":null,"category":null,"icon":null,"enablement":null},{"id":"napari-boardgame-maker.rhone_glacier","title":"Create rhone glacier sample data","python_name":"napari_boardgame_maker._sample_data:rhone_glacier","short_title":null,"category":null,"icon":null,"enablement":null}],"readers":null,"writers":[{"command":"napari-boardgame-maker.write_single_image","layer_types":["image"],"filename_extensions":[".npy"],"display_name":""}],"widgets":[{"command":"napari-boardgame-maker.boardgame_maker","display_name":"Boardgame Tile Maker","autogenerate":false}],"sample_data":[{"command":"napari-boardgame-maker.rhone_glacier","key":"Rhone glacier digital elevation model","display_name":"Rhone glacier (DEM)"}],"themes":null,"menus":{},"submenus":null,"keybindings":null,"configuration":[]},"package_metadata":{"metadata_version":"2.1","name":"napari-boardgame-maker","version":"0.0.2","dynamic":null,"platform":null,"supported_platform":null,"summary":"Make boardgame tiles","description":"# napari-boardgame-maker\n\n[](https://github.com/jo-mueller/napari-boardgame-maker/raw/main/LICENSE)\n[](https://pypi.org/project/napari-boardgame-maker)\n[](https://python.org)\n[](https://github.com/jo-mueller/napari-boardgame-maker/actions)\n[](https://codecov.io/gh/jo-mueller/napari-boardgame-maker)\n[](https://napari-hub.org/plugins/napari-boardgame-maker)\n\nThis plugin turns 2D grayscale images into 3D-printable landscape tiles for a certain all-time tabletop boardgame which revolves around building settlements, obtaining ressources expanding and collecting more points than your opponents.\n\nIn short, images (for instance, [digital elevation models](https://en.wikipedia.org/wiki/Digital_elevation_model)) can be turned into surfaces like this:\n\n| Image | Created tile|\n| --- | --- |\n|
|
|\n\n## Data\n\nIn principle, all 2D grayscale image data can be used to create a tile. However, using digital elevation models is particularly cool. Such data is publicly available at [OpenTopography.org](https://portal.opentopography.org/raster?opentopoID=OTSDEM.032021.4326.2). Acknowledgement:\n\n```text\n NASA JPL. NASADEM Merged DEM Global 1 arc second V001. 2020, distributed by NASA EOSDIS Land Processes DAAC, https://doi.org/10.5067/MEaSUREs/NASADEM/NASADEM_HGT.001.\n```\n## Usage\n\nTo use the boardgame tile maker, open it from the plugins menu (`Plugins > napari-boardgame-maker: Boardgame Tile Maker`) or from the tools menu (`Tools > Boardgame tile maker (npbgm)`). There are a few steps and parameters to set before the tile can be created.\n\n[](https://github.com/jo-mueller/napari-boardgame-maker/raw/main/docs/imgs/GUI_screenshot.jpg)\n\nClicking on `Make hexagon` and `Make number field` will create a hexagonal shape in the viewer (which will be the outline of the tile) and a circular field (which can later be used to put some markers, figures, chips, etc. On the center of the board).\n\n\n\nThe next step is to set the parameters for the tile. The following parameters can be set:\n\n### Radii and sizes\n\nThe following sketch shows the different radii and sizes that can be set:\n\n\n\n- `hexagon radius`: The radius of the hexagon (in pixels). Upon export, this will be rescaled to a desired physical size in mm.\n- `number field radius`: The radius of the number field (in pixels). Can also be set in mm units. The pixels are changed accordingly if the size of the whole hexagon is changed.\n- `stride`: The region next to the edge of the tile that should remain flat.\n- `town radius`: A circular region around the edges of the hexagonal tiles that should remain flat.\n\n### Topography\n\nThe following parameters can be set to create the topography of the tile:\n\n\n\n- `slope`: Adds a smooth transition of a given width between the edge of the cropped topography and the level of the base platte. Setting this to zero will result in a sharp edge.\n- `z-multiplier`: The height of the topography is multiplied by this factor. This can be used to scale the topography to the desired height.\n- `Plate thickness`: The thickness of the base plate (in mm).\n\n### Export\n\n- CLicking on `produce tile` will run the workflow to create the tile\n- Clicking `Export` will open a dialog to save the tile as an `.stl` file. *Note*: The tile will be exported in the size of the hexagon radius. If the hexagon radius is set to 100 mm, the tile will be exported as a 100 mm hexagon.\n\n----------------------------------\n\nThis [napari] plugin was generated with [Cookiecutter] using [@napari]'s [cookiecutter-napari-plugin] template.\n\n\n\n## Installation\n\nYou can install `napari-boardgame-maker` via [pip]:\n\n pip install napari-boardgame-maker\n\n\n## Contributing\n\nContributions are very welcome. Tests can be run with [tox], please ensure\nthe coverage at least stays the same before you submit a pull request.\n\n## License\n\nDistributed under the terms of the [BSD-3] license,\n\"napari-boardgame-maker\" is free and open source software\n\n## Issues\n\nIf you encounter any problems, please [file an issue] along with a detailed description.\n\n[napari]: https://github.com/napari/napari\n[Cookiecutter]: https://github.com/audreyr/cookiecutter\n[@napari]: https://github.com/napari\n[MIT]: http://opensource.org/licenses/MIT\n[BSD-3]: http://opensource.org/licenses/BSD-3-Clause\n[GNU GPL v3.0]: http://www.gnu.org/licenses/gpl-3.0.txt\n[GNU LGPL v3.0]: http://www.gnu.org/licenses/lgpl-3.0.txt\n[Apache Software License 2.0]: http://www.apache.org/licenses/LICENSE-2.0\n[Mozilla Public License 2.0]: https://www.mozilla.org/media/MPL/2.0/index.txt\n[cookiecutter-napari-plugin]: https://github.com/napari/cookiecutter-napari-plugin\n\n[napari]: https://github.com/napari/napari\n[tox]: https://tox.readthedocs.io/en/latest/\n[pip]: https://pypi.org/project/pip/\n[PyPI]: https://pypi.org/\n","description_content_type":"text/markdown","keywords":null,"home_page":null,"download_url":null,"author":"Johannes Soltwedel","author_email":"johannes_richard.soltwedel@tu-dresden.de","maintainer":null,"maintainer_email":null,"license":"BSD-3-Clause","classifier":["Development Status :: 2 - Pre-Alpha","Framework :: napari","Intended Audience :: Developers","License :: OSI Approved :: BSD License","Operating System :: OS Independent","Programming Language :: Python","Programming Language :: Python :: 3","Programming Language :: Python :: 3 :: Only","Programming Language :: Python :: 3.8","Programming Language :: Python :: 3.9","Programming Language :: Python :: 3.10","Topic :: Scientific/Engineering :: Image Processing"],"requires_dist":["numpy","magicgui","qtpy","napari-stl-exporter","vedo","napari-tools-menu","imagecodecs","tox ; extra == 'testing'","pytest ; extra == 'testing'","pytest-cov ; extra == 'testing'","pytest-qt ; extra == 'testing'","napari ; extra == 'testing'","pyqt5 ; extra == 'testing'"],"requires_python":">=3.8","requires_external":null,"project_url":null,"provides_extra":["testing"],"provides_dist":null,"obsoletes_dist":null},"npe1_shim":false}