A require()
able suite of valid and invalid vector tile fixtures for testing Mapbox Vector Tile encoders and decoders. You can view a list of all fixtures at FIXTURES.md.
Usage
mvt-fixtures can be used in two distinct ways
- javascript interface: use the javascript interface to generate fixtures on the fly
- raw fixtures use the raw fixtures directly via the /fixtures directory.
The Javascript API is recommended if you are working in Javascript or Node.js. The raw fixtures are provided for those using this outside of a Javascript application. The recommended workflow is to have your encoder or decoder loop through every fixture and either expect to successfully decode/encode valid fixtures, or fail to decode/encode invalid fixtures. When new fixtures are added to this repository, you simply need to update the version of the module (or your submodule) to get the new fixtures and re-run tests.
Validity: each fixture includes information about whether they are valid according to the specification versions and possible error outcomes if they are invalid. If any of the fixtures are invalid, they must include an error
field describing how to recover (or not) from the error. These can be found in the validity
field of the fixture and info.json files. The following checks:
v1
(Boolean): is this fixture valid according to Version 1.x of the Mapbox Vector Tile specv2
(Boolean): is this fixture valid according to Version 2.x of the Mapbox Vector Tile specerror
(String): describes if the encoder/decoder should recover from this error or stop completely. THis is only present if the fixture is invalid according to one or more spec revisions. Values are
recoverable
: should the encoder/decoder continue move on and continue its work? For instance, if invalid geometry is found, can the encoder safely move to the next feature?fatal
: the encoder should completely stop its process
Javascript usage
Check out the full Javascript interface over at API.md
npm install @mapbox/mvt-fixtures --save-dev
const mvtf = require('@mapbox/mvt-fixtures');
const decoder = require('your-mvt-decoder');
mvtf.each(function(fixture) {
let output = decoder(fixture.buffer);
assert.equal(output.layers.length, fixture.json.layers.length, 'expected number of layers');
});
const output = decoder(mvtf.get('043').buffer);
Non-JS interface
You can access all of the fixtures and their metadata in the /fixtures directory. You can download this repository and get them manually, or use this repository as a submodule. Each fixture is named by the directory /fixtures/{name} and has the following files:
- tile.mvt - the protocol buffer that represents (or intentionally breaks) the Mapbox Vector Tile specification
- tile.json - a JSON representation of the tile and its properties
- info.json - information about the fixture including
name
, description
, and specification_reference
.
Defaults and validity
Validity can be messy. In the case of the validity
property for the fixtures, they refer to the Mapbox Vector Tile Specification but depending on the protocol buffer specification we are decoding with, fields that may be required by the spec and are missing can be interpreted as default values. For example: in fixture 003 where the "GeomType" tag is completely missing, any vector tile decoder using the proto2 syntax will interpret this by the default value UNKNOWN instead of a missing tag, so the fixture itself is interpreted as "valid".
Real-world fixtures
While the bulk of mvt-fixtures is focused on minimal unit tests with very specific features, it also includes a set of real-world tiles that are useful for benchmarking and running your decoder through more realistic tiles. Learn more about each real world extent in REAL-WORLD.md.
Develop
Setup
git clone git@github.com:mapbox/mvt-fixtures.git
cd mvt-fixtures
git submodule update --init
npm install
npm install -g documentation
Adding a new fixture
All fixtures have a source file in the /src directory. This file is a module that exports an object with the following parameters:
module.exports = {
description: 'DESCRIPTION',
specification_reference: 'SPECIFICATION_URL',
validity: {
v1: false,
v2: false,
error: 'ERROR_TYPE'
},
json: {...},
proto: '2.1'
};
A new fixture can be created by running the command, which will auto-increment the ID:
npm run new
# New file created: /src/003.js.
Building fixtures
To rebuild all of the raw fixtures (including the tile.mvt, tile.json, and info.json files) in /fixtures you can run:
npm run build
Debugging fixtures
There are couple scripts included for debugging the fixtures as you create them.
protoc specification dump allows you to dump mvt fixtures to the text-based representation supported by the google protoc tool. This can be very useful for debugging fixtures to ensure you've created what you expected (particularly for tiles designed to be invalid to parse).
$ ./scripts/dump fixtures/002/tile.mvt
layers {
name: "hello"
features {
type: POINT
geometry: 9
geometry: 50
geometry: 34
}
extent: 4096
version: 2
}
raw protoc dump allows you to dump the raw contents of a buffer. This particularly useful for tiles that don't match the vector_tile.proto format and you want to view which tags are generated
$ ./scripts/dump fixtures/002/tile.mvt --raw
3 {
15: 2
1: "hello"
2 {
2: ""
3: 1
4: "\t2\""
}
5: 4096
}
vtvalidate is a node C++ addon that can be installed via npm separately. This uses vtzero to parse a vector tile buffer and has a CLI available for quick use.
$ vtvalidate fixtures/003/tile.mvt
unknown geometry type
Building docs
Documentation takes two forms...
- Javascript API docs in API.md
- Fixture reference in FIXTURES.md
These can be generated by running:
npm run docs
Running tests
All tests can be run with:
npm test