require('../support/test_helper'); const assert = require('../support/assert'); const TestClient = require('../support/test-client'); const serverOptions = require('../../lib/cartodb/server_options'); const suites = [{ desc: 'mvt (mapnik)', usePostGIS: false }]; if (process.env.POSTGIS_VERSION === '2.4') { suites.push({ desc: 'mvt (postgis)', usePostGIS: true }); } describe('aggregation', function () { const POINTS_SQL_1 = ` select x + 4 as cartodb_id, st_setsrid(st_makepoint(x*10, x*10), 4326) as the_geom, st_transform(st_setsrid(st_makepoint(x*10, x*10), 4326), 3857) as the_geom_webmercator, x as value from generate_series(-3, 3) x `; const POINTS_SQL_TIMESTAMP_1 = ` select row_number() over() AS cartodb_id, st_setsrid(st_makepoint(x*10, x*10), 4326) as the_geom, st_transform(st_setsrid(st_makepoint(x*10, x*10), 4326), 3857) as the_geom_webmercator, x as value, date from generate_series(-3, 3) x, generate_series( '2007-02-15 01:00:00'::timestamp, '2007-02-18 01:00:00'::timestamp, '1 day'::interval ) date `; const POINTS_SQL_2 = ` select x + 4 as cartodb_id, st_setsrid(st_makepoint(x*10, x*10*(-1)), 4326) as the_geom, st_transform(st_setsrid(st_makepoint(x*10, x*10*(-1)), 4326), 3857) as the_geom_webmercator, x as value, x*x as sqrt_value from generate_series(-3, 3) x `; const POLYGONS_SQL_1 = ` select x + 4 as cartodb_id, st_buffer(st_setsrid(st_makepoint(x*10, x*10), 4326)::geography, 100000)::geometry as the_geom, st_transform( st_buffer(st_setsrid(st_makepoint(x*10, x*10), 4326)::geography, 100000)::geometry, 3857 ) as the_geom_webmercator, x as value from generate_series(-3, 3) x `; const SQL_WRAP = ` WITH hgrid AS ( SELECT CDB_RectangleGrid ( ST_Expand(!bbox!, CDB_XYZ_Resolution(1) * 12), CDB_XYZ_Resolution(1) * 12, CDB_XYZ_Resolution(1) * 12 ) as cell ) SELECT hgrid.cell as the_geom_webmercator, count(1) as agg_value, count(1) /power( 12 * CDB_XYZ_Resolution(1), 2 ) as agg_value_density, row_number() over () as cartodb_id FROM hgrid, (<%= sql %>) i WHERE ST_Intersects(i.the_geom_webmercator, hgrid.cell) GROUP BY hgrid.cell `; const TURBO_CARTOCSS_SQL_WRAP = ` #layer { polygon-fill: ramp([agg_value], (#245668, #04817E, #39AB7E, #8BD16D, #EDEF5D), quantiles); } #layer::outline { line-width: 1; line-color: #FFFFFF; line-opacity: 1; } `; const POINTS_SQL_ONLY_WEBMERCATOR = ` select x + 4 as cartodb_id, st_transform(st_setsrid(st_makepoint(x*10, x*10), 4326), 3857) as the_geom_webmercator, x as value from generate_series(-3, 3) x `; function createVectorMapConfig (layers = [ { type: 'cartodb', options: { sql: POINTS_SQL_1, aggregation: true } }, { type: 'cartodb', options: { sql: POINTS_SQL_2, aggregation: true } } ]) { return { version: '1.6.0', layers: layers }; } suites.forEach((suite) => { const { desc, usePostGIS } = suite; describe(desc, function () { const originalUsePostGIS = serverOptions.renderer.mvt.usePostGIS; before(function () { serverOptions.renderer.mvt.usePostGIS = usePostGIS; }); after(function (){ serverOptions.renderer.mvt.usePostGIS = originalUsePostGIS; }); afterEach(function (done) { this.testClient.drain(done); }); it('should return a layergroup indicating the mapconfig was aggregated', function (done) { this.mapConfig = createVectorMapConfig([ { type: 'cartodb', options: { sql: POINTS_SQL_1, aggregation: { threshold: 1 } } }, { type: 'cartodb', options: { sql: POINTS_SQL_2, aggregation: { threshold: 1 } } } ]); this.testClient = new TestClient(this.mapConfig); this.testClient.getLayergroup((err, body) => { if (err) { return done(err); } assert.equal(typeof body.metadata, 'object'); assert.ok(Array.isArray(body.metadata.layers)); body.metadata.layers.forEach(layer => assert.ok(layer.meta.aggregation.mvt)); body.metadata.layers.forEach(layer => assert.ok(!layer.meta.aggregation.png)); done(); }); }); it('should return a NOT aggregated layergroup', function (done) { this.mapConfig = createVectorMapConfig([ { type: 'cartodb', options: { sql: POINTS_SQL_1, cartocss: '#layer { marker-width: [value]; }', cartocss_version: '2.3.0' } } ]); this.testClient = new TestClient(this.mapConfig); this.testClient.getLayergroup((err, body) => { if (err) { return done(err); } assert.equal(typeof body.metadata, 'object'); assert.ok(Array.isArray(body.metadata.layers)); body.metadata.layers.forEach(layer => assert.equal(layer.meta.aggregation, undefined)); done(); }); }); it('should return a layergroup with aggregation and cartocss compatible', function (done) { this.mapConfig = createVectorMapConfig([ { type: 'cartodb', options: { sql: POINTS_SQL_1, aggregation: { columns: { total: { aggregate_function: 'sum', aggregated_column: 'value' } }, threshold: 1 }, cartocss: '#layer { marker-width: [total]; }', cartocss_version: '2.3.0' } } ]); this.testClient = new TestClient(this.mapConfig); this.testClient.getLayergroup((err, body) => { if (err) { return done(err); } assert.equal(typeof body.metadata, 'object'); assert.ok(Array.isArray(body.metadata.layers)); body.metadata.layers.forEach(layer => assert.ok(layer.meta.aggregation.mvt)); body.metadata.layers.forEach(layer => assert.ok(layer.meta.aggregation.png)); done(); }); }); it('should fail when aggregation and cartocss are not compatible', function (done) { const response = { status: 400, headers: { 'Content-Type': 'application/json; charset=utf-8' } }; this.mapConfig = createVectorMapConfig([ { type: 'cartodb', options: { sql: POINTS_SQL_1, aggregation: { columns: { total: { aggregate_function: 'sum', aggregated_column: 'value' } }, threshold: 1 }, cartocss: '#layer { marker-width: [value]; }', cartocss_version: '2.3.0' } } ]); this.testClient = new TestClient(this.mapConfig); this.testClient.getLayergroup({ response }, (err, body) => { if (err) { return done(err); } assert.ok(body.errors[0].match(/column "value" does not exist/)); done(); }); }); it('should fail if cartocss uses "value" column and it\'s not defined in the aggregation', function (done) { const response = { status: 400, headers: { 'Content-Type': 'application/json; charset=utf-8' } }; this.mapConfig = createVectorMapConfig([ { type: 'cartodb', options: { sql: POINTS_SQL_2, aggregation: { threshold: 1, placement: 'centroid' }, cartocss: '#layer { marker-width: [value]; }', cartocss_version: '2.3.0' } } ]); this.testClient = new TestClient(this.mapConfig); this.testClient.getLayergroup({ response }, (err, body) => { if (err) { return done(err); } assert.ok(body.errors[0].match(/column "value" does not exist/)); done(); }); }); it('should provide all columns in the default aggregation ', function (done) { const response = { status: 200, headers: { 'Content-Type': 'application/json; charset=utf-8' } }; this.mapConfig = createVectorMapConfig([ { type: 'cartodb', options: { sql: POINTS_SQL_2, aggregation: { threshold: 1 }, cartocss: '#layer { marker-width: [value]; }', cartocss_version: '2.3.0' } } ]); this.testClient = new TestClient(this.mapConfig); this.testClient.getLayergroup({ response }, (err, body) => { if (err) { return done(err); } assert.equal(typeof body.metadata, 'object'); assert.ok(Array.isArray(body.metadata.layers)); body.metadata.layers.forEach(layer => assert.ok(layer.meta.aggregation.mvt)); body.metadata.layers.forEach(layer => assert.ok(layer.meta.aggregation.png)); done(); }); }); it('should skip aggregation to create a layergroup with aggregation defined already', function (done) { const mapConfig = createVectorMapConfig([ { type: 'cartodb', options: { sql: POINTS_SQL_1, aggregation: { columns: { total: { aggregate_function: 'sum', aggregated_column: 'value' } }, threshold: 1 } } } ]); this.testClient = new TestClient(mapConfig); const options = { aggregation: false }; this.testClient.getLayergroup(options, (err, body) => { if (err) { return done(err); } assert.equal(typeof body.metadata, 'object'); assert.ok(Array.isArray(body.metadata.layers)); body.metadata.layers.forEach(layer => assert.equal(layer.meta.aggregation, undefined)); done(); }); }); it('skip default aggregation by setting `aggregation: false` for just one layer', function (done) { const mapConfig = createVectorMapConfig([ { type: 'cartodb', options: { sql: POINTS_SQL_1, aggregation: { threshold: 1 } } }, { type: 'cartodb', options: { sql: POINTS_SQL_2, aggregation: false } } ]); this.testClient = new TestClient(mapConfig); this.testClient.getLayergroup((err, body) => { if (err) { return done(err); } assert.equal(typeof body.metadata, 'object'); assert.ok(Array.isArray(body.metadata.layers)); assert.equal(body.metadata.layers[0].meta.aggregation.mvt, true); assert.equal(body.metadata.layers[1].meta.aggregation.mvt, false); done(); }); }); it('when the aggregation param is not valid should respond with error', function (done) { const mapConfig = createVectorMapConfig([ { type: 'cartodb', options: { sql: POINTS_SQL_1, aggregation: { threshold: 1 } } } ]); this.testClient = new TestClient(mapConfig); const options = { response: { status: 400 }, aggregation: 'wadus' }; this.testClient.getLayergroup(options, (err, body) => { if (err) { return done(err); } assert.deepEqual(body, { errors: [ "Invalid value for 'aggregation' query param: wadus." + " Valid ones are 'true' or 'false'" ], errors_with_context:[{ type: 'unknown', message: "Invalid value for 'aggregation' query param: wadus." + " Valid ones are 'true' or 'false'" }] }); done(); }); }); it('when the layer\'s row count is lower than threshold should skip aggregation', function (done) { const mapConfig = createVectorMapConfig([ { type: 'cartodb', options: { sql: POINTS_SQL_1, aggregation: { columns: { total: { aggregate_function: 'sum', aggregated_column: 'value' } }, threshold: 1001 } } } ]); this.testClient = new TestClient(mapConfig); const options = {}; this.testClient.getLayergroup(options, (err, body) => { if (err) { return done(err); } assert.equal(typeof body.metadata, 'object'); assert.ok(Array.isArray(body.metadata.layers)); body.metadata.layers.forEach(layer =>{ assert.deepEqual(layer.meta.aggregation, { png: false, mvt: false }); }); done(); }); }); it('when the layer\'s geometry type is not point should respond with error', function (done) { const mapConfig = createVectorMapConfig([ { type: 'cartodb', options: { sql: POLYGONS_SQL_1, cartocss: '#layer { marker-width: [value]; }', cartocss_version: '2.3.0', aggregation: { threshold: 1 } } } ]); this.testClient = new TestClient(mapConfig); const options = { response: { status: 400 } }; this.testClient.getLayergroup(options, (err, body) => { if (err) { return done(err); } assert.deepEqual(body, { errors: [ 'Unsupported geometry type: ST_Polygon.' + ' Aggregation is available only for geometry type: ST_Point' ], errors_with_context:[{ type: 'layer', message: 'Unsupported geometry type: ST_Polygon.' + ' Aggregation is available only for geometry type: ST_Point', layer: { id: 'layer0', index: 0, type: 'mapnik' } }] }); done(); }); }); it('when sql_wrap is provided should return a layergroup', function (done) { this.mapConfig = createVectorMapConfig([ { type: 'cartodb', options: { sql_wrap: SQL_WRAP, sql: POINTS_SQL_1, aggregation: { threshold: 1 }, cartocss: TURBO_CARTOCSS_SQL_WRAP, cartocss_version: '3.0.12' } } ]); this.testClient = new TestClient(this.mapConfig); this.testClient.getLayergroup((err, body) => { if (err) { return done(err); } assert.equal(typeof body.metadata, 'object'); assert.ok(Array.isArray(body.metadata.layers)); body.metadata.layers.forEach(layer => assert.ok(layer.meta.aggregation.mvt)); body.metadata.layers.forEach(layer => assert.ok(layer.meta.aggregation.png)); done(); }); }); it('when sql_wrap is provided should return a tile', function (done) { this.mapConfig = createVectorMapConfig([ { type: 'cartodb', options: { sql_wrap: SQL_WRAP, sql: POINTS_SQL_1, aggregation: { threshold: 1 }, cartocss: TURBO_CARTOCSS_SQL_WRAP, cartocss_version: '3.0.12' } } ]); this.testClient = new TestClient(this.mapConfig); this.testClient.getTile(0, 0, 0, {}, (err) => { if (err) { return done(err); } done(); }); }); it('when dimensions is provided should return a tile returning the column used as dimensions', function (done) { this.mapConfig = createVectorMapConfig([ { type: 'cartodb', options: { sql: POINTS_SQL_1, aggregation: { threshold: 1, dimensions: { value: "value" } } } } ]); this.testClient = new TestClient(this.mapConfig); const options = { format: 'mvt' }; this.testClient.getTile(0, 0, 0, options, (err, res, tile) => { if (err) { return done(err); } const tileJSON = tile.toJSON(); tileJSON[0].features.forEach(feature => assert.equal(typeof feature.properties.value, 'number')); done(); }); }); ['centroid', 'point-sample', 'point-grid'].forEach(placement => { it(`dimensions should work for ${placement} placement`, function(done) { this.mapConfig = createVectorMapConfig([ { type: 'cartodb', options: { sql: POINTS_SQL_1, aggregation: { placement: placement , threshold: 1, dimensions: { value: "value" } } } } ]); this.testClient = new TestClient(this.mapConfig); const options = { format: 'mvt' }; this.testClient.getTile(0, 0, 0, options, (err, res, tile) => { if (err) { return done(err); } const tileJSON = tile.toJSON(); tileJSON[0].features.forEach( feature => assert.equal(typeof feature.properties.value, 'number') ); done(); }); }); }); it(`dimensions should trigger non-default aggregation`, function(done) { this.mapConfig = createVectorMapConfig([ { type: 'cartodb', options: { sql: POINTS_SQL_2, aggregation: { threshold: 1, dimensions: { value: "value" } } } } ]); this.testClient = new TestClient(this.mapConfig); const options = { format: 'mvt' }; this.testClient.getTile(0, 0, 0, options, (err, res, tile) => { if (err) { return done(err); } const tileJSON = tile.toJSON(); tileJSON[0].features.forEach( feature => assert.equal(typeof feature.properties.value, 'number') ); tileJSON[0].features.forEach( feature => assert.equal(typeof feature.properties.sqrt_value, 'undefined') ); done(); }); }); it(`aggregation columns should trigger non-default aggregation`, function(done) { this.mapConfig = createVectorMapConfig([ { type: 'cartodb', options: { sql: POINTS_SQL_2, aggregation: { threshold: 1, columns: { value: { aggregate_function: 'sum', aggregated_column: 'value' } } } } } ]); this.testClient = new TestClient(this.mapConfig); const options = { format: 'mvt' }; this.testClient.getTile(0, 0, 0, options, (err, res, tile) => { if (err) { return done(err); } const tileJSON = tile.toJSON(); tileJSON[0].features.forEach( feature => assert.equal(typeof feature.properties.value, 'number') ); tileJSON[0].features.forEach( feature => assert.equal(typeof feature.properties.sqrt_value, 'undefined') ); done(); }); }); ['centroid', 'point-sample', 'point-grid'].forEach(placement => { it(`aggregations with base column names should work for ${placement} placement`, function(done) { this.mapConfig = createVectorMapConfig([ { type: 'cartodb', options: { sql: POINTS_SQL_1, aggregation: { placement: placement , threshold: 1, columns: { value: { aggregate_function: 'sum', aggregated_column: 'value' } } } } } ]); this.testClient = new TestClient(this.mapConfig); const options = { format: 'mvt' }; this.testClient.getTile(0, 0, 0, options, (err, res, tile) => { if (err) { return done(err); } const tileJSON = tile.toJSON(); tileJSON[0].features.forEach( feature => assert.equal(typeof feature.properties.value, 'number') ); done(); }); }); }); it('should work when the sql has single quotes', function (done) { this.mapConfig = createVectorMapConfig([ { type: 'cartodb', options: { sql: ` SELECT cartodb_id, the_geom_webmercator, the_geom, value, DATE_PART('day', date::timestamp - '1912-12-31 01:00:00'::timestamp )::numeric AS day FROM (${POINTS_SQL_TIMESTAMP_1}) _query `, aggregation: { threshold: 1 } } } ]); this.testClient = new TestClient(this.mapConfig); this.testClient.getLayergroup((err, body) => { if (err) { return done(err); } assert.equal(typeof body.metadata, 'object'); assert.ok(Array.isArray(body.metadata.layers)); body.metadata.layers.forEach(layer => assert.ok(layer.meta.aggregation.mvt)); body.metadata.layers.forEach(layer => assert.ok(!layer.meta.aggregation.png)); done(); }); }); it('aggregates with point-grid placement', function (done) { this.mapConfig = createVectorMapConfig([ { type: 'cartodb', options: { sql: POINTS_SQL_1, aggregation: { placement: 'point-grid', columns: { total: { aggregate_function: 'sum', aggregated_column: 'value' }, v_avg: { aggregate_function: 'avg', aggregated_column: 'value' } }, threshold: 1 }, cartocss: '#layer { marker-width: [total]; }', cartocss_version: '2.3.0' } } ]); this.testClient = new TestClient(this.mapConfig); this.testClient.getLayergroup((err, body) => { if (err) { return done(err); } assert.equal(typeof body.metadata, 'object'); assert.ok(Array.isArray(body.metadata.layers)); body.metadata.layers.forEach(layer => assert.ok(layer.meta.aggregation.mvt)); body.metadata.layers.forEach(layer => assert.ok(layer.meta.aggregation.png)); done(); }); }); it('aggregates with point-sample placement', function (done) { this.mapConfig = createVectorMapConfig([ { type: 'cartodb', options: { sql: POINTS_SQL_1, aggregation: { placement: 'point-sample', columns: { total: { aggregate_function: 'sum', aggregated_column: 'value' }, v_avg: { aggregate_function: 'avg', aggregated_column: 'value' } }, threshold: 1 }, cartocss: '#layer { marker-width: [total]; }', cartocss_version: '2.3.0' } } ]); this.testClient = new TestClient(this.mapConfig); this.testClient.getLayergroup((err, body) => { if (err) { return done(err); } assert.equal(typeof body.metadata, 'object'); assert.ok(Array.isArray(body.metadata.layers)); body.metadata.layers.forEach(layer => assert.ok(layer.meta.aggregation.mvt)); body.metadata.layers.forEach(layer => assert.ok(layer.meta.aggregation.png)); done(); }); }); it('aggregates with centroid placement', function (done) { this.mapConfig = createVectorMapConfig([ { type: 'cartodb', options: { sql: POINTS_SQL_1, aggregation: { placement: 'centroid', columns: { total: { aggregate_function: 'sum', aggregated_column: 'value' }, v_avg: { aggregate_function: 'avg', aggregated_column: 'value' } }, threshold: 1 }, cartocss: '#layer { marker-width: [total]; }', cartocss_version: '2.3.0' } } ]); this.testClient = new TestClient(this.mapConfig); this.testClient.getLayergroup((err, body) => { if (err) { return done(err); } assert.equal(typeof body.metadata, 'object'); assert.ok(Array.isArray(body.metadata.layers)); body.metadata.layers.forEach(layer => assert.ok(layer.meta.aggregation.mvt)); body.metadata.layers.forEach(layer => assert.ok(layer.meta.aggregation.png)); done(); }); }); it('aggregates with full-sample placement by default', function (done) { this.mapConfig = createVectorMapConfig([ { type: 'cartodb', options: { sql: POINTS_SQL_1, resolution: 256, aggregation: { threshold: 1 } } } ]); this.testClient = new TestClient(this.mapConfig); this.testClient.getTile(0, 0, 0, { format: 'mvt' }, function (err, res, mvt) { if (err) { return done(err); } const geojsonTile = JSON.parse(mvt.toGeoJSONSync(0)); assert.ok(Array.isArray(geojsonTile.features)); assert.ok(geojsonTile.features.length > 0); const feature = geojsonTile.features[0]; assert.ok(feature.properties.hasOwnProperty('value'), 'Missing value property'); done(); }); }); it('should fail with bad resolution', function (done) { this.mapConfig = createVectorMapConfig([ { id: 'wadus', type: 'cartodb', options: { sql: POINTS_SQL_1, aggregation: { resolution: 'wadus', } } } ]); this.testClient = new TestClient(this.mapConfig); const options = { response: { status: 400 } }; this.testClient.getLayergroup(options, (err, body) => { if (err) { return done(err); } assert.deepEqual(body, { errors: [ 'Invalid resolution, should be a number greather than 0' ], errors_with_context:[{ type: 'layer', message: 'Invalid resolution, should be a number greather than 0', layer: { "id": "wadus", "index": 0, "type": "mapnik" } }] }); done(); }); }); it('should fail with bad placement', function (done) { this.mapConfig = createVectorMapConfig([ { type: 'cartodb', options: { sql: POINTS_SQL_1, aggregation: { placement: 'wadus', } } } ]); this.testClient = new TestClient(this.mapConfig); const options = { response: { status: 400 } }; this.testClient.getLayergroup(options, (err, body) => { if (err) { return done(err); } assert.deepEqual(body, { errors: [ 'Invalid placement. Valid values: centroid, point-grid, point-sample'], errors_with_context:[{ type: 'layer', message: 'Invalid placement. Valid values: centroid, point-grid, point-sample', layer: { id: "layer0", index: 0, type: "mapnik", } }] }); done(); }); }); it('should fail with bad threshold', function (done) { this.mapConfig = createVectorMapConfig([ { type: 'cartodb', options: { sql: POINTS_SQL_1, aggregation: { threshold: 'wadus', } } } ]); this.testClient = new TestClient(this.mapConfig); const options = { response: { status: 400 } }; this.testClient.getLayergroup(options, (err, body) => { if (err) { return done(err); } assert.deepEqual(body, { errors: [ 'Invalid threshold, should be a number greather than 0' ], errors_with_context:[{ type: 'layer', message: 'Invalid threshold, should be a number greather than 0', layer: { "id": "layer0", "index": 0, "type": "mapnik" } }] }); done(); }); }); it('should fail with bad column name', function (done) { this.mapConfig = createVectorMapConfig([ { type: 'cartodb', options: { sql: POINTS_SQL_1, aggregation: { columns : { '': { aggregate_function: 'count', aggregated_column: 'value', } }, } } } ]); this.testClient = new TestClient(this.mapConfig); const options = { response: { status: 400 } }; this.testClient.getLayergroup(options, (err, body) => { if (err) { return done(err); } assert.deepEqual(body, { errors: [ 'Invalid column name, should be a non empty string' ], errors_with_context:[{ type: 'layer', message: 'Invalid column name, should be a non empty string', layer: { "id": "layer0", "index": 0, "type": "mapnik" } }] }); done(); }); }); it('should fail with bad aggregated function', function (done) { this.mapConfig = createVectorMapConfig([ { type: 'cartodb', options: { sql: POINTS_SQL_1, aggregation: { columns : { 'wadus_function': { aggregate_function: 'wadus', aggregated_column: 'value', } }, } } } ]); this.testClient = new TestClient(this.mapConfig); const options = { response: { status: 400 } }; this.testClient.getLayergroup(options, (err, body) => { if (err) { return done(err); } assert.deepEqual(body, { errors: [ 'Unsupported aggregation function wadus, ' + 'valid ones: count, avg, sum, min, max, mode' ], errors_with_context:[{ type: 'layer', message: 'Unsupported aggregation function wadus, ' + 'valid ones: count, avg, sum, min, max, mode', layer: { "id": "layer0", "index": 0, "type": "mapnik" } }] }); done(); }); }); it('should fail with bad aggregated columns', function (done) { this.mapConfig = createVectorMapConfig([ { type: 'cartodb', options: { sql: POINTS_SQL_1, aggregation: { columns : { 'total_wadus': { aggregate_function: 'sum', aggregated_column: '', } }, } } } ]); this.testClient = new TestClient(this.mapConfig); const options = { response: { status: 400 } }; this.testClient.getLayergroup(options, (err, body) => { if (err) { return done(err); } assert.deepEqual(body, { errors: [ 'Invalid aggregated column, should be a non empty string' ], errors_with_context:[{ type: 'layer', message: 'Invalid aggregated column, should be a non empty string', layer: { "id": "layer0", "index": 0, "type": "mapnik" } }] }); done(); }); }); it('should skip aggregation w/o failing when is Vector Only MapConfig and layer has polygons', function (done) { this.mapConfig = createVectorMapConfig([ { type: 'cartodb', options: { sql: POLYGONS_SQL_1 } } ]); this.testClient = new TestClient(this.mapConfig); this.testClient.getLayergroup((err, body) => { if (err) { return done(err); } assert.equal(typeof body.metadata, 'object'); assert.ok(Array.isArray(body.metadata.layers)); body.metadata.layers.forEach(layer => assert.ok(!layer.meta.aggregation.mvt)); body.metadata.layers.forEach(layer => assert.ok(!layer.meta.aggregation.png)); const options = { format: 'mvt' }; this.testClient.getTile(0, 0, 0, options, (err, res, tile) => { if (err) { return done(err); } const tileJSON = tile.toJSON(); assert.equal(tileJSON[0].features.length, 7); done(); }); }); }); it('should skip aggregation for polygons (w/o failing) and aggregate when the layer has points', function (done) { this.mapConfig = createVectorMapConfig([ { type: 'cartodb', options: { sql: POLYGONS_SQL_1 } }, { type: 'cartodb', options: { sql: POINTS_SQL_1, aggregation: { threshold: 1 } } } ]); this.testClient = new TestClient(this.mapConfig); this.testClient.getLayergroup((err, body) => { if (err) { return done(err); } assert.equal(typeof body.metadata, 'object'); assert.ok(Array.isArray(body.metadata.layers)); assert.equal(body.metadata.layers[0].meta.aggregation.mvt, false); assert.equal(body.metadata.layers[1].meta.aggregation.mvt, true); const options = { format: 'mvt' }; this.testClient.getTile(0, 0, 0, options, (err, res, tile) => { if (err) { return done(err); } const tileJSON = tile.toJSON(); assert.equal(tileJSON[0].features.length, 7); done(); }); }); }); ['centroid', 'point-sample', 'point-grid'].forEach(placement => { it(`cartodb_id should be present in ${placement} aggregation`, function(done) { this.mapConfig = createVectorMapConfig([ { type: 'cartodb', options: { sql: POINTS_SQL_1, aggregation: { placement: placement, threshold: 1 }, cartocss: '#layer { marker-width: 1; }', cartocss_version: '2.3.0', interactivity: ['cartodb_id'] } } ]); this.testClient = new TestClient(this.mapConfig); this.testClient.getLayergroup((err, body) => { if (err) { return done(err); } assert.equal(typeof body.metadata, 'object'); assert.ok(Array.isArray(body.metadata.layers)); body.metadata.layers.forEach(layer => assert.ok(layer.meta.aggregation.mvt)); body.metadata.layers.forEach(layer => assert.ok(layer.meta.aggregation.png)); done(); }); }); }); it('should only require the_geom_webmercator for aggregation', function (done) { this.mapConfig = createVectorMapConfig([ { type: 'cartodb', options: { sql: POINTS_SQL_ONLY_WEBMERCATOR, aggregation: { threshold: 1 } } } ]); this.testClient = new TestClient(this.mapConfig); this.testClient.getLayergroup((err, body) => { if (err) { return done(err); } assert.equal(typeof body.metadata, 'object'); assert.ok(Array.isArray(body.metadata.layers)); body.metadata.layers.forEach(layer => assert.ok(layer.meta.aggregation.mvt)); body.metadata.layers.forEach(layer => assert.ok(!layer.meta.aggregation.png)); done(); }); }); it('aggregation should work with attributes', function (done) { this.mapConfig = createVectorMapConfig([ { type: 'cartodb', options: { sql: POINTS_SQL_1, cartocss: '#layer { marker-width: 7; }', cartocss_version: '2.3.0', aggregation: { threshold: 1 }, attributes: { id: 'cartodb_id', columns: [ 'value' ] } } } ]); this.testClient = new TestClient(this.mapConfig); this.testClient.getLayergroup((err, body) => { if (err) { return done(err); } assert.equal(typeof body.metadata, 'object'); assert.ok(Array.isArray(body.metadata.layers)); body.metadata.layers.forEach(layer => assert.ok(layer.meta.aggregation.mvt)); body.metadata.layers.forEach(layer => assert.ok(layer.meta.aggregation.png)); done(); }); }); }); }); });