Merge branch 'separate-app-and-controllers-creation' into separate-routers

This commit is contained in:
Daniel García Aubert 2018-04-10 15:59:05 +02:00
commit bc45b50290
16 changed files with 1110 additions and 54 deletions

10
NEWS.md
View File

@ -1,8 +1,16 @@
# Changelog
## 6.0.1
## 6.1.0
Released 2018-mm-dd
New features:
- Aggreation filters
Bug Fixes:
- Non-default aggregation selected the wrong columns (e.g. for vector tiles)
- Aggregation dimensions with alias where broken
- cartodb_id was not unique accross aggregated vector tiles
## 6.0.0
Released 2018-03-19
Backward incompatible changes:

View File

@ -29,7 +29,7 @@ The value of this attribute can be `false` to explicitly disable aggregation for
// object, defines the columns of the aggregated datasets. Each property corresponds to a columns name and
// should contain an object with two properties: "aggregate_function" (one of "sum", "max", "min", "avg", "mode" or "count"),
// and "aggregated_column" (the name of a column of the original layer query or "*")
// A column defined as `"_cdb_features_count": {"aggregate_function": "count", aggregated_column: "*"}`
// A column defined as `"_cdb_feature_count": {"aggregate_function": "count", aggregated_column: "*"}`
// is always generated in addition to the defined columns.
// The column names `cartodb_id`, `the_geom`, `the_geom_webmercator` and `_cdb_feature_count` cannot be used
// for aggregated columns, as they correspond to columns always present in the result.

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@ -10,7 +10,7 @@ Aggregation is available only for point geometries. During aggregation the point
When no placement or columns are specified a special default aggregation is performed.
This special mode performs only spatial aggregation (using a grid defined by the requested tile and the resolution, parameter, as all the other cases), and returns a _random_ record from each group (grid cell) with all its columns and an additional `_cdb_features_count` with the number of features in the group.
This special mode performs only spatial aggregation (using a grid defined by the requested tile and the resolution, parameter, as all the other cases), and returns a _random_ record from each group (grid cell) with all its columns and an additional `_cdb_feature_count` with the number of features in the group.
Regarding the randomness of the sample: currently we use the row with the minimum `cartodb_id` value in each group.
@ -18,7 +18,7 @@ The rationale behind having this special aggregation with all the original colum
### User defined aggregations
When either a explicit placement or columns are requested we no longer use the special, query; we use one determined by the placement (which will default to "centroid"), and it will have as columns only the aggregated columns specified, in addition to `_cdb_features_count`, which is always present.
When either a explicit placement or columns are requested we no longer use the special, query; we use one determined by the placement (which will default to "centroid"), and it will have as columns only the aggregated columns specified, in addition to `_cdb_feature_count`, which is always present.
We might decide in the future to allow sampling column values for any of the different placement modes.
@ -185,3 +185,80 @@ This is the minimum number of (estimated) rows in the dataset (query results) fo
]
}
```
### `filters`
Aggregated data can be filtered by imposing filtering conditions on the aggregated columns.
Each condition is represented by one or more parameters:
* `{ "equal": V }` selects an specific value of the aggregated column.
* `{ "not_equal": V }` selects values different from the one specified.
* `{ "in": [v1, v2, v3] }` selects any value from a list.
* `{ "not_in": [v1, v2, v3] }` selects any value not in a list.
* `{ "less_than": v }` selects values strictly less than the one given.
* `{ "less_than_or_equal_to": v }` selects values less than or equal to the one given.
* `{ "greater_than": v }` selects values strictly greater than the one given.
* `{ "greater_than_or_equal_to": v }` selects values greater than or equal to the one given.
One of the *less* conditions can be combined with one of the *greater* conditions to select a range of values, for example:
* `{ "greater_than": v1, "less_than": v2 }`
* `{ "greater_than_or_equal_to": v1, "less_than": v2 }`
* `{ "greater_than": v1, "less_than_or_equal_to": v2 }`
* `{ "greater_than_or_equal_to": v1, "less_than_or_equal_to": v2 }`
For a given column, multiple conditions can be passed in an array; the conditions will logically ORed (any of the conditions have to be verifid for the value to be selected):
* `"myvalue": [ { "equal": 10 }, { "less_than": 0 }]` will select values of the column `myvalue` which are equal to 10 **or** less than 0.
In addition, the filters applied to different columns are logically combined with AND (all the conditions have to be satisfied for an element to be selected); for example with the following `filters` parameter we'll select aggregated records which have a `total_value` > 100 **and** a category equal to "a".
```json
{
"total_value": { "greater_than": 100 },
"category": { "equal": "a" }
}
```
Note that the filtered columns have to be defined with the `columns` parameter, except for `_cdb_feature_count`, which is always implicitly defined and can be filtered too.
#### Example
```json
{
"version": "1.7.0",
"extent": [-20037508.5, -20037508.5, 20037508.5, 20037508.5],
"srid": 3857,
"maxzoom": 18,
"minzoom": 3,
"layers": [
{
"type": "mapnik",
"options": {
"sql": "select * from table",
"cartocss": "#table { marker-width: [total]; marker-fill: ramp(value, (red, green, blue), jenks); }",
"cartocss_version": "2.3.0",
"aggregation": {
"placement": "centroid",
"columns": {
"total_value": {
"aggregate_function": "sum",
"aggregated_column": "value"
},
"category": {
"aggregate_function": "mode",
"aggregated_column": "category"
}
},
"filters" : {
"total_value": { "greater_than": 100 },
"category": { "equal": "a" }
},
"resolution": 2,
"threshold": 500000
}
}
}
]
}
```

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@ -109,7 +109,7 @@ AuthApi.prototype.authorizedByAPIKey = function(user, res, callback) {
return callback(error);
}
return callback(null, true);
return callback(null, true, apikey);
});
};

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@ -3,7 +3,7 @@ module.exports = function setLastUpdatedTimeToLayergroup () {
const { mapConfigProvider, analysesResults } = res.locals;
const layergroup = res.body;
mapConfigProvider.getAffectedTables((err, affectedTables) => {
mapConfigProvider.createAffectedTables((err, affectedTables) => {
if (err) {
return next(err);
}

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@ -79,7 +79,7 @@ function authorizedByAPIKey ({ authApi, action, label }) {
return function authorizedByAPIKeyMiddleware (req, res, next) {
const { user } = res.locals;
authApi.authorizedByAPIKey(user, res, (err, authenticated) => {
authApi.authorizedByAPIKey(user, res, (err, authenticated, apikey) => {
if (err) {
return next(err);
}
@ -91,6 +91,15 @@ function authorizedByAPIKey ({ authApi, action, label }) {
return next(error);
}
if (apikey.type !== 'master') {
const error = new Error('Forbidden');
error.type = 'auth';
error.subtype = 'api-key-does-not-grant-access';
error.http_status = 403;
return next(error);
}
next();
});
};

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@ -153,7 +153,7 @@ function getStaticImageOptions ({ tablesExtentApi }) {
res.locals.imageOpts = DEFAULT_ZOOM_CENTER;
mapConfigProvider.getAffectedTables((err, affectedTables) => {
mapConfigProvider.createAffectedTables((err, affectedTables) => {
if (err) {
return next();
}

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@ -4,7 +4,8 @@ const aggregationValidator = require('./aggregation-validator');
const {
createPositiveNumberValidator,
createIncludesValueValidator,
createAggregationColumnsValidator
createAggregationColumnsValidator,
createAggregationFiltersValidator
} = aggregationValidator;
const SubstitutionTokens = require('../../utils/substitution-tokens');
@ -43,6 +44,18 @@ module.exports = class AggregationMapConfig extends MapConfig {
];
}
static get FILTER_PARAMETERS () {
return [
// TODO: valid combinations of parameters:
// * Except for less/greater params, only one parameter allowed per filter.
// * Any less parameter can be combined with one of the greater paramters. (to define a range)
'less_than', 'less_than_or_equal_to',
'greater_than', 'greater_than_or_equal_to',
'equal', 'not_equal',
'between', 'in', 'not_in'
];
}
static supportsGeometryType(geometryType) {
return AggregationMapConfig.SUPPORTED_GEOMETRY_TYPES.includes(geometryType);
}
@ -58,11 +71,15 @@ module.exports = class AggregationMapConfig extends MapConfig {
const positiveNumberValidator = createPositiveNumberValidator(this);
const includesValidPlacementsValidator = createIncludesValueValidator(this, AggregationMapConfig.PLACEMENTS);
const aggregationColumnsValidator = createAggregationColumnsValidator(this, AggregationMapConfig.AGGREGATIONS);
const aggregationFiltersValidator = createAggregationFiltersValidator(
this, AggregationMapConfig.FILTER_PARAMETERS
);
validate('resolution', positiveNumberValidator);
validate('placement', includesValidPlacementsValidator);
validate('threshold', positiveNumberValidator);
validate('columns', aggregationColumnsValidator);
validate('filters', aggregationFiltersValidator);
this.user = user;
this.pgConnection = connection;
@ -77,7 +94,8 @@ module.exports = class AggregationMapConfig extends MapConfig {
threshold = AggregationMapConfig.THRESHOLD,
placement,
columns = {},
dimensions = {}
dimensions = {},
filters = {}
} = this.getAggregation(index);
return aggregationQuery({
@ -87,6 +105,7 @@ module.exports = class AggregationMapConfig extends MapConfig {
placement,
columns,
dimensions,
filters,
isDefaultAggregation: this._isDefaultLayerAggregation(index)
});
}
@ -152,21 +171,19 @@ module.exports = class AggregationMapConfig extends MapConfig {
_getLayerAggregationRequiredColumns (index) {
const { columns, dimensions } = this.getAggregation(index);
let finalColumns = ['cartodb_id', '_cdb_feature_count'];
let aggregatedColumns = [];
if (columns) {
aggregatedColumns = Object.keys(columns)
.map(key => columns[key].aggregated_column)
.filter(aggregatedColumn => typeof aggregatedColumn === 'string');
aggregatedColumns = Object.keys(columns);
}
let dimensionsColumns = [];
if (dimensions) {
dimensionsColumns = Object.keys(dimensions)
.map(key => dimensions[key])
.filter(dimension => typeof dimension === 'string');
dimensionsColumns = Object.keys(dimensions);
}
return removeDuplicates(aggregatedColumns.concat(dimensionsColumns));
return removeDuplicates(finalColumns.concat(aggregatedColumns).concat(dimensionsColumns));
}
doesLayerReachThreshold(index, featureCount) {
@ -220,7 +237,8 @@ module.exports = class AggregationMapConfig extends MapConfig {
_isDefaultAggregation (aggregation) {
return aggregation.placement === undefined &&
aggregation.columns === undefined &&
this._isEmptyParameter(aggregation.dimensions);
this._isEmptyParameter(aggregation.dimensions) &&
this._isEmptyParameter(aggregation.filters);
}
_isEmptyParameter(parameter) {

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@ -42,7 +42,8 @@ const queryForOptions = (options) => templateForOptions(options)({
sourceQuery: options.query,
res: 256/options.resolution,
columns: options.columns,
dimensions: options.dimensions
dimensions: options.dimensions,
filters: options.filters
});
module.exports = queryForOptions;
@ -93,20 +94,23 @@ const aggregateColumnNames = (ctx, table) => {
return sep(Object.keys(columns));
};
const aggregateColumnDefs = ctx => {
let columns = aggregateColumns(ctx);
return sep(Object.keys(columns).map(column_name => {
const aggregate_function = columns[column_name].aggregate_function || 'count';
const aggregateExpression = (column_name, column_parameters) => {
const aggregate_function = column_parameters.aggregate_function || 'count';
const aggregate_definition = SUPPORTED_AGGREGATE_FUNCTIONS[aggregate_function];
if (!aggregate_definition) {
throw new Error("Invalid Aggregate function: '" + aggregate_function + "'");
}
const aggregate_expression = aggregate_definition.sql(column_name, columns[column_name]);
return aggregate_definition.sql(column_name, column_parameters);
};
const aggregateColumnDefs = ctx => {
let columns = aggregateColumns(ctx);
return sep(Object.keys(columns).map(column_name => {
const aggregate_expression = aggregateExpression(column_name, columns[column_name]);
return `${aggregate_expression} AS ${column_name}`;
}));
};
const aggregateDimensions = ctx => ctx.dimensions || {};
const dimensionNames = (ctx, table) => {
@ -127,6 +131,111 @@ const dimensionDefs = ctx => {
}));
};
const aggregateFilters = ctx => ctx.filters || {};
const filterConditionSQL = (expr, filter) => {
// TODO: validate filter parameters (e.g. cannot have both greater_than and greater_than or equal to)
if (filter) {
if (!Array.isArray(filter)) {
filter = [filter];
}
if (filter.length > 0) {
return filter.map(f => filterSingleConditionSQL(expr, f)).join(' OR ');
}
}
};
const filterSingleConditionSQL = (expr, filter) => {
let cond;
Object.keys(FILTERS).some(f => {
cond = FILTERS[f](expr, filter);
return cond;
});
return cond;
};
const sqlQ = (value) => {
if (isFinite(value)) {
return String(value);
}
return `'${value}'`; // TODO: escape single quotes! (by doubling them)
};
/* jshint eqeqeq: false */
/* x != null is used to check for both null and undefined; triple !== wouldn't do the trick */
const FILTERS = {
between: (expr, filter) => {
const lo = filter.greater_than_or_equal_to, hi = filter.less_than_or_equal_to;
if (lo != null && hi != null) {
return `(${expr} BETWEEN ${sqlQ(lo)} AND ${sqlQ(hi)})`;
}
},
in: (expr, filter) => {
if (filter.in != null) {
return `(${expr} IN (${filter.in.map(v => sqlQ(v)).join(',')}))`;
}
},
notin: (expr, filter) => {
if (filter.not_in != null) {
return `(${expr} NOT IN (${filter.not_in.map(v => sqlQ(v)).join(',')}))`;
}
},
equal: (expr, filter) => {
if (filter.equal != null) {
return `(${expr} = ${sqlQ(filter.equal)})`;
}
},
not_equal: (expr, filter) => {
if (filter.not_equal != null) {
return `(${expr} <> ${sqlQ(filter.not_equal)})`;
}
},
range: (expr, filter) => {
let conds = [];
if (filter.greater_than_or_equal_to != null) {
conds.push(`(${expr} >= ${sqlQ(filter.greater_than_or_equal_to)})`);
}
if (filter.greater_than != null) {
conds.push(`(${expr} > ${sqlQ(filter.greater_than)})`);
}
if (filter.less_than_or_equal_to != null) {
conds.push(`(${expr} <= ${sqlQ(filter.less_than_or_equal_to)})`);
}
if (filter.less_than != null) {
conds.push(`(${expr} < ${sqlQ(filter.less_than)})`);
}
if (conds.length > 0) {
return conds.join(' AND ');
}
}
};
const filterConditions = ctx => {
let columns = aggregateColumns(ctx);
let dimensions = aggregateDimensions(ctx);
let filters = aggregateFilters(ctx);
return Object.keys(filters).map(filtered_column => {
let filtered_expr;
if (columns[filtered_column]) {
filtered_expr = aggregateExpression(filtered_column, columns[filtered_column]);
}
else if (dimensions[filtered_column]) {
filtered_expr = dimensions[filtered_column];
}
if (!filtered_expr) {
throw new Error("Invalid filtered column: '" + filtered_column + "'");
}
return filterConditionSQL(filtered_expr, filters[filtered_column]);
}).join(' AND ');
};
const havingClause = ctx => {
let cond = filterConditions(ctx);
return cond ? `HAVING ${cond}` : '';
};
// SQL expression to compute the aggregation resolution (grid cell size).
// This is equivalent to `${256/ctx.res}*CDB_XYZ_Resolution(CDB_ZoomFromScale(!scale_denominator!))`
// This is defined by the ctx.res parameter, which is the number of grid cells per tile linear dimension
@ -181,7 +290,7 @@ const aggregationQueryTemplates = {
!bbox! AS bbox
)
SELECT
row_number() over() AS cartodb_id,
MIN(_cdb_query.cartodb_id) AS cartodb_id,
ST_SetSRID(
ST_MakePoint(
AVG(ST_X(_cdb_query.the_geom_webmercator)),
@ -196,6 +305,7 @@ const aggregationQueryTemplates = {
Floor(ST_X(_cdb_query.the_geom_webmercator)/_cdb_params.res),
Floor(ST_Y(_cdb_query.the_geom_webmercator)/_cdb_params.res)
${dimensionNames(ctx)}
${havingClause(ctx)}
`,
'point-grid': ctx => `
@ -207,6 +317,7 @@ const aggregationQueryTemplates = {
),
_cdb_clusters AS (
SELECT
MIN(_cdb_query.cartodb_id) AS cartodb_id,
Floor(ST_X(_cdb_query.the_geom_webmercator)/_cdb_params.res)::int AS _cdb_gx,
Floor(ST_Y(_cdb_query.the_geom_webmercator)/_cdb_params.res)::int AS _cdb_gy
${dimensionDefs(ctx)}
@ -214,9 +325,10 @@ const aggregationQueryTemplates = {
FROM (${ctx.sourceQuery}) _cdb_query, _cdb_params
WHERE the_geom_webmercator && _cdb_params.bbox
GROUP BY _cdb_gx, _cdb_gy ${dimensionNames(ctx)}
${havingClause(ctx)}
)
SELECT
row_number() over() AS cartodb_id,
_cdb_clusters.cartodb_id AS cartodb_id,
ST_SetSRID(ST_MakePoint((_cdb_gx+0.5)*res, (_cdb_gy+0.5)*res), 3857) AS the_geom_webmercator
${dimensionNames(ctx)}
${aggregateColumnNames(ctx)}
@ -241,11 +353,12 @@ const aggregationQueryTemplates = {
Floor(ST_X(_cdb_query.the_geom_webmercator)/_cdb_params.res),
Floor(ST_Y(_cdb_query.the_geom_webmercator)/_cdb_params.res)
${dimensionNames(ctx)}
${havingClause(ctx)}
)
SELECT
_cdb_clusters.cartodb_id,
the_geom, the_geom_webmercator
${dimensionNames(ctx, '_cdb_query')}
${dimensionNames(ctx, '_cdb_clusters')}
${aggregateColumnNames(ctx, '_cdb_clusters')}
FROM
_cdb_clusters INNER JOIN (${ctx.sourceQuery}) _cdb_query

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@ -42,6 +42,38 @@ module.exports.createAggregationColumnsValidator = function (mapconfig, validAgg
};
};
module.exports.createAggregationFiltersValidator = function (mapconfig, validParameters) {
return function validateAggregationFilters (value, key, index) {
const dims = mapconfig.getAggregation(index).dimensions || {};
const cols = mapconfig.getAggregation(index).columns || {};
const validKeys = Object.keys(dims).concat(Object.keys(cols));
Object.keys(value).forEach((filteredName) => {
// filteredName must be the name of either an aggregated column or a dimension in the same layer
if (!validKeys.includes(filteredName)) {
const message = `Invalid filtered column: ${filteredName}`;
throw createLayerError(message, mapconfig, index);
}
// The filter parameters must be valid
let filters = value[filteredName];
// a single filter or an array of filters (to be OR-combined) are accepted
if (!Array.isArray(filters)) {
filters = [filters];
}
filters.forEach(params => {
Object.keys(params).forEach(paramName => {
if (!validParameters.includes(paramName)) {
const message = `Invalid filter parameter name: ${paramName}`;
throw createLayerError(message, mapconfig, index);
}
});
// TODO: check parameter value (params[paramName]) to be of the correct type
});
// TODO: if multiple parameters within params check the combination is valid,
// i.e. one of the *less* parameters and one of the *greater* parameters.
});
};
};
function createAggregationColumnNamesValidator(mapconfig) {
return function validateAggregationColumnNames (value, key, index) {
Object.keys(value).forEach((columnName) => {

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@ -58,7 +58,7 @@ CreateLayergroupMapConfigProvider.prototype.filter = MapStoreMapConfigProvider.p
CreateLayergroupMapConfigProvider.prototype.createKey = MapStoreMapConfigProvider.prototype.createKey;
CreateLayergroupMapConfigProvider.prototype.getAffectedTables = function (callback) {
CreateLayergroupMapConfigProvider.prototype.createAffectedTables = function (callback) {
this.getMapConfig((err, mapConfig) => {
if (err) {
return callback(err);
@ -67,11 +67,6 @@ CreateLayergroupMapConfigProvider.prototype.getAffectedTables = function (callba
const { dbname } = this.params;
const token = mapConfig.id();
if (this.affectedTablesCache.hasAffectedTables(dbname, token)) {
const affectedTables = this.affectedTablesCache.get(dbname, token);
return callback(null, affectedTables);
}
const queries = [];
this.mapConfig.getLayers().forEach(layer => {
@ -106,3 +101,21 @@ CreateLayergroupMapConfigProvider.prototype.getAffectedTables = function (callba
});
});
};
CreateLayergroupMapConfigProvider.prototype.getAffectedTables = function (callback) {
this.getMapConfig((err, mapConfig) => {
if (err) {
return callback(err);
}
const { dbname } = this.params;
const token = mapConfig.id();
if (this.affectedTablesCache.hasAffectedTables(dbname, token)) {
const affectedTables = this.affectedTablesCache.get(dbname, token);
return callback(null, affectedTables);
}
return this.createAffectedTables(callback);
});
};

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@ -89,7 +89,7 @@ MapStoreMapConfigProvider.prototype.createKey = function(base) {
return (base) ? baseKeyTpl(tplValues) : rendererKeyTpl(tplValues);
};
MapStoreMapConfigProvider.prototype.getAffectedTables = function(callback) {
MapStoreMapConfigProvider.prototype.createAffectedTables = function(callback) {
this.getMapConfig((err, mapConfig) => {
if (err) {
return callback(err);
@ -98,12 +98,6 @@ MapStoreMapConfigProvider.prototype.getAffectedTables = function(callback) {
const { dbname } = this.params;
const token = mapConfig.id();
if (this.affectedTablesCache.hasAffectedTables(dbname, token)) {
const affectedTables = this.affectedTablesCache.get(dbname, token);
return callback(null, affectedTables);
}
const queries = [];
mapConfig.getLayers().forEach(layer => {
@ -138,3 +132,21 @@ MapStoreMapConfigProvider.prototype.getAffectedTables = function(callback) {
});
});
};
MapStoreMapConfigProvider.prototype.getAffectedTables = function (callback) {
this.getMapConfig((err, mapConfig) => {
if (err) {
return callback(err);
}
const { dbname } = this.params;
const token = mapConfig.id();
if (this.affectedTablesCache.hasAffectedTables(dbname, token)) {
const affectedTables = this.affectedTablesCache.get(dbname, token);
return callback(null, affectedTables);
}
return this.createAffectedTables(callback);
});
};

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@ -262,7 +262,7 @@ NamedMapMapConfigProvider.prototype.getTemplateName = function() {
return this.templateName;
};
NamedMapMapConfigProvider.prototype.getAffectedTables = function(callback) {
NamedMapMapConfigProvider.prototype.createAffectedTables = function(callback) {
this.getMapConfig((err, mapConfig) => {
if (err) {
return callback(err);
@ -271,11 +271,6 @@ NamedMapMapConfigProvider.prototype.getAffectedTables = function(callback) {
const { dbname } = this.rendererParams;
const token = mapConfig.id();
if (this.affectedTablesCache.hasAffectedTables(dbname, token)) {
const affectedTables = this.affectedTablesCache.get(dbname, token);
return callback(null, affectedTables);
}
const queries = [];
mapConfig.getLayers().forEach(layer => {
@ -310,3 +305,21 @@ NamedMapMapConfigProvider.prototype.getAffectedTables = function(callback) {
});
});
};
NamedMapMapConfigProvider.prototype.getAffectedTables = function (callback) {
this.getMapConfig((err, mapConfig) => {
if (err) {
return callback(err);
}
const { dbname } = this.params;
const token = mapConfig.id();
if (this.affectedTablesCache.hasAffectedTables(dbname, token)) {
const affectedTables = this.affectedTablesCache.get(dbname, token);
return callback(null, affectedTables);
}
return this.createAffectedTables(callback);
});
};

View File

@ -357,6 +357,103 @@ describe('aggregation', function () {
});
});
['centroid', 'point-sample', 'point-grid'].forEach(placement => {
it('should provide all the requested columns in non-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: {
placement: placement,
columns: {
'first_column': {
aggregate_function: 'sum',
aggregated_column: 'value'
}
},
dimensions: {
second_column: 'sqrt_value'
},
threshold: 1
},
cartocss: '#layer { marker-width: [first_column]; line-width: [second_column]; }',
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 provide only the requested columns in non-default aggregation ',
function (done) {
this.mapConfig = createVectorMapConfig([
{
type: 'cartodb',
options: {
sql: POINTS_SQL_2,
aggregation: {
placement: placement,
columns: {
'first_column': {
aggregate_function: 'sum',
aggregated_column: 'value'
}
},
dimensions: {
second_column: 'sqrt_value'
},
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));
let columns = new Set();
geojsonTile.features.forEach(f => {
Object.keys(f.properties).forEach(p => columns.add(p));
});
columns = Array.from(columns);
const expected_columns = [
'_cdb_feature_count', 'cartodb_id', 'first_column', 'second_column'
];
assert.deepEqual(columns.sort(), expected_columns.sort());
done();
});
});
});
it('should skip aggregation to create a layergroup with aggregation defined already', function (done) {
const mapConfig = createVectorMapConfig([
{
@ -689,6 +786,45 @@ describe('aggregation', function () {
});
});
['centroid', 'point-sample', 'point-grid'].forEach(placement => {
it(`dimensions with alias should work for ${placement} placement`, function(done) {
this.mapConfig = createVectorMapConfig([
{
type: 'cartodb',
options: {
sql: POINTS_SQL_1,
aggregation: {
placement: placement ,
threshold: 1,
dimensions: {
value2: "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.value2, 'number')
);
done();
});
});
});
it(`dimensions should trigger non-default aggregation`, function(done) {
this.mapConfig = createVectorMapConfig([
{
@ -1475,6 +1611,569 @@ describe('aggregation', function () {
done();
});
});
['centroid', 'point-sample', 'point-grid'].forEach(placement => {
it(`filters 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'
}
},
filters: {
value: {
greater_than_or_equal_to: 0
}
}
}
}
}
]);
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(row => {
assert.ok(row.properties.value >= 0);
});
done();
});
});
});
['centroid', 'point-sample', 'point-grid'].forEach(placement => {
it(`multiple ORed filters 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'
}
},
filters: {
value: [
{ greater_than: 0 },
{ less_than: -2 }
]
}
}
}
}
]);
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(row => {
assert.ok(row.properties.value > 0 || row.properties.value < -2);
});
done();
});
});
});
['centroid', 'point-sample', 'point-grid'].forEach(placement => {
it(`multiple ANDed filters should work for ${placement} placement`, function(done) {
this.mapConfig = createVectorMapConfig([
{
type: 'cartodb',
options: {
sql: POINTS_SQL_2,
aggregation: {
placement: placement ,
threshold: 1,
columns: {
value: {
aggregate_function: 'sum',
aggregated_column: 'value'
},
value2: {
aggregate_function: 'sum',
aggregated_column: 'sqrt_value'
}
},
filters: {
value: { greater_than: 0 },
value2: { less_than: 9 }
}
}
}
}
]);
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(row => {
assert.ok(row.properties.value > 0 && row.properties.value2 < 9);
});
done();
});
});
});
it(`supports IN filters`, function(done) {
this.mapConfig = createVectorMapConfig([
{
type: 'cartodb',
options: {
sql: POINTS_SQL_1,
aggregation: {
threshold: 1,
columns: {
value: {
aggregate_function: 'sum',
aggregated_column: 'value'
}
},
filters: {
value: { in: [1, 3] }
}
}
}
}
]);
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(row => {
assert.ok(row.properties.value === 1 || row.properties.value === 3);
});
done();
});
});
it(`supports NOT IN filters`, function(done) {
this.mapConfig = createVectorMapConfig([
{
type: 'cartodb',
options: {
sql: POINTS_SQL_1,
aggregation: {
threshold: 1,
columns: {
value: {
aggregate_function: 'sum',
aggregated_column: 'value'
}
},
filters: {
value: { not_in: [1, 3] }
}
}
}
}
]);
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(row => {
assert.ok(row.properties.value !== 1 && row.properties.value !== 3);
});
done();
});
});
it(`supports EQUAL filters`, function(done) {
this.mapConfig = createVectorMapConfig([
{
type: 'cartodb',
options: {
sql: POINTS_SQL_1,
aggregation: {
threshold: 1,
columns: {
value: {
aggregate_function: 'sum',
aggregated_column: 'value'
}
},
filters: {
value: [{ equal: 1}, { equal: 3}]
}
}
}
}
]);
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(row => {
assert.ok(row.properties.value === 1 || row.properties.value === 3);
});
done();
});
});
it(`supports NOT EQUAL filters`, function(done) {
this.mapConfig = createVectorMapConfig([
{
type: 'cartodb',
options: {
sql: POINTS_SQL_1,
aggregation: {
threshold: 1,
columns: {
value: {
aggregate_function: 'sum',
aggregated_column: 'value'
}
},
filters: {
value: { not_equal: 1 }
}
}
}
}
]);
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(row => {
assert.ok(row.properties.value !== 1);
});
done();
});
});
it(`supports BETWEEN filters`, function(done) {
this.mapConfig = createVectorMapConfig([
{
type: 'cartodb',
options: {
sql: POINTS_SQL_1,
aggregation: {
threshold: 1,
columns: {
value: {
aggregate_function: 'sum',
aggregated_column: 'value'
}
},
filters: {
value: {
greater_than_or_equal_to: -1,
less_than_or_equal_to: 2
}
}
}
}
}
]);
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(row => {
assert.ok(row.properties.value >= -1 || row.properties.value <= 2);
});
done();
});
});
it(`supports RANGE filters`, function(done) {
this.mapConfig = createVectorMapConfig([
{
type: 'cartodb',
options: {
sql: POINTS_SQL_1,
aggregation: {
threshold: 1,
columns: {
value: {
aggregate_function: 'sum',
aggregated_column: 'value'
}
},
filters: {
value: {
greater_than: -1,
less_than_or_equal_to: 2
}
}
}
}
}
]);
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(row => {
assert.ok(row.properties.value > -1 || row.properties.value <= 2);
});
done();
});
});
it(`invalid filters cause errors`, function(done) {
this.mapConfig = createVectorMapConfig([
{
type: 'cartodb',
options: {
sql: POINTS_SQL_1,
aggregation: {
threshold: 1,
columns: {
value: {
aggregate_function: 'sum',
aggregated_column: 'value'
}
},
filters: {
value: {
not_a_valid_parameter: 0
}
}
}
}
}
]);
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 filter parameter name: not_a_valid_parameter'],
errors_with_context:[{
type: 'layer',
message: 'Invalid filter parameter name: not_a_valid_parameter',
layer: {
id: "layer0",
index: 0,
type: "mapnik",
}
}]
});
done();
});
});
it(`filters on invalid columns cause errors`, function(done) {
this.mapConfig = createVectorMapConfig([
{
type: 'cartodb',
options: {
sql: POINTS_SQL_1,
aggregation: {
threshold: 1,
columns: {
value_sum: {
aggregate_function: 'sum',
aggregated_column: 'value'
}
},
filters: {
value: {
not_a_valid_parameter: 0
}
}
}
}
}
]);
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 filtered column: value'],
errors_with_context:[{
type: 'layer',
message: 'Invalid filtered column: value',
layer: {
id: "layer0",
index: 0,
type: "mapnik",
}
}]
});
done();
});
});
['default', 'centroid', 'point-sample', 'point-grid'].forEach(placement => {
it(`aggregated ids are unique for ${placement} aggregation`, function (done) {
this.mapConfig = {
version: '1.6.0',
buffersize: { 'mvt': 0 },
layers: [
{
type: 'cartodb',
options: {
sql: POINTS_SQL_1,
resolution: 1,
aggregation: {
threshold: 1
}
}
}
]
};
if (placement !== 'default') {
this.mapConfig.layers[0].options.aggregation.placement = placement;
}
this.testClient = new TestClient(this.mapConfig);
this.testClient.getTile(1, 0, 1, { format: 'mvt' }, (err, res, mvt) => {
if (err) {
return done(err);
}
const tile1 = JSON.parse(mvt.toGeoJSONSync(0));
assert.ok(Array.isArray(tile1.features));
assert.ok(tile1.features.length > 0);
this.testClient.getTile(1, 1, 0, { format: 'mvt' }, (err, res, mvt) => {
if (err) {
return done(err);
}
const tile2 = JSON.parse(mvt.toGeoJSONSync(0));
assert.ok(Array.isArray(tile2.features));
assert.ok(tile2.features.length > 0);
const tile1Ids = tile1.features.map(f => f.properties.cartodb_id);
const tile2Ids = tile2.features.map(f => f.properties.cartodb_id);
const repeatedIds = tile1Ids.filter(id => tile2Ids.includes(id));
assert.equal(repeatedIds.length, 0);
done();
});
});
});
});
});
});
});

View File

@ -37,7 +37,7 @@ describe('authorization', function() {
});
});
it('should create and get a named map tile using a regular apikey token', function (done) {
it.skip('should create and get a named map tile using a regular apikey token', function (done) {
const apikeyToken = 'regular1';
const mapConfig = {
version: '1.7.0',
@ -354,7 +354,39 @@ describe('authorization', function() {
});
});
it('should create and get a named map tile using a regular apikey token', function (done) {
it('should fail while listing named maps with a regular apikey token', function (done) {
const apikeyToken = 'regular1';
const testClient = new TestClient({}, apikeyToken);
testClient.getNamedMapList({ response: {status: 403 }}, function (err, res, body) {
assert.ifError(err);
assert.equal(res.statusCode, 403);
assert.equal(body.errors.length, 1);
assert.ok(body.errors[0].match(/Forbidden/), body.errors[0]);
testClient.drain(done);
});
});
it('should list named maps with master apikey token', function (done) {
const apikeyToken = 1234;
const testClient = new TestClient({}, apikeyToken);
testClient.getNamedMapList({}, function (err, res, body) {
assert.ifError(err);
assert.equal(res.statusCode, 200);
assert.ok(Array.isArray(body.template_ids));
testClient.drain(done);
});
});
it.skip('should create and get a named map tile using a regular apikey token', function (done) {
const apikeyToken = 'regular1';
const template = {
@ -391,7 +423,7 @@ describe('authorization', function() {
});
});
it('should fail creating a named map using a regular apikey token and a private table', function (done) {
it.skip('should fail creating a named map using a regular apikey token and a private table', function (done) {
const apikeyToken = 'regular1';
const template = {

View File

@ -1254,6 +1254,36 @@ TestClient.prototype.getAnalysesCatalog = function (params, callback) {
);
};
TestClient.prototype.getNamedMapList = function(params, callback) {
const request = {
url: `/api/v1/map/named?${qs.stringify({ api_key: this.apiKey })}`,
method: 'GET',
headers: {
host: 'localhost',
'Content-Type': 'application/json'
}
};
let expectedResponse = {
status: 200,
headers: {
'Content-Type': 'application/json; charset=utf-8'
}
};
if (params.response) {
expectedResponse = Object.assign(expectedResponse, params.response);
}
assert.response(this.server, request, expectedResponse, (res, err) => {
if (err) {
return callback(err);
}
const body = JSON.parse(res.body);
return callback(null, res, body);
});
};
TestClient.prototype.getNamedTile = function (name, z, x, y, format, options, callback) {
const { params } = options;