cartodb-4.42/lib/assets/javascripts/dashboard/views/public-dataset/carto-table-metadata.js
2024-04-06 05:25:13 +00:00

836 lines
23 KiB
JavaScript

const _ = require('underscore');
const $ = require('jquery');
const Backbone = require('backbone');
const SQL = require('internal-carto.js').SQL;
const safeTableNameQuoting = require('dashboard/helpers/safe-table-name-quoting');
const cartoMetadataStatic = require('./carto-table-metadata-static');
const checkAndBuildOpts = require('builder/helpers/required-opts');
const CartoTableData = require('dashboard/data/table/carto-table-data');
const ColumnModel = require('dashboard/data/table/column-model');
const RowModel = require('dashboard/data/table/row-model');
const PermissionModel = require('dashboard/data/permission-model');
const ImportModel = require('dashboard/data/import-model');
const TableSynchronizationModel = require('dashboard/data/table-synchronization-model');
const getSimpleGeometryType = require('builder/data/get-simple-geometry-type');
const retrigger = require('dashboard/helpers/retrigger');
const REQUIRED_OPTS = [
'configModel'
];
const Base = Backbone.Model.extend({
columnNames: function () {
return _.map(this.get('schema'), function (c) {
return c[0];
});
},
columnName: function (idx) {
return this.columnNames()[idx];
}
});
const CartoTableMetadata = Base.extend({
currentLoading: 0, // class variable (shared). I'm still not sure if this is messy as hell or powerfull as a transformer
_TEXTS: {
columnDeleted: 'Your column has been deleted',
columnDeleting: 'Deleting your column',
columnAdded: 'Your column has been added',
columnAdding: 'Adding new column'
},
hiddenColumns: [
'the_geom',
'the_geom_webmercator',
'cartodb_georef_status',
'created_at',
'updated_at',
'cartodb_id'
],
initialize: function (attrs, opts) {
checkAndBuildOpts(opts, REQUIRED_OPTS, this);
_.bindAll(this, 'notice');
this.readOnly = false;
this.bind('change:schema', this._prepareSchema, this);
this._prepareSchema();
this.sqlView = null;
this.synchronization = new TableSynchronizationModel({ configModel: opts.configModel });
this.synchronization.linkToTable(this);
this.synchronization.bind('change:id', function isSyncChanged () {
this.trigger('change:isSync', this, this.synchronization.isSync());
}, this);
if (this.get('no_data_fetch')) {
this.no_data_fetch = true;
delete this.attributes.no_data_fetch;
}
this.data();
this.bind('error', function (e, resp) {
this.error('', resp);
}, this);
this._data.bind('error', function (e, resp) {
this.notice('error loading rows, check your SQL query', 'error', 5000);
}, this);
this._data.bind('reset', function () {
var view = this._data;
this.set({
schema: view.schemaFromData(this.get('schema')),
geometry_types: view.getGeometryTypes()
});
}, this);
retrigger.call(this, 'change', this._data, 'data:changed');
retrigger.call(this, 'saved', this._data, 'data:saved');
this.bind('change:table_visualization', function () {
this.permission = new PermissionModel(this.get('table_visualization').permission, { configModel: this._configModel });
this.trigger('change:permission', this, this.permission);
}, this);
// create permission if permission is set
this.permission = new PermissionModel(this.get('permission'), { configModel: this._configModel });
},
url: function (method) {
var version = this._configModel.urlVersion('table', method);
var base = '/api/' + version + '/tables';
if (this.isNew()) {
return base;
}
return base + '/' + this.id;
},
// use the name as the id since the api works
// in the same way to table name and id
parse: function (resp, xhr) {
if (resp.name) {
resp.id = resp.name;
}
// move geometry_types to stats one
// geometry_types from backend are not reliable anymore and it can only be used
// for non editing stuff (showing icons, general checks on table list)
resp.stats_geometry_types = resp.geometry_types;
delete resp.geometry_types;
delete resp.schema;
return resp;
},
notice: function (msg, type, timeout) {
this.trigger('notice', msg, type, timeout);
},
setReadOnly: function (_) {
var trigger = false;
if (this.readOnly !== _) {
trigger = true;
}
this.readOnly = _;
if (trigger) {
this.trigger('change:readOnly', this, _);
}
},
isReadOnly: function () {
return this.readOnly || this.data().isReadOnly() || this.synchronization.isSync();
},
isSync: function () {
return this.synchronization.isSync();
},
getUnqualifiedName: function () {
var name = this.get('name');
if (!name) return null;
var tk = name.split('.');
if (tk.length == 2) { // eslint-disable-line eqeqeq
return tk[1];
}
return name;
},
// "user".table -> user.table
getUnquotedName: function () {
var name = this.get('name');
return name && name.replace(/"/g, '');
},
sortSchema: function () {
this.set('schema', CartoTableMetadata.sortSchema(this.get('schema')));
},
error: function (msg, resp) {
let err = '';
try {
err = resp && resp.responseText && JSON.parse(resp.responseText).errors[0];
} catch (e) {
} finally {
this.trigger('notice', msg + ': ' + err, 'error');
}
},
_prepareSchema: function () {
this._columnType = {};
_(this.get('schema')).each((schema) => {
this._columnType[schema[0]] = schema[1];
});
if (!this.isInSQLView()) {
this.set('original_schema', this.get('schema'));
}
},
columnNames: function (sc) {
sc = sc || 'schema';
return _(this.get(sc)).pluck(0);
},
containsColumn: function (name) {
return _.contains(this.columnNames(), name);
},
columnNamesByType: function (type, sc) {
sc = sc || 'schema';
var t = _(this.get(sc)).filter(function (c) {
return c[1] == type; // eslint-disable-line eqeqeq
});
return _(t).pluck(0);
},
// return geometry columns calculated backend stats
// use geomColumnTypes if you need something reliable (but slower and async)
statsGeomColumnTypes: function (geometryTypes) {
return this.geomColumnTypes(this.get('stats_geometry_types'));
},
// return the current column types in an array
// the values inside the array can be:
// 'point', 'line', 'polygon'
geomColumnTypes: function (geometryTypes) {
var types = geometryTypes || this.get('geometry_types');
var geomTypes = [];
if (!_.isArray(types)) {
return [];
}
var _map = {
'st_multipolygon': 'polygon',
'st_polygon': 'polygon',
'st_multilinestring': 'line',
'st_linestring': 'line',
'st_multipoint': 'point',
'st_point': 'point'
};
for (var t in types) {
var type = types[t];
// when there are rows with no geo type null is returned as geotype
if (type) {
var a = _map[type.toLowerCase()];
if (a) {
geomTypes.push(a);
}
}
}
return _.uniq(geomTypes);
},
/**
* Adding a new geometry type to the table
* @param geom type {st_polygon, st_point,...}
* @param set options
*/
addGeomColumnType: function (t, opts) {
if (!t) return;
var types = _.clone(this.get('geometry_types')) || [];
if (!_.contains(types, t)) {
types.push(t);
this.set({
'geometry_types': types
}, opts);
}
},
nonReservedColumnNames: function () {
return _.filter(this.columnNames(), (columnName) => {
return !this.isReservedColumn(columnName);
});
},
columnTypes: function () {
return _.clone(this._columnType);
},
_getColumn: function (columnName) {
if (this._columnType[columnName] === undefined) {
return;
// throw "the column does not exists";
}
var c = new ColumnModel({
table: this,
name: columnName,
type: this._columnType[columnName],
configModel: this._configModel
}, { configModel: this._configModel });
return c;
},
getColumnType: function (columnName, sc) {
sc = sc || 'schema';
var t = _(this.get(sc)).filter(function (c) {
return c[0] == columnName;// eslint-disable-line eqeqeq
});
if (t.length > 0) {
return t[0][1];
}
},
addColumn: function (columnName, columnType, opts) {
var c = new ColumnModel({
table: this,
_name: columnName,
type: columnType || 'string',
configModel: this._configModel
}, { configModel: this._configModel });
this.notice(this._TEXTS.columnAdding, 'load', 0);
c.save(null, {
success: (model, obj) => {
this.notice(this._TEXTS.columnAdded, 'info');
this.trigger('columnAdd', columnName);
this.data().fetch();
opts && opts.success && opts.success(model, obj);
},
error: (error, resp) => {
this.error('error adding column', resp);
opts && opts.error && opts.error(error);
},
wait: true
});
},
deleteColumn: function (columnName, opts) {
var c = this._getColumn(columnName);
if (c !== undefined) {
this.notice(this._TEXTS.columnDeleting, 'load', 0);
c.destroy({
success: () => {
this.trigger('columnDelete', columnName);
this.notice(this._TEXTS.columnDeleted, 'info');
this.data().fetch();
opts && opts.success && opts.success();
},
error: (e, resp) => {
this.error('error deleting column', resp);
opts && opts.error && opts.error();
},
wait: true
});
}
},
renameColumn: function (columnName, newName, opts) {
if (columnName == newName) return; // eslint-disable-line eqeqeq
var c = this._getColumn(columnName);
var oldName = c.get('name');
c.set({
new_name: newName,
old_name: c.get('name')
});
this.notice('renaming column', 'load', 0);
c.save(null, {
success: (mdl, data) => {
this.notice('Column has been renamed', 'info');
this.trigger('columnRename', newName, oldName);
this.data().fetch();
opts && opts.success && opts.success(mdl, data);
},
error: (e, resp) => {
console.error("can't rename column");
this.error('error renaming column', resp);
opts && opts.error && opts.error(e, resp);
},
wait: true
});
},
isTypeChangeAllowed: function (columnName, newType) {
var deactivateMatrix = {
'number': ['date'],
'boolean': ['date'],
'date': ['boolean']
};
var c = this._getColumn(columnName);
if (!c) {
return true;
}
var type = c.get('type');
var deactivated = deactivateMatrix[type] || [];
deactivated = deactivated.concat([type]);
return !_.contains(deactivated, newType);
},
isTypeChangeDestructive: function (columnName, newType) {
var columnType = this.getColumnType(columnName);
var destructiveMatrix = {
'string': {
'string': false,
'number': true,
'date': true,
'boolean': true
},
'number': {
'string': false,
'number': false,
'date': true,
'boolean': true
},
'date': {
'string': false,
'number': true,
'date': false,
'boolean': true
},
'boolean': {
'string': false,
'number': false,
'date': true,
'boolean': false
}
};
return destructiveMatrix[columnType][newType];
},
changeColumnType: function (columnName, newType, opts) {
var c = this._getColumn(columnName);
if (this.getColumnType(columnName) == newType) { // eslint-disable-line eqeqeq
opts && opts.success && opts.success();
return;
}
this.saveNewColumnType(c, newType, opts);
},
saveNewColumnType: function (column, newType, opts) {
column.set({ type: newType });
this.notice('Changing column type', 'load', 0);
column.save(null, {
success: () => {
this.notice('Column type has been changed', 'info');
this.trigger('typeChanged', newType); // to make it testable
this.data().fetch();
opts && opts.success && opts.success();
},
error: (e, resp) => {
this.trigger('typeChangeFailed', newType, e); // to make it testable
this.error('error changing column type', resp);
opts && opts.error && opts.error(e, resp);
},
wait: true
});
},
/**
* returns the original data for the table not the current applied view
*/
originalData: function () {
return this._data;
},
data: function () {
if (this._data === undefined) {
this._data = new CartoTableData(null, {
table: this,
configModel: this._configModel
});
this.bindData();
}
if (this.sqlView) {
return this.sqlView;
}
return this._data;
},
bindData: function (data) {
if (this._data && !this._data.bindedReset) {
retrigger.call(this, 'sync', this._data, 'dataLoaded');
retrigger.call(this, 'add', this._data, 'dataAdded');
this._data.bindedReset = true;
}
if (this.sqlView && !this.sqlView.bindedReset) {
retrigger.call(this, 'sync', this.sqlView, 'dataLoaded');
retrigger.call(this, 'add', this.sqlView, 'dataAdded');
this.sqlView.bindedReset = true;
}
},
useSQLView: function (view, options) {
if (!view && !this.sqlView) return;
options = options || {};
if (this.sqlView) {
this.sqlView.unbind(null, null, this);
this.sqlView.unbind(null, null, this._data);
}
// reset previous
if (!view && this.sqlView) {
this.sqlView.table = null;
}
this.sqlView = view;
this.bindData();
if (view) {
view.bind('sync reset', function () {
if (!view.modify_rows) {
this.set({
schema: view.schemaFromData(this.get('schema')),
geometry_types: view.getGeometryTypes()
});
}
}, this);
// listen for errors
view.bind('error', function (e, resp) {
this.notice('error loading rows, check your SQL query', 'error', 5000);
}, this);
view.bind('loading', function () {
// this.notice(_t('loading query'), 'load', 0);
}, this);
view.bind('reset loaded', function () {
if (view.modify_rows) {
this.notice(view.affected_rows + ' rows affected');
this.useSQLView(null);
} else {
this.notice(_t('loaded'));
}
}, this);
// swicth source data
this.dataModel = this.sqlView;
view.table = this;
} else {
this.dataModel = this._data;
// get the original schema
this.set({
'schema': this.get('original_schema')
});/// *, { silent: true });
this.data().fetch();
}
this.trigger('change:dataSource', this.dataModel, this);
},
isInSQLView: function () {
return !!this.sqlView;
},
/**
* replace fetch functionally to add some extra call for logging
* it can be used in the same way fetch is
*/
fetch: function (opts) {
const silent = opts ? opts.silent : false;
if (!silent) {
this.notice('loading table', 'load', this, 0, 0);
}
var xhr = Base.prototype.fetch.call(this, opts);
$.when(xhr).done(() => {
opts && opts.success && opts.success.old_success && opts.success.old_success();
if (!silent) {
this.notice('loaded');
}
}).fail(() => {
if (!silent) {
this.notice('error loading the table');
}
});
return xhr;
},
isReservedColumn: function (c) {
return RowModel.isReservedColumn(c);
},
/**
* when a table is linked to a infowindow each time a column
* is renamed or removed the table pings to infowindow to remove
* or rename the fields
*/
linkToInfowindow: function (infowindow) {
this.bind('columnRename', function (newName, oldName) {
if (infowindow.containsField(oldName)) {
infowindow.removeField(oldName);
infowindow.addField(newName);
}
}, infowindow);
this.bind('columnDelete', function (oldName, newName) {
infowindow.removeField(oldName);
}, infowindow);
this.bind('change:schema', function () {
var columns = _(this.columnNames()).filter(function (c) {
return !_.contains(infowindow.SYSTEM_COLUMNS, c);
});
function _hash (str) {
var hash = 0;
var c;
var i;
for (i = 0; i < str.length; i++) {
c = str.charCodeAt(i);
hash = c + (hash << 6) + (hash << 16) - hash;
}
return hash;
}
if (this.isInSQLView()) {
if (!infowindow.has('defaul_schema_fields')) {
infowindow.saveFields('defaul_schema_fields');
}
var current_schema_key = 'schema_' + _hash(this.columnNames().sort().join(''));
var previous_schema_key = 'schema_' + _hash(
_(this.previous('schema')).pluck(0).sort().join('')
);
if (!infowindow.has(previous_schema_key)) {
infowindow.saveFields(previous_schema_key);
}
if (infowindow.has(current_schema_key)) {
infowindow.restoreFields(null, current_schema_key);
}
} else {
infowindow.restoreFields(null, 'defaul_schema_fields');
}
if (infowindow.get('template')) {
// merge fields checking actual schema
infowindow.mergeFields(columns);
} else {
// remove fields that no longer exist
infowindow.removeMissingFields(columns);
}
}, this);
},
embedURL: function () {
return '/tables/' + this.get('name') + '/embed_map';
},
/**
* @deprecated use vis.viewUrl() or vis.viewUrl(currentUser) instead.
*/
viewUrl: function () {
return this._configModel.prefixUrl() + '/tables/' + this.getUnqualifiedName();
},
hasTheGeom: function () {
var currentSchema = this.get('schema');
// if we have "the_geom" in our current schema, returnstrue
for (var n in currentSchema) {
if (currentSchema[n][0] === 'the_geom') {
return true;
}
}
return false;
},
/**
* Checks the server to see if the table has any georeferenced row, independently of the applyed query
* @return {promise}
*/
fetchGeoreferenceStatus: function () {
var dfd = $.Deferred();
var username = (this.options && this.options.user_data) ? this.options.user_data.username
: (window.user_data ? window.user_data.username : window.user_name);
var api_key = (this.options && this.options.user_data) ? this.options.user_data.api_key
: (window.user_data ? window.user_data.api_key : window.api_key);
this.sqlApi = new SQL({
user: username,
version: 'v1',
api_key: api_key,
sql_api_template: this._configModel.getSqlApiBaseUrl()
});
var sql = 'SELECT the_geom FROM ' + this.get('name') + ' WHERE the_geom is not null';
this.sqlApi.execute(sql).done(function (data) {
if (data.rows.length > 0) {
dfd.resolve(true);
} else {
dfd.resolve(false);
}
});
return dfd.promise();
},
/**
* Checks the current loaded records to see if they are georeferenced
* @return {boolean}
*/
isGeoreferenced: function () {
var geoColumns = this.geomColumnTypes();
if (geoColumns && geoColumns.length > 0) {
return true;
} else {
if (!this.isInSQLView()) {
// sometimes the columns are changed in the frontend site
// and the geocolumns are not updated.
// check the columns in local
return this._data.any(function (row) {
return row.hasGeometry();
});
}
}
return false;
},
/**
* this function can only be called during change event
* returns true if the geometry type has changed
* for this method multipolygon and polygon are the same geometry type
*/
geometryTypeChanged: function () {
if (!('geometry_types' in this.changed)) return false;
var geoTypes = this.get('geometry_types');
var prevGeoTypes = this.previousAttributes().geometry_types;
function normalize (e) {
e = e.toLowerCase();
if (e === 'st_multipolygon') {
return 'st_polygon';
}
if (e === 'st_multilinestring') {
return 'st_linestring';
}
if (e === 'st_multipoint') {
return 'st_point';
}
return e;
}
if (!geoTypes ||
geoTypes.length === 0 ||
!prevGeoTypes ||
prevGeoTypes.length === 0) {
return true;
}
var n = normalize(geoTypes[0]);
var o = normalize(prevGeoTypes[0]);
return n !== o;
},
/**
* Get necessary data create a duplicated dataset from this table.
*
* @param {Object} newName name of new dataset.
* @param {Object} callbacks
* @returns {Object}
*/
duplicate: function (newName, callbacks) {
callbacks = callbacks || {};
// Extracted from duplicate_table_dialog
var data = {
table_name: newName
};
// Set correct data object, depending on if the app has a query applied or not
if (this.isInSQLView()) {
var query = this.data().getSQL();
data.sql = (!query || query == '') ? 'SELECT * FROM ' + safeTableNameQuoting(this.get('name')) : query; // eslint-disable-line eqeqeq
} else {
data.table_copy = this.get('name');
}
var importModel = new ImportModel();
importModel.save(data, {
error: callbacks.error,
success: (model, changes) => {
var checkImportModel = new ImportModel({
item_queue_id: changes.item_queue_id
});
checkImportModel.bind('importComplete', () => {
checkImportModel.unbind();
// So import is done, create new table object from the new table and fetch, callback once finished.
var newTable = new CartoTableMetadata({
id: checkImportModel.get('table_id')
}, { configModel: this._configModel });
newTable.fetch({
success: function () {
callbacks.success(newTable);
},
error: callbacks.error
});
});
checkImportModel.bind('importError', function () {
checkImportModel.unbind();
callbacks.error.apply(this, arguments);
});
checkImportModel.pollCheck();
}
});
},
/**
* Get the visualizations that are using this table dataset.
* Note! a .fetch() is required to be sure the data to be available.
* @return {Array}
*/
dependentVisualizations: function () {
// dependent = visualizations with a single layer
// non-dependant = have more than this dataset as a layer
return _.chain(this.get('dependent_visualizations'))
.union(this.get('non_dependent_visualizations'))
.compact()
.value() || [];
},
getGeometryType: function () {
var types = this.get('geometry_types');
var geomTypes = [];
if (!_.isArray(types)) {
return [];
}
for (var t in types) {
var type = types[t];
// when there are rows with no geo type null is returned as geotype
if (type) {
var a = getSimpleGeometryType(type.toLowerCase());
if (a) {
geomTypes.push(a);
}
}
}
return _.uniq(geomTypes);
}
}, {
/**
* creates a new table from query
* the called is responsable of calling save to create
* the table in the server
*/
createFromQuery: function (name, query, configModel) {
return new CartoTableMetadata({
sql: query,
name: name
}, { configModel });
},
...cartoMetadataStatic
});
module.exports = CartoTableMetadata;