colouring-montreal/app/src/building.js

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/**
* Building data access
*
*/
import db from './db';
// data type note: PostgreSQL bigint (64-bit) is handled as string in JavaScript, because of
// JavaScript numerics are 64-bit double, giving only partial coverage.
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const TransactionMode = db.$config.pgp.txMode.TransactionMode;
const isolationLevel = db.$config.pgp.txMode.isolationLevel;
// Create a transaction mode (serializable, read-write):
const serializable = new TransactionMode({
tiLevel: isolationLevel.serializable,
readOnly: false
});
function queryBuildingsAtPoint(lng, lat) {
return db.manyOrNone(
`SELECT b.*
FROM buildings as b, geometries as g
WHERE
b.geometry_id = g.geometry_id
AND
ST_Intersects(
ST_Transform(
ST_SetSRID(ST_Point($1, $2), 4326),
3857
),
geometry_geom
)
`,
[lng, lat]
).catch(function(error){
console.error(error);
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return undefined;
});
}
function queryBuildingsByReference(key, id) {
if (key === 'toid'){
return db.manyOrNone(
"SELECT * FROM buildings WHERE b.ref_toid = $1",
[id]
).catch(function(error){
console.error(error);
return undefined;
});
}
if (key === 'uprn') {
return db.manyOrNone(
`SELECT b.*
FROM buildings as b, building_properties as p
WHERE
b.building_id = p.building_id
AND
p.uprn = $1
`,
[id]
).catch(function(error){
console.error(error);
return undefined;
});
}
return {error: 'Key must be UPRN or TOID'};
}
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function getBuildingById(id) {
return db.one(
"SELECT * FROM buildings WHERE building_id = $1",
[id]
).catch(function(error){
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console.error(error);
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return undefined;
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});
}
function saveBuilding(building_id, building, user_id) {
// save building must fail if the revision seen by the user != the latest revision
// - any 'intuitive' retries to be handled by clients of this code
// revision id allows for a long user 'think time' between view-building, update-building
// (optimistic locking implemented using field-based row versioning)
const previous_revision_id = building.revision_id;
// remove read-only fields from consideration
delete building.building_id;
delete building.revision_id;
delete building.geometry_id;
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// start transaction around save operation
// - select and compare to identify changeset
// - insert changeset
// - update to latest state
// commit or rollback (repeated-read sufficient? or serializable?)
return db.tx(t => {
return t.one(
"SELECT * FOR UPDATE FROM buildings WHERE building_id = $1 and revision_id = $2;",
[building_id, previous_revision_id]
).then(old_building => {
const patches = compare(old_building, building, BUILDING_FIELD_WHITELIST);
const forward = patches[0];
const reverse = patches[1];
return t.one(
`INSERT INTO logs (
forward_patch, reverse_patch, building_id, user_id
) VALUES (
$1:jsonb, $2:jsonb, $3, $4
) RETURNING log_id
`,
[forward, reverse, building_id, user_id]
).then(revision => {
const sets = db.$config.pgp.helpers.sets(forward);
return t.one(
`UPDATE
buildings
SET
revision_id = $1,
$2:raw
WHERE
building_id = $3 AND revision_id = $4
RETURNING
*
`,
[revision.log_id, sets, building_id, previous_revision_id]
)
});
});
}).catch(function(error){
// TODO report transaction error as 'Need to re-fetch building before update'
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console.error(error);
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return undefined;
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});
}
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function likeBuilding(building_id, user_id) {
// start transaction around save operation
// - insert building-user like
// - count total likes
// - insert changeset
// - update building to latest state
// commit or rollback (serializable - could be more compact?)
return db.tx({serializable}, t => {
return t.none(
"INSERT INTO building_user_likes ( building_id, user_id ) VALUES ($1, $2);",
[building_id, user_id]
).then(() => {
return t.one(
"SELECT count(*) as likes FROM building_user_likes WHERE building_id = $1;",
[building_id]
).then(building => {
return t.one(
`INSERT INTO logs (
forward_patch, building_id, user_id
) VALUES (
$1:jsonb, $2, $3
) RETURNING log_id
`,
[{likes_total: building.likes}, building_id, user_id]
).then(revision => {
return t.one(
`UPDATE buildings
SET
revision_id = $1,
likes_total = $2
WHERE
building_id = $3
RETURNING
*
`,
[revision.log_id, building.likes, building_id]
)
})
});
});
}).catch(function(error){
// TODO report transaction error as 'Need to re-fetch building before update'
console.error(error);
return undefined;
});
}
const BUILDING_FIELD_WHITELIST = new Set([
'ref_toid',
'ref_osm_id',
'location_name',
'location_number',
'location_street',
'location_line_two',
'location_town',
'location_postcode',
'location_latitude',
'location_longitude',
'date_year',
'date_lower',
'date_upper',
'date_source',
'facade_year',
'facade_upper',
'facade_lower',
'facade_source',
'size_storeys_attic',
'size_storeys_core',
'size_storeys_basement',
'size_height_apex',
'size_floor_area_ground',
'size_floor_area_total',
'size_width_frontage',
]);
/**
* Compare old and new data objects, generate shallow merge patch of changed fields
* - forward patch is object with {keys: new_values}
* - reverse patch is object with {keys: old_values}
*
* @param {object} old_obj
* @param {object} new_obj
* @param {Set} whitelist
* @returns {[object, object]}
*/
function compare(old_obj, new_obj, whitelist){
reverse_patch = {}
forward_patch = {}
for (const [key, value] of Object.entries(new_obj)) {
if (old_obj[key] !== value && whitelist.has(key)) {
reverse_patch[key] = old_obj[key];
forward_patch[key] = value;
}
}
return [forward_patch, reverse_patch]
}
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export { queryBuildingsAtPoint, queryBuildingsByReference, getBuildingById, saveBuilding,
likeBuilding };