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moving features: write to sqlite modified features

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popovspiridon99
2025-12-22 17:35:52 +09:00
parent e21f75f5e0
commit fa516b3a20
8 changed files with 452 additions and 27 deletions
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284
client/src/components/map/mapUtils.ts
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@ -22,6 +22,7 @@ import VectorImageLayer from "ol/layer/VectorImage";
import VectorSource from "ol/source/Vector";
import Map from "ol/Map";
import { Icon, Style } from "ol/style";
import axiosInstance from "../../http/axiosInstanceNest";
export function getCitySettings() {
return {
@ -94,11 +95,26 @@ export const addFigures = (
if (figuresData.length > 0) {
const geoJsonObject = {
type: "FeatureCollection",
features: figuresData.map((figure: IFigure) => processFigure(
figure,
settings.scale,
[center[0], center[1]]
)),
features: figuresData.map((figure: IFigure) => {
if (figure.modified) {
console.log("found modified", JSON.parse(figure.modified))
return {
...JSON.parse(figure.modified), properties: {
year: figure.year,
figure_type_id: figure.figure_type_id,
type: figure.type,
object_id: figure.object_id,
planning: figure.planning
}
}
} else {
return processFigure(
figure,
settings.scale,
[center[0], center[1]]
)
}
}),
}
const features = new GeoJSON().readFeatures(geoJsonObject)
@ -127,7 +143,22 @@ export const addLines = (
if (linesData.length > 0) {
const geoJsonObject = {
type: "FeatureCollection",
features: linesData.map((line: ILine) => processLine(line, settings.scale, [center[0], center[1]])),
features: linesData.map((line: ILine) => {
if (line.modified) {
return {
...JSON.parse(line.modified), properties: {
year: line.year,
type: line.type,
geometry_type: 'line',
object_id: line.object_id,
planning: line.planning,
}
}
} else {
return processLine(line, settings.scale, [center[0], center[1]])
}
}),
}
const features = new GeoJSON().readFeatures(geoJsonObject)
@ -144,6 +175,39 @@ export const calculateAngle = (coords: [number, number][]) => {
return Math.atan2(dy, dx); // Angle in radians
}
export function processLineFeatureToLine(
feature: Feature,
scaling: number,
mapCenter: Coordinate
): Partial<ILine> {
const geometry = feature.getGeometry() as LineString;
// Get the line coordinates
const coordinates = geometry.getCoordinates();
if (coordinates.length < 2) {
throw new Error('Line must have at least 2 points');
}
// Get start and end points
const startPoint = coordinates[0];
const endPoint = coordinates[coordinates.length - 1];
// Convert from map coordinates to database coordinates
const x1 = (startPoint[0] - mapCenter[0]) / scaling;
const y1 = (mapCenter[1] - startPoint[1]) / scaling;
const x2 = (endPoint[0] - mapCenter[0]) / scaling;
const y2 = (mapCenter[1] - endPoint[1]) / scaling;
return {
x1: parseFloat(x1.toFixed(6)),
y1: parseFloat(y1.toFixed(6)),
x2: parseFloat(x2.toFixed(6)),
y2: parseFloat(y2.toFixed(6)),
};
}
export function processLine(
line: ILine,
scaling: number,
@ -167,6 +231,7 @@ export function processLine(
type: "Feature",
geometry: new GeoJSON().writeGeometryObject(geometry),
properties: {
year: line.year,
type: line.type,
geometry_type: 'line',
object_id: line.object_id,
@ -176,6 +241,158 @@ export function processLine(
}
}
export function processFeatureToFigure(
feature: Feature,
figureTypeId: number,
scaling: number,
mapCenter: Coordinate,
): Partial<IFigure> {
const geometry = feature.getGeometry()
const properties = feature.getProperties();
switch (figureTypeId) {
case 1: // Ellipse
return processEllipseFeature(geometry as Polygon, scaling, mapCenter);
case 3: // Custom polygon
return processPolygonFeature(geometry as Polygon, scaling, mapCenter);
case 4: // Rotated rectangle
return processRectangleFeature(geometry as Polygon, scaling, mapCenter, properties.angle);
default:
throw new Error(`Unsupported figure type: ${figureTypeId}`);
}
}
function processEllipseFeature(geometry: Polygon, scaling: number, mapCenter: Coordinate): Partial<IFigure> {
// Get the extent of the ellipse
const extent = geometry.getExtent();
// Calculate dimensions
const width = (extent[2] - extent[0]) / scaling;
const height = (extent[3] - extent[1]) / scaling;
// Calculate center in map coordinates
const centerX = (extent[0] + extent[2]) / 2;
const centerY = (extent[1] + extent[3]) / 2;
// Convert to database coordinates
const left = (centerX - mapCenter[0]) / scaling;
const top = (mapCenter[1] - centerY) / scaling;
return {
figure_type_id: 1,
width: parseFloat(width.toFixed(6)),
height: parseFloat(height.toFixed(6)),
left: parseFloat(left.toFixed(6)),
top: parseFloat(top.toFixed(6))
};
}
function processPolygonFeature(
geometry: Polygon,
scaling: number,
mapCenter: Coordinate,
): Partial<IFigure> {
// Get polygon coordinates (first ring only)
const coordinates = geometry.getCoordinates()[0];
// Calculate the bounding box to get left/top
let minX = Infinity, maxX = -Infinity;
let minY = Infinity, maxY = -Infinity;
coordinates.forEach(coord => {
minX = Math.min(minX, coord[0]);
maxX = Math.max(maxX, coord[0]);
minY = Math.min(minY, coord[1]);
maxY = Math.max(maxY, coord[1]);
});
// Calculate center of the polygon
const centerX = (minX + maxX) / 2;
const centerY = (minY + maxY) / 2;
// Convert center to database coordinates for left/top
const left = (centerX - mapCenter[0]) / scaling;
const top = (mapCenter[1] - centerY) / scaling;
// Now convert all points relative to this center
const pointsArray = coordinates.map(coord => {
// Points are relative to (left, top), which is our calculated center
const relativeX = (coord[0] - mapCenter[0]) / scaling - left;
const relativeY = (mapCenter[1] - coord[1]) / scaling - top;
return `${relativeX.toFixed(6)};${relativeY.toFixed(6)}`;
});
// Join points with space (skip last point if it's duplicate of first)
const points = pointsArray.slice(0, -1).join(' ');
return {
figure_type_id: 3,
points,
left: parseFloat(left.toFixed(6)),
top: parseFloat(top.toFixed(6))
};
}
function processRectangleFeature(
geometry: Polygon,
scaling: number,
mapCenter: Coordinate,
angle: number = 0
): Partial<IFigure> {
// Clone geometry to avoid modifying original
const workingGeometry = geometry.clone();
// Get the current center
const currentCenter = getCenter(workingGeometry.getExtent());
// If there's rotation, we need to unrotate to get axis-aligned bounds
if (angle !== 0) {
workingGeometry.rotate(angle * Math.PI / 180, currentCenter);
}
// Get the unrotated extent
const extent = workingGeometry.getExtent();
// Calculate dimensions from unrotated geometry
const width = (extent[2] - extent[0]) / scaling;
const height = (extent[3] - extent[1]) / scaling;
// Calculate center of unrotated geometry
const unrotatedCenter = getCenter(extent);
// Convert to database coordinates
const left = (unrotatedCenter[0] - mapCenter[0]) / scaling;
const top = (mapCenter[1] - unrotatedCenter[1]) / scaling;
return {
figure_type_id: 4,
width: parseFloat(width.toFixed(6)),
height: parseFloat(height.toFixed(6)),
left: parseFloat(left.toFixed(6)),
top: parseFloat(top.toFixed(6)),
angle: angle // Preserve the angle
};
}
// Helper function to update a feature after movement
export function updateFeatureCoordinates(
feature: Feature,
scaling: number,
mapCenter: Coordinate
): void {
const figureTypeId = feature.get('figure_type_id');
const updatedFigure = processFeatureToFigure(feature, figureTypeId, scaling, mapCenter);
// You can now send updatedFigure to your backend
console.log('Updated figure data:', updatedFigure);
// Example: Update feature properties with database coordinates for reference
feature.set('db_coordinates', updatedFigure);
}
export function processFigure(
figure: IFigure,
scaling: number,
@ -201,6 +418,8 @@ export function processFigure(
type: "Feature",
geometry: new GeoJSON().writeGeometryObject(ellipseGeom),
properties: {
year: figure.year,
figure_type_id: figure.figure_type_id,
type: figure.type,
object_id: figure.object_id,
planning: figure.planning
@ -229,6 +448,8 @@ export function processFigure(
type: "Feature",
geometry: new GeoJSON().writeGeometryObject(polygon),
properties: {
year: figure.year,
figure_type_id: figure.figure_type_id,
type: figure.type,
object_id: figure.object_id,
planning: figure.planning
@ -264,6 +485,8 @@ export function processFigure(
type: "Feature",
geometry: new GeoJSON().writeGeometryObject(geometry1),
properties: {
year: figure.year,
figure_type_id: figure.figure_type_id,
type: figure.type,
object_id: figure.object_id,
planning: figure.planning,
@ -590,9 +813,54 @@ export const addInteractions = (
}
if (currentTool == 'Mover') {
setTranslate(map_id, new Translate({
const translateMode = new Translate({
features: new Collection(getSelectedFeatures(map_id))
}))
})
translateMode.on('translateend', async (e) => {
const features = e.features.getArray()
let changesJSON: any = []
features.map((f: Feature<Geometry>) => {
if (f.get('geometry_type') === 'line') {
const json = new GeoJSON()
changesJSON.push({
object_id: f.get('object_id'),
year: f.get('year'),
type: 'line',
feature: JSON.parse(json.writeFeature(f, {
featureProjection: 'EPSG:3857',
dataProjection: 'EPSG:3857'
}))
})
} else {
const json = new GeoJSON()
changesJSON.push({
object_id: f.get('object_id'),
year: f.get('year'),
type: 'figure',
feature: JSON.parse(json.writeFeature(f, {
featureProjection: 'EPSG:3857',
dataProjection: 'EPSG:3857'
}))
})
}
})
console.log(changesJSON)
await axiosInstance.post(`/gis/features/update`, {
features: changesJSON
},
{
baseURL: import.meta.env.VITE_API_NEST_URL,
})
})
setTranslate(map_id, translateMode)
const translate = getTranslate(map_id)
if (translate) {

7
client/src/interfaces/gis.ts
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@ -4,7 +4,6 @@ import { SatelliteMapsProvider } from "./map";
import Map from "ol/Map";
import { Coordinate } from "ol/coordinate";
import { Mode } from "../store/map";
export interface IRegion {
id: number
name: string
@ -30,7 +29,8 @@ export interface IFigure {
label_size: number | null,
year: number,
type: number,
planning: boolean
planning: boolean,
modified?: string
}
export interface ILine {
@ -49,7 +49,8 @@ export interface ILine {
label_positions: string | null,
year: number,
type: number,
planning: boolean
planning: boolean,
modified?: string
}
export interface ICitySettings {

3
client/src/store/map.ts
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@ -27,7 +27,6 @@ import { getSelectedRegion, setCurrentObjectId, setSelectedDistrict, setSelected
import View from 'ol/View';
import { getPrintOrientation } from './print';
import { getDistrictsData, getRegionsData } from './regions';
import { fromExtent } from 'ol/geom/Polygon';
export type Mode = 'edit' | 'view' | 'print'
@ -273,7 +272,7 @@ export const initializeMapState = (
condition: noModifierKeys
})
selectionDragBox.on('boxend', (e) => {
selectionDragBox.on('boxend', () => {
const extent = selectionDragBox.getGeometry().getExtent()
const figuresSource = figuresLayer.getSource()

BIN
server/ems.db
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8
server/src/gis/dto/update-features-batch.ts Normal file
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@ -0,0 +1,8 @@
import { ApiProperty } from "@nestjs/swagger";
import { IsArray } from "class-validator";
export class UpdateFeaturesBatchDto {
@ApiProperty()
@IsArray()
features: any[]
}

6
server/src/gis/gis.controller.ts
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@ -2,6 +2,7 @@ import { Body, Controller, Get, Param, ParseIntPipe, Post, Query } from '@nestjs
import { GisService } from './gis.service';
import { ApiBody } from '@nestjs/swagger';
import { BoundsRequestDto } from './dto/bound';
import { UpdateFeaturesBatchDto } from './dto/update-features-batch';
@Controller('gis')
export class GisController {
@ -22,6 +23,11 @@ export class GisController {
return await this.gisService.getBoundsByEntityTypeAndId(entity_type, entity_id)
}
@Post('/features/update')
async updateFeaturesBatch(@Body() updateFeaturesBatch: UpdateFeaturesBatchDto) {
return await this.gisService.updateFeaturesBatch(updateFeaturesBatch.features)
}
@Post('/bounds/:entity_type')
@ApiBody({ type: BoundsRequestDto })
async getBoundsByEntityTypeAndList(

169
server/src/gis/gis.service.ts
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@ -119,26 +119,108 @@ export class GisService {
return result
}
// async getFigures(offset: number, limit: number, year: number, city_id: number): Promise<any[]> {
// const result = await this.emsDataSource.query(`
// SELECT o.*, f.[figure_type_id], f.[left], f.[top], f.[width], f.[height], f.[angle], f.[points], f.[label_left], f.[label_top], f.[label_angle], f.[label_size] FROM New_Gis..figures f
// JOIN nGeneral..vObjects o ON o.object_id = f.object_id WHERE o.id_city = ${city_id} AND f.year = ${year}
// ORDER BY f.year
// OFFSET ${Number(offset) || 0} ROWS
// FETCH NEXT ${Number(limit) || 10} ROWS ONLY;
// `)
// return result
// }
// async getLines(year: number, city_id: number): Promise<any[]> {
// const result = await this.emsDataSource.query(
// `
// SELECT o.[object_id], o.[id_city], o.[id_parent], o.[type], o.[planning], o.[activity], o.[kvr], o.[jur], o.[fuel], o.[boiler_id],
// l.[x1], l.[y1], l.[x2], l.[y2], l.[points], l.[label_offset], l.[group_id], l.[show_label], l.[forced_lengths], l.[label_sizes], l.[label_angles], l.[label_positions], l.[year]
// FROM New_Gis..lines l
// JOIN nGeneral..vObjects o ON l.object_id = o.object_id WHERE o.id_city = ${city_id} AND l.year = ${year};
// `
// )
// return result
// }
async getFigures(offset: number, limit: number, year: number, city_id: number): Promise<any[]> {
const result = await this.emsDataSource.query(`
SELECT o.*, f.[figure_type_id], f.[left], f.[top], f.[width], f.[height], f.[angle], f.[points], f.[label_left], f.[label_top], f.[label_angle], f.[label_size] FROM New_Gis..figures f
JOIN nGeneral..vObjects o ON o.object_id = f.object_id WHERE o.id_city = ${city_id} AND f.year = ${year}
ORDER BY f.year
OFFSET ${Number(offset) || 0} ROWS
FETCH NEXT ${Number(limit) || 10} ROWS ONLY;
`)
return result
// Get original figures from EMS
const originalFigures = await this.emsDataSource.query(`
SELECT o.[object_id], o.[id_city], o.[id_parent], o.[type], o.[planning], o.[activity], o.[kvr], o.[jur], o.[fuel], o.[boiler_id], f.[figure_type_id], f.[left], f.[top], f.[width], f.[height], f.[angle], f.[points], f.[label_left], f.[label_top], f.[label_angle], f.[label_size], f.[year] FROM New_Gis..figures f
JOIN nGeneral..vObjects o ON o.object_id = f.object_id WHERE o.id_city = ${city_id} AND f.year = ${year}
ORDER BY f.year
OFFSET ${Number(offset) || 0} ROWS
FETCH NEXT ${Number(limit) || 10} ROWS ONLY;
`)
// Get modified figures from SQLite for the same year
const modifiedFigures = await this.dataSource.query(
`SELECT * FROM figures WHERE year = ?`,
[year]
)
// Create a lookup map using object_id + year as key
const modifiedMap = new Map()
modifiedFigures.forEach(fig => {
const key = `${fig.object_id}_${fig.year}`
modifiedMap.set(key, fig)
})
// Replace original values with modified ones
const mergedResult = originalFigures.map(original => {
const key = `${original.object_id}_${year}`
const modified = modifiedMap.get(key)
if (modified) {
return {
...original,
modified: modified.feature
}
}
return original
})
return mergedResult
}
async getLines(year: number, city_id: number): Promise<any[]> {
const result = await this.emsDataSource.query(
`
SELECT * FROM New_Gis..lines l
JOIN nGeneral..vObjects o ON l.object_id = o.object_id WHERE o.id_city = ${city_id} AND l.year = ${year};
`
// Get original lines from EMS
const originalLines = await this.emsDataSource.query(`
SELECT o.[object_id], o.[id_city], o.[id_parent], o.[type], o.[planning], o.[activity], o.[kvr], o.[jur], o.[fuel], o.[boiler_id],
l.[x1], l.[y1], l.[x2], l.[y2], l.[points], l.[label_offset], l.[group_id], l.[show_label], l.[forced_lengths], l.[label_sizes], l.[label_angles], l.[label_positions], l.[year]
FROM New_Gis..lines l
JOIN nGeneral..vObjects o ON l.object_id = o.object_id WHERE o.id_city = ${city_id} AND l.year = ${year};
`)
// Get modified lines from SQLite for the same year
const modifiedLines = await this.dataSource.query(
`SELECT * FROM lines WHERE year = ?`,
[year]
)
return result
// Create lookup map with object_id + year
const modifiedMap = new Map()
modifiedLines.forEach(line => {
const key = `${line.object_id}_${line.year}`
modifiedMap.set(key, line)
})
// Replace original with modified
const mergedResult = originalLines.map(original => {
const key = `${original.object_id}_${year}`
const modified = modifiedMap.get(key)
if (modified) {
return {
...original,
modified: modified.feature
}
}
return original
})
return mergedResult
}
async getRegionBorders(): Promise<any[]> {
@ -150,4 +232,63 @@ export class GisService {
return result
}
async updateFeaturesBatch(features: any[]) {
let figures: any[] = []
let lines: any[] = []
features.map(feature => {
if (feature.type === 'figure') {
figures.push(feature)
} else if (feature.type === 'line') {
lines.push(feature)
}
})
console.log('Figures to update:', figures.length)
console.log('Lines to update:', lines.length)
// Update figures
if (figures.length > 0) {
const figurePlaceholders = figures.map(() =>
`(?, ?, ?)`
).join(', ')
const figureParams = figures.flatMap(fig => [
fig.object_id,
fig.year, // Default year if not provided
JSON.stringify(fig.feature)
])
await this.dataSource.query(`
INSERT OR REPLACE INTO figures
(object_id, year, feature)
VALUES ${figurePlaceholders}
`, figureParams)
}
// Update lines
if (lines.length > 0) {
const linePlaceholders = lines.map(() =>
`(?, ?, ?)`
).join(', ')
const lineParams = lines.flatMap(line => [
line.object_id,
line.year,
JSON.stringify(line.feature)
])
await this.dataSource.query(`
INSERT OR REPLACE INTO lines
(object_id, year, feature)
VALUES ${linePlaceholders}
`, lineParams)
}
return {
success: true,
message: `Updated ${figures.length} figures and ${lines.length} lines`
}
}
}

2
server/src/main.ts
View File

@ -2,12 +2,14 @@ import { NestFactory } from '@nestjs/core';
import { SwaggerModule, DocumentBuilder } from '@nestjs/swagger';
import { AppModule } from './app.module';
import { ValidationPipe } from '@nestjs/common';
import { json } from 'express';
async function bootstrap() {
const app = await NestFactory.create(AppModule, {
cors: true
});
app.enableCors()
app.use(json({ limit: '50mb' }))
app.useGlobalPipes(new ValidationPipe({ transform: true }))
const config = new DocumentBuilder()
.setTitle('Fuel API')