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How to use angular Material to make statistical tables? The following article will introduce to you how to useangularMaterial to make statistical tables. I hope it will be helpful to you!
Use angular Material to make statistical tables
Install Angular Material, component development tool (CDK) and Angular animation library, and running the code schematic
ng add @angular/material
The table schematic will create a component that renders an Angular Material pre-built with sortable, pagable data sources. [Recommended related tutorials: "angular tutorial"]
ng generate @angular/material:table texe1
Then make modifications based on this.
The html file of this component
序号 {{row.id}} 岩土名 {{row.name}} 期望数量 {{row.num1}} 当前数量 {{row.num2}}
The texe1-datasource.ts file of this component
import { DataSource } from '@angular/cdk/collections'; import { MatPaginator } from '@angular/material/paginator'; import { MatSort } from '@angular/material/sort'; import { map } from 'rxjs/operators'; import { Observable, of as observableOf, merge } from 'rxjs'; // TODO: Replace this with your own data model type export interface Texe1Item { name: string; id: number; num1: number; num2: number; } // TODO: replace this with real data from your application const EXAMPLE_DATA: Texe1Item[] = [ {id: 1, name: '粉质粘土', num1:1000, num2:100,}, {id: 2, name: '淤泥质粉质粘土', num1:1000, num2:100,}, {id: 3, name: '粘土', num1:1000, num2:100,}, {id: 4, name: '粘质粉土', num1:1000, num2:100,}, {id: 5, name: '淤泥质粘土', num1:1000, num2:100,}, {id: 6, name: '圆砾(角砾)', num1:1000, num2:100,}, {id: 7, name: '中砂', num1:1000, num2:1000,}, {id: 8, name: '有机质土', num1:1000, num2:100,}, {id: 9, name: '泥炭质土A', num1:1000, num2:100,}, {id: 10, name: '泥炭质土B', num1:1000, num2:100,}, {id: 11, name: '砂质粉土', num1:1000, num2:100,}, {id: 12, name: '粉砂', num1:1000, num2:100,}, {id: 13, name: '细砂', num1:1000, num2:100,}, {id: 14, name: '粗砂', num1:1000, num2:100,}, {id: 15, name: '砾砂', num1:1000, num2:100,}, {id: 16, name: '卵石(碎石)', num1:1000, num2:100,}, {id: 17, name: '漂石(块石)', num1:1000, num2:100,}, ]; /** * Data source for the Texe1 view. This class should * encapsulate all logic for fetching and manipulating the displayed data * (including sorting, pagination, and filtering). */ export class Texe1DataSource extends DataSource{ data: Texe1Item[] = EXAMPLE_DATA; paginator: MatPaginator | undefined; sort: MatSort | undefined; constructor() { super(); } /** * Connect this data source to the table. The table will only update when * the returned stream emits new items. * @returns A stream of the items to be rendered. */ connect(): Observable { if (this.paginator && this.sort) { // Combine everything that affects the rendered data into one update // stream for the data-table to consume. return merge(observableOf(this.data), this.paginator.page, this.sort.sortChange) .pipe(map(() => { return this.getPagedData(this.getSortedData([...this.data ])); })); } else { throw Error('Please set the paginator and sort on the data source before connecting.'); } } /** * Called when the table is being destroyed. Use this function, to clean up * any open connections or free any held resources that were set up during connect. */ disconnect(): void {} /** * Paginate the data (client-side). If you're using server-side pagination, * this would be replaced by requesting the appropriate data from the server. */ private getPagedData(data: Texe1Item[]): Texe1Item[] { if (this.paginator) { const startIndex = this.paginator.pageIndex * this.paginator.pageSize; return data.splice(startIndex, this.paginator.pageSize); } else { return data; } } /** * Sort the data (client-side). If you're using server-side sorting, * this would be replaced by requesting the appropriate data from the server. */ private getSortedData(data: Texe1Item[]): Texe1Item[] { if (!this.sort || !this.sort.active || this.sort.direction === '') { return data; } return data.sort((a, b) => { const isAsc = this.sort?.direction === 'asc'; switch (this.sort?.active) { case 'name': return compare(a.name, b.name, isAsc); case 'id': return compare(+a.id, +b.id, isAsc); default: return 0; } }); } } /** Simple sort comparator for example ID/Name columns (for client-side sorting). */ function compare(a: string | number, b: string | number, isAsc: boolean): number { return (a < b ? -1 : 1) * (isAsc ? 1 : -1); }
The texe1.component.ts file of this component
import { AfterViewInit, Component, ViewChild } from '@angular/core'; import { MatPaginator } from '@angular/material/paginator'; import { MatSort } from '@angular/material/sort'; import { MatTable } from '@angular/material/table'; import { Texe1DataSource, Texe1Item } from './texe1-datasource'; @Component({ selector: 'app-texe1', templateUrl: './texe1.component.html', styleUrls: ['./texe1.component.css'] }) export class Texe1Component implements AfterViewInit { @ViewChild(MatPaginator) paginator!: MatPaginator; @ViewChild(MatSort) sort!: MatSort; @ViewChild(MatTable) table!: MatTable; dataSource: Texe1DataSource; /** Columns displayed in the table. Columns IDs can be added, removed, or reordered. */ displayedColumns = ['id', 'name','num1','num2']; constructor() { this.dataSource = new Texe1DataSource(); } ngAfterViewInit(): void { this.dataSource.sort = this.sort; this.dataSource.paginator = this.paginator; this.table.dataSource = this.dataSource; } }
Finally, it is displayed in the app.component.html file.
Rendering:
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