Terapkan gaya ke fitur data dengan menetapkan properti style
pada lapisan fitur
set data ke google.maps.FeatureStyleFunction
, yang dapat berisi logika
gaya visual, atau google.maps.FeatureStyleOptions
, untuk menata gaya semua fitur secara seragam
dalam satu lapisan. Anda dapat menerapkan gaya ke fitur data untuk isian (warna, opasitas), goresan (warna, opasitas, ketebalan goresan), dan diameter (titik). Halaman ini menguraikan cara mengakses set data dan menata gaya fiturnya secara terprogram, serta menjelaskan contoh-contoh gaya visual untuk fitur data berdasarkan geometri titik, poligon, dan polyline.
Gaya visual berbasis data untuk set data merender fitur data berdasarkan koordinat lintang dan bujur yang diberikan dari file data geospasial yang digunakan untuk membuat set data.
Atribut fitur data
Semua data dalam set data dapat diakses di fungsi gaya fitur. Untuk mendapatkan atribut fitur data, pertama-tama dapatkan fitur set data yang berisi semua data dalam set data, lalu dapatkan atribut data spesifik yang Anda inginkan, seperti yang ditampilkan di sini:
TypeScript
// Get the dataset feature, so we can work with all of its attributes. const datasetFeature = params.feature; // Get all of the needed dataset attributes. const furColors = datasetFeature.datasetAttributes['CombinationofPrimaryandHighlightColor'];
JavaScript
// Get the dataset feature, so we can work with all of its attributes. const datasetFeature = params.feature; // Get all of the needed dataset attributes. const furColors = datasetFeature.datasetAttributes["CombinationofPrimaryandHighlightColor"];
Opsi gaya fitur
Opsi gaya fitur adalah tempat Anda menentukan gaya visual untuk lapisan fitur data, misalnya menata gaya isian dan goresan untuk poligon, atau warna dan diameter titik. Contoh berikut menunjukkan opsi gaya fitur, yang dapat
diterapkan langsung menggunakan properti style
untuk fitur:
TypeScript
// Apply style to all features. datasetLayer.style = { strokeColor: 'green', strokeWeight: 4, };
JavaScript
// Apply style to all features. datasetLayer.style = { strokeColor: "green", strokeWeight: 4 };
Fungsi gaya fitur
Gunakan fungsi gaya fitur untuk menentukan logika bagi penataan gaya fitur set data.
Untuk menata gaya fitur, tetapkan properti style
ke google.maps.FeatureStyleFunction
.
Fungsi gaya adalah tempat Anda menentukan logika untuk menata gaya setiap fitur di lapisan fitur. Jika featureLayer.style
ditetapkan, fungsi gaya dijalankan pada setiap fitur di lapisan fitur yang terpengaruh. Fungsi ini diterapkan saat Anda menetapkan properti gaya. Untuk memperbaruinya, Anda harus kembali menetapkan
properti gaya. Contoh berikut menunjukkan fungsi gaya fitur yang sederhana:
TypeScript
const styleDefault = { strokeColor: 'green', strokeWeight: 2.0, strokeOpacity: 1.0, fillColor: 'green', fillOpacity: 0.3, }; const styleClicked = { ...styleDefault, strokeColor: 'blue', fillColor: 'blue', fillOpacity: 0.5, }; const styleMouseMove = { ...styleDefault, strokeWeight: 4.0 }; function applyStyle(/* FeatureStyleFunctionOptions */ params) { const datasetFeature = params.feature; // Note, 'globalid' is an attribute in this dataset. //@ts-ignore if (lastClickedFeatureIds.includes(datasetFeature.datasetAttributes['globalid'])) { return styleClicked; } //@ts-ignore if (lastInteractedFeatureIds.includes(datasetFeature.datasetAttributes['globalid'])) { return styleMouseMove; } return styleDefault; }
JavaScript
const styleDefault = { strokeColor: "green", strokeWeight: 2.0, strokeOpacity: 1.0, fillColor: "green", fillOpacity: 0.3, }; const styleClicked = { ...styleDefault, strokeColor: "blue", fillColor: "blue", fillOpacity: 0.5, }; const styleMouseMove = { ...styleDefault, strokeWeight: 4.0, }; function applyStyle(/* FeatureStyleFunctionOptions */ params) { const datasetFeature = params.feature; // Note, 'globalid' is an attribute in this dataset. //@ts-ignore if ( lastClickedFeatureIds.includes(datasetFeature.datasetAttributes["globalid"]) ) { return styleClicked; } //@ts-ignore if ( lastInteractedFeatureIds.includes( datasetFeature.datasetAttributes["globalid"], ) ) { return styleMouseMove; } return styleDefault; }
Fungsi gaya harus selalu menampilkan hasil yang konsisten saat diterapkan
pada fitur. Misalnya, jika Anda ingin mewarnai sekumpulan fitur secara acak,
bagian acak tersebut tidak boleh terjadi di fungsi gaya fitur, karena
akan menyebabkan hasil yang tidak diinginkan. Karena fungsi ini berjalan di setiap fitur dalam lapisan,
pengoptimalan harus dilakukan. Agar tidak memengaruhi waktu rendering, tetapkan
gaya ke null
saat lapisan tidak lagi digunakan.
Contoh gaya visual data titik
Contoh ini menunjukkan pendekatan untuk menata gaya fitur data berbasis geometri titik.
Tentang set data
Set data yang digunakan dalam contoh ini adalah hasil dari survei tupai tahun 2018 di Central Park, New York City.
Dalam kutipan berikut dari file data CSV, kita melihat bahwa kolom x
dan y
digunakan untuk geografi; kolom LatLng
disertakan, tetapi tidak digunakan dalam contoh ini karena posisi geografis harus diwakili oleh dua kolom. Set
data sensus tupai berisi berbagai macam titik data menarik
yang terkait dengan warna bulu dan perilaku tupai yang diamati (scroll secara
horizontal untuk melihat semuanya).
X | Y | UniqueSquirrelID | Hektar | Shift | Tanggal | Jumlah Tupai Hektar | Usia | Warna Bulu Utama | Warna Bulu Sekunder | Kombinasi Warna Utama dan Sekunder | Unsur Warna | Lokasi | Pengukuran di Atas Tanah | Lokasi Spesifik | Berlari | Mengejar | Memanjat | Makan | Mencari Makanan | Aktivitas Lainnya | Kuks | Quaas | Moans | Ekor Mengibas | Ekor Bergerak | Mendekati | Bersikap tidak peduli | Berlari dari | Interaksi Lainnya | LatLng |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
-73.9561344937861 | 40.7940823884086 | 37F-PM-1014-03 | 37F | Sore/Malam | 10142018 | 3 | + | false | false | false | false | false | false | false | false | false | false | false | false | false | POINT (-73.9561344937861 40.7940823884086) | |||||||||
-73.9688574691102 | 40.7837825208444 | 21B-AM-1019-04 | 21B | Pagi | 10192018 | 4 | + | false | false | false | false | false | false | false | false | false | false | false | false | false | POINT (-73.9688574691102 40.7837825208444) | |||||||||
-73.9742811484852 | 40.775533619083 | 11B-PM-1014-08 | 11B | Sore/Malam | 10142018 | 8 | Abu-abu | Abu-abu+ | Di Atas Tanah | 10 | false | true | false | false | false | false | false | false | false | false | false | false | false | POINT (-73.97428114848522 40.775533619083) | ||||||
-73.9596413903948 | 40.7903128889029 | 32E-PM-1017-14 | 32E | Sore/Malam | 10172018 | 14 | Dewasa | Abu-abu | Abu-abu+ | Tidak ada yang dipilih sebagai Utama. Abu-abu dipilih sebagai Sorotan. Melakukan penyesuaian eksekutif. | false | false | false | true | true | false | false | false | false | false | false | false | true | POINT (-73.9596413903948 40.7903128889029) | ||||||
-73.9702676472613 | 40.7762126854894 | 13E-AM-1017-05 | 13E | Pagi | 10172018 | 5 | Dewasa | Abu-abu | Kayu Manis | Abu-abu+Kayu Manis | Di Atas Tanah | pada tunggul pohon | false | false | false | false | true | false | false | false | false | false | false | false | false | POINT (-73.9702676472613 40.7762126854894) | ||||
-73.9683613516225 | 40.7725908847499 | 11H-AM-1010-03 | 11H | Pagi | 10102018 | 3 | Dewasa | Kayu Manis | Putih | Kayu Manis+Putih | false | false | false | false | true | false | false | false | false | true | false | true | false | POINT (-73.9683613516225 40.7725908847499) | ||||||
-73.9541201789795 | 40.7931811701082 | 36H-AM-1010-02 | 36H | Pagi | 10102018 | 2 | Dewasa | Abu-abu | Abu-abu+ | di luar hektar | Permukaan Tanah | FALSE | false | false | false | false | true | false | false | false | false | false | false | false | false | POINT (-73.9541201789795 40.7931811701082) |
Menata gaya fitur data titik
Kode dalam contoh ini menggunakan pendekatan sederhana untuk menata gaya warna isian dan warna goresan untuk setiap titik berdasarkan atribut CombinationofPrimaryandHighlightColor
, yang menggabungkan warna bulu utama dan sekunder untuk setiap tupai.
TypeScript
function setStyle(/* FeatureStyleFunctionOptions */ params) { // Get the dataset feature, so we can work with all of its attributes. const datasetFeature = params.feature; // Get all of the needed dataset attributes. const furColors = datasetFeature.datasetAttributes['CombinationofPrimaryandHighlightColor']; // Apply styles. Fill is primary fur color, stroke is secondary fur color. switch (furColors) { case 'Black+': return /* FeatureStyleOptions */ { fillColor: 'black', pointRadius: 8 }; break; case 'Cinnamon+': return /* FeatureStyleOptions */ { fillColor: '#8b0000', pointRadius: 8 }; break; case 'Cinnamon+Gray': return /* FeatureStyleOptions */ { fillColor: '#8b0000', strokeColor: 'gray', pointRadius: 6 }; break; case 'Cinnamon+White': return /* FeatureStyleOptions */ { fillColor: '#8b0000', strokeColor: 'white', pointRadius: 6 }; break; case 'Gray+': return /* FeatureStyleOptions */ { fillColor: 'gray', pointRadius: 8 }; break; case 'Gray+Cinnamon': return /* FeatureStyleOptions */ { fillColor: 'gray', strokeColor: '#8b0000', pointRadius: 6 }; break; case 'Gray+Cinnamon, White': return /* FeatureStyleOptions */ { fillColor: 'silver', strokeColor: '#8b0000', pointRadius: 6 }; break; case 'Gray+White': return /* FeatureStyleOptions */ { fillColor: 'gray', strokeColor: 'white', pointRadius: 6 }; break; default: // Color not defined. return /* FeatureStyleOptions */ { fillColor: 'yellow', pointRadius: 8 }; break; } }
JavaScript
function setStyle(/* FeatureStyleFunctionOptions */ params) { // Get the dataset feature, so we can work with all of its attributes. const datasetFeature = params.feature; // Get all of the needed dataset attributes. const furColors = datasetFeature.datasetAttributes["CombinationofPrimaryandHighlightColor"]; // Apply styles. Fill is primary fur color, stroke is secondary fur color. switch (furColors) { case "Black+": return /* FeatureStyleOptions */ { fillColor: "black", pointRadius: 8 }; break; case "Cinnamon+": return /* FeatureStyleOptions */ { fillColor: "#8b0000", pointRadius: 8 }; break; case "Cinnamon+Gray": return /* FeatureStyleOptions */ { fillColor: "#8b0000", strokeColor: "gray", pointRadius: 6, }; break; case "Cinnamon+White": return /* FeatureStyleOptions */ { fillColor: "#8b0000", strokeColor: "white", pointRadius: 6, }; break; case "Gray+": return /* FeatureStyleOptions */ { fillColor: "gray", pointRadius: 8 }; break; case "Gray+Cinnamon": return /* FeatureStyleOptions */ { fillColor: "gray", strokeColor: "#8b0000", pointRadius: 6, }; break; case "Gray+Cinnamon, White": return /* FeatureStyleOptions */ { fillColor: "silver", strokeColor: "#8b0000", pointRadius: 6, }; break; case "Gray+White": return /* FeatureStyleOptions */ { fillColor: "gray", strokeColor: "white", pointRadius: 6, }; break; default: // Color not defined. return /* FeatureStyleOptions */ { fillColor: "yellow", pointRadius: 8 }; break; } }
Kode contoh lengkap
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TypeScript
let map; function setStyle(/* FeatureStyleFunctionOptions */ params) { // Get the dataset feature, so we can work with all of its attributes. const datasetFeature = params.feature; // Get all of the needed dataset attributes. const furColors = datasetFeature.datasetAttributes['CombinationofPrimaryandHighlightColor']; // Apply styles. Fill is primary fur color, stroke is secondary fur color. switch (furColors) { case 'Black+': return /* FeatureStyleOptions */ { fillColor: 'black', pointRadius: 8 }; break; case 'Cinnamon+': return /* FeatureStyleOptions */ { fillColor: '#8b0000', pointRadius: 8 }; break; case 'Cinnamon+Gray': return /* FeatureStyleOptions */ { fillColor: '#8b0000', strokeColor: 'gray', pointRadius: 6 }; break; case 'Cinnamon+White': return /* FeatureStyleOptions */ { fillColor: '#8b0000', strokeColor: 'white', pointRadius: 6 }; break; case 'Gray+': return /* FeatureStyleOptions */ { fillColor: 'gray', pointRadius: 8 }; break; case 'Gray+Cinnamon': return /* FeatureStyleOptions */ { fillColor: 'gray', strokeColor: '#8b0000', pointRadius: 6 }; break; case 'Gray+Cinnamon, White': return /* FeatureStyleOptions */ { fillColor: 'silver', strokeColor: '#8b0000', pointRadius: 6 }; break; case 'Gray+White': return /* FeatureStyleOptions */ { fillColor: 'gray', strokeColor: 'white', pointRadius: 6 }; break; default: // Color not defined. return /* FeatureStyleOptions */ { fillColor: 'yellow', pointRadius: 8 }; break; } } async function initMap() { // Request needed libraries. const { Map } = await google.maps.importLibrary('maps') as google.maps.MapsLibrary; const position = {lat: 40.780101, lng: -73.967780}; const map = new Map(document.getElementById('map') as HTMLElement, { zoom: 17, center: position, mapId: 'b98e588c46685dd7', mapTypeControl: false, streetViewControl: false, fullscreenControl: false, }); // Add the data legend. makeLegend(map); // Dataset ID for squirrel dataset. const datasetId = '02fa1552-37dd-4a95-844f-f99e1c22541f'; //@ts-ignore const datasetLayer = map.getDatasetFeatureLayer(datasetId); //@ts-ignore datasetLayer.style = setStyle; // Create an attribution DIV and add the attribution to the map. const attributionDiv = document.createElement('div'); const attributionControl = createAttribution(map); attributionDiv.appendChild(attributionControl); map.controls[google.maps.ControlPosition.BOTTOM_LEFT].push(attributionDiv); } // Create a custom control to hold attribution text. function createAttribution(map) { const attributionLabel = document.createElement('div'); // Define CSS styles. attributionLabel.style.backgroundColor = '#fff'; attributionLabel.style.opacity = '0.7'; attributionLabel.style.fontFamily = 'Roboto,Arial,sans-serif'; attributionLabel.style.fontSize = '10px'; attributionLabel.style.padding = '2px'; attributionLabel.style.margin = '2px'; attributionLabel.textContent = 'Data source: NYC Open Data'; return attributionLabel; } function makeLegend(map) { let colors = { 'black': ['black'], 'cinnamon': ['#8b0000'], 'cinnamon + gray': ['#8b0000','gray'], 'cinnamon + white': ['#8b0000', 'white'], 'gray': ['gray'], 'gray + cinnamon': ['gray', '#8b0000'], 'gray + cinnamon + white': ['silver', '#8b0000'], 'gray + white': ['gray', 'white'], 'no color data': ['yellow'], }; let legend = document.createElement('div'); legend.id = 'legend'; let title = document.createElement('div'); title.innerText = 'Fur Colors'; title.classList.add('title'); legend.appendChild(title); let k; for (k in colors) { let wrapper = document.createElement('div'); wrapper.id = 'container'; let box = document.createElement('div'); box.style.backgroundColor = colors[k][0]; if (colors[k][1]) { box.style.borderColor = colors[k][1]; } else { box.style.borderColor = colors[k][0]; } box.classList.add('box'); let txt = document.createElement('div'); txt.classList.add('legend'); txt.innerText = k; wrapper.appendChild(box); wrapper.appendChild(txt); legend.appendChild(wrapper); } map.controls[google.maps.ControlPosition.LEFT_TOP].push(legend); } initMap();
JavaScript
let map; function setStyle(/* FeatureStyleFunctionOptions */ params) { // Get the dataset feature, so we can work with all of its attributes. const datasetFeature = params.feature; // Get all of the needed dataset attributes. const furColors = datasetFeature.datasetAttributes["CombinationofPrimaryandHighlightColor"]; // Apply styles. Fill is primary fur color, stroke is secondary fur color. switch (furColors) { case "Black+": return /* FeatureStyleOptions */ { fillColor: "black", pointRadius: 8 }; break; case "Cinnamon+": return /* FeatureStyleOptions */ { fillColor: "#8b0000", pointRadius: 8 }; break; case "Cinnamon+Gray": return /* FeatureStyleOptions */ { fillColor: "#8b0000", strokeColor: "gray", pointRadius: 6, }; break; case "Cinnamon+White": return /* FeatureStyleOptions */ { fillColor: "#8b0000", strokeColor: "white", pointRadius: 6, }; break; case "Gray+": return /* FeatureStyleOptions */ { fillColor: "gray", pointRadius: 8 }; break; case "Gray+Cinnamon": return /* FeatureStyleOptions */ { fillColor: "gray", strokeColor: "#8b0000", pointRadius: 6, }; break; case "Gray+Cinnamon, White": return /* FeatureStyleOptions */ { fillColor: "silver", strokeColor: "#8b0000", pointRadius: 6, }; break; case "Gray+White": return /* FeatureStyleOptions */ { fillColor: "gray", strokeColor: "white", pointRadius: 6, }; break; default: // Color not defined. return /* FeatureStyleOptions */ { fillColor: "yellow", pointRadius: 8 }; break; } } async function initMap() { // Request needed libraries. const { Map } = await google.maps.importLibrary("maps"); const position = { lat: 40.780101, lng: -73.96778 }; const map = new Map(document.getElementById("map"), { zoom: 17, center: position, mapId: "b98e588c46685dd7", mapTypeControl: false, streetViewControl: false, fullscreenControl: false, }); // Add the data legend. makeLegend(map); // Dataset ID for squirrel dataset. const datasetId = "02fa1552-37dd-4a95-844f-f99e1c22541f"; //@ts-ignore const datasetLayer = map.getDatasetFeatureLayer(datasetId); //@ts-ignore datasetLayer.style = setStyle; // Create an attribution DIV and add the attribution to the map. const attributionDiv = document.createElement("div"); const attributionControl = createAttribution(map); attributionDiv.appendChild(attributionControl); map.controls[google.maps.ControlPosition.BOTTOM_LEFT].push(attributionDiv); } // Create a custom control to hold attribution text. function createAttribution(map) { const attributionLabel = document.createElement("div"); // Define CSS styles. attributionLabel.style.backgroundColor = "#fff"; attributionLabel.style.opacity = "0.7"; attributionLabel.style.fontFamily = "Roboto,Arial,sans-serif"; attributionLabel.style.fontSize = "10px"; attributionLabel.style.padding = "2px"; attributionLabel.style.margin = "2px"; attributionLabel.textContent = "Data source: NYC Open Data"; return attributionLabel; } function makeLegend(map) { let colors = { "black": ["black"], "cinnamon": ["#8b0000"], "cinnamon + gray": ["#8b0000", "gray"], "cinnamon + white": ["#8b0000", "white"], "gray": ["gray"], "gray + cinnamon": ["gray", "#8b0000"], "gray + cinnamon + white": ["silver", "#8b0000"], "gray + white": ["gray", "white"], "no color data": ["yellow"], }; let legend = document.createElement("div"); legend.id = "legend"; let title = document.createElement("div"); title.innerText = "Fur Colors"; title.classList.add("title"); legend.appendChild(title); let k; for (k in colors) { let wrapper = document.createElement("div"); wrapper.id = "container"; let box = document.createElement("div"); box.style.backgroundColor = colors[k][0]; if (colors[k][1]) { box.style.borderColor = colors[k][1]; } else { box.style.borderColor = colors[k][0]; } box.classList.add("box"); let txt = document.createElement("div"); txt.classList.add("legend"); txt.innerText = k; wrapper.appendChild(box); wrapper.appendChild(txt); legend.appendChild(wrapper); } map.controls[google.maps.ControlPosition.LEFT_TOP].push(legend); } initMap();
CSS
/* * Always set the map height explicitly to define the size of the div element * that contains the map. */ #map { height: 100%; } /* * Optional: Makes the sample page fill the window. */ html, body { height: 100%; margin: 0; padding: 0; } #legend, #dataset, #counter { background-color: #e5e5e5; width: 15em; margin-top: 2em; margin-left: 1em; border-radius: 8px; font-family: Roboto; overflow: hidden; } #dataset select { border-radius: 0; padding: 0.1em; border: 1px solid black; width: auto; margin: 0.5em 1em; } .title { padding: 0.5em 1em; font-weight: bold; font-size: 1.5em; margin-bottom: 0.5em; background-color: rgb(66, 133, 244); color: white; width: 100%; } .button { font-size: 1.2em; margin: 1em; background-color: rgb(66, 133, 244); color: white; padding: 0.5em; border-radius: 8px; } #legend #container { margin: 0.5em 1em; display: flex; } #legend div .box { display: flex; width: 2em; height: 2em; border-radius: 50%; border: 3px solid; } #legend div .legend { display: flex; padding: 0.5em; }
HTML
<html> <head> <title>Style a point data feature</title> <link rel="stylesheet" type="text/css" href="./style.css" /> <script type="module" src="./index.js"></script> </head> <body> <div id="map"></div> <!-- prettier-ignore --> <script>(g=>{var h,a,k,p="The Google Maps JavaScript API",c="google",l="importLibrary",q="__ib__",m=document,b=window;b=b[c]||(b[c]={});var d=b.maps||(b.maps={}),r=new Set,e=new URLSearchParams,u=()=>h||(h=new Promise(async(f,n)=>{await (a=m.createElement("script"));e.set("libraries",[...r]+"");for(k in g)e.set(k.replace(/[A-Z]/g,t=>"_"+t[0].toLowerCase()),g[k]);e.set("callback",c+".maps."+q);a.src=`https://maps.${c}apis.com/maps/api/js?`+e;d[q]=f;a.onerror=()=>h=n(Error(p+" could not load."));a.nonce=m.querySelector("script[nonce]")?.nonce||"";m.head.append(a)}));d[l]?console.warn(p+" only loads once. Ignoring:",g):d[l]=(f,...n)=>r.add(f)&&u().then(()=>d[l](f,...n))}) ({key: "AIzaSyB41DRUbKWJHPxaFjMAwdrzWzbVKartNGg", v: "beta"});</script> </body> </html>
Mencoba Contoh
Contoh gaya visual data poligon
Contoh ini menunjukkan pendekatan untuk menata gaya fitur data berbasis geometri poligon.
Tentang set data
Set data yang digunakan dalam contoh ini menggambarkan taman di New York City. Kutipan berikut yang berasal dari file GeoJSON set data menunjukkan entri fitur yang representatif.
{ "type": "Feature", "properties": { "jurisdiction": "DPR", "mapped": "False", "zipcode": "11356", "acres": "0.05", "location": "College Pl., College Pt. Blvd., bet. 11 Ave. and 12 Ave.", "nys_assembly": "27", "councildistrict": "19", "url": "http://www.nycgovparks.org/parks/Q042/", "typecategory": "Triangle/Plaza", "us_congress": "14", "eapply": "Poppenhusen Park", "parentid": "Q-07", "gispropnum": "Q042", "retired": "false", "communityboard": "407", "objectid": "6248", "globalid": "F4810079-CBB9-4BE7-BBFA-B3C0C35D5DE5", "name311": "Poppenhusen Park", "department": "Q-07", "pip_ratable": "true", "subcategory": "Sitting Area/Triangle/Mall", "precinct": "109", "permit": "true", "acquisitiondate": null, "omppropid": "Q042", "gisobjid": "100000301", "signname": "Poppenhusen Park", "address": null, "permitparent": "Q-07", "class": "PARK", "nys_senate": "11", "permitdistrict": "Q-07", "borough": "Q", "waterfront": "false" }, "geometry": { "type": "MultiPolygon", "coordinates": [ [ [ [ -73.84575702371716, 40.78796240884273 ], [ -73.84593393292693, 40.78796857347548 ], [ -73.84577256469657, 40.787651355629556 ], [ -73.84575702371716, 40.78796240884273 ] ] ] ] } },
Menata gaya fitur data poligon
Kode dalam contoh ini menerapkan pewarnaan khusus untuk fitur data yang terkait
dengan typecategory
dari "Undeveloped" atau "Parkway", dan mewarnai semua fitur lainnya
dengan warna hijau.
TypeScript
function setStyle(/* FeatureStyleFunctionOptions */ params) { const datasetFeature = params.feature; // 'typecategory' is an attribute in this Dataset. const typeCategory = datasetFeature.datasetAttributes['typecategory']; switch (typeCategory) { case 'Undeveloped': // Color undeveloped areas blue. return /* FeatureStyleOptions */ { strokeColor: 'blue', strokeWeight: 2, strokeOpacity: 1, fillColor: 'blue', fillOpacity: 0.3, }; break; case 'Parkway': // Color historical house sites red. return /* FeatureStyleOptions */ { strokeColor: 'red', strokeWeight: 2, strokeOpacity: 1, fillColor: 'red', fillOpacity: 0.5, }; break; default: // Color other type categories green. return /* FeatureStyleOptions */ { strokeColor: 'green', strokeWeight: 2, strokeOpacity: 1, fillColor: 'green', fillOpacity: 0.3, }; break; } }
JavaScript
function setStyle(/* FeatureStyleFunctionOptions */ params) { const datasetFeature = params.feature; // 'typecategory' is an attribute in this Dataset. const typeCategory = datasetFeature.datasetAttributes["typecategory"]; switch (typeCategory) { case "Undeveloped": // Color undeveloped areas blue. return /* FeatureStyleOptions */ { strokeColor: "blue", strokeWeight: 2, strokeOpacity: 1, fillColor: "blue", fillOpacity: 0.3, }; break; case "Parkway": // Color historical house sites red. return /* FeatureStyleOptions */ { strokeColor: "red", strokeWeight: 2, strokeOpacity: 1, fillColor: "red", fillOpacity: 0.5, }; break; default: // Color other type categories green. return /* FeatureStyleOptions */ { strokeColor: "green", strokeWeight: 2, strokeOpacity: 1, fillColor: "green", fillOpacity: 0.3, }; break; } }
Kode contoh lengkap
Lihat contoh kode sumber yang lengkap
TypeScript
let map; function setStyle(/* FeatureStyleFunctionOptions */ params) { const datasetFeature = params.feature; // 'typecategory' is an attribute in this Dataset. const typeCategory = datasetFeature.datasetAttributes['typecategory']; switch (typeCategory) { case 'Undeveloped': // Color undeveloped areas blue. return /* FeatureStyleOptions */ { strokeColor: 'blue', strokeWeight: 2, strokeOpacity: 1, fillColor: 'blue', fillOpacity: 0.3, }; break; case 'Parkway': // Color historical house sites red. return /* FeatureStyleOptions */ { strokeColor: 'red', strokeWeight: 2, strokeOpacity: 1, fillColor: 'red', fillOpacity: 0.5, }; break; default: // Color other type categories green. return /* FeatureStyleOptions */ { strokeColor: 'green', strokeWeight: 2, strokeOpacity: 1, fillColor: 'green', fillOpacity: 0.3, }; break; } } async function initMap() { // Request needed libraries. const { Map } = await google.maps.importLibrary("maps") as google.maps.MapsLibrary; const position = {lat: 40.580732, lng: -74.152826}; const map = new Map(document.getElementById('map') as HTMLElement, { zoom: 14, center: position, mapId: 'b98e588c46685dd7', mapTypeControl: false, }); // Dataset ID for NYC park data. const datasetId = '6fe13aa9-b900-45e7-b636-3236672c3f4f'; //@ts-ignore const datasetLayer = map.getDatasetFeatureLayer(datasetId); datasetLayer.style = setStyle; // Create an attribution DIV and add the attribution to the map. const attributionDiv = document.createElement('div'); const attributionControl = createAttribution(map); attributionDiv.appendChild(attributionControl); map.controls[google.maps.ControlPosition.LEFT_BOTTOM].push(attributionDiv); } function createAttribution(map) { const attributionLabel = document.createElement('div'); // Define CSS styles. attributionLabel.style.backgroundColor = '#fff'; attributionLabel.style.opacity = '0.7'; attributionLabel.style.fontFamily = 'Roboto,Arial,sans-serif'; attributionLabel.style.fontSize = '10px'; attributionLabel.style.padding = '2px'; attributionLabel.style.margin = '2px'; attributionLabel.textContent = 'Data source: NYC Open Data'; return attributionLabel; } initMap();
JavaScript
let map; function setStyle(/* FeatureStyleFunctionOptions */ params) { const datasetFeature = params.feature; // 'typecategory' is an attribute in this Dataset. const typeCategory = datasetFeature.datasetAttributes["typecategory"]; switch (typeCategory) { case "Undeveloped": // Color undeveloped areas blue. return /* FeatureStyleOptions */ { strokeColor: "blue", strokeWeight: 2, strokeOpacity: 1, fillColor: "blue", fillOpacity: 0.3, }; break; case "Parkway": // Color historical house sites red. return /* FeatureStyleOptions */ { strokeColor: "red", strokeWeight: 2, strokeOpacity: 1, fillColor: "red", fillOpacity: 0.5, }; break; default: // Color other type categories green. return /* FeatureStyleOptions */ { strokeColor: "green", strokeWeight: 2, strokeOpacity: 1, fillColor: "green", fillOpacity: 0.3, }; break; } } async function initMap() { // Request needed libraries. const { Map } = await google.maps.importLibrary("maps"); const position = { lat: 40.580732, lng: -74.152826 }; const map = new Map(document.getElementById("map"), { zoom: 14, center: position, mapId: "b98e588c46685dd7", mapTypeControl: false, }); // Dataset ID for NYC park data. const datasetId = "6fe13aa9-b900-45e7-b636-3236672c3f4f"; //@ts-ignore const datasetLayer = map.getDatasetFeatureLayer(datasetId); datasetLayer.style = setStyle; // Create an attribution DIV and add the attribution to the map. const attributionDiv = document.createElement("div"); const attributionControl = createAttribution(map); attributionDiv.appendChild(attributionControl); map.controls[google.maps.ControlPosition.LEFT_BOTTOM].push(attributionDiv); } function createAttribution(map) { const attributionLabel = document.createElement("div"); // Define CSS styles. attributionLabel.style.backgroundColor = "#fff"; attributionLabel.style.opacity = "0.7"; attributionLabel.style.fontFamily = "Roboto,Arial,sans-serif"; attributionLabel.style.fontSize = "10px"; attributionLabel.style.padding = "2px"; attributionLabel.style.margin = "2px"; attributionLabel.textContent = "Data source: NYC Open Data"; return attributionLabel; } initMap();
CSS
/* * Always set the map height explicitly to define the size of the div element * that contains the map. */ #map { height: 100%; } /* * Optional: Makes the sample page fill the window. */ html, body { height: 100%; margin: 0; padding: 0; }
HTML
<html> <head> <title>Style a polygon data feature with more detail</title> <link rel="stylesheet" type="text/css" href="./style.css" /> <script type="module" src="./index.js"></script> </head> <body> <div id="map"></div> <!-- prettier-ignore --> <script>(g=>{var h,a,k,p="The Google Maps JavaScript API",c="google",l="importLibrary",q="__ib__",m=document,b=window;b=b[c]||(b[c]={});var d=b.maps||(b.maps={}),r=new Set,e=new URLSearchParams,u=()=>h||(h=new Promise(async(f,n)=>{await (a=m.createElement("script"));e.set("libraries",[...r]+"");for(k in g)e.set(k.replace(/[A-Z]/g,t=>"_"+t[0].toLowerCase()),g[k]);e.set("callback",c+".maps."+q);a.src=`https://maps.${c}apis.com/maps/api/js?`+e;d[q]=f;a.onerror=()=>h=n(Error(p+" could not load."));a.nonce=m.querySelector("script[nonce]")?.nonce||"";m.head.append(a)}));d[l]?console.warn(p+" only loads once. Ignoring:",g):d[l]=(f,...n)=>r.add(f)&&u().then(()=>d[l](f,...n))}) ({key: "AIzaSyB41DRUbKWJHPxaFjMAwdrzWzbVKartNGg", v: "beta"});</script> </body> </html>
Mencoba Contoh
Contoh gaya visual data polyline
Contoh ini menunjukkan pendekatan untuk menata gaya fitur data berbasis geometri polyline.
Tentang set data
Set data yang digunakan dalam contoh ini menunjukkan jembatan di area Seattle. Kutipan berikut yang berasal dari file GeoJSON set data menunjukkan entri fitur yang representatif.
{ "type": "Feature", "properties": { "OBJECTID": 1, "COMPTYPE": 66, "COMPKEY": 515774, "HANSEGKEY": 489781, "UNITID": "BRG-935", "UNITTYPE": " ", "BRGUNITID": "BRG-935", "UNITDESC_BRG": "YALE AVE BR REV LANE OC ", "UNITDESC_SEG": "HOWELL ST ON RP BETWEEN HOWELL ST AND I5 SB ", "INSTDATE": null, "EXPDATE": null, "STATUS": " ", "STATUSDT": null, "CONDITION": " ", "CONDDT": null, "OWN": " ", "LSTVERIFY": null, "MAINTBY": " ", "ADDBY": "GARCIAA", "ADDDTTM": "2010-01-21T00:00:00Z", "MODBY": null, "MODDTTM": null, "BR_NBR": 935, "BR_CODE": " 935", "BR_TYPE": "ST", "BR_NAME": "YALE AVE BR REV LANE OC", "BR_FACILITIES": "YALE AVE-SR 5 ON RAMP", "BR_FEATURES": "SR 5 REV LANE", "BR_RATING": 0, "BR_INSET": 1, "BR_GEO": "DT", "BR_OWNER": "DOT", "BR_OWNER_NAME": "State of Washington", "GEOBASID": 0, "XGEOBASID": 0, "GISSEGKEY": 489781, "EARTHQUAKE_RESPONSE_TEAM": " ", "SHAPE_Length": 220.11891836147655 }, "geometry": { "type": "LineString", "coordinates": [ [ -122.329201929090928, 47.616910448708538 ], [ -122.329206483407461, 47.616976719821004 ], [ -122.32921802149356, 47.617042137515213 ], [ -122.329236413912909, 47.617105967923777 ], [ -122.329261454336034, 47.617167494985758 ], [ -122.329292861855023, 47.617226028479571 ], [ -122.329330284134699, 47.617280911766009 ], [ -122.329373301365223, 47.617331529154569 ], [ -122.329421430971635, 47.617377312810319 ], [ -122.329474133027375, 47.617417749124023 ], [ -122.32953081631139, 47.617452384473893 ] ] } },
Menata gaya fitur data polyline
Cuplikan berikut menerapkan gaya yang sama secara langsung ke semua fitur data. Karena tidak ada logika yang diperlukan, fungsi gaya fitur tidak digunakan dalam kasus ini.
TypeScript
// Apply style to all features. datasetLayer.style = { strokeColor: 'green', strokeWeight: 4, };
JavaScript
// Apply style to all features. datasetLayer.style = { strokeColor: "green", strokeWeight: 4 };
Lihat contoh kode sumber yang lengkap
TypeScript
let map; async function initMap() { // Request needed libraries. const { Map } = await google.maps.importLibrary("maps") as google.maps.MapsLibrary; const position = {lat: 47.59, lng: -122.31}; const map = new Map(document.getElementById('map') as HTMLElement, { zoom: 14, center: position, mapId: 'b98e588c46685dd7', mapTypeControl: false, }); // Dataset ID for Seattle Bridges const datasetId = '3d0bd5fb-3f42-47fe-b50f-81c0932cd533'; //@ts-ignore const datasetLayer = map.getDatasetFeatureLayer(datasetId); // Apply style to all features. datasetLayer.style = { strokeColor: 'green', strokeWeight: 4, }; // Create an attribution DIV and add the attribution to the map. const attributionDiv = document.createElement('div'); const attributionControl = createAttribution(map); attributionDiv.appendChild(attributionControl); map.controls[google.maps.ControlPosition.LEFT_BOTTOM].push(attributionDiv); } // Create a custom control to hold attribution text. function createAttribution(map) { const attributionLabel = document.createElement('div'); // Define CSS styles. attributionLabel.style.backgroundColor = '#fff'; attributionLabel.style.opacity = '0.7'; attributionLabel.style.fontFamily = 'Roboto,Arial,sans-serif'; attributionLabel.style.fontSize = '10px'; attributionLabel.style.padding = '2px'; attributionLabel.style.margin = '2px'; attributionLabel.textContent = 'Data source: Seattle GeoData'; return attributionLabel; } initMap();
JavaScript
let map; async function initMap() { // Request needed libraries. const { Map } = await google.maps.importLibrary("maps"); const position = { lat: 47.59, lng: -122.31 }; const map = new Map(document.getElementById("map"), { zoom: 14, center: position, mapId: "b98e588c46685dd7", mapTypeControl: false, }); // Dataset ID for Seattle Bridges const datasetId = "3d0bd5fb-3f42-47fe-b50f-81c0932cd533"; //@ts-ignore const datasetLayer = map.getDatasetFeatureLayer(datasetId); // Apply style to all features. datasetLayer.style = { strokeColor: "green", strokeWeight: 4 }; // Create an attribution DIV and add the attribution to the map. const attributionDiv = document.createElement("div"); const attributionControl = createAttribution(map); attributionDiv.appendChild(attributionControl); map.controls[google.maps.ControlPosition.LEFT_BOTTOM].push(attributionDiv); } // Create a custom control to hold attribution text. function createAttribution(map) { const attributionLabel = document.createElement("div"); // Define CSS styles. attributionLabel.style.backgroundColor = "#fff"; attributionLabel.style.opacity = "0.7"; attributionLabel.style.fontFamily = "Roboto,Arial,sans-serif"; attributionLabel.style.fontSize = "10px"; attributionLabel.style.padding = "2px"; attributionLabel.style.margin = "2px"; attributionLabel.textContent = "Data source: Seattle GeoData"; return attributionLabel; } initMap();
CSS
/* * Always set the map height explicitly to define the size of the div element * that contains the map. */ #map { height: 100%; } /* * Optional: Makes the sample page fill the window. */ html, body { height: 100%; margin: 0; padding: 0; }
HTML
<html> <head> <title>Style a polyline data feature</title> <link rel="stylesheet" type="text/css" href="./style.css" /> <script type="module" src="./index.js"></script> </head> <body> <div id="map"></div> <!-- prettier-ignore --> <script>(g=>{var h,a,k,p="The Google Maps JavaScript API",c="google",l="importLibrary",q="__ib__",m=document,b=window;b=b[c]||(b[c]={});var d=b.maps||(b.maps={}),r=new Set,e=new URLSearchParams,u=()=>h||(h=new Promise(async(f,n)=>{await (a=m.createElement("script"));e.set("libraries",[...r]+"");for(k in g)e.set(k.replace(/[A-Z]/g,t=>"_"+t[0].toLowerCase()),g[k]);e.set("callback",c+".maps."+q);a.src=`https://maps.${c}apis.com/maps/api/js?`+e;d[q]=f;a.onerror=()=>h=n(Error(p+" could not load."));a.nonce=m.querySelector("script[nonce]")?.nonce||"";m.head.append(a)}));d[l]?console.warn(p+" only loads once. Ignoring:",g):d[l]=(f,...n)=>r.add(f)&&u().then(()=>d[l](f,...n))}) ({key: "AIzaSyB41DRUbKWJHPxaFjMAwdrzWzbVKartNGg", v: "beta"});</script> </body> </html>