planetaryjs globe 不工作 - javascript
planetaryjs globe not working - javascript
我想要这种类型的地球仪,为此我正在使用 planetaryjs。
我已经在外部资源中添加了必要的资源 link
包括所有的js文件和数据文件。
为什么地球没有加载?
(function() {
var canvas = document.getElementById('quakeCanvas');
// Create our Planetary.js planet and set some initial values;
// we use several custom plugins, defined at the bottom of the file
var planet = planetaryjs.planet();
planet.loadPlugin(autocenter({extraHeight: -120}));
planet.loadPlugin(autoscale({extraHeight: -120}));
planet.loadPlugin(planetaryjs.plugins.earth({
topojson: { file: '/world-110m.json' },
oceans: { fill: '#001320' },
land: { fill: '#06304e' },
borders: { stroke: '#001320' }
}));
planet.loadPlugin(planetaryjs.plugins.pings());
planet.loadPlugin(planetaryjs.plugins.zoom({
scaleExtent: [50, 5000]
}));
planet.loadPlugin(planetaryjs.plugins.drag({
onDragStart: function() {
this.plugins.autorotate.pause();
},
onDragEnd: function() {
this.plugins.autorotate.resume();
}
}));
planet.loadPlugin(autorotate(5));
planet.projection.rotate([100, -10, 0]);
planet.draw(canvas);
// Create a color scale for the various earthquake magnitudes; the
// minimum magnitude in our data set is 2.5.
var colors = d3.scale.pow()
.exponent(3)
.domain([2, 4, 6, 8, 10])
.range(['white', 'yellow', 'orange', 'red', 'purple']);
// Also create a scale for mapping magnitudes to ping angle sizes
var angles = d3.scale.pow()
.exponent(3)
.domain([2.5, 10])
.range([0.5, 15]);
// And finally, a scale for mapping magnitudes to ping TTLs
var ttls = d3.scale.pow()
.exponent(3)
.domain([2.5, 10])
.range([2000, 5000]);
// Create a key to show the magnitudes and their colors
d3.select('#magnitudes').selectAll('li')
.data(colors.ticks(9))
.enter()
.append('li')
.style('color', colors)
.text(function(d) {
return "Magnitude " + d;
});
// Load our earthquake data and set up the controls.
// The data consists of an array of objects in the following format:
// {
// mag: magnitude_of_quake
// lng: longitude_coordinates
// lat: latitude_coordinates
// time: timestamp_of_quake
// }
// The data is ordered, with the earliest data being the first in the file.
d3.json('/examples/quake/year_quakes_small.json', function(err, data) {
if (err) {
alert("Problem loading the quake data.");
return;
}
var start = parseInt(data[0].time, 10);
var end = parseInt(data[data.length - 1].time, 10);
var currentTime = start;
var lastTick = new Date().getTime();
var updateDate = function() {
d3.select('#date').text(moment(currentTime).utc().format("MMM DD YYYY HH:mm UTC"));
};
// A scale that maps a percentage of playback to a time
// from the data; for example, `50` would map to the halfway
// mark between the first and last items in our data array.
var percentToDate = d3.scale.linear()
.domain([0, 100])
.range([start, end]);
// A scale that maps real time passage to data playback time.
// 12 minutes of real time maps to the entirety of the
// timespan covered by the data.
var realToData = d3.scale.linear()
.domain([0, 1000 * 60 * 12])
.range([0, end - start]);
var paused = false;
// Pause playback and update the time display
// while scrubbing using the range input.
d3.select('#slider')
.on('change', function(d) {
currentTime = percentToDate(d3.event.target.value);
updateDate();
})
.call(d3.behavior.drag()
.on('dragstart', function() {
paused = true;
})
.on('dragend', function() {
paused = false;
})
);
// The main playback loop; for each tick, we'll see how much
// time passed in our accelerated playback reel and find all
// the earthquakes that happened in that timespan, adding
// them to the globe with a color and angle relative to their magnitudes.
d3.timer(function() {
var now = new Date().getTime();
if (paused) {
lastTick = now;
return;
}
var realDelta = now - lastTick;
// Avoid switching back to the window only to see thousands of pings;
// if it's been more than 500 milliseconds since we've updated playback,
// we'll just set the value to 500 milliseconds.
if (realDelta > 500) realDelta = 500;
var dataDelta = realToData(realDelta);
var toPing = data.filter(function(d) {
return d.time > currentTime && d.time <= currentTime + dataDelta;
});
for (var i = 0; i < toPing.length; i++) {
var ping = toPing[i];
planet.plugins.pings.add(ping.lng, ping.lat, {
// Here we use the `angles` and `colors` scales we built earlier
// to convert magnitudes to appropriate angles and colors.
angle: angles(ping.mag),
color: colors(ping.mag),
ttl: ttls(ping.mag)
});
}
currentTime += dataDelta;
if (currentTime > end) currentTime = start;
updateDate();
d3.select('#slider').property('value', percentToDate.invert(currentTime));
lastTick = now;
});
});
// Plugin to resize the canvas to fill the window and to
// automatically center the planet when the window size changes
function autocenter(options) {
options = options || {};
var needsCentering = false;
var globe = null;
var resize = function() {
var width = window.innerWidth + (options.extraWidth || 0);
var height = window.innerHeight + (options.extraHeight || 0);
globe.canvas.width = width;
globe.canvas.height = height;
globe.projection.translate([width / 2, height / 2]);
};
return function(planet) {
globe = planet;
planet.onInit(function() {
needsCentering = true;
d3.select(window).on('resize', function() {
needsCentering = true;
});
});
planet.onDraw(function() {
if (needsCentering) { resize(); needsCentering = false; }
});
};
};
// Plugin to automatically scale the planet's projection based
// on the window size when the planet is initialized
function autoscale(options) {
options = options || {};
return function(planet) {
planet.onInit(function() {
var width = window.innerWidth + (options.extraWidth || 0);
var height = window.innerHeight + (options.extraHeight || 0);
planet.projection.scale(Math.min(width, height) / 2);
});
};
};
// Plugin to automatically rotate the globe around its vertical
// axis a configured number of degrees every second.
function autorotate(degPerSec) {
return function(planet) {
var lastTick = null;
var paused = false;
planet.plugins.autorotate = {
pause: function() { paused = true; },
resume: function() { paused = false; }
};
planet.onDraw(function() {
if (paused || !lastTick) {
lastTick = new Date();
} else {
var now = new Date();
var delta = now - lastTick;
var rotation = planet.projection.rotate();
rotation[0] += degPerSec * delta / 1000;
if (rotation[0] >= 180) rotation[0] -= 360;
planet.projection.rotate(rotation);
lastTick = now;
}
});
};
};
})();
由于多种原因,您的地球未加载。首先,如果您打开控制台,您会看到外部资源没有正确加载。如错误所述,您的外部资源无法加载,因为:
MIME type ('text/plain') is not executable, and strict MIME type checking is enabled.
您可以通过双重方式解决这个问题。您可以参考 this 答案——这将帮助您解决 MIME 类型问题——或者您可以只使用其他 link 作为外部资源。如果您宁愿采用第二条路线,则应按以下顺序将下面的 link 添加到您的外部资源部分:
解决第一个问题后,您会发现无法通过简单地将 JSON 文件添加到外部资源来 link 文件。 将为您提供多种方法来帮助您解决 JSON 问题。
在您成功 linked 所有外部文件后,您将面临第三个问题。如果您查看您的代码,您会发现您正在尝试为您的 数据获取 time 属性 (JSON) 第 75 行中的对象--var start = parseInt(data[0].time, 10);
。但是,据我所知,您的数据对象不包含 time 属性--继续,console.log()
你的数据对象来查看它的结构和属性。换句话说,您可能需要仔细检查 world-110m.json
是否是您要使用的文件。
希望对您有所帮助。
我想要这种类型的地球仪,为此我正在使用 planetaryjs。
我已经在外部资源中添加了必要的资源 link 包括所有的js文件和数据文件。 为什么地球没有加载?
(function() {
var canvas = document.getElementById('quakeCanvas');
// Create our Planetary.js planet and set some initial values;
// we use several custom plugins, defined at the bottom of the file
var planet = planetaryjs.planet();
planet.loadPlugin(autocenter({extraHeight: -120}));
planet.loadPlugin(autoscale({extraHeight: -120}));
planet.loadPlugin(planetaryjs.plugins.earth({
topojson: { file: '/world-110m.json' },
oceans: { fill: '#001320' },
land: { fill: '#06304e' },
borders: { stroke: '#001320' }
}));
planet.loadPlugin(planetaryjs.plugins.pings());
planet.loadPlugin(planetaryjs.plugins.zoom({
scaleExtent: [50, 5000]
}));
planet.loadPlugin(planetaryjs.plugins.drag({
onDragStart: function() {
this.plugins.autorotate.pause();
},
onDragEnd: function() {
this.plugins.autorotate.resume();
}
}));
planet.loadPlugin(autorotate(5));
planet.projection.rotate([100, -10, 0]);
planet.draw(canvas);
// Create a color scale for the various earthquake magnitudes; the
// minimum magnitude in our data set is 2.5.
var colors = d3.scale.pow()
.exponent(3)
.domain([2, 4, 6, 8, 10])
.range(['white', 'yellow', 'orange', 'red', 'purple']);
// Also create a scale for mapping magnitudes to ping angle sizes
var angles = d3.scale.pow()
.exponent(3)
.domain([2.5, 10])
.range([0.5, 15]);
// And finally, a scale for mapping magnitudes to ping TTLs
var ttls = d3.scale.pow()
.exponent(3)
.domain([2.5, 10])
.range([2000, 5000]);
// Create a key to show the magnitudes and their colors
d3.select('#magnitudes').selectAll('li')
.data(colors.ticks(9))
.enter()
.append('li')
.style('color', colors)
.text(function(d) {
return "Magnitude " + d;
});
// Load our earthquake data and set up the controls.
// The data consists of an array of objects in the following format:
// {
// mag: magnitude_of_quake
// lng: longitude_coordinates
// lat: latitude_coordinates
// time: timestamp_of_quake
// }
// The data is ordered, with the earliest data being the first in the file.
d3.json('/examples/quake/year_quakes_small.json', function(err, data) {
if (err) {
alert("Problem loading the quake data.");
return;
}
var start = parseInt(data[0].time, 10);
var end = parseInt(data[data.length - 1].time, 10);
var currentTime = start;
var lastTick = new Date().getTime();
var updateDate = function() {
d3.select('#date').text(moment(currentTime).utc().format("MMM DD YYYY HH:mm UTC"));
};
// A scale that maps a percentage of playback to a time
// from the data; for example, `50` would map to the halfway
// mark between the first and last items in our data array.
var percentToDate = d3.scale.linear()
.domain([0, 100])
.range([start, end]);
// A scale that maps real time passage to data playback time.
// 12 minutes of real time maps to the entirety of the
// timespan covered by the data.
var realToData = d3.scale.linear()
.domain([0, 1000 * 60 * 12])
.range([0, end - start]);
var paused = false;
// Pause playback and update the time display
// while scrubbing using the range input.
d3.select('#slider')
.on('change', function(d) {
currentTime = percentToDate(d3.event.target.value);
updateDate();
})
.call(d3.behavior.drag()
.on('dragstart', function() {
paused = true;
})
.on('dragend', function() {
paused = false;
})
);
// The main playback loop; for each tick, we'll see how much
// time passed in our accelerated playback reel and find all
// the earthquakes that happened in that timespan, adding
// them to the globe with a color and angle relative to their magnitudes.
d3.timer(function() {
var now = new Date().getTime();
if (paused) {
lastTick = now;
return;
}
var realDelta = now - lastTick;
// Avoid switching back to the window only to see thousands of pings;
// if it's been more than 500 milliseconds since we've updated playback,
// we'll just set the value to 500 milliseconds.
if (realDelta > 500) realDelta = 500;
var dataDelta = realToData(realDelta);
var toPing = data.filter(function(d) {
return d.time > currentTime && d.time <= currentTime + dataDelta;
});
for (var i = 0; i < toPing.length; i++) {
var ping = toPing[i];
planet.plugins.pings.add(ping.lng, ping.lat, {
// Here we use the `angles` and `colors` scales we built earlier
// to convert magnitudes to appropriate angles and colors.
angle: angles(ping.mag),
color: colors(ping.mag),
ttl: ttls(ping.mag)
});
}
currentTime += dataDelta;
if (currentTime > end) currentTime = start;
updateDate();
d3.select('#slider').property('value', percentToDate.invert(currentTime));
lastTick = now;
});
});
// Plugin to resize the canvas to fill the window and to
// automatically center the planet when the window size changes
function autocenter(options) {
options = options || {};
var needsCentering = false;
var globe = null;
var resize = function() {
var width = window.innerWidth + (options.extraWidth || 0);
var height = window.innerHeight + (options.extraHeight || 0);
globe.canvas.width = width;
globe.canvas.height = height;
globe.projection.translate([width / 2, height / 2]);
};
return function(planet) {
globe = planet;
planet.onInit(function() {
needsCentering = true;
d3.select(window).on('resize', function() {
needsCentering = true;
});
});
planet.onDraw(function() {
if (needsCentering) { resize(); needsCentering = false; }
});
};
};
// Plugin to automatically scale the planet's projection based
// on the window size when the planet is initialized
function autoscale(options) {
options = options || {};
return function(planet) {
planet.onInit(function() {
var width = window.innerWidth + (options.extraWidth || 0);
var height = window.innerHeight + (options.extraHeight || 0);
planet.projection.scale(Math.min(width, height) / 2);
});
};
};
// Plugin to automatically rotate the globe around its vertical
// axis a configured number of degrees every second.
function autorotate(degPerSec) {
return function(planet) {
var lastTick = null;
var paused = false;
planet.plugins.autorotate = {
pause: function() { paused = true; },
resume: function() { paused = false; }
};
planet.onDraw(function() {
if (paused || !lastTick) {
lastTick = new Date();
} else {
var now = new Date();
var delta = now - lastTick;
var rotation = planet.projection.rotate();
rotation[0] += degPerSec * delta / 1000;
if (rotation[0] >= 180) rotation[0] -= 360;
planet.projection.rotate(rotation);
lastTick = now;
}
});
};
};
})();
由于多种原因,您的地球未加载。首先,如果您打开控制台,您会看到外部资源没有正确加载。如错误所述,您的外部资源无法加载,因为:
MIME type ('text/plain') is not executable, and strict MIME type checking is enabled.
您可以通过双重方式解决这个问题。您可以参考 this 答案——这将帮助您解决 MIME 类型问题——或者您可以只使用其他 link 作为外部资源。如果您宁愿采用第二条路线,则应按以下顺序将下面的 link 添加到您的外部资源部分:
解决第一个问题后,您会发现无法通过简单地将 JSON 文件添加到外部资源来 link 文件。
在您成功 linked 所有外部文件后,您将面临第三个问题。如果您查看您的代码,您会发现您正在尝试为您的 数据获取 time 属性 (JSON) 第 75 行中的对象--var start = parseInt(data[0].time, 10);
。但是,据我所知,您的数据对象不包含 time 属性--继续,console.log()
你的数据对象来查看它的结构和属性。换句话说,您可能需要仔细检查 world-110m.json
是否是您要使用的文件。
希望对您有所帮助。