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维网和其它网络类型最大的区别就是它在网页上可呈现丰富多彩的色彩和图像,还可以播放音频、视频,及把图像作为链接使用。
网络上流行的图片格式主要有jpg、jpeg、png、gif等,以下是这几种格式的介绍。
1、gif格式
gif采用LZW压缩,是以压缩相同颜色色块来减少图像大小。由于LZW压缩不会造成任何品质的损失,且压缩率高,支持动画效果,很适合互联网平台,但是它只支持256种颜色。
2、jpg或jpeg格式
以JPEG有损压缩图片,通常用来保存超过256色的图片格式。JPEG压缩过程会对一些图像数据造成损失,这部分损失不影响图片显示,一般人眼是看不出来差异的。损失数据越多,图片就越不清晰。
3、png格式
png是一种非破坏性的网页图像文件格式,它以最小的方式压缩图片且不造成图片数据损失。它不仅支持像gif大部分优点,还支持48 bit的色彩,跨平台的图像亮度控制,更多层的透明度设置。
网页中通过<img>标签插入图片,语法如下:
<img src="图片路径" alt="替换文本" />具体示例:
<!DOCTYPE HTML>
<html>
<body>
<p>
一幅图像:
<img src="/i/eg_mouse.jpg" width="128" height="128" />
</p>
<p>
一幅动画图像:
<img src="/i/eg_cute.gif" width="50" height="50" />
</p>
<p>请注意,插入动画图像的语法与插入普通图像的语法没有区别。</p>
</body>
</html>效果如下:
替换文本属性(Alt)
alt 属性用来为图像定义一串预备的可替换的文本。
<img src="boat.gif" alt="Big Boat">当浏览器无法载入图像时,替换文本属性可告诉读者他们失去的信息。此时,浏览器将显示这个替代性的文本而不是图像。为页面上的图像都加上替换文本属性是个好习惯,这样有助于更好地显示信息,并且对于那些使用纯文本浏览器的人来说是非常有用的。
图像宽度和高度属性
如下代码,在网页中插入一个宽度和高度都是300像素的图片。
<img src="/i/ct_netscape.jpg" width="300px" height="300px" />图片超链接
如下代码,在网页中对一个图片进行超链接设置,点击这张图片就会跳转到其它页面。
<a href="页面路径"><img src="/i/ct_netscape.jpg" /></a>除了对整个图片进行超链接设置外,还可以将图像划分成不同区域进行链接设置,比如一张地图中给每个省份图形进行超链接。
图像热区链接,使用usemap 属性通过#name指定到名叫name的map元素上,map定义了每个热区点击区域形状、大小、坐标等。
area标签的 shape 属性有三种,rect 方形,circle 圆形,poly 多边形。coords 属性定义坐标点位置,相对于图片左上角位置。
示例代码:
<!DOCTYPE html>
<html>
<head>
<meta charset="utf-8">
<title>W3Cschool(w3cschool.cn)</title>
</head>
<body>
<p>点击太阳或其他行星,注意变化:</p>
<img src="/statics/images/course/planets.gif" width="145" height="126" alt="Planets" usemap="#planetmap">
<map name="planetmap">
<area shape="rect" coords="0,0,82,126" target="_blank" alt="Sun" href="/statics/images/course/sun.gif">
<area shape="circle" coords="90,58,3" target="_blank" alt="Mercury" href="/statics/images/course/merglobe.gif">
<area shape="circle" coords="124,58,8" target="_blank" alt="Venus" href="/statics/images/course/venglobe.gif">
</map>
</body>
</html>效果可参考 https://www.w3cschool.cn/html5/html5-img.html 这里。
可以看到鼠标在图片上点击小行星会打开对应的图片。
到此网页中使用图片已经大体介绍了,自己亲手写下,会加深印象,感谢关注。
上篇:前端入门——html 超链接
下篇:前端入门——html 如何在网页中使用视频音频
者:前端Q
转发链接:https://mp.weixin.qq.com/s/ewFfXptccFs5KvjUINLGbQ
小试牛刀,实现了六款简单常见HTML5 Canvas特效滤镜,并且封装成一个纯JavaScript可调用的API文件gloomyfishfilter.js。支持的特效滤镜分别为:
1.反色
2.灰色调
3.模糊
4.浮雕
5.雕刻
6.合理
2.灰色调:获取一个预期点RGB值r,g,b则新的RGB值
newr =(r * 0.272)+(g * 0.534)+(b * 0.131);
newg =(r * 0.349)+(g * 0.686)+(b * 0.168);
newb =(r * 0.393)+(g * 0.769)+(b * 0.189);
3.模糊:基于一个5 * 5的卷积核
4.浮雕与雕刻:
根据当前预期的前一个预期RGB值与它的后一个重新的RGB值之差再加上128
5.总体:模拟了物体在镜子中与之对应的效果。
var canvas = document.getElementById("target");
canvas.width = source.clientWidth;
canvas.height = source.clientHeight;
**if**(!canvas.getContext) {
console.log("Canvas not supported. Please install a HTML5compatible browser.");
**return**;
}
// get 2D context of canvas and draw image
tempContext = canvas.getContext("2d");var source = document.getElementById("source");
tempContext.drawImage(source, 0, 0, canvas.width,canvas.height);var canvas = document.getElementById("target");
var len = canvas.width * canvas.height * 4;
var canvasData = tempContext.getImageData(0, 0, canvas.width, canvas.height);
var binaryData = canvasData.data;function bindButtonEvent(element, type, handler)
{
if(element.addEventListener){
element.addEventListener(type, handler,**false**);
}else{
element.attachEvent('on'+type, handler);// for IE6,7,8
}
}<scriptsrc=*"gloomyfishfilter.js"*></script> //导入API文件
gfilter.colorInvertProcess(binaryData, len); //调用 API<meta http-equiv="X-UA-Compatible"*content=*"chrome=IE8"> 效果演示:
CSS部分:
#svgContainer {
width:800px;
height:600px;
background-color:#EEEEEE;
}
#sourceDiv { float: left; border: 2px solid blue}
#targetDiv { float: right;border: 2px solid red}filter1.html中HTML源代码:
<!DOCTYPE html>
<html>
<head>
<meta http-equiv="X-UA-Compatible" content="chrome=IE8">
<meta http-equiv="Content-type" content="text/html;charset=UTF-8">
<title>Canvas Filter Demo</title>
<link href="default.css" rel="stylesheet" />
<script src="gloomyfishfilter.js"></scrip>
</head>
<body>
<h1>HTML Canvas Image Process - By Gloomy Fish</h1>
<div id="svgContainer">
<div id="sourceDiv">
<img id="source" src="../test.png" />
</div>
<div id="targetDiv">
<canvas id="target"></canvas>
</div>
</div>
<div id="btn-group">
<button type="button" id="invert-button">反色</button>
<button type="button" id="adjust-button">灰色调</button>
<button type="button" id="blur-button">模糊</button>
<button type="button" id="relief-button">浮雕</button>
<button type="button" id="diaoke-button">雕刻</button>
<button type="button" id="mirror-button">镜像</button>
</div>
</body>
</html>filter1.html中JavaScript源代码:
var tempContext = null; // global variable 2d context
window.onload = function() {
var source = document.getElementById("source");
var canvas = document.getElementById("target");
canvas.width = source.clientWidth;
canvas.height = source.clientHeight;
if (!canvas.getContext) {
console.log("Canvas not supported. Please install a HTML5 compatible browser.");
return;
}
// get 2D context of canvas and draw image
tempContext = canvas.getContext("2d");
tempContext.drawImage(source, 0, 0, canvas.width, canvas.height);
// initialization actions
var inButton = document.getElementById("invert-button");
var adButton = document.getElementById("adjust-button");
var blurButton = document.getElementById("blur-button");
var reButton = document.getElementById("relief-button");
var dkButton = document.getElementById("diaoke-button");
var mirrorButton = document.getElementById("mirror-button");
// bind mouse click event
bindButtonEvent(inButton, "click", invertColor);
bindButtonEvent(adButton, "click", adjustColor);
bindButtonEvent(blurButton, "click", blurImage);
bindButtonEvent(reButton, "click", fudiaoImage);
bindButtonEvent(dkButton, "click", kediaoImage);
bindButtonEvent(mirrorButton, "click", mirrorImage);
}
function bindButtonEvent(element, type, handler)
{
if(element.addEventListener) {
element.addEventListener(type, handler, false);
} else {
element.attachEvent('on'+type, handler); // for IE6,7,8
}
}
function invertColor() {
var canvas = document.getElementById("target");
var len = canvas.width * canvas.height * 4;
var canvasData = tempContext.getImageData(0, 0, canvas.width, canvas.height);
var binaryData = canvasData.data;
// Processing all the pixels
gfilter.colorInvertProcess(binaryData, len);
// Copying back canvas data to canvas
tempContext.putImageData(canvasData, 0, 0);
}
function adjustColor() {
var canvas = document.getElementById("target");
var len = canvas.width * canvas.height * 4;
var canvasData = tempContext.getImageData(0, 0, canvas.width, canvas.height);
var binaryData = canvasData.data;
// Processing all the pixels
gfilter.colorAdjustProcess(binaryData, len);
// Copying back canvas data to canvas
tempContext.putImageData(canvasData, 0, 0);
}
function blurImage()
{
var canvas = document.getElementById("target");
var len = canvas.width * canvas.height * 4;
var canvasData = tempContext.getImageData(0, 0, canvas.width, canvas.height);
// Processing all the pixels
gfilter.blurProcess(tempContext, canvasData);
// Copying back canvas data to canvas
tempContext.putImageData(canvasData, 0, 0);
}
function fudiaoImage()
{
var canvas = document.getElementById("target");
var len = canvas.width * canvas.height * 4;
var canvasData = tempContext.getImageData(0, 0, canvas.width, canvas.height);
// Processing all the pixels
gfilter.reliefProcess(tempContext, canvasData);
// Copying back canvas data to canvas
tempContext.putImageData(canvasData, 0, 0);
}
function kediaoImage()
{
var canvas = document.getElementById("target");
var len = canvas.width * canvas.height * 4;
var canvasData = tempContext.getImageData(0, 0, canvas.width, canvas.height);
// Processing all the pixels
gfilter.diaokeProcess(tempContext, canvasData);
// Copying back canvas data to canvas
tempContext.putImageData(canvasData, 0, 0);
}
function mirrorImage()
{
var canvas = document.getElementById("target");
var len = canvas.width * canvas.height * 4;
var canvasData = tempContext.getImageData(0, 0, canvas.width, canvas.height);
// Processing all the pixels
gfilter.mirrorProcess(tempContext, canvasData);
// Copying back canvas data to canvas
tempContext.putImageData(canvasData, 0, 0);
}滤镜源代码(gloomyfishfilter.js):
var gfilter = {
type: "canvas",
name: "filters",
author: "zhigang",
getInfo: function () {
return this.author + ' ' + this.type + ' ' + this.name;
},
/**
* invert color value of pixel, new pixel = RGB(255-r, 255-g, 255 - b)
*
* @param binaryData - canvas's imagedata.data
* @param l - length of data (width * height of image data)
*/
colorInvertProcess: function(binaryData, l) {
for (var i = 0; i < l; i += 4) {
var r = binaryData[i];
var g = binaryData[i + 1];
var b = binaryData[i + 2];
binaryData[i] = 255-r;
binaryData[i + 1] = 255-g;
binaryData[i + 2] = 255-b;
}
},
/**
* adjust color values and make it more darker and gray...
*
* @param binaryData
* @param l
*/
colorAdjustProcess: function(binaryData, l) {
for (var i = 0; i < l; i += 4) {
var r = binaryData[i];
var g = binaryData[i + 1];
var b = binaryData[i + 2];
binaryData[i] = (r * 0.272) + (g * 0.534) + (b * 0.131);
binaryData[i + 1] = (r * 0.349) + (g * 0.686) + (b * 0.168);
binaryData[i + 2] = (r * 0.393) + (g * 0.769) + (b * 0.189);
}
},
/**
* deep clone image data of canvas
*
* @param context
* @param src
* @returns
*/
copyImageData: function(context, src)
{
var dst = context.createImageData(src.width, src.height);
dst.data.set(src.data);
return dst;
},
/**
* convolution - keneral size 5*5 - blur effect filter(模糊效果)
*
* @param context
* @param canvasData
*/
blurProcess: function(context, canvasData) {
console.log("Canvas Filter - blur process");
var tempCanvasData = this.copyImageData(context, canvasData);
var sumred = 0.0, sumgreen = 0.0, sumblue = 0.0;
for ( var x = 0; x < tempCanvasData.width; x++) {
for ( var y = 0; y < tempCanvasData.height; y++) {
// Index of the pixel in the array
var idx = (x + y * tempCanvasData.width) * 4;
for(var subCol=-2; subCol<=2; subCol++) {
var colOff = subCol + x;
if(colOff <0 || colOff >= tempCanvasData.width) {
colOff = 0;
}
for(var subRow=-2; subRow<=2; subRow++) {
var rowOff = subRow + y;
if(rowOff < 0 || rowOff >= tempCanvasData.height) {
rowOff = 0;
}
var idx2 = (colOff + rowOff * tempCanvasData.width) * 4;
var r = tempCanvasData.data[idx2 + 0];
var g = tempCanvasData.data[idx2 + 1];
var b = tempCanvasData.data[idx2 + 2];
sumred += r;
sumgreen += g;
sumblue += b;
}
}
// calculate new RGB value
var nr = (sumred / 25.0);
var ng = (sumgreen / 25.0);
var nb = (sumblue / 25.0);
// clear previous for next pixel point
sumred = 0.0;
sumgreen = 0.0;
sumblue = 0.0;
// assign new pixel value
canvasData.data[idx + 0] = nr; // Red channel
canvasData.data[idx + 1] = ng; // Green channel
canvasData.data[idx + 2] = nb; // Blue channel
canvasData.data[idx + 3] = 255; // Alpha channel
}
}
},
/**
* after pixel value - before pixel value + 128
* 浮雕效果
*/
reliefProcess: function(context, canvasData) {
console.log("Canvas Filter - relief process");
var tempCanvasData = this.copyImageData(context, canvasData);
for ( var x = 1; x < tempCanvasData.width-1; x++)
{
for ( var y = 1; y < tempCanvasData.height-1; y++)
{
// Index of the pixel in the array
var idx = (x + y * tempCanvasData.width) * 4;
var bidx = ((x-1) + y * tempCanvasData.width) * 4;
var aidx = ((x+1) + y * tempCanvasData.width) * 4;
// calculate new RGB value
var nr = tempCanvasData.data[aidx + 0] - tempCanvasData.data[bidx + 0] + 128;
var ng = tempCanvasData.data[aidx + 1] - tempCanvasData.data[bidx + 1] + 128;
var nb = tempCanvasData.data[aidx + 2] - tempCanvasData.data[bidx + 2] + 128;
nr = (nr < 0) ? 0 : ((nr >255) ? 255 : nr);
ng = (ng < 0) ? 0 : ((ng >255) ? 255 : ng);
nb = (nb < 0) ? 0 : ((nb >255) ? 255 : nb);
// assign new pixel value
canvasData.data[idx + 0] = nr; // Red channel
canvasData.data[idx + 1] = ng; // Green channel
canvasData.data[idx + 2] = nb; // Blue channel
canvasData.data[idx + 3] = 255; // Alpha channel
}
}
},
/**
* before pixel value - after pixel value + 128
* 雕刻效果
*
* @param canvasData
*/
diaokeProcess: function(context, canvasData) {
console.log("Canvas Filter - process");
var tempCanvasData = this.copyImageData(context, canvasData);
for ( var x = 1; x < tempCanvasData.width-1; x++)
{
for ( var y = 1; y < tempCanvasData.height-1; y++)
{
// Index of the pixel in the array
var idx = (x + y * tempCanvasData.width) * 4;
var bidx = ((x-1) + y * tempCanvasData.width) * 4;
var aidx = ((x+1) + y * tempCanvasData.width) * 4;
// calculate new RGB value
var nr = tempCanvasData.data[bidx + 0] - tempCanvasData.data[aidx + 0] + 128;
var ng = tempCanvasData.data[bidx + 1] - tempCanvasData.data[aidx + 1] + 128;
var nb = tempCanvasData.data[bidx + 2] - tempCanvasData.data[aidx + 2] + 128;
nr = (nr < 0) ? 0 : ((nr >255) ? 255 : nr);
ng = (ng < 0) ? 0 : ((ng >255) ? 255 : ng);
nb = (nb < 0) ? 0 : ((nb >255) ? 255 : nb);
// assign new pixel value
canvasData.data[idx + 0] = nr; // Red channel
canvasData.data[idx + 1] = ng; // Green channel
canvasData.data[idx + 2] = nb; // Blue channel
canvasData.data[idx + 3] = 255; // Alpha channel
}
}
},
/**
* mirror reflect
*
* @param context
* @param canvasData
*/
mirrorProcess : function(context, canvasData) {
console.log("Canvas Filter - process");
var tempCanvasData = this.copyImageData(context, canvasData);
for ( var x = 0; x < tempCanvasData.width; x++) // column
{
for ( var y = 0; y < tempCanvasData.height; y++) // row
{
// Index of the pixel in the array
var idx = (x + y * tempCanvasData.width) * 4;
var midx = (((tempCanvasData.width -1) - x) + y * tempCanvasData.width) * 4;
// assign new pixel value
canvasData.data[midx + 0] = tempCanvasData.data[idx + 0]; // Red channel
canvasData.data[midx + 1] = tempCanvasData.data[idx + 1]; ; // Green channel
canvasData.data[midx + 2] = tempCanvasData.data[idx + 2]; ; // Blue channel
canvasData.data[midx + 3] = 255; // Alpha channel
}
}
},
};感谢阅读,如果你觉得我今天分享的内容,不错,请点一个赞,谢谢!!
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图片标签 img
属性
alt 图片找不到时显示的内容
src 图片的位置
width宽度
height高度
border 边框
*请认真填写需求信息,我们会在24小时内与您取得联系。
