「轉換網頁程式:從 IE 到 Mozilla」修訂間的差異
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(未顯示由 4 位使用者於中間所作的 8 次修訂) | |||
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− | + | {{MDC|轉換網頁程式:從%20IE%20到%20Mozilla}} | |
+ | 這篇文章描述 IE 與 Mozilla 瀏覽器之間在程式上的差異,協助您將 IE-only 網頁改寫為 Mozilla 通用網頁。 | ||
==簡介== | ==簡介== | ||
行 40: | 行 41: | ||
上面這段程式稱不上容易擴充,如果你要多相容一種瀏覽器就得改寫一次。 | 上面這段程式稱不上容易擴充,如果你要多相容一種瀏覽器就得改寫一次。 | ||
− | + | 要排除遇到新的瀏覽器就要重寫網頁碼的情形,最容易的方法,就是把功能抽象化。 | |
− | + | Rather than multiple <code>if() | |
else()</code> blocks, you increase efficiency by taking common tasks and | else()</code> blocks, you increase efficiency by taking common tasks and | ||
abstracting them out into their own functions. Not only does this make the | abstracting them out into their own functions. Not only does this make the | ||
行 104: | 行 105: | ||
==Mozilla 與 Internet Explorer 的差別== | ==Mozilla 與 Internet Explorer 的差別== | ||
− | + | 首先,我要討論Mozilla和IE在表現HTML行為上的差別。 | |
===工具提示(tooltips)=== | ===工具提示(tooltips)=== | ||
行 132: | 行 133: | ||
==DOM 差異== | ==DOM 差異== | ||
− | + | 文件物件模型(The Document Object Model,簡稱DOM)是ㄧ個裝載著文件元素的樹狀結構。你可以熟練的透過已成為W3C標準的JavaScript API來操作它。However, prior to W3C standardization, Netscape 4 and Internet Explorer 4 implemented the APIs similarly. Mozilla only implements legacy APIs if they are unachievable with W3C standards. | |
− | |||
===存取元素=== | ===存取元素=== | ||
行 155: | 行 155: | ||
<tr> | <tr> | ||
<td>document.getElementById( aId )</td> | <td>document.getElementById( aId )</td> | ||
− | <td> | + | <td>選擇文件中 ID 值為 aId 的元件。</td> |
</tr> | </tr> | ||
<tr> | <tr> | ||
<td>document.getElementsByTagName( aTagName )</td> | <td>document.getElementsByTagName( aTagName )</td> | ||
− | <td> | + | <td>選擇文件中標籤名稱為 aTagName 的元件</td> |
</tr> | </tr> | ||
</table> | </table> | ||
行 371: | 行 371: | ||
Internet Explorer's implementation of document fragments, however, does | Internet Explorer's implementation of document fragments, however, does | ||
not comply with the W3C standard and simply returns a regular document. | not comply with the W3C standard and simply returns a regular document. | ||
− | |||
==JavaScript 差異== | ==JavaScript 差異== | ||
行 517: | 行 516: | ||
==CSS 差異== | ==CSS 差異== | ||
− | Mozilla | + | 與 Internet Explorer 和其他的瀏覽器比較之下, |
− | + | Mozilla 擁有最強大的 Cascading Style Sheets 4(即 CSS) 支援, | |
− | + | 包含大部份的 CSS1、CSS2 和部份的 CSS3 。 | |
− | + | 對於下列敘述的問題, Mozilla 會在 JavaScript 控制台中發出警告。 | |
− | + | 如果您遇到了 CSS 的相關問題,請確認 JavaScript 控制台。 | |
===CSS 檔無法套用:MIME Type 問題=== | ===CSS 檔無法套用:MIME Type 問題=== | ||
− | + | CSS 定義的相關檔沒有被讀取是 CSS 的相關問題中最常見的。 | |
− | + | 這通常是伺服器將 CSS 檔案送出了錯誤的 MIME Type 。 | |
− | + | CSS 說明書 ( CSS specification ) 中提到:「 CSS 檔案應該被作為 text/css mimetype 。」 | |
− | + | 當網頁處於嚴格的規範模式 ( strict standards mode )時, Mozilla 將遵循並只載入以 text/css 作為 mimetype 的 CSS 檔案。 | |
− | + | 在 Internet Explorer 中,無論 mimetype 是甚麼, CSS 檔案都會被載入。 | |
− | + | 當網頁的 doctype ( document type,檔案類型 ) 在網頁的開頭被指定時,他們會進入嚴格的標準模式。 | |
− | + | 要解決這個問題,您可以修改正確的 mimetype 或移除 doctype。 | |
− | + | 我們會在下個章節中討論更多關於 doctype。 | |
− | |||
− | |||
===CSS 單位=== | ===CSS 單位=== |
於 2007年8月24日 (五) 17:28 的最新修訂
這篇文章描述 IE 與 Mozilla 瀏覽器之間在程式上的差異,協助您將 IE-only 網頁改寫為 Mozilla 通用網頁。
內容大綱
簡介
Netscape 當初決定要製作 Mozilla 瀏覽器時刻意決定要支援 W3C 標準,因此 Mozilla 並不能完全回溯相容 Netscape Navigator 4.x 及 Microsoft Internet Explorer 的自有程式。舉例來說,Mozilla 不支援稍候會討論的 <layer>
標籤。此外,有些在 W3C 標準觀念尚未普及前製作的瀏覽器(如 Internet Explorer 4)內含各式怪異的花招,我們稱為怪癖(Quirk),而為了相容這些舊瀏覽器的模式便稱為 Quirks 模式。本文稍後也會討論 Mozilla 的 Quirks 模式。
我也會闡述其他 Mozilla 支援、但還沒有 W3C 相關規格的非標準技術,如 XMLHttpRequest 及 Rich-text 編輯功能。此處指的 W3C 規格包括:
- HTML 4.01 和 XHTML 1.0/1.1
- Cascade Style Sheets (CSS): CSS Level 1、CSS Level 2 及部分 CSS Level 3
- Document Object Model (DOM): DOM Level 1、DOM Level 2 及部分 DOM Level 3
- Mathematical Markup Language: MathML Version 2.0
- Extensible Markup Language (XML): XML 1.0、Namespaces in XML、Associating Style Sheets with XML Documents 1.0、Fragment Identifier for XML
- XSL Transformations: XSLT 1.0
- XML Path Language: XPath 1.0
- Resource Description Framework: RDF
- Simple Object Access Protocol: SOAP 1.1
- ECMA-262, revision 3 (JavaScript 1.5): ECMA-262
跨瀏覽器程式小技巧
雖然這世上有所謂的 Web 標準,但不同的瀏覽器作法依然大不相同(即使是同一個瀏覽器,也可能因為作業系統差別而相異)。許多瀏覽器(如 Internet Explorer)在 W3C 規格形成前便提供某些功能,卻在標準制訂後忘了修改既有支援程式以符合標準。
在我闡述 Mozilla 與 Internet Explorer 相異之處前,我會先講點小技巧,讓你的 Web 應用程式容易擴充、在未來略事修改便能相容新瀏覽器。
不同瀏覽器下的某相同功能,往往也有不同的 API,所以在某些程式中你會發現不少 if() else()
程式區段,以便區分不同的瀏覽器。以下程式是寫給 Internet Explorer 用的:
. . . var elm; if (ns4) elm = document.layers["myID"]; else if (ie4) elm = document.all["myID"]
上面這段程式稱不上容易擴充,如果你要多相容一種瀏覽器就得改寫一次。
要排除遇到新的瀏覽器就要重寫網頁碼的情形,最容易的方法,就是把功能抽象化。
Rather than multiple if()
else()
blocks, you increase efficiency by taking common tasks and
abstracting them out into their own functions. Not only does this make the
code easier to read, it simplifies adding support for new clients:
var elm = getElmById("myID"); function getElmById(aID){ var element = null; if (isMozilla || isIE5) element = document.getElementById(aID) else if (isNetscape4) element = document.layers[aID] else if (isIE4) element = document.all[aID]; return element; }
The above code still has the issue of browser sniffing, or detecting which browser the user is using. Browser sniffing is usually done through the useragent, such as:
Mozilla/5.0 (X11; U; Linux i686; en-US; rv:1.5) Gecko/20031016
While using the useragent to sniff the browser provides detailed information on the browser in use, code that handles useragents can make mistakes when new browser versions arrive, thus requiring code changes.
If the type of browser doesn't matter (suppose that you have already blocked nonsupported browsers from accessing the Web application), it is better to sniff by browser capability. You can usually do this by testing the required functionality in JavaScript. For example, rather than:
if (isMozilla || isIE5)
You would use:
if (document.getElementById)
This would allow other browsers that support that method, such as Opera or Safari, to work without any changes.
Useragent sniffing, however, makes sense when accuracy is important, such as when you're verifying that a browser meets the Web application's version requirements or you are trying to work around a bug.
JavaScript also allows inline conditional statements, which can help with code readability:
var foo = (condition) ? conditionIsTrue : conditionIsFalse;
For example, to retrieve an element, you would use:
function getElement(aID){ return (document.getElementById) ? document.getElementById(aID) : document.all[aID]; }
Mozilla 與 Internet Explorer 的差別
首先,我要討論Mozilla和IE在表現HTML行為上的差別。
工具提示(tooltips)
Legacy browsers introduced tooltips into HTML by showing them on links and using the value of the alt
attribute as a tooltip's content. The latest W3C HTML specification created the title
attribute, which is meant to contain a detailed description of the link. Modern browsers will use the title
attribute to display tooltips, and Mozilla only supports showing tooltips for that attribute and not the alt
attribute.
HTML 字元實體(entities)
HTML markup can contain several entities, which the W3 standards body has defined. You can reference entities through their numerical or character reference. For example, you can reference the white space character #160 with  
or with its equivalent character reference
.
Some older browsers, such as Internet Explorer, had such quirks as allowing you to use entities by replacing the ;
(semi-colon) character at the end with regular text content:
  Foo    Foo
Mozilla will render the above  
as white spaces, even though that is against the W3C specification. The
browser will not parse a  
if it is directly followed by more characters, for example:
 12345
This code does not work in Mozilla, since it is against the W3 standard. Always use the correct form (
) to avoid browser discrepancies.
DOM 差異
文件物件模型(The Document Object Model,簡稱DOM)是ㄧ個裝載著文件元素的樹狀結構。你可以熟練的透過已成為W3C標準的JavaScript API來操作它。However, prior to W3C standardization, Netscape 4 and Internet Explorer 4 implemented the APIs similarly. Mozilla only implements legacy APIs if they are unachievable with W3C standards.
存取元素
To retrieve an element reference following the cross-browser approach, you use document.getElementById(aID)
, which
works in Internet Explorer 5.0+, Mozilla, and is part of the DOM Level 1 specification.
Mozilla does not support accessing an element through document.elementName
or even through the element's name,
which Internet Explorer does (also called global namespace polluting). Mozilla also does not support the Netscape 4 document.layers
method and Internet Explorer's document.all
. While document.getElementById
lets you retrieve one element, you can also use document.layers
and document.all
to obtain a list of all document elements with a certain tag name, such as all <div>
elements.
The W3C DOM Level 1 method gets references to all elements with the same tag name through getElementsByTagName()
. The method returns an array in JavaScript, and can be called on the document
element or other nodes to search only their subtree. To get an array of all elements in the DOM tree, you can use getElementsByTagName("*")
.
The DOM Level 1 methods, as shown in Table 1, are commonly used to move an element to a certain position and toggle its visibility (menus, animations). Netscape 4 used the <layer>
tag, which Mozilla does not support, as an HTML element that can be positioned anywhere. In Mozilla, you can position any element using the <div>
tag, which Internet Explorer uses as well and which you'll find in the HTML specification.
Table 1. Methods used to access elements
Method | Description |
---|---|
document.getElementById( aId ) | 選擇文件中 ID 值為 aId 的元件。 |
document.getElementsByTagName( aTagName ) | 選擇文件中標籤名稱為 aTagName 的元件 |
縱橫 DOM
Mozilla supports the W3C DOM APIs for traversing the DOM tree through
JavaScript (see Table 2). The APIs exist for each node in the document and
allow walking the tree in any direction. Internet Explorer supports these
APIs as well, but it also supports its legacy APIs for walking a DOM tree,
such as the children
property.
Table 2. Methods used to traverse the DOM
Property/Method | Description | ||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
childNodes | Returns an array of all child nodes of the element. | ||||||||||||||||||||||||||
firstChild | Returns the first child node of the element. | ||||||||||||||||||||||||||
getAttribute( aAttributeName ) | Returns the value for the specified attribute. | ||||||||||||||||||||||||||
hasAttribute( aAttributeName ) | Returns a boolean stating if the current node has an attribute defined with the specified name. | ||||||||||||||||||||||||||
hasChildNodes() | Returns a boolean stating whether the current node has any child nodes. | ||||||||||||||||||||||||||
lastChild | Returns the last child node of the element. | ||||||||||||||||||||||||||
nextSibling | Returns the node immediately following the current one. | ||||||||||||||||||||||||||
nodeName | Returns the name of the current node as a string. | ||||||||||||||||||||||||||
nodeType | Returns the type of the current node.
|
||||||||||||||||||||||||||
nodeValue | Returns the value of the current node. For nodes that contain text, such as text and comment nodes, it will return their string value. For attribute nodes, the attribute value is returned. For all other nodes, null is returned. |
||||||||||||||||||||||||||
ownerDocument | Returns the document object containing the current node. |
||||||||||||||||||||||||||
parentNode | Returns the parent node of the current node. | ||||||||||||||||||||||||||
previousSibling | Returns the node immediately preceding the current one. | ||||||||||||||||||||||||||
removeAttribute( aName ) | Removes the specified attribute from the current node. | ||||||||||||||||||||||||||
setAttribute( aName, aValue ) | Sets the value of the specified attribute with the specified value. |
Internet Explorer has a nonstandard quirk, where many of these APIs will skip white space text nodes that are generated, for example, by new
line characters. Mozilla will not skip these, so sometimes you need to distinguish these nodes. Every node has a nodeType
property
specifying the node type. For example, an element node has type 1, while a text node has type 3 and a comment node is type 8.
The best way to only process element nodes is to iterate over all child nodes and only process those with a nodeType of 1:
HTML: <div id="foo"> <span>Test</span> </div> JavaScript: var myDiv = document.getElementById("foo"); var myChildren = myXMLDoc.childNodes; for (var i = 0; i < myChildren.length; i++) { if (myChildren[i].nodeType == 1){ // element node } }
內容建立及處理
Mozilla supports the legacy methods for adding content into the DOM dynamically, such as document.write
, document.open
and document.close
. Mozilla also supports Internet
Explorer's innerHTML
method, which it can call on almost any node. It does not, however, support outerHTML
(which adds markup around an element, and
has no standard equivalent) and innerText
(which sets the text value of the node, and which you can achieve in Mozilla by using textContent
).
Internet Explorer has several content manipulation methods that are nonstandard and unsupported in Mozilla, including retrieving the value; inserting text; and inserting elements adjacent to a node, such as getAdjacentElement
and insertAdjacentHTML
. Table 3 shows how the W3C
standard and Mozilla manipulate content, all of which are methods of any DOM node.
Table 3. Methods Mozilla uses to manipulate content
Method | Description |
---|---|
appendChild( aNode ) | Creates a new child node. Returns a reference to the new child node. |
cloneNode( aDeep ) | Makes a copy of the node it is called on and returns the copy. If aDeep is true, it copies over the node's entire subtree. |
createElement( aTagName ) | Creates and returns a new and parentless DOM node of the type specified by aTagName. |
createTextNode( aTextValue ) | Creates and returns a new and parentless DOM textnode with the data value specified by aTextValue. |
insertBefore( aNewNode, aChildNode ) | Inserts aNewNode before aChildNode, which must be a child of the current node. |
removeChild( aChildNode ) | Removes aChildNode and returns a reference to it. |
replaceChild( aNewNode, aChildNode ) | Replaces aChildNode with aNewNode and returns a reference to the removed node. |
文件片段
For performance reasons, you can create documents in memory, rather than working on the existing document's DOM. DOM Level 1 Core introduced
document fragments, which are lightweight documents that contain a subset of a normal document's interfaces. For example, getElementById
does not exist, but appendChild
does. You can also easily add document
fragments to existing documents.
Mozilla creates document fragments through document.createDocumentFragment()
, which returns an
empty document fragment.
Internet Explorer's implementation of document fragments, however, does not comply with the W3C standard and simply returns a regular document.
JavaScript 差異
Most differences between Mozilla and Internet Explorer are usually blamed on JavaScript. However, the issues usually lie in the APIs that a browser exposes to JavaScript, such as the DOM hooks. The two browsers possess few core JavaScript differences; issues encountered are often timing related.
JavaScript 日期差異
The only Date
difference is the getYear
method. Per the ECMAScript specification (which is the specification JavaScript follows), the method is not
Y2k-compliant, and running new Date().getYear()
in 2004 will return "104". Per the ECMAScript specification, getYear
returns the year minus 1900, originally meant
to return "98" for 1998. getYear
was deprecated in ECMAScript Version 3 and replaced with getFullYear()
. Internet Explorer changed getYear()
to work like getFullYear()
and make it Y2k-compliant, while
Mozilla kept the standard behavior.
JavaScript 執行差異
Different browsers execute JavaScript differently. For example, the
following code assumes that the div
node
already exists in the DOM by the time the script
block executes:
... <div id="foo">Loading...</div> <script> document.getElementById("foo").innerHTML = "Done."; </script>
However, this is not guaranteed. To be sure that all elements exist,
you should use the onload
event handler on the <body>
tag:
<body onload="doFinish()"> <div id="foo">Loading...</div> <script> function doFinish() { var element = document.getElementById("foo"); element.innerHTML = "Done."; } </script> ...
Such timing-related issues are also hardware-related -- slower systems
can reveal bugs that faster systems hide. One concrete example is window.open
, which opens a new window:
<script> function doOpenWindow(){ var myWindow = window.open("about:blank"); myWindow.location.href = "http://www.ibm.com"; } </script>
The problem with the code is that window.open
is asynchronous -- it does not block the
JavaScript execution until the window has finished loading. Therefore, you
may execute the line after the window.open
line
before the new window has finished. You can deal with this by having an
onload
handler in the new window and then call
back into the opener window (using window.opener
).
JavaScript 生成之 HTML 差異
JavaScript can, through document.write
, generate
HTML on the fly from a string. The main issue here is when JavaScript,
embedded inside an HTML document (thus, inside an <script>
tag), generates HTML that contains a
<script>
tag. If the document is in <a href="#html_modes">strict rendering mode</a>, it will parse the </script>
inside the string as the closing tag
for the enclosing <script>
. The following
code illustrates this best:
<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Transitional//EN" "http://www.w3.org/TR/xhtml1/DTD/xhtml1-transitional.dtd"> ... <script> document.write("<script>alert("Hello")</script>") </script>
Since the page is in strict mode, Mozilla's parser will see the first <script>
and
parse until it finds a closing tag for it, which would be the first </script>
. This is
because the parser has no knowledge about JavaScript (or any other
language) when in strict mode. In quirks mode, the parser is aware of
JavaScript when parsing (which slows it down). Internet Explorer is always
in quirks mode, as it does not support true XHTML. To make this work in
strict mode in Mozilla, separate the string into two parts:
<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Transitional//EN" "http://www.w3.org/TR/xhtml1/DTD/xhtml1-transitional.dtd"> ... <script> document.write("<script>alert("Hello")</" + "script>") </script>
JavaScript 除錯
Mozilla provides several ways to debug JavaScript-related issues found in applications created for Internet Explorer. The first tool is the built-in JavaScript console, shown in Figure 1, where errors and warnings are logged. You can access it in Mozilla by going to Tools -> Web Development -> JavaScript Console, or in Firefox (the standalone browser product from Mozilla) at Tools -> JavaScript Console.
Figure 1. JavaScript console
The JavaScript console can show the full log list or just errors, warnings, and messages. The error message in Figure 1 says that at aol.com, line 95 tries to access an undefined variable called is_ns70. Clicking on the link will open Mozilla's internal view source window with the offending line highlighted.
The console also allows you to evaluate JavaScript. To evaluate the entered JavaScript syntax, type in 1+1
into the input field and press Evaluate, as Figure 2 shows.
Figure 2. JavaScript console evaluating
Mozilla's JavaScript engine has built-in support for debugging, and thus can provide powerful tools for JavaScript developers. Venkman, shown in Figure 3, is a powerful, cross-platform JavaScript debugger that integrates with Mozilla. It is usually bundled with Mozilla releases; you can find it at Tools -> Web Development -> JavaScript Debugger. For Firefox, the debugger isn't bundled; instead, you can download and install it from the Venkman Project Page. You can also find tutorials at the development page, located at the Venkman Development Page.
Figure 3. Mozilla's JavaScript debugger
The JavaScript debugger can debug JavaScript running in the Mozilla browser window. It supports such standard debugging features as breakpoint management, call stack inspection, and variable/object inspection. All features are accessible through the user interface or through the debugger's interactive console. With the console, you al can execute arbitrary JavaScript in the same scope as the JavaScript currently being debugged.
CSS 差異
與 Internet Explorer 和其他的瀏覽器比較之下, Mozilla 擁有最強大的 Cascading Style Sheets 4(即 CSS) 支援, 包含大部份的 CSS1、CSS2 和部份的 CSS3 。
對於下列敘述的問題, Mozilla 會在 JavaScript 控制台中發出警告。 如果您遇到了 CSS 的相關問題,請確認 JavaScript 控制台。
CSS 檔無法套用:MIME Type 問題
CSS 定義的相關檔沒有被讀取是 CSS 的相關問題中最常見的。 這通常是伺服器將 CSS 檔案送出了錯誤的 MIME Type 。 CSS 說明書 ( CSS specification ) 中提到:「 CSS 檔案應該被作為 text/css mimetype 。」 當網頁處於嚴格的規範模式 ( strict standards mode )時, Mozilla 將遵循並只載入以 text/css 作為 mimetype 的 CSS 檔案。 在 Internet Explorer 中,無論 mimetype 是甚麼, CSS 檔案都會被載入。 當網頁的 doctype ( document type,檔案類型 ) 在網頁的開頭被指定時,他們會進入嚴格的標準模式。 要解決這個問題,您可以修改正確的 mimetype 或移除 doctype。 我們會在下個章節中討論更多關於 doctype。
CSS 單位
Many Web applications do not use units with their CSS, especially when you use JavaScript to set the CSS. Mozilla tolerates this, as long as the page is not rendered in strict mode. Since Internet Explorer doesn't support true XHTML, it does not care if no units are specified. If the page is in strict standards mode, and no units are used, then Mozilla ignores the style:
<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Transitional//EN"
"http://www.w3.org/TR/xhtml1/DTD/xhtml1-transitional.dtd">
<html>
<body>
// works in strict mode
<div style="width:40px; border:1px solid black;">
Text
</div>
// will fail in strict mode
<div style="width:40; border:1px solid black;">
Text
</div>
</body>
</html>
Since the above example has a strict doctype, the page is rendered in strict standards mode. The first div will have a width of 40px, since it uses units, but the second div won't get a width, and thus will default to 100% width. The same would apply if the width were set through JavaScript.
JavaScript 及 CSS
Since Mozilla supports the CSS standards, it also supports the CSS DOM
standard for setting CSS through JavaScript. You can access, remove, and
change an element's CSS rules through the element's style
member:
<div id="myDiv" border:1px solid black;"> Text </div> <script> var myElm = document.getElementById("myDiv"); myElm.style.width = "40px"; </script>
You can reach every CSS attribute that way. Again, if the Web page is in strict mode, you must set a unit or else Mozilla will ignore the command.
When you query a value, say through .style.width
,
in Mozilla and Internet Explorer, the returned value will contain the
unit, meaning a string is returned. You can convert the string into a
number through parseFloat("40px")
.
CSS 溢出部分(overflow)差異
CSS added the notion of overflow, which allows you to define how to
handle overflow; for example, when the contents of a div
with a specified height are taller than that
height. The CSS standard defines that if no overflow behavior is set in
this case, the div
contents will overflow.
However, Internet Explorer does not comply with this, and will expand the
div
beyond its set height in order to hold the
contents. Below is an example that shows this difference:
<div style="height:100px; border: 1px solid black;"> <div style="height:150px; border: 1px solid red; margin:10px;"> a </div> </div>
As you can see in Figure 4, Mozilla acts like the standard specifies.
The standard says that in this case, the inner div
overflows to the bottom since the inner content
is taller than it's parent. If you prefer the Internet Explorer behavior, simply don't
specify a height on the outer element.
Figure 4. DIV overflow
hover(滑鼠移上某元素)效果差異
The nonstandard CSS hover behavior in Internet Explorer occurs on quite
a few web sites. It usually manifests itself by changing text style
when hovered over in Mozilla, but not in Internet Explorer. This is because the a:hover
CSS selector in Internet Explorer matches
<a href="" />
but not <a name="" />
, which sets anchors in HTML. The
text changes occur because authors encapsulate the areas with the
anchor-setting markup:
CSS: a:hover {color:green;} HTML: <a href="foo.com">This text should turn green when you hover over it.</a> <a name="anchor-name"> This text should change color when hovered over, but doesn't in Internet Explorer. </a>
Mozilla follows the CSS specification correctly and will change the color to green in this example. You can use two ways to make Mozilla behave like Internet Explorer and not change the color of the text when hovered over:
- First, you can change the CSS rule to be
a:link:hover {color:green;}
, which will only change the color if the element is a link (has anhref
attribute). - Alternatively, you can change the markup and close the opened
<a />
before the start of the text -- the anchor will continue to work this way.
Quirks 模式、標準模式
Older legacy browsers, such as Internet Explorer 4, rendered with so-called quirks under certain conditions. While Mozilla aims to be a standards-compliant browser, it has three modes that support older Web pages created with these quirky behaviors. The page's content and delivery determine which mode Mozilla will use. Mozilla will list the rendered mode in View -> Page Info (or Ctrl-i). The mode in which a page is located depends on its doctype.
Doctypes (short for document type declarations) look like this:
<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN" "http://www.w3.org/TR/html4/loose.dtd">
The section in blue is called the public identifier, the green part is the system identifier, which is a URI.
標準模式
Standards mode is the strictest rendering mode -- it will render pages per the W3C HTML and CSS specifications and will not support any quirks. Mozilla uses it for the following conditions:
- If a page is sent with a
text/xml
mimetype or any other XML or XHTML mimetype - For any "DOCTYPE HTML SYSTEM" doctype (for example,
<!DOCTYPE HTML SYSTEM "http://www.w3.org/TR/REC-html40/strict.dtd">
), except for the IBM doctype - For unknown doctypes or doctypes without DTDs
近乎標準模式
Mozilla introduced almost standards mode for one reason: a section in the CSS 2 specification breaks designs based on a precise layout of small images in table cells. Instead of forming one image to the user, each small image ends up with a gap next to it. The old IBM homepage shown in Figure 5 offers an example.
Figure 5. Image gap
Almost standards mode behaves almost exactly as standards mode, except when it comes to an image gap issue. The issue occurs often on standards-compliant pages and causes them to display incorrectly.
Mozilla uses almost standards mode for the following conditions:
- For any "loose" doctype (for example,
<!DOCTYPE HTML PUBLIC "-//W3C//DTD XHTML 1.0 Transitional//EN">
,<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN" "http://www.w3.org/TR/html4/loose.dtd">
) - For the IBM doctype (
<!DOCTYPE html SYSTEM "http://www.ibm.com/data/dtd/v11/ibmxhtml1-transitional.dtd">
)
You can read more about the image gap issue.
Quirks 模式
Currently, the Web is full of invalid HTML markup, as well as markup that only functions due to bugs in browsers. The old Netscape browsers, when they were the market leaders, had bugs. When Internet Explorer arrived, it mimicked those bugs in order to work with the content at that time. As newer browsers came to market, most of these original bugs, usually called quirks, were kept for backwards compatibility. Mozilla supports many of these in its quirks rendering mode. Note that due to these quirks, pages will render slower than if they were fully standards-compliant. Most Web pages are rendered under this mode.
Mozilla uses quirks mode for the following conditions:
- When no doctype is specified
- For doctypes without a system identifier (for example,
<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN">
)
For further reading, check out: List of Quirks and List of Doctypes and What Modes They Cause.
事件差異
Mozilla and Internet Explorer are almost completely different in the
area of events. The Mozilla event model follows the W3C and Netscape
model. In Internet Explorer, if a function is called from an event, it can
access the event
object through window.event
. Mozilla passes an event
object to event handlers. They must specifically pass
the object on to the function called through an argument. A cross-browser
event handling example follows:
<div onclick="handleEvent(event)">Click me!</div> <script> function handleEvent(aEvent) { // if aEvent is null, means the Internet Explorer event model, // so get window.event. var myEvent = aEvent ? aEvent : window.event; } </script>
The properties and functions that the event object exposes are also often named differently between Mozilla and Internet Explorer, as Table 4 shows.
Table 4. Event properties differences between Mozilla and Internet Explorer
Internet Explorer Name | Mozilla Name | Description |
---|---|---|
altKey | altKey | Boolean property that returns whether the alt key was pressed during the event. |
cancelBubble | stopPropagation() | Used to stop the event from bubbling farther up the tree. |
clientX | clientX | The X coordinate of the event, in relation to the client. |
clientY | clientY | The Y coordinate of the event, in relation to the client. |
ctrlKey | ctrlKey | Boolean property that returns whether the Ctrl key was pressed during the event. |
fromElement | relatedTarget | For mouse events, this is the element from which the mouse moved away. |
keyCode | keyCode | For keyboard events, this is a number representing the key that was pressed. It is 0 for mouse events. |
returnValue | preventDefault() | Used to prevent the event's default action from occurring. |
screenX | screenX | The X coordinate of the event, in relation to the screen. |
screenX | screenY | The Y coordinate of the event, in relation to the screen. |
shiftKey | shiftKey | Boolean property that returns whether the Shift key was pressed during the event. |
srcElement | target | The element to which the event was originally dispatched. |
toElement | currentTarget | For mouse events, this is the element to which the mouse moved. |
type | type | Returns the name of the event. |
加上事件控制式
Mozilla supports two ways to attach events through JavaScript. The first,
supported by all browsers, sets event properties directly on objects. To
set a click
event handler, a function reference
is passed to the object's onclick
property:
<div id="myDiv">Click me!</div> <script> function handleEvent(aEvent) { // if aEvent is null, means the Internet Explorer event model, // so get window.event. var myEvent = aEvent ? aEvent : window.event; } function onPageLoad(){ document.getElementById("myDiv").onclick = handleEvent; } </script>
Mozilla fully supports the W3C standard way of attaching listeners to
DOM nodes. You use the addEventListener()
and
removeEventListener()
methods, and have the
benefit of being able to set multiple listeners for the same event type.
Both methods require three parameters: the event type, a function
reference, and a boolean denoting whether the listener should catch events in
their capture phase. If the boolean is set to false, it will only catch
bubbling events. W3C events have three phases: capturing, at target, and
bubbling. Every event object has an eventPhase
attribute indicating the phase numerically (0 indexed). Every time you
trigger an event, the event starts at the DOM's outermost element, the
element at the top of the DOM tree. It then walks the DOM using the most
direct route toward the target, which is the capturing phase. When the
event reaches the target, the event is in the target phase. After
arriving at the target, it walks up the DOM tree back to the outermost
node; this is bubbling. Internet Explorer's event model only has
the bubbling phase; therefore, setting the third parameter to false
results in Internet Explorer-like behavior:
<div id="myDiv">Click me!</div> <script> function handleEvent(aEvent) { // if aEvent is null, it is the Internet Explorer event model, // so get window.event. var myEvent = aEvent ? aEvent : window.event; } function onPageLoad() { var element = document.getElementById("myDiv"); element.addEventListener("click", handleEvent, false); } </script>
One advantage of addEventListener()
and
removeEventListener()
over setting properties
is that you can have multiple event listeners for the same event, each
calling another function. Thus, to remove an event listener requires
all three parameters be the same as the ones you use when adding the
listener.
Mozilla does not support Internet Explorer's method of converting <script> tags into event handlers, which extends <script> with
for
and event
attributes (see Table 5). It also does not support the attachEvent
and detachEvent
methods.
Instead, you should use the addEventListener
and removeEventListener
methods. Internet Explorer does not support the W3C events specification.
Table 5. Event method differences between Mozilla and Internet Explorer
Internet Explorer Method | Mozilla Method | Description |
---|---|---|
attachEvent(aEventType, aFunctionReference) | addEventListener(aEventType, aFunctionReference, aUseCapture) | Adds an event listener to a DOM element. |
detachEvent(aEventType, aFunctionReference) | removeEventListener(aEventType, aFunctionReference, aUseCapture) | Removes an event listener to a DOM element. |
Rich-text 編輯
While Mozilla prides itself with being the most W3C standards-compliant
browser, it does support nonstandard functionality, such as innerHTML
and rich text editing, if no W3C equivalent
exists.
Mozilla 1.3 introduced an implementation of Internet Explorer's
designMode feature, which turns an HTML document into a rich text editor
field. Once turned into the editor, commands can run on the document through
the execCommand
command. Mozilla does not
support Internet Explorer's contentEditable
attribute for
making any widget editable. You can use an iframe to add a rich text
editor.
Rich-text 差異
Mozilla supports the W3C standard of accessing iframe's document object
through IFrameElm.contentDocument
, while Internet Explorer
requires you to access it through document.frames["name"]
and then access the resulting
document
:
function getIFrameDocument(aID) { var rv = null; // if contentDocument exists, W3C compliant (Mozilla) if (document.getElementById(aID).contentDocument){ rv = document.getElementById(aID).contentDocument; } else { // IE rv = document.frames[aID].document; } return rv; }
Another difference between Mozilla and Internet Explorer is the HTML
that the rich text editor creates. Mozilla defaults to using CSS for the
generated markup. However, Mozilla allows you to toggle between HTML and
CSS mode using the useCSS
execCommand and
toggling it between true and false. Internet Explorer always uses HTML
markup.
Mozilla (CSS): <span style="color: blue;">Big Blue</span> Mozilla (HTML): <font color="blue">Big Blue</font> Internet Explorer: <FONT color="blue">Big Blue</FONT>
Below is a list of commands that execCommand in Mozilla supports:
Table 6. Rich text editing commands
Command Name | Description | Argument |
---|---|---|
bold | Toggles the selection's bold attribute. | --- |
createlink | Generates an HTML link from the selected text. | The URL to use for the link |
delete | Deletes the selection. | --- |
fontname | Changes the font used in the selected text. | The font name to use (Arial, for example) |
fontsize | Changes the font size used in the selected text. | The font size to use |
fontcolor | Changes the font color used in the selected text. | The color to use |
indent | Indents the block where the caret is. | --- |
inserthorizontalrule | Inserts an <hr> element at the cursor's position. | --- |
insertimage | Inserts an image at the cursor's position. | URL of the image to use |
insertorderedlist | Inserts an ordered list (<ol>) element at the cursor's position. | --- |
insertunorderedlist | Inserts an unordered list (<ul>) element at the cursor's position. | --- |
italic | Toggles the selection's italicize attribute. | --- |
justifycenter | Centers the content at the current line. | --- |
justifyleft | Justifies the content at the current line to the left. | --- |
justifyright | Justifies the content at the current line to the right. | --- |
outdent | Outdents the block where the caret is. | --- |
redo | Redoes the previous undo command. | --- |
removeformat | Removes all formatting from the selection. | --- |
selectall | Selects everything in the rich text editor. | --- |
strikethrough | Toggles the strikethrough of the selected text. | --- |
subscript | Converts the current selection into subscript. | --- |
superscript | Converts the current selection into superscript. | --- |
underline | Toggles the underline of the selected text. | --- |
undo | Undoes the last executed command. | --- |
unlink | Removes all link information from the selection. | --- |
useCSS | Toggles the usage of CSS in the generated markup. | Boolean value |
For more information, visit Rich-Text Editing in Mozilla.
XML 差異
Mozilla 對 XML 與相關的技術有很完整的支援,如對 XSLT 與 Web services 等。它也支援一些 Internet Explorer 非標準的延伸,例如 XMLHttpRequest。
Mozilla has strong support for XML and XML-related technologies, such as XSLT and Web services. It also supports some nonstandard Internet Explorer extensions, such as XMLHttpRequest.
掌控 XML
如同對於標準 HTML,對於可各方面控制 XML 檔的 DOM 的支援,Mozilla 也是依 W3C 所定的 XML DOM 規格。Mozilla 與 Internet Explorer 在 XML DOM 上的不同處大多在於 Internet Explorer 非標準的處理方式。一個常見的差異是對空白字元節點的處理。 通常在建立 XML 時,XML 節點間會有空白。 Internet Explorer 用 XMLNode.childNodes[]
時不會包括這些空白節點,但在 Mozilla 上這些節點會在 array 裡。
As with standard HTML, Mozilla supports the W3C XML DOM specification,
which allows you to manipulate almost any aspect of an XML document.
Differences between Internet Explorer's XML DOM and Mozilla are usually caused by Internet Explorer's
nonstandard behaviors. Probably the most common difference is how they
handle white space text nodes. Often when XML generates, it contains white
spaces between XML nodes. Internet Explorer, when using XMLNode.childNodes[]
, will not contain these white
space nodes. In Mozilla, those nodes will be in the array.
XML: <?xml version="1.0"?> <myXMLdoc xmlns:myns="http://myfoo.com"> <myns:foo>bar</myns:foo> </myXMLdoc> JavaScript: var myXMLDoc = getXMLDocument().documentElement; alert(myXMLDoc.childNodes.length);
The first line of JavaScript 的第一行載入 XML 檔並用 documentElement
來存取它的 root 元素 (myXMLDoc
)。第二行顯示子節點的數目。根據 W3C 規格,接在一起的空白與換行字符組成一個文字節點。在 Mozilla 上 myXMLdoc
節點有三個子:一個有換行字符與兩個空白的文字節點、myns:foo
節點、與另一個有換行字符的文字節點。Internet Explorer 並不遵循這個,因此上面的程式碼會顯示 "1",表示只有 myns:foo
節點。所以,如要迴走子節點並掠過文字節點,要分辨這些節點。
The first line of JavaScript loads the XML document and accesses the
root element (myXMLDoc
) by retrieving the documentElement
. The second line simply alerts the
number of child nodes. Per the W3C specification, the white spaces and new
lines merge into one text node if they follow each other. For Mozilla, the
myXMLdoc
node has three children: a text node
containing a new line and two spaces; the myns:foo
node; and another text node with a new line.
Internet Explorer, however, does not abide by this and will return "1" for
the above code, namely only the myns:foo
node.
Therefore, to walk the child nodes and disregard text nodes, you must
distinguish such nodes.
As mentioned earlier, every node has a nodeType
attribute representing the node type. For
example, an element node has type 1, while a document node has type 9. To
disregard text nodes, you must check for types 3 (text node) and 8
(comment node).
XML: <?xml version="1.0"?> <myXMLdoc xmlns:myns="http://myfoo.com"> <myns:foo>bar</myns:foo> </myXMLdoc> JavaScript: var myXMLDoc = getXMLDocument().documentElement; var myChildren = myXMLDoc.childNodes; for (var run = 0; run < myChildren.length; run++){ if ( (myChildren[run].nodeType != 3) && myChildren[run].nodeType != 8) ){ // not a text or comment node } }
XML data islands
Internet Explorer has a nonstandard feature called XML data
islands, which allow you to embed XML inside an HTML document using
the nonstandard HTML tag <xml>
. Mozilla does
not support XML data islands and handles them as unknown HTML tags. You
can achieve the same functionality using XHTML; however, because Internet
Explorer's support for XHTML is weak, this is usually not an option.
One cross-browser solution is to use DOM parsers, which parse a
string that contains a serialized XML document and generates the document
for the parsed XML. Mozilla uses the DOMParser
class, which takes the serialized string and creates an XML document out
of it. In Internet Explorer, you can achieve the same functionality using
ActiveX. A new Microsoft.XMLDOM
generates and
has a loadXML
method that can take in a string
and generate a document from it. The following code shows you how:
IE XML data island: .. <xml id="xmldataisland"> <foo>bar</foo> </xml> Cross-browser solution: var xmlString = "<xml id=\"xmldataisland\"><foo>bar</foo></xml>"; var myDocument; if (document.implementation.createDocument){ // Mozilla, create a new DOMParser var parser = new DOMParser(); myDocument = parser.parseFromString(xmlString, "text/xml"); } else if (window.ActiveXObject){ // Internet Explorer, create a new XML document using ActiveX // and use loadXML as a DOM parser. myDocument = new ActiveXObject("Microsoft.XMLDOM") myDocument.async="false"; myDocument.loadXML(xmlString); }
XML HTTP request
Internet Explorer allows you to send and retrieve XML files using
MSXML's XMLHTTP
class, which is instantiated
through ActiveX using new
ActiveXObject("Msxml2.XMLHTTP")
or new
ActiveXObject("Microsoft.XMLHTTP")
. Since there is no standard
method of doing this, Mozilla provides the same functionality in the
global JavaScript XMLHttpRequest
object. The
object generates asynchronous requests by default.
After instantiating the object using new
XMLHttpRequest()
, you can use the open
method to specify what type of request (GET or POST) you use, which
file you load, and if it is asynchronous or not. If the call
is asynchronous, then give the onload
member a function reference, which is called once the request has completed.
Synchronous request:
var myXMLHTTPRequest = new XMLHttpRequest(); myXMLHTTPRequest.open("GET", "data.xml", false); myXMLHTTPRequest.send(null); var myXMLDocument = myXMLHTTPRequest.responseXML;
Asynchronous request:
var myXMLHTTPRequest; function xmlLoaded() { var myXMLDocument = myXMLHTTPRequest.responseXML; } function loadXML(){ myXMLHTTPRequest = new XMLHttpRequest(); myXMLHTTPRequest.open("GET", "data.xml", true); myXMLHTTPRequest.onload = xmlLoaded; myXMLHTTPRequest.send(null); }
Table 7 features a list of available methods and properties for
Mozilla's XMLHttpRequest
.
Table 7. XMLHttpRequest methods and properties
Name | Description | ||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
void abort() | Stops the request if it is still running. | ||||||||||||
string getAllResponseHeaders() | Returns all response headers as one string. | ||||||||||||
string getResponseHeader(string headerName) | Returns the value of the specified header. | ||||||||||||
functionRef onerror | If set, the references function will be called whenever an error occurs during the request. | ||||||||||||
functionRef onload | If set, the references function will be called when the request completes successfully and the response has been received. Use when an asynchronous request is used. | ||||||||||||
void open (string HTTP_Method, string URL) void open (string HTTP_Method, string URL, boolean async, string userName, string password) |
Initializes the request for the specified URL, using either GET or POST as the HTTP method. To send the request, call the send() method after initialization. If async is false, the request is synchronous, else it defaults to asynchronous. Optionally, you can specify a username and password for the given URL needed. |
||||||||||||
int readyState | State of the request. Possible values:
|
||||||||||||
string responseText | String containing the response. | ||||||||||||
DOMDocument responseXML | DOM Document containing the response. | ||||||||||||
void send(variant body) | Initiates the request. If body is defined, it issent as the body of the POST request. body can be an XML document or a string serialized XML document. |
||||||||||||
void setRequestHeader (string headerName, string headerValue) | Sets an HTTP request header for use in the HTTP request. Has to be called after open() is called. |
||||||||||||
string status | The status code of the HTTP response. |
XSLT 差異
Mozilla supports XSL Transformations (XSLT) 1.0. It also allows JavaScript to perform XSLT transformations and allows running XPATH on a document.
Mozilla requires that you send the XML and XSLT file holding the
stylesheet with an XML mimetype (text/xml
or
application/xml
). This is the most common
reason why XSLT won't run in Mozilla but will in Internet Explorer.
Mozilla is strict in that way.
Internet Explorer 5.0 and 5.5 supported XSLT's working draft, which is
substantially different than the final 1.0 recommendation. The easiest way
to distinguish what version an XSLT file was written against is to look at
the namespace. The namespace for the 1.0 recommendation is http://www.w3.org/1999/XSL/Transform
, while the
working draft's namespace is http://www.w3.org/TR/WD-xsl
. Internet Explorer 6
supports the working draft for backwards compatibility, but Mozilla does
not support the working draft, only the final recommendation.
If XSLT requires you to distinguish the browser, you can query the "xsl:vendor" system property. Mozilla's XSLT engine will report itself as "Transformiix" and Internet Explorer will return "Microsoft."
<xsl:if test="system-property('xsl:vendor') = 'Transformiix'"> <!-- Mozilla specific markup --> </xsl:if> <xsl:if test="system-property('xsl:vendor') = 'Microsoft'"> <!-- Internet Explorer specific markup --> </xsl:if>
Mozilla also provides JavaScript interfaces for XSLT, allowing a
Web site to complete XSLT transformations in memory. You can do this using
the global XSLTProcessor
JavaScript object.
XSLTProcessor
requires you to load the XML and
XSLT files, because it needs their DOM documents. The XSLT document,
imported by the XSLTProcessor
, allows you to
manipulate XSLT parameters. XSLTProcessor
can
generate a standalone document using transformToDocument()
, or it can create a document
fragment using transformToFragment()
, which you
can easily append into another DOM document. Below is an example:
var xslStylesheet; var xsltProcessor = new XSLTProcessor(); // load the xslt file, example1.xsl var myXMLHTTPRequest = new XMLHttpRequest(); myXMLHTTPRequest.open("GET", "example1.xsl", false); myXMLHTTPRequest.send(null); // get the XML document and import it xslStylesheet = myXMLHTTPRequest.responseXML; xsltProcessor.importStylesheet(xslStylesheet); // load the xml file, example1.xml myXMLHTTPRequest = new XMLHttpRequest(); myXMLHTTPRequest.open("GET", "example1.xml", false); myXMLHTTPRequest.send(null); var xmlSource = myXMLHTTPRequest.responseXML; var resultDocument = xsltProcessor.transformToDocument(xmlSource);
After creating an XSLTProcessor
, you load
the XSLT file using XMLHttpRequest
. The
XMLHttpRequest's responseXML
member contains
the XML document of the XSLT file, which is passed to importStylesheet
. You then use the XMLHttpRequest
again to load the source XML document
that must be transformed; that document is then passed to the transformToDocument
method of XSLTProcessor
. Table 8 features a list
of XSLTProcessor
methods.
Table 8. XSLTProcessor methods
Method | Description |
---|---|
void importStylesheet(Node styleSheet) | Imports the XSLT stylesheet. The styleSheet argument is the root node of an XSLT stylesheet's DOM document. |
DocumentFragment transformToFragment(Node source, Document owner) | Transforms the Node source by applying the stylesheet imported using the importStylesheet method and generates a DocumentFragment. owner specifies what DOM document the DocumentFragment should belong to, making it appendable to that DOM document. |
Document transformToDocument(Node source) | Transforms the Node source by applying the stylesheet imported using the importStylesheet method and returns a standalone DOM document. |
void setParameter(String namespaceURI, String localName, Variant value) | Sets a parameter in the imported XSLT stylesheet. |
Variant getParameter(String namespaceURI, String localName) | Gets the value of a parameter in the imported XSLT stylesheet. |
void removeParameter(String namespaceURI, String localName) | Removes all set parameters from the imported XSLT stylesheet and makes them default to the XSLT-defined defaults. |
void clearParameters() | Removes all set parameters and sets them to defaults specified in the XSLT stylesheet. |
void reset() | Removes all parameters and stylesheets. |
原文資訊
- 原文作者:Doron Rosenberg, IBM Corporation
- 公開日期: 26 Jul 2005
- 原文連結: http://www-128.ibm.com/developerworks/web/library/wa-ie2mozgd/