Normally, an image placed within an anchor simply becomes part of the anchor content. The browser may alter the image in some special way (usually with a special border) to clue the reader that it is a link, but the user clicks the image in the same way they click a textual link.
The HTML standard provides a feature that lets you embed many different links inside the same image. Clicking different areas of the image causes the browser to link to different target documents. Such mouse-sensitive images, known as image maps, open up a variety of creative linking styles.
There are two ways to create image maps, known as server-side and client-side image maps. The former, enabled by the ismap attribute for the <img> tag, requires access to a server and related image map processing applications. The latter is created with the usemap attribute for the <img> tag, along with corresponding <map> and <area> tags. Since translation of the mouse position in the image to a link to another document happens on the user's machine, client-side image maps don't require a special server connection, and even can be implemented in non-web environments, such as on a local hard drive or on a CD-ROM-based document collection. [the section called "The <map> Tag"] [the section called "The <area> Tag"] [the section called "The <img> Tag"]
You add an image to an anchor simply by placing an <img> tag within the body of the <a> tag. Make that embedded image into a mouse-sensitive one by adding the ismap attribute to the <img> tag. This special <img> attribute tells the browser that the image is a special map containing more than one link. (The ismap attribute is ignored by the browser if the <img> tag is not within an <a> tag.) [the section called "The <img> Tag"]
When the user clicks some place within the image, the browser passes the coordinates of the mouse pointer along with the URL specified in the <a> tag to the document server. The server uses the mouse pointer coordinates to determine which document to deliver back to the browser.
When ismap is used, the href attribute of the containing <a> tag must contain the URL of a server application or, for some HTTP servers, a related map file that contains the coordinate and linking information. If the URL is simply that of a conventional document, errors may result and the desired document will most likely not be retrieved.
The coordinates of the mouse position are screen pixels counted from the upper-left corner of the image beginning with (0,0). The coordinates are added to the end of the URL, preceded by a question mark.
For example, if a user clicks 43 pixels over and 15 pixels down from the upper-left corner of the image displayed from the following link:
<a href="/cgi-bin/imagemap/toolbar.map"> <img ismap src="pics/toolbar.gif"> </a>
the browser sends the following search parameters to the HTTP server:
/cgi-bin/imagemap/toolbar.map?43,15
In the example, toolbar.map is a special image map file inside the cgi-bin/imagemap directory and containing coordinates and links. A special image map process uses that file to match the passed coordinates (43,15 in the example) and return with the selected hyperlink document.
With mouse-sensitive ismap-enabled image maps, the browser is only required to pass along the URL and mouse coordinates to the server. Converting these coordinates into a specific document is handled by the document server. The conversion process differs between servers and is not defined by the HTML standard.
You need to consult with your web server administrators and perhaps even read your server's documentation to determine how to create and program an image map. Most servers come with some software utility, typically located in a cgi-bin/imagemap directory, to handle image maps. And most of these use a text file containing the image map regions and related hyperlinks that is referenced by your image map URL to process the image map query.
Here's an example image map file that describes the sensitive regions in our example image:
# Imagemap file=toolbar.map default dflt.html circle 100,30,50 link1.html rectangle 180,120,290,500 link2.html polygon 80,80,90,72,160,90 link3.html
Each sensitive region of the image map is described by a geometric shape and defining coordinates in pixels, such as the circle with its center point and radius, the rectangle's upper-left and lower-right edge coordinates, and the loci of a polygon. All coordinates are relative to the upper-left corner of the image (0,0). Each shape has a related URL.
An image map processing application typically tests each shape in the order it appears in the image file and returns the document specified by the corresponding URL to the browser if the user's mouse x,y coordinates fall within the boundaries of that shape. That means it's okay to overlap shapes; just be aware which takes precedence. Also, the entire image need not be covered with sensitive regions: if the passed coordinates don't fall within a specified shape, the default document gets sent back to the browser.
This is just one example for how an image map may be processed and the accessory files required for that process. Please huddle with your webmaster and server manuals to discover how to implement a server-side image map for your HTML documents and system.
usemap
The obvious downside to server-side image maps is that they require a server. That means you need access to the required HTTP server or its /cgi-bin/ directory, which isn't always available. And server-side image maps limit portability, since not all image map processing applications are the same.
Server-side image maps also mean delays for the user while browsing, since the browser must get the server's attention to process the image coordinates. That's even if there's no action to take, such as a section of the image that isn't hyperlinked and doesn't lead anywhere.
Client-side image maps suffer from none of these difficulties. Enabled by the usemap attribute for the <img> tag, and defined by special <map> and <area> extension tags, client-side image maps let HTML authors include in their documents a map of coordinates and links that describe the sensitive regions of an image. The browser on the client computer translates the coordinates of the mouse position within the image into an action, such as loading and displaying another document. And special JavaScript-enabled attributes provide a wealth of special effects for client-side image maps. [the section called "JavaScript Event Handlers"]
To create a client-side image map, include the usemap attribute as part of the <img> tag. Its value is the URL of a <map> segment in an HTML document that contains the map coordinates and related link URLs. The document in the URL identifies the HTML document containing the map; the fragment identifier in the URL identifies the map to be used. Most often, the map is in the same document as the image itself, and the URL can be reduced to the fragment identifier: a pound sign (#) followed by the map name.
For example, the following source fragment tells the Netscape or Internet Explorer browser that the map.gif image is a client-side image map and that its mouse-sensitive coordinates and related link URLs are found in the map section of the document named map:
<img src="pics/map.gif" usemap="#map">
For client-side image maps to work, you must include somewhere in the HTML document a set of coordinates and URLs that define the mouse-sensitive regions of a client-side image map and the hyperlink to take for each region that is clicked by the user. You include those coordinates and links as values of attributes in special <area> tags; the collection of <area> specifications are enclosed within the <map> tag and its end tag </map>.
The <map> segment may appear anywhere in the body of any HTML document. Browsers that do not support client-side image maps will ignore the contents of the <map> tag. The <map> contents never get displayed in the browser window.
The value of the name attribute in the <map> tag is the name used by the usemap attribute in an <img> tag to locate the image map specification. The name must be unique and not used by another <map> in the document, but more than one image map may reference the same <map> specifications. [the section called "The ismap and usemap attributes"]
The guts of a client-side image map are the <area> tags within the map segment. These <area> tags define each mouse-sensitive region and the action the browser should take if that region is selected by the user in an associated client-side image map.
The region defined by an <area> tag acts just like any other hyperlink: when the user moves the mouse pointer over the region of the image, the pointer icon will change and the browser displays the URL of the related hyperlink in the status box at the bottom of the browser window.[5] Regions of the client-side image map not defined in at least one <area> tag are not mouse-sensitive.
[5] That is, unless you activate a JavaScript event handler that writes the contents of the status box. See the onMouse event handlers in 7.5.4.6.
Like its cousin for the <img> tag, the alt attribute for the <area> tag lets you attach a text label to the image, except in this case the label is associated with a particular area of the image. The browser may present this label to the user when the mouse passes over the area, and it may also be used by a nongraphical browser to present the client-side image map as a list of links identified by the alt labels.
The required coords attribute of the <area> tag defines coordinates of a mouse-sensitive region in a client-side image map. The number of coordinates and their meaning depend upon the region's shape as determined by the shape attribute, later in this chapter. You may define hyperlink regions as rectangles, circles, and polygons within a client-side image map. The appropriate values for each shape are:
coords="x,y,r" where x and y define the position of the center of the circle (0,0 is the upper-left corner of the image) and r is its radius in pixels.
coords="x1,y1,x2,y2,x3,y3,..." where each pair of x,y coordinates define a vertex of the polygon, with 0,0 being the upper-left corner of the image. At least three pairs of coordinates are required to define a triangle, higher order polygons require a larger number of vertices. The polygon is automatically closed, so it is not necessary to repeat the first coordinate at the end of the list to close the region.
coords="x1,y1,x2,y2" where the first coordinate pair is one corner of the rectangle and the other pair is the corner diagonally opposite, with "0,0" being the upper-left corner of the image. Note that a rectangle is just a shortened way of specifying a polygon with four vertices.
For example, the following fragment defines a single mouse-sensitive region in the lower-right quarter of a 100x100 image and another circular region smack in the middle:
<map name="map1"> <area shape=rectangle coords="75,75,99,99"> <area shape=circle coords="50,50,25"> </map>
If the coordinates in one <area> tag overlap with another region, the first <area> tag takes precedence. The browsers ignore coordinates that extend beyond the boundaries of the image.
Like the href attribute for the anchor (<a>) tag, the href attribute for the <area> tag defines the URL of the desired link if its region in the associated image map is clicked. The value of the href attribute is any valid URL, relative or absolute, including JavaScript code.
For example, the browser will load and display the link4.html document if the user clicks in the lower-left quarter of a 100x100-pixel image, as defined by the first image map <area> tag in the following example:
<map name="map"> <area coords="75,75,99,99" href="link4.html"> <area coords="0,0,25,25" href="javascript:window.alert('oooh, tickles!')" </map>
The second <area> tag in the example uses a JavaScript URL, which, when the user clicks in the upper-left quadrant of the image map, executes a JavaScript alert method that displays the silly message in a dialog.
The nohref attribute for the <area> tag lets you define a mouse-sensitive region in a client-side image map for which no action is taken even though the user may select it. You must include either an href or a nohref attribute for each <area> tag.
Supported only by Internet Explorer, the notab and taborder attributes control how the areas in your client-side image maps are integrated with the tabbing sequence of the document.
The browser skips over notab areas as the user presses the tab key to move the cursor around the document. Otherwise, this area will be part of the tabbing sequence.
Also with Internet Explorer, imagemap areas get inserted into the tabbing sequence in the order in which they are encountered in the document, along with other tab-sensitive elements like form fields. Use the taborder attribute to change that default order. The value of the attribute is an integer indicating the position of this area in the overall tab sequence for the document.
Two of the same mouse-related JavaScript event handlers that work for the anchor (<a>) tag also work with client-side image map hyperlinks: onMouseOver for when the user moves the mouse pointer over the <area> defined region of the map, and onMouseOut for when the user moves the mouse pointer off that area. The value of the event handler is--enclosed in quotation marks--one or a sequence of semicolon-separated JavaScript expressions, methods, and function references that the browser executes when the event occurs. [the section called "The onClick, onMouseOver, and OnMouseOut attributes"]
For example, a popular, albeit simple, use of the onMouseOver event is to print a more descriptive explanation in the browser's status box whenever the user passes the mouse pointer over a region of the image map:
<area href="http://www.ora.com/kumquats/homecooking/recipes.html#quat5" onMouseOver="self.status='A recipe for kumquat soup.';return true">
In context with a text-based hyperlink, we argue that the contents of the tag itself should explain the link. But images can be deceptive, so we urge you to use the event handlers to provide text descriptions with your image maps.
The onClick mouse-related event isn't included as one of the <area> link-related events, but it can be simulated: simply use a JavaScript URL as the tag's href value. This approach is particularly useful to direct users away from default areas of an image map and onto those areas with real hyperlinks. See the client-side image map in 7.5.5 for an example.
According to the HTML standard, use this attribute to define the shape of an image map's mouse-sensitive region: a circle (circ or circle), polygon (poly or polygon), or rectangle (rect or rectangle).
The value of the shape attribute affects how the browser interprets the value of the coords attribute. If you don't include a shape attribute, the value default is assumed. According to the standard, default means that the area covers the entire image. In practice, the browsers default to a rectangular area and expect to find four coords values. And if you don't specify a shape and don't include four coordinates with the tag, the browser ignores the area altogether.
In fact, Netscape is the only browser that even recognizes the shape value default to provide a catch-all area for clicks that fall outside all the other defined hotspots. Since areas are in a "first-come, first-served" order in the <map> tag, you should place the default area last. Otherwise, it covers up any and all areas that follow in your image map.
The target attribute gives you a way to control where the contents of the selected hyperlink in the image map get displayed. Commonly used in conjunction with frames or multiple browser windows, the value of this attribute is the name of the frame or window in which the referenced document should be loaded. If the named frame or window exists, the document is loaded in that frame or window. If not, a new window is created, given the specified name, and the document is loaded in that new window. For more information, including a list of special target names, see 12.7.
The title attribute lets you specify a title for the document to which the image map's area links. The value of the attribute is any string, enclosed in quotes. The browser might use the title when displaying the link, perhaps flashing the title when the mouse passes over the area. The browser might also use the title attribute when adding this link to a user's hotlist.
The title attribute is especially useful for referencing an otherwise unlabeled resource, such as an image or a non-HTML document. Ideally, the value specified should match the title of the referenced document, but it's not required.
The following example fragment draws together the various components of a client-side image map we discussed earlier in this section. It includes the <img> tag with the image reference and usemap attribute with a name that points to a <map> that defines four mouse-sensitive regions (three plus a default) and related links:
<body> ... <img src="pics/map.gif" usemap="#map1" border=0> ... <map name="map1"> <area shape=rect coords="0,20,40,100" href="k_juice.html" onMouseOver="self.status='How to prepare kumquat juice.' ;return true"> <area shape=rect coords="50,50,80,100" href="k_soup.html" onMouseOver="self.status='A recipe for hearty kumquat soup.' ;return true"> <area shape=rect coords="90,50,140,100" href="k_fruit.html" onMouseOver="self.status='Care and handling of the native kumquat.' ;return true"> <area shape=default href="javascript:window.alert('choose the cup or one of the bowls.')" onMouseOver="self.status='Select the cup or a bowl for more information.' ;return true"> </map>
See Figure 7.7 for the results.
Unlike its server-side ismap counterpart, the client-side image map tag (<img usemap>) doesn't need to be included in an <a> tag. But it may be, so that you can gracefully handle browsers that are unable to process client-side image maps.
For example, Mosaic or early versions of Netscape simply load a document named main.html if the user clicks the map.gif image referenced in the following source fragment. The extended browsers, on the other hand, will divide the image into mouse-sensitive regions, as defined in the associated <map>, and link to a particular name anchor within the same main.html document if the image map region is selected by the user:
<a href="main.html"> <img src="pics/map.gif" ismap usemap="map1"> </a> ... <map name="map1"> <area coords="0,0,49,49" href="main.html#link1"> <area coords="50,0,99,49" href="main.html#link2"> <area coords="0,50,49,99" href="main.html#link3"> <area coords="50,50,99,99" href="main.html#link4"> </map>
To make an image map fully backward-compatible with all image map-capable browsers, you may also include both client-side and server-side processing for the same image map. Capable browsers will honor the faster client-side processing; all other browsers will ignore the usemap attribute in the <img> tag and rely upon the referenced server process to handle user selections in the traditional way. For example:
<a href="/cgi-bin/images/map.proc"> <img src="pics/map2.gif" usemap="#map2" ismap> </a> ... <map name="map2"> <area coords="0,0,49,49" href="link1.html"> <area coords="50,0,99,49" href="link2.html"> <area coords="0,50,49,99" href="link3.html"> <area coords="50,50,99,99" href="link4.html"> </map>
Some of the most visually compelling pages we've seen on the Web have mouse-sensitive images: maps with regions that when clicked, for example, lead to more information about a country or town, or result in more detail about the location and who to contact at a regional branch of a business. We've even seen a mouse-sensitive image of a fashion model whose various clothing parts lead to their respective catalog entries, complete with detailed description and price tag for ordering.
The visual nature of mouse-sensitive images coupled with the need for an effective interface means that you should strongly consider having an artist, a user-interface designer, and even a human-factors expert evaluate your mouse-sensitive imagery. At the very least, engage in a bit of user testing to make sure people know where to click to move to the desired document. Make sure the "mouseable" areas of the image indicate this to the user using a consistent visual mechanism. Consider using borders, drop shadows, or color changes to indicate those areas that can be selected by the user.
Finally, always remember that the decision to use mouse-sensitive images is an explicit decision to exclude text-based and image-restricted browsers from your pages. This includes the many millions of browsers connecting to the Internet via slow modem connections. For these people, downloading your beautiful images is simply too expensive. To keep from disenfranchising a growing population, make sure any page that has a mouse-sensitive image has a text-only equivalent easily accessible from a link on the image-enabled version. Some thoughtful webmasters even provide separate pages for users preferring full graphics versus mostly text.
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