• Create BookmarkCreate Bookmark
  • Create Note or TagCreate Note or Tag
  • PrintPrint
Share this Page URL


About Flash

Flash began life as Future Splash Animator, a nifty little program for creating and animating vector art. In 1997, Macromedia acquired Future Splash, changed the name to Flash, and promoted the program as a tool for creating graphic content for the World Wide Web. Flash excels as a Web-site-design tool because it provides all the tools you need: tools for creating graphics; tools for animating those graphics; tools for creating interface elements and interactivity; and tools for writing the HTML necessary to display your graphics, animations, and interface elements as a Web page via a browser.

Standard illustration programs, such as Macromedia FreeHand and Adobe Illustrator, rely on Bézier curves to create vector shapes. Flash offers similar tools but also provides natural drawing tools that let you deal with vectors in a more immediate way, without manipulating curve handles or special points on a line. Flash’s natural drawing tools provide a spontaneity that appeals to many artists. Flash’s natural drawing tools also appeal to nonartists—those of us who can’t draw a straight line to save our lives.

Flash helps beginners create simple animated graphics, but anyone who is familiar with animation can use Flash’s tools to create quite complex animations. Flash’s scripting language, ActionScript, provides assisted modes that help beginners to add simple interactive elements. ActionScript is powerful enough, however, that serious scripters can create highly sophisticated interterface and application designs. Flash’s ability to incorporate sounds and video make it easy to bring even more life to your sites.

With each new generation of Flash, Macromedia has added features and functions that expand the program’s capabilities as an animation machine and interactivity creator while preserving the easy-to-use drawing tools and assisted animation and interactivity features.

How Flash Animates

Flash uses standard animation techniques to create the illusion of movement. You create a series of still images, each slightly different from the next. By displaying the images rapidly, one after another, you simulate continuous movement. Flash’s animation tools help you create, organize, and synchronize the animation of multiple graphic elements, sounds, and video clips.

Flash Movie Formats

Flash is both an authoring environment for creating animation and a playback system for making that content viewable on a local computer or in a Web browser. You create animation and interactivity in Flash-format files. In the Windows world, these files have the extension .fla. To create viewable movies, you convert the authoring files to Flash Player format; these files have the extension .swf. Another name for the playable format is SWF (pronounced swif).

How Flash Delivers

Flash’s publishing feature creates the necessary HTML code to display your animation in a Web browser. The publishing feature also lets you choose alternative methods of delivering your movie—as animated GIF images, for example, or as a QuickTime movie—and then creates those alternate image files.

Vectors Versus Bitmaps

The data that creates vector graphics and the data that creates bitmapped graphics are similar, in that they are both mathematical instructions to the computer about where and how to create images on-screen. Bitmaps, however, are lengthier and result in a less versatile graphic; vector graphics are compact and fully scaleable.

Bitmap instructions break a whole graphic into little dots and must tell the computer about each dot; vector instructions describe the graphic mathematically as a series of lines and arcs (Figure i.1). Picture a 1-inch black horizontal line on a field of white. For a bitmap, the instructions would go something like this: Make a white dot, make a white dot, make a black dot, make a black dot, make a black dot, make a black dot, and so on. These instructions would repeat until you’d strung together enough black dots to make a 1-inch line. Then the white-dot instructions would start again and continue until the rest of the screen was filled with white dots. The vector instructions would simply be a mathematical formula for a straight line, plus the coordinates that define the line’s position on-screen.

Figure i.1. For a computer to draw a bitmapped graphic, it must receive a set of instructions for each dot (each bit of data) that makes up the image. Instructions for a vector graphic describe lines and curves that make up the image mathematically. The bitmapped line (left) appears much rougher than the vector line (right). You can’t enlarge the bitmapped line without losing quality. But you can make the vector line as big as you like; it retains its solid appearance.

  • Creative Edge
  • Create BookmarkCreate Bookmark
  • Create Note or TagCreate Note or Tag
  • PrintPrint