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appen.C revision 1.4 
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     34 .\"	@(#)appen.C	8.1 (Berkeley) 6/8/93
     35 .\"
     36 .ie t .oh '\*(Ln Appendix A''PS1:19-%'
     37 .eh 'PS1:19-%''\*(Ln Appendix A'
     38 .el .he ''\fIAppendix A\fR''
     39 .bp
     40 .(x
     41 .ti 0
     42 .b "Appendix A"
     43 .)x
     44 .sh 1 "Examples" 1
     45 .pp
     46 Here we present a few examples
     47 of how to use the package.
     48 They attempt to be representative,
     49 though not comprehensive.  Further examples can be found in the games section
     50 of the source tree and in various utilities that use the screen such as
     51 .i systat(1) .
     52 .sh 2 "Screen Updating"
     53 .pp
     54 The following examples are intended to demonstrate
     55 the basic structure of a program
     56 using the screen updating sections of the package.
     57 Several of the programs require calculational sections
     58 which are irrelevant of to the example,
     59 and are therefore usually not included.
     60 It is hoped that the data structure definitions
     61 give enough of an idea to allow understanding
     62 of what the relevant portions do.
     63 .sh 3 "Simple Character Output"
     64 .pp
     65 This program demonstrates how to set up a window and output characters to it.
     66 Also, it demonstrates how one might control the output to the window.  If
     67 you run this program, you will get a demonstration of the character output
     68 chracteristics discussed in the above Character Output section.
     69 .(l I
     70 .so t2.gr
     71 .)l
     72 .sh 3 "A Small Screen Manipulator"
     73 .pp
     74 The next example follows the lines of the previous one but extends then to
     75 demonstrate the various othe uses of the package.  Make sure you understand
     76 how this program works as it encompasses most of anything you will
     77 need to do with the package.
     78 .(l I
     79 .so t3.gr
     80 .)l
     81 .sh 3 "Twinkle"
     82 .pp
     83 This is a moderately simple program which prints
     84 patterns on the screen.
     85 It switches between patterns of asterisks,
     86 putting them on one by one in random order,
     87 and then taking them off in the same fashion.
     88 It is more efficient to write this
     89 using only the motion optimization,
     90 as is demonstrated below.
     91 .(l I
     92 .so twinkle1.gr
     93 .)l
     94 .sh 3 "Life"
     95 .pp
     96 This program fragment models the famous computer pattern game of life
     97 (Scientific American, May, 1974).
     98 The calculational routines create a linked list of structures
     99 defining where each piece is.
    100 Nothing here claims to be optimal,
    101 merely demonstrative.
    102 This code, however,
    103 is a very good place to use the screen updating routines,
    104 as it allows them to worry about what the last position looked like,
    105 so you don't have to.
    106 It also demonstrates some of the input routines.
    107 .(l I
    108 .so life.gr
    109 .)l
    110 .sh 2 "Motion optimization"
    111 .pp
    112 The following example shows how motion optimization
    113 is written on its own.
    114 Programs which flit from one place to another without
    115 regard for what is already there
    116 usually do not need the overhead of both space and time
    117 associated with screen updating.
    118 They should instead use motion optimization.
    119 .sh 3 "Twinkle"
    120 .pp
    121 The
    122 .b twinkle
    123 program
    124 is a good candidate for simple motion optimization.
    125 Here is how it could be written
    126 (only the routines that have been changed are shown):
    127 .(l
    128 .so twinkle2.gr
    129 .)l
    130