Many computing applications involve the simulation of games or events, with the hope of gaining insights and identifying underlying principles. In some cases, simulations can apply definite, well-known formulae. For example, in studying the effect of a pollution source in a lake or stream, one can keep track of pollutant concentrations in various places. Then, since the flow of water and the interactions of pollutants is reasonably well understood, one can follow the flow of the pollutants over a period time, according to known equations.
In other cases, specific outcomes involve some chance. For example, when a car begins a trip and encounters a traffic light, it may be a matter of chance as to whether the light is green or not. Similar uncertainties arise when considering specific organisms or when tabulating the outcomes involving flipping a coin, tossing a die, or dealing cards. In these cases, one may know about the probability of an event occuring (a head may occur about half the time), but the result of any one event depends on chance.
In studying events that involve some chance, one approach is to model the event or game, using a random number generator as the basis for decisions. If such models are run on computers many times, the results may give some statistical information about what outcomes are likely and how often each type of outcome might be expected to occur. This approach to problem solving is called the Monte Carlo Method.
A random number generator for a typical computer language is a procedure
which produces different values each time it is called. Such procedures
simulate a random selection process. Scheme provides the procedure
random for this purpose. This procedure returns integer
values which depend on its parameter. In particular,
returns a value between 0 and one less than its parameter, inclusive.
> (random 10) 1 > (random 10) 9 > (random 10) 7 > (random 10) 0 > (random 10) 5 > (random 10) 1 > (random 10) 0
We can use
random to write a program to simulate the rolling of a die, by
generating integers from 1 to 6, to correspond to the faces on the die
cube. The details of this simulation are shown in the following
;;; Procedure: ;;; roll-a-die ;;; Parameters: ;;; None ;;; Purpose: ;;; To simulate the rolling of one six-sided die. ;;; Produces: ;;; An integer between 1 and 6, inclusive. ;;; Preconditions: ;;; None. ;;; Postconditions: ;;; Returns an integer between 1 and 6, inclusive. ;;; It should be difficult (or impossible) to predict which ;;; number is produced. (define roll-a-die (lambda () (+ (random 6) ; a value in the range [0 .. 5] 1))) ; now in the range [1 .. 6]
We can use that procedure to simulate the roll of two dice.
(define roll-dice (lambda () (+ (roll-a-die) (roll-a-die))))
We can use
random to select between a variety of
values, such as a collection of potential colors. The easiest
way to do so is to use the result of
the selector parameter to
;;; Value: ;;; colors ;;; Type: ;;; List of strings ;;; Contains: ;;; A list of colors, suitable for processing by random-color (define colors (list "red" "green" "yellow" "blue" "purple" "white" "black")) ;;; Procedure: ;;; random-color ;;; Parameters: ;;; [None] ;;; Purpose: ;;; Picks a "random" (unpredictable) color. ;;; Produces: ;;; color, a string ;;; Preconditions: ;;; Value colors has been defined as a list of strings that name colors. ;;; Postconditions: ;;; color names a color. ;;; It is difficult for someone to predict what color random-color ;;; will return. (define random-color (lambda () (list-ref colors (random (length colors)))))
We can use similar techniques to generate
(define sentence (lambda () (string-append (random-person) " " (random-transitive-verb) " " (random-object) "."))) (define random-elt (lambda (lst) (list-ref lst (random (length lst))))) (define random-person (lambda () (random-elt (list "Davis" "Gene" "Holly" "Jenni" "Joe" "Joseph" "Senator Phil" "Reese" "Sam" "Stephane")))) (define random-transitive-verb (lambda () (random-elt (list "saw" "watched" "threw" "ate" "borrowed")))) (define random-object (lambda () (string-append (random-elt (list "the" "a")) " " (random-elt (list "heavy" "blue" "green" "hot" "cold" "disgusting")) " " (random-elt (list "cup of coffee" "computer" "classroom" "PBJ algorithm" "homework assignment")))))
Sunday, 4 March 2001 [Samuel A. Rebelsky]
Thursday, 8 March 2001 [Samuel A. Rebelsky]
Sunday, 11 March 2001 [Samuel A. Rebelsky]
Monday, 12 March 2001 [Samuel A. Rebelsky]
Monday, 16 September 2002 [Samuel A. Rebelsky]
sentenceprocedure, and the related procedures.
Thursday, 19 September 2002 [Samuel A. Rebelsky]
I usually create these pages
on the fly, which means that I rarely
proofread them and they may contain bad grammar and incorrect details.
It also means that I tend to update them regularly (see the history for
more details). Feel free to contact me with any suggestions for changes.
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