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Announcements Homework 3 is due this Wednesday, November 11 th Superman robot moves into the phone booth. Homework 4 will be assigned this week and will.

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Presentation on theme: "Announcements Homework 3 is due this Wednesday, November 11 th Superman robot moves into the phone booth. Homework 4 will be assigned this week and will."— Presentation transcript:

1 Announcements Homework 3 is due this Wednesday, November 11 th Superman robot moves into the phone booth. Homework 4 will be assigned this week and will be due next Wednesday, November 18 th First Midterm On November 21 st Saturday at 9:00am (~ 100 minutes)

2 From Selection to Repetition The if statement and if/else statement allow a block of statements to be executed selectively: based on a condition cout << "Please enter a non-negative number" << endl; cin >> inputnumber; if (inputnumber < 0) { cout << inputnumber << " is negative. Wrong Input" << endl; } This piece of code does not ask another input number if the number is negative. ------------------------------------------------------------------------------------------------------ The while statement repeatedly executes a block of statements while the condition is true cout << " Please enter a non-negative number" << endl; cin >> inputnumber; while (inputnumber < 0) { cout << inputnumber << " is negative! Try again" << endl; cin >> inputnumber; }

3 Semantics of while loop if (test) while (test) { statement list; statement list; } test Statement list Next statement true false test Statement list Next statement true false

4 Sum Example: why we need loops? We want to find the sum of 10 positive values We can write: int num1, num2, num3, num4, num5; int sum; cin >> num1 >> num2 >> num3 >> num4 >> num5; sum = num1 + num2 + num3 + num4 + num5; cin >> num1 >> num2 >> num3 >> num4 >> num5; sum += num1 + num2 + num3 + num4 + num5;

5 Sum Example (not in book) What if we want to compute the sum of 100 values an undetermined number of values What we need is a program to be able to read as many values as we want and then compute the sum This is possible with loops Good solution is to use loops. Code is developed on board. See sum10nums.cpp This type of loops are called counting loops number of iterations is known

6 Another simple example Calculate the sum of the integer numbers between 1 and 10 int sum = 0; // this program piece int i = 1; // calculates the sum of while (i <= 10) // integers between and { // including 1 and 10 sum = sum + i; i += 1; }

7 Walkthrough of the example int sum = 0; int i = 1; while (i <= 10) { sum = sum + i; i = i + 1; } cout << sum; i<=10 sum=sum+i; i=i+1; true cout<<sum; false 1 i sum 0 2 1

8 Walkthrough of the example int sum = 0; int i = 1; while (i <= 10) { sum = sum + i; i = i + 1; } cout << sum; i<=10 sum=sum+i; i=i+1; true cout<<sum; false 2 i sum 1 3 3

9 Walkthrough of the example int sum = 0; int i = 1; while (i <= 10) { sum = sum + i; i = i + 1; } cout << sum; i<=10 sum=sum+i; i=i+1; true cout<<sum; false 3 i sum 3 4 6

10 Walkthrough of the example int sum = 0; int i = 1; while (i <= 10) { sum = sum + i; i = i + 1; } cout << sum; i<=10 sum=sum+i; i=i+1; true cout<<sum; false 10 i sum 45 11 55

11 while loop syntax while ( ) { ;... ; }

12 while loop sum example Sum of numbers from 1..10 int sum = 0; int i = 1; while (i <= 10) { sum = sum + i; i = i + 1; } cout << sum; initialization body statements update test

13 Anatomy of a loop Initialize variables used in loop body and loop test (before the loop) No general rule. The way of initialization and the initial values are to be determined according to the application The loop test is evaluated before each loop iteration NOT evaluated after each statement in the loop body Current value of variables are used for the loop test before each iteration The loop body must update some variables used in the loop test so that the loop eventually terminates If loop test is always true, loop is infinite Infinite loops must be avoided Basic rule of designing a loop: Initialization, loop test and update parts should be designed carefully in order to iterate the loop as many times as needed, but not one less or one more. Unfortunately there is no straightforward rule of designing a bug-free loop you should be able to develop those parts by understanding and analyzing the underlying problem that needs a loop

14 for loop syntax for ( ; ; ) { ;... ; } Initialization, test and update parts are combined Good for counting on an index kind of loops.

15 for loop syntax compared with while while ( ) { ;... ; } for ( ; ; ) { ;... ; }

16 for loop example Rewrite the same loop: sum of numbers from 1..10 int sum = 0; int i = 1; while (i <= 10) { sum = sum + i; i = i + 1; } int sum = 0; for (int i=1; i <= 10; i=i+1) { sum = sum + i; }

17 The for loop initialization statement executed once before the loop test expression boolean expression checked each time before entering the loop body if true execute loop body, if false terminate loop update statement executed after the last statement of the loop body several statements in initialization and update are separated by comma for(len = s.length(), k=0; k < len; k+=1) initialization and/or test and/or update parts could be missing but semicolons are there

18 The for loop For loops are good for counting loops (although they can be used for conditional loops) Number of iterations known before loop begins Example: sum of 10 input numbers Example: print a string vertically void Vertical(string s) // post: chars of s printed vertically int len; int k; len = s.length(); k = 0; while (k < len) { cout << s.substr(k,1) << endl; k += 1; } // for loop alternative 1// for loop alternative 2 int len; int k; len = s.length();int len; int k; for(k=0; k < len; k+= 1)for(len = s.length(), k=0; k < len; k+= 1){ cout << s.substr(k,1) << endl;} // for loop alternative 3 int len; int k; len = s.length(); k = 0; for(; k < len; k+= 1) { cout << s.substr(k,1) << endl; }

19 Example: Print a string backwards (revstring.cpp) Determine the index of the last character of the string, and then access each character backwards How many times should the loop iterate ? string s; int k; cout << "enter string: "; cin >> s; cout << s << " reversed is "; k = s.length() - 1; // index of last character in s while (k >= 0) { cout << s.substr(k,1); k -= 1; } cout << endl; What could we use instead of s.substr(k,1) ? s.at(k)

20 Reverse String as a function First step, what is the prototype? string revstring(string s) // pre: s = c 0 c 1 c 2 …c n-1 // post: return c n-1 …c 2 c 1 c 0 Second step, how do we build a new string? Start with an empty string, "" Add one character at each iteration using concatenation, + rev = rev + s.substr(k,1); Use revstring to determine if a string is a palindrome

21 See palindrome.cpp for full program string revstring(string s) // post: returns reverse of s, that is "stab" for "bats“ { int k = s.length() – 1; string rev = ""; // start with empty string while (k >= 0) { rev = rev + s.substr(k,1); k -= 1; } return rev; } bool IsPalindrome(string word) // post: returns true if and only word is a palindrome { return (word == revstring(word)); }

22 Bad loops 1. for (int i = 10; i < 5; i++) { cout << "How many times do I print?"; } 2. for (int i = 10; i >= 1; i++) { cout << "How many times do I print?"; } 3. int i = 1; while (i < 20) { cout << "How many times do I print?"; }

23 Bad loops Never executes Never stops (infinite loops) Example: consider the following modified code from sum10nums What’s the problem in the loop below? What is missing? sum = 0; count = 1; while (count <= 10) { cin >> num; sum += num; } count never reaches 10, because count is not updated in the loop

24 Infinite loops Infinite loop is something that must be avoided happens when the loop condition is always true same loop body iterates forever sometimes you see an output, sometimes you don’t press Ctrl-C to stop could be because of a wrong or missing update statement could be because of a wrong condition; could be another reason

25 Infinite loops What is the problem with the code below? cannot say infinite loop, depends on input number for example, if num is an odd number, then the loop is infinite cin >> num; int start = 0; while (start != num) { start += 2; cout << start << endl; } How to fix? You can check whether num is even before starting the loop. if (num % 2 == 0) { while (start != num) { start += 2; cout << start << endl; }

26 Other Common Problems Easy to iterate one more or one less times Test each loop with the inputs that cause: zero iterations of the loop body one iteration of the loop body maximum number of iterations one less than the maximum number of iterations Use the debugger and watch the variables.

27 Developing Loops Some loops are easy to develop, others are not Sometimes the proper loop test and body are hard to design Practice helps, but remember: Good design comes from experience, experience comes from bad design

28 Number Crunching Number crunching is a CS term that means a computing operation that requires several (and sometimes complex) arithmetic operations It was the job of early computers Numeric Analysis classical sub-discipline of computer science Today implicitly or explicitly, all operations are numeric Now we will see some mathematical applications factorial calculation prime number testing

29 Factorial n! = 1 x 2 x … x n is “n factorial”; used in math, statistics long factorial(long n) // pre: 0 <= n // post: returns n! (1 x 2 x … x n) Similar to sum, but this time we will calculate a product within the loop. At the end we will return the final product. The loop will iterate n times, multiplying by 1, 2, …, n Suppose we use a variable called product to hold the result, then product is n! when the loop terminates. Then we will return it at the end.

30 Factorial long Factorial(int num) // precondition: num >= 0 // postcondition returns num! (1 x 2 x … x num) { long product = 1; int count = 0; while (count < num) { count += 1; product *= count; } return product; } Issues Why did we use long? What happens if we use int instead? What happens if we initialize count to 1? Let’s see fact.cpp

31 Factorial (Cont’d) – Using BigInt class What is the problem of the previous program? integer overflow even long is not sufficient (actually there is no difference between long and int for 32-bit computers like ours) 12! is 479,001,600 so what happens with 13! ? The type BigInt, accessible via #include "bigint.h" can be used like an int, but gets as big as you want it to be Really arbitrarily large? No, limited to computer memory, but computers most likely run out of time before running out of memory Disadvantages of using BigInt compared to int? processing speed is lower uses up more memory Use BigInt if you really need it Do not forget to add bigint.cpp to your project, BigInt is a Tapestry class Download wincode.zip file from http://cs.duke.edu/csed/tapestry

32 Factorial using BigInt class See bigfact.cpp

33 Determining if a number is prime Prime number is a natural number which has only two divisors: 1 and itself Some Cryptographic algorithms depend on prime numbers Determining if a number is prime must be “easy” Actually factoring a number must be “hard” “hard” in the sense that it must be computationally infeasible to factorize in a reasonable amount of time RSA Cryptosystem Rivest, Shamir, Adleman based on the factorization problem of large numbers has been utilized by several security products and services PGP (Pretty Good Privacy) – e-mail security WWW security using SSL protocol Sophisticated mathematics used for fast prime-testing, we’ll do basic prime testing Since our algorithm is based on factorization, it will be really slow for large numbers

34 Determining Primeness (continued) 1 is NOT prime, 2 is prime, 3 is prime, 5 is prime, 17 is prime, … 137, 193? We do not need to check even numbers other than 2 (2 is a special case) To check 193, divide it by 3, 5, 7, 9, 11, 13 Note that 14x14 = 196, so 13 largest potential factor? We will use modulus operator to check divisibility We’ll check odd numbers as potential divisors Watch out for 2, it is a special case How far should we go to check potential divisors? up to and including sqrt(number) + 1 If there was a bigger factor, a smaller factor would exist. And this smaller one must have been checked before. So we do not need to go beyond this limit. +1 is there to make sure that there will be no problems with precision See primes.cpp for code

35 Primeness Check – Details Special even number check is added before the loop to eliminate even numbers to be checked in the loop In order to make the code more efficient int limit = int(sqrt(n) + 1); To assign a double value to an int, a typecast is used, to tell the compiler that the loss of precision is intentional Make typecasts explicit to tell the compiler you know what you are doing Compiler warnings are avoided We will see typecast in more detail later

36 for loop compared with while while ( ) { ;... ; } for ( ; ; ) { ;... ; }

37 Example Rewrite the while loop of main of primes.cpp using for k = low; while (k <= high) { if (IsPrime(k)) { cout << k << endl; numPrimes += 1; } k += 1; } for (k = low; k <= high; k += 1) { if (IsPrime(k)) { cout << k << endl; numPrimes += 1; } }

38 Shorthand for increment/decrement Lots of code requires incrementing a variable by one Three methods, using = and +, using +=, and using ++ effectively they are same num = num + 1; num += 1; num++; // post increment It is also possible to write ++num; pre-increment These differ on when the increment is performed, but this difference doesn’t matter when used as an abbreviation for the statement n += 1; in a single statement Similarly there are post-decrement (and pre-decrement) num = num - 1; num -= 1; num--;

39 The do-while loop Similar to while loop, but the test is after the execution of the loop body The while loop may never execute, do-while loop executes at least once do { ;... ; } while ( ); Example: Prompt for a number between 0 and 100, loop until such a number is entered ( user should enter at least one number) do { cout << "enter number in range [0..100] "; cin >> num; } while (num 100 ); Don’t forget

40 Priming Priming: reading an initial value before the loop do not get confused with prime numbers; this is something else Problem: enter numbers, add them up, stop when -1 entered int sum = 0; int num; cin >> num; // prime the loop while (num != -1) { sum += num; cin >> num; } cout << " total = " << sum << end; Code duplication exists here: input (and perhaps prompt) code is repeated before the loop and in the loop

41 Pseudo infinite solution using break To avoid repeating code, include it in the body of the loop only, use a test to break out of the loop break statement exits (inner-most) loop I don’t prefer this kind of loops (I’d prefer code duplication) Because the loop condition is not clear, hence prevents readability Try not to use break in this course Save it for later when you develop really complicated loops int sum = 0; int num; while (true) // seemingly infinite loop { cin >> num; if (num == -1) { break; // get out of loop } sum += num; } cout << "total = " << sum << end;

42 Fence Post Problem The problem that occurs when one or more operations of the loop body are executed one less then the others. Example: Display integers between 1 and 10 separated by comma 1,2,3,4,5,6,7,8,9,10 no comma after 10; no comma before 1. for (n=1; n <= 10; n++) { cout << n << ","; } Problem: comma after 10 for (n=1; n < 10; n++) { cout << n << ","; } cout << n; No problem, but code duplicates Think of other solutions! (see page 175 of Tapestry)

43 Downward-counting loop Calculate n to the power of m: n m =nxnx…xn Example: 2 5 =2x2x2x2x2=32 int power = 1; int n, m; cin >> n >> m; for (int i = m; i <= 1; i--) { power = power * n; }

44 Nested loops Sometimes one loop occurs in another Generating 2-dimensional tabular data multiplication table Sorting vectors (which will be studied much later) Display some geometric figures using character * (or any other character) display rectangles, triangles Although other loops can be nested as well, most of the time, for loops are used in nested manner

45 Nested loops - Example Write a function to display a rectangle of stars (height and width are parameters) e.g. if height is 4 and width is 7, the output should look like ******* for (i=1; i<= height; i++) { for (j=1; j<=width; j++) // inner loop prints 1 line of stars { cout << "*"; } cout << endl; // end of line is put to the end of each line } See drawfigures.cpp for the complete function and its use in main

46 Nested loops - Example Write a function to display a perpendicular isosceles triangle of stars (perpendicular side length is parameter) e.g. if side length is 6, the output should look like * ** *** **** ***** ****** for (i=1; i <= side; i++) { for (j=1; j<=i; j++) // inner loop prints 1 line of stars { cout << "*"; } cout << endl; // end of line is put to the end of each line } See drawfigures.cpp for the complete function and its use in main

47 Same loop: downward-counting for (i=1; i <= side; i++) { for (j=1; j<=i; j++) { cout << "*"; } cout << endl; } for (i=1; i <= side; i++) { for (j=i; j>=1; j--) { cout << "*"; } cout << endl; }

48 Drawfigures – Other Considerations What about having a function to display a line of stars (number of stars is a parameter) useful for both rectangle and triangle void PrintLine (int numstars) // pre: numstars > 0 // post: displays numstars stars in one line { int i; for (i=1; i<= numstars; i++) { cout << "*"; } cout << endl; // end of line is put to the end of the line } in rectangle function, inner loop is replaced by a function call for (i=1; i<=height ; i++) { PrintLine(width); } use of PrintLine in triangle function is similar

49 Example – Multiplication Table On i th line print, i*1, i*2, i*3,..., i*i Total number of lines is an input. Display lines starting with 1. See multiply.cpp #include #include // for setw using namespace std; int main() { int i,k,numlines; const int WIDTH = 4; cin >> numlines; for (i=1; i <= numlines; i++) { for (k=1; k <= i; k++) { cout << setw(WIDTH) << i*k; } cout << endl; } return 0; }

50 Constants Sometimes very useful provides self documentation re-use the same value across the program avoid accidental value changes like variables, but their value is assigned at declaration and can never change afterwards declared by using const before the type name (any type is OK) const double PI = 3.14159; const string thisclass = "CS201" const int WIDTH = 4; later you can use their value cout << (PI * 4 * 4); but cannot change their value PI = 3.14; causes a syntax error

51 Formatting Output We use stream manipulator setw to specify the total number of spaces that the next output will use setw(field length) written in cout and affects only the next output value not the whole cout line output is displayed using field length spaces in right justified manner (any empty space is on the left) defined in header file, so you have to have #include Example cout << setw(9) << "cs201"; output shown is four blanks and cs201

52 Example using robot class (see rectangularscan.cpp) Write a program in which the robot starts at 0,0 and searches a rectangular space that covers n*n cells n is input (in the example below, n is 8) during this journey the robot should pick or put things on the cells so that all visited cells occupy one thing


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