View
216
Download
0
Category
Tags:
Preview:
Citation preview
1
Week 2
Organizational matters Fortran 90 (subset F): Basics Example programs in detail
2
Top-down programming
4 basic steps– Specify the problem clearly– Analyse the problem and break it down into
its fundamental elements– Code the program according to the plan
developed at step 2– Test the program exhaustively, and repeat
steps 2 and 3 as necessary until the program works in all situations that you can envisage
3
Program = Data Types +
Algorithms Data types:
what you work on Algorithms:
what you do with them
4
Structure of a program(in Fortran 90) Heading (program, module, etc.) specification part execution part subprogram part end program statement
5
program Radioactive_Decay!----------------------------------------------------------------------------! This program calculates the amount of a radioactive substance that ! remains after a specified time, given an initial amount and its ! half-life. Variables used are:! InitalAmount : initial amount of substance (mg)! HalfLife : half-life of substance (days)! Time : time at which the amount remaining is calculated (days)! AmountRemaining : amount of substance remaining (mg)!! Input: InitialAmount, HalfLife, Time! Output: AmountRemaining!-----------------------------------------------------------------------------
implicit none real :: InitialAmount, HalfLife, Time, AmountRemaining
! Get values for InitialAmount, HalfLife, and Time.
print *, "Enter initial amount (mg) of substance, its half-life (days)" print *, "and time (days) at which to find amount remaining:" read *, InitialAmount, HalfLife, Time ! Compute the amount remaining at the specified time. AmountRemaining = InitialAmount * 0.5 ** (Time / HalfLife)
! Display AmountRemaining. print *, "Amount remaining =", AmountRemaining, "mg"
end program Radioactive_Decay
6
Data Types
Five basic types:– integer– real– complex– character– logical
Data types of ‘container’ classes
7
Integers
a whole number (positive, negative or zero)
no decimal point Examples0123-23456+123789
8
Reals
Numbers with decimal fractions There has to be decimal point Examples1.23456-0.0019875678.
Another representation:1.952e30.1952e4123.456e-8
9
Character
Sequence of symbols from the Fortran character set
Enclosed between double quotes Examples"This is a string""I do, I don't""1234abc345"
10
Logical
Can take only two values:•.TRUE.•.FALSE.
11
Identifiers
Names used to identify programs, constants, variables, etc.
Identifiers must Begin with a letter This can be followed by up to 30
letters, digits, undescores Be careful with the case: lower or
upper case letters
12
Identifiers
ExamplesCurrentDecay_Ratepressurean_identifier_with_a_long_namethe_best_program
13
Constants
10293845 is an integer constant 12.3456 is a real constant "What a nice day!" is a character
constant
14
VariablesVariables:: It is usual for people to associate a name or phrase with a piece of information. For example, the phrase "today's date" has an associated numeric value which varies day by day. This is similar to the concept of a program variable; a program variable is some object (named by the programmer) which uniquely identifies a piece of data stored in memory.
Variables are value containers Compiler associates with a variable
a memory location Value of a variable at any time is
the value stored in the associated memory location at that time
15
Variables
123.5623456
MEMORY
Hello World1234567
Message
Payment
16
Declarations of Variables
Form:type-specifier :: list
Declares that the identifiers in the list have the specified type
Type statements must appear in the specification part of the program
Examplesinteger :: number_years, counts, monthsreal :: Mass, Velocity, Accelerationcharacter (len=12) :: MyName, YourName
17
implicit none
It should be placed at the beginning of the specification part
You have to declare all variables you will be using in the program!
18
Variable initialization
All variables are initially undefined Initialization in the declarations
Examples:real :: W=1.2, z=5.678, mass=4.56integer :: year=1998, count=0
19
Named constants
Form:type-specifier, parameter :: list
Examplesinteger, parameter :: INITCOUNT = 30real, parameter :: G = 9.81
It's a good idea to write named constants in upper case
20
Arithmetic operations
Variables and constants can be processed by using operations and functions appropriated to their types.
Operations
21
Operator Operation
+ Addition, unary plus
- Subtraction, unaryminus
* Multiplication
/ division
** exponentiation
22
Operations
ExamplesTo calculate B2 - 4ACB**2 - 4*A*C
Types are important:9/4 = 29.0/4.0 = 2.25
Mixed-mode expressions:3 + 8.0/5 3 + 8.0/5.0 3 + 1.6 3.0 + 1.6 4.6
23
Priority rules
All exponentiations are performed first; consecutive exponentiations are performed from right to left
All multiplications and divisions are performed next; in the order in which they appear from left to right
Additions and subtractions are performed last, in the order in which they appear from left to right
24
Some examples
2 ** 3 ** 2 = 512 10/5 *2 = 2 * 2 = 4
To calculate 51/3
5.0**(1.0/3.0) but not
5.0**(1/3) 5.0**0 1.0
25
Library functions
abs(x) Absolute value of x cos(x) Cosine of x radians exp(x) Exponential function int(x) Integer part of x sqrt(x) Square root of x
26
Assignment statement Form:variable = expression
Assigns the value of expression to variable Assignment is not a statement of algebraic
equality; it is a replacement statement ExamplesDensity = 2000.0Volume = 3.2Mass = Density*VolumeWeightRatio = log(Mass/90.)
27
Programs need to communicate with users! Two kinds of I/O (for the moment!):
– Formatted I/O– List-directed I/O
List-directed outputprint *, output-listwrite (unit=*, fmt=*) output-list
List-directed inputread *, input-listread (unit=*, fmt=*) input-list
28
List-directed I/O
Examplesprint *, "Tell me your birthday"write (unit=*, fmt=*) a, b, c**2read *, day, month, year
29
30
31
32
33
34
35
36
37
38
Recommended