Chapter 7 Expressions and Assignment Statements PDF

Summary

This document describes expressions and assignment statements in programming. It details concepts like arithmetic expressions, operator precedence, and mixed-type expressions. The chapter also explains different assignment operators, coercions, and issues related to mixed-mode expressions.

Full Transcript

Chapter 6

Expressions and
Assignment
Statements

ISBN 0-321-49362-1
Chapter 5 Topics

Introduction
Arithmetic Expressions
Overloaded Operators
Type Conversions
Relational and Boolean Expressions
Short-Circuit Evaluation
Assignment Statements
Mixed-Mode Assignment

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Introduction

Expressions are the fundamental means of
specifying computations in a programming
language
To understand expression evaluation, need
to be familiar with the orders of operator
and operand evaluation
Essence of imperative languages is
dominant role of assignment statements

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Arithmetic Expressions

Arithmetic evaluation was one of the
motivations for the development of the first
programming languages
Arithmetic expressions consist of
operators, operands, parentheses, and
function calls

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Arithmetic Expressions: Design Issues

Design issues for arithmetic expressions
– operator precedence rules
– operator associativity rules
– order of operand evaluation
– operand evaluation side effects
– operator overloading
– mode mixing expressions

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Arithmetic Expressions: Operators

A unary operator has one operand
A binary operator has two operands
A ternary operator has three operands

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Arithmetic Expressions: Operator
Precedence Rules
The operator precedence rules for
expression evaluation define the order in
which “adjacent” operators of different
precedence levels are evaluated
Typical precedence levels
– parentheses
– unary operators
– ** (if the language supports it)
– *, /
– +, -

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Arithmetic Expressions: Operator
Associativity Rule
The operator associativity rules for expression
evaluation define the order in which adjacent
operators with the same precedence level are
evaluated
Typical associativity rules
– Left to right, except **, which is right to left
– Sometimes unary operators associate right to left (e.g., in
FORTRAN)
APL is different; all operators have equal
precedence and all operators associate right to left
Precedence and associativity rules can be overriden
with parentheses

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Arithmetic Expressions: Conditional
Expressions

Conditional Expressions
– C-based languages (e.g., C, C++)
– An example:
average = (count == 0)? 0 : sum / count

– Evaluates as if written like
if (count == 0) average = 0
else average = sum /count

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Arithmetic Expressions: Operand
Evaluation Order

Operand evaluation order
1. Variables: fetch the value from memory
2. Constants: sometimes a fetch from memory;
sometimes the constant is in the machine
language instruction
3. Parenthesized expressions: evaluate all
operands and operators first

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Arithmetic Expressions: Potentials for
Side Effects

Functional side effects: when a function changes a
two-way parameter or a non-local variable
Problem with functional side effects:
– When a function referenced in an expression alters
another operand of the expression; e.g., for a parameter
change:
a = 10;

b = a + fun(a);

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Functional Side Effects

Two possible solutions to the problem
1. Write the language definition to disallow
functional side effects
No two-way parameters in functions
No non-local references in functions
Advantage: it works!
Disadvantage: inflexibility of two-way parameters
and non-local references
2. Write the language definition to demand that
operand evaluation order be fixed
Disadvantage: limits some compiler optimizations

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Overloaded Operators

Use of an operator for more than one
purpose is called operator overloading
Some are common (e.g., + for int and
float)
Some are potential trouble (e.g., * in C and
C++)
– Loss of compiler error detection (omission of an
operand should be a detectable error)
– Some loss of readability
– Can be avoided by introduction of new symbols
(e.g., Pascal’s div for integer division)

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Overloaded Operators (continued)

C++ and Ada allow user-defined
overloaded operators
Potential problems:
– Users can define nonsense operations
– Readability may suffer, even when the operators
make sense

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Type Conversions

A narrowing conversion is one that converts
an object to a type that cannot include all
of the values of the original type e.g.,
float to int
A widening conversion is one in which an
object is converted to a type that can
include at least approximations to all of the
values of the original type
e.g., int to float

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Type Conversions: Mixed Mode

A mixed-mode expression is one that has
operands of different types
A coercion is an implicit type conversion
Disadvantage of coercions:
– They decrease in the type error detection ability of the
compiler
In most languages, all numeric types are coerced
in expressions, using widening conversions
In Ada, there are virtually no coercions in
expressions

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Explicit Type Conversions

Explicit Type Conversions
Called casting in C-based language
Examples
– C: (int) angle
– Ada: Float (sum)

Note that Ada’s syntax is similar to function
calls

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Type Conversions: Errors in Expressions

Causes
– Inherent limitations of arithmetic
e.g., division by zero
– Limitations of computer arithmetic
e.g. overflow
Often ignored by the run-time system

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Relational and Boolean Expressions

Relational Expressions
– Use relational operators and operands of
various types
– Evaluate to some Boolean representation
– Operator symbols used vary somewhat among
languages (!=, /=,.NE., , #)

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Relational and Boolean Expressions

Boolean Expressions
– Operands are Boolean and the result is Boolean
– Example operators

FORTRAN 77 FORTRAN 90 C Ada.AND. and && and.OR. or || or.NOT. not ! not
xor

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Relational and Boolean Expressions: No
Boolean Type in C

C has no Boolean type--it uses int type
with 0 for false and nonzero for true
One odd characteristic of C’s expressions:
a < b < c is a legal expression, but the
result is not what you might expect:
– Left operator is evaluated, producing 0 or 1
– The evaluation result is then compared with the
third operand (i.e., c)

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Relational and Boolean Expressions:
Operator Precedence

Precedence of C-based operators
postfix ++, --
unary +, -, prefix ++, --, !
*,/,%
binary +, -
, =
=, !=
&&
||

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Short Circuit Evaluation

An expression in which the result is
determined without evaluating all of the
operands and/or operators
Example: (13*a) * (b/13–1)
If a is zero, there is no need to evaluate (b/13-1)
Problem with non-short-circuit evaluation
index = 1;
while (index < length) && (LIST[index] != value)
index++;
– When index=length, LIST [index] will cause an
indexing problem (assuming LIST has length -1
elements)

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Short Circuit Evaluation (continued)

C, C++, and Java: use short-circuit evaluation for
the usual Boolean operators (&& and ||), but also
provide bitwise Boolean operators that are not
short circuit (& and |)
Ada: programmer can specify either (short-circuit
is specified with and then and or else)
Short-circuit evaluation exposes the potential
problem of side effects in expressions
e.g. (a > b) || (b++ / 3)

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Assignment Statements

The general syntax

The assignment operator
= FORTRAN, BASIC, PL/I, C, C++, Java
:= ALGOLs, Pascal, Ada
= can be bad when it is overloaded for the
relational operator for equality

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Assignment Statements: Conditional
Targets
Conditional targets (C, C++, and Java)
(flag)? total : subtotal = 0

Which is equivalent to

if (flag)
total = 0
else
subtotal = 0

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Assignment Statements: Compound
Assignment Operators
A shorthand method of specifying a
commonly needed form of assignment
Introduced in ALGOL; adopted by C
Example

a = a + b

is written as

a += b

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Assignment Statements: Unary
Assignment Operators
Unary assignment operators in C-based
languages combine increment and
decrement operations with assignment
Examples

count++ (count incremented)
--count (count decremented)

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 Assignment as an Expression
In C, C++, and Java, the assignment
statement produces a result and can be
used as operands
An example:
while ((ch = getchar())!= EOF){…}

ch = getchar() is carried out; the result
(assigned to ch) is used as a conditional
value for the while statement

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Mixed-Mode Assignment
Assignment statements can also be
mixed-mode, for example
int a, b;
float c;
c = a / b;
In Pascal, integer variables can be
assigned to real variables, but real
variables cannot be assigned to integers
In Java, only widening assignment
coercions are done
In Ada, there is no assignment coercion
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Summary

Expressions
Operator precedence and associativity
Operator overloading
Mixed-type expressions
Various forms of assignment

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