Source:
Concepts of Programming Languages, Robert W. Sebesta.
Chapter 6: Data Types, page 312-314
By:
Name : Helena Natanael
NIM : 1801380333
Review Question:
6. What are the advantages of user-defined enumeration types?
Enumeration types can provide advantages in both readability and reliability. First is no arithmetic operations are legal on enumeration types; this prevents adding days of the week, for example. And second, no enumeration variable can be assigned a value outside its defined range.
By:
Name : Helena Natanael
NIM : 1801380333
Review Question:
6. What are the advantages of user-defined enumeration types?
Enumeration types can provide advantages in both readability and reliability. First is no arithmetic operations are legal on enumeration types; this prevents adding days of the week, for example. And second, no enumeration variable can be assigned a value outside its defined range.
7. In what ways are the user-defined enumeration types of C# more reliable than those of C++?
C# enumeration types are like those of C++, except that they are
never coerced to integer. So, operations on enumeration types are
restricted to those that make sense. Also, the range of values is
restricted to that of the particular enumeration type.
8.What are the design issues for arrays?
- What types are legal for subscripts?
- Are subscripting expressions in element references range checked?
- When are subscript ranges bound?
- When does array allocation take place?
- Are ragged or rectangular multidimensioned arrays allowed, or both?
- Can arrays be initialized when they have their storage allocated?
- What kinds of slices are allowed, if any?
9.Define static, fixed stack-dynamic, stack-dynamic, fixed heap-dynamic, and heap-dynamic arrays. What are the advantages of each?
A static array is one in which the subscript ranges are statically bound and storage allocation is static. The advantage of static arrays is efficiency: No dynamic allocation or deallocation is required.
A fixed stack-dynamic array is one in which the subscript ranges are statically bound, but the allocation is done at declaration elaboration time during execution. The advantage of fixed stack-dynamic arrays over static arrays is space efficiency.
A stack-dynamic array is one in which both the subscript ranges and the storage allocation are dynamically bound at elaboration time. The advantage of stack-dynamic arrays over static and fixed stack-dynamic arrays is flexibility.
A fixed heap-dynamic array is similar to a fixed stack-dynamic array, in that the subscript ranges and the storage binding are both fixed after storage is allocated. The advantage of fixed heap-dynamic arrays is flexibility the array’s size always fits the problem.
A heap-dynamic array is one in which the binding of subscript ranges and storage allocation is dynamic and can change any number of times during the array’s lifetime. The advantage of heap-dynamic arrays over the others is flexibility: Arrays can grow and shrink during program execution as the need for space changes.
10.What happens when a nonexistent element of an array is referenced in Perl?
A reference to a nonexistent element in Perl yields undef, but no error is reported.
Problem Sets:
6.Explain all of the differences between Ada’s subtypes and derived types.
A derived type is a new type that is based on some previously defined type with which it is not equivalent, although it may have identical structure. Derived types inherit all the properties of their parent types. Consider the following example:
type Celsius is new Float;
type Fahrenheit is new Float;
The types of variables of these two derived types are not equivalent, although their structures are identical. Furthermore, variables of both types are not type equivalent with any other floating-point type. Derived types can also include range constraints on the parent type, while still inheriting all of the parent’s operations.
On the other hand Ada subtype is a possibly range-constrained version of an existing type. A subtype is type equivalent with its parent type. Ada’s derived types are very different from Ada’s subrange types.
For example, consider the following type declarations:
type Derived_Small_Int is new Integer range 1..100; subtype Subrange_Small_Int is Integer range 1..100;
Variables of both types, Derived_Small_Int and Subrange_Small_Int, have the same range of legal values and both inherit the operations of Integer.
However, variables of type Derived_Small_Int are not compatible with any Integer type. On the other hand, variables of type Subrange_Small_Int are compatible with variables and constants of Integer type and any subtype of Integer.
7. What significant justification is there for the -> operator in C and C++?
The justification of –> operator in c and c++ is writability. In c ++ there are 2 ways a pointer record can be used to reference a field in that record. It is slightly easier to write p –> q than(*p).q.
8. What are all of the differences between the enumeration types of C++ and those of Java?
In Java they can include fields, constructors, and methods. The possible values of an enumeration are the only possible instances of the class. All enumeration types inherit toString, as well as a few other methods. An array of the instances of an enumeration type can be fetched with the static method values. The internal numeric value of an enumeration variable can be fetched with the ordinal method. No expression of any other type can be assigned to an enumeration variable. Also, an enumeration variable is never coerced to any other type.
9.The unions in C and C++ are separate from the records of those languages, rather than combined as they are in Ada. What are the advantages and disadvantages to these two choices?
The advantage: Unconstrained variant records in Ada allow the values of their variants to change types during execution.
The
disadvantage: the type of the variant can be changed only by
assigning the entire record, including the discriminant. This disallows
inconsistent records because if the newly assigned record is a constant
data aggregate, the value of the tag and the type of the variant can be
statically checked for consistency.
10. Multidimensional arrays can be stored in row major order, as in C++, or in column major order, as in Fortran. Develop the access functions for both of these arrangements for three-dimensional arrays.
Let the subscript ranges of the three dimensions be named min(1), min(2), min(3), max(1), max(2), and max(3). Let the sizes of the subscript ranges be size(1), size(2), and size(3). Assume the element size is 1.
Row Major Order:
location(a[i,j,k]) = (address of a[min(1),min(2),min(3)])
+((i-min(1))*size(3) + (j-min(2)))*size(2) + (k-min(3))
Column Major Order:
location(a[i,j,k]) = (address of a[min(1),min(2),min(3)])
+((k-min(3))*size(1) + (j-min(2)))*size(2) + (i-min(1))
