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8 statement-level control structure

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ICS 313 - Fundamentals of Programming Languages 1 8. Statement-Level Control Structure 8.1 Introduction Levels of Control Flow Within expressions Among program units Among program statements Evolution FORTRAN I control statements were based directly on IBM 704 hardware Much research and argument in the1960s about the issue One important result: It was proven that all flowcharts can be coded with only two-way selection and pretest logical loops A control structure is a control statement and the statements whose execution it controls Overall Design Question What control statements should a language have, beyond selection and pretest logical loops?
ICS 313 - Fundamentals of Programming Languages 2 8.2 Compound statements Introduced by ALGOL 60 A block is a compound statement that can define a new scope (with local variables) 8.3 Selection Statements Design Issues What is the form and type of the control expression? What is the selectable segment form (single statement, statement sequence, compound statement)? How should the meaning of nested selectors be specified? Single-Way Examples FORTRAN IF: IF (boolean_expr) statement Problem: can select only a single statement; to select more, a GOTO must be used, as in the following example IF (.NOT. condition) GOTO 20 ... ... 20 CONTINUE Negative logic is bad for readability This problem was solved in FORTRAN 77 Most later languages allow compounds for the selectable segment of their single-way selectors
ICS 313 - Fundamentals of Programming Languages 3 8.3 Selection Statements (continued) Two-way Selector Examples ALGOL 60 if: if (boolean_expr) then statement (the then clause) else statement (the else clause) The statements could be single or compound Nested Selectors e.g. (Java) if ... if ... ... else ... Which if gets the else? Java's static semantics rule: else goes with the nearest if 8.3 Selection Statements (continued) ALGOL 60's solution - disallow direct nesting if ... then if ... then begin begin if ... if ... then ... then ... end else ... else ... end FORTRAN 90 and Ada solution - closing special words e.g. (Ada) if ... then if ... then if ... then if ... then ... ... else end if ... else end if ... end if end if Advantage: flexibility and readability
ICS 313 - Fundamentals of Programming Languages 4 8.3 Selection Statements (continued) Multiple Selection Constructs Design Issues What is the form and type of the control expression? What segments are selectable (single, compound, sequences)? Is the entire construct encapsulated? Is execution flow through the structure restricted to include just a single selectable segment? What is done about unrepresented expression values? Early Multiple Selectors FORTRAN arithmetic IF (a three-way selector) IF (arithmetic expression) N1, N2, N3 Bad aspects Not encapsulated (selectable segments could be anywhere) Segments require GOTOs FORTRAN computed GOTO and assigned GOTO 8.3 Selection Statements (continued) Modern Multiple Selectors Pascal case (from Hoare's contribution to ALGOL W) case expression of constant_list_1 : statement_1; ... constant_list_n : statement_n end Design choices Expression is any ordinal type (int, boolean, char, enum) Segments can be single or compound Construct is encapsulated Only one segment can be executed per execution of the construct In Wirth's Pascal, result of an unrepresented control expression value is undefined (In 1984 ISO Standard, it is a runtime error) Many dialects now have otherwise or else clause
ICS 313 - Fundamentals of Programming Languages 5 8.3 Selection Statements (continued) The C, C++, and Java switch switch (expression) { constant_expression_1 : statement_1; ... constant_expression_n : statement_n; [default: statement_n+1] } Design Choices: (for switch) Control expression can be only an integer type Selectable segments can be statement sequences, blocks, or compound statements Construct is encapsulated Any number of segments can be executed in one execution of the construct (there is no implicit branch at the end of selectable segments) (a trade-off between reliability and flexibility -- convenience) To avoid it, the programmer must supply a break statement for each segment default clause is for unrepresented values (if there is no default, the whole statement does nothing) 8.3 Selection Statements (continued) Ada's case is similar to Pascal's case, except: Constant lists can include: Subranges e.g., 10..15 Boolean OR operators e.g., 1..5 | 7 | 15..20 Lists of constants must be exhaustive Often accomplished with others clause This makes it more reliable Multiple Selectors can appear as direct extensions to two-way selectors, using else-if clauses (ALGOL 68, FORTRAN 90, Ada) Ada: if ... then ... elsif ... then ... elsif ... then ... else ... end if Far more readable than deeply nested if's Allows a Boolean gate on every selectable group
ICS 313 - Fundamentals of Programming Languages 6 8.4 Iterative Statements The repeated execution of a statement or compound statement is accomplished either by iteration or recursion; here we look at iteration, because recursion is unit-level control General design Issues for iteration control statements How is iteration controlled? Where is the control mechanism in the loop? Counter-Controlled Loops Design Issues What are the type and scope of the loop var? What is the value of the loop var at loop termination? Should it be legal for the loop var or loop parameters to be changed in the loop body, and if so, does the change affect loop control? Should the loop parameters be evaluated only once, or once for every iteration? 8.4 Iterative Statements (continued) FORTRAN 90 Syntax: DO label var = start, finish [, stepsize] Stepsize can be any value but zero Parameters can be expressions Design choices: Loop var must be INTEGER Loop var always has its last value The loop var cannot be changed in the loop, but the parameters can; because they are evaluated only once, it does not affect loop control Loop parameters are evaluated only once FORTRAN 90’s Other DO Syntax [name:] DO variable = initial, terminal [, stepsize] … END DO [name] Loop var must be an INTEGER
ICS 313 - Fundamentals of Programming Languages 7 8.4 Iterative Statements (continued) ALGOL 60 Syntax: for var := <list_of_stuff> do statement, where <list_of_stuff> can have list of expressions expression step expression until expression expression while boolean_expression for index := 1 step 2 until 50, 60, 70, 80, index + 1 until 100 do (index = 1, 3, 5, 7, ..., 49, 60, 70, 80, 81, 82, ...,100) ALGOL 60 Design choices Control expression can be int or real; its scope is whatever it is declared to be Control var has its last assigned value after loop termination The loop var cannot be changed in the loop, but the parameters can, and when they are, it affects loop control Parameters are evaluated with every iteration, making it very complex and difficult to read 8.4 Iterative Statements (continued) Pascal Syntax: for variable := initial (to | downto) final do statement Design Choices Loop var must be an ordinal type of usual scope After normal termination, loop var is undefined The loop var cannot be changed in the loop; the loop parameters can be changed, but they are evaluated just once, so it does not affect loop control Ada Syntax: for var in [reverse] discrete_range loop ... end loop Design choices Type of the loop var is that of the discrete range; its scope is the loop body (it is implicitly declared) The loop var does not exist outside the loop The loop var cannot be changed in the loop, but the discrete range can; it does not affect loop control The discrete range is evaluated just once
ICS 313 - Fundamentals of Programming Languages 8 8.4 Iterative Statements (continued) C Syntax for ([expr_1] ; [expr_2] ; [expr_3]) statement The expressions can be whole statements, or even statement sequences, with the statements separated by commas The value of a multiple-statement expression is the value of the last statement in the expression e.g., for (i = 0, j = 10; j == i; i++) … If the second expression is absent, it is an infinite loop Design Choices: There is no explicit loop var Irrelevant Everything can be changed in the loop The first expression is evaluated once, but the other two are evaluated with each iteration This loop statement is the most flexible 8.4 Iterative Statements (continued) C++ Differs from C in two ways: The control expression can also be Boolean The initial expression can include variable definitions (scope is from the definition to the end of the loop body) Java Differs from C++ in that the control expression must be Boolean
ICS 313 - Fundamentals of Programming Languages 9 8.4 Iterative Statements (continued) Logically-Controlled Loops Design Issues Pretest or postest? Should this be a special case of the counting loop statement (or a separate statement)? Language Examples Pascal has separate pretest and posttest logical loop statements (while-do and repeat-until) C and C++ also have both, but the control expression for the posttest version is treated just like in the pretest case (while - do and do - while) Java is like C, except the control expression must be Boolean (and the body can only be entered at the beginning -- Java has no goto) Ada has a pretest version, but no posttest FORTRAN 77 and 90 have neither Perl has two pretest logical loops, while and until, but no posttest logical loop 8.4 Iterative Statements (continued) User-Located Loop Control Mechanisms Design issues: Should the conditional be part of the exit? Should the mechanism be allowed in an already controlled loop? Should control be transferable out of more than one loop? Examples Ada - conditional or unconditional; for any loop; any number of levels for ... loop LOOP1: ... while ... loop exit when ... ... ... LOOP2: end loop for ... loop ... exit LOOP1 when .. ... end loop LOOP2; ... end loop LOOP1;
ICS 313 - Fundamentals of Programming Languages 10 8.4 Iterative Statements (continued) C , C++, and Java - break Unconditional; for any loop or switch; one level only (except Java’s can have a label) There is also has a continue statement for loops; it skips the remainder of this iteration, but does not exit the loop FORTRAN 90 - EXIT Unconditional; for any loop, any number of levels FORTRAN 90 also has CYCLE, which has the same semantics as C's continue Iteration Based on Data Structures Concept: use order and number of elements of some data structure to control iteration Control mechanism is a call to a function that returns the next element in some chosen order, if there is one; else exit loop C's for can be used to build a user-defined iterator e.g. for (p=hdr; p; p=next(p)) { ... } Perl has a built-in iterator for arrays and hashes e.g., foreach $name (@names) { print $name } 8.5 Unconditional Branching Problem: readability Some languages do not have them: e.g., Java Loop exit statements are restricted and somewhat camouflaged goto’s Label forms Unsigned int constants: Pascal (with colon) FORTRAN (no colon) Identifiers with colons: ALGOL 60, C Identifiers in << ... >>: Ada Variables as labels: PL/I Can be assigned values and passed as parameters Highly flexible, but make programs impossible to read and difficult to implement
ICS 313 - Fundamentals of Programming Languages 11 8.6 Guarded Commands Dijkstra, 1975 Purpose: to support a new programming methodology (verification during program development) Selection: if <boolean> -> <statement> [] <boolean> -> <statement> ... [] <boolean> -> <statement> fi Semantics: when this construct is reached, Evaluate all boolean expressions If more than one are true, choose one nondeterministically If none are true, it is a runtime error Idea: if the order of evaluation is not important, the program should not specify one See book examples (pp. 339, 340) 8.6 Guarded Commands (continued) Loops do <boolean> -> <statement> [] <boolean> -> <statement> ... [] <boolean> -> <statement> od Semantics: For each iteration Evaluate all boolean expressions If more than one are true, choose one nondeterministically; then start loop again If none are true, exit loop --> See book example (p. 340) Connection between control statements and program verification is intimate Verification is impossible with gotos Verification is possible with only selection and logical pretest loops Verification is relatively simple with only guarded commands Chapter Conclusion: Choice of control statements beyond selection and logical pretest loops is a trade-off between language size and writability

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8 statement-level control structure

  • 1. ICS 313 - Fundamentals of Programming Languages 1 8. Statement-Level Control Structure 8.1 Introduction Levels of Control Flow Within expressions Among program units Among program statements Evolution FORTRAN I control statements were based directly on IBM 704 hardware Much research and argument in the1960s about the issue One important result: It was proven that all flowcharts can be coded with only two-way selection and pretest logical loops A control structure is a control statement and the statements whose execution it controls Overall Design Question What control statements should a language have, beyond selection and pretest logical loops?
  • 2. ICS 313 - Fundamentals of Programming Languages 2 8.2 Compound statements Introduced by ALGOL 60 A block is a compound statement that can define a new scope (with local variables) 8.3 Selection Statements Design Issues What is the form and type of the control expression? What is the selectable segment form (single statement, statement sequence, compound statement)? How should the meaning of nested selectors be specified? Single-Way Examples FORTRAN IF: IF (boolean_expr) statement Problem: can select only a single statement; to select more, a GOTO must be used, as in the following example IF (.NOT. condition) GOTO 20 ... ... 20 CONTINUE Negative logic is bad for readability This problem was solved in FORTRAN 77 Most later languages allow compounds for the selectable segment of their single-way selectors
  • 3. ICS 313 - Fundamentals of Programming Languages 3 8.3 Selection Statements (continued) Two-way Selector Examples ALGOL 60 if: if (boolean_expr) then statement (the then clause) else statement (the else clause) The statements could be single or compound Nested Selectors e.g. (Java) if ... if ... ... else ... Which if gets the else? Java's static semantics rule: else goes with the nearest if 8.3 Selection Statements (continued) ALGOL 60's solution - disallow direct nesting if ... then if ... then begin begin if ... if ... then ... then ... end else ... else ... end FORTRAN 90 and Ada solution - closing special words e.g. (Ada) if ... then if ... then if ... then if ... then ... ... else end if ... else end if ... end if end if Advantage: flexibility and readability
  • 4. ICS 313 - Fundamentals of Programming Languages 4 8.3 Selection Statements (continued) Multiple Selection Constructs Design Issues What is the form and type of the control expression? What segments are selectable (single, compound, sequences)? Is the entire construct encapsulated? Is execution flow through the structure restricted to include just a single selectable segment? What is done about unrepresented expression values? Early Multiple Selectors FORTRAN arithmetic IF (a three-way selector) IF (arithmetic expression) N1, N2, N3 Bad aspects Not encapsulated (selectable segments could be anywhere) Segments require GOTOs FORTRAN computed GOTO and assigned GOTO 8.3 Selection Statements (continued) Modern Multiple Selectors Pascal case (from Hoare's contribution to ALGOL W) case expression of constant_list_1 : statement_1; ... constant_list_n : statement_n end Design choices Expression is any ordinal type (int, boolean, char, enum) Segments can be single or compound Construct is encapsulated Only one segment can be executed per execution of the construct In Wirth's Pascal, result of an unrepresented control expression value is undefined (In 1984 ISO Standard, it is a runtime error) Many dialects now have otherwise or else clause
  • 5. ICS 313 - Fundamentals of Programming Languages 5 8.3 Selection Statements (continued) The C, C++, and Java switch switch (expression) { constant_expression_1 : statement_1; ... constant_expression_n : statement_n; [default: statement_n+1] } Design Choices: (for switch) Control expression can be only an integer type Selectable segments can be statement sequences, blocks, or compound statements Construct is encapsulated Any number of segments can be executed in one execution of the construct (there is no implicit branch at the end of selectable segments) (a trade-off between reliability and flexibility -- convenience) To avoid it, the programmer must supply a break statement for each segment default clause is for unrepresented values (if there is no default, the whole statement does nothing) 8.3 Selection Statements (continued) Ada's case is similar to Pascal's case, except: Constant lists can include: Subranges e.g., 10..15 Boolean OR operators e.g., 1..5 | 7 | 15..20 Lists of constants must be exhaustive Often accomplished with others clause This makes it more reliable Multiple Selectors can appear as direct extensions to two-way selectors, using else-if clauses (ALGOL 68, FORTRAN 90, Ada) Ada: if ... then ... elsif ... then ... elsif ... then ... else ... end if Far more readable than deeply nested if's Allows a Boolean gate on every selectable group
  • 6. ICS 313 - Fundamentals of Programming Languages 6 8.4 Iterative Statements The repeated execution of a statement or compound statement is accomplished either by iteration or recursion; here we look at iteration, because recursion is unit-level control General design Issues for iteration control statements How is iteration controlled? Where is the control mechanism in the loop? Counter-Controlled Loops Design Issues What are the type and scope of the loop var? What is the value of the loop var at loop termination? Should it be legal for the loop var or loop parameters to be changed in the loop body, and if so, does the change affect loop control? Should the loop parameters be evaluated only once, or once for every iteration? 8.4 Iterative Statements (continued) FORTRAN 90 Syntax: DO label var = start, finish [, stepsize] Stepsize can be any value but zero Parameters can be expressions Design choices: Loop var must be INTEGER Loop var always has its last value The loop var cannot be changed in the loop, but the parameters can; because they are evaluated only once, it does not affect loop control Loop parameters are evaluated only once FORTRAN 90’s Other DO Syntax [name:] DO variable = initial, terminal [, stepsize] … END DO [name] Loop var must be an INTEGER
  • 7. ICS 313 - Fundamentals of Programming Languages 7 8.4 Iterative Statements (continued) ALGOL 60 Syntax: for var := <list_of_stuff> do statement, where <list_of_stuff> can have list of expressions expression step expression until expression expression while boolean_expression for index := 1 step 2 until 50, 60, 70, 80, index + 1 until 100 do (index = 1, 3, 5, 7, ..., 49, 60, 70, 80, 81, 82, ...,100) ALGOL 60 Design choices Control expression can be int or real; its scope is whatever it is declared to be Control var has its last assigned value after loop termination The loop var cannot be changed in the loop, but the parameters can, and when they are, it affects loop control Parameters are evaluated with every iteration, making it very complex and difficult to read 8.4 Iterative Statements (continued) Pascal Syntax: for variable := initial (to | downto) final do statement Design Choices Loop var must be an ordinal type of usual scope After normal termination, loop var is undefined The loop var cannot be changed in the loop; the loop parameters can be changed, but they are evaluated just once, so it does not affect loop control Ada Syntax: for var in [reverse] discrete_range loop ... end loop Design choices Type of the loop var is that of the discrete range; its scope is the loop body (it is implicitly declared) The loop var does not exist outside the loop The loop var cannot be changed in the loop, but the discrete range can; it does not affect loop control The discrete range is evaluated just once
  • 8. ICS 313 - Fundamentals of Programming Languages 8 8.4 Iterative Statements (continued) C Syntax for ([expr_1] ; [expr_2] ; [expr_3]) statement The expressions can be whole statements, or even statement sequences, with the statements separated by commas The value of a multiple-statement expression is the value of the last statement in the expression e.g., for (i = 0, j = 10; j == i; i++) … If the second expression is absent, it is an infinite loop Design Choices: There is no explicit loop var Irrelevant Everything can be changed in the loop The first expression is evaluated once, but the other two are evaluated with each iteration This loop statement is the most flexible 8.4 Iterative Statements (continued) C++ Differs from C in two ways: The control expression can also be Boolean The initial expression can include variable definitions (scope is from the definition to the end of the loop body) Java Differs from C++ in that the control expression must be Boolean
  • 9. ICS 313 - Fundamentals of Programming Languages 9 8.4 Iterative Statements (continued) Logically-Controlled Loops Design Issues Pretest or postest? Should this be a special case of the counting loop statement (or a separate statement)? Language Examples Pascal has separate pretest and posttest logical loop statements (while-do and repeat-until) C and C++ also have both, but the control expression for the posttest version is treated just like in the pretest case (while - do and do - while) Java is like C, except the control expression must be Boolean (and the body can only be entered at the beginning -- Java has no goto) Ada has a pretest version, but no posttest FORTRAN 77 and 90 have neither Perl has two pretest logical loops, while and until, but no posttest logical loop 8.4 Iterative Statements (continued) User-Located Loop Control Mechanisms Design issues: Should the conditional be part of the exit? Should the mechanism be allowed in an already controlled loop? Should control be transferable out of more than one loop? Examples Ada - conditional or unconditional; for any loop; any number of levels for ... loop LOOP1: ... while ... loop exit when ... ... ... LOOP2: end loop for ... loop ... exit LOOP1 when .. ... end loop LOOP2; ... end loop LOOP1;
  • 10. ICS 313 - Fundamentals of Programming Languages 10 8.4 Iterative Statements (continued) C , C++, and Java - break Unconditional; for any loop or switch; one level only (except Java’s can have a label) There is also has a continue statement for loops; it skips the remainder of this iteration, but does not exit the loop FORTRAN 90 - EXIT Unconditional; for any loop, any number of levels FORTRAN 90 also has CYCLE, which has the same semantics as C's continue Iteration Based on Data Structures Concept: use order and number of elements of some data structure to control iteration Control mechanism is a call to a function that returns the next element in some chosen order, if there is one; else exit loop C's for can be used to build a user-defined iterator e.g. for (p=hdr; p; p=next(p)) { ... } Perl has a built-in iterator for arrays and hashes e.g., foreach $name (@names) { print $name } 8.5 Unconditional Branching Problem: readability Some languages do not have them: e.g., Java Loop exit statements are restricted and somewhat camouflaged goto’s Label forms Unsigned int constants: Pascal (with colon) FORTRAN (no colon) Identifiers with colons: ALGOL 60, C Identifiers in << ... >>: Ada Variables as labels: PL/I Can be assigned values and passed as parameters Highly flexible, but make programs impossible to read and difficult to implement
  • 11. ICS 313 - Fundamentals of Programming Languages 11 8.6 Guarded Commands Dijkstra, 1975 Purpose: to support a new programming methodology (verification during program development) Selection: if <boolean> -> <statement> [] <boolean> -> <statement> ... [] <boolean> -> <statement> fi Semantics: when this construct is reached, Evaluate all boolean expressions If more than one are true, choose one nondeterministically If none are true, it is a runtime error Idea: if the order of evaluation is not important, the program should not specify one See book examples (pp. 339, 340) 8.6 Guarded Commands (continued) Loops do <boolean> -> <statement> [] <boolean> -> <statement> ... [] <boolean> -> <statement> od Semantics: For each iteration Evaluate all boolean expressions If more than one are true, choose one nondeterministically; then start loop again If none are true, exit loop --> See book example (p. 340) Connection between control statements and program verification is intimate Verification is impossible with gotos Verification is possible with only selection and logical pretest loops Verification is relatively simple with only guarded commands Chapter Conclusion: Choice of control statements beyond selection and logical pretest loops is a trade-off between language size and writability