Comparison of ALGOL 68 and C++

Programming language comparisons
General comparison Basic syntax Basic instructions Exception handling Enumerated types Anonymous functions Conditional expressions Functional instructions Arrays Associative arrays String operations String functions List comprehension Object-oriented programming Object-oriented constructors While loops For loops
Evaluation strategy List of "Hello World" programs
Languages with dependent types Comparison of type systems
Comparison of individual languages ALGOL 58's influence on ALGOL 60 ALGOL 60: Comparisons with other languages Comparison of ALGOL 68 and C++ ALGOL 68: Comparisons with other languages Compatibility of C and C++ Comparison of Pascal and Borland Delphi Comparison of Object Pascal and C Comparison of Pascal and C Comparison of Java and C++ Comparison of C# and Java Comparison of C# and Visual Basic .NET Comparison of Visual Basic and Visual Basic .NET

C++ doesn't have:

PROC - first class nested functions (emulation due to local definitions of class-types, which then could be functors, also new C++11 has lambda functions),
OP and PRIO - definable operator symbols and priorities,
garbage collection (could be emulated with help of smart pointers),
use before define,
formatted transput using complex formatting declarations,
:= - assignment operation symbol (to avoid confusion with equal sign),
array (and slice operations on them, but in layered libraries),
automatic UNIONs,
CASE expressions,
nonlocal GOTO
intuitive declaration syntax due to its origin from C.

ALGOL 68 doesn't have:

public/private struct member access protection,
overloaded procedures (in contrast to operators),
explicit memory deallocation,
forward declarations (use before definition is allowed)
textual preprocessing (e.g. macros),
distinct reference and pointer types,
comment lines (only bracketed comments),
struct inheritance, struct member functions, virtual functions.
destructors, exceptions, templates, namespaces, structured loop exits

Comparison of the assignment and equality operators

Intent	ALGOL 68	C++
Define a constant	`int x=888;`	`const int x = 888;`
Initialise a variable	`int x:=888;`	`int x = 888;`
Assign a value 888 to a variable x	`x:=888;`	`x = 888;`
Compare two values	`if x = 888 then ... fi`	`if (x == 888) { ... }`
Allocate a variable from the heap	`ref int x = heap int;` or simply: `heap int x;`	`int* x = new int;`
Compare address of two pointers	`ref int x, y; if x :=: y then ... fi`	`int* x; int* y;` `if (x == y) { ... }`
Compare value referenced by two pointers	`ref int x, y; if x = y then ... fi`	`int* x; int* y;` `if (x == y) { ... }`
Name a new type	`mode longreal = long real;`	`typedef double longreal;`
Name a new record type	`mode cust = struct(string name, address);`	`struct cust { std::string name, address; };`
Name a new union type	`mode taggedu = union(string s, real r);`	`union u { std::string s; float f; };`
Name a procedure or function	`proc f = (real x) real: ( code; result );`	`float f(float x) { code; return result; }`
Procedure default parameters	`proc p = (union (real, void) in x)void:` `( real x = (in x\|(real x):x\|888); code );`	`void p(float x=888) { code; }`
Name a new operator	op ↑ = (real x,y) real: x**y;	N/A
Set priority on a new operator	prio ↑ = 9;	N/A
Chain variables assignment	`a:=b:=c:=d;`	`a = b = c = d;`
Displacement operator - ALGOL 68C only	`a:=:=b:=:=c:=:=d;`	`a = b; b = c; c = d;`
Append "substr" to a variable str	`str +:= "substr";`	`str += "substr";`
Prefix "substr" to a variable str	`"substr" +=: str;`	`str = "substr" + str;`

Code Examples

Union declaration and use

Assigning values into an A68 union variable is automatic, the type is "tagged" to the variable, but pulling the value back out is syntactically awkward as a conformity-clause is required.

ALGOL 68 example:

 union(int, char) x:=666;
 printf(($3d l$, (x|(int i):i) ))

C/C++ example:

  union { int i; char c; } x = { 666 };
  std::cout << x.i << std::endl;

The net effect of "type-tagging" is that Algol68's strong typing "half" encroaches into the union.

Mode declaration

A new mode (type) may be declared using a mode declaration:

int max=99;
mode newtype = [0:9][0:max]struct (
   long real a, b, c, short int i, j, k, ref real r
);

This has the similar effect as the following C++ code:

const int max=99;
typedef struct { 
    double a, b, c; short i, j, k; float& r;
} newtype[9+1][max+1];

Note that for ALGOL 68 only the newtype name appears to the left of the equality, and most notably the construction is made - and can be read - from left to right without regard to priorities.

External links

A comparison of PASCAL and ALGOL 68 - Andrew S. Tanenbaum - June 1977.
Orthogonal language design - Apr 2004 - retrieved May 10, 2007
How Solve the Dangling Else? - Apr 2004 - retrieved May 10, 2007
A comparison of Pascal, C, C++ and Algol68: Types, cont Type system, Type checking, Type safety, Type conversion, Primitive types, Aggregate types: arrays - Apr 2004 - retrieved May 10, 2007
Arrays in Algol68 - Apr 2004 - retrieved May 10, 2007
A Comparison of Arrays in ALGOL 68 and BLISS - Michael Walker - February 21, 2000 - retrieved December 21 2015

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