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jako - No frills programming for Parrot
Jako is a simple programming language that targets the Parrot virtual machine.
Jako should be familiar to those who have seen C and Perl.
Jako's lexical structure is similar to its relative: Perl. Whitespace between tokens is not significant, and comments are introduced with an octothorp ('#') and continue to the end of the line.
An identifier followed by a colon at the beginning of a line is a label. Labels can be the targets of goto statements, and can also provide a way to refer to specific loops when using the loop control statements (see below).
"0b" followed by any number of binary digits ("0" or "1").
"0" followed by any number of octal digita ("0" to "7").
Starting with a non-zero decimal digit, with any number of decimal digits following. Optional prefixed "-" for negative integers.
"0x" followed by any number of hexadecimal digits ("0" to "9", "a", "b", "c", "d", "e", or "f").
One or more decimal digits, a decimal point, and one ore more decimal digits. Optional prefixed "-" for negative numbers.
A double-quote character, followed by the contents of the string, and another double-quote character. Inside the string literal, double quotes are to be escaped with "\" (back slash, a.k.a. "whack"). To include a back slash in the string, precede it with another back slash.
Start with a letter, followed by any combination of letters, decimal digits and underscores.
The built-in types are recognized as keywords: int, num, obj, str.
A block is a sequence of statements and declarations between a matching pair of open and close braces ("{" and "}"). Each block represents a scope for lexical symbols (variables and constants). There is an implicit block which represents the entire compilation unit (usually a file). Subroutines may only appear at this level.
const introduces a constant declaration. What follows must be a type, a list of identifiers, "=", and a value of an appropriate type.
const int a, b, c = 2;
const int pi_in = 3; # Indiana
const num pi = 3.141592; # Everywhere else
const str d = "Como estas?";
var introduces a variable declaration. What follows must be a type and a list of identifiers, optionally followed by "=" and an expression.
var int a, b, c;
var num d, e, f = 42.0;
var str g = "Howdy";
sub introduces a subroutine declaration (and possibly definition). What follows is an optional type, and identifier (the name of the subroutine), an optional set of properties, and a list of formal arguments in parenthesis. The formal arguments are written as a comma-separated list of type-name pairs. Finally, there must be a block which contains the implementation of the subroutine.
Simple cases of subroutine definitions are:
sub foo() { ... }
sub int bar(int x, int y) { ... }
NOTE: This assumes some sort of Jako include mechanism.
NOTE: The below requires jakoc
to be able to determine the best match among a number of alternatives with the same name, but different signatures.
The op property can have a string value that gives the op name, if it is different from the sub name. There is also an oplib property that gives the oplib, if the op is not core.
Presumably, there would be an implicit "use 'core'", that would pull in the definitions of the core ops as subs (if any).
One wonders if this mechanism could be expanded to account for the arithmetic operators, etc.
Also, if the Parrot .ops files could be processed to automatically produce the include files for the various categories of ops and subs.
sub num coversine { oplib = "obscure", op = "covers" } (num);
sub int BlitSurface { fnlib = "libsdl", fn = "SDL_BlitSurface" } (
obj { nat = "p" } src,
obj { nat = "p" } srcrect,
obj { nat = "p" } dst,
obj { nat = "p" } dstrect
);
NOTE: The oplib, fnlib and fn sub properties are not implemented yet.
NOTE: Type properties are not implemented yet.
Following tradition, basic assignments are written as
left = right;
Conversions between int and num values are implicit.
There are two kinds of conditional block: if and unless, with the latter being short for the more familiar if, but with the condition inverted. In both cases, what follows the keyword is a parenthesized boolean expression and a block.
if (happy) { smile(); }
unless (raining) { play(); }
Even though each is redundant given the presence of the other, both are retained in the language for the same reason as in Perl: allowing more natural expression.
Further, there can be a subsequent block, introduced with else:
if (paid) { work(); } else { complain(); }
unless (paid) { complain(); } else { work(); }
There are two kinds of loop: while and until, with the same reversal of sense as exists between if and unless.
while (1) {
while (overdue != 0.0) { work(); invoice(); }
until (overdue == 0.0) { send_dunning_letter(); }
}
You can control loops with the next, last and redo loop control statements. next jumps immediately to the next iteration of the loop, without executing the intervening statements, last jumps immediately out of the loop, again without executing the intervening statements. And, redo jumps back to the beginning of the current iteration.
Loops can be followed by an optional continue block, which provides
An unescaped dollar sign ("$") in a string causes Jako to interpolate variables into a final string before the string is used in an expression. In case the text to follow the interpolated value starts with identifier characters that would interfere with the correct determination of the variable to interpolate, use the form "${...}".
Jako was the first language to target the Parrot virtual machine. It was also the first language to support subroutines (although in a rudimentary, hackish way) for Parrot.
You can blame gregor <gregor@focusresearch.com> for the Jako language and its compiler.
Copyright (C) 2001-2003 Gregor N. Purdy. All rights reserved.
The Jako compiler is free software. It is subject to the same license as the Parrot interpreter.
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