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hash

A hash table implementation for FANUC KAREL.

This library allows you the flexibility to define how big your hash tables' keys and values will be, and the routines allow you to have multiple hash tables in potentially separate programs.

This implementation uses open addressing with linear probing. It does not offer dynamic resizing or any performance analysis. When your table gets full, all insertions will return false.

Usage

Define the HASH_KEYSIZE and HASH_VALSIZE constants for your hash table.

CONST
	HASH_KEYSIZE = 16
	HASH_VALSIZE = 128

Include the hash.t.kl file in your TYPE section:

TYPE
	%INCLUDE includes/hash.t

Define one or more variables of type ARRAY OF hashNode in your VAR section:

VAR
	tbl100 : ARRAY[100] OF hashNode
	tbl200 : ARRAY[200] OF hashNode

Include the hash.h.kl file in your ROUTINE section:

ROUTINE
	%INCLUDE includes/hash.h

Then use the hashPut(), hashGet(), and hashDel() routines as necessary:

PROGRAM exampleProg
CONST
	HASH_KEYSIZE = 16
	HASH_VALSIZE = 128
TYPE
	%INCLUDE includes/hash.t
VAR
	tbl100 : ARRAY[100] of hashNode

%INCLUDE includes/hash.h

BEGIN
	-- set 'foo' key of [exampleProg]tbl100 to 'bar'
	IF NOT(hashPut('foo', 'bar', 'exampleProg', 'tbl100')) THEN
		WRITE('could not insert foo into tbl100', CR)
		ABORT
	ENDIF

	-- get value of 'foo' key in [exampleProg]tbl100
	val = hashGet('foo', 'exampleProg', 'tbl100') -- val is now 'bar'

	-- overwrite 'foo' key in [exampleProg]tbl100
	IF NOT(hashPut('foo', 'baz', 'exampleProg', 'tbl100')) THEN
		WRITE('could not overwrite foo in tbl100', CR)
		ABORT
	ENDIF
	val = hashGet('foo', 'exampleProg', 'tbl100') -- val is now 'baz'

	-- delete 'foo' key from [exampleProg]tbl100
	IF NOT(hashDel('foo', 'exampleProg', 'tbl100')) THEN
		WRITE('could not delete 'foo' key from 'tbl100', CR)
		ABORT
	ENDIF

	-- attempting to get non-existant keys returns ''
	val = hashGet('foo', 'exampleProg', 'tbl100') -- val is now ''
END exampleProg

Development

You must have ROBOGUIDE installed and the the WinOLPC bin directory needs to be on your system $PATH.

Depends on KUnit.

  1. Download GnuWin if you don't already have it
  2. Clone the repository
  3. Spin up a virtual robot with the KAREL option at localhost (or modify Makefile)
  4. Run make to build the KAREL binary PC files
  5. Run make deploy to copy files to robot
  6. Run make test to run tests with KUnit

Contributing

  1. Fork it
  2. Create your feature branch (git checkout -b my-new-feature)
  3. Commit your changes (git commit -am 'Add some feature')
  4. Push to the branch (git push origin my-new-feature)
  5. Create new Pull Request