Convert a trinary number, represented as a string (e.g. '102012'), to its decimal equivalent using first principles.
The program should consider strings specifying an invalid trinary as the value 0.
Trinary numbers contain three symbols: 0, 1, and 2.
The last place in a trinary number is the 1's place. The second to last is the 3's place, the third to last is the 9's place, etc.
# "102012" 1 0 2 0 1 2 # the number 1*3^5 + 0*3^4 + 2*3^3 + 0*3^2 + 1*3^1 + 2*3^0 # the value 243 + 0 + 54 + 0 + 3 + 2 = 302
If your language provides a method in the standard library to perform the conversion, pretend it doesn't exist and implement it yourself.
While Common Lisp doesn't care about indentation and layout of code, nor whether you use spaces or tabs, this is an important consideration for submissions to exercism.io. Excercism.io's code widget cannot handle mixing of tab and space characters well so using only spaces is recommended to make the code more readable to the human reviewers. Please review your editors settings on how to accomplish this. Below are instructions for popular editors for Common Lisp.
Use the following commands to ensure VIM uses only spaces for indentation:
:set tabstop=2 :set shiftwidth=2 :set expandtab
(or as a oneliner
:set tabstop=2 shiftwidth=2 expandtab). This can
be added to your
~/.vimrc file to use it all the time.
Emacs is very well suited for editing Common Lisp and has many powerful add-on packages available. The only thing that one needs to do with a stock emacs to make it work well with exercism.io is to evaluate the following code:
(setq-default indent-tabs-mode nil)
This can be placed in your
order to have it set whenever Emacs is launched.
One suggested add-on for Emacs and Common Lisp is SLIME which offers tight integration with the REPL; making iterative coding and testing very easy.
All of Computer Science http://www.wolframalpha.com/input/?i=binary&a=*C.binary-_*MathWorld-
It's possible to submit an incomplete solution so you can see how others have completed the exercise.
(ql:quickload "lisp-unit") #-xlisp-test (load "trinary") (defpackage #:trinary-test (:use #:common-lisp #:lisp-unit)) (in-package #:trinary-test) (define-test trinary-1-is-decimal-1 (assert-equal 1 (trinary:to-decimal "1"))) (define-test trinary-2-is-decimal-2 (assert-equal 2 (trinary:to-decimal "2"))) (define-test trinary-10-is-decimal-3 (assert-equal 3 (trinary:to-decimal "10"))) (define-test trinary-11-is-decimal-4 (assert-equal 4 (trinary:to-decimal "11"))) (define-test trinary-100-is-decimal-9 (assert-equal 9 (trinary:to-decimal "100"))) (define-test trinary-112-is-decimal-14 (assert-equal 14 (trinary:to-decimal "112"))) (define-test trinary-222-is-decimal-26 (assert-equal 26 (trinary:to-decimal "222"))) (define-test trinary-1122000120-is-decimal-32091 (assert-equal 32091 (trinary:to-decimal "1122000120"))) (define-test invalid-input-is-decimal-0 (assert-equal 0 (trinary:to-decimal "carrot"))) (define-test invalid-input-with-digits-is-decimal-0 (assert-equal 0 (trinary:to-decimal "0a1b2c"))) #-xlisp-test (let ((*print-errors* t) (*print-failures* t)) (run-tests :all :trinary-test))
(defpackage #:trinary (:use #:common-lisp) (:export #:to-decimal)) (in-package #:trinary) (defun to-decimal (str) (or (parse-integer str :radix 3 :junk-allowed t) 0))
A huge amount can be learned from reading other people’s code. This is why we wanted to give exercism users the option of making their solutions public.
Here are some questions to help you reflect on this solution and learn the most from it.