321 lines
10 KiB
Markdown
321 lines
10 KiB
Markdown
---
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abstract: A new spoken and written language not in development.
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lastupdated: 2011
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---
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# Na
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*2011.*
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## Introduction
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Na is a probalistic language. The more details you use when explaining an
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event, the more probable it is that the recipient understands you. This is not
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very different from typical languages ("a blue building" is more precise than
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"a building"), but the new thing in Na is that this guesswork is everywhere.
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## Alphabet
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Optimally, Na should have its own alphabet. To aid in its spreading, a subset
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of the Latin alphabet has been chosen instead:
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```
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. A E I O B D F G K L N S T V
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```
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All of these letters are pronounced as "short sounds", i.e. "A" is not
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pronounced as "AAY", but just "AE". This is the same for all wovels. There are
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two types of correct syllables: those of the form <consonant><wovel> and those
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of the form <wovel>: "LO" is legal, "LOO", "LLA", "LOI", "AV", and "AEV" are
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not. Aside from letters, only the period (".") character and space between
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characters are used. No commas, no colons, no semicolons, nothing else. Also,
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there is no difference between uppercase and lowercase letters. Sentences are
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read left-to-right (numbers are written right-to-left; more about that later).
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With only 4 wovels and 10 consonants pronouncations can be very varied and
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still correct. According to the rules laid out above there are 40 different
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single-syllable words, 40^2 = 1,600 two-syllable words, 40^3 = 64,000
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three-syllable words, 40^4 = 2,560,000 four-syllable words, etc. At ten
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syllables (an extreme case) there are 10,485,760,000,000,000 different
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10-syllable words and a total number of 10,754,625,641,025,640
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any-number-of-syllables-less-or-equal-to-10 words.
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### TODO IPA/SAMPA
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The author of this document is not very familiar with IPA, SAMPA, or any other
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phonetic alphabet.
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## Goals
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Na wants to be a useful language somewhat usable by people. Na has been
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designed to be fairly global, but since the creator of Na is fluent only in
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Germanic languages (Danish and English), and because the Latin alphabet is
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used, Na is non-global. Nevertheless, it /wants/ to be global.
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## Basics
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Na has no nouns, no verbs, no adjectives, no adverbiums, no pronouns, etc. In
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Na, the core of everything is a word more or less equivalent to the English
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word "existence". This word is *BA*. All other words are based on this base
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word (in object oriented programming language terminology, this is equivalent
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to subclassing classes).
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The groups at the first levels of heritance are:
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+ Existence :: BA
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+ Number :: BE
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+ Real number :: BEBA
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+ Integer :: BEBE
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+ Fraction :: BEBI
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+ Imaginary number :: BEBO
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+ Complex number :: BEDA
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+ Symbol :: BI
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+ Letter :: BIBA
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+ Shape :: BO
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+ Relation :: DA
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+ Identity :: DE
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+ Absolute combiner :: DO
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+ Identifier :: FA
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+ Relative combiner :: FE
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TODO: Improve on groups.
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These have been chosen not because of perfection, but because Na was designed
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for human beings (who are not perfect). Nevertheless, these groups should
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suffice for the time being.
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*Note:* These groups are few on purpose. Many words fit into several
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groups. Groups are only good for basic things; more complex meanings do not
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have to be placed in any group.
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Na uses a combination of numbers, identifiers and further subclassing to
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achieve (some) usability. In Na, what is written as one sentence in
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e.g. English, can often become more than one sentence. To make a statement in
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Na, one splits one's sentence into Na sentences, the first ones consisting of
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definitions and assignments (named variables), and the final one consisting of
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everything put together in the right order. Often, the order does not matter,
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and the purpose of the final sentence is really just to point out what
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definitions you have chosen to use, and that you are done.
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For example, to write "I see a table." in Na, you first extract the objects (in
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Na, everything is an object) from the sentence. This gives us:
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+ I, the subject
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+ see, the verb
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+ a table, the object
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In Na, this is simplified further into:
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+ I
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+ to see
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+ table, 1
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The only two possible sense-making combinations using all the words would be to
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say "I see a table" or "The table sees me". To stress that the first version is
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wanted, we first combine "I" and "to see", which we then combine with a
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definition of "table, 1". Finally, we throw the definitions together, so that
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people will understand that the sentence is over.
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To specify "I", we use one of the members from the identity (*DE*) group. "to
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see" is also an abstraction, because the "I" can see in different ways (if it's
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a camera, it doesn't use a human brain to see, for example). Other,
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non-generalized terms are also available, but they are not part of the
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abstraction group.
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To create a variable to hold "table, 1", you combine the number 1 with a
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generic table defined using the shape (*BO*) group.
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A sentence where you combine words into a new word has this structure:
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```
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<word 1> <word 2>[ <word 3>[...]] DO <new word>.
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```
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This is an absolute combination. It is also possible to make relative
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combinations where word mixes are not saved in new words:
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```
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<word 1> <word 2>[...] FE <word(s)>[ ...].
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```
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In these relative cases, the words before an FE mark are evaluated when FE is
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reached. If FE is left out from such sentences, everything will be evaluated at
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once. Programmers might find it helpful to think of FE as a stack resetter.
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When you do not use the *DO* or *FE* combiner, you state something:
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```
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<word 1>[ <word 2>[...]].
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```
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In real languages, this is the equivalent of actually expressing something ---
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combines do not express anything, they merely aid in preparing for later
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expressions.
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## Example 1: I see a table
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One can write "I see a table." in two ways: the absolute way with *DO* or the
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relative way with *FE*.
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Words for "I", "to see", and "table" have not yet been made, but we assume they
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are BIGUHA, NULASE, and GAVOTI, respectively. The integer 1 is FA BEBE B.
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### Absolute way
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Step 1
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~ Combine "I" and "to see" into a sentence using combinations from
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different groups. Give it a name, e.g. VAVO.
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Step 2
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~ Combine the number 1 from the integer (*BEBE*) group with the table
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from the shape group. Give it a name, e.g. GALO.
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Step 3
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~ Either a) write VAVO GALO, or b) combine VAVO and GALO into e.g. VALO
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(could be any word) and go to step four.
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Step 4
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~ Write VALO.
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So:
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```
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biguha nulase do vavo. gavoti fa bebe b do galo. vavo galo do valo. valo.
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```
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or, shorter:
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```
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biguha nulase do vavo. gavoti fa bebe b do galo. vavo galo.
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```
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The advantage of the first variation is that VALO can be reused again and again
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until people have forgotten what its temporary meaning is. For example, if you
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are telling a story where the main character often sees a table, you could do
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this:
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```
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valo. valo. valo. valo. valo.
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```
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It is not necessary to define new combinations all the time. Na comes with a
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small built-in set of combinations which is required learning for all Na
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speakers. These built-in definitions should be used whenever possible,
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eventually in subclassed or changed forms, to make it easier to write --- and
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especially speak --- Na.
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### Relative way
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The relative way is a bit simpler, shorter and easier to say:
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```
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biguha nulase fa bebe b fe gavoti.
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```
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In fact, this relative sentence can be made into an absolute sentence:
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```
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biguha nulase fa bebe b fe gavoti do valo. valo.
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```
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### Notes
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In speech the relative way is much more useful than the absolute one. Both are
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useful, though.
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## Identifiers
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Some of the groups can be used as identifiers. When an identifier is used one
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or more arguments are expected. The integer identifier requires one argument
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(the number), the real number identifier requires two arguments (before and
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after the point), and the letter identifier requires one argument. To use a
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group as an identifier, prefix it with *FA*.
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## Numbers
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Numbers in Na are duodecimal, i.e. base 12. The alphabet is used as numbers. A
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is used for zero, the consonants range from 1 to 10, and O is used for 11. When
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specifying a number, it should be prefixed with *FA BEBA* (real numbers) or any
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other name from a subclassed number identifier, and it should be written with
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the least important bit first (LSB). To pronounce a number, speak the letters
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of the number one by one.
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Examples:
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+ FA BEBE GB = 16
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+ FA BEBE D = 2
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+ FA BEBA D AT = 2.108
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TODO: Improve this strange system
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## Example 2: We transported the ship into another dimension
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This sentence is a bit tricky. We start by splitting the sentence into
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meaningful parts:
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+ we transport (in the past)
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+ <something specific> ship
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+ into
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+ another dimension
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Again, base words have not been defined yet, so we assume that "we (generic)"
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(we do not know if it is an exclusive or inclusive we) is GELO, "transport" is
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LOLOTI, the past is BATATO, something specific is SESE, "ship" is MOLOTE,
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"into" is NIKO, "another" is KOBO, and "dimension" is TILE.
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It appears that it is actually quite easy to create a relative sentence now:
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```
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batato gelo loloti fe sese molote niko fe fe tile kobo.
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```
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Notice the two FE in the end. Without the second FE, the sentence could also
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mean "We transported another dimension into the ship.". It would not be wrong
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to omit the FE, but it would create an ambigious sentence (which can be
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useful).
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Remember that the following sentence means excactly the same as the previous:
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```
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loloti batato gelo fe niko molote sese fe fe kobo tile.
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```
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Word order is only important in the case of identifiers and their arguments.
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## Example 3: 33+2.4i
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33+2.4i is a complex number. The x+yi notation doesn't fit well in Na. Instead,
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the *FA BEDA* identifier is used (33+2.4i = 33.0+2.4i):
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```
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fa beda td a d g.
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```
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Again, this is not perfect.
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## TODO Foreign words
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Foreign words present a problem in Na.
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## TODO Built-ins
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~1000 words needed to begin with.
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## Miscellaneous
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Since there are only 16 characters (14 letters, the period, and space), one
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character can be stored in only 4 bits, and 2 characters can be stored in one
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byte.
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Because of the infinitely many relatively different ways to say the same thing,
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texts and speech can be varied a great deal. This could be quite useful in
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e.g. poems.
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