18.17.  Logical and non-logical connectives within mekso

The following cmavo are discussed in this section:

.abu

BY

letter a

by

BY

letter b

cy

BY

letter c

fe'a

VUhU

nth root of (default square root)

lo'o

LOhO

terminator for LI

As befits a logical language, Lojban has extensive provision for logical connectives within both operators and operands. Full details on logical and non-logical connectives are provided in Chapter 14 . Operands are connected in afterthought with selma'o A and in forethought with selma'o GA, just like sumti. Operators are connected in afterthought with selma'o JA and in forethought with selma'o GUhA, just like tanru components. This parallelism is no accident.

In addition, A+BO and A+KE constructs are allowed for grouping logically connected operands, and keke'e is allowed for grouping logically connected operators, although there are no analogues of tanru among the operators.

Despite the large number of rules required to support this feature, it is of relatively minor importance in the mekso scheme of things. Example 18.114 exhibits afterthought logical connection between operands:

Example 18.114. 

vei ci .a vo ve'o prenu cu klama le zarci
( Three or four ) people go to-the market.

Example 18.115 is equivalent in meaning, but uses forethought connection:

Example 18.115. 

vei ga ci gi vo ve'o prenu cu klama le zarci
( Either 3 or 4 ) people go to-the market.

Note that the mekso here are being used as quantifiers. Lojban requires that any mekso other than a simple number be enclosed in parentheses when used as a quantifier. This rule prevents ambiguities that do not exist when using li .

By the way, li has an elidable terminator, lo'o , which is needed when a li sumti is followed by a logical connective that could seem to be within the mekso. For example:

Example 18.116. 

li re su'i re du
The-number two plus two equals
li vo lo'o .onai lo nalseldjuno namcu
the-number four or-else a non-known number.

Omitting the lo'o would cause the parser to assume that another operand followed the .onai and reject lo as an invalid operand.

Simple examples of logical connection between operators are hard to come by. A contrived example is:

Example 18.117. 

li re su'i je pi'i re du li vo
The-number two plus and times two equals the-number four.
2 + 2 = 4 and 2 × 2 = 4.

The forethought-connection form of Example 18.117 is:

Example 18.118. 

li re ge su'i gi pi'i re du li vo
the-number two both plus and times two equals the-number four.
Both 2 + 2 = 4 and 2 × 2 = 4.

Here is a classic example of operand logical connection:

Example 18.119. 

go li .abu bi'epi'i vei xy. te'a re ve'o su'i
If-and-only-if the-number a times ( x power two ) plus
by. bi'epi'i xy. su'i cy. du li no
b times x plus c equals the-number zero
gi li xy. du li vei va'a by. ku'e
then the-number x equals the-number [ the-negation-of( b )
su'i ja vu'u fe'a
plus or minus the-root-of
vei by. bi'ete'a re vu'u vo bi'epi'i .abu bi'epi'i cy.
( b power 2 minus four times a times c
ve'o [ku'e] ve'o fe'i re bi'epi'i .abu
) ] divided-by two times a
Iff a x 2 + b x + c = 0 , then x = - b ± b 2 - 4 a c 2 a

Note the mixture of styles in Example 18.119 : the negation of b and the square root are represented by forethought and most of the operator precedence by prefixed bi'e , but explicit parentheses had to be added to group the numerator properly. In addition, the square root parentheses cannot be removed here in favor of simple fe'a and ku'e bracketing, because infix operators are present in the operand. Getting Example 18.119 to parse perfectly using the current parser took several tries: a more relaxed style would dispense with most of the bi'e cmavo and just let the standard precedence rules be understood.

Non-logical connection with JOI and BIhI is also permitted between operands and between operators. One use for this construct is to connect operands with bi'o to create intervals:

Example 18.120. 

li no ga'o bi'o ke'i pa
the-number zero (inclusive) from-to (exclusive) one
[0,1)

the numbers from zero to one, including zero but not including one


Intervals defined by a midpoint and range rather than beginning and end points can be expressed by mi'i :

Example 18.121. 

li pimu ga'o mi'i ke'i pimu
the-number 0.5 (inclusive) centered-with-range (exclusive) 0.5

which expresses the same interval as Example 18.120 . Note that the ga'o and ke'i still refer to the endpoints, although these are now implied rather than expressed. Another way of expressing the same thing:

Example 18.122. 

li pimu su'i ni'upimu bi'o ke'i ma'upimu
the-number 0.5 plus [-0.5 from-to (exclusive) +0.5]

Here we have the sum of a number and an interval, which produces another interval centered on the number. As Example 18.122 shows, non-logical (or logical) connection of operands has higher precedence than any mekso operator.

You can also combine two operands with ce'o , the sequence connective of selma'o JOI, to make a compound subscript:

Example 18.123. 

xy. xi vei by. ce'o dy. [ve'o]
x sub ( b sequence d )
x b,d