A range expression has one of the following forms, where R_i denote range expressions, T_i denote integer valued term expressions, S(T_i) denotes the integer value of T_i in S, X denotes a variable, I denotes an integer, and S denotes the current store.

`dom(X)`

- evaluates to D(X,S)
`{T_1,\ldots,T_n}`

- evaluates to {S(T_1),\ldots,S(T_n)}. Any T_i containing
a variable that is not “quantified” by
`unionof/3`

will cause the indexical to suspend until this variable has been assigned. `T_1..T_2`

- evaluates to the interval between S(T_1) and S(T_2).
`R_1/\R_2`

- evaluates to the intersection of S(R_1) and S(R_2)
`R_1\/R_2`

- evaluates to the union of S(R_1) and S(R_2)
`\R_2`

- evaluates to the complement of S(R_2)
`R_1+R_2`

`R_1+T_2`

- evaluates to S(R_2) or S(T_2) added pointwise to S(R_1)
`-R_2`

- evaluates to S(R_2) negated pointwise
`R_1-R_2`

`R_1-T_2`

`T_1-R_2`

- evaluates to S(R_2) or S(T_2) subtracted pointwise from
S(R_1) or S(T_1)
`R_1 mod R_2`

`R_1 mod T_2`

- evaluates to S(R_1) pointwise modulo S(R_2) or S(T_2)
`R_1 ? R_2`

- evaluates to S(R_2) if S(R_1) is a non-empty set; otherwise,
evaluates to the empty set. This expression is commonly used in the
context
`(R_1 ? (inf..sup) \/ R_3)`

, which evaluates to S(R_3) if S(R_1) is an empty set; otherwise, evaluates to`inf..sup`

. As an optimization, R_3 is not evaluated while the value of R_1 is a non-empty set. `unionof(X,R_1,R_2)`

- evaluates to the union of S(E_1),\ldots,S(E_N), where each
E_I has been formed by substituting K for X in
R_2, where K is the I:th element of
S(R_1). See N Queens, for an example of usage.
**Please note**: if S(R_1) is infinite, the evaluation of the indexical will be abandoned, and the indexical will simply suspend. `switch(T,`

`MapList``)`

- evaluates to S(E) if S(T_1) equals K and
`MapList`contains a pair`K-E`

. Otherwise, evaluates to the empty set. If T contains a variable that is not “quantified” by`unionof/3`

, the indexical will suspend until this variable has been assigned.

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