# calc_rational
calc_rational consists of a binary crate `calc` and a library crate
[`calc_lib`](https://docs.rs/calc_rational/latest/calc_lib). `calc` is a CLI calculator for basic
rational number arithmetic using standard operator precedence and associativity. Internally, it is
based on [`Ratio<T>`](https://docs.rs/num/latest/num/rational/struct.Ratio.html)
and [`BigInt`](https://docs.rs/num-bigint/latest/num_bigint/struct.BigInt.html).
## Calc in action
```bash
[zack@laptop ~]$ calc
2.71828^0^3.14159 + -1!
> 0
s
> 0
@^0
> 1
s
> 1
@/3 * 3
> 1
s
> 1
|@2 - 9|^(1 - 2*3)
> 1/32768
s
> 1/32768
> 0.000030517578125
round(@, 3)
> 0
round(@, 6)
> 31/1000000
> 0.000031
2/3
> 2/3
> 0.666666667
rand()
> 939435294927814822
rand(1+9,10!)
> 2660936
1+4 mod 2 + 1
> 2
-5 mod 2
> 1
-5 mod -2
> 1
5 mod -2
> 1
9^0.5
> 3
(4/9)^(-1/2)
> 3/2
q
[zack@laptop ~]$
```
## Expressions
The following are the list of expressions in descending order of precedence:
1. number literals, `@`, `()`, `||`, `round()`, `rand()`
2. `!`
3. `^`
4. `-` (unary negation operator)
5. `*`, `/`, `mod`
6. `+`, `-`
All binary operators are left-associative sans `^` which is right-associative.
Any expression is allowed to be enclosed in `()`. Note that parentheses are purely for grouping expressions;
in particular, you cannot use them to represent multiplication (e.g., `4(2)` is grammatically incorrect and
will result in an error message).
Any expression is allowed to be enclosed in `||`. This unary operator represents absolute value.
`!` is the factorial operator. Due to its high precedence, something like *-i!^j!* for *i, j ∈ ℕ* is
the same thing as *-((i!)^(j!))*. If the expression preceding it does not evaluate to a non-negative integer,
then an error will be displayed. Spaces and tabs are *not* ignored; so `1 !` is grammatically incorrect and
will result in an error message.
`^` is the exponentiation operator. The expression left of the operator can evaluate to any rational number;
however the expression right of the operator must evaluate to an integer or (+/-) 1/2 unless the expression on
the left evaluates to `0` or `1`. In the event of the former, the expression right of the operator must evaluate
to a non-negative rational number. In the event of the latter, the expression right of the operator can evaluate to
any rational number. Note that `0^0` is defined to be 1.
The unary operator `-` represents negation.
The operators `*` and `/` represent multiplication and division respectively. Expressions right of `/`
must evaluate to any non-zero rational number; otherwise an error will be displayed.
The binary operator `mod` represents modulo such that *n mod m = r = n - m\*q* for *n,q ∈ ℤ, m ∈ ℤ\\{0}, and r ∈ ℕ*
where *r* is the minimum non-negative solution.
The binary operators `+` and `-` represent addition and subtraction respectively.
With the aforementioned exception of `!`, all spaces and tabs before and after operators are ignored.
## Round expression
`round(expression, digit)` rounds `expression` to `digit`-number of fractional digits. An error will
be displayed if called incorrectly.
## Rand expression
`rand(expression, expression)` generates a random 64-integer inclusively between the passed expressions.
An error will be displayed if called incorrectly. `rand()` generates a random 64-bit integer.
## Numbers
A number literal is a non-empty sequence of digits or a non-empty sequence of digits immediately followed by `.`
which is immediately followed by a non-empty sequence of digits (e.g., `134.901`). This means that number
literals represent precisely all rational numbers that are equivalent to a ratio of a non-negative integer to
a positive integer whose sole prime factors are 2 or 5. To represent all other rational numbers, the unary
operator `-` and binary operator `/` must be used.
## Empty expression
The empty expression (i.e., expression that at most only consists of spaces and tabs) will return
the result from the previous non-(empty/store) expression in *decimal* form using the minimum number of digits.
In the event an infinite number of digits is required, it will be rounded to 9 fractional digits using normal rounding
rules first.
## Store expression
To store the result of the previous non-(empty/store) expression, one simply passes `s`. In addition to storing the
result which will subsequently be available via `@`, it displays the result. At most 8 results can be stored at once;
at which point, results that are stored overwrite the oldest result.
## Recall expression
`@` is used to recall previously stored results. It can be followed by any *digit* from `1` to `8`.
If such a digit does not immediately follow it, then it will be interpreted as if there were a `1`.
`@i` returns the *i*-th most-previous stored result where *i ∈ {1, 2, 3, 4, 5, 6, 7, 8}*.
Note that spaces and tabs are *not* ignored so `@ 2` is grammatically incorrect and will result in an error message.
As emphasized, it does not work on expressions; so both `@@` and `@(1)` are grammatically incorrect.
## Character encoding
All inputs must only contain the ASCII encoding of the following Unicode scalar values: `0`-`9`, `.`, `+`, `-`,
`*`, `/`, `^`, `!`, `mod`, `|`, `(`, `)`, `round`, `rand`, `,`, `@`, `s`, <space>, <tab>,
<line feed>, <carriage return>, and `q`. Any other byte sequences are grammatically incorrect and will
lead to an error message.
## Errors
Errors due to a language violation (e.g., dividing by `0`) manifest into an error message. `panic!`s
and [`io::Error`](https://doc.rust-lang.org/std/io/struct.Error.html)s caused by writing to the global
standard output stream lead to program abortion.
## Exiting
`q` with any number of spaces and tabs before and after will cause the program to terminate.
### Status
This package will be actively maintained until it is deemed “feature complete”.
There are really only two properties that will always be true. First,
the grammar that generates a “reasonable” superset of the language will
be an unambiguous context-free grammar with expression precedence and binary operator
associativity embedded within. Last, the language will only deal with the field of
rational numbers.
The crates are only tested on the `x86_64-unknown-linux-gnu` target, but
they should work on any [Tier 1 with Host Tools](https://doc.rust-lang.org/beta/rustc/platform-support.html)
target. Note one must be aware of the ASCII encoding requirement. In particular there are platforms
(e.g., Windows) where the default text encoding is not a superset of ASCII.
### Installing
```bash
[zack@laptop ~]$ cargo install --all-features calc_rational
Updating crates.io index
Installing calc_rational v0.4.0
Compiling autocfg v1.1.0
Compiling libc v0.2.142
Compiling cfg-if v1.0.0
Compiling ppv-lite86 v0.2.17
Compiling num-traits v0.2.15
Compiling num-integer v0.1.45
Compiling num-bigint v0.4.3
Compiling num-rational v0.4.1
Compiling getrandom v0.2.9
Compiling rand_core v0.6.4
Compiling rand_chacha v0.3.1
Compiling rand v0.8.5
Compiling calc_rational v0.4.0 (/home/zack/calc_rational)
Finished release [optimized] target(s) in 5.54s
Installing /home/zack/.cargo/bin/calc
Installed package `calc_rational v0.4.0` (executable `calc`)
```
### Building and testing
```bash
[zack@laptop ~]$ git clone https://git.philomathiclife.com/repos/calc_rational
Cloning into 'calc_rational'...
[zack@laptop ~]$ cd calc_rational/
[zack@laptop calc_rational]$ cargo build --release --all-features
Updating crates.io index
Compiling autocfg v1.1.0
Compiling libc v0.2.142
Compiling cfg-if v1.0.0
Compiling ppv-lite86 v0.2.17
Compiling num-traits v0.2.15
Compiling num-integer v0.1.45
Compiling num-bigint v0.4.3
Compiling num-rational v0.4.1
Compiling getrandom v0.2.9
Compiling rand_core v0.6.4
Compiling rand_chacha v0.3.1
Compiling rand v0.8.5
Compiling calc_rational v0.4.0 (/home/zack/calc_rational)
Finished release [optimized] target(s) in 8.25s
[zack@laptop calc_rational]$ cargo t --all-features
Compiling autocfg v1.1.0
Compiling libc v0.2.142
Compiling semver v1.0.17
Compiling cfg-if v1.0.0
Compiling ppv-lite86 v0.2.17
Compiling num-traits v0.2.15
Compiling num-integer v0.1.45
Compiling num-bigint v0.4.3
Compiling num-rational v0.4.1
Compiling rustc_version v0.4.0
Compiling calc_rational v0.4.0 (/home/zack/calc_rational)
Compiling getrandom v0.2.9
Compiling rand_core v0.6.4
Compiling rand_chacha v0.3.1
Compiling rand v0.8.5
Finished test [unoptimized + debuginfo] target(s) in 2.80s
Running unittests src/lib.rs (target/debug/deps/calc_lib-71003fccf12c1022)
running 26 tests
test cache::tests::test_push ... ok
test cache::tests::test_get ... ok
test cache::tests::test_is_empty ... ok
test cache::tests::test_get_unsafe ... ok
test cache::tests::test_len ... ok
test cache::tests::test_index ... ok
test tests::abs ... ok
test cache::tests::test_new ... ok
test tests::exit ... ok
test cache::tests::test_index_panic - should panic ... ok
test tests::factorial ... ok
test tests::empty ... ok
test tests::rand_uni ... ignored
test tests::add ... ok
test tests::store ... ok
test tests::neg ... ok
test tests::par ... ok
test tests::eval_iter ... ok
test tests::recall_expression ... ok
test tests::eval ... ok
test tests::round ... ok
test tests::number_literal ... ok
test tests::term ... ok
test tests::exp ... ok
test tests::mult ... ok
test tests::rand ... ok
test result: ok. 25 passed; 0 failed; 1 ignored; 0 measured; 0 filtered out; finished in 0.00s
Running unittests src/main.rs (target/debug/deps/calc-1d58b73f30400d2f)
running 0 tests
test result: ok. 0 passed; 0 failed; 0 ignored; 0 measured; 0 filtered out; finished in 0.00s
Doc-tests calc_lib
running 0 tests
test result: ok. 0 passed; 0 failed; 0 ignored; 0 measured; 0 filtered out; finished in 0.00s
```
#### Formal language specification
For a more precise specification of the “calc language”, one can read the
[calc language specification](https://git.philomathiclife.com/calc_rational/lang.pdf).