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Lou Montana (talk | contribs) m (Text replacement - "\[\[SQF[ _]syntax" to "[[SQF Syntax") |
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However, all of them will result in the same {{ic|SCALAR}} ([[typeName]]) value type. | However, all of them will result in the same {{ic|SCALAR}} ([[typeName]]) value type. | ||
The '''<span style="color: #008000;">largest positive</span>''' number that can be | The '''<span style="color: #008000;">largest positive</span>''' number that can be achieved is {{ic|3.4028235e38}} and the '''<span style="color: #800000;">largest negative</span>''' is {{ic|-3.4028235e38}}.<br> | ||
It also is possible to generate positive or negative | It also is possible to generate positive or negative infinity values using either {{ic|1e39}} (string representation: {{ic|1.#INF}}) or {{ic|-1e39}} (string representation: {{ic|-1.#INF}}). | ||
To check | To check if a number is finite one can use the [[finite]] operator. | ||
{{Feature | Informative | Regex to match all numbers in [[SQF Syntax|SQF]] is {{ic|<nowiki>(((\$|0x)[0-9a-fA-F]+)|(\.[0-9]+))|(\b[0-9]+(\.[0-9]+|[eE][-+]?[0-9]+)?)\b</nowiki>}}}} | {{Feature | Informative | Regex to match all numbers in [[SQF Syntax|SQF]] is {{ic|<nowiki>(((\$|0x)[0-9a-fA-F]+)|(\.[0-9]+))|(\b[0-9]+(\.[0-9]+|[eE][-+]?[0-9]+)?)\b</nowiki>}}}} | ||
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A regex catching these kind of numbers could look like this {{ic|<nowiki>((\$|0x)[0-9a-fA-F]+)\b</nowiki>}} | A regex catching these kind of numbers could look like this {{ic|<nowiki>((\$|0x)[0-9a-fA-F]+)\b</nowiki>}} | ||
== Config == | == Config == |
Revision as of 16:15, 8 May 2021
A number is, depending on scope, either a single precision floating-point number (when talking about scripting) or a range of numerical types when talking about config context.
Scripting
In SQF, there are multiple accepted number formats.
However, all of them will result in the same SCALAR
(typeName) value type.
The largest positive number that can be achieved is 3.4028235e38
and the largest negative is -3.4028235e38
.
It also is possible to generate positive or negative infinity values using either 1e39
(string representation: 1.#INF
) or -1e39
(string representation: -1.#INF
).
To check if a number is finite one can use the finite operator.
Decimal (Base 10)
A decimal number is your normal 0.5
syntax stuff with one extra: You may omit the initial pack of digits.
Some Examples would be:
5.197
0.47
16.0
.8314
12345
A regex catching these kind of numbers could look like this ((\.[0-9]+)|(\b[0-9]+(\.[0-9]+)?))\b
Scientific Notation
The Scientific Notation is a way of expressing numbers that are too big or too small to be conveniently written in decimal form.
It starts of like a normal decimal and then gets expressed by an E
(Not case-sensitive, thus e
is also valid) followed by an optional +
or -
sign and ends with a range of digits.
Some examples would be:
1.23E4 ⇔ 1.23 ⋅ 104 ⇔ 12300
5e-2 ⇔ 5 ⋅ 10-2 ⇔ 0.05
A regex catching these kind of numbers could look like this ([0-9]+.)?[0-9]+[eE][+-]?[0-9]+
Hexadecimal (Base 16)
In SQF, hexadecimal (also base 16, or hex) is a positional numeral system with a base of 16.
They start either with 0x
or with a single $
.
This gets followed by one of the following characters: 0 1 2 3 4 5 6 7 8 9 A B C D E F
.
Note that casing does not matter, thus both 0xa
and 0xA
are valid.
Some Examples would be:
0xa5
$5C
$FFFFFF
0x123ABC
A regex catching these kind of numbers could look like this ((\$|0x)[0-9a-fA-F]+)\b
Config
Unlike scripting, configs actually do allow for multiple number types (Integer, Float, etc). They are properly stored with their corresponding type in mind.
class MyClass
{
myInt = 1; // integer;
myFloat = 0.01; // float;
};
// description.ext example
disabledAI = 1; // boolean: 0 = false, anything else = true (usually 1)