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6.2 KiB
6.2 KiB
Standard Library
Cosmo comes with a standard library which is broken into separate modules where each can be selectively loaded using the C API.
Base Library
Includes misc. functions. The "junk drawer" of the standard library. Without these functions however, Cosmo would be severely limited in functionality.
Name | Type | Behavior | Example |
---|---|---|---|
(...) |
Writes primitives to stdout, if a <ref> is passed, tostring() is invoked before outputting |
print("Hello world!") |
|
type | (<ANY>) -> <string> |
Returns the passed arguments datatype as a string | type(1) -> "<number>" |
tonumber | (<ANY>) -> <number> |
Converts the datatype to a <number> , if a <ref> is passed __tonumber metamethod is invoked |
tonumber("12") -> 12 |
tostring | (<ANY>) -> <string> |
Converts the datatype to a <string> , if a <ref> is passed __tostring metamethod is invoked |
tostring(12) -> "12" |
error | (<string>) |
Throws an error with the passed <string> |
error("error!") |
pcall | (<callable>) -> <bool>, <error> or <ANY> |
Tries a protected call on the passed function, if an error is thrown, <bool> will be false and the 2nd result will be the error message |
pcall(error("Hello world!")) -> false, "Hello world!" |
assert | (<bool>, <string>) |
If the passed <bool> is false, an error is thrown, optionally uses custom error message |
assert(1 == 1, "Error Message!") |
loadstring | (<string>) -> <boolean>, <function> or <error> |
If the <string> compiled successfully, 1st result will be true and the 2nd result will be the newly compiled function. If there was a compiler/lexer error, the 1st result will be false and the 2nd result will be the error |
loadstring("print(\"hi\")")() |
-> means 'returns'
String Library
Includes functions and methods to manipulate strings. When this library is loaded all objects have their proto's set to the string.* object. Enabling
you to invoke the API directly on objects without using string.*
, eg. "Hello":len()
is the same as string.len("Hello")
.
Name | Type | Behavior | Example |
---|---|---|---|
string.len | (<string>) -> <number> |
Returns the length of the passed string | "hi":len() -> 2 |
string.sub | (str<string>, start<number>[, length<number>]) -> <string> |
Makes a substring of str starting at start with length of length or str:len() - start |
"Hello World":sub(6) -> "World" |
string.find | (str<string>, find<string>[, start<number>]) -> index<number> |
Searches for first occurrence of find in str starting at start or 0 . Returns index or -1 if failed |
"Hello world":find("wo") -> 6 |
string.split | (str<string>, splitter<string>) -> [<string>, ...] |
Splits str into substrings using splitter as the splitter. Returns an array (table) starting at 0 of the strings. |
"Hello world":split(" ") -> ["Hello", "world"] |
string.byte | (str<string>) -> <number> |
Returns the byte of the first character in the string. | "A":byte() -> 65 |
string.char | (byte<number>) -> <string> |
Returns a 1 character string of the byte passed. | string.char(65) -> "A" |
string.rep | (str<string>, times<number>) -> <string> |
Repeats the string and returns the newly allocated string | ("A" .. "B"):rep(2) -> "ABAB" |
-> means 'returns'
Math Library
Includes functions to do some common algebraic operations.
Name | Type | Behavior | Example |
---|---|---|---|
math.abs | (X<number>) -> <number> |
Returns the absolute value of X | math.abs(-2) -> 2 |
math.floor | (X<number>) -> <number> |
Rounds down to the nearest integer | math.floor(5.3) -> 5 |
math.ceil | (X<number>) -> <number> |
Rounds up to the nearest integer | math.ceil(5.3) -> 6 |
math.rad | (Deg<number>) -> <number> |
Converts degrees to radians | math.rad(180) -> 3.14159 |
math.deg | (Rad<number>) -> <number> |
Converts radians to degrees | math.deg(3.14159) -> 180 |
math.sin | (Rad<number>) -> <number> |
Returns the sine of radian Rad |
math.sin(math.rad(90)) -> 1 |
math.cos | (Rad<number>) -> <number> |
Returns the cosine of radian Rad |
math.cos(math.rad(180)) -> -1 |
math.tan | (Rad<number>) -> <number> |
Returns the tangent of radian Rad |
math.tan(math.rad(45)) -> 1 |
math.asin | (sin<number>) -> <number> |
Returns the arc sine of radian Rad |
math.deg(math.asin(1)) -> 90 |
math.acos | (cos<number>) -> <number> |
Returns the arc cosine of radian Rad |
math.deg(math.acos(-1)) -> 180 |
math.atan | (tan<number>) -> <number> |
Returns the arc tangent of radian Rad |
math.deg(math.atan(1)) -> 45 |
-> means 'returns'