lumars 1.6.1
A high level, lightweight LUA library.
To use this package, run the following command in your project's root directory:
Manual usage
Put the following dependency into your project's dependences section:
Overview
Lumars is a high-level wrapper around LUA 5.1 that aims to be lightweight while providing high quality of life features.
This library is in its early stages, so expect bugs. If you can be bothered, please open an issue alongside a minimised, idependent snippet of code that I can add as a unittest, which will also make it easier for me to debug.
- Overview
- Features
- Quick Start
- Hello World
- Tables
- Functions
- Structs
- Executing a string or file with a different _G table
- nogc strings
- EmmyLua Annotations (IDE autocomplete)
- Contributing
Features
- Statically linked
- Bundled with prebuilt binaries for LuaJit for Windows and Posix
- Dynamic values using TaggedAlgebraic
- Ability to convert most D and Lua types to eachother (including structs)
- Provides a high level interface, but also allows manual manipulation of the stack
- Uses a struct-based API instead of classes, to minimise GC usage
- Some types use ref counting in order to be easy to move around while still keeping lifetime guarentees
- Doesn't shy away from the GC, but does try to minimise usage of it
- Supports Lua 5.1 (mainly for LuaJit)
- Bind Lua functions to statically typed D functions
- Lambdas, functions, and delegates can all be exposed to Lua
Quick Start
Hello World
Create a new LuaState
, passing in null
so a new state is created. This struct is non-copyable so you might want to put it on the GC heap.
import lumars;
void main()
{
auto l = LuaState(null); // Or `new LuaState`
// openlibs is automatically called
l.doString(`print("Hello, world!")`);
}
Here's another way by using the built-in print
function.
import lumars;
void main()
{
auto l = LuaState(null);
auto print = l.globalTable.get!LuaFunc("print");
print.pcall!0("Hello, world!");
// !0 means "no return results"
}
And here's *another- way where we bind the Lua function into a D function:
import lumars;
void main()
{
auto l = LuaState(null);
auto print = l.globalTable.get!LuaFunc("print").bind!(void, string);
print("Hello, world!");
// If you want to pass it around like a D func:
alias Func = void delegate(string);
Func f = &print.asDelegate;
}
Tables
New Table
import lumars;
void main()
{
auto l = LuaState(null);
auto t = LuaTable.makeNew(&l);
t["a"] = "bc";
t[1] = 23;
assert(t.get!string("a") == "bc");
assert(t.get!int(1) == 23);
}
Iterate with ipairs
import std.conv : to;
auto l = LuaState(null);
l.doString(`t = { 1, 2, 3 }`);
auto t = l.globalTable.get!LuaTable("t");
auto sum = 0;
t.ipairs!((i, /*LuaValue*/ v)
{
sum += v.value!LuaNumber.to!int; // LuaNumber is `double`
});
assert(sum == 6);
Iterate with statically typed ipairs
auto l = LuaState(null);
l.doString(`t = { 1, 2, 3 }`);
auto t = l.globalTable.get!LuaTable("t");
t.ipairs!(int, (i, /*int*/ v)
{
assert(i == v);
});
Iterate with pairs
auto l = LuaState(null);
l.doString(`t = { a = "bc", [1] = 23 }`);
auto t = l.globalTable.get!LuaTable("t");
t.pairs!((k, v) // Both are LuaValue
{
if(k.isText && k.value!string == "a")
assert(v.value!string == "bc");
else if(k.isNumber && k.value!LuaNumber == 1)
assert(v.value!LuaNumber == 23);
else
assert(false);
});
Iterate with statically typed pairs
auto l = LuaState(null);
l.doString(`t = { a = "bc", easy = 123 }`);
auto t = l.globalTable.get!LuaTable("t");
t.pairs!(string, LuaValue, (/*string*/ k, /*LuaValue*/ v)
{
if(k == "a")
assert(v.value!string == "bc");
else if(k == "easy")
assert(v.value!LuaNumber == 123);
else
assert(false);
});
Array conversion
auto l = LuaState(null);
l.doString(`t = { 1, 2, 3, 4, 5 }`);
auto arr = l.globalTable.get!(int[])("t");
assert(arr == [1, 2, 3, 4, 5]);
Functions
Echo
auto l = LuaState(null);
auto t = LuaTable.makeNew(&l);
t["echo"] = (string text){ writeln(text); };
auto f = t.get!LuaFunc("echo").bind!(void, string);
f("Hello, World!");
Echo (Variadic)
auto l = LuaState(null);
l.globalTable["echo"] = (LuaVariadic args) { foreach(arg; args) writeln(arg); };
l.doString(`echo("Henlo", "Warld!", 420, true)`);
Mapping function
import std.conv : to;
auto l = LuaState(null);
int[] map(int[] input, LuaFunc mapper)
{
foreach(ref num; input)
{
LuaValue[1] result = mapper.pcall!1(num);
num = result[0].value!LuaNumber.to!int; // Lua numbers are doubles
}
return input;
}
l.globalTable["map"] = ↦
l.doString(`
local values = {1, 2, 3}
local func = function(n) return n - 2 end
local result = map(values, func)
assert(result[1] == 2 and result[2] == 4 and result[3] == 6)
`);
Overloaded functions
auto lua = new LuaState(null);
lua.register!(
luaOverloads!(
(int a) { assert(a == 1); },
(string a) { assert(a == "2"); },
(int a, string b) { assert(a == 1); assert(b == "2"); }
)
)("overloaded");
lua.doString(`
overloaded(1)
overloaded("2")
overloaded(1, "2")
`);
Registering a library
You can use the LuaState.register
function to easily create a Lua table full of functions (a.k.a a Library)
Here's two examples:
import lumars, api, std.path, std.file, std.array;
void registerPathApi(LuaState* lua)
{
lua.register!(
"absolutePath", (string path, string base) => absolutePath(path, base),
"absolutePathCwd", (string path) => absolutePath(path),
"buildPath", (string[] paths) => buildNormalizedPath(paths),
"defaultExtension", (string path, string ext) => defaultExtension(path, ext),
"dirName", (string path) => dirName(path),
"expandTilde", (string path) => expandTilde(path),
"extension", (string path) => extension(path),
"getcwd", () => getcwd(),
"globMatch", (string path, string patt) => globMatch(path, patt),
"isAbsolute", (string path) => isAbsolute(path),
"isValidFilename", (string filename) => isValidFilename(filename),
"isValidPath", (string path) => isValidPath(path),
"normalisePath", (string path) => asNormalizedPath(path).array,
"relativePath", (string path, string base) => relativePath(path, base),
"relativePathCwd", (string path) => relativePath(path),
"setExtension", (string path, string ext) => setExtension(path, ext),
"stripExtension", (string path) => stripExtension(path)
)("sh.path");
}
import lumars, api, std.file, std.exception, std.conv, std.algorithm, std.array;
void registerFsApi(LuaState* lua)
{
lua.register!(
"append", (LuaState* l, string file, LuaValue v) {
enforce(v.isTable || v.isText, "Expected parameter 2 to be a table or a string.");
if(v.isText)
append(file, v.textValue);
else
{
auto t = v.tableValue;
if(t.length == 0)
return;
t.push();
scope(exit) l.pop(1);
append(file, l.get!(ubyte[])(-1));
}
},
"chdir", chdir!string,
"copy", (string from, string to) => copy(from, to),
"dirEntries", (string path, string mode) => dirEntries(path, mode.to!SpanMode).map!(de => de.name).array,
"dirEntriesGlob", (string path, string pattern, string mode)
=> dirEntries(path, pattern, mode.to!SpanMode).map!(de => de.name).array,
"exists", exists!string,
"getSize", getSize!string,
"isDir", isDir!string,
"isFile", isFile!string,
"mkdir", mkdir!string,
"mkdirRecurse", mkdirRecurse,
"readString", (string file) => readText(file),
"readBytes", (string str) => cast(ubyte[])read(str),
"remove", std.file.remove!string,
"rename", rename!(string, string),
"rmdir", rmdir!string,
"rmDirRecurse", rmdirRecurse,
"tempDir", tempDir,
"write", (LuaState* l, string file, LuaValue v) {
enforce(v.isTable || v.isText, "Expected parameter 2 to be a table or a string.");
if(v.isText)
write(file, v.textValue);
else
{
auto t = v.tableValue;
if(t.length == 0)
return;
t.push();
scope(exit) l.pop(1);
write(file, l.get!(ubyte[])(-1));
}
},
)("sh.fs");
}
Structs
Lumars can convert D structs to and from Lua.
When converting from Lua to D, any unknown fields are ignored, and any missing fields in the struct are set to their initial value.
In the future I'd like to introduce UDAs to customise behaviour, but for now this should be a sensible default.
static struct B
{
string a;
}
static struct C
{
string a;
}
static struct A
{
string a;
B[] b;
C[string] c;
}
auto a = A(
"bc",
[B("c")],
["c": C("123")]
);
auto l = LuaState(null);
// *Anything- that .push can use is also useable by the likes of LuaTable.
// We're doing manual stack manip just because it's simpler for this case.
l.push(a);
scope(exit) l.pop(1);
auto luaa = l.get!A(-1);
assert(luaa.a == "bc");
assert(luaa.b.length == 1);
assert(luaa.b == [B("c")]);
assert(luaa.c.length == 1);
assert(luaa.c["c"] == C("123"));
Another example:
struct Vector2D
{
float x;
float y;
}
auto l = LuaState(null);
l.doString(`
function addVectors(vectA, vectB)
return {
x = vectA.x + vectB.x,
y = vectA.y + vectB.y
}
end
`);
auto f = l.globalTable.get!LuaFunc("addVectors").bind!(Vector2D, Vector2D, Vector2D);
assert(f(
Vector2D(1, 1),
Vector2D(9, 9)
) == Vector2D(10, 10));
Executing a string or file with a different _G table
For sandboxing reasons, among other reasons, it's useful to be able to run external Lua under with a different environment table. Lumars supports this easily:
unittest
{
auto state = LuaState(null);
auto print = state._G.get!LuaFunc("print");
auto _G1 = LuaTable.makeNew(&state);
_G1["abc"] = 123;
_G1["print"] = print;
const code = "print(abc)";
state.doString(code, _G1); // or doFile
}
nogc strings
Anytime you need to access a string that's on the Lua stack, instead of specifying a string (e.g. state.get!string(-1)
) you
can instead use const(char)[]
which won't allocate any GC memory.
You do however have to keep in mind that the lifetime of the string is now attached to the lifetime of the stack variable, so be careful.
EmmyLua Annotations (IDE autocomplete)
One common annoyance when dealing with a mix of Lua and host language code, is the lack of autocompletion provided by your IDE when programming.
To help solve this issue, Lumars can help you generate a Lua file filled with EmmyLua annotations, allowing you to gain intelisense for any plugin that supports EmmyLua annotations.
It does a pretty ok job, but there's still a lot of room for improvement.
The easiest way to use it is like this:
import lumars;
import std.meta : AliasSeq;
struct S
{
int a;
LuaValue b;
}
alias EXPORT = AliasSeq!(
"myfunc1", (string s, LuaValue v) { return S.init; }
);
void registerFuncs(LuaState* lua)
{
lua.register!EXPORT("mylib");
EmmyLuaBuilder b;
b.addFunctions!EXPORT("mylib");
import std.file : write;
write("api.lua", b.toString());
/++
mylib = mylib or {}
---@class S
---@field public a number
---@field public b any
local S
--@type fun(_:string, _:any):S
mylib.myfunc1 = mylib.myfunc1 or function() assert(false, 'not implemented') end
++/
}
Then simply require("api.lua")
in your lua code, et voila (hopefully).
Contributing
I'm perfectly fine with anyone wanting to contribute.
I'd especially love it if you open an issue if you come across any bugs.
I'd also love it if you ever think "how do I do X?" and open an issue for it so I can add it to this README.
- 1.6.1 released 2 years ago
- BradleyChatha/lumars
- MIT
- Copyright © 2021, Bradley Chatha
- Authors:
- Dependencies:
- bindbc-lua, taggedalgebraic
- Versions:
-
1.13.0-alpha.1 2023-Aug-09 1.12.1 2023-Jun-23 1.12.0 2023-May-03 1.11.0 2023-Apr-05 1.10.0 2023-Feb-05 - Download Stats:
-
-
10 downloads today
-
78 downloads this week
-
328 downloads this month
-
6691 downloads total
-
- Score:
- 2.9
- Short URL:
- lumars.dub.pm