theFox6
32afec0b36
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|---|---|---|
| .settings | ||
| testout | ||
| .project | ||
| LICENSE | ||
| README.md | ||
| init.lua | ||
| runTest.lua | ||
| test.venus | ||
| translateTest.lua | ||
| vp_util.lua | ||
README.md
venus lua parser
A parser that loads venus files into lua. Written in lua.
The parser reads a venus file and replaces venus syntax by lua syntax.
It can also load and run the result.
features
foreach
The foreach statement will geneate a pairs statement.
local table = {2,1,3,"test"}
foreach el in table {
print(el)
}
will generate
local table = {2,1,3,"test"}
for _, el in table do
print(el)
end
comments
for comments --, // and ## can be used
if something follows a -- it will always be treated as comment
curly braces
The do,then and end statements can be replaced by curly brace syntax.
They can be used in functions, loops, conditions.
For example:
do {
local table = {2,1,3,"test","test2",3}
function findTest(t) {
repeat {
local found = false
local el = table.remove(t)
if el == "test" {
found = true
} else {
print(el)
}
} until found
}
}
will generate
do
local table = {2,1,3,"test","test2",3}
function findTest(t)
repeat
local found = false
local el = table.remove(t)
if el == "test" then
found = true
else
print(el)
end
until found
end
end
functions
fn can be used instead of function.
fn test() {
print("hi")
}
will generate
function test()
print("hi")
end
lambdas
Lambda syntax (args) => {...} can be used to create functions.
local result
fn store_it(f) {
result = f(10,6)
}
store_it((a,b) => {
return (a - b) * 2
})
will generate
local result
function store_it(f)
result = f(10,6)
end
store_it(function(a,b)
return (a - b) * 2
end)
incrrement and decrement
++ and -- can be used to in/decrement by 1
local i = 0
local j = 0
i++
j--
will generate
local i = 0
local j = 0
i = i + 1
j = j - 1
-- can also be a comment!
If there is anything behind a -- the -- treated as comment.
assignments
Assignment operators +=, -=, *=, /=, ^= and .= can be used.
local a = 0
-- increment
a += 2
-- decrement
a -= 1
-- multiply
a *= 8
-- divide
a /= 2
-- to the power of
a ^= 3
-- concatenate string
a .= " str"
will generate
local a = 0
-- increment
a = a + 2
-- decrement
a = a - 1
-- multiply
a = a * 8
-- divide
a = a / 2
-- to the power of
a = a ^ 3
-- concatenate string
a = a .. " str"
working with the parser
loading
The init.lua returns a table containing the parser.
In case you have the VenusParser directory within your project's
ways of loding it may be:
-- using require (cached)
local vc = require("VenusParser")
-- using dofile
local vc = dofile("VenusParser/init.lua")
running venus files
vc.dovenus(file) works like dofile(file)
It's argument can be a relative or absolute path to the file that should be run.
loading venus files
vc.loadvenus(file) works like loadfile(file)
It's argument can be a relative or absolute path to the file that should be loaded.
It returns a function that runs the generated lua.
generating lua code
vp.tl_venus_file(file) returns the lua generated from the files contents
It's argument can be a relative or absolute path to the file that should be translated.
It returns the generated lua as string.
vp.tl_venus_string(str) returns the lua generated from the given string
It returns the generated lua as string.
generating lua files
vp.convert_venus_file(venus_file_in,lua_file_out) generates a lua file
It's arguments can be relative or absolute paths.
The venus_file_in will be converted to lua and written to lua_file_out.