Copyright | © 2007–2012 Gracjan Polak; © 2012–2016 Ömer Sinan Ağacan; © 2017-2022 Albert Krewinkel |
---|---|
License | MIT |
Maintainer | Albert Krewinkel <tarleb+hslua@zeitkraut.de> |
Stability | beta |
Portability | ForeignFunctionInterface, CPP |
Safe Haskell | None |
Language | Haskell2010 |
Haskell bindings to Lua C API functions.
The exposed functions correspond closely to the respective C Lua API
functions. However, C API functions which can throw Lua errors are not
exported directly, as any errors would crash the program. Non-error
throwing hslua_
versions are provided instead. The hslua
ersatz
functions have worse performance than the original.
Some of the Lua functions may, directly or indirectly, call a Haskell
function, and trigger garbage collection, rescheduling etc. These
functions are always imported safely (i.e., with the safe
keyword).
However, all function can trigger garbage collection. If that can lead
to problems, then the package should be configured without flag
allow-unsafe-gc
.
Synopsis
- lua_absindex :: State -> StackIndex -> IO StackIndex
- lua_arith :: State -> ArithOPCode -> IO ()
- lua_checkstack :: State -> CInt -> IO LuaBool
- lua_close :: State -> IO ()
- lua_concat :: State -> CInt -> IO ()
- lua_copy :: State -> StackIndex -> StackIndex -> IO ()
- lua_createtable :: State -> CInt -> CInt -> IO ()
- lua_gc :: State -> GCCode -> CInt -> IO CInt
- lua_getglobal :: State -> CString -> IO TypeCode
- lua_getmetatable :: State -> StackIndex -> IO LuaBool
- lua_gettable :: State -> StackIndex -> IO TypeCode
- lua_gettop :: State -> IO StackIndex
- lua_getuservalue :: State -> StackIndex -> IO TypeCode
- lua_insert :: State -> StackIndex -> IO ()
- lua_isboolean :: State -> StackIndex -> IO LuaBool
- lua_iscfunction :: State -> StackIndex -> IO LuaBool
- lua_isfunction :: State -> StackIndex -> IO LuaBool
- lua_isinteger :: State -> StackIndex -> IO LuaBool
- lua_islightuserdata :: State -> StackIndex -> IO LuaBool
- lua_isnil :: State -> StackIndex -> IO LuaBool
- lua_isnone :: State -> StackIndex -> IO LuaBool
- lua_isnoneornil :: State -> StackIndex -> IO LuaBool
- lua_isnumber :: State -> StackIndex -> IO LuaBool
- lua_isstring :: State -> StackIndex -> IO LuaBool
- lua_istable :: State -> StackIndex -> IO LuaBool
- lua_isthread :: State -> StackIndex -> IO LuaBool
- lua_isuserdata :: State -> StackIndex -> IO LuaBool
- lua_load :: State -> Reader -> Ptr () -> CString -> CString -> IO StatusCode
- lua_newthread :: State -> IO State
- lua_newuserdata :: State -> CSize -> IO (Ptr ())
- lua_next :: State -> StackIndex -> IO LuaBool
- lua_pcall :: State -> NumArgs -> NumResults -> StackIndex -> IO StatusCode
- lua_pop :: State -> CInt -> IO ()
- lua_pushboolean :: State -> LuaBool -> IO ()
- lua_pushcclosure :: State -> CFunction -> NumArgs -> IO ()
- lua_pushcfunction :: State -> CFunction -> IO ()
- lua_pushglobaltable :: State -> IO ()
- lua_pushinteger :: State -> Integer -> IO ()
- lua_pushlightuserdata :: State -> Ptr a -> IO ()
- lua_pushlstring :: State -> Ptr CChar -> CSize -> IO ()
- lua_pushnil :: State -> IO ()
- lua_pushnumber :: State -> Number -> IO ()
- lua_pushstring :: State -> CString -> IO CString
- lua_pushthread :: State -> IO CInt
- lua_pushvalue :: State -> StackIndex -> IO ()
- lua_rawequal :: State -> StackIndex -> StackIndex -> IO LuaBool
- lua_rawget :: State -> StackIndex -> IO TypeCode
- lua_rawgeti :: State -> StackIndex -> Integer -> IO TypeCode
- lua_rawlen :: State -> StackIndex -> IO CSize
- lua_rawset :: State -> StackIndex -> IO ()
- lua_rawseti :: State -> StackIndex -> Integer -> IO ()
- lua_remove :: State -> StackIndex -> IO ()
- lua_replace :: State -> StackIndex -> IO ()
- lua_rotate :: State -> StackIndex -> CInt -> IO ()
- lua_setglobal :: State -> CString -> IO ()
- lua_setmetatable :: State -> StackIndex -> IO ()
- lua_settable :: State -> StackIndex -> IO ()
- lua_settop :: State -> StackIndex -> IO ()
- lua_setuservalue :: State -> StackIndex -> IO ()
- lua_status :: State -> IO StatusCode
- lua_stringtonumber :: State -> CString -> IO CSize
- lua_toboolean :: State -> StackIndex -> IO LuaBool
- lua_tocfunction :: State -> StackIndex -> IO CFunction
- lua_tointegerx :: State -> StackIndex -> Ptr LuaBool -> IO Integer
- lua_tolstring :: State -> StackIndex -> Ptr CSize -> IO (Ptr CChar)
- lua_tonumberx :: State -> StackIndex -> Ptr LuaBool -> IO Number
- lua_topointer :: State -> StackIndex -> IO (Ptr ())
- lua_tothread :: State -> StackIndex -> IO State
- lua_touserdata :: State -> StackIndex -> IO (Ptr a)
- lua_type :: State -> StackIndex -> IO TypeCode
- lua_typename :: State -> TypeCode -> IO CString
- lua_version :: State -> IO (Ptr Number)
- module Lua.Ersatz.Functions
- module Lua.Ersatz.Auxiliary
Documentation
:: State | |
-> StackIndex | idx |
-> IO StackIndex |
Converts the acceptable index idx
into an equivalent absolute
index (that is, one that does not depend on the stack top).
:: State | |
-> ArithOPCode | op |
-> IO () |
Warning: This is an unsafe function, errors will lead to a program crash;consider using hslua_arith instead.
Performs an arithmetic or bitwise operation over the two values (or one, in the case of negations) at the top of the stack, with the value at the top being the second operand, pops these values, and pushes the result of the operation. The function follows the semantics of the corresponding Lua operator (that is, it may call metamethods).
The value of op
must be one of the following constants:
LUA_OPADD
: performs addition (+
)LUA_OPSUB
: performs subtraction (-
)LUA_OPMUL
: performs multiplication (*
)LUA_OPDIV
: performs float division (/
)LUA_OPIDIV
: performs floor division (//
)LUA_OPMOD
: performs modulo (%
)LUA_OPPOW
: performs exponentiation (^
)LUA_OPUNM
: performs mathematical negation (unary-
)LUA_OPBNOT
: performs bitwise NOT (~
)LUA_OPBAND
: performs bitwise AND (&
)LUA_OPBOR
: performs bitwise OR (|
)LUA_OPBXOR
: performs bitwise exclusive OR (~
)LUA_OPSHL
: performs left shift (<<
)LUA_OPSHR
: performs right shift (>>
)
WARNING: lua_arith
is unsafe in Haskell: if the call to a
metamethod triggers an error, then that error cannot be handled and
will lead to an unrecoverable program crash. Consider using the
ersatz function instead. Likewise, the metamethod
may not call a Haskell function unless the library was compiled
without hslua_arith
allow-unsafe-gc
.
Ensures that the stack has space for at least n
extra slots (that
is, that you can safely push up to n
values into it). It returns
false if it cannot fulfill the request, either because it would cause
the stack to be larger than a fixed maximum size (typically at least
several thousand elements) or because it cannot allocate memory for
the extra space. This function never shrinks the stack; if the stack
already has space for the extra slots, it is left unchanged.
lua_close :: State -> IO () Source #
Destroys all objects in the given Lua state (calling the corresponding garbage-collection metamethods, if any) and frees all dynamic memory used by this state. In several platforms, you may not need to call this function, because all resources are naturally released when the host program ends. On the other hand, long-running programs that create multiple states, such as daemons or web servers, will probably need to close states as soon as they are not needed.
Warning: This is an unsafe function, it will cause a program crash ifa metamethod throws an error.Consider using hslua_concat instead.
Concatenates the n
values at the top of the stack, pops them, and
leaves the result at the top. If n
is 1, the result is the single
value on the stack (that is, the function does nothing); if n
is 0,
the result is the empty string. Concatenation is performed following
the usual semantics of Lua (see
§3.4.6 of the Lua
manual).
WARNING: lua_concat
is unsafe in Haskell: This function will
cause an unrecoverable crash an error if any of the concatenated
values causes an error when executing a metamethod. Consider using
the
ersatz function instead.hslua_concat
:: State | |
-> StackIndex | fromidx |
-> StackIndex | toidx |
-> IO () |
Copies the element at index fromidx
into the valid index toidx
,
replacing the value at that position. Values at other positions are
not affected.
Creates a new empty table and pushes it onto the stack. Parameter
narr
is a hint for how many elements the table will have as a
sequence; parameter nrec
is a hint for how many other elements the
table will have. Lua may use these hints to preallocate memory for
the new table. This preallocation is useful for performance when you
know in advance how many elements the table will have. Otherwise you
can use the function lua_newtable
.
Controls the garbage collector.
See the Lua docs at https://www.lua.org/manual/5.3/manual.html#lua_gc.
Warning: This is an unsafe function, errors will lead to a program crash;consider using hslua_getglobal instead.
Pushes onto the stack the value of the global name. Returns the type of that value.
WARNING: lua_getglobal
is unsafe in Haskell: if the call to a
metamethod triggers an error, then that error cannot be handled and
will lead to an unrecoverable program crash. Consider using the
ersatz function instead. Likewise, the
metamethod may not call a Haskell function unless the library was
compiled without hslua_getglobal
allow-unsafe-gc
.
lua_getmetatable :: State -> StackIndex -> IO LuaBool Source #
If the value at the given index has a metatable, the function
pushes that metatable onto the stack and returns 1
. Otherwise, the
function returns 0
and pushes nothing on the stack.
https://www.lua.org/manual/5.3/manual.html#lua_getmetatable.
:: State | |
-> StackIndex | index |
-> IO TypeCode |
Warning: This is an unsafe function, errors will lead to a program crash;consider using hslua_gettable instead.
Pushes onto the stack the value t[k]
, where t
is the value at
the given index and k
is the value at the top of the stack.
This function pops the key from the stack, pushing the resulting value in its place. As in Lua, this function may trigger a metamethod for the "index" event (see §2.4).
Returns the type of the pushed value.
WARNING: lua_gettable
is unsafe in Haskell: if the call to a
metamethod triggers an error, then that error cannot be handled and
will lead to an unrecoverable program crash. Consider using the
ersatz function instead. Likewise, the
metamethod may not call a Haskell function unless the library was
compiled without hslua_gettable
allow-unsafe-gc
.
lua_gettop :: State -> IO StackIndex Source #
Returns the index of the top element in the stack. Because indices start at 1, this result is equal to the number of elements in the stack (and so 0 means an empty stack).
lua_getuservalue :: State -> StackIndex -> IO TypeCode Source #
Pushes onto the stack the Lua value associated with the full userdata at the given index.
Returns the type of the pushed value.
lua_insert :: State -> StackIndex -> IO () Source #
Moves the top element into the given valid index, shifting up the elements above this index to open space. This function cannot be called with a pseudo-index, because a pseudo-index is not an actual stack position.
lua_isboolean :: State -> StackIndex -> IO LuaBool Source #
lua_iscfunction :: State -> StackIndex -> IO LuaBool Source #
lua_isfunction :: State -> StackIndex -> IO LuaBool Source #
lua_isinteger :: State -> StackIndex -> IO LuaBool Source #
lua_islightuserdata :: State -> StackIndex -> IO LuaBool Source #
Returns
if the value at the given index is a
light userdata, and TRUE
otherwise.FALSE
https://www.lua.org/manual/5.3/manual.html#lua_islightuserdata
lua_isnone :: State -> StackIndex -> IO LuaBool Source #
lua_isnoneornil :: State -> StackIndex -> IO LuaBool Source #
lua_isnumber :: State -> StackIndex -> IO LuaBool Source #
lua_isstring :: State -> StackIndex -> IO LuaBool Source #
lua_istable :: State -> StackIndex -> IO LuaBool Source #
lua_isthread :: State -> StackIndex -> IO LuaBool Source #
lua_isuserdata :: State -> StackIndex -> IO LuaBool Source #
Loads a Lua chunk (without running it). If there are no errors,
lua_load
pushes the compiled chunk as a Lua function on top of the
stack. Otherwise, it pushes an error message.
The return values of lua_load
are:
: no errors;LUA_OK
: syntax error during pre-compilation;LUA_ERRSYNTAX
: memory allocation error;LUA_ERRMEM
: error while running aLUA_ERRGCMM
__gc
metamethod. (This error has no relation with the chunk being loaded. It is generated by the garbage collector.)
This function only loads a chunk; it does not run it.
lua_load
automatically detects whether the chunk is text or binary,
and loads it accordingly (see program luac).
The lua_load
function uses a user-supplied reader function to
read the chunk (see
). The data argument is an opaque
value passed to the reader function.Reader
The chunkname
argument gives a name to the chunk, which is used for
error messages and in debug information (see
§4.9).
lua_load
automatically detects whether the chunk is text or binary
and loads it accordingly (see program luac
). The string mode works
as in function load
, with the addition that a NULL
value is
equivalent to the string "bt".
lua_load
uses the stack internally, so the reader function must
always leave the stack unmodified when returning.
lua_newthread :: State -> IO State Source #
Creates a new thread, pushes it on the stack, and returns a
State
that represents this new thread. The new thread returned
by this function shares with the original thread its global
environment, but has an independent execution stack.
There is no explicit function to close or to destroy a thread. Threads are subject to garbage collection, like any Lua object.
lua_newuserdata :: State -> CSize -> IO (Ptr ()) Source #
This function allocates a new block of memory with the given size, pushes onto the stack a new full userdata with the block address, and returns this address. The host program can freely use this memory.
:: State | |
-> StackIndex | index |
-> IO LuaBool |
Warning: This is an unsafe function, it will cause a program crash ifthe given key is neither nil nor present in the table.Consider using hslua_next instead.
Pops a key from the stack, and pushes a key–value pair from the
table at the given index (the "next" pair after the given key). If
there are no more elements in the table, then
lua_next
returns FALSE
(and pushes nothing).
A typical traversal looks like this:
-- table is in the stack at index 't' lua_pushnil l -- first key let loop = lua_next l t >>= \case FALSE -> return () _ -> do lua_type l (-2) >>= lua_typename l >>= peekCString >>= putStrLn lua_type l (-1) >>= lua_typename l >>= peekCString >>= putStrLn -- removes 'value'; keeps 'key' for next iteration lua_pop l 1 loop loop
While traversing a table, do not call lua_tolstring
directly on a
key, unless you know that the key is actually a string. Recall that
lua_tolstring
may change the value at the given index; this
confuses the next call to
lua_next.
See function next for the caveats of modifying the table during its traversal.
WARNING: lua_next
is unsafe in Haskell: This function will
cause an unrecoverable crash an error if the given key is neither
nil
nor present in the table. Consider using the
ersatz function instead.hslua_next
:: State | |
-> NumArgs | nargs |
-> NumResults | nresults |
-> StackIndex | msgh |
-> IO StatusCode |
Calls a function in protected mode.
To call a function you must use the following protocol: first, the
function to be called is pushed onto the stack; then, the arguments
to the function are pushed in direct order; that is, the first
argument is pushed first. Finally you call lua_pcall
; nargs
is
the number of arguments that you pushed onto the stack. All arguments
and the function value are popped from the stack when the function is
called. The function results are pushed onto the stack when the
function returns. The number of results is adjusted to nresults
,
unless nresults
is
. In this case, all
results from the function are pushed. Lua takes care that the
returned values fit into the stack space. The function results are
pushed onto the stack in direct order (the first result is pushed
first), so that after the call the last result is on the top of the
stack.LUA_MULTRET
If there is any error, lua_pcall
catches it, pushes a single value
on the stack (the error message), and returns the error code.
lua_pcall
always removes the function and its arguments from the
stack.
If msgh
is 0
, then the error object returned on the stack is
exactly the original error object. Otherwise, msgh
is the location
of a message handler. (This index cannot be a pseudo-index.) In case
of runtime errors, this function will be called with the error object
and its return value will be the object returned on the stack by
.lua_pcall
Typically, the message handler is used to add more debug information
to the error object, such as a stack traceback. Such information
cannot be gathered after the return of
, since by then
the stack has unwound.lua_pcall
Pops n
elements from the stack.
lua_pushboolean :: State -> LuaBool -> IO () Source #
Pushes a boolean value with the given value onto the stack.
Pushes a new C closure onto the stack.
When a C function is created, it is possible to associate some values
with it, thus creating a C closure (see
§3.4); these values
are then accessible to the function whenever it is called. To
associate values with a C function, first these values should be
pushed onto the stack (when there are multiple values, the first
value is pushed first). Then lua_pushcclosure is called to create and
push the C function onto the stack, with the argument n
telling how
many values should be associated with the function. lua_pushcclosure
also pops these values from the stack.
The maximum value for n
is 255.
https://www.lua.org/manual/5.3/manual.html#lua_pushcclosure.
Pushes a C function onto the stack. This function receives a
pointer to a C function and pushes onto the stack a Lua value of type
function
that, when called, invokes the corresponding C function.
Any function to be callable by Lua must follow the correct protocol
to receive its parameters and return its results (see CFunction
).
https://www.lua.org/manual/5.3/manual.html#lua_pushcfunction.
lua_pushglobaltable :: State -> IO () Source #
Pushes the global environment onto the stack.
https://www.lua.org/manual/5.3/manual.html#lua_pushglobaltable
lua_pushinteger :: State -> Integer -> IO () Source #
Pushes an integer with with the given value onto the stack.
lua_pushlightuserdata :: State -> Ptr a -> IO () Source #
Pushes a light userdata onto the stack.
Userdata represent C values in Lua. A light userdata represents a
pointer, a Ptr ()
(i.e., void*
in C lingo). It is a value (like a
number): you do not create it, it has no individual metatable, and it
is not collected (as it was never created). A light userdata is equal
to "any" light userdata with the same C address.
https://www.lua.org/manual/5.3/manual.html#lua_pushlightuserdata.
Pushes the string pointed to by s
with size len
onto the stack.
Lua makes (or reuses) an internal copy of the given string, so the
memory at s can be freed or reused immediately after the function
returns. The string can contain any binary data, including embedded
zeros.
Returns a pointer to the internal copy of the string.
lua_pushnil :: State -> IO () Source #
Pushes a nil value onto the stack.
lua_pushnumber :: State -> Number -> IO () Source #
Pushes a float with the given value onto the stack.
Pushes the zero-terminated string pointed to by s
onto the stack.
Lua makes (or reuses) an internal copy of the given string, so the
memory at s
can be freed or reused immediately after the function
returns.
Returns a pointer to the internal copy of the string.
If s is NULL, pushes nil and returns NULL.
lua_pushthread :: State -> IO CInt Source #
Pushes the current thread onto the stack. Returns 1
iff this
thread is the main thread of its state.
lua_pushvalue :: State -> StackIndex -> IO () Source #
Pushes a copy of the element at the given index onto the stack.
:: State | |
-> StackIndex | idx1 |
-> StackIndex | idx2 |
-> IO LuaBool |
Returns True
if the two values in indices idx1
and idx2
are
primitively equal (that is, without calling the __eq
metamethod).
Otherwise returns False
. Also returns False
if any of the indices
are not valid.
lua_rawget :: State -> StackIndex -> IO TypeCode Source #
Similar to
, but does a raw access (i.e., without
metamethods).lua_gettable
:: State | |
-> StackIndex | |
-> Integer | n |
-> IO TypeCode |
Pushes onto the stack the value t[n]
, where t
is the table at
the given index. The access is raw, that is, it does not invoke the
__index
metamethod.
lua_rawlen :: State -> StackIndex -> IO CSize Source #
Returns the raw "length" of the value at the given index: for
strings, this is the string length; for tables, this is the result of
the length operator (#
) with no metamethods; for userdata, this is
the size of the block of memory allocated for the userdata; for other
values, it is 0.
lua_rawset :: State -> StackIndex -> IO () Source #
Similar to
, but does a raw assignment (i.e.,
without metamethods).lua_settable
lua_rawseti :: State -> StackIndex -> Integer -> IO () Source #
Does the equivalent of t[i] = v
, where t
is the table at the
given index and v
is the value at the top of the stack.
This function pops the value from the stack. The assignment is raw,
that is, it does not invoke the __newindex
metamethod.
lua_remove :: State -> StackIndex -> IO () Source #
Removes the element at the given valid index, shifting down the elements above this index to fill the gap. This function cannot be called with a pseudo-index, because a pseudo-index is not an actual stack position.
lua_replace :: State -> StackIndex -> IO () Source #
Moves the top element into the given valid index without shifting any element (therefore replacing the value at that given index), and then pops the top element.
:: State | |
-> StackIndex | idx |
-> CInt | n |
-> IO () |
Rotates the stack elements between the valid index idx
and the
top of the stack. The elements are rotated n
positions in the
direction of the top, for a positive n
, or -n
positions in the
direction of the bottom, for a negative n
. The absolute value of
n
must not be greater than the size of the slice being rotated.
This function cannot be called with a pseudo-index, because a
pseudo-index is not an actual stack position.
Warning: This is an unsafe function, errors will lead to a program crash;consider using hslua_getglobal instead.
Pops a value from the stack and sets it as the new value of global
name
.
WARNING: lua_setglobal
is unsafe in Haskell: if the call to a
metamethod triggers an error, then that error cannot be handled and
will lead to an unrecoverable program crash. Consider using the
ersatz function instead. Likewise,
the global metamethod may not call a Haskell function unless the
library was compiled without hslua_setglobal
allow-unsafe-gc
.
lua_setmetatable :: State -> StackIndex -> IO () Source #
Pops a table from the stack and sets it as the new metatable for the value at the given index.
https://www.lua.org/manual/5.3/manual.html#lua_setmetatable.
:: State | |
-> StackIndex | index |
-> IO () |
Warning: This is an unsafe function, errors will lead to a program crash;consider using hslua_settable instead.
Does the equivalent to t[k] = v
, where t
is the value at the
given index, v
is the value at the top of the stack, and k
is the
value just below the top.
This function pops both the key and the value from the stack. As in Lua, this function may trigger a metamethod for the "newindex" event (see §2.4).
WARNING: lua_settable
is unsafe in Haskell: if the call to a
metamethod triggers an error, then that error cannot be handled and
will lead to an unrecoverable program crash. Consider using the
ersatz function instead. Likewise, the
metamethod may not call a Haskell function unless the library was
compiled without hslua_settable
allow-unsafe-gc
.
:: State | |
-> StackIndex | index |
-> IO () |
Accepts any index, or 0, and sets the stack top to this index. If
the new top is larger than the old one, then the new elements are
filled with *nil*. If index
is 0, then all stack elements are
removed.
lua_setuservalue :: State -> StackIndex -> IO () Source #
Pops a value from the stack and sets it as the new value associated to the full userdata at the given index.
lua_status :: State -> IO StatusCode Source #
Returns the status of this Lua thread.
The status can be
for a normal thread, an
error value if the thread finished the execution of a LUA_OK
lua_resume
with an error, or
if the thread is
suspended.LUA_YIELD
You can only call functions in threads with status
. You can resume threads with status
LUA_OK
(to start a new coroutine) or
LUA_OK
(to resume a coroutine).LUA_YIELD
lua_stringtonumber :: State -> CString -> IO CSize Source #
Converts the zero-terminated string s
to a number, pushes that
number into the stack, and returns the total size of the string, that
is, its length plus one. The conversion can result in an integer or a
float, according to the lexical conventions of Lua (see
§3.1). The string
may have leading and trailing spaces and a sign. If the string is not
a valid numeral, returns 0 and pushes nothing. (Note that the result
can be used as a boolean, true if the conversion succeeds.)
https://www.lua.org/manual/5.3/manual.html#lua_stringtonumber.
lua_toboolean :: State -> StackIndex -> IO LuaBool Source #
Converts the Lua value at the given index to a haskell boolean
value. Like all tests in Lua, toboolean
returns True
for any Lua
value different from *false* and *nil*; otherwise it returns False
.
(If you want to accept only actual boolean values, use
to test the value's type.)lua_isboolean
lua_tocfunction :: State -> StackIndex -> IO CFunction Source #
Converts a value at the given index to a C function. That value
must be a C function; otherwise, returns Nothing
.
Converts the Lua value at the given acceptable index to the signed
integral type Integer
. The Lua value must be an integer, a
number, or a string convertible to an integer (see
§3.4.3 of the Lua
5.3 Reference Manual); otherwise, lua_tointegerx
returns 0
.
If the number is not an integer, it is truncated in some non-specified way.
If isnum
is not NULL
, its referent is assigned a boolean value
that indicates whether the operation succeeded.
Converts the Lua value at the given index to a C string. If len
is not NULL
, it sets the referent with the string length. The Lua
value must be a string or a number; otherwise, the function returns
NULL
. If the value is a number, then lua_tolstring
also changes
the actual value in the stack to a string. (This change confuses
lua_next
when lua_tolstring
is applied to keys during a table
traversal.)
lua_tolstring
returns a pointer to a string inside the Lua state.
This string always has a zero ('0') after its last character (as in
C), but can contain other zeros in its body.
Because Lua has garbage collection, there is no guarantee that the
pointer returned by lua_tolstring
will be valid after the
corresponding Lua value is removed from the stack.
Converts the Lua value at the given index to the C type lua_Number (see lua_Number). The Lua value must be a number or a string convertible to a number (see §3.4.3); otherwise, lua_tonumberx returns 0.
If isnum
is not NULL
, its referent is assigned a boolean value
that indicates whether the operation succeeded.
lua_topointer :: State -> StackIndex -> IO (Ptr ()) Source #
Converts the value at the given index to a generic C pointer
(void*
). The value can be a userdata, a table, a thread, or a
function; otherwise, lua_topointer
returns
. Different
objects will give different pointers. There is no way to convert the
pointer back to its original value.nullPtr
Typically this function is used only for hashing and debug information.
lua_tothread :: State -> StackIndex -> IO State Source #
lua_touserdata :: State -> StackIndex -> IO (Ptr a) Source #
If the value at the given index is a full userdata, returns its
block address. If the value is a light userdata, returns its pointer.
Otherwise, returns
.nullPtr
lua_type :: State -> StackIndex -> IO TypeCode Source #
Returns the type of the value in the given valid index, or
for a non-valid (but acceptable) index.LUA_TNONE
Returns the name of the type encoded by the value tp
, which must
be one the values returned by
.lua_type
lua_version :: State -> IO (Ptr Number) Source #
Returns the address of the version number (a C static variable)
stored in the Lua core. When called with a valid State
, returns
the address of the version used to create that state. When called
with NULL
, returns the address of the version running the call.
module Lua.Ersatz.Functions
module Lua.Ersatz.Auxiliary