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mirror of https://github.com/VCMP-SqMod/SqMod.git synced 2024-11-09 01:07:16 +01:00
SqMod/source/Misc/Signal.cpp

1058 lines
30 KiB
C++

// ------------------------------------------------------------------------------------------------
#include "Misc/Signal.hpp"
// ------------------------------------------------------------------------------------------------
namespace SqMod {
// ------------------------------------------------------------------------------------------------
SQMODE_DECL_TYPENAME(Typename, _SC("SqSignalWrapper"))
// ------------------------------------------------------------------------------------------------
Signal::SignalContainer Signal::s_Signals;
Signal::FreeSignals Signal::s_FreeSignals;
// ------------------------------------------------------------------------------------------------
void Signal::Terminate()
{
// Terminate named signals
for (const auto & s : s_Signals)
{
// Clear slots
s.second.mPtr->Clear();
// Release the name
s.second.mPtr->m_Name.clear();
// Release whatever is in the user data
s.second.mPtr->m_Data.Release();
}
// Finally clear the container itself
s_Signals.clear();
// Create a copy so we don't invalidate iterators when destructor removes the instances
FreeSignals fsig(s_FreeSignals);
// Terminate anonymous signals
for (const auto & s : fsig)
{
// Clear slots
s->Clear();
// Release whatever is in the user data
s->m_Data.Release();
}
// Finally clear the container itself
s_FreeSignals.clear();
}
// ------------------------------------------------------------------------------------------------
Object Signal::Create()
{
// Remember the current stack size
const StackGuard sg;
// Create the signal instance
DeleteGuard< Signal > dg(new Signal());
// Attempt to create the signal instance
ClassType< Signal >::PushInstance(DefaultVM::Get(), dg.Get());
// This is now managed by the script
dg.Release();
// Return the created signal
return Var< Object >(DefaultVM::Get(), -1).value;
}
// ------------------------------------------------------------------------------------------------
Object Signal::Create(String name)
{
// Validate the signal name
if (name.empty())
{
STHROWF("Empty signal names are not allowed");
}
// Compute the hash of the specified name
const std::size_t hash = std::hash< String >{}(name);
// See if the signal already exists
for (const auto & e : s_Signals)
{
if (e.first == hash)
{
return e.second.mObj; // Found a match so let's return it
}
}
// Remember the current stack size
const StackGuard sg;
// Create the signal instance
DeleteGuard< Signal > dg(new Signal(std::move(name)));
// Grab the signal instance pointer
Signal * ptr = dg.Get();
// Attempt to create the signal instance
ClassType< Signal >::PushInstance(DefaultVM::Get(), ptr);
// This is now managed by the script
dg.Release();
// Grab a reference to the instance created on the stack
s_Signals.emplace_back(hash, SignalReference(ptr, Var< Object >(DefaultVM::Get(), -1).value));
// Return the created signal
return s_Signals.back().second.mObj;
}
// ------------------------------------------------------------------------------------------------
void Signal::Remove(String name)
{
// Validate the signal name
if (name.empty())
{
STHROWF("Empty signal names are not allowed");
}
// Compute the hash of the specified name
const std::size_t hash = std::hash< String >{}(name);
// Iterator to the existing signal, if any
SignalContainer::const_iterator itr = s_Signals.cbegin();
// Search for a signal with this name
for (; itr != s_Signals.cend(); ++itr)
{
if (itr->first == hash)
{
break;
}
}
// Did we find anything?
if (itr != s_Signals.cend())
{
// Clear the name
itr->second.mPtr->m_Name.clear();
// Put it on the free list
s_FreeSignals.push_back(itr->second.mPtr);
// Finally, remove it from the named list
s_Signals.erase(itr);
}
}
// ------------------------------------------------------------------------------------------------
Object Signal::Fetch(String name)
{
// Validate the signal name
if (name.empty())
{
STHROWF("Empty signal names are not allowed");
}
// Compute the hash of the specified name
const std::size_t hash = std::hash< String >{}(name);
// Search for a signal with this name
for (const auto & e : s_Signals)
{
if (e.first == hash)
{
return e.second.mObj; // Found a match so let's return it
}
}
// No such signal exists
STHROWF("Unknown signal named (%s)", name.c_str());
// SHOULD NOT REACH THIS POINT!
return NullObject();
}
// ------------------------------------------------------------------------------------------------
Signal::Signal()
: m_Head(nullptr), m_Data(), m_Name()
{
s_FreeSignals.push_back(this);
}
// ------------------------------------------------------------------------------------------------
Signal::Signal(const CSStr name)
: Signal(String(name ? name : _SC("")))
{
/* ... */
}
// ------------------------------------------------------------------------------------------------
Signal::Signal(const String & name)
: Signal(String(name))
{
/* ... */
}
// ------------------------------------------------------------------------------------------------
Signal::Signal(String && name)
: m_Head(nullptr), m_Data(), m_Name(std::move(name))
{
if (m_Name.empty())
{
s_FreeSignals.push_back(this);
}
}
// ------------------------------------------------------------------------------------------------
Signal::~Signal()
{
Clear();
if (m_Name.empty())
{
s_FreeSignals.erase(std::remove(s_FreeSignals.begin(), s_FreeSignals.end(), this),
s_FreeSignals.end());
}
}
// ------------------------------------------------------------------------------------------------
SQInteger Signal::Count() const
{
// Don't attempt to count anything if there's no head
if (m_Head == nullptr)
{
return 0;
}
// Final count
Uint32 count = 0;
// Walk down the chain and count all nodes
for (Slot * node = m_Head; node != nullptr; node = node->mNext)
{
++count;
}
// Return the count
return count;
}
// ------------------------------------------------------------------------------------------------
void Signal::Clear()
{
// Don't attempt to clear anything if there's no head
if (m_Head == nullptr)
{
return;
}
// Walk down the chain and delete all nodes
for (Slot * node = m_Head, * next = nullptr; node != nullptr; node = next)
{
// Grab the next node upfront
next = node->mNext;
// Delete the node instance
delete node;
}
// Reset the head
m_Head = nullptr;
}
// ------------------------------------------------------------------------------------------------
void Signal::Connect(Object & env, Function & func)
{
// Don't attempt to search anything if there's no head
if (m_Head == nullptr)
{
m_Head = new Slot(env, func, nullptr);
// We're done here
return;
}
const Slot slot{env, func};
// Don't attempt to search anything if there's only one element
if (m_Head->mNext == nullptr)
{
// Is it already inserted?
if (*m_Head != slot)
{
m_Head = new Slot(env, func, m_Head);
}
// We're done here
return;
}
// Walk down the chain and find an already matching node
for (Slot * node = m_Head; node != nullptr; node = node->mNext)
{
if (*node == slot)
{
return; // Already connected
}
}
// Connect now
m_Head = new Slot(env, func, m_Head);
}
// ------------------------------------------------------------------------------------------------
bool Signal::Connected(Object & env, Function & func) const
{
// Don't attempt to search anything if there's no head
if (m_Head == nullptr)
{
return false;
}
const Slot slot{env, func};
// Walk down the chain and find a matching node
for (Slot * node = m_Head; node != nullptr; node = node->mNext)
{
if (*node == slot)
{
return true; // Found it
}
}
// No such slot exists
return false;
}
// ------------------------------------------------------------------------------------------------
void Signal::Disconnect(Object & env, Function & func)
{
// Don't attempt to search anything if there's no head
if (m_Head == nullptr)
{
return;
}
const Slot slot{env, func};
// Walk down the chain and remove the matching nodes
for (Slot * node = m_Head, * next = nullptr; node != nullptr; node = next)
{
// Grab the next node upfront
next = node->mNext;
// Is this our node?
if (*node == slot)
{
// Is this the head?
if (node == m_Head)
{
m_Head = next; // Move the head to the next one
}
// Detach it from the chain
node->Detach();
// Delete the node instance
delete node;
}
}
}
// ------------------------------------------------------------------------------------------------
void Signal::DisconnectThis(Object & env)
{
// Don't attempt to search anything if there's no head
if (m_Head == nullptr)
{
return;
}
const SQHash hash = Slot{env, NullFunction()}.mEnvHash;
// Walk down the chain and remove the matching nodes
for (Slot * node = m_Head, * next = nullptr; node != nullptr; node = next)
{
// Grab the next node upfront
next = node->mNext;
// Is this our node?
if (node->mEnvHash == hash)
{
// Is this the head?
if (node == m_Head)
{
m_Head = next; // Move the head to the next one
}
// Detach it from the chain
node->Detach();
// Delete the node instance
delete node;
}
}
}
// ------------------------------------------------------------------------------------------------
void Signal::DisconnectFunc(Function & func)
{
// Don't attempt to search anything if there's no head
if (m_Head == nullptr)
{
return;
}
const SQHash hash = Slot{NullObject(), func}.mFuncHash;
// Walk down the chain and remove the matching nodes
for (Slot * node = m_Head, * next = nullptr; node != nullptr; node = next)
{
// Grab the next node upfront
next = node->mNext;
// Is this our node?
if (node->mFuncHash == hash)
{
// Is this the head?
if (node == m_Head)
{
m_Head = next; // Move the head to the next one
}
// Detach it from the chain
node->Detach();
// Delete the node instance
delete node;
}
}
}
// ------------------------------------------------------------------------------------------------
Uint32 Signal::CountThis(Object & env) const
{
// Don't attempt to count anything if there's no head
if (m_Head == nullptr)
{
return 0;
}
const SQHash hash = Slot{env, NullFunction()}.mEnvHash;
// Final count
Uint32 count = 0;
// Walk down the chain and count the matching nodes
for (Slot * node = m_Head; node != nullptr; node = node->mNext)
{
// Is this our node?
if (node->mEnvHash == hash)
{
++count;
}
}
// Return the count
return count;
}
// ------------------------------------------------------------------------------------------------
Uint32 Signal::CountFunc(Function & func) const
{
// Don't attempt to count anything if there's no head
if (m_Head == nullptr)
{
return 0;
}
const SQHash hash = Slot{NullObject(), func}.mFuncHash;
// Final count
Uint32 count = 0;
// Walk down the chain and count the matching nodes
for (Slot * node = m_Head; node != nullptr; node = node->mNext)
{
// Is this our node?
if (node->mFuncHash == hash)
{
++count;
}
}
// Return the count
return count;
}
// ------------------------------------------------------------------------------------------------
void Signal::Head(Object & env, Function & func)
{
// Don't attempt to search anything if there's no head
if (m_Head == nullptr)
{
m_Head = new Slot(env, func, nullptr);
// We're done here
return;
}
const Slot slot{env, func};
// Don't attempt to search anything if there's only one element
if (m_Head->mNext == nullptr)
{
// Is it already inserted?
if (*m_Head != slot)
{
m_Head = new Slot(env, func, m_Head);
}
// We're done here
return;
}
// Grab the head node
Slot * node = m_Head;
// Walk down the chain and find a matching node
for (; node != nullptr; node = node->mNext)
{
if (*node == slot)
{
break; // Found it
}
}
// Have we found anything?
if (node == nullptr)
{
m_Head = new Slot(env, func, m_Head); // Lead everyone
}
// Is it the head already?
else if (m_Head != node)
{
node->AttachNext(m_Head);
// We're the head now
m_Head = node;
}
}
// ------------------------------------------------------------------------------------------------
void Signal::Tail(Object & env, Function & func)
{
// Don't attempt to search anything if there's no head
if (m_Head == nullptr)
{
m_Head = new Slot(env, func, nullptr);
// We're done here
return;
}
const Slot slot{env, func};
// Don't attempt to search anything if there's only one element
if (m_Head->mNext == nullptr)
{
// Is it already inserted?
if (*m_Head != slot)
{
m_Head->mNext = new Slot(env, func, nullptr);
// Link with the head
m_Head->mNext->mPrev = m_Head;
}
// We're done here
return;
}
// Grab the head node
Slot * node = m_Head, * prev = nullptr;
// Walk down the chain and find a matching node
for (; node != nullptr; prev = node, node = node->mNext)
{
if (*node == slot)
{
break; // Found it
}
}
// Have we found anything?
if (node == nullptr)
{
// Create the slot now
node = new Slot(env, func, nullptr);
}
else
{
// Walk down the chain until the end
while (prev->mNext != nullptr)
{
prev = prev->mNext;
}
// Finally, detach the node from it's current position
node->Detach();
}
// Knowing 'prev' points to last element
node->AttachPrev(prev);
}
// ------------------------------------------------------------------------------------------------
SQInteger Signal::SqEmit(HSQUIRRELVM vm)
{
const Int32 top = sq_gettop(vm);
// The signal instance
Signal * signal = nullptr;
// Attempt to extract the signal instance
try
{
signal = Var< Signal * >(vm, 1).value;
}
catch (const Sqrat::Exception & e)
{
return sq_throwerror(vm, e.what());
}
// Do we have a valid signal instance?
if (!signal)
{
return sq_throwerror(vm, "Invalid signal instance");
}
// Walk down the chain and trigger slots
for (Slot * node = signal->m_Head, * next = nullptr; node != nullptr; node = next)
{
// Grab the next node upfront
next = node->mNext;
// Remember the current stack size
const StackGuard sg(vm);
// Push the callback object
sq_pushobject(vm, node->mFuncRef);
// Is there an explicit environment?
if (sq_isnull(node->mEnvRef))
{
sq_pushroottable(vm);
}
else
{
sq_pushobject(vm, node->mEnvRef);
}
// Are there any parameters to forward?
if (top > 1)
{
for (SQInteger i = 2; i <= top; ++i)
{
sq_push(vm, i);
}
}
// Make the function call and store the result
const SQRESULT res = sq_call(vm, top, false, ErrorHandling::IsEnabled());
// Validate the result
if (SQ_FAILED(res))
{
return res; // Propagate the error
}
}
// Specify that we don't return anything
return 0;
}
// ------------------------------------------------------------------------------------------------
SQInteger Signal::SqQuery(HSQUIRRELVM vm)
{
const Int32 top = sq_gettop(vm);
// Do we have the collector environment?
if (top <= 1)
{
return sq_throwerror(vm, "Missing collector environment");
}
// Do we have the collector function?
else if (top <= 2)
{
return sq_throwerror(vm, "Missing collector callback");
}
// The signal instance
Signal * signal = nullptr;
// Attempt to extract the signal instance and collector
try
{
signal = Var< Signal * >(vm, 1).value;
}
catch (const Sqrat::Exception & e)
{
return sq_throwerror(vm, e.what());
}
// Do we have a valid signal instance?
if (!signal)
{
return sq_throwerror(vm, "Invalid signal instance");
}
// The collector
HSQOBJECT cenv, cfunc;
// Grab the collector environment
SQRESULT res = sq_getstackobj(vm, 2, &cenv);
// Validate the result
if (SQ_FAILED(res))
{
return res; // Propagate the error
}
// Was there a valid environment?
else if (sq_isnull(cenv))
{
// Remember the current stack size
const StackGuard sg(vm);
// Default to the root table
sq_pushroottable(vm);
// Try to grab the collector environment again
SQRESULT res = sq_getstackobj(vm, -1, &cenv);
// Validate the result
if (SQ_FAILED(res))
{
return res; // Propagate the error
}
}
// Grab the collector function
res = sq_getstackobj(vm, 3, &cfunc);
// Validate the result
if (SQ_FAILED(res))
{
return res; // Propagate the error
}
// Some dummy checks to make sure the collector is a callable object
else if (!sq_isfunction(cfunc) && !sq_isclosure(cfunc) && !sq_isnativeclosure(cfunc))
{
return sq_throwerror(vm, "Invalid collector");
}
// Walk down the chain and trigger slots
for (Slot * node = signal->m_Head, * next = nullptr; node != nullptr; node = next)
{
// Grab the next node upfront
next = node->mNext;
// Remember the current stack size
const StackGuard sg(vm);
// Push the callback object
sq_pushobject(vm, node->mFuncRef);
// Is there an explicit environment?
if (sq_isnull(node->mEnvRef))
{
sq_pushroottable(vm);
}
else
{
sq_pushobject(vm, node->mEnvRef);
}
// Are there any parameters to forward?
if (top > 3)
{
for (SQInteger i = 4; i <= top; ++i)
{
sq_push(vm, i);
}
}
// Make the function call and store the result
res = sq_call(vm, top - 2, true, ErrorHandling::IsEnabled());
// Validate the result
if (SQ_FAILED(res))
{
return res; // Propagate the error
}
// Push the collector onto the stack
sq_pushobject(vm, cfunc);
sq_pushobject(vm, cenv);
// Push the returned value
sq_push(vm, -3);
// Make the function call and store the result
res = sq_call(vm, 2, false, ErrorHandling::IsEnabled());
// Validate the result
if (SQ_FAILED(res))
{
return res; // Propagate the error
}
}
// Specify that we don't return anything
return 0;
}
// ------------------------------------------------------------------------------------------------
SQInteger Signal::SqConsume(HSQUIRRELVM vm)
{
const Int32 top = sq_gettop(vm);
// The signal instance
Signal * signal = nullptr;
// Attempt to extract the signal instance
try
{
signal = Var< Signal * >(vm, 1).value;
}
catch (const Sqrat::Exception & e)
{
return sq_throwerror(vm, e.what());
}
// Do we have a valid signal instance?
if (!signal)
{
return sq_throwerror(vm, "Invalid signal instance");
}
// Default to not consumed
SQBool ret = SQFalse;
// Walk down the chain and trigger slots
for (Slot * node = signal->m_Head, * next = nullptr; node != nullptr; node = next)
{
// Grab the next node upfront
next = node->mNext;
// Remember the current stack size
const StackGuard sg(vm);
// Push the callback object
sq_pushobject(vm, node->mFuncRef);
// Is there an explicit environment?
if (sq_isnull(node->mEnvRef))
{
sq_pushroottable(vm);
}
else
{
sq_pushobject(vm, node->mEnvRef);
}
// Are there any parameters to forward?
if (top > 1)
{
for (SQInteger i = 2; i <= top; ++i)
{
sq_push(vm, i);
}
}
// Make the function call and store the result
const SQRESULT res = sq_call(vm, top, true, ErrorHandling::IsEnabled());
// Validate the result
if (SQ_FAILED(res))
{
return res; // Propagate the error
}
// Is the returned value not null?
else if (sq_gettype(vm, -1) != OT_NULL)
{
// Obtain the returned value
sq_tobool(vm, -1, &ret);
// Should we proceed to the next slot or stop here?
if (ret == SQTrue)
{
break; // The slot consumed the signal
}
}
}
// Forward the returned value to the invoker
sq_pushbool(vm, ret);
// Specify that we returned something
return 1;
}
// ------------------------------------------------------------------------------------------------
SQInteger Signal::SqApprove(HSQUIRRELVM vm)
{
const Int32 top = sq_gettop(vm);
// The signal instance
Signal * signal = nullptr;
// Attempt to extract the signal instance
try
{
signal = Var< Signal * >(vm, 1).value;
}
catch (const Sqrat::Exception & e)
{
return sq_throwerror(vm, e.what());
}
// Do we have a valid signal instance?
if (!signal)
{
return sq_throwerror(vm, "Invalid signal instance");
}
// Default to approved
SQBool ret = SQTrue;
// Walk down the chain and trigger slots
for (Slot * node = signal->m_Head, * next = nullptr; node != nullptr; node = next)
{
// Grab the next node upfront
next = node->mNext;
// Remember the current stack size
const StackGuard sg(vm);
// Push the callback object
sq_pushobject(vm, node->mFuncRef);
// Is there an explicit environment?
if (sq_isnull(node->mEnvRef))
{
sq_pushroottable(vm);
}
else
{
sq_pushobject(vm, node->mEnvRef);
}
// Are there any parameters to forward?
if (top > 1)
{
for (SQInteger i = 2; i <= top; ++i)
{
sq_push(vm, i);
}
}
// Make the function call and store the result
const SQRESULT res = sq_call(vm, top, true, ErrorHandling::IsEnabled());
// Validate the result
if (SQ_FAILED(res))
{
return res; // Propagate the error
}
// Is the returned value not null?
else if (sq_gettype(vm, -1) != OT_NULL)
{
// Obtain the returned value
sq_tobool(vm, -1, &ret);
// Should we proceed to the next slot or stop here?
if (ret == SQFalse)
{
break; // The slot did not approve the signal
}
}
}
// Forward the returned value to the invoker
sq_pushbool(vm, ret);
// Specify that we returned something
return 1;
}
// ------------------------------------------------------------------------------------------------
SQInteger Signal::SqRequest(HSQUIRRELVM vm)
{
const Int32 top = sq_gettop(vm);
// The signal instance
Signal * signal = nullptr;
// Attempt to extract the signal instance
try
{
signal = Var< Signal * >(vm, 1).value;
}
catch (const Sqrat::Exception & e)
{
return sq_throwerror(vm, e.what());
}
// Do we have a valid signal instance?
if (!signal)
{
return sq_throwerror(vm, "Invalid signal instance");
}
// Walk down the chain and trigger slots
for (Slot * node = signal->m_Head, * next = nullptr; node != nullptr; node = next)
{
// Grab the next node upfront
next = node->mNext;
// Remember the current stack size
const StackGuard sg(vm);
// Push the callback object
sq_pushobject(vm, node->mFuncRef);
// Is there an explicit environment?
if (sq_isnull(node->mEnvRef))
{
sq_pushroottable(vm);
}
else
{
sq_pushobject(vm, node->mEnvRef);
}
// Are there any parameters to forward?
if (top > 1)
{
for (SQInteger i = 2; i <= top; ++i)
{
sq_push(vm, i);
}
}
// Make the function call and store the result
const SQRESULT res = sq_call(vm, top, true, ErrorHandling::IsEnabled());
// Validate the result
if (SQ_FAILED(res))
{
return res; // Propagate the error
}
// Is the returned value not null?
else if (sq_gettype(vm, -1) != OT_NULL)
{
// Push back the returned value
sq_push(vm, -1);
// Specify that we returned something
return 1;
}
}
// Specify that we returned nothing
return 0;
}
// ------------------------------------------------------------------------------------------------
static SQInteger SqCreateSignal(HSQUIRRELVM vm)
{
const Int32 top = sq_gettop(vm);
// Was the signal name specified?
if (top <= 1)
{
sq_pushobject(DefaultVM::Get(), Signal::Create());
}
else
{
// Attempt to generate the string value
StackStrF val(vm, 2);
// Have we failed to retrieve the string?
if (SQ_FAILED(val.mRes))
{
return val.mRes; // Propagate the error!
}
// Create the signal instance and push it on the stack
try
{
sq_pushobject(DefaultVM::Get(), Signal::Create(String(val.mPtr, val.mLen)));
}
catch (const Sqrat::Exception & e)
{
return sq_throwerror(vm, e.what());
}
}
// We have an argument on the stack
return 1;
}
// ------------------------------------------------------------------------------------------------
static SQInteger SqRemoveSignal(HSQUIRRELVM vm)
{
const Int32 top = sq_gettop(vm);
// Was the signal name specified?
if (top <= 1)
{
return sq_throwerror(vm, "Missing signal name");
}
// Attempt to generate the string value
StackStrF val(vm, 2);
// Have we failed to retrieve the string?
if (SQ_FAILED(val.mRes))
{
return val.mRes; // Propagate the error!
}
// Create the signal instance and push it on the stack
try
{
Signal::Remove(String(val.mPtr, val.mLen));
}
catch (const Sqrat::Exception & e)
{
return sq_throwerror(vm, e.what());
}
// We have an argument on the stack
return 1;
}
// ------------------------------------------------------------------------------------------------
static SQInteger SqFetchSignal(HSQUIRRELVM vm)
{
const Int32 top = sq_gettop(vm);
// Was the signal name specified?
if (top <= 1)
{
return sq_throwerror(vm, "Missing signal name");
}
// Attempt to generate the string value
StackStrF val(vm, 2);
// Have we failed to retrieve the string?
if (SQ_FAILED(val.mRes))
{
return val.mRes; // Propagate the error!
}
// Create the signal instance and push it on the stack
try
{
sq_pushobject(DefaultVM::Get(), Signal::Fetch(String(val.mPtr, val.mLen)));
}
catch (const Sqrat::Exception & e)
{
return sq_throwerror(vm, e.what());
}
// We have an argument on the stack
return 1;
}
// ================================================================================================
void Register_Signal(HSQUIRRELVM vm)
{
RootTable(vm).Bind(Typename::Str,
Class< Signal, NoConstructor< Signal > >(vm, Typename::Str)
// Meta-methods
.SquirrelFunc(_SC("_typename"), &Typename::Fn)
.Func(_SC("_tostring"), &Signal::ToString)
// Core Properties
.Prop(_SC("Data"), &Signal::GetData, &Signal::SetData)
.Prop(_SC("Slots"), &Signal::Count)
// Core Methods
.Func(_SC("Clear"), &Signal::Clear)
.Func(_SC("Connect"), &Signal::Connect)
.Func(_SC("Connected"), &Signal::Connected)
.Func(_SC("Disconnect"), &Signal::Disconnect)
.Func(_SC("EliminateThis"), &Signal::DisconnectThis)
.Func(_SC("EliminateFunc"), &Signal::DisconnectFunc)
.Func(_SC("CountThis"), &Signal::CountThis)
.Func(_SC("CountFunc"), &Signal::CountFunc)
.Func(_SC("Head"), &Signal::Head)
.Func(_SC("Tail"), &Signal::Tail)
// Squirrel Functions
.SquirrelFunc(_SC("Emit"), &Signal::SqEmit)
.SquirrelFunc(_SC("Broadcast"), &Signal::SqEmit)
.SquirrelFunc(_SC("Query"), &Signal::SqQuery)
.SquirrelFunc(_SC("Consume"), &Signal::SqConsume)
.SquirrelFunc(_SC("Approve"), &Signal::SqApprove)
.SquirrelFunc(_SC("Request"), &Signal::SqRequest)
);
RootTable(vm)
.SquirrelFunc(_SC("SqSignal"), &SqFetchSignal)
.SquirrelFunc(_SC("SqCreateSignal"), &SqCreateSignal)
.SquirrelFunc(_SC("SqRemoveSignal"), &SqRemoveSignal);
}
/* ------------------------------------------------------------------------------------------------
* Forward the call to terminate the signals.
*/
void TerminateSignals()
{
Signal::Terminate();
}
} // Namespace:: SqMod