#include "Base.h" #include "ScriptController.h" #include "lua_ParticleEmitter.h" #include "Base.h" #include "Game.h" #include "Node.h" #include "ParticleEmitter.h" #include "Properties.h" #include "Quaternion.h" #include "Ref.h" #include "Scene.h" #include "lua_ParticleEmitterTextureBlending.h" namespace gameplay { void luaRegister_ParticleEmitter() { const luaL_Reg lua_members[] = { {"addRef", lua_ParticleEmitter_addRef}, {"draw", lua_ParticleEmitter_draw}, {"emitOnce", lua_ParticleEmitter_emitOnce}, {"getAcceleration", lua_ParticleEmitter_getAcceleration}, {"getAccelerationVariance", lua_ParticleEmitter_getAccelerationVariance}, {"getColorEnd", lua_ParticleEmitter_getColorEnd}, {"getColorEndVariance", lua_ParticleEmitter_getColorEndVariance}, {"getColorStart", lua_ParticleEmitter_getColorStart}, {"getColorStartVariance", lua_ParticleEmitter_getColorStartVariance}, {"getEmissionRate", lua_ParticleEmitter_getEmissionRate}, {"getEnergyMax", lua_ParticleEmitter_getEnergyMax}, {"getEnergyMin", lua_ParticleEmitter_getEnergyMin}, {"getNode", lua_ParticleEmitter_getNode}, {"getParticlesCount", lua_ParticleEmitter_getParticlesCount}, {"getPosition", lua_ParticleEmitter_getPosition}, {"getPositionVariance", lua_ParticleEmitter_getPositionVariance}, {"getRefCount", lua_ParticleEmitter_getRefCount}, {"getRotationAxis", lua_ParticleEmitter_getRotationAxis}, {"getRotationAxisVariance", lua_ParticleEmitter_getRotationAxisVariance}, {"getRotationPerParticleSpeedMax", lua_ParticleEmitter_getRotationPerParticleSpeedMax}, {"getRotationPerParticleSpeedMin", lua_ParticleEmitter_getRotationPerParticleSpeedMin}, {"getRotationSpeedMax", lua_ParticleEmitter_getRotationSpeedMax}, {"getRotationSpeedMin", lua_ParticleEmitter_getRotationSpeedMin}, {"getSizeEndMax", lua_ParticleEmitter_getSizeEndMax}, {"getSizeEndMin", lua_ParticleEmitter_getSizeEndMin}, {"getSizeStartMax", lua_ParticleEmitter_getSizeStartMax}, {"getSizeStartMin", lua_ParticleEmitter_getSizeStartMin}, {"getSpriteFrameDuration", lua_ParticleEmitter_getSpriteFrameDuration}, {"getSpriteFrameRandomOffset", lua_ParticleEmitter_getSpriteFrameRandomOffset}, {"getVelocity", lua_ParticleEmitter_getVelocity}, {"getVelocityVariance", lua_ParticleEmitter_getVelocityVariance}, {"isActive", lua_ParticleEmitter_isActive}, {"isEllipsoid", lua_ParticleEmitter_isEllipsoid}, {"isSpriteAnimated", lua_ParticleEmitter_isSpriteAnimated}, {"isSpriteLooped", lua_ParticleEmitter_isSpriteLooped}, {"isStarted", lua_ParticleEmitter_isStarted}, {"release", lua_ParticleEmitter_release}, {"setAcceleration", lua_ParticleEmitter_setAcceleration}, {"setColor", lua_ParticleEmitter_setColor}, {"setEllipsoid", lua_ParticleEmitter_setEllipsoid}, {"setEmissionRate", lua_ParticleEmitter_setEmissionRate}, {"setEnergy", lua_ParticleEmitter_setEnergy}, {"setOrbit", lua_ParticleEmitter_setOrbit}, {"setPosition", lua_ParticleEmitter_setPosition}, {"setRotation", lua_ParticleEmitter_setRotation}, {"setRotationPerParticle", lua_ParticleEmitter_setRotationPerParticle}, {"setSize", lua_ParticleEmitter_setSize}, {"setSpriteAnimated", lua_ParticleEmitter_setSpriteAnimated}, {"setSpriteFrameCoords", lua_ParticleEmitter_setSpriteFrameCoords}, {"setSpriteFrameDuration", lua_ParticleEmitter_setSpriteFrameDuration}, {"setSpriteFrameRandomOffset", lua_ParticleEmitter_setSpriteFrameRandomOffset}, {"setSpriteLooped", lua_ParticleEmitter_setSpriteLooped}, {"setSpriteTexCoords", lua_ParticleEmitter_setSpriteTexCoords}, {"setTextureBlending", lua_ParticleEmitter_setTextureBlending}, {"setVelocity", lua_ParticleEmitter_setVelocity}, {"start", lua_ParticleEmitter_start}, {"stop", lua_ParticleEmitter_stop}, {"update", lua_ParticleEmitter_update}, {NULL, NULL} }; const luaL_Reg lua_statics[] = { {"create", lua_ParticleEmitter_static_create}, {"getTextureBlendingFromString", lua_ParticleEmitter_static_getTextureBlendingFromString}, {NULL, NULL} }; std::vector scopePath; ScriptUtil::registerClass("ParticleEmitter", lua_members, NULL, lua_ParticleEmitter__gc, lua_statics, scopePath); } static ParticleEmitter* getInstance(lua_State* state) { void* userdata = luaL_checkudata(state, 1, "ParticleEmitter"); luaL_argcheck(state, userdata != NULL, 1, "'ParticleEmitter' expected."); return (ParticleEmitter*)((ScriptUtil::LuaObject*)userdata)->instance; } int lua_ParticleEmitter__gc(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { void* userdata = luaL_checkudata(state, 1, "ParticleEmitter"); luaL_argcheck(state, userdata != NULL, 1, "'ParticleEmitter' expected."); ScriptUtil::LuaObject* object = (ScriptUtil::LuaObject*)userdata; if (object->owns) { ParticleEmitter* instance = (ParticleEmitter*)object->instance; SAFE_RELEASE(instance); } return 0; } else { lua_pushstring(state, "lua_ParticleEmitter__gc - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_addRef(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); instance->addRef(); return 0; } else { lua_pushstring(state, "lua_ParticleEmitter_addRef - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_draw(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); instance->draw(); return 0; } else { lua_pushstring(state, "lua_ParticleEmitter_draw - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_emitOnce(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 2: { if ((lua_type(state, 1) == LUA_TUSERDATA) && lua_type(state, 2) == LUA_TNUMBER) { // Get parameter 1 off the stack. unsigned int param1 = (unsigned int)luaL_checkunsigned(state, 2); ParticleEmitter* instance = getInstance(state); instance->emitOnce(param1); return 0; } else { lua_pushstring(state, "lua_ParticleEmitter_emitOnce - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 2)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_getAcceleration(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); void* returnPtr = (void*)&(instance->getAcceleration()); if (returnPtr) { ScriptUtil::LuaObject* object = (ScriptUtil::LuaObject*)lua_newuserdata(state, sizeof(ScriptUtil::LuaObject)); object->instance = returnPtr; object->owns = false; luaL_getmetatable(state, "Vector3"); lua_setmetatable(state, -2); } else { lua_pushnil(state); } return 1; } else { lua_pushstring(state, "lua_ParticleEmitter_getAcceleration - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_getAccelerationVariance(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); void* returnPtr = (void*)&(instance->getAccelerationVariance()); if (returnPtr) { ScriptUtil::LuaObject* object = (ScriptUtil::LuaObject*)lua_newuserdata(state, sizeof(ScriptUtil::LuaObject)); object->instance = returnPtr; object->owns = false; luaL_getmetatable(state, "Vector3"); lua_setmetatable(state, -2); } else { lua_pushnil(state); } return 1; } else { lua_pushstring(state, "lua_ParticleEmitter_getAccelerationVariance - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_getColorEnd(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); void* returnPtr = (void*)&(instance->getColorEnd()); if (returnPtr) { ScriptUtil::LuaObject* object = (ScriptUtil::LuaObject*)lua_newuserdata(state, sizeof(ScriptUtil::LuaObject)); object->instance = returnPtr; object->owns = false; luaL_getmetatable(state, "Vector4"); lua_setmetatable(state, -2); } else { lua_pushnil(state); } return 1; } else { lua_pushstring(state, "lua_ParticleEmitter_getColorEnd - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_getColorEndVariance(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); void* returnPtr = (void*)&(instance->getColorEndVariance()); if (returnPtr) { ScriptUtil::LuaObject* object = (ScriptUtil::LuaObject*)lua_newuserdata(state, sizeof(ScriptUtil::LuaObject)); object->instance = returnPtr; object->owns = false; luaL_getmetatable(state, "Vector4"); lua_setmetatable(state, -2); } else { lua_pushnil(state); } return 1; } else { lua_pushstring(state, "lua_ParticleEmitter_getColorEndVariance - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_getColorStart(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); void* returnPtr = (void*)&(instance->getColorStart()); if (returnPtr) { ScriptUtil::LuaObject* object = (ScriptUtil::LuaObject*)lua_newuserdata(state, sizeof(ScriptUtil::LuaObject)); object->instance = returnPtr; object->owns = false; luaL_getmetatable(state, "Vector4"); lua_setmetatable(state, -2); } else { lua_pushnil(state); } return 1; } else { lua_pushstring(state, "lua_ParticleEmitter_getColorStart - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_getColorStartVariance(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); void* returnPtr = (void*)&(instance->getColorStartVariance()); if (returnPtr) { ScriptUtil::LuaObject* object = (ScriptUtil::LuaObject*)lua_newuserdata(state, sizeof(ScriptUtil::LuaObject)); object->instance = returnPtr; object->owns = false; luaL_getmetatable(state, "Vector4"); lua_setmetatable(state, -2); } else { lua_pushnil(state); } return 1; } else { lua_pushstring(state, "lua_ParticleEmitter_getColorStartVariance - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_getEmissionRate(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); unsigned int result = instance->getEmissionRate(); // Push the return value onto the stack. lua_pushunsigned(state, result); return 1; } else { lua_pushstring(state, "lua_ParticleEmitter_getEmissionRate - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_getEnergyMax(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); long result = instance->getEnergyMax(); // Push the return value onto the stack. lua_pushinteger(state, result); return 1; } else { lua_pushstring(state, "lua_ParticleEmitter_getEnergyMax - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_getEnergyMin(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); long result = instance->getEnergyMin(); // Push the return value onto the stack. lua_pushinteger(state, result); return 1; } else { lua_pushstring(state, "lua_ParticleEmitter_getEnergyMin - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_getNode(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); void* returnPtr = (void*)instance->getNode(); if (returnPtr) { ScriptUtil::LuaObject* object = (ScriptUtil::LuaObject*)lua_newuserdata(state, sizeof(ScriptUtil::LuaObject)); object->instance = returnPtr; object->owns = false; luaL_getmetatable(state, "Node"); lua_setmetatable(state, -2); } else { lua_pushnil(state); } return 1; } else { lua_pushstring(state, "lua_ParticleEmitter_getNode - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_getParticlesCount(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); unsigned int result = instance->getParticlesCount(); // Push the return value onto the stack. lua_pushunsigned(state, result); return 1; } else { lua_pushstring(state, "lua_ParticleEmitter_getParticlesCount - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_getPosition(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); void* returnPtr = (void*)&(instance->getPosition()); if (returnPtr) { ScriptUtil::LuaObject* object = (ScriptUtil::LuaObject*)lua_newuserdata(state, sizeof(ScriptUtil::LuaObject)); object->instance = returnPtr; object->owns = false; luaL_getmetatable(state, "Vector3"); lua_setmetatable(state, -2); } else { lua_pushnil(state); } return 1; } else { lua_pushstring(state, "lua_ParticleEmitter_getPosition - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_getPositionVariance(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); void* returnPtr = (void*)&(instance->getPositionVariance()); if (returnPtr) { ScriptUtil::LuaObject* object = (ScriptUtil::LuaObject*)lua_newuserdata(state, sizeof(ScriptUtil::LuaObject)); object->instance = returnPtr; object->owns = false; luaL_getmetatable(state, "Vector3"); lua_setmetatable(state, -2); } else { lua_pushnil(state); } return 1; } else { lua_pushstring(state, "lua_ParticleEmitter_getPositionVariance - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_getRefCount(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); unsigned int result = instance->getRefCount(); // Push the return value onto the stack. lua_pushunsigned(state, result); return 1; } else { lua_pushstring(state, "lua_ParticleEmitter_getRefCount - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_getRotationAxis(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); void* returnPtr = (void*)&(instance->getRotationAxis()); if (returnPtr) { ScriptUtil::LuaObject* object = (ScriptUtil::LuaObject*)lua_newuserdata(state, sizeof(ScriptUtil::LuaObject)); object->instance = returnPtr; object->owns = false; luaL_getmetatable(state, "Vector3"); lua_setmetatable(state, -2); } else { lua_pushnil(state); } return 1; } else { lua_pushstring(state, "lua_ParticleEmitter_getRotationAxis - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_getRotationAxisVariance(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); void* returnPtr = (void*)&(instance->getRotationAxisVariance()); if (returnPtr) { ScriptUtil::LuaObject* object = (ScriptUtil::LuaObject*)lua_newuserdata(state, sizeof(ScriptUtil::LuaObject)); object->instance = returnPtr; object->owns = false; luaL_getmetatable(state, "Vector3"); lua_setmetatable(state, -2); } else { lua_pushnil(state); } return 1; } else { lua_pushstring(state, "lua_ParticleEmitter_getRotationAxisVariance - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_getRotationPerParticleSpeedMax(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); float result = instance->getRotationPerParticleSpeedMax(); // Push the return value onto the stack. lua_pushnumber(state, result); return 1; } else { lua_pushstring(state, "lua_ParticleEmitter_getRotationPerParticleSpeedMax - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_getRotationPerParticleSpeedMin(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); float result = instance->getRotationPerParticleSpeedMin(); // Push the return value onto the stack. lua_pushnumber(state, result); return 1; } else { lua_pushstring(state, "lua_ParticleEmitter_getRotationPerParticleSpeedMin - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_getRotationSpeedMax(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); float result = instance->getRotationSpeedMax(); // Push the return value onto the stack. lua_pushnumber(state, result); return 1; } else { lua_pushstring(state, "lua_ParticleEmitter_getRotationSpeedMax - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_getRotationSpeedMin(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); float result = instance->getRotationSpeedMin(); // Push the return value onto the stack. lua_pushnumber(state, result); return 1; } else { lua_pushstring(state, "lua_ParticleEmitter_getRotationSpeedMin - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_getSizeEndMax(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); float result = instance->getSizeEndMax(); // Push the return value onto the stack. lua_pushnumber(state, result); return 1; } else { lua_pushstring(state, "lua_ParticleEmitter_getSizeEndMax - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_getSizeEndMin(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); float result = instance->getSizeEndMin(); // Push the return value onto the stack. lua_pushnumber(state, result); return 1; } else { lua_pushstring(state, "lua_ParticleEmitter_getSizeEndMin - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_getSizeStartMax(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); float result = instance->getSizeStartMax(); // Push the return value onto the stack. lua_pushnumber(state, result); return 1; } else { lua_pushstring(state, "lua_ParticleEmitter_getSizeStartMax - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_getSizeStartMin(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); float result = instance->getSizeStartMin(); // Push the return value onto the stack. lua_pushnumber(state, result); return 1; } else { lua_pushstring(state, "lua_ParticleEmitter_getSizeStartMin - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_getSpriteFrameDuration(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); long result = instance->getSpriteFrameDuration(); // Push the return value onto the stack. lua_pushinteger(state, result); return 1; } else { lua_pushstring(state, "lua_ParticleEmitter_getSpriteFrameDuration - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_getSpriteFrameRandomOffset(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); int result = instance->getSpriteFrameRandomOffset(); // Push the return value onto the stack. lua_pushinteger(state, result); return 1; } else { lua_pushstring(state, "lua_ParticleEmitter_getSpriteFrameRandomOffset - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_getVelocity(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); void* returnPtr = (void*)&(instance->getVelocity()); if (returnPtr) { ScriptUtil::LuaObject* object = (ScriptUtil::LuaObject*)lua_newuserdata(state, sizeof(ScriptUtil::LuaObject)); object->instance = returnPtr; object->owns = false; luaL_getmetatable(state, "Vector3"); lua_setmetatable(state, -2); } else { lua_pushnil(state); } return 1; } else { lua_pushstring(state, "lua_ParticleEmitter_getVelocity - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_getVelocityVariance(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); void* returnPtr = (void*)&(instance->getVelocityVariance()); if (returnPtr) { ScriptUtil::LuaObject* object = (ScriptUtil::LuaObject*)lua_newuserdata(state, sizeof(ScriptUtil::LuaObject)); object->instance = returnPtr; object->owns = false; luaL_getmetatable(state, "Vector3"); lua_setmetatable(state, -2); } else { lua_pushnil(state); } return 1; } else { lua_pushstring(state, "lua_ParticleEmitter_getVelocityVariance - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_isActive(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); bool result = instance->isActive(); // Push the return value onto the stack. lua_pushboolean(state, result); return 1; } else { lua_pushstring(state, "lua_ParticleEmitter_isActive - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_isEllipsoid(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); bool result = instance->isEllipsoid(); // Push the return value onto the stack. lua_pushboolean(state, result); return 1; } else { lua_pushstring(state, "lua_ParticleEmitter_isEllipsoid - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_isSpriteAnimated(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); bool result = instance->isSpriteAnimated(); // Push the return value onto the stack. lua_pushboolean(state, result); return 1; } else { lua_pushstring(state, "lua_ParticleEmitter_isSpriteAnimated - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_isSpriteLooped(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); bool result = instance->isSpriteLooped(); // Push the return value onto the stack. lua_pushboolean(state, result); return 1; } else { lua_pushstring(state, "lua_ParticleEmitter_isSpriteLooped - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_isStarted(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); bool result = instance->isStarted(); // Push the return value onto the stack. lua_pushboolean(state, result); return 1; } else { lua_pushstring(state, "lua_ParticleEmitter_isStarted - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_release(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); instance->release(); return 0; } else { lua_pushstring(state, "lua_ParticleEmitter_release - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_setAcceleration(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 3: { if ((lua_type(state, 1) == LUA_TUSERDATA) && (lua_type(state, 2) == LUA_TUSERDATA || lua_type(state, 2) == LUA_TNIL) && (lua_type(state, 3) == LUA_TUSERDATA || lua_type(state, 3) == LUA_TNIL)) { // Get parameter 1 off the stack. Vector3* param1 = ScriptUtil::getObjectPointer(2, "Vector3", true); // Get parameter 2 off the stack. Vector3* param2 = ScriptUtil::getObjectPointer(3, "Vector3", true); ParticleEmitter* instance = getInstance(state); instance->setAcceleration(*param1, *param2); return 0; } else { lua_pushstring(state, "lua_ParticleEmitter_setAcceleration - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 3)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_setColor(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 5: { if ((lua_type(state, 1) == LUA_TUSERDATA) && (lua_type(state, 2) == LUA_TUSERDATA || lua_type(state, 2) == LUA_TNIL) && (lua_type(state, 3) == LUA_TUSERDATA || lua_type(state, 3) == LUA_TNIL) && (lua_type(state, 4) == LUA_TUSERDATA || lua_type(state, 4) == LUA_TNIL) && (lua_type(state, 5) == LUA_TUSERDATA || lua_type(state, 5) == LUA_TNIL)) { // Get parameter 1 off the stack. Vector4* param1 = ScriptUtil::getObjectPointer(2, "Vector4", true); // Get parameter 2 off the stack. Vector4* param2 = ScriptUtil::getObjectPointer(3, "Vector4", true); // Get parameter 3 off the stack. Vector4* param3 = ScriptUtil::getObjectPointer(4, "Vector4", true); // Get parameter 4 off the stack. Vector4* param4 = ScriptUtil::getObjectPointer(5, "Vector4", true); ParticleEmitter* instance = getInstance(state); instance->setColor(*param1, *param2, *param3, *param4); return 0; } else { lua_pushstring(state, "lua_ParticleEmitter_setColor - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 5)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_setEllipsoid(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 2: { if ((lua_type(state, 1) == LUA_TUSERDATA) && lua_type(state, 2) == LUA_TBOOLEAN) { // Get parameter 1 off the stack. bool param1 = ScriptUtil::luaCheckBool(state, 2); ParticleEmitter* instance = getInstance(state); instance->setEllipsoid(param1); return 0; } else { lua_pushstring(state, "lua_ParticleEmitter_setEllipsoid - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 2)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_setEmissionRate(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 2: { if ((lua_type(state, 1) == LUA_TUSERDATA) && lua_type(state, 2) == LUA_TNUMBER) { // Get parameter 1 off the stack. unsigned int param1 = (unsigned int)luaL_checkunsigned(state, 2); ParticleEmitter* instance = getInstance(state); instance->setEmissionRate(param1); return 0; } else { lua_pushstring(state, "lua_ParticleEmitter_setEmissionRate - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 2)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_setEnergy(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 3: { if ((lua_type(state, 1) == LUA_TUSERDATA) && lua_type(state, 2) == LUA_TNUMBER && lua_type(state, 3) == LUA_TNUMBER) { // Get parameter 1 off the stack. long param1 = (long)luaL_checklong(state, 2); // Get parameter 2 off the stack. long param2 = (long)luaL_checklong(state, 3); ParticleEmitter* instance = getInstance(state); instance->setEnergy(param1, param2); return 0; } else { lua_pushstring(state, "lua_ParticleEmitter_setEnergy - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 3)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_setOrbit(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 4: { if ((lua_type(state, 1) == LUA_TUSERDATA) && lua_type(state, 2) == LUA_TBOOLEAN && lua_type(state, 3) == LUA_TBOOLEAN && lua_type(state, 4) == LUA_TBOOLEAN) { // Get parameter 1 off the stack. bool param1 = ScriptUtil::luaCheckBool(state, 2); // Get parameter 2 off the stack. bool param2 = ScriptUtil::luaCheckBool(state, 3); // Get parameter 3 off the stack. bool param3 = ScriptUtil::luaCheckBool(state, 4); ParticleEmitter* instance = getInstance(state); instance->setOrbit(param1, param2, param3); return 0; } else { lua_pushstring(state, "lua_ParticleEmitter_setOrbit - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 4)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_setPosition(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 3: { if ((lua_type(state, 1) == LUA_TUSERDATA) && (lua_type(state, 2) == LUA_TUSERDATA || lua_type(state, 2) == LUA_TNIL) && (lua_type(state, 3) == LUA_TUSERDATA || lua_type(state, 3) == LUA_TNIL)) { // Get parameter 1 off the stack. Vector3* param1 = ScriptUtil::getObjectPointer(2, "Vector3", true); // Get parameter 2 off the stack. Vector3* param2 = ScriptUtil::getObjectPointer(3, "Vector3", true); ParticleEmitter* instance = getInstance(state); instance->setPosition(*param1, *param2); return 0; } else { lua_pushstring(state, "lua_ParticleEmitter_setPosition - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 3)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_setRotation(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 5: { if ((lua_type(state, 1) == LUA_TUSERDATA) && lua_type(state, 2) == LUA_TNUMBER && lua_type(state, 3) == LUA_TNUMBER && (lua_type(state, 4) == LUA_TUSERDATA || lua_type(state, 4) == LUA_TNIL) && (lua_type(state, 5) == LUA_TUSERDATA || lua_type(state, 5) == LUA_TNIL)) { // Get parameter 1 off the stack. float param1 = (float)luaL_checknumber(state, 2); // Get parameter 2 off the stack. float param2 = (float)luaL_checknumber(state, 3); // Get parameter 3 off the stack. Vector3* param3 = ScriptUtil::getObjectPointer(4, "Vector3", true); // Get parameter 4 off the stack. Vector3* param4 = ScriptUtil::getObjectPointer(5, "Vector3", true); ParticleEmitter* instance = getInstance(state); instance->setRotation(param1, param2, *param3, *param4); return 0; } else { lua_pushstring(state, "lua_ParticleEmitter_setRotation - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 5)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_setRotationPerParticle(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 3: { if ((lua_type(state, 1) == LUA_TUSERDATA) && lua_type(state, 2) == LUA_TNUMBER && lua_type(state, 3) == LUA_TNUMBER) { // Get parameter 1 off the stack. float param1 = (float)luaL_checknumber(state, 2); // Get parameter 2 off the stack. float param2 = (float)luaL_checknumber(state, 3); ParticleEmitter* instance = getInstance(state); instance->setRotationPerParticle(param1, param2); return 0; } else { lua_pushstring(state, "lua_ParticleEmitter_setRotationPerParticle - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 3)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_setSize(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 5: { if ((lua_type(state, 1) == LUA_TUSERDATA) && lua_type(state, 2) == LUA_TNUMBER && lua_type(state, 3) == LUA_TNUMBER && lua_type(state, 4) == LUA_TNUMBER && lua_type(state, 5) == LUA_TNUMBER) { // Get parameter 1 off the stack. float param1 = (float)luaL_checknumber(state, 2); // Get parameter 2 off the stack. float param2 = (float)luaL_checknumber(state, 3); // Get parameter 3 off the stack. float param3 = (float)luaL_checknumber(state, 4); // Get parameter 4 off the stack. float param4 = (float)luaL_checknumber(state, 5); ParticleEmitter* instance = getInstance(state); instance->setSize(param1, param2, param3, param4); return 0; } else { lua_pushstring(state, "lua_ParticleEmitter_setSize - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 5)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_setSpriteAnimated(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 2: { if ((lua_type(state, 1) == LUA_TUSERDATA) && lua_type(state, 2) == LUA_TBOOLEAN) { // Get parameter 1 off the stack. bool param1 = ScriptUtil::luaCheckBool(state, 2); ParticleEmitter* instance = getInstance(state); instance->setSpriteAnimated(param1); return 0; } else { lua_pushstring(state, "lua_ParticleEmitter_setSpriteAnimated - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 2)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_setSpriteFrameCoords(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 3: { if ((lua_type(state, 1) == LUA_TUSERDATA) && lua_type(state, 2) == LUA_TNUMBER && (lua_type(state, 3) == LUA_TUSERDATA || lua_type(state, 3) == LUA_TTABLE || lua_type(state, 3) == LUA_TNIL)) { // Get parameter 1 off the stack. unsigned int param1 = (unsigned int)luaL_checkunsigned(state, 2); // Get parameter 2 off the stack. Rectangle* param2 = ScriptUtil::getObjectPointer(3, "Rectangle", false); ParticleEmitter* instance = getInstance(state); instance->setSpriteFrameCoords(param1, param2); return 0; } else { lua_pushstring(state, "lua_ParticleEmitter_setSpriteFrameCoords - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } case 4: { if ((lua_type(state, 1) == LUA_TUSERDATA) && lua_type(state, 2) == LUA_TNUMBER && lua_type(state, 3) == LUA_TNUMBER && lua_type(state, 4) == LUA_TNUMBER) { // Get parameter 1 off the stack. unsigned int param1 = (unsigned int)luaL_checkunsigned(state, 2); // Get parameter 2 off the stack. int param2 = (int)luaL_checkint(state, 3); // Get parameter 3 off the stack. int param3 = (int)luaL_checkint(state, 4); ParticleEmitter* instance = getInstance(state); instance->setSpriteFrameCoords(param1, param2, param3); return 0; } else { lua_pushstring(state, "lua_ParticleEmitter_setSpriteFrameCoords - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 3 or 4)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_setSpriteFrameDuration(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 2: { if ((lua_type(state, 1) == LUA_TUSERDATA) && lua_type(state, 2) == LUA_TNUMBER) { // Get parameter 1 off the stack. long param1 = (long)luaL_checklong(state, 2); ParticleEmitter* instance = getInstance(state); instance->setSpriteFrameDuration(param1); return 0; } else { lua_pushstring(state, "lua_ParticleEmitter_setSpriteFrameDuration - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 2)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_setSpriteFrameRandomOffset(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 2: { if ((lua_type(state, 1) == LUA_TUSERDATA) && lua_type(state, 2) == LUA_TNUMBER) { // Get parameter 1 off the stack. int param1 = (int)luaL_checkint(state, 2); ParticleEmitter* instance = getInstance(state); instance->setSpriteFrameRandomOffset(param1); return 0; } else { lua_pushstring(state, "lua_ParticleEmitter_setSpriteFrameRandomOffset - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 2)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_setSpriteLooped(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 2: { if ((lua_type(state, 1) == LUA_TUSERDATA) && lua_type(state, 2) == LUA_TBOOLEAN) { // Get parameter 1 off the stack. bool param1 = ScriptUtil::luaCheckBool(state, 2); ParticleEmitter* instance = getInstance(state); instance->setSpriteLooped(param1); return 0; } else { lua_pushstring(state, "lua_ParticleEmitter_setSpriteLooped - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 2)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_setSpriteTexCoords(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 3: { if ((lua_type(state, 1) == LUA_TUSERDATA) && lua_type(state, 2) == LUA_TNUMBER && (lua_type(state, 3) == LUA_TTABLE || lua_type(state, 3) == LUA_TLIGHTUSERDATA)) { // Get parameter 1 off the stack. unsigned int param1 = (unsigned int)luaL_checkunsigned(state, 2); // Get parameter 2 off the stack. float* param2 = ScriptUtil::getFloatPointer(3); ParticleEmitter* instance = getInstance(state); instance->setSpriteTexCoords(param1, param2); return 0; } else { lua_pushstring(state, "lua_ParticleEmitter_setSpriteTexCoords - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 3)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_setTextureBlending(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 2: { if ((lua_type(state, 1) == LUA_TUSERDATA) && (lua_type(state, 2) == LUA_TSTRING || lua_type(state, 2) == LUA_TNIL)) { // Get parameter 1 off the stack. ParticleEmitter::TextureBlending param1 = (ParticleEmitter::TextureBlending)lua_enumFromString_ParticleEmitterTextureBlending(luaL_checkstring(state, 2)); ParticleEmitter* instance = getInstance(state); instance->setTextureBlending(param1); return 0; } else { lua_pushstring(state, "lua_ParticleEmitter_setTextureBlending - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 2)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_setVelocity(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 3: { if ((lua_type(state, 1) == LUA_TUSERDATA) && (lua_type(state, 2) == LUA_TUSERDATA || lua_type(state, 2) == LUA_TNIL) && (lua_type(state, 3) == LUA_TUSERDATA || lua_type(state, 3) == LUA_TNIL)) { // Get parameter 1 off the stack. Vector3* param1 = ScriptUtil::getObjectPointer(2, "Vector3", true); // Get parameter 2 off the stack. Vector3* param2 = ScriptUtil::getObjectPointer(3, "Vector3", true); ParticleEmitter* instance = getInstance(state); instance->setVelocity(*param1, *param2); return 0; } else { lua_pushstring(state, "lua_ParticleEmitter_setVelocity - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 3)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_start(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); instance->start(); return 0; } else { lua_pushstring(state, "lua_ParticleEmitter_start - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_static_create(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TSTRING || lua_type(state, 1) == LUA_TNIL)) { // Get parameter 1 off the stack. const char* param1 = ScriptUtil::getString(1, false); void* returnPtr = (void*)ParticleEmitter::create(param1); if (returnPtr) { ScriptUtil::LuaObject* object = (ScriptUtil::LuaObject*)lua_newuserdata(state, sizeof(ScriptUtil::LuaObject)); object->instance = returnPtr; object->owns = false; luaL_getmetatable(state, "ParticleEmitter"); lua_setmetatable(state, -2); } else { lua_pushnil(state); } return 1; } else if ((lua_type(state, 1) == LUA_TUSERDATA || lua_type(state, 1) == LUA_TTABLE || lua_type(state, 1) == LUA_TNIL)) { // Get parameter 1 off the stack. Properties* param1 = ScriptUtil::getObjectPointer(1, "Properties", false); void* returnPtr = (void*)ParticleEmitter::create(param1); if (returnPtr) { ScriptUtil::LuaObject* object = (ScriptUtil::LuaObject*)lua_newuserdata(state, sizeof(ScriptUtil::LuaObject)); object->instance = returnPtr; object->owns = false; luaL_getmetatable(state, "ParticleEmitter"); lua_setmetatable(state, -2); } else { lua_pushnil(state); } return 1; } else { lua_pushstring(state, "lua_ParticleEmitter_static_create - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } case 3: { if ((lua_type(state, 1) == LUA_TSTRING || lua_type(state, 1) == LUA_TNIL) && (lua_type(state, 2) == LUA_TSTRING || lua_type(state, 2) == LUA_TNIL) && lua_type(state, 3) == LUA_TNUMBER) { // Get parameter 1 off the stack. const char* param1 = ScriptUtil::getString(1, false); // Get parameter 2 off the stack. ParticleEmitter::TextureBlending param2 = (ParticleEmitter::TextureBlending)lua_enumFromString_ParticleEmitterTextureBlending(luaL_checkstring(state, 2)); // Get parameter 3 off the stack. unsigned int param3 = (unsigned int)luaL_checkunsigned(state, 3); void* returnPtr = (void*)ParticleEmitter::create(param1, param2, param3); if (returnPtr) { ScriptUtil::LuaObject* object = (ScriptUtil::LuaObject*)lua_newuserdata(state, sizeof(ScriptUtil::LuaObject)); object->instance = returnPtr; object->owns = false; luaL_getmetatable(state, "ParticleEmitter"); lua_setmetatable(state, -2); } else { lua_pushnil(state); } return 1; } else { lua_pushstring(state, "lua_ParticleEmitter_static_create - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1 or 3)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_static_getTextureBlendingFromString(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TSTRING || lua_type(state, 1) == LUA_TNIL)) { // Get parameter 1 off the stack. const char* param1 = ScriptUtil::getString(1, false); ParticleEmitter::TextureBlending result = ParticleEmitter::getTextureBlendingFromString(param1); // Push the return value onto the stack. lua_pushstring(state, lua_stringFromEnum_ParticleEmitterTextureBlending(result)); return 1; } else { lua_pushstring(state, "lua_ParticleEmitter_static_getTextureBlendingFromString - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_stop(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 1: { if ((lua_type(state, 1) == LUA_TUSERDATA)) { ParticleEmitter* instance = getInstance(state); instance->stop(); return 0; } else { lua_pushstring(state, "lua_ParticleEmitter_stop - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 1)."); lua_error(state); break; } } return 0; } int lua_ParticleEmitter_update(lua_State* state) { // Get the number of parameters. int paramCount = lua_gettop(state); // Attempt to match the parameters to a valid binding. switch (paramCount) { case 2: { if ((lua_type(state, 1) == LUA_TUSERDATA) && lua_type(state, 2) == LUA_TNUMBER) { // Get parameter 1 off the stack. float param1 = (float)luaL_checknumber(state, 2); ParticleEmitter* instance = getInstance(state); instance->update(param1); return 0; } else { lua_pushstring(state, "lua_ParticleEmitter_update - Failed to match the given parameters to a valid function signature."); lua_error(state); } break; } default: { lua_pushstring(state, "Invalid number of parameters (expected 2)."); lua_error(state); break; } } return 0; } }