#include "scripting/lua-bindings/auto/lua_axis_physics_auto.hpp" #if AX_USE_PHYSICS #include "cocos2d.h" #include "scripting/lua-bindings/manual/tolua_fix.h" #include "scripting/lua-bindings/manual/LuaBasicConversions.h" int lua_axis_physics_PhysicsShape_getFriction(lua_State* tolua_S) { int argc = 0; axis::PhysicsShape* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShape",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShape*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShape_getFriction'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShape_getFriction'", nullptr); return 0; } double ret = cobj->getFriction(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShape:getFriction",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShape_getFriction'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShape_setGroup(lua_State* tolua_S) { int argc = 0; axis::PhysicsShape* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShape",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShape*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShape_setGroup'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { int arg0; ok &= luaval_to_int32(tolua_S, 2,(int *)&arg0, "ax.PhysicsShape:setGroup"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShape_setGroup'", nullptr); return 0; } cobj->setGroup(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShape:setGroup",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShape_setGroup'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShape_setDensity(lua_State* tolua_S) { int argc = 0; axis::PhysicsShape* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShape",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShape*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShape_setDensity'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsShape:setDensity"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShape_setDensity'", nullptr); return 0; } cobj->setDensity(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShape:setDensity",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShape_setDensity'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShape_getMass(lua_State* tolua_S) { int argc = 0; axis::PhysicsShape* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShape",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShape*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShape_getMass'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShape_getMass'", nullptr); return 0; } double ret = cobj->getMass(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShape:getMass",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShape_getMass'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShape_getMaterial(lua_State* tolua_S) { int argc = 0; axis::PhysicsShape* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShape",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShape*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShape_getMaterial'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShape_getMaterial'", nullptr); return 0; } const axis::PhysicsMaterial& ret = cobj->getMaterial(); physics_material_to_luaval(tolua_S, ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShape:getMaterial",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShape_getMaterial'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShape_setSensor(lua_State* tolua_S) { int argc = 0; axis::PhysicsShape* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShape",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShape*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShape_setSensor'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { bool arg0; ok &= luaval_to_boolean(tolua_S, 2,&arg0, "ax.PhysicsShape:setSensor"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShape_setSensor'", nullptr); return 0; } cobj->setSensor(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShape:setSensor",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShape_setSensor'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShape_getCollisionBitmask(lua_State* tolua_S) { int argc = 0; axis::PhysicsShape* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShape",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShape*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShape_getCollisionBitmask'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShape_getCollisionBitmask'", nullptr); return 0; } int ret = cobj->getCollisionBitmask(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShape:getCollisionBitmask",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShape_getCollisionBitmask'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShape_getArea(lua_State* tolua_S) { int argc = 0; axis::PhysicsShape* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShape",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShape*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShape_getArea'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShape_getArea'", nullptr); return 0; } double ret = cobj->getArea(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShape:getArea",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShape_getArea'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShape_setCategoryBitmask(lua_State* tolua_S) { int argc = 0; axis::PhysicsShape* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShape",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShape*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShape_setCategoryBitmask'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { int arg0; ok &= luaval_to_int32(tolua_S, 2,(int *)&arg0, "ax.PhysicsShape:setCategoryBitmask"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShape_setCategoryBitmask'", nullptr); return 0; } cobj->setCategoryBitmask(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShape:setCategoryBitmask",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShape_setCategoryBitmask'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShape_getGroup(lua_State* tolua_S) { int argc = 0; axis::PhysicsShape* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShape",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShape*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShape_getGroup'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShape_getGroup'", nullptr); return 0; } int ret = cobj->getGroup(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShape:getGroup",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShape_getGroup'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShape_setMoment(lua_State* tolua_S) { int argc = 0; axis::PhysicsShape* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShape",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShape*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShape_setMoment'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsShape:setMoment"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShape_setMoment'", nullptr); return 0; } cobj->setMoment(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShape:setMoment",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShape_setMoment'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShape_containsPoint(lua_State* tolua_S) { int argc = 0; axis::PhysicsShape* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShape",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShape*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShape_containsPoint'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { axis::Vec2 arg0; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsShape:containsPoint"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShape_containsPoint'", nullptr); return 0; } bool ret = cobj->containsPoint(arg0); tolua_pushboolean(tolua_S,(bool)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShape:containsPoint",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShape_containsPoint'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShape_getCategoryBitmask(lua_State* tolua_S) { int argc = 0; axis::PhysicsShape* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShape",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShape*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShape_getCategoryBitmask'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShape_getCategoryBitmask'", nullptr); return 0; } int ret = cobj->getCategoryBitmask(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShape:getCategoryBitmask",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShape_getCategoryBitmask'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShape_isSensor(lua_State* tolua_S) { int argc = 0; axis::PhysicsShape* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShape",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShape*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShape_isSensor'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShape_isSensor'", nullptr); return 0; } bool ret = cobj->isSensor(); tolua_pushboolean(tolua_S,(bool)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShape:isSensor",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShape_isSensor'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShape_getType(lua_State* tolua_S) { int argc = 0; axis::PhysicsShape* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShape",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShape*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShape_getType'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShape_getType'", nullptr); return 0; } int ret = (int)cobj->getType(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShape:getType",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShape_getType'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShape_getContactTestBitmask(lua_State* tolua_S) { int argc = 0; axis::PhysicsShape* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShape",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShape*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShape_getContactTestBitmask'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShape_getContactTestBitmask'", nullptr); return 0; } int ret = cobj->getContactTestBitmask(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShape:getContactTestBitmask",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShape_getContactTestBitmask'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShape_getCenter(lua_State* tolua_S) { int argc = 0; axis::PhysicsShape* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShape",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShape*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShape_getCenter'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShape_getCenter'", nullptr); return 0; } axis::Vec2 ret = cobj->getCenter(); vec2_to_luaval(tolua_S, ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShape:getCenter",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShape_getCenter'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShape_getDensity(lua_State* tolua_S) { int argc = 0; axis::PhysicsShape* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShape",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShape*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShape_getDensity'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShape_getDensity'", nullptr); return 0; } double ret = cobj->getDensity(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShape:getDensity",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShape_getDensity'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShape_setMass(lua_State* tolua_S) { int argc = 0; axis::PhysicsShape* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShape",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShape*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShape_setMass'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsShape:setMass"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShape_setMass'", nullptr); return 0; } cobj->setMass(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShape:setMass",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShape_setMass'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShape_getTag(lua_State* tolua_S) { int argc = 0; axis::PhysicsShape* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShape",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShape*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShape_getTag'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShape_getTag'", nullptr); return 0; } int ret = cobj->getTag(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShape:getTag",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShape_getTag'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShape_calculateDefaultMoment(lua_State* tolua_S) { int argc = 0; axis::PhysicsShape* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShape",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShape*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShape_calculateDefaultMoment'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShape_calculateDefaultMoment'", nullptr); return 0; } double ret = cobj->calculateDefaultMoment(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShape:calculateDefaultMoment",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShape_calculateDefaultMoment'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShape_setCollisionBitmask(lua_State* tolua_S) { int argc = 0; axis::PhysicsShape* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShape",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShape*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShape_setCollisionBitmask'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { int arg0; ok &= luaval_to_int32(tolua_S, 2,(int *)&arg0, "ax.PhysicsShape:setCollisionBitmask"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShape_setCollisionBitmask'", nullptr); return 0; } cobj->setCollisionBitmask(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShape:setCollisionBitmask",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShape_setCollisionBitmask'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShape_getMoment(lua_State* tolua_S) { int argc = 0; axis::PhysicsShape* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShape",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShape*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShape_getMoment'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShape_getMoment'", nullptr); return 0; } double ret = cobj->getMoment(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShape:getMoment",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShape_getMoment'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShape_getOffset(lua_State* tolua_S) { int argc = 0; axis::PhysicsShape* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShape",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShape*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShape_getOffset'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShape_getOffset'", nullptr); return 0; } axis::Vec2 ret = cobj->getOffset(); vec2_to_luaval(tolua_S, ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShape:getOffset",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShape_getOffset'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShape_getRestitution(lua_State* tolua_S) { int argc = 0; axis::PhysicsShape* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShape",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShape*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShape_getRestitution'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShape_getRestitution'", nullptr); return 0; } double ret = cobj->getRestitution(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShape:getRestitution",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShape_getRestitution'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShape_setFriction(lua_State* tolua_S) { int argc = 0; axis::PhysicsShape* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShape",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShape*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShape_setFriction'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsShape:setFriction"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShape_setFriction'", nullptr); return 0; } cobj->setFriction(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShape:setFriction",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShape_setFriction'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShape_setMaterial(lua_State* tolua_S) { int argc = 0; axis::PhysicsShape* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShape",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShape*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShape_setMaterial'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { axis::PhysicsMaterial arg0; ok &= luaval_to_physics_material(tolua_S, 2, &arg0, "ax.PhysicsShape:setMaterial"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShape_setMaterial'", nullptr); return 0; } cobj->setMaterial(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShape:setMaterial",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShape_setMaterial'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShape_setTag(lua_State* tolua_S) { int argc = 0; axis::PhysicsShape* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShape",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShape*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShape_setTag'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { int arg0; ok &= luaval_to_int32(tolua_S, 2,(int *)&arg0, "ax.PhysicsShape:setTag"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShape_setTag'", nullptr); return 0; } cobj->setTag(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShape:setTag",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShape_setTag'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShape_setContactTestBitmask(lua_State* tolua_S) { int argc = 0; axis::PhysicsShape* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShape",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShape*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShape_setContactTestBitmask'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { int arg0; ok &= luaval_to_int32(tolua_S, 2,(int *)&arg0, "ax.PhysicsShape:setContactTestBitmask"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShape_setContactTestBitmask'", nullptr); return 0; } cobj->setContactTestBitmask(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShape:setContactTestBitmask",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShape_setContactTestBitmask'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShape_setRestitution(lua_State* tolua_S) { int argc = 0; axis::PhysicsShape* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShape",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShape*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShape_setRestitution'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsShape:setRestitution"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShape_setRestitution'", nullptr); return 0; } cobj->setRestitution(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShape:setRestitution",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShape_setRestitution'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShape_getBody(lua_State* tolua_S) { int argc = 0; axis::PhysicsShape* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShape",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShape*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShape_getBody'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShape_getBody'", nullptr); return 0; } axis::PhysicsBody* ret = cobj->getBody(); object_to_luaval(tolua_S, "ax.PhysicsBody",(axis::PhysicsBody*)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShape:getBody",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShape_getBody'.",&tolua_err); #endif return 0; } static int lua_axis_physics_PhysicsShape_finalize(lua_State* tolua_S) { printf("luabindings: finalizing LUA object (PhysicsShape)"); return 0; } int lua_register_axis_physics_PhysicsShape(lua_State* tolua_S) { tolua_usertype(tolua_S,"ax.PhysicsShape"); tolua_cclass(tolua_S,"PhysicsShape","ax.PhysicsShape","ax.Ref",nullptr); tolua_beginmodule(tolua_S,"PhysicsShape"); tolua_function(tolua_S,"getFriction",lua_axis_physics_PhysicsShape_getFriction); tolua_function(tolua_S,"setGroup",lua_axis_physics_PhysicsShape_setGroup); tolua_function(tolua_S,"setDensity",lua_axis_physics_PhysicsShape_setDensity); tolua_function(tolua_S,"getMass",lua_axis_physics_PhysicsShape_getMass); tolua_function(tolua_S,"getMaterial",lua_axis_physics_PhysicsShape_getMaterial); tolua_function(tolua_S,"setSensor",lua_axis_physics_PhysicsShape_setSensor); tolua_function(tolua_S,"getCollisionBitmask",lua_axis_physics_PhysicsShape_getCollisionBitmask); tolua_function(tolua_S,"getArea",lua_axis_physics_PhysicsShape_getArea); tolua_function(tolua_S,"setCategoryBitmask",lua_axis_physics_PhysicsShape_setCategoryBitmask); tolua_function(tolua_S,"getGroup",lua_axis_physics_PhysicsShape_getGroup); tolua_function(tolua_S,"setMoment",lua_axis_physics_PhysicsShape_setMoment); tolua_function(tolua_S,"containsPoint",lua_axis_physics_PhysicsShape_containsPoint); tolua_function(tolua_S,"getCategoryBitmask",lua_axis_physics_PhysicsShape_getCategoryBitmask); tolua_function(tolua_S,"isSensor",lua_axis_physics_PhysicsShape_isSensor); tolua_function(tolua_S,"getType",lua_axis_physics_PhysicsShape_getType); tolua_function(tolua_S,"getContactTestBitmask",lua_axis_physics_PhysicsShape_getContactTestBitmask); tolua_function(tolua_S,"getCenter",lua_axis_physics_PhysicsShape_getCenter); tolua_function(tolua_S,"getDensity",lua_axis_physics_PhysicsShape_getDensity); tolua_function(tolua_S,"setMass",lua_axis_physics_PhysicsShape_setMass); tolua_function(tolua_S,"getTag",lua_axis_physics_PhysicsShape_getTag); tolua_function(tolua_S,"calculateDefaultMoment",lua_axis_physics_PhysicsShape_calculateDefaultMoment); tolua_function(tolua_S,"setCollisionBitmask",lua_axis_physics_PhysicsShape_setCollisionBitmask); tolua_function(tolua_S,"getMoment",lua_axis_physics_PhysicsShape_getMoment); tolua_function(tolua_S,"getOffset",lua_axis_physics_PhysicsShape_getOffset); tolua_function(tolua_S,"getRestitution",lua_axis_physics_PhysicsShape_getRestitution); tolua_function(tolua_S,"setFriction",lua_axis_physics_PhysicsShape_setFriction); tolua_function(tolua_S,"setMaterial",lua_axis_physics_PhysicsShape_setMaterial); tolua_function(tolua_S,"setTag",lua_axis_physics_PhysicsShape_setTag); tolua_function(tolua_S,"setContactTestBitmask",lua_axis_physics_PhysicsShape_setContactTestBitmask); tolua_function(tolua_S,"setRestitution",lua_axis_physics_PhysicsShape_setRestitution); tolua_function(tolua_S,"getBody",lua_axis_physics_PhysicsShape_getBody); tolua_endmodule(tolua_S); auto typeName = typeid(axis::PhysicsShape).name(); // rtti is literal storage g_luaType[reinterpret_cast(typeName)] = "ax.PhysicsShape"; g_typeCast[typeName] = "ax.PhysicsShape"; return 1; } int lua_axis_physics_PhysicsShapeCircle_getRadius(lua_State* tolua_S) { int argc = 0; axis::PhysicsShapeCircle* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShapeCircle",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShapeCircle*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShapeCircle_getRadius'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShapeCircle_getRadius'", nullptr); return 0; } double ret = cobj->getRadius(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShapeCircle:getRadius",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShapeCircle_getRadius'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShapeCircle_create(lua_State* tolua_S) { int argc = 0; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertable(tolua_S,1,"ax.PhysicsShapeCircle",0,&tolua_err)) goto tolua_lerror; #endif argc = lua_gettop(tolua_S) - 1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsShapeCircle:create"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShapeCircle_create'", nullptr); return 0; } axis::PhysicsShapeCircle* ret = axis::PhysicsShapeCircle::create(arg0); object_to_luaval(tolua_S, "ax.PhysicsShapeCircle",(axis::PhysicsShapeCircle*)ret); return 1; } if (argc == 2) { double arg0; axis::PhysicsMaterial arg1; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsShapeCircle:create"); ok &= luaval_to_physics_material(tolua_S, 3, &arg1, "ax.PhysicsShapeCircle:create"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShapeCircle_create'", nullptr); return 0; } axis::PhysicsShapeCircle* ret = axis::PhysicsShapeCircle::create(arg0, arg1); object_to_luaval(tolua_S, "ax.PhysicsShapeCircle",(axis::PhysicsShapeCircle*)ret); return 1; } if (argc == 3) { double arg0; axis::PhysicsMaterial arg1; axis::Vec2 arg2; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsShapeCircle:create"); ok &= luaval_to_physics_material(tolua_S, 3, &arg1, "ax.PhysicsShapeCircle:create"); ok &= luaval_to_vec2(tolua_S, 4, &arg2, "ax.PhysicsShapeCircle:create"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShapeCircle_create'", nullptr); return 0; } axis::PhysicsShapeCircle* ret = axis::PhysicsShapeCircle::create(arg0, arg1, arg2); object_to_luaval(tolua_S, "ax.PhysicsShapeCircle",(axis::PhysicsShapeCircle*)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d\n ", "ax.PhysicsShapeCircle:create",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShapeCircle_create'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShapeCircle_calculateArea(lua_State* tolua_S) { int argc = 0; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertable(tolua_S,1,"ax.PhysicsShapeCircle",0,&tolua_err)) goto tolua_lerror; #endif argc = lua_gettop(tolua_S) - 1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsShapeCircle:calculateArea"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShapeCircle_calculateArea'", nullptr); return 0; } double ret = axis::PhysicsShapeCircle::calculateArea(arg0); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d\n ", "ax.PhysicsShapeCircle:calculateArea",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShapeCircle_calculateArea'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShapeCircle_calculateMoment(lua_State* tolua_S) { int argc = 0; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertable(tolua_S,1,"ax.PhysicsShapeCircle",0,&tolua_err)) goto tolua_lerror; #endif argc = lua_gettop(tolua_S) - 1; if (argc == 2) { double arg0; double arg1; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsShapeCircle:calculateMoment"); ok &= luaval_to_number(tolua_S, 3,&arg1, "ax.PhysicsShapeCircle:calculateMoment"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShapeCircle_calculateMoment'", nullptr); return 0; } double ret = axis::PhysicsShapeCircle::calculateMoment(arg0, arg1); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } if (argc == 3) { double arg0; double arg1; axis::Vec2 arg2; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsShapeCircle:calculateMoment"); ok &= luaval_to_number(tolua_S, 3,&arg1, "ax.PhysicsShapeCircle:calculateMoment"); ok &= luaval_to_vec2(tolua_S, 4, &arg2, "ax.PhysicsShapeCircle:calculateMoment"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShapeCircle_calculateMoment'", nullptr); return 0; } double ret = axis::PhysicsShapeCircle::calculateMoment(arg0, arg1, arg2); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d\n ", "ax.PhysicsShapeCircle:calculateMoment",argc, 2); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShapeCircle_calculateMoment'.",&tolua_err); #endif return 0; } static int lua_axis_physics_PhysicsShapeCircle_finalize(lua_State* tolua_S) { printf("luabindings: finalizing LUA object (PhysicsShapeCircle)"); return 0; } int lua_register_axis_physics_PhysicsShapeCircle(lua_State* tolua_S) { tolua_usertype(tolua_S,"ax.PhysicsShapeCircle"); tolua_cclass(tolua_S,"PhysicsShapeCircle","ax.PhysicsShapeCircle","ax.PhysicsShape",nullptr); tolua_beginmodule(tolua_S,"PhysicsShapeCircle"); tolua_function(tolua_S,"getRadius",lua_axis_physics_PhysicsShapeCircle_getRadius); tolua_function(tolua_S,"create", lua_axis_physics_PhysicsShapeCircle_create); tolua_function(tolua_S,"calculateArea", lua_axis_physics_PhysicsShapeCircle_calculateArea); tolua_function(tolua_S,"calculateMoment", lua_axis_physics_PhysicsShapeCircle_calculateMoment); tolua_endmodule(tolua_S); auto typeName = typeid(axis::PhysicsShapeCircle).name(); // rtti is literal storage g_luaType[reinterpret_cast(typeName)] = "ax.PhysicsShapeCircle"; g_typeCast[typeName] = "ax.PhysicsShapeCircle"; return 1; } int lua_axis_physics_PhysicsShapePolygon_getPointsCount(lua_State* tolua_S) { int argc = 0; axis::PhysicsShapePolygon* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShapePolygon",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShapePolygon*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShapePolygon_getPointsCount'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShapePolygon_getPointsCount'", nullptr); return 0; } int ret = cobj->getPointsCount(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShapePolygon:getPointsCount",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShapePolygon_getPointsCount'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShapePolygon_getPoint(lua_State* tolua_S) { int argc = 0; axis::PhysicsShapePolygon* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShapePolygon",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShapePolygon*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShapePolygon_getPoint'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { int arg0; ok &= luaval_to_int32(tolua_S, 2,(int *)&arg0, "ax.PhysicsShapePolygon:getPoint"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShapePolygon_getPoint'", nullptr); return 0; } axis::Vec2 ret = cobj->getPoint(arg0); vec2_to_luaval(tolua_S, ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShapePolygon:getPoint",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShapePolygon_getPoint'.",&tolua_err); #endif return 0; } static int lua_axis_physics_PhysicsShapePolygon_finalize(lua_State* tolua_S) { printf("luabindings: finalizing LUA object (PhysicsShapePolygon)"); return 0; } int lua_register_axis_physics_PhysicsShapePolygon(lua_State* tolua_S) { tolua_usertype(tolua_S,"ax.PhysicsShapePolygon"); tolua_cclass(tolua_S,"PhysicsShapePolygon","ax.PhysicsShapePolygon","ax.PhysicsShape",nullptr); tolua_beginmodule(tolua_S,"PhysicsShapePolygon"); tolua_function(tolua_S,"getPointsCount",lua_axis_physics_PhysicsShapePolygon_getPointsCount); tolua_function(tolua_S,"getPoint",lua_axis_physics_PhysicsShapePolygon_getPoint); tolua_endmodule(tolua_S); auto typeName = typeid(axis::PhysicsShapePolygon).name(); // rtti is literal storage g_luaType[reinterpret_cast(typeName)] = "ax.PhysicsShapePolygon"; g_typeCast[typeName] = "ax.PhysicsShapePolygon"; return 1; } int lua_axis_physics_PhysicsShapeBox_getSize(lua_State* tolua_S) { int argc = 0; axis::PhysicsShapeBox* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShapeBox",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShapeBox*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShapeBox_getSize'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShapeBox_getSize'", nullptr); return 0; } axis::Vec2 ret = cobj->getSize(); vec2_to_luaval(tolua_S, ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShapeBox:getSize",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShapeBox_getSize'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShapeBox_create(lua_State* tolua_S) { int argc = 0; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertable(tolua_S,1,"ax.PhysicsShapeBox",0,&tolua_err)) goto tolua_lerror; #endif argc = lua_gettop(tolua_S) - 1; if (argc == 1) { axis::Vec2 arg0; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsShapeBox:create"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShapeBox_create'", nullptr); return 0; } axis::PhysicsShapeBox* ret = axis::PhysicsShapeBox::create(arg0); object_to_luaval(tolua_S, "ax.PhysicsShapeBox",(axis::PhysicsShapeBox*)ret); return 1; } if (argc == 2) { axis::Vec2 arg0; axis::PhysicsMaterial arg1; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsShapeBox:create"); ok &= luaval_to_physics_material(tolua_S, 3, &arg1, "ax.PhysicsShapeBox:create"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShapeBox_create'", nullptr); return 0; } axis::PhysicsShapeBox* ret = axis::PhysicsShapeBox::create(arg0, arg1); object_to_luaval(tolua_S, "ax.PhysicsShapeBox",(axis::PhysicsShapeBox*)ret); return 1; } if (argc == 3) { axis::Vec2 arg0; axis::PhysicsMaterial arg1; axis::Vec2 arg2; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsShapeBox:create"); ok &= luaval_to_physics_material(tolua_S, 3, &arg1, "ax.PhysicsShapeBox:create"); ok &= luaval_to_vec2(tolua_S, 4, &arg2, "ax.PhysicsShapeBox:create"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShapeBox_create'", nullptr); return 0; } axis::PhysicsShapeBox* ret = axis::PhysicsShapeBox::create(arg0, arg1, arg2); object_to_luaval(tolua_S, "ax.PhysicsShapeBox",(axis::PhysicsShapeBox*)ret); return 1; } if (argc == 4) { axis::Vec2 arg0; axis::PhysicsMaterial arg1; axis::Vec2 arg2; double arg3; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsShapeBox:create"); ok &= luaval_to_physics_material(tolua_S, 3, &arg1, "ax.PhysicsShapeBox:create"); ok &= luaval_to_vec2(tolua_S, 4, &arg2, "ax.PhysicsShapeBox:create"); ok &= luaval_to_number(tolua_S, 5,&arg3, "ax.PhysicsShapeBox:create"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShapeBox_create'", nullptr); return 0; } axis::PhysicsShapeBox* ret = axis::PhysicsShapeBox::create(arg0, arg1, arg2, arg3); object_to_luaval(tolua_S, "ax.PhysicsShapeBox",(axis::PhysicsShapeBox*)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d\n ", "ax.PhysicsShapeBox:create",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShapeBox_create'.",&tolua_err); #endif return 0; } static int lua_axis_physics_PhysicsShapeBox_finalize(lua_State* tolua_S) { printf("luabindings: finalizing LUA object (PhysicsShapeBox)"); return 0; } int lua_register_axis_physics_PhysicsShapeBox(lua_State* tolua_S) { tolua_usertype(tolua_S,"ax.PhysicsShapeBox"); tolua_cclass(tolua_S,"PhysicsShapeBox","ax.PhysicsShapeBox","ax.PhysicsShapePolygon",nullptr); tolua_beginmodule(tolua_S,"PhysicsShapeBox"); tolua_function(tolua_S,"getSize",lua_axis_physics_PhysicsShapeBox_getSize); tolua_function(tolua_S,"create", lua_axis_physics_PhysicsShapeBox_create); tolua_endmodule(tolua_S); auto typeName = typeid(axis::PhysicsShapeBox).name(); // rtti is literal storage g_luaType[reinterpret_cast(typeName)] = "ax.PhysicsShapeBox"; g_typeCast[typeName] = "ax.PhysicsShapeBox"; return 1; } int lua_axis_physics_PhysicsShapeEdgeSegment_getPointB(lua_State* tolua_S) { int argc = 0; axis::PhysicsShapeEdgeSegment* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShapeEdgeSegment",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShapeEdgeSegment*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShapeEdgeSegment_getPointB'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShapeEdgeSegment_getPointB'", nullptr); return 0; } axis::Vec2 ret = cobj->getPointB(); vec2_to_luaval(tolua_S, ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShapeEdgeSegment:getPointB",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShapeEdgeSegment_getPointB'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShapeEdgeSegment_getPointA(lua_State* tolua_S) { int argc = 0; axis::PhysicsShapeEdgeSegment* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShapeEdgeSegment",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShapeEdgeSegment*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShapeEdgeSegment_getPointA'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShapeEdgeSegment_getPointA'", nullptr); return 0; } axis::Vec2 ret = cobj->getPointA(); vec2_to_luaval(tolua_S, ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShapeEdgeSegment:getPointA",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShapeEdgeSegment_getPointA'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsShapeEdgeSegment_create(lua_State* tolua_S) { int argc = 0; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertable(tolua_S,1,"ax.PhysicsShapeEdgeSegment",0,&tolua_err)) goto tolua_lerror; #endif argc = lua_gettop(tolua_S) - 1; if (argc == 2) { axis::Vec2 arg0; axis::Vec2 arg1; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsShapeEdgeSegment:create"); ok &= luaval_to_vec2(tolua_S, 3, &arg1, "ax.PhysicsShapeEdgeSegment:create"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShapeEdgeSegment_create'", nullptr); return 0; } axis::PhysicsShapeEdgeSegment* ret = axis::PhysicsShapeEdgeSegment::create(arg0, arg1); object_to_luaval(tolua_S, "ax.PhysicsShapeEdgeSegment",(axis::PhysicsShapeEdgeSegment*)ret); return 1; } if (argc == 3) { axis::Vec2 arg0; axis::Vec2 arg1; axis::PhysicsMaterial arg2; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsShapeEdgeSegment:create"); ok &= luaval_to_vec2(tolua_S, 3, &arg1, "ax.PhysicsShapeEdgeSegment:create"); ok &= luaval_to_physics_material(tolua_S, 4, &arg2, "ax.PhysicsShapeEdgeSegment:create"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShapeEdgeSegment_create'", nullptr); return 0; } axis::PhysicsShapeEdgeSegment* ret = axis::PhysicsShapeEdgeSegment::create(arg0, arg1, arg2); object_to_luaval(tolua_S, "ax.PhysicsShapeEdgeSegment",(axis::PhysicsShapeEdgeSegment*)ret); return 1; } if (argc == 4) { axis::Vec2 arg0; axis::Vec2 arg1; axis::PhysicsMaterial arg2; double arg3; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsShapeEdgeSegment:create"); ok &= luaval_to_vec2(tolua_S, 3, &arg1, "ax.PhysicsShapeEdgeSegment:create"); ok &= luaval_to_physics_material(tolua_S, 4, &arg2, "ax.PhysicsShapeEdgeSegment:create"); ok &= luaval_to_number(tolua_S, 5,&arg3, "ax.PhysicsShapeEdgeSegment:create"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShapeEdgeSegment_create'", nullptr); return 0; } axis::PhysicsShapeEdgeSegment* ret = axis::PhysicsShapeEdgeSegment::create(arg0, arg1, arg2, arg3); object_to_luaval(tolua_S, "ax.PhysicsShapeEdgeSegment",(axis::PhysicsShapeEdgeSegment*)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d\n ", "ax.PhysicsShapeEdgeSegment:create",argc, 2); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShapeEdgeSegment_create'.",&tolua_err); #endif return 0; } static int lua_axis_physics_PhysicsShapeEdgeSegment_finalize(lua_State* tolua_S) { printf("luabindings: finalizing LUA object (PhysicsShapeEdgeSegment)"); return 0; } int lua_register_axis_physics_PhysicsShapeEdgeSegment(lua_State* tolua_S) { tolua_usertype(tolua_S,"ax.PhysicsShapeEdgeSegment"); tolua_cclass(tolua_S,"PhysicsShapeEdgeSegment","ax.PhysicsShapeEdgeSegment","ax.PhysicsShape",nullptr); tolua_beginmodule(tolua_S,"PhysicsShapeEdgeSegment"); tolua_function(tolua_S,"getPointB",lua_axis_physics_PhysicsShapeEdgeSegment_getPointB); tolua_function(tolua_S,"getPointA",lua_axis_physics_PhysicsShapeEdgeSegment_getPointA); tolua_function(tolua_S,"create", lua_axis_physics_PhysicsShapeEdgeSegment_create); tolua_endmodule(tolua_S); auto typeName = typeid(axis::PhysicsShapeEdgeSegment).name(); // rtti is literal storage g_luaType[reinterpret_cast(typeName)] = "ax.PhysicsShapeEdgeSegment"; g_typeCast[typeName] = "ax.PhysicsShapeEdgeSegment"; return 1; } int lua_axis_physics_PhysicsShapeEdgePolygon_getPointsCount(lua_State* tolua_S) { int argc = 0; axis::PhysicsShapeEdgePolygon* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShapeEdgePolygon",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShapeEdgePolygon*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShapeEdgePolygon_getPointsCount'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShapeEdgePolygon_getPointsCount'", nullptr); return 0; } int ret = cobj->getPointsCount(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShapeEdgePolygon:getPointsCount",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShapeEdgePolygon_getPointsCount'.",&tolua_err); #endif return 0; } static int lua_axis_physics_PhysicsShapeEdgePolygon_finalize(lua_State* tolua_S) { printf("luabindings: finalizing LUA object (PhysicsShapeEdgePolygon)"); return 0; } int lua_register_axis_physics_PhysicsShapeEdgePolygon(lua_State* tolua_S) { tolua_usertype(tolua_S,"ax.PhysicsShapeEdgePolygon"); tolua_cclass(tolua_S,"PhysicsShapeEdgePolygon","ax.PhysicsShapeEdgePolygon","ax.PhysicsShape",nullptr); tolua_beginmodule(tolua_S,"PhysicsShapeEdgePolygon"); tolua_function(tolua_S,"getPointsCount",lua_axis_physics_PhysicsShapeEdgePolygon_getPointsCount); tolua_endmodule(tolua_S); auto typeName = typeid(axis::PhysicsShapeEdgePolygon).name(); // rtti is literal storage g_luaType[reinterpret_cast(typeName)] = "ax.PhysicsShapeEdgePolygon"; g_typeCast[typeName] = "ax.PhysicsShapeEdgePolygon"; return 1; } int lua_axis_physics_PhysicsShapeEdgeBox_create(lua_State* tolua_S) { int argc = 0; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertable(tolua_S,1,"ax.PhysicsShapeEdgeBox",0,&tolua_err)) goto tolua_lerror; #endif argc = lua_gettop(tolua_S) - 1; if (argc == 1) { axis::Vec2 arg0; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsShapeEdgeBox:create"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShapeEdgeBox_create'", nullptr); return 0; } axis::PhysicsShapeEdgeBox* ret = axis::PhysicsShapeEdgeBox::create(arg0); object_to_luaval(tolua_S, "ax.PhysicsShapeEdgeBox",(axis::PhysicsShapeEdgeBox*)ret); return 1; } if (argc == 2) { axis::Vec2 arg0; axis::PhysicsMaterial arg1; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsShapeEdgeBox:create"); ok &= luaval_to_physics_material(tolua_S, 3, &arg1, "ax.PhysicsShapeEdgeBox:create"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShapeEdgeBox_create'", nullptr); return 0; } axis::PhysicsShapeEdgeBox* ret = axis::PhysicsShapeEdgeBox::create(arg0, arg1); object_to_luaval(tolua_S, "ax.PhysicsShapeEdgeBox",(axis::PhysicsShapeEdgeBox*)ret); return 1; } if (argc == 3) { axis::Vec2 arg0; axis::PhysicsMaterial arg1; double arg2; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsShapeEdgeBox:create"); ok &= luaval_to_physics_material(tolua_S, 3, &arg1, "ax.PhysicsShapeEdgeBox:create"); ok &= luaval_to_number(tolua_S, 4,&arg2, "ax.PhysicsShapeEdgeBox:create"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShapeEdgeBox_create'", nullptr); return 0; } axis::PhysicsShapeEdgeBox* ret = axis::PhysicsShapeEdgeBox::create(arg0, arg1, arg2); object_to_luaval(tolua_S, "ax.PhysicsShapeEdgeBox",(axis::PhysicsShapeEdgeBox*)ret); return 1; } if (argc == 4) { axis::Vec2 arg0; axis::PhysicsMaterial arg1; double arg2; axis::Vec2 arg3; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsShapeEdgeBox:create"); ok &= luaval_to_physics_material(tolua_S, 3, &arg1, "ax.PhysicsShapeEdgeBox:create"); ok &= luaval_to_number(tolua_S, 4,&arg2, "ax.PhysicsShapeEdgeBox:create"); ok &= luaval_to_vec2(tolua_S, 5, &arg3, "ax.PhysicsShapeEdgeBox:create"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShapeEdgeBox_create'", nullptr); return 0; } axis::PhysicsShapeEdgeBox* ret = axis::PhysicsShapeEdgeBox::create(arg0, arg1, arg2, arg3); object_to_luaval(tolua_S, "ax.PhysicsShapeEdgeBox",(axis::PhysicsShapeEdgeBox*)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d\n ", "ax.PhysicsShapeEdgeBox:create",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShapeEdgeBox_create'.",&tolua_err); #endif return 0; } static int lua_axis_physics_PhysicsShapeEdgeBox_finalize(lua_State* tolua_S) { printf("luabindings: finalizing LUA object (PhysicsShapeEdgeBox)"); return 0; } int lua_register_axis_physics_PhysicsShapeEdgeBox(lua_State* tolua_S) { tolua_usertype(tolua_S,"ax.PhysicsShapeEdgeBox"); tolua_cclass(tolua_S,"PhysicsShapeEdgeBox","ax.PhysicsShapeEdgeBox","ax.PhysicsShapeEdgePolygon",nullptr); tolua_beginmodule(tolua_S,"PhysicsShapeEdgeBox"); tolua_function(tolua_S,"create", lua_axis_physics_PhysicsShapeEdgeBox_create); tolua_endmodule(tolua_S); auto typeName = typeid(axis::PhysicsShapeEdgeBox).name(); // rtti is literal storage g_luaType[reinterpret_cast(typeName)] = "ax.PhysicsShapeEdgeBox"; g_typeCast[typeName] = "ax.PhysicsShapeEdgeBox"; return 1; } int lua_axis_physics_PhysicsShapeEdgeChain_getPointsCount(lua_State* tolua_S) { int argc = 0; axis::PhysicsShapeEdgeChain* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsShapeEdgeChain",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsShapeEdgeChain*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsShapeEdgeChain_getPointsCount'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsShapeEdgeChain_getPointsCount'", nullptr); return 0; } int ret = cobj->getPointsCount(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsShapeEdgeChain:getPointsCount",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsShapeEdgeChain_getPointsCount'.",&tolua_err); #endif return 0; } static int lua_axis_physics_PhysicsShapeEdgeChain_finalize(lua_State* tolua_S) { printf("luabindings: finalizing LUA object (PhysicsShapeEdgeChain)"); return 0; } int lua_register_axis_physics_PhysicsShapeEdgeChain(lua_State* tolua_S) { tolua_usertype(tolua_S,"ax.PhysicsShapeEdgeChain"); tolua_cclass(tolua_S,"PhysicsShapeEdgeChain","ax.PhysicsShapeEdgeChain","ax.PhysicsShape",nullptr); tolua_beginmodule(tolua_S,"PhysicsShapeEdgeChain"); tolua_function(tolua_S,"getPointsCount",lua_axis_physics_PhysicsShapeEdgeChain_getPointsCount); tolua_endmodule(tolua_S); auto typeName = typeid(axis::PhysicsShapeEdgeChain).name(); // rtti is literal storage g_luaType[reinterpret_cast(typeName)] = "ax.PhysicsShapeEdgeChain"; g_typeCast[typeName] = "ax.PhysicsShapeEdgeChain"; return 1; } int lua_axis_physics_PhysicsBody_isGravityEnabled(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_isGravityEnabled'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_isGravityEnabled'", nullptr); return 0; } bool ret = cobj->isGravityEnabled(); tolua_pushboolean(tolua_S,(bool)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:isGravityEnabled",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_isGravityEnabled'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_resetForces(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_resetForces'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_resetForces'", nullptr); return 0; } cobj->resetForces(); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:resetForces",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_resetForces'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_getVelocityLimit(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_getVelocityLimit'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_getVelocityLimit'", nullptr); return 0; } double ret = cobj->getVelocityLimit(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:getVelocityLimit",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_getVelocityLimit'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_setGroup(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_setGroup'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { int arg0; ok &= luaval_to_int32(tolua_S, 2,(int *)&arg0, "ax.PhysicsBody:setGroup"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_setGroup'", nullptr); return 0; } cobj->setGroup(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:setGroup",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_setGroup'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_getMass(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_getMass'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_getMass'", nullptr); return 0; } double ret = cobj->getMass(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:getMass",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_getMass'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_getCollisionBitmask(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_getCollisionBitmask'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_getCollisionBitmask'", nullptr); return 0; } int ret = cobj->getCollisionBitmask(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:getCollisionBitmask",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_getCollisionBitmask'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_getRotationOffset(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_getRotationOffset'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_getRotationOffset'", nullptr); return 0; } double ret = cobj->getRotationOffset(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:getRotationOffset",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_getRotationOffset'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_getRotation(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_getRotation'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_getRotation'", nullptr); return 0; } double ret = cobj->getRotation(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:getRotation",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_getRotation'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_getMoment(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_getMoment'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_getMoment'", nullptr); return 0; } double ret = cobj->getMoment(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:getMoment",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_getMoment'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_applyImpulse(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_applyImpulse'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { axis::Vec2 arg0; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsBody:applyImpulse"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_applyImpulse'", nullptr); return 0; } cobj->applyImpulse(arg0); lua_settop(tolua_S, 1); return 1; } if (argc == 2) { axis::Vec2 arg0; axis::Vec2 arg1; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsBody:applyImpulse"); ok &= luaval_to_vec2(tolua_S, 3, &arg1, "ax.PhysicsBody:applyImpulse"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_applyImpulse'", nullptr); return 0; } cobj->applyImpulse(arg0, arg1); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:applyImpulse",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_applyImpulse'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_setRotationOffset(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_setRotationOffset'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsBody:setRotationOffset"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_setRotationOffset'", nullptr); return 0; } cobj->setRotationOffset(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:setRotationOffset",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_setRotationOffset'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_applyForce(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_applyForce'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { axis::Vec2 arg0; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsBody:applyForce"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_applyForce'", nullptr); return 0; } cobj->applyForce(arg0); lua_settop(tolua_S, 1); return 1; } if (argc == 2) { axis::Vec2 arg0; axis::Vec2 arg1; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsBody:applyForce"); ok &= luaval_to_vec2(tolua_S, 3, &arg1, "ax.PhysicsBody:applyForce"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_applyForce'", nullptr); return 0; } cobj->applyForce(arg0, arg1); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:applyForce",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_applyForce'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_addShape(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_addShape'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { axis::PhysicsShape* arg0; ok &= luaval_to_object(tolua_S, 2, "ax.PhysicsShape",&arg0, "ax.PhysicsBody:addShape"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_addShape'", nullptr); return 0; } axis::PhysicsShape* ret = cobj->addShape(arg0); object_to_luaval(tolua_S, "ax.PhysicsShape",(axis::PhysicsShape*)ret); return 1; } if (argc == 2) { axis::PhysicsShape* arg0; bool arg1; ok &= luaval_to_object(tolua_S, 2, "ax.PhysicsShape",&arg0, "ax.PhysicsBody:addShape"); ok &= luaval_to_boolean(tolua_S, 3,&arg1, "ax.PhysicsBody:addShape"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_addShape'", nullptr); return 0; } axis::PhysicsShape* ret = cobj->addShape(arg0, arg1); object_to_luaval(tolua_S, "ax.PhysicsShape",(axis::PhysicsShape*)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:addShape",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_addShape'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_applyTorque(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_applyTorque'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsBody:applyTorque"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_applyTorque'", nullptr); return 0; } cobj->applyTorque(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:applyTorque",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_applyTorque'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_getAngularVelocityLimit(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_getAngularVelocityLimit'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_getAngularVelocityLimit'", nullptr); return 0; } double ret = cobj->getAngularVelocityLimit(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:getAngularVelocityLimit",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_getAngularVelocityLimit'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_setAngularVelocityLimit(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_setAngularVelocityLimit'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsBody:setAngularVelocityLimit"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_setAngularVelocityLimit'", nullptr); return 0; } cobj->setAngularVelocityLimit(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:setAngularVelocityLimit",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_setAngularVelocityLimit'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_getVelocity(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_getVelocity'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_getVelocity'", nullptr); return 0; } axis::Vec2 ret = cobj->getVelocity(); vec2_to_luaval(tolua_S, ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:getVelocity",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_getVelocity'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_getLinearDamping(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_getLinearDamping'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_getLinearDamping'", nullptr); return 0; } double ret = cobj->getLinearDamping(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:getLinearDamping",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_getLinearDamping'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_removeAllShapes(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_removeAllShapes'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_removeAllShapes'", nullptr); return 0; } cobj->removeAllShapes(); lua_settop(tolua_S, 1); return 1; } if (argc == 1) { bool arg0; ok &= luaval_to_boolean(tolua_S, 2,&arg0, "ax.PhysicsBody:removeAllShapes"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_removeAllShapes'", nullptr); return 0; } cobj->removeAllShapes(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:removeAllShapes",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_removeAllShapes'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_setAngularDamping(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_setAngularDamping'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsBody:setAngularDamping"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_setAngularDamping'", nullptr); return 0; } cobj->setAngularDamping(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:setAngularDamping",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_setAngularDamping'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_setVelocityLimit(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_setVelocityLimit'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsBody:setVelocityLimit"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_setVelocityLimit'", nullptr); return 0; } cobj->setVelocityLimit(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:setVelocityLimit",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_setVelocityLimit'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_setResting(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_setResting'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { bool arg0; ok &= luaval_to_boolean(tolua_S, 2,&arg0, "ax.PhysicsBody:setResting"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_setResting'", nullptr); return 0; } cobj->setResting(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:setResting",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_setResting'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_getPositionOffset(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_getPositionOffset'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_getPositionOffset'", nullptr); return 0; } const axis::Vec2& ret = cobj->getPositionOffset(); vec2_to_luaval(tolua_S, ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:getPositionOffset",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_getPositionOffset'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_setCategoryBitmask(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_setCategoryBitmask'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { int arg0; ok &= luaval_to_int32(tolua_S, 2,(int *)&arg0, "ax.PhysicsBody:setCategoryBitmask"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_setCategoryBitmask'", nullptr); return 0; } cobj->setCategoryBitmask(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:setCategoryBitmask",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_setCategoryBitmask'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_getWorld(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_getWorld'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_getWorld'", nullptr); return 0; } axis::PhysicsWorld* ret = cobj->getWorld(); object_to_luaval(tolua_S, "ax.PhysicsWorld",(axis::PhysicsWorld*)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:getWorld",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_getWorld'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_getAngularVelocity(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_getAngularVelocity'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_getAngularVelocity'", nullptr); return 0; } double ret = cobj->getAngularVelocity(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:getAngularVelocity",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_getAngularVelocity'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_getPosition(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_getPosition'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_getPosition'", nullptr); return 0; } axis::Vec2 ret = cobj->getPosition(); vec2_to_luaval(tolua_S, ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:getPosition",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_getPosition'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_setGravityEnable(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_setGravityEnable'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { bool arg0; ok &= luaval_to_boolean(tolua_S, 2,&arg0, "ax.PhysicsBody:setGravityEnable"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_setGravityEnable'", nullptr); return 0; } cobj->setGravityEnable(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:setGravityEnable",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_setGravityEnable'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_getGroup(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_getGroup'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_getGroup'", nullptr); return 0; } int ret = cobj->getGroup(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:getGroup",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_getGroup'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_setMoment(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_setMoment'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsBody:setMoment"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_setMoment'", nullptr); return 0; } cobj->setMoment(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:setMoment",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_setMoment'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_getTag(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_getTag'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_getTag'", nullptr); return 0; } int ret = cobj->getTag(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:getTag",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_getTag'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_local2World(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_local2World'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { axis::Vec2 arg0; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsBody:local2World"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_local2World'", nullptr); return 0; } axis::Vec2 ret = cobj->local2World(arg0); vec2_to_luaval(tolua_S, ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:local2World",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_local2World'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_getCategoryBitmask(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_getCategoryBitmask'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_getCategoryBitmask'", nullptr); return 0; } int ret = cobj->getCategoryBitmask(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:getCategoryBitmask",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_getCategoryBitmask'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_setDynamic(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_setDynamic'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { bool arg0; ok &= luaval_to_boolean(tolua_S, 2,&arg0, "ax.PhysicsBody:setDynamic"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_setDynamic'", nullptr); return 0; } cobj->setDynamic(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:setDynamic",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_setDynamic'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_getFirstShape(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_getFirstShape'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_getFirstShape'", nullptr); return 0; } axis::PhysicsShape* ret = cobj->getFirstShape(); object_to_luaval(tolua_S, "ax.PhysicsShape",(axis::PhysicsShape*)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:getFirstShape",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_getFirstShape'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_getShapes(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_getShapes'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_getShapes'", nullptr); return 0; } const axis::Vector& ret = cobj->getShapes(); ccvector_to_luaval(tolua_S, ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:getShapes",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_getShapes'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_getContactTestBitmask(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_getContactTestBitmask'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_getContactTestBitmask'", nullptr); return 0; } int ret = cobj->getContactTestBitmask(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:getContactTestBitmask",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_getContactTestBitmask'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_setAngularVelocity(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_setAngularVelocity'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsBody:setAngularVelocity"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_setAngularVelocity'", nullptr); return 0; } cobj->setAngularVelocity(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:setAngularVelocity",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_setAngularVelocity'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_world2Local(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_world2Local'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { axis::Vec2 arg0; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsBody:world2Local"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_world2Local'", nullptr); return 0; } axis::Vec2 ret = cobj->world2Local(arg0); vec2_to_luaval(tolua_S, ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:world2Local",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_world2Local'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_removeShape(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_removeShape'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; do{ if (argc == 1) { int arg0; ok &= luaval_to_int32(tolua_S, 2,(int *)&arg0, "ax.PhysicsBody:removeShape"); if (!ok) { break; } cobj->removeShape(arg0); lua_settop(tolua_S, 1); return 1; } }while(0); ok = true; do{ if (argc == 2) { int arg0; ok &= luaval_to_int32(tolua_S, 2,(int *)&arg0, "ax.PhysicsBody:removeShape"); if (!ok) { break; } bool arg1; ok &= luaval_to_boolean(tolua_S, 3,&arg1, "ax.PhysicsBody:removeShape"); if (!ok) { break; } cobj->removeShape(arg0, arg1); lua_settop(tolua_S, 1); return 1; } }while(0); ok = true; do{ if (argc == 1) { axis::PhysicsShape* arg0; ok &= luaval_to_object(tolua_S, 2, "ax.PhysicsShape",&arg0, "ax.PhysicsBody:removeShape"); if (!ok) { break; } cobj->removeShape(arg0); lua_settop(tolua_S, 1); return 1; } }while(0); ok = true; do{ if (argc == 2) { axis::PhysicsShape* arg0; ok &= luaval_to_object(tolua_S, 2, "ax.PhysicsShape",&arg0, "ax.PhysicsBody:removeShape"); if (!ok) { break; } bool arg1; ok &= luaval_to_boolean(tolua_S, 3,&arg1, "ax.PhysicsBody:removeShape"); if (!ok) { break; } cobj->removeShape(arg0, arg1); lua_settop(tolua_S, 1); return 1; } }while(0); ok = true; luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:removeShape",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_removeShape'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_setMass(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_setMass'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsBody:setMass"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_setMass'", nullptr); return 0; } cobj->setMass(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:setMass",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_setMass'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_addMoment(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_addMoment'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsBody:addMoment"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_addMoment'", nullptr); return 0; } cobj->addMoment(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:addMoment",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_addMoment'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_setVelocity(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_setVelocity'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { axis::Vec2 arg0; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsBody:setVelocity"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_setVelocity'", nullptr); return 0; } cobj->setVelocity(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:setVelocity",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_setVelocity'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_setLinearDamping(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_setLinearDamping'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsBody:setLinearDamping"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_setLinearDamping'", nullptr); return 0; } cobj->setLinearDamping(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:setLinearDamping",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_setLinearDamping'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_setCollisionBitmask(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_setCollisionBitmask'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { int arg0; ok &= luaval_to_int32(tolua_S, 2,(int *)&arg0, "ax.PhysicsBody:setCollisionBitmask"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_setCollisionBitmask'", nullptr); return 0; } cobj->setCollisionBitmask(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:setCollisionBitmask",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_setCollisionBitmask'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_setPositionOffset(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_setPositionOffset'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { axis::Vec2 arg0; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsBody:setPositionOffset"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_setPositionOffset'", nullptr); return 0; } cobj->setPositionOffset(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:setPositionOffset",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_setPositionOffset'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_setRotationEnable(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_setRotationEnable'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { bool arg0; ok &= luaval_to_boolean(tolua_S, 2,&arg0, "ax.PhysicsBody:setRotationEnable"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_setRotationEnable'", nullptr); return 0; } cobj->setRotationEnable(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:setRotationEnable",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_setRotationEnable'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_isRotationEnabled(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_isRotationEnabled'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_isRotationEnabled'", nullptr); return 0; } bool ret = cobj->isRotationEnabled(); tolua_pushboolean(tolua_S,(bool)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:isRotationEnabled",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_isRotationEnabled'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_getCPBody(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_getCPBody'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_getCPBody'", nullptr); return 0; } cpBody* ret = cobj->getCPBody(); #pragma warning NO CONVERSION FROM NATIVE FOR cpBody*; return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:getCPBody",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_getCPBody'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_getAngularDamping(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_getAngularDamping'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_getAngularDamping'", nullptr); return 0; } double ret = cobj->getAngularDamping(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:getAngularDamping",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_getAngularDamping'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_getVelocityAtLocalPoint(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_getVelocityAtLocalPoint'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { axis::Vec2 arg0; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsBody:getVelocityAtLocalPoint"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_getVelocityAtLocalPoint'", nullptr); return 0; } axis::Vec2 ret = cobj->getVelocityAtLocalPoint(arg0); vec2_to_luaval(tolua_S, ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:getVelocityAtLocalPoint",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_getVelocityAtLocalPoint'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_isResting(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_isResting'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_isResting'", nullptr); return 0; } bool ret = cobj->isResting(); tolua_pushboolean(tolua_S,(bool)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:isResting",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_isResting'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_addMass(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_addMass'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsBody:addMass"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_addMass'", nullptr); return 0; } cobj->addMass(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:addMass",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_addMass'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_getShape(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_getShape'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { int arg0; ok &= luaval_to_int32(tolua_S, 2,(int *)&arg0, "ax.PhysicsBody:getShape"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_getShape'", nullptr); return 0; } axis::PhysicsShape* ret = cobj->getShape(arg0); object_to_luaval(tolua_S, "ax.PhysicsShape",(axis::PhysicsShape*)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:getShape",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_getShape'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_setTag(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_setTag'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { int arg0; ok &= luaval_to_int32(tolua_S, 2,(int *)&arg0, "ax.PhysicsBody:setTag"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_setTag'", nullptr); return 0; } cobj->setTag(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:setTag",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_setTag'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_getVelocityAtWorldPoint(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_getVelocityAtWorldPoint'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { axis::Vec2 arg0; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsBody:getVelocityAtWorldPoint"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_getVelocityAtWorldPoint'", nullptr); return 0; } axis::Vec2 ret = cobj->getVelocityAtWorldPoint(arg0); vec2_to_luaval(tolua_S, ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:getVelocityAtWorldPoint",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_getVelocityAtWorldPoint'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_setContactTestBitmask(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_setContactTestBitmask'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { int arg0; ok &= luaval_to_int32(tolua_S, 2,(int *)&arg0, "ax.PhysicsBody:setContactTestBitmask"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_setContactTestBitmask'", nullptr); return 0; } cobj->setContactTestBitmask(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:setContactTestBitmask",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_setContactTestBitmask'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_removeFromWorld(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_removeFromWorld'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_removeFromWorld'", nullptr); return 0; } cobj->removeFromWorld(); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:removeFromWorld",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_removeFromWorld'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_isDynamic(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_isDynamic'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_isDynamic'", nullptr); return 0; } bool ret = cobj->isDynamic(); tolua_pushboolean(tolua_S,(bool)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:isDynamic",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_isDynamic'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_getNode(lua_State* tolua_S) { int argc = 0; axis::PhysicsBody* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsBody*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsBody_getNode'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_getNode'", nullptr); return 0; } axis::Node* ret = cobj->getNode(); object_to_luaval(tolua_S, "ax.Node",(axis::Node*)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsBody:getNode",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_getNode'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_createBox(lua_State* tolua_S) { int argc = 0; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertable(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif argc = lua_gettop(tolua_S) - 1; if (argc == 1) { axis::Vec2 arg0; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsBody:createBox"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_createBox'", nullptr); return 0; } axis::PhysicsBody* ret = axis::PhysicsBody::createBox(arg0); object_to_luaval(tolua_S, "ax.PhysicsBody",(axis::PhysicsBody*)ret); return 1; } if (argc == 2) { axis::Vec2 arg0; axis::PhysicsMaterial arg1; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsBody:createBox"); ok &= luaval_to_physics_material(tolua_S, 3, &arg1, "ax.PhysicsBody:createBox"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_createBox'", nullptr); return 0; } axis::PhysicsBody* ret = axis::PhysicsBody::createBox(arg0, arg1); object_to_luaval(tolua_S, "ax.PhysicsBody",(axis::PhysicsBody*)ret); return 1; } if (argc == 3) { axis::Vec2 arg0; axis::PhysicsMaterial arg1; axis::Vec2 arg2; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsBody:createBox"); ok &= luaval_to_physics_material(tolua_S, 3, &arg1, "ax.PhysicsBody:createBox"); ok &= luaval_to_vec2(tolua_S, 4, &arg2, "ax.PhysicsBody:createBox"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_createBox'", nullptr); return 0; } axis::PhysicsBody* ret = axis::PhysicsBody::createBox(arg0, arg1, arg2); object_to_luaval(tolua_S, "ax.PhysicsBody",(axis::PhysicsBody*)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d\n ", "ax.PhysicsBody:createBox",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_createBox'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_createEdgeSegment(lua_State* tolua_S) { int argc = 0; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertable(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif argc = lua_gettop(tolua_S) - 1; if (argc == 2) { axis::Vec2 arg0; axis::Vec2 arg1; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsBody:createEdgeSegment"); ok &= luaval_to_vec2(tolua_S, 3, &arg1, "ax.PhysicsBody:createEdgeSegment"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_createEdgeSegment'", nullptr); return 0; } axis::PhysicsBody* ret = axis::PhysicsBody::createEdgeSegment(arg0, arg1); object_to_luaval(tolua_S, "ax.PhysicsBody",(axis::PhysicsBody*)ret); return 1; } if (argc == 3) { axis::Vec2 arg0; axis::Vec2 arg1; axis::PhysicsMaterial arg2; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsBody:createEdgeSegment"); ok &= luaval_to_vec2(tolua_S, 3, &arg1, "ax.PhysicsBody:createEdgeSegment"); ok &= luaval_to_physics_material(tolua_S, 4, &arg2, "ax.PhysicsBody:createEdgeSegment"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_createEdgeSegment'", nullptr); return 0; } axis::PhysicsBody* ret = axis::PhysicsBody::createEdgeSegment(arg0, arg1, arg2); object_to_luaval(tolua_S, "ax.PhysicsBody",(axis::PhysicsBody*)ret); return 1; } if (argc == 4) { axis::Vec2 arg0; axis::Vec2 arg1; axis::PhysicsMaterial arg2; double arg3; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsBody:createEdgeSegment"); ok &= luaval_to_vec2(tolua_S, 3, &arg1, "ax.PhysicsBody:createEdgeSegment"); ok &= luaval_to_physics_material(tolua_S, 4, &arg2, "ax.PhysicsBody:createEdgeSegment"); ok &= luaval_to_number(tolua_S, 5,&arg3, "ax.PhysicsBody:createEdgeSegment"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_createEdgeSegment'", nullptr); return 0; } axis::PhysicsBody* ret = axis::PhysicsBody::createEdgeSegment(arg0, arg1, arg2, arg3); object_to_luaval(tolua_S, "ax.PhysicsBody",(axis::PhysicsBody*)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d\n ", "ax.PhysicsBody:createEdgeSegment",argc, 2); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_createEdgeSegment'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_create(lua_State* tolua_S) { int argc = 0; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertable(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif argc = lua_gettop(tolua_S)-1; do { if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsBody:create"); if (!ok) { break; } axis::PhysicsBody* ret = axis::PhysicsBody::create(arg0); object_to_luaval(tolua_S, "ax.PhysicsBody",(axis::PhysicsBody*)ret); return 1; } } while (0); ok = true; do { if (argc == 0) { axis::PhysicsBody* ret = axis::PhysicsBody::create(); object_to_luaval(tolua_S, "ax.PhysicsBody",(axis::PhysicsBody*)ret); return 1; } } while (0); ok = true; do { if (argc == 2) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsBody:create"); if (!ok) { break; } double arg1; ok &= luaval_to_number(tolua_S, 3,&arg1, "ax.PhysicsBody:create"); if (!ok) { break; } axis::PhysicsBody* ret = axis::PhysicsBody::create(arg0, arg1); object_to_luaval(tolua_S, "ax.PhysicsBody",(axis::PhysicsBody*)ret); return 1; } } while (0); ok = true; luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d", "ax.PhysicsBody:create",argc, 2); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_create'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_createEdgeBox(lua_State* tolua_S) { int argc = 0; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertable(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif argc = lua_gettop(tolua_S) - 1; if (argc == 1) { axis::Vec2 arg0; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsBody:createEdgeBox"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_createEdgeBox'", nullptr); return 0; } axis::PhysicsBody* ret = axis::PhysicsBody::createEdgeBox(arg0); object_to_luaval(tolua_S, "ax.PhysicsBody",(axis::PhysicsBody*)ret); return 1; } if (argc == 2) { axis::Vec2 arg0; axis::PhysicsMaterial arg1; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsBody:createEdgeBox"); ok &= luaval_to_physics_material(tolua_S, 3, &arg1, "ax.PhysicsBody:createEdgeBox"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_createEdgeBox'", nullptr); return 0; } axis::PhysicsBody* ret = axis::PhysicsBody::createEdgeBox(arg0, arg1); object_to_luaval(tolua_S, "ax.PhysicsBody",(axis::PhysicsBody*)ret); return 1; } if (argc == 3) { axis::Vec2 arg0; axis::PhysicsMaterial arg1; double arg2; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsBody:createEdgeBox"); ok &= luaval_to_physics_material(tolua_S, 3, &arg1, "ax.PhysicsBody:createEdgeBox"); ok &= luaval_to_number(tolua_S, 4,&arg2, "ax.PhysicsBody:createEdgeBox"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_createEdgeBox'", nullptr); return 0; } axis::PhysicsBody* ret = axis::PhysicsBody::createEdgeBox(arg0, arg1, arg2); object_to_luaval(tolua_S, "ax.PhysicsBody",(axis::PhysicsBody*)ret); return 1; } if (argc == 4) { axis::Vec2 arg0; axis::PhysicsMaterial arg1; double arg2; axis::Vec2 arg3; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsBody:createEdgeBox"); ok &= luaval_to_physics_material(tolua_S, 3, &arg1, "ax.PhysicsBody:createEdgeBox"); ok &= luaval_to_number(tolua_S, 4,&arg2, "ax.PhysicsBody:createEdgeBox"); ok &= luaval_to_vec2(tolua_S, 5, &arg3, "ax.PhysicsBody:createEdgeBox"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_createEdgeBox'", nullptr); return 0; } axis::PhysicsBody* ret = axis::PhysicsBody::createEdgeBox(arg0, arg1, arg2, arg3); object_to_luaval(tolua_S, "ax.PhysicsBody",(axis::PhysicsBody*)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d\n ", "ax.PhysicsBody:createEdgeBox",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_createEdgeBox'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsBody_createCircle(lua_State* tolua_S) { int argc = 0; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertable(tolua_S,1,"ax.PhysicsBody",0,&tolua_err)) goto tolua_lerror; #endif argc = lua_gettop(tolua_S) - 1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsBody:createCircle"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_createCircle'", nullptr); return 0; } axis::PhysicsBody* ret = axis::PhysicsBody::createCircle(arg0); object_to_luaval(tolua_S, "ax.PhysicsBody",(axis::PhysicsBody*)ret); return 1; } if (argc == 2) { double arg0; axis::PhysicsMaterial arg1; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsBody:createCircle"); ok &= luaval_to_physics_material(tolua_S, 3, &arg1, "ax.PhysicsBody:createCircle"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_createCircle'", nullptr); return 0; } axis::PhysicsBody* ret = axis::PhysicsBody::createCircle(arg0, arg1); object_to_luaval(tolua_S, "ax.PhysicsBody",(axis::PhysicsBody*)ret); return 1; } if (argc == 3) { double arg0; axis::PhysicsMaterial arg1; axis::Vec2 arg2; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsBody:createCircle"); ok &= luaval_to_physics_material(tolua_S, 3, &arg1, "ax.PhysicsBody:createCircle"); ok &= luaval_to_vec2(tolua_S, 4, &arg2, "ax.PhysicsBody:createCircle"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsBody_createCircle'", nullptr); return 0; } axis::PhysicsBody* ret = axis::PhysicsBody::createCircle(arg0, arg1, arg2); object_to_luaval(tolua_S, "ax.PhysicsBody",(axis::PhysicsBody*)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d\n ", "ax.PhysicsBody:createCircle",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsBody_createCircle'.",&tolua_err); #endif return 0; } static int lua_axis_physics_PhysicsBody_finalize(lua_State* tolua_S) { printf("luabindings: finalizing LUA object (PhysicsBody)"); return 0; } int lua_register_axis_physics_PhysicsBody(lua_State* tolua_S) { tolua_usertype(tolua_S,"ax.PhysicsBody"); tolua_cclass(tolua_S,"PhysicsBody","ax.PhysicsBody","ax.Component",nullptr); tolua_beginmodule(tolua_S,"PhysicsBody"); tolua_function(tolua_S,"isGravityEnabled",lua_axis_physics_PhysicsBody_isGravityEnabled); tolua_function(tolua_S,"resetForces",lua_axis_physics_PhysicsBody_resetForces); tolua_function(tolua_S,"getVelocityLimit",lua_axis_physics_PhysicsBody_getVelocityLimit); tolua_function(tolua_S,"setGroup",lua_axis_physics_PhysicsBody_setGroup); tolua_function(tolua_S,"getMass",lua_axis_physics_PhysicsBody_getMass); tolua_function(tolua_S,"getCollisionBitmask",lua_axis_physics_PhysicsBody_getCollisionBitmask); tolua_function(tolua_S,"getRotationOffset",lua_axis_physics_PhysicsBody_getRotationOffset); tolua_function(tolua_S,"getRotation",lua_axis_physics_PhysicsBody_getRotation); tolua_function(tolua_S,"getMoment",lua_axis_physics_PhysicsBody_getMoment); tolua_function(tolua_S,"applyImpulse",lua_axis_physics_PhysicsBody_applyImpulse); tolua_function(tolua_S,"setRotationOffset",lua_axis_physics_PhysicsBody_setRotationOffset); tolua_function(tolua_S,"applyForce",lua_axis_physics_PhysicsBody_applyForce); tolua_function(tolua_S,"addShape",lua_axis_physics_PhysicsBody_addShape); tolua_function(tolua_S,"applyTorque",lua_axis_physics_PhysicsBody_applyTorque); tolua_function(tolua_S,"getAngularVelocityLimit",lua_axis_physics_PhysicsBody_getAngularVelocityLimit); tolua_function(tolua_S,"setAngularVelocityLimit",lua_axis_physics_PhysicsBody_setAngularVelocityLimit); tolua_function(tolua_S,"getVelocity",lua_axis_physics_PhysicsBody_getVelocity); tolua_function(tolua_S,"getLinearDamping",lua_axis_physics_PhysicsBody_getLinearDamping); tolua_function(tolua_S,"removeAllShapes",lua_axis_physics_PhysicsBody_removeAllShapes); tolua_function(tolua_S,"setAngularDamping",lua_axis_physics_PhysicsBody_setAngularDamping); tolua_function(tolua_S,"setVelocityLimit",lua_axis_physics_PhysicsBody_setVelocityLimit); tolua_function(tolua_S,"setResting",lua_axis_physics_PhysicsBody_setResting); tolua_function(tolua_S,"getPositionOffset",lua_axis_physics_PhysicsBody_getPositionOffset); tolua_function(tolua_S,"setCategoryBitmask",lua_axis_physics_PhysicsBody_setCategoryBitmask); tolua_function(tolua_S,"getWorld",lua_axis_physics_PhysicsBody_getWorld); tolua_function(tolua_S,"getAngularVelocity",lua_axis_physics_PhysicsBody_getAngularVelocity); tolua_function(tolua_S,"getPosition",lua_axis_physics_PhysicsBody_getPosition); tolua_function(tolua_S,"setGravityEnable",lua_axis_physics_PhysicsBody_setGravityEnable); tolua_function(tolua_S,"getGroup",lua_axis_physics_PhysicsBody_getGroup); tolua_function(tolua_S,"setMoment",lua_axis_physics_PhysicsBody_setMoment); tolua_function(tolua_S,"getTag",lua_axis_physics_PhysicsBody_getTag); tolua_function(tolua_S,"local2World",lua_axis_physics_PhysicsBody_local2World); tolua_function(tolua_S,"getCategoryBitmask",lua_axis_physics_PhysicsBody_getCategoryBitmask); tolua_function(tolua_S,"setDynamic",lua_axis_physics_PhysicsBody_setDynamic); tolua_function(tolua_S,"getFirstShape",lua_axis_physics_PhysicsBody_getFirstShape); tolua_function(tolua_S,"getShapes",lua_axis_physics_PhysicsBody_getShapes); tolua_function(tolua_S,"getContactTestBitmask",lua_axis_physics_PhysicsBody_getContactTestBitmask); tolua_function(tolua_S,"setAngularVelocity",lua_axis_physics_PhysicsBody_setAngularVelocity); tolua_function(tolua_S,"world2Local",lua_axis_physics_PhysicsBody_world2Local); tolua_function(tolua_S,"removeShape",lua_axis_physics_PhysicsBody_removeShape); tolua_function(tolua_S,"setMass",lua_axis_physics_PhysicsBody_setMass); tolua_function(tolua_S,"addMoment",lua_axis_physics_PhysicsBody_addMoment); tolua_function(tolua_S,"setVelocity",lua_axis_physics_PhysicsBody_setVelocity); tolua_function(tolua_S,"setLinearDamping",lua_axis_physics_PhysicsBody_setLinearDamping); tolua_function(tolua_S,"setCollisionBitmask",lua_axis_physics_PhysicsBody_setCollisionBitmask); tolua_function(tolua_S,"setPositionOffset",lua_axis_physics_PhysicsBody_setPositionOffset); tolua_function(tolua_S,"setRotationEnable",lua_axis_physics_PhysicsBody_setRotationEnable); tolua_function(tolua_S,"isRotationEnabled",lua_axis_physics_PhysicsBody_isRotationEnabled); tolua_function(tolua_S,"getCPBody",lua_axis_physics_PhysicsBody_getCPBody); tolua_function(tolua_S,"getAngularDamping",lua_axis_physics_PhysicsBody_getAngularDamping); tolua_function(tolua_S,"getVelocityAtLocalPoint",lua_axis_physics_PhysicsBody_getVelocityAtLocalPoint); tolua_function(tolua_S,"isResting",lua_axis_physics_PhysicsBody_isResting); tolua_function(tolua_S,"addMass",lua_axis_physics_PhysicsBody_addMass); tolua_function(tolua_S,"getShape",lua_axis_physics_PhysicsBody_getShape); tolua_function(tolua_S,"setTag",lua_axis_physics_PhysicsBody_setTag); tolua_function(tolua_S,"getVelocityAtWorldPoint",lua_axis_physics_PhysicsBody_getVelocityAtWorldPoint); tolua_function(tolua_S,"setContactTestBitmask",lua_axis_physics_PhysicsBody_setContactTestBitmask); tolua_function(tolua_S,"removeFromWorld",lua_axis_physics_PhysicsBody_removeFromWorld); tolua_function(tolua_S,"isDynamic",lua_axis_physics_PhysicsBody_isDynamic); tolua_function(tolua_S,"getNode",lua_axis_physics_PhysicsBody_getNode); tolua_function(tolua_S,"createBox", lua_axis_physics_PhysicsBody_createBox); tolua_function(tolua_S,"createEdgeSegment", lua_axis_physics_PhysicsBody_createEdgeSegment); tolua_function(tolua_S,"create", lua_axis_physics_PhysicsBody_create); tolua_function(tolua_S,"createEdgeBox", lua_axis_physics_PhysicsBody_createEdgeBox); tolua_function(tolua_S,"createCircle", lua_axis_physics_PhysicsBody_createCircle); tolua_endmodule(tolua_S); auto typeName = typeid(axis::PhysicsBody).name(); // rtti is literal storage g_luaType[reinterpret_cast(typeName)] = "ax.PhysicsBody"; g_typeCast[typeName] = "ax.PhysicsBody"; return 1; } int lua_axis_physics_PhysicsContact_getContactData(lua_State* tolua_S) { int argc = 0; axis::PhysicsContact* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsContact",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsContact*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsContact_getContactData'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsContact_getContactData'", nullptr); return 0; } const axis::PhysicsContactData* ret = cobj->getContactData(); physics_contactdata_to_luaval(tolua_S, ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsContact:getContactData",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsContact_getContactData'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsContact_getEventCode(lua_State* tolua_S) { int argc = 0; axis::PhysicsContact* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsContact",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsContact*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsContact_getEventCode'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsContact_getEventCode'", nullptr); return 0; } int ret = (int)cobj->getEventCode(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsContact:getEventCode",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsContact_getEventCode'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsContact_getPreContactData(lua_State* tolua_S) { int argc = 0; axis::PhysicsContact* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsContact",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsContact*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsContact_getPreContactData'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsContact_getPreContactData'", nullptr); return 0; } const axis::PhysicsContactData* ret = cobj->getPreContactData(); physics_contactdata_to_luaval(tolua_S, ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsContact:getPreContactData",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsContact_getPreContactData'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsContact_getShapeA(lua_State* tolua_S) { int argc = 0; axis::PhysicsContact* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsContact",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsContact*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsContact_getShapeA'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsContact_getShapeA'", nullptr); return 0; } axis::PhysicsShape* ret = cobj->getShapeA(); object_to_luaval(tolua_S, "ax.PhysicsShape",(axis::PhysicsShape*)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsContact:getShapeA",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsContact_getShapeA'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsContact_getShapeB(lua_State* tolua_S) { int argc = 0; axis::PhysicsContact* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsContact",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsContact*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsContact_getShapeB'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsContact_getShapeB'", nullptr); return 0; } axis::PhysicsShape* ret = cobj->getShapeB(); object_to_luaval(tolua_S, "ax.PhysicsShape",(axis::PhysicsShape*)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsContact:getShapeB",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsContact_getShapeB'.",&tolua_err); #endif return 0; } static int lua_axis_physics_PhysicsContact_finalize(lua_State* tolua_S) { printf("luabindings: finalizing LUA object (PhysicsContact)"); return 0; } int lua_register_axis_physics_PhysicsContact(lua_State* tolua_S) { tolua_usertype(tolua_S,"ax.PhysicsContact"); tolua_cclass(tolua_S,"PhysicsContact","ax.PhysicsContact","ax.EventCustom",nullptr); tolua_beginmodule(tolua_S,"PhysicsContact"); tolua_function(tolua_S,"getContactData",lua_axis_physics_PhysicsContact_getContactData); tolua_function(tolua_S,"getEventCode",lua_axis_physics_PhysicsContact_getEventCode); tolua_function(tolua_S,"getPreContactData",lua_axis_physics_PhysicsContact_getPreContactData); tolua_function(tolua_S,"getShapeA",lua_axis_physics_PhysicsContact_getShapeA); tolua_function(tolua_S,"getShapeB",lua_axis_physics_PhysicsContact_getShapeB); tolua_endmodule(tolua_S); auto typeName = typeid(axis::PhysicsContact).name(); // rtti is literal storage g_luaType[reinterpret_cast(typeName)] = "ax.PhysicsContact"; g_typeCast[typeName] = "ax.PhysicsContact"; return 1; } int lua_axis_physics_PhysicsContactPreSolve_getFriction(lua_State* tolua_S) { int argc = 0; axis::PhysicsContactPreSolve* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsContactPreSolve",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsContactPreSolve*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsContactPreSolve_getFriction'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsContactPreSolve_getFriction'", nullptr); return 0; } double ret = cobj->getFriction(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsContactPreSolve:getFriction",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsContactPreSolve_getFriction'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsContactPreSolve_getRestitution(lua_State* tolua_S) { int argc = 0; axis::PhysicsContactPreSolve* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsContactPreSolve",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsContactPreSolve*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsContactPreSolve_getRestitution'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsContactPreSolve_getRestitution'", nullptr); return 0; } double ret = cobj->getRestitution(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsContactPreSolve:getRestitution",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsContactPreSolve_getRestitution'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsContactPreSolve_setFriction(lua_State* tolua_S) { int argc = 0; axis::PhysicsContactPreSolve* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsContactPreSolve",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsContactPreSolve*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsContactPreSolve_setFriction'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsContactPreSolve:setFriction"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsContactPreSolve_setFriction'", nullptr); return 0; } cobj->setFriction(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsContactPreSolve:setFriction",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsContactPreSolve_setFriction'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsContactPreSolve_ignore(lua_State* tolua_S) { int argc = 0; axis::PhysicsContactPreSolve* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsContactPreSolve",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsContactPreSolve*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsContactPreSolve_ignore'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsContactPreSolve_ignore'", nullptr); return 0; } cobj->ignore(); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsContactPreSolve:ignore",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsContactPreSolve_ignore'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsContactPreSolve_getSurfaceVelocity(lua_State* tolua_S) { int argc = 0; axis::PhysicsContactPreSolve* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsContactPreSolve",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsContactPreSolve*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsContactPreSolve_getSurfaceVelocity'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsContactPreSolve_getSurfaceVelocity'", nullptr); return 0; } axis::Vec2 ret = cobj->getSurfaceVelocity(); vec2_to_luaval(tolua_S, ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsContactPreSolve:getSurfaceVelocity",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsContactPreSolve_getSurfaceVelocity'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsContactPreSolve_setSurfaceVelocity(lua_State* tolua_S) { int argc = 0; axis::PhysicsContactPreSolve* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsContactPreSolve",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsContactPreSolve*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsContactPreSolve_setSurfaceVelocity'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { axis::Vec2 arg0; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsContactPreSolve:setSurfaceVelocity"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsContactPreSolve_setSurfaceVelocity'", nullptr); return 0; } cobj->setSurfaceVelocity(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsContactPreSolve:setSurfaceVelocity",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsContactPreSolve_setSurfaceVelocity'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsContactPreSolve_setRestitution(lua_State* tolua_S) { int argc = 0; axis::PhysicsContactPreSolve* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsContactPreSolve",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsContactPreSolve*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsContactPreSolve_setRestitution'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsContactPreSolve:setRestitution"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsContactPreSolve_setRestitution'", nullptr); return 0; } cobj->setRestitution(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsContactPreSolve:setRestitution",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsContactPreSolve_setRestitution'.",&tolua_err); #endif return 0; } static int lua_axis_physics_PhysicsContactPreSolve_finalize(lua_State* tolua_S) { printf("luabindings: finalizing LUA object (PhysicsContactPreSolve)"); return 0; } int lua_register_axis_physics_PhysicsContactPreSolve(lua_State* tolua_S) { tolua_usertype(tolua_S,"ax.PhysicsContactPreSolve"); tolua_cclass(tolua_S,"PhysicsContactPreSolve","ax.PhysicsContactPreSolve","",nullptr); tolua_beginmodule(tolua_S,"PhysicsContactPreSolve"); tolua_function(tolua_S,"getFriction",lua_axis_physics_PhysicsContactPreSolve_getFriction); tolua_function(tolua_S,"getRestitution",lua_axis_physics_PhysicsContactPreSolve_getRestitution); tolua_function(tolua_S,"setFriction",lua_axis_physics_PhysicsContactPreSolve_setFriction); tolua_function(tolua_S,"ignore",lua_axis_physics_PhysicsContactPreSolve_ignore); tolua_function(tolua_S,"getSurfaceVelocity",lua_axis_physics_PhysicsContactPreSolve_getSurfaceVelocity); tolua_function(tolua_S,"setSurfaceVelocity",lua_axis_physics_PhysicsContactPreSolve_setSurfaceVelocity); tolua_function(tolua_S,"setRestitution",lua_axis_physics_PhysicsContactPreSolve_setRestitution); tolua_endmodule(tolua_S); auto typeName = typeid(axis::PhysicsContactPreSolve).name(); // rtti is literal storage g_luaType[reinterpret_cast(typeName)] = "ax.PhysicsContactPreSolve"; g_typeCast[typeName] = "ax.PhysicsContactPreSolve"; return 1; } int lua_axis_physics_PhysicsContactPostSolve_getFriction(lua_State* tolua_S) { int argc = 0; axis::PhysicsContactPostSolve* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsContactPostSolve",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsContactPostSolve*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsContactPostSolve_getFriction'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsContactPostSolve_getFriction'", nullptr); return 0; } double ret = cobj->getFriction(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsContactPostSolve:getFriction",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsContactPostSolve_getFriction'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsContactPostSolve_getSurfaceVelocity(lua_State* tolua_S) { int argc = 0; axis::PhysicsContactPostSolve* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsContactPostSolve",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsContactPostSolve*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsContactPostSolve_getSurfaceVelocity'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsContactPostSolve_getSurfaceVelocity'", nullptr); return 0; } axis::Vec2 ret = cobj->getSurfaceVelocity(); vec2_to_luaval(tolua_S, ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsContactPostSolve:getSurfaceVelocity",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsContactPostSolve_getSurfaceVelocity'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsContactPostSolve_getRestitution(lua_State* tolua_S) { int argc = 0; axis::PhysicsContactPostSolve* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsContactPostSolve",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsContactPostSolve*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsContactPostSolve_getRestitution'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsContactPostSolve_getRestitution'", nullptr); return 0; } double ret = cobj->getRestitution(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsContactPostSolve:getRestitution",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsContactPostSolve_getRestitution'.",&tolua_err); #endif return 0; } static int lua_axis_physics_PhysicsContactPostSolve_finalize(lua_State* tolua_S) { printf("luabindings: finalizing LUA object (PhysicsContactPostSolve)"); return 0; } int lua_register_axis_physics_PhysicsContactPostSolve(lua_State* tolua_S) { tolua_usertype(tolua_S,"ax.PhysicsContactPostSolve"); tolua_cclass(tolua_S,"PhysicsContactPostSolve","ax.PhysicsContactPostSolve","",nullptr); tolua_beginmodule(tolua_S,"PhysicsContactPostSolve"); tolua_function(tolua_S,"getFriction",lua_axis_physics_PhysicsContactPostSolve_getFriction); tolua_function(tolua_S,"getSurfaceVelocity",lua_axis_physics_PhysicsContactPostSolve_getSurfaceVelocity); tolua_function(tolua_S,"getRestitution",lua_axis_physics_PhysicsContactPostSolve_getRestitution); tolua_endmodule(tolua_S); auto typeName = typeid(axis::PhysicsContactPostSolve).name(); // rtti is literal storage g_luaType[reinterpret_cast(typeName)] = "ax.PhysicsContactPostSolve"; g_typeCast[typeName] = "ax.PhysicsContactPostSolve"; return 1; } int lua_axis_physics_EventListenerPhysicsContact_create(lua_State* tolua_S) { int argc = 0; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertable(tolua_S,1,"ax.EventListenerPhysicsContact",0,&tolua_err)) goto tolua_lerror; #endif argc = lua_gettop(tolua_S) - 1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_EventListenerPhysicsContact_create'", nullptr); return 0; } axis::EventListenerPhysicsContact* ret = axis::EventListenerPhysicsContact::create(); object_to_luaval(tolua_S, "ax.EventListenerPhysicsContact",(axis::EventListenerPhysicsContact*)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d\n ", "ax.EventListenerPhysicsContact:create",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_EventListenerPhysicsContact_create'.",&tolua_err); #endif return 0; } static int lua_axis_physics_EventListenerPhysicsContact_finalize(lua_State* tolua_S) { printf("luabindings: finalizing LUA object (EventListenerPhysicsContact)"); return 0; } int lua_register_axis_physics_EventListenerPhysicsContact(lua_State* tolua_S) { tolua_usertype(tolua_S,"ax.EventListenerPhysicsContact"); tolua_cclass(tolua_S,"EventListenerPhysicsContact","ax.EventListenerPhysicsContact","ax.EventListenerCustom",nullptr); tolua_beginmodule(tolua_S,"EventListenerPhysicsContact"); tolua_function(tolua_S,"create", lua_axis_physics_EventListenerPhysicsContact_create); tolua_endmodule(tolua_S); auto typeName = typeid(axis::EventListenerPhysicsContact).name(); // rtti is literal storage g_luaType[reinterpret_cast(typeName)] = "ax.EventListenerPhysicsContact"; g_typeCast[typeName] = "ax.EventListenerPhysicsContact"; return 1; } int lua_axis_physics_EventListenerPhysicsContactWithBodies_hitTest(lua_State* tolua_S) { int argc = 0; axis::EventListenerPhysicsContactWithBodies* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.EventListenerPhysicsContactWithBodies",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::EventListenerPhysicsContactWithBodies*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_EventListenerPhysicsContactWithBodies_hitTest'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 2) { axis::PhysicsShape* arg0; axis::PhysicsShape* arg1; ok &= luaval_to_object(tolua_S, 2, "ax.PhysicsShape",&arg0, "ax.EventListenerPhysicsContactWithBodies:hitTest"); ok &= luaval_to_object(tolua_S, 3, "ax.PhysicsShape",&arg1, "ax.EventListenerPhysicsContactWithBodies:hitTest"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_EventListenerPhysicsContactWithBodies_hitTest'", nullptr); return 0; } bool ret = cobj->hitTest(arg0, arg1); tolua_pushboolean(tolua_S,(bool)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.EventListenerPhysicsContactWithBodies:hitTest",argc, 2); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_EventListenerPhysicsContactWithBodies_hitTest'.",&tolua_err); #endif return 0; } int lua_axis_physics_EventListenerPhysicsContactWithBodies_create(lua_State* tolua_S) { int argc = 0; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertable(tolua_S,1,"ax.EventListenerPhysicsContactWithBodies",0,&tolua_err)) goto tolua_lerror; #endif argc = lua_gettop(tolua_S) - 1; if (argc == 2) { axis::PhysicsBody* arg0; axis::PhysicsBody* arg1; ok &= luaval_to_object(tolua_S, 2, "ax.PhysicsBody",&arg0, "ax.EventListenerPhysicsContactWithBodies:create"); ok &= luaval_to_object(tolua_S, 3, "ax.PhysicsBody",&arg1, "ax.EventListenerPhysicsContactWithBodies:create"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_EventListenerPhysicsContactWithBodies_create'", nullptr); return 0; } axis::EventListenerPhysicsContactWithBodies* ret = axis::EventListenerPhysicsContactWithBodies::create(arg0, arg1); object_to_luaval(tolua_S, "ax.EventListenerPhysicsContactWithBodies",(axis::EventListenerPhysicsContactWithBodies*)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d\n ", "ax.EventListenerPhysicsContactWithBodies:create",argc, 2); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_EventListenerPhysicsContactWithBodies_create'.",&tolua_err); #endif return 0; } static int lua_axis_physics_EventListenerPhysicsContactWithBodies_finalize(lua_State* tolua_S) { printf("luabindings: finalizing LUA object (EventListenerPhysicsContactWithBodies)"); return 0; } int lua_register_axis_physics_EventListenerPhysicsContactWithBodies(lua_State* tolua_S) { tolua_usertype(tolua_S,"ax.EventListenerPhysicsContactWithBodies"); tolua_cclass(tolua_S,"EventListenerPhysicsContactWithBodies","ax.EventListenerPhysicsContactWithBodies","ax.EventListenerPhysicsContact",nullptr); tolua_beginmodule(tolua_S,"EventListenerPhysicsContactWithBodies"); tolua_function(tolua_S,"hitTest",lua_axis_physics_EventListenerPhysicsContactWithBodies_hitTest); tolua_function(tolua_S,"create", lua_axis_physics_EventListenerPhysicsContactWithBodies_create); tolua_endmodule(tolua_S); auto typeName = typeid(axis::EventListenerPhysicsContactWithBodies).name(); // rtti is literal storage g_luaType[reinterpret_cast(typeName)] = "ax.EventListenerPhysicsContactWithBodies"; g_typeCast[typeName] = "ax.EventListenerPhysicsContactWithBodies"; return 1; } int lua_axis_physics_EventListenerPhysicsContactWithShapes_hitTest(lua_State* tolua_S) { int argc = 0; axis::EventListenerPhysicsContactWithShapes* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.EventListenerPhysicsContactWithShapes",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::EventListenerPhysicsContactWithShapes*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_EventListenerPhysicsContactWithShapes_hitTest'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 2) { axis::PhysicsShape* arg0; axis::PhysicsShape* arg1; ok &= luaval_to_object(tolua_S, 2, "ax.PhysicsShape",&arg0, "ax.EventListenerPhysicsContactWithShapes:hitTest"); ok &= luaval_to_object(tolua_S, 3, "ax.PhysicsShape",&arg1, "ax.EventListenerPhysicsContactWithShapes:hitTest"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_EventListenerPhysicsContactWithShapes_hitTest'", nullptr); return 0; } bool ret = cobj->hitTest(arg0, arg1); tolua_pushboolean(tolua_S,(bool)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.EventListenerPhysicsContactWithShapes:hitTest",argc, 2); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_EventListenerPhysicsContactWithShapes_hitTest'.",&tolua_err); #endif return 0; } int lua_axis_physics_EventListenerPhysicsContactWithShapes_create(lua_State* tolua_S) { int argc = 0; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertable(tolua_S,1,"ax.EventListenerPhysicsContactWithShapes",0,&tolua_err)) goto tolua_lerror; #endif argc = lua_gettop(tolua_S) - 1; if (argc == 2) { axis::PhysicsShape* arg0; axis::PhysicsShape* arg1; ok &= luaval_to_object(tolua_S, 2, "ax.PhysicsShape",&arg0, "ax.EventListenerPhysicsContactWithShapes:create"); ok &= luaval_to_object(tolua_S, 3, "ax.PhysicsShape",&arg1, "ax.EventListenerPhysicsContactWithShapes:create"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_EventListenerPhysicsContactWithShapes_create'", nullptr); return 0; } axis::EventListenerPhysicsContactWithShapes* ret = axis::EventListenerPhysicsContactWithShapes::create(arg0, arg1); object_to_luaval(tolua_S, "ax.EventListenerPhysicsContactWithShapes",(axis::EventListenerPhysicsContactWithShapes*)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d\n ", "ax.EventListenerPhysicsContactWithShapes:create",argc, 2); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_EventListenerPhysicsContactWithShapes_create'.",&tolua_err); #endif return 0; } static int lua_axis_physics_EventListenerPhysicsContactWithShapes_finalize(lua_State* tolua_S) { printf("luabindings: finalizing LUA object (EventListenerPhysicsContactWithShapes)"); return 0; } int lua_register_axis_physics_EventListenerPhysicsContactWithShapes(lua_State* tolua_S) { tolua_usertype(tolua_S,"ax.EventListenerPhysicsContactWithShapes"); tolua_cclass(tolua_S,"EventListenerPhysicsContactWithShapes","ax.EventListenerPhysicsContactWithShapes","ax.EventListenerPhysicsContact",nullptr); tolua_beginmodule(tolua_S,"EventListenerPhysicsContactWithShapes"); tolua_function(tolua_S,"hitTest",lua_axis_physics_EventListenerPhysicsContactWithShapes_hitTest); tolua_function(tolua_S,"create", lua_axis_physics_EventListenerPhysicsContactWithShapes_create); tolua_endmodule(tolua_S); auto typeName = typeid(axis::EventListenerPhysicsContactWithShapes).name(); // rtti is literal storage g_luaType[reinterpret_cast(typeName)] = "ax.EventListenerPhysicsContactWithShapes"; g_typeCast[typeName] = "ax.EventListenerPhysicsContactWithShapes"; return 1; } int lua_axis_physics_EventListenerPhysicsContactWithGroup_hitTest(lua_State* tolua_S) { int argc = 0; axis::EventListenerPhysicsContactWithGroup* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.EventListenerPhysicsContactWithGroup",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::EventListenerPhysicsContactWithGroup*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_EventListenerPhysicsContactWithGroup_hitTest'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 2) { axis::PhysicsShape* arg0; axis::PhysicsShape* arg1; ok &= luaval_to_object(tolua_S, 2, "ax.PhysicsShape",&arg0, "ax.EventListenerPhysicsContactWithGroup:hitTest"); ok &= luaval_to_object(tolua_S, 3, "ax.PhysicsShape",&arg1, "ax.EventListenerPhysicsContactWithGroup:hitTest"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_EventListenerPhysicsContactWithGroup_hitTest'", nullptr); return 0; } bool ret = cobj->hitTest(arg0, arg1); tolua_pushboolean(tolua_S,(bool)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.EventListenerPhysicsContactWithGroup:hitTest",argc, 2); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_EventListenerPhysicsContactWithGroup_hitTest'.",&tolua_err); #endif return 0; } int lua_axis_physics_EventListenerPhysicsContactWithGroup_create(lua_State* tolua_S) { int argc = 0; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertable(tolua_S,1,"ax.EventListenerPhysicsContactWithGroup",0,&tolua_err)) goto tolua_lerror; #endif argc = lua_gettop(tolua_S) - 1; if (argc == 1) { int arg0; ok &= luaval_to_int32(tolua_S, 2,(int *)&arg0, "ax.EventListenerPhysicsContactWithGroup:create"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_EventListenerPhysicsContactWithGroup_create'", nullptr); return 0; } axis::EventListenerPhysicsContactWithGroup* ret = axis::EventListenerPhysicsContactWithGroup::create(arg0); object_to_luaval(tolua_S, "ax.EventListenerPhysicsContactWithGroup",(axis::EventListenerPhysicsContactWithGroup*)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d\n ", "ax.EventListenerPhysicsContactWithGroup:create",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_EventListenerPhysicsContactWithGroup_create'.",&tolua_err); #endif return 0; } static int lua_axis_physics_EventListenerPhysicsContactWithGroup_finalize(lua_State* tolua_S) { printf("luabindings: finalizing LUA object (EventListenerPhysicsContactWithGroup)"); return 0; } int lua_register_axis_physics_EventListenerPhysicsContactWithGroup(lua_State* tolua_S) { tolua_usertype(tolua_S,"ax.EventListenerPhysicsContactWithGroup"); tolua_cclass(tolua_S,"EventListenerPhysicsContactWithGroup","ax.EventListenerPhysicsContactWithGroup","ax.EventListenerPhysicsContact",nullptr); tolua_beginmodule(tolua_S,"EventListenerPhysicsContactWithGroup"); tolua_function(tolua_S,"hitTest",lua_axis_physics_EventListenerPhysicsContactWithGroup_hitTest); tolua_function(tolua_S,"create", lua_axis_physics_EventListenerPhysicsContactWithGroup_create); tolua_endmodule(tolua_S); auto typeName = typeid(axis::EventListenerPhysicsContactWithGroup).name(); // rtti is literal storage g_luaType[reinterpret_cast(typeName)] = "ax.EventListenerPhysicsContactWithGroup"; g_typeCast[typeName] = "ax.EventListenerPhysicsContactWithGroup"; return 1; } int lua_axis_physics_PhysicsJoint_getBodyA(lua_State* tolua_S) { int argc = 0; axis::PhysicsJoint* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJoint",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJoint*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJoint_getBodyA'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJoint_getBodyA'", nullptr); return 0; } axis::PhysicsBody* ret = cobj->getBodyA(); object_to_luaval(tolua_S, "ax.PhysicsBody",(axis::PhysicsBody*)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJoint:getBodyA",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJoint_getBodyA'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJoint_getBodyB(lua_State* tolua_S) { int argc = 0; axis::PhysicsJoint* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJoint",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJoint*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJoint_getBodyB'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJoint_getBodyB'", nullptr); return 0; } axis::PhysicsBody* ret = cobj->getBodyB(); object_to_luaval(tolua_S, "ax.PhysicsBody",(axis::PhysicsBody*)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJoint:getBodyB",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJoint_getBodyB'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJoint_getMaxForce(lua_State* tolua_S) { int argc = 0; axis::PhysicsJoint* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJoint",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJoint*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJoint_getMaxForce'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJoint_getMaxForce'", nullptr); return 0; } double ret = cobj->getMaxForce(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJoint:getMaxForce",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJoint_getMaxForce'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJoint_setMaxForce(lua_State* tolua_S) { int argc = 0; axis::PhysicsJoint* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJoint",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJoint*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJoint_setMaxForce'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsJoint:setMaxForce"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJoint_setMaxForce'", nullptr); return 0; } cobj->setMaxForce(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJoint:setMaxForce",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJoint_setMaxForce'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJoint_isEnabled(lua_State* tolua_S) { int argc = 0; axis::PhysicsJoint* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJoint",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJoint*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJoint_isEnabled'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJoint_isEnabled'", nullptr); return 0; } bool ret = cobj->isEnabled(); tolua_pushboolean(tolua_S,(bool)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJoint:isEnabled",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJoint_isEnabled'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJoint_setEnable(lua_State* tolua_S) { int argc = 0; axis::PhysicsJoint* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJoint",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJoint*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJoint_setEnable'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { bool arg0; ok &= luaval_to_boolean(tolua_S, 2,&arg0, "ax.PhysicsJoint:setEnable"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJoint_setEnable'", nullptr); return 0; } cobj->setEnable(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJoint:setEnable",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJoint_setEnable'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJoint_setCollisionEnable(lua_State* tolua_S) { int argc = 0; axis::PhysicsJoint* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJoint",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJoint*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJoint_setCollisionEnable'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { bool arg0; ok &= luaval_to_boolean(tolua_S, 2,&arg0, "ax.PhysicsJoint:setCollisionEnable"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJoint_setCollisionEnable'", nullptr); return 0; } cobj->setCollisionEnable(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJoint:setCollisionEnable",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJoint_setCollisionEnable'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJoint_getWorld(lua_State* tolua_S) { int argc = 0; axis::PhysicsJoint* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJoint",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJoint*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJoint_getWorld'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJoint_getWorld'", nullptr); return 0; } axis::PhysicsWorld* ret = cobj->getWorld(); object_to_luaval(tolua_S, "ax.PhysicsWorld",(axis::PhysicsWorld*)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJoint:getWorld",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJoint_getWorld'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJoint_setTag(lua_State* tolua_S) { int argc = 0; axis::PhysicsJoint* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJoint",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJoint*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJoint_setTag'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { int arg0; ok &= luaval_to_int32(tolua_S, 2,(int *)&arg0, "ax.PhysicsJoint:setTag"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJoint_setTag'", nullptr); return 0; } cobj->setTag(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJoint:setTag",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJoint_setTag'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJoint_removeFormWorld(lua_State* tolua_S) { int argc = 0; axis::PhysicsJoint* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJoint",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJoint*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJoint_removeFormWorld'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJoint_removeFormWorld'", nullptr); return 0; } cobj->removeFormWorld(); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJoint:removeFormWorld",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJoint_removeFormWorld'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJoint_isCollisionEnabled(lua_State* tolua_S) { int argc = 0; axis::PhysicsJoint* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJoint",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJoint*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJoint_isCollisionEnabled'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJoint_isCollisionEnabled'", nullptr); return 0; } bool ret = cobj->isCollisionEnabled(); tolua_pushboolean(tolua_S,(bool)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJoint:isCollisionEnabled",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJoint_isCollisionEnabled'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJoint_getTag(lua_State* tolua_S) { int argc = 0; axis::PhysicsJoint* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJoint",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJoint*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJoint_getTag'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJoint_getTag'", nullptr); return 0; } int ret = cobj->getTag(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJoint:getTag",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJoint_getTag'.",&tolua_err); #endif return 0; } static int lua_axis_physics_PhysicsJoint_finalize(lua_State* tolua_S) { printf("luabindings: finalizing LUA object (PhysicsJoint)"); return 0; } int lua_register_axis_physics_PhysicsJoint(lua_State* tolua_S) { tolua_usertype(tolua_S,"ax.PhysicsJoint"); tolua_cclass(tolua_S,"PhysicsJoint","ax.PhysicsJoint","",nullptr); tolua_beginmodule(tolua_S,"PhysicsJoint"); tolua_function(tolua_S,"getBodyA",lua_axis_physics_PhysicsJoint_getBodyA); tolua_function(tolua_S,"getBodyB",lua_axis_physics_PhysicsJoint_getBodyB); tolua_function(tolua_S,"getMaxForce",lua_axis_physics_PhysicsJoint_getMaxForce); tolua_function(tolua_S,"setMaxForce",lua_axis_physics_PhysicsJoint_setMaxForce); tolua_function(tolua_S,"isEnabled",lua_axis_physics_PhysicsJoint_isEnabled); tolua_function(tolua_S,"setEnable",lua_axis_physics_PhysicsJoint_setEnable); tolua_function(tolua_S,"setCollisionEnable",lua_axis_physics_PhysicsJoint_setCollisionEnable); tolua_function(tolua_S,"getWorld",lua_axis_physics_PhysicsJoint_getWorld); tolua_function(tolua_S,"setTag",lua_axis_physics_PhysicsJoint_setTag); tolua_function(tolua_S,"removeFormWorld",lua_axis_physics_PhysicsJoint_removeFormWorld); tolua_function(tolua_S,"isCollisionEnabled",lua_axis_physics_PhysicsJoint_isCollisionEnabled); tolua_function(tolua_S,"getTag",lua_axis_physics_PhysicsJoint_getTag); tolua_endmodule(tolua_S); auto typeName = typeid(axis::PhysicsJoint).name(); // rtti is literal storage g_luaType[reinterpret_cast(typeName)] = "ax.PhysicsJoint"; g_typeCast[typeName] = "ax.PhysicsJoint"; return 1; } int lua_axis_physics_PhysicsJointFixed_createConstraints(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointFixed* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointFixed",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointFixed*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointFixed_createConstraints'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointFixed_createConstraints'", nullptr); return 0; } bool ret = cobj->createConstraints(); tolua_pushboolean(tolua_S,(bool)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointFixed:createConstraints",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointFixed_createConstraints'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointFixed_construct(lua_State* tolua_S) { int argc = 0; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertable(tolua_S,1,"ax.PhysicsJointFixed",0,&tolua_err)) goto tolua_lerror; #endif argc = lua_gettop(tolua_S) - 1; if (argc == 3) { axis::PhysicsBody* arg0; axis::PhysicsBody* arg1; axis::Vec2 arg2; ok &= luaval_to_object(tolua_S, 2, "ax.PhysicsBody",&arg0, "ax.PhysicsJointFixed:construct"); ok &= luaval_to_object(tolua_S, 3, "ax.PhysicsBody",&arg1, "ax.PhysicsJointFixed:construct"); ok &= luaval_to_vec2(tolua_S, 4, &arg2, "ax.PhysicsJointFixed:construct"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointFixed_construct'", nullptr); return 0; } axis::PhysicsJointFixed* ret = axis::PhysicsJointFixed::construct(arg0, arg1, arg2); object_to_luaval(tolua_S, "ax.PhysicsJointFixed",(axis::PhysicsJointFixed*)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d\n ", "ax.PhysicsJointFixed:construct",argc, 3); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointFixed_construct'.",&tolua_err); #endif return 0; } static int lua_axis_physics_PhysicsJointFixed_finalize(lua_State* tolua_S) { printf("luabindings: finalizing LUA object (PhysicsJointFixed)"); return 0; } int lua_register_axis_physics_PhysicsJointFixed(lua_State* tolua_S) { tolua_usertype(tolua_S,"ax.PhysicsJointFixed"); tolua_cclass(tolua_S,"PhysicsJointFixed","ax.PhysicsJointFixed","ax.PhysicsJoint",nullptr); tolua_beginmodule(tolua_S,"PhysicsJointFixed"); tolua_function(tolua_S,"createConstraints",lua_axis_physics_PhysicsJointFixed_createConstraints); tolua_function(tolua_S,"construct", lua_axis_physics_PhysicsJointFixed_construct); tolua_endmodule(tolua_S); auto typeName = typeid(axis::PhysicsJointFixed).name(); // rtti is literal storage g_luaType[reinterpret_cast(typeName)] = "ax.PhysicsJointFixed"; g_typeCast[typeName] = "ax.PhysicsJointFixed"; return 1; } int lua_axis_physics_PhysicsJointLimit_setAnchr2(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointLimit* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointLimit",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointLimit*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointLimit_setAnchr2'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { axis::Vec2 arg0; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsJointLimit:setAnchr2"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointLimit_setAnchr2'", nullptr); return 0; } cobj->setAnchr2(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointLimit:setAnchr2",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointLimit_setAnchr2'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointLimit_setAnchr1(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointLimit* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointLimit",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointLimit*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointLimit_setAnchr1'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { axis::Vec2 arg0; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsJointLimit:setAnchr1"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointLimit_setAnchr1'", nullptr); return 0; } cobj->setAnchr1(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointLimit:setAnchr1",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointLimit_setAnchr1'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointLimit_setMax(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointLimit* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointLimit",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointLimit*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointLimit_setMax'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsJointLimit:setMax"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointLimit_setMax'", nullptr); return 0; } cobj->setMax(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointLimit:setMax",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointLimit_setMax'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointLimit_getAnchr2(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointLimit* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointLimit",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointLimit*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointLimit_getAnchr2'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointLimit_getAnchr2'", nullptr); return 0; } axis::Vec2 ret = cobj->getAnchr2(); vec2_to_luaval(tolua_S, ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointLimit:getAnchr2",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointLimit_getAnchr2'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointLimit_getAnchr1(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointLimit* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointLimit",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointLimit*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointLimit_getAnchr1'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointLimit_getAnchr1'", nullptr); return 0; } axis::Vec2 ret = cobj->getAnchr1(); vec2_to_luaval(tolua_S, ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointLimit:getAnchr1",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointLimit_getAnchr1'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointLimit_createConstraints(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointLimit* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointLimit",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointLimit*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointLimit_createConstraints'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointLimit_createConstraints'", nullptr); return 0; } bool ret = cobj->createConstraints(); tolua_pushboolean(tolua_S,(bool)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointLimit:createConstraints",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointLimit_createConstraints'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointLimit_getMin(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointLimit* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointLimit",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointLimit*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointLimit_getMin'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointLimit_getMin'", nullptr); return 0; } double ret = cobj->getMin(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointLimit:getMin",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointLimit_getMin'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointLimit_getMax(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointLimit* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointLimit",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointLimit*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointLimit_getMax'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointLimit_getMax'", nullptr); return 0; } double ret = cobj->getMax(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointLimit:getMax",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointLimit_getMax'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointLimit_setMin(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointLimit* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointLimit",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointLimit*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointLimit_setMin'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsJointLimit:setMin"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointLimit_setMin'", nullptr); return 0; } cobj->setMin(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointLimit:setMin",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointLimit_setMin'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointLimit_construct(lua_State* tolua_S) { int argc = 0; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertable(tolua_S,1,"ax.PhysicsJointLimit",0,&tolua_err)) goto tolua_lerror; #endif argc = lua_gettop(tolua_S)-1; do { if (argc == 6) { axis::PhysicsBody* arg0; ok &= luaval_to_object(tolua_S, 2, "ax.PhysicsBody",&arg0, "ax.PhysicsJointLimit:construct"); if (!ok) { break; } axis::PhysicsBody* arg1; ok &= luaval_to_object(tolua_S, 3, "ax.PhysicsBody",&arg1, "ax.PhysicsJointLimit:construct"); if (!ok) { break; } axis::Vec2 arg2; ok &= luaval_to_vec2(tolua_S, 4, &arg2, "ax.PhysicsJointLimit:construct"); if (!ok) { break; } axis::Vec2 arg3; ok &= luaval_to_vec2(tolua_S, 5, &arg3, "ax.PhysicsJointLimit:construct"); if (!ok) { break; } double arg4; ok &= luaval_to_number(tolua_S, 6,&arg4, "ax.PhysicsJointLimit:construct"); if (!ok) { break; } double arg5; ok &= luaval_to_number(tolua_S, 7,&arg5, "ax.PhysicsJointLimit:construct"); if (!ok) { break; } axis::PhysicsJointLimit* ret = axis::PhysicsJointLimit::construct(arg0, arg1, arg2, arg3, arg4, arg5); object_to_luaval(tolua_S, "ax.PhysicsJointLimit",(axis::PhysicsJointLimit*)ret); return 1; } } while (0); ok = true; do { if (argc == 4) { axis::PhysicsBody* arg0; ok &= luaval_to_object(tolua_S, 2, "ax.PhysicsBody",&arg0, "ax.PhysicsJointLimit:construct"); if (!ok) { break; } axis::PhysicsBody* arg1; ok &= luaval_to_object(tolua_S, 3, "ax.PhysicsBody",&arg1, "ax.PhysicsJointLimit:construct"); if (!ok) { break; } axis::Vec2 arg2; ok &= luaval_to_vec2(tolua_S, 4, &arg2, "ax.PhysicsJointLimit:construct"); if (!ok) { break; } axis::Vec2 arg3; ok &= luaval_to_vec2(tolua_S, 5, &arg3, "ax.PhysicsJointLimit:construct"); if (!ok) { break; } axis::PhysicsJointLimit* ret = axis::PhysicsJointLimit::construct(arg0, arg1, arg2, arg3); object_to_luaval(tolua_S, "ax.PhysicsJointLimit",(axis::PhysicsJointLimit*)ret); return 1; } } while (0); ok = true; luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d", "ax.PhysicsJointLimit:construct",argc, 4); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointLimit_construct'.",&tolua_err); #endif return 0; } static int lua_axis_physics_PhysicsJointLimit_finalize(lua_State* tolua_S) { printf("luabindings: finalizing LUA object (PhysicsJointLimit)"); return 0; } int lua_register_axis_physics_PhysicsJointLimit(lua_State* tolua_S) { tolua_usertype(tolua_S,"ax.PhysicsJointLimit"); tolua_cclass(tolua_S,"PhysicsJointLimit","ax.PhysicsJointLimit","ax.PhysicsJoint",nullptr); tolua_beginmodule(tolua_S,"PhysicsJointLimit"); tolua_function(tolua_S,"setAnchr2",lua_axis_physics_PhysicsJointLimit_setAnchr2); tolua_function(tolua_S,"setAnchr1",lua_axis_physics_PhysicsJointLimit_setAnchr1); tolua_function(tolua_S,"setMax",lua_axis_physics_PhysicsJointLimit_setMax); tolua_function(tolua_S,"getAnchr2",lua_axis_physics_PhysicsJointLimit_getAnchr2); tolua_function(tolua_S,"getAnchr1",lua_axis_physics_PhysicsJointLimit_getAnchr1); tolua_function(tolua_S,"createConstraints",lua_axis_physics_PhysicsJointLimit_createConstraints); tolua_function(tolua_S,"getMin",lua_axis_physics_PhysicsJointLimit_getMin); tolua_function(tolua_S,"getMax",lua_axis_physics_PhysicsJointLimit_getMax); tolua_function(tolua_S,"setMin",lua_axis_physics_PhysicsJointLimit_setMin); tolua_function(tolua_S,"construct", lua_axis_physics_PhysicsJointLimit_construct); tolua_endmodule(tolua_S); auto typeName = typeid(axis::PhysicsJointLimit).name(); // rtti is literal storage g_luaType[reinterpret_cast(typeName)] = "ax.PhysicsJointLimit"; g_typeCast[typeName] = "ax.PhysicsJointLimit"; return 1; } int lua_axis_physics_PhysicsJointPin_createConstraints(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointPin* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointPin",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointPin*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointPin_createConstraints'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointPin_createConstraints'", nullptr); return 0; } bool ret = cobj->createConstraints(); tolua_pushboolean(tolua_S,(bool)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointPin:createConstraints",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointPin_createConstraints'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointPin_construct(lua_State* tolua_S) { int argc = 0; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertable(tolua_S,1,"ax.PhysicsJointPin",0,&tolua_err)) goto tolua_lerror; #endif argc = lua_gettop(tolua_S)-1; do { if (argc == 4) { axis::PhysicsBody* arg0; ok &= luaval_to_object(tolua_S, 2, "ax.PhysicsBody",&arg0, "ax.PhysicsJointPin:construct"); if (!ok) { break; } axis::PhysicsBody* arg1; ok &= luaval_to_object(tolua_S, 3, "ax.PhysicsBody",&arg1, "ax.PhysicsJointPin:construct"); if (!ok) { break; } axis::Vec2 arg2; ok &= luaval_to_vec2(tolua_S, 4, &arg2, "ax.PhysicsJointPin:construct"); if (!ok) { break; } axis::Vec2 arg3; ok &= luaval_to_vec2(tolua_S, 5, &arg3, "ax.PhysicsJointPin:construct"); if (!ok) { break; } axis::PhysicsJointPin* ret = axis::PhysicsJointPin::construct(arg0, arg1, arg2, arg3); object_to_luaval(tolua_S, "ax.PhysicsJointPin",(axis::PhysicsJointPin*)ret); return 1; } } while (0); ok = true; do { if (argc == 3) { axis::PhysicsBody* arg0; ok &= luaval_to_object(tolua_S, 2, "ax.PhysicsBody",&arg0, "ax.PhysicsJointPin:construct"); if (!ok) { break; } axis::PhysicsBody* arg1; ok &= luaval_to_object(tolua_S, 3, "ax.PhysicsBody",&arg1, "ax.PhysicsJointPin:construct"); if (!ok) { break; } axis::Vec2 arg2; ok &= luaval_to_vec2(tolua_S, 4, &arg2, "ax.PhysicsJointPin:construct"); if (!ok) { break; } axis::PhysicsJointPin* ret = axis::PhysicsJointPin::construct(arg0, arg1, arg2); object_to_luaval(tolua_S, "ax.PhysicsJointPin",(axis::PhysicsJointPin*)ret); return 1; } } while (0); ok = true; luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d", "ax.PhysicsJointPin:construct",argc, 3); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointPin_construct'.",&tolua_err); #endif return 0; } static int lua_axis_physics_PhysicsJointPin_finalize(lua_State* tolua_S) { printf("luabindings: finalizing LUA object (PhysicsJointPin)"); return 0; } int lua_register_axis_physics_PhysicsJointPin(lua_State* tolua_S) { tolua_usertype(tolua_S,"ax.PhysicsJointPin"); tolua_cclass(tolua_S,"PhysicsJointPin","ax.PhysicsJointPin","ax.PhysicsJoint",nullptr); tolua_beginmodule(tolua_S,"PhysicsJointPin"); tolua_function(tolua_S,"createConstraints",lua_axis_physics_PhysicsJointPin_createConstraints); tolua_function(tolua_S,"construct", lua_axis_physics_PhysicsJointPin_construct); tolua_endmodule(tolua_S); auto typeName = typeid(axis::PhysicsJointPin).name(); // rtti is literal storage g_luaType[reinterpret_cast(typeName)] = "ax.PhysicsJointPin"; g_typeCast[typeName] = "ax.PhysicsJointPin"; return 1; } int lua_axis_physics_PhysicsJointDistance_createConstraints(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointDistance* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointDistance",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointDistance*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointDistance_createConstraints'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointDistance_createConstraints'", nullptr); return 0; } bool ret = cobj->createConstraints(); tolua_pushboolean(tolua_S,(bool)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointDistance:createConstraints",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointDistance_createConstraints'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointDistance_setDistance(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointDistance* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointDistance",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointDistance*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointDistance_setDistance'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsJointDistance:setDistance"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointDistance_setDistance'", nullptr); return 0; } cobj->setDistance(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointDistance:setDistance",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointDistance_setDistance'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointDistance_getDistance(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointDistance* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointDistance",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointDistance*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointDistance_getDistance'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointDistance_getDistance'", nullptr); return 0; } double ret = cobj->getDistance(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointDistance:getDistance",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointDistance_getDistance'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointDistance_construct(lua_State* tolua_S) { int argc = 0; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertable(tolua_S,1,"ax.PhysicsJointDistance",0,&tolua_err)) goto tolua_lerror; #endif argc = lua_gettop(tolua_S) - 1; if (argc == 4) { axis::PhysicsBody* arg0; axis::PhysicsBody* arg1; axis::Vec2 arg2; axis::Vec2 arg3; ok &= luaval_to_object(tolua_S, 2, "ax.PhysicsBody",&arg0, "ax.PhysicsJointDistance:construct"); ok &= luaval_to_object(tolua_S, 3, "ax.PhysicsBody",&arg1, "ax.PhysicsJointDistance:construct"); ok &= luaval_to_vec2(tolua_S, 4, &arg2, "ax.PhysicsJointDistance:construct"); ok &= luaval_to_vec2(tolua_S, 5, &arg3, "ax.PhysicsJointDistance:construct"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointDistance_construct'", nullptr); return 0; } axis::PhysicsJointDistance* ret = axis::PhysicsJointDistance::construct(arg0, arg1, arg2, arg3); object_to_luaval(tolua_S, "ax.PhysicsJointDistance",(axis::PhysicsJointDistance*)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d\n ", "ax.PhysicsJointDistance:construct",argc, 4); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointDistance_construct'.",&tolua_err); #endif return 0; } static int lua_axis_physics_PhysicsJointDistance_finalize(lua_State* tolua_S) { printf("luabindings: finalizing LUA object (PhysicsJointDistance)"); return 0; } int lua_register_axis_physics_PhysicsJointDistance(lua_State* tolua_S) { tolua_usertype(tolua_S,"ax.PhysicsJointDistance"); tolua_cclass(tolua_S,"PhysicsJointDistance","ax.PhysicsJointDistance","ax.PhysicsJoint",nullptr); tolua_beginmodule(tolua_S,"PhysicsJointDistance"); tolua_function(tolua_S,"createConstraints",lua_axis_physics_PhysicsJointDistance_createConstraints); tolua_function(tolua_S,"setDistance",lua_axis_physics_PhysicsJointDistance_setDistance); tolua_function(tolua_S,"getDistance",lua_axis_physics_PhysicsJointDistance_getDistance); tolua_function(tolua_S,"construct", lua_axis_physics_PhysicsJointDistance_construct); tolua_endmodule(tolua_S); auto typeName = typeid(axis::PhysicsJointDistance).name(); // rtti is literal storage g_luaType[reinterpret_cast(typeName)] = "ax.PhysicsJointDistance"; g_typeCast[typeName] = "ax.PhysicsJointDistance"; return 1; } int lua_axis_physics_PhysicsJointSpring_setAnchr2(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointSpring* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointSpring",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointSpring*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointSpring_setAnchr2'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { axis::Vec2 arg0; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsJointSpring:setAnchr2"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointSpring_setAnchr2'", nullptr); return 0; } cobj->setAnchr2(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointSpring:setAnchr2",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointSpring_setAnchr2'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointSpring_setAnchr1(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointSpring* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointSpring",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointSpring*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointSpring_setAnchr1'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { axis::Vec2 arg0; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsJointSpring:setAnchr1"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointSpring_setAnchr1'", nullptr); return 0; } cobj->setAnchr1(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointSpring:setAnchr1",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointSpring_setAnchr1'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointSpring_getDamping(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointSpring* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointSpring",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointSpring*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointSpring_getDamping'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointSpring_getDamping'", nullptr); return 0; } double ret = cobj->getDamping(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointSpring:getDamping",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointSpring_getDamping'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointSpring_setStiffness(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointSpring* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointSpring",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointSpring*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointSpring_setStiffness'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsJointSpring:setStiffness"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointSpring_setStiffness'", nullptr); return 0; } cobj->setStiffness(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointSpring:setStiffness",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointSpring_setStiffness'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointSpring_getRestLength(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointSpring* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointSpring",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointSpring*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointSpring_getRestLength'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointSpring_getRestLength'", nullptr); return 0; } double ret = cobj->getRestLength(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointSpring:getRestLength",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointSpring_getRestLength'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointSpring_getAnchr2(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointSpring* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointSpring",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointSpring*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointSpring_getAnchr2'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointSpring_getAnchr2'", nullptr); return 0; } axis::Vec2 ret = cobj->getAnchr2(); vec2_to_luaval(tolua_S, ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointSpring:getAnchr2",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointSpring_getAnchr2'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointSpring_getAnchr1(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointSpring* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointSpring",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointSpring*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointSpring_getAnchr1'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointSpring_getAnchr1'", nullptr); return 0; } axis::Vec2 ret = cobj->getAnchr1(); vec2_to_luaval(tolua_S, ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointSpring:getAnchr1",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointSpring_getAnchr1'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointSpring_getStiffness(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointSpring* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointSpring",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointSpring*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointSpring_getStiffness'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointSpring_getStiffness'", nullptr); return 0; } double ret = cobj->getStiffness(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointSpring:getStiffness",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointSpring_getStiffness'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointSpring_createConstraints(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointSpring* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointSpring",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointSpring*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointSpring_createConstraints'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointSpring_createConstraints'", nullptr); return 0; } bool ret = cobj->createConstraints(); tolua_pushboolean(tolua_S,(bool)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointSpring:createConstraints",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointSpring_createConstraints'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointSpring_setRestLength(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointSpring* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointSpring",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointSpring*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointSpring_setRestLength'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsJointSpring:setRestLength"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointSpring_setRestLength'", nullptr); return 0; } cobj->setRestLength(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointSpring:setRestLength",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointSpring_setRestLength'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointSpring_setDamping(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointSpring* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointSpring",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointSpring*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointSpring_setDamping'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsJointSpring:setDamping"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointSpring_setDamping'", nullptr); return 0; } cobj->setDamping(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointSpring:setDamping",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointSpring_setDamping'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointSpring_construct(lua_State* tolua_S) { int argc = 0; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertable(tolua_S,1,"ax.PhysicsJointSpring",0,&tolua_err)) goto tolua_lerror; #endif argc = lua_gettop(tolua_S) - 1; if (argc == 6) { axis::PhysicsBody* arg0; axis::PhysicsBody* arg1; axis::Vec2 arg2; axis::Vec2 arg3; double arg4; double arg5; ok &= luaval_to_object(tolua_S, 2, "ax.PhysicsBody",&arg0, "ax.PhysicsJointSpring:construct"); ok &= luaval_to_object(tolua_S, 3, "ax.PhysicsBody",&arg1, "ax.PhysicsJointSpring:construct"); ok &= luaval_to_vec2(tolua_S, 4, &arg2, "ax.PhysicsJointSpring:construct"); ok &= luaval_to_vec2(tolua_S, 5, &arg3, "ax.PhysicsJointSpring:construct"); ok &= luaval_to_number(tolua_S, 6,&arg4, "ax.PhysicsJointSpring:construct"); ok &= luaval_to_number(tolua_S, 7,&arg5, "ax.PhysicsJointSpring:construct"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointSpring_construct'", nullptr); return 0; } axis::PhysicsJointSpring* ret = axis::PhysicsJointSpring::construct(arg0, arg1, arg2, arg3, arg4, arg5); object_to_luaval(tolua_S, "ax.PhysicsJointSpring",(axis::PhysicsJointSpring*)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d\n ", "ax.PhysicsJointSpring:construct",argc, 6); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointSpring_construct'.",&tolua_err); #endif return 0; } static int lua_axis_physics_PhysicsJointSpring_finalize(lua_State* tolua_S) { printf("luabindings: finalizing LUA object (PhysicsJointSpring)"); return 0; } int lua_register_axis_physics_PhysicsJointSpring(lua_State* tolua_S) { tolua_usertype(tolua_S,"ax.PhysicsJointSpring"); tolua_cclass(tolua_S,"PhysicsJointSpring","ax.PhysicsJointSpring","ax.PhysicsJoint",nullptr); tolua_beginmodule(tolua_S,"PhysicsJointSpring"); tolua_function(tolua_S,"setAnchr2",lua_axis_physics_PhysicsJointSpring_setAnchr2); tolua_function(tolua_S,"setAnchr1",lua_axis_physics_PhysicsJointSpring_setAnchr1); tolua_function(tolua_S,"getDamping",lua_axis_physics_PhysicsJointSpring_getDamping); tolua_function(tolua_S,"setStiffness",lua_axis_physics_PhysicsJointSpring_setStiffness); tolua_function(tolua_S,"getRestLength",lua_axis_physics_PhysicsJointSpring_getRestLength); tolua_function(tolua_S,"getAnchr2",lua_axis_physics_PhysicsJointSpring_getAnchr2); tolua_function(tolua_S,"getAnchr1",lua_axis_physics_PhysicsJointSpring_getAnchr1); tolua_function(tolua_S,"getStiffness",lua_axis_physics_PhysicsJointSpring_getStiffness); tolua_function(tolua_S,"createConstraints",lua_axis_physics_PhysicsJointSpring_createConstraints); tolua_function(tolua_S,"setRestLength",lua_axis_physics_PhysicsJointSpring_setRestLength); tolua_function(tolua_S,"setDamping",lua_axis_physics_PhysicsJointSpring_setDamping); tolua_function(tolua_S,"construct", lua_axis_physics_PhysicsJointSpring_construct); tolua_endmodule(tolua_S); auto typeName = typeid(axis::PhysicsJointSpring).name(); // rtti is literal storage g_luaType[reinterpret_cast(typeName)] = "ax.PhysicsJointSpring"; g_typeCast[typeName] = "ax.PhysicsJointSpring"; return 1; } int lua_axis_physics_PhysicsJointGroove_setAnchr2(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointGroove* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointGroove",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointGroove*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointGroove_setAnchr2'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { axis::Vec2 arg0; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsJointGroove:setAnchr2"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointGroove_setAnchr2'", nullptr); return 0; } cobj->setAnchr2(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointGroove:setAnchr2",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointGroove_setAnchr2'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointGroove_setGrooveA(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointGroove* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointGroove",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointGroove*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointGroove_setGrooveA'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { axis::Vec2 arg0; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsJointGroove:setGrooveA"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointGroove_setGrooveA'", nullptr); return 0; } cobj->setGrooveA(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointGroove:setGrooveA",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointGroove_setGrooveA'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointGroove_setGrooveB(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointGroove* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointGroove",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointGroove*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointGroove_setGrooveB'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { axis::Vec2 arg0; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsJointGroove:setGrooveB"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointGroove_setGrooveB'", nullptr); return 0; } cobj->setGrooveB(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointGroove:setGrooveB",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointGroove_setGrooveB'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointGroove_getGrooveA(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointGroove* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointGroove",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointGroove*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointGroove_getGrooveA'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointGroove_getGrooveA'", nullptr); return 0; } axis::Vec2 ret = cobj->getGrooveA(); vec2_to_luaval(tolua_S, ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointGroove:getGrooveA",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointGroove_getGrooveA'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointGroove_getGrooveB(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointGroove* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointGroove",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointGroove*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointGroove_getGrooveB'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointGroove_getGrooveB'", nullptr); return 0; } axis::Vec2 ret = cobj->getGrooveB(); vec2_to_luaval(tolua_S, ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointGroove:getGrooveB",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointGroove_getGrooveB'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointGroove_getAnchr2(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointGroove* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointGroove",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointGroove*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointGroove_getAnchr2'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointGroove_getAnchr2'", nullptr); return 0; } axis::Vec2 ret = cobj->getAnchr2(); vec2_to_luaval(tolua_S, ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointGroove:getAnchr2",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointGroove_getAnchr2'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointGroove_createConstraints(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointGroove* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointGroove",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointGroove*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointGroove_createConstraints'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointGroove_createConstraints'", nullptr); return 0; } bool ret = cobj->createConstraints(); tolua_pushboolean(tolua_S,(bool)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointGroove:createConstraints",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointGroove_createConstraints'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointGroove_construct(lua_State* tolua_S) { int argc = 0; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertable(tolua_S,1,"ax.PhysicsJointGroove",0,&tolua_err)) goto tolua_lerror; #endif argc = lua_gettop(tolua_S) - 1; if (argc == 5) { axis::PhysicsBody* arg0; axis::PhysicsBody* arg1; axis::Vec2 arg2; axis::Vec2 arg3; axis::Vec2 arg4; ok &= luaval_to_object(tolua_S, 2, "ax.PhysicsBody",&arg0, "ax.PhysicsJointGroove:construct"); ok &= luaval_to_object(tolua_S, 3, "ax.PhysicsBody",&arg1, "ax.PhysicsJointGroove:construct"); ok &= luaval_to_vec2(tolua_S, 4, &arg2, "ax.PhysicsJointGroove:construct"); ok &= luaval_to_vec2(tolua_S, 5, &arg3, "ax.PhysicsJointGroove:construct"); ok &= luaval_to_vec2(tolua_S, 6, &arg4, "ax.PhysicsJointGroove:construct"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointGroove_construct'", nullptr); return 0; } axis::PhysicsJointGroove* ret = axis::PhysicsJointGroove::construct(arg0, arg1, arg2, arg3, arg4); object_to_luaval(tolua_S, "ax.PhysicsJointGroove",(axis::PhysicsJointGroove*)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d\n ", "ax.PhysicsJointGroove:construct",argc, 5); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointGroove_construct'.",&tolua_err); #endif return 0; } static int lua_axis_physics_PhysicsJointGroove_finalize(lua_State* tolua_S) { printf("luabindings: finalizing LUA object (PhysicsJointGroove)"); return 0; } int lua_register_axis_physics_PhysicsJointGroove(lua_State* tolua_S) { tolua_usertype(tolua_S,"ax.PhysicsJointGroove"); tolua_cclass(tolua_S,"PhysicsJointGroove","ax.PhysicsJointGroove","ax.PhysicsJoint",nullptr); tolua_beginmodule(tolua_S,"PhysicsJointGroove"); tolua_function(tolua_S,"setAnchr2",lua_axis_physics_PhysicsJointGroove_setAnchr2); tolua_function(tolua_S,"setGrooveA",lua_axis_physics_PhysicsJointGroove_setGrooveA); tolua_function(tolua_S,"setGrooveB",lua_axis_physics_PhysicsJointGroove_setGrooveB); tolua_function(tolua_S,"getGrooveA",lua_axis_physics_PhysicsJointGroove_getGrooveA); tolua_function(tolua_S,"getGrooveB",lua_axis_physics_PhysicsJointGroove_getGrooveB); tolua_function(tolua_S,"getAnchr2",lua_axis_physics_PhysicsJointGroove_getAnchr2); tolua_function(tolua_S,"createConstraints",lua_axis_physics_PhysicsJointGroove_createConstraints); tolua_function(tolua_S,"construct", lua_axis_physics_PhysicsJointGroove_construct); tolua_endmodule(tolua_S); auto typeName = typeid(axis::PhysicsJointGroove).name(); // rtti is literal storage g_luaType[reinterpret_cast(typeName)] = "ax.PhysicsJointGroove"; g_typeCast[typeName] = "ax.PhysicsJointGroove"; return 1; } int lua_axis_physics_PhysicsJointRotarySpring_getDamping(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointRotarySpring* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointRotarySpring",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointRotarySpring*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointRotarySpring_getDamping'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointRotarySpring_getDamping'", nullptr); return 0; } double ret = cobj->getDamping(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointRotarySpring:getDamping",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointRotarySpring_getDamping'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointRotarySpring_setRestAngle(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointRotarySpring* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointRotarySpring",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointRotarySpring*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointRotarySpring_setRestAngle'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsJointRotarySpring:setRestAngle"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointRotarySpring_setRestAngle'", nullptr); return 0; } cobj->setRestAngle(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointRotarySpring:setRestAngle",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointRotarySpring_setRestAngle'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointRotarySpring_getStiffness(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointRotarySpring* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointRotarySpring",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointRotarySpring*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointRotarySpring_getStiffness'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointRotarySpring_getStiffness'", nullptr); return 0; } double ret = cobj->getStiffness(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointRotarySpring:getStiffness",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointRotarySpring_getStiffness'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointRotarySpring_createConstraints(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointRotarySpring* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointRotarySpring",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointRotarySpring*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointRotarySpring_createConstraints'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointRotarySpring_createConstraints'", nullptr); return 0; } bool ret = cobj->createConstraints(); tolua_pushboolean(tolua_S,(bool)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointRotarySpring:createConstraints",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointRotarySpring_createConstraints'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointRotarySpring_setStiffness(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointRotarySpring* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointRotarySpring",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointRotarySpring*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointRotarySpring_setStiffness'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsJointRotarySpring:setStiffness"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointRotarySpring_setStiffness'", nullptr); return 0; } cobj->setStiffness(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointRotarySpring:setStiffness",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointRotarySpring_setStiffness'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointRotarySpring_setDamping(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointRotarySpring* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointRotarySpring",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointRotarySpring*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointRotarySpring_setDamping'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsJointRotarySpring:setDamping"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointRotarySpring_setDamping'", nullptr); return 0; } cobj->setDamping(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointRotarySpring:setDamping",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointRotarySpring_setDamping'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointRotarySpring_getRestAngle(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointRotarySpring* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointRotarySpring",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointRotarySpring*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointRotarySpring_getRestAngle'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointRotarySpring_getRestAngle'", nullptr); return 0; } double ret = cobj->getRestAngle(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointRotarySpring:getRestAngle",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointRotarySpring_getRestAngle'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointRotarySpring_construct(lua_State* tolua_S) { int argc = 0; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertable(tolua_S,1,"ax.PhysicsJointRotarySpring",0,&tolua_err)) goto tolua_lerror; #endif argc = lua_gettop(tolua_S) - 1; if (argc == 4) { axis::PhysicsBody* arg0; axis::PhysicsBody* arg1; double arg2; double arg3; ok &= luaval_to_object(tolua_S, 2, "ax.PhysicsBody",&arg0, "ax.PhysicsJointRotarySpring:construct"); ok &= luaval_to_object(tolua_S, 3, "ax.PhysicsBody",&arg1, "ax.PhysicsJointRotarySpring:construct"); ok &= luaval_to_number(tolua_S, 4,&arg2, "ax.PhysicsJointRotarySpring:construct"); ok &= luaval_to_number(tolua_S, 5,&arg3, "ax.PhysicsJointRotarySpring:construct"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointRotarySpring_construct'", nullptr); return 0; } axis::PhysicsJointRotarySpring* ret = axis::PhysicsJointRotarySpring::construct(arg0, arg1, arg2, arg3); object_to_luaval(tolua_S, "ax.PhysicsJointRotarySpring",(axis::PhysicsJointRotarySpring*)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d\n ", "ax.PhysicsJointRotarySpring:construct",argc, 4); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointRotarySpring_construct'.",&tolua_err); #endif return 0; } static int lua_axis_physics_PhysicsJointRotarySpring_finalize(lua_State* tolua_S) { printf("luabindings: finalizing LUA object (PhysicsJointRotarySpring)"); return 0; } int lua_register_axis_physics_PhysicsJointRotarySpring(lua_State* tolua_S) { tolua_usertype(tolua_S,"ax.PhysicsJointRotarySpring"); tolua_cclass(tolua_S,"PhysicsJointRotarySpring","ax.PhysicsJointRotarySpring","ax.PhysicsJoint",nullptr); tolua_beginmodule(tolua_S,"PhysicsJointRotarySpring"); tolua_function(tolua_S,"getDamping",lua_axis_physics_PhysicsJointRotarySpring_getDamping); tolua_function(tolua_S,"setRestAngle",lua_axis_physics_PhysicsJointRotarySpring_setRestAngle); tolua_function(tolua_S,"getStiffness",lua_axis_physics_PhysicsJointRotarySpring_getStiffness); tolua_function(tolua_S,"createConstraints",lua_axis_physics_PhysicsJointRotarySpring_createConstraints); tolua_function(tolua_S,"setStiffness",lua_axis_physics_PhysicsJointRotarySpring_setStiffness); tolua_function(tolua_S,"setDamping",lua_axis_physics_PhysicsJointRotarySpring_setDamping); tolua_function(tolua_S,"getRestAngle",lua_axis_physics_PhysicsJointRotarySpring_getRestAngle); tolua_function(tolua_S,"construct", lua_axis_physics_PhysicsJointRotarySpring_construct); tolua_endmodule(tolua_S); auto typeName = typeid(axis::PhysicsJointRotarySpring).name(); // rtti is literal storage g_luaType[reinterpret_cast(typeName)] = "ax.PhysicsJointRotarySpring"; g_typeCast[typeName] = "ax.PhysicsJointRotarySpring"; return 1; } int lua_axis_physics_PhysicsJointRotaryLimit_getMax(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointRotaryLimit* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointRotaryLimit",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointRotaryLimit*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointRotaryLimit_getMax'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointRotaryLimit_getMax'", nullptr); return 0; } double ret = cobj->getMax(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointRotaryLimit:getMax",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointRotaryLimit_getMax'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointRotaryLimit_createConstraints(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointRotaryLimit* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointRotaryLimit",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointRotaryLimit*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointRotaryLimit_createConstraints'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointRotaryLimit_createConstraints'", nullptr); return 0; } bool ret = cobj->createConstraints(); tolua_pushboolean(tolua_S,(bool)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointRotaryLimit:createConstraints",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointRotaryLimit_createConstraints'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointRotaryLimit_setMin(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointRotaryLimit* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointRotaryLimit",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointRotaryLimit*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointRotaryLimit_setMin'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsJointRotaryLimit:setMin"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointRotaryLimit_setMin'", nullptr); return 0; } cobj->setMin(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointRotaryLimit:setMin",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointRotaryLimit_setMin'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointRotaryLimit_setMax(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointRotaryLimit* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointRotaryLimit",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointRotaryLimit*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointRotaryLimit_setMax'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsJointRotaryLimit:setMax"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointRotaryLimit_setMax'", nullptr); return 0; } cobj->setMax(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointRotaryLimit:setMax",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointRotaryLimit_setMax'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointRotaryLimit_getMin(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointRotaryLimit* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointRotaryLimit",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointRotaryLimit*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointRotaryLimit_getMin'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointRotaryLimit_getMin'", nullptr); return 0; } double ret = cobj->getMin(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointRotaryLimit:getMin",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointRotaryLimit_getMin'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointRotaryLimit_construct(lua_State* tolua_S) { int argc = 0; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertable(tolua_S,1,"ax.PhysicsJointRotaryLimit",0,&tolua_err)) goto tolua_lerror; #endif argc = lua_gettop(tolua_S)-1; do { if (argc == 2) { axis::PhysicsBody* arg0; ok &= luaval_to_object(tolua_S, 2, "ax.PhysicsBody",&arg0, "ax.PhysicsJointRotaryLimit:construct"); if (!ok) { break; } axis::PhysicsBody* arg1; ok &= luaval_to_object(tolua_S, 3, "ax.PhysicsBody",&arg1, "ax.PhysicsJointRotaryLimit:construct"); if (!ok) { break; } axis::PhysicsJointRotaryLimit* ret = axis::PhysicsJointRotaryLimit::construct(arg0, arg1); object_to_luaval(tolua_S, "ax.PhysicsJointRotaryLimit",(axis::PhysicsJointRotaryLimit*)ret); return 1; } } while (0); ok = true; do { if (argc == 4) { axis::PhysicsBody* arg0; ok &= luaval_to_object(tolua_S, 2, "ax.PhysicsBody",&arg0, "ax.PhysicsJointRotaryLimit:construct"); if (!ok) { break; } axis::PhysicsBody* arg1; ok &= luaval_to_object(tolua_S, 3, "ax.PhysicsBody",&arg1, "ax.PhysicsJointRotaryLimit:construct"); if (!ok) { break; } double arg2; ok &= luaval_to_number(tolua_S, 4,&arg2, "ax.PhysicsJointRotaryLimit:construct"); if (!ok) { break; } double arg3; ok &= luaval_to_number(tolua_S, 5,&arg3, "ax.PhysicsJointRotaryLimit:construct"); if (!ok) { break; } axis::PhysicsJointRotaryLimit* ret = axis::PhysicsJointRotaryLimit::construct(arg0, arg1, arg2, arg3); object_to_luaval(tolua_S, "ax.PhysicsJointRotaryLimit",(axis::PhysicsJointRotaryLimit*)ret); return 1; } } while (0); ok = true; luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d", "ax.PhysicsJointRotaryLimit:construct",argc, 4); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointRotaryLimit_construct'.",&tolua_err); #endif return 0; } static int lua_axis_physics_PhysicsJointRotaryLimit_finalize(lua_State* tolua_S) { printf("luabindings: finalizing LUA object (PhysicsJointRotaryLimit)"); return 0; } int lua_register_axis_physics_PhysicsJointRotaryLimit(lua_State* tolua_S) { tolua_usertype(tolua_S,"ax.PhysicsJointRotaryLimit"); tolua_cclass(tolua_S,"PhysicsJointRotaryLimit","ax.PhysicsJointRotaryLimit","ax.PhysicsJoint",nullptr); tolua_beginmodule(tolua_S,"PhysicsJointRotaryLimit"); tolua_function(tolua_S,"getMax",lua_axis_physics_PhysicsJointRotaryLimit_getMax); tolua_function(tolua_S,"createConstraints",lua_axis_physics_PhysicsJointRotaryLimit_createConstraints); tolua_function(tolua_S,"setMin",lua_axis_physics_PhysicsJointRotaryLimit_setMin); tolua_function(tolua_S,"setMax",lua_axis_physics_PhysicsJointRotaryLimit_setMax); tolua_function(tolua_S,"getMin",lua_axis_physics_PhysicsJointRotaryLimit_getMin); tolua_function(tolua_S,"construct", lua_axis_physics_PhysicsJointRotaryLimit_construct); tolua_endmodule(tolua_S); auto typeName = typeid(axis::PhysicsJointRotaryLimit).name(); // rtti is literal storage g_luaType[reinterpret_cast(typeName)] = "ax.PhysicsJointRotaryLimit"; g_typeCast[typeName] = "ax.PhysicsJointRotaryLimit"; return 1; } int lua_axis_physics_PhysicsJointRatchet_getAngle(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointRatchet* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointRatchet",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointRatchet*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointRatchet_getAngle'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointRatchet_getAngle'", nullptr); return 0; } double ret = cobj->getAngle(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointRatchet:getAngle",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointRatchet_getAngle'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointRatchet_setAngle(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointRatchet* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointRatchet",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointRatchet*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointRatchet_setAngle'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsJointRatchet:setAngle"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointRatchet_setAngle'", nullptr); return 0; } cobj->setAngle(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointRatchet:setAngle",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointRatchet_setAngle'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointRatchet_createConstraints(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointRatchet* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointRatchet",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointRatchet*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointRatchet_createConstraints'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointRatchet_createConstraints'", nullptr); return 0; } bool ret = cobj->createConstraints(); tolua_pushboolean(tolua_S,(bool)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointRatchet:createConstraints",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointRatchet_createConstraints'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointRatchet_setPhase(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointRatchet* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointRatchet",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointRatchet*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointRatchet_setPhase'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsJointRatchet:setPhase"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointRatchet_setPhase'", nullptr); return 0; } cobj->setPhase(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointRatchet:setPhase",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointRatchet_setPhase'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointRatchet_getPhase(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointRatchet* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointRatchet",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointRatchet*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointRatchet_getPhase'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointRatchet_getPhase'", nullptr); return 0; } double ret = cobj->getPhase(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointRatchet:getPhase",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointRatchet_getPhase'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointRatchet_setRatchet(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointRatchet* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointRatchet",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointRatchet*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointRatchet_setRatchet'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsJointRatchet:setRatchet"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointRatchet_setRatchet'", nullptr); return 0; } cobj->setRatchet(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointRatchet:setRatchet",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointRatchet_setRatchet'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointRatchet_getRatchet(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointRatchet* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointRatchet",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointRatchet*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointRatchet_getRatchet'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointRatchet_getRatchet'", nullptr); return 0; } double ret = cobj->getRatchet(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointRatchet:getRatchet",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointRatchet_getRatchet'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointRatchet_construct(lua_State* tolua_S) { int argc = 0; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertable(tolua_S,1,"ax.PhysicsJointRatchet",0,&tolua_err)) goto tolua_lerror; #endif argc = lua_gettop(tolua_S) - 1; if (argc == 4) { axis::PhysicsBody* arg0; axis::PhysicsBody* arg1; double arg2; double arg3; ok &= luaval_to_object(tolua_S, 2, "ax.PhysicsBody",&arg0, "ax.PhysicsJointRatchet:construct"); ok &= luaval_to_object(tolua_S, 3, "ax.PhysicsBody",&arg1, "ax.PhysicsJointRatchet:construct"); ok &= luaval_to_number(tolua_S, 4,&arg2, "ax.PhysicsJointRatchet:construct"); ok &= luaval_to_number(tolua_S, 5,&arg3, "ax.PhysicsJointRatchet:construct"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointRatchet_construct'", nullptr); return 0; } axis::PhysicsJointRatchet* ret = axis::PhysicsJointRatchet::construct(arg0, arg1, arg2, arg3); object_to_luaval(tolua_S, "ax.PhysicsJointRatchet",(axis::PhysicsJointRatchet*)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d\n ", "ax.PhysicsJointRatchet:construct",argc, 4); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointRatchet_construct'.",&tolua_err); #endif return 0; } static int lua_axis_physics_PhysicsJointRatchet_finalize(lua_State* tolua_S) { printf("luabindings: finalizing LUA object (PhysicsJointRatchet)"); return 0; } int lua_register_axis_physics_PhysicsJointRatchet(lua_State* tolua_S) { tolua_usertype(tolua_S,"ax.PhysicsJointRatchet"); tolua_cclass(tolua_S,"PhysicsJointRatchet","ax.PhysicsJointRatchet","ax.PhysicsJoint",nullptr); tolua_beginmodule(tolua_S,"PhysicsJointRatchet"); tolua_function(tolua_S,"getAngle",lua_axis_physics_PhysicsJointRatchet_getAngle); tolua_function(tolua_S,"setAngle",lua_axis_physics_PhysicsJointRatchet_setAngle); tolua_function(tolua_S,"createConstraints",lua_axis_physics_PhysicsJointRatchet_createConstraints); tolua_function(tolua_S,"setPhase",lua_axis_physics_PhysicsJointRatchet_setPhase); tolua_function(tolua_S,"getPhase",lua_axis_physics_PhysicsJointRatchet_getPhase); tolua_function(tolua_S,"setRatchet",lua_axis_physics_PhysicsJointRatchet_setRatchet); tolua_function(tolua_S,"getRatchet",lua_axis_physics_PhysicsJointRatchet_getRatchet); tolua_function(tolua_S,"construct", lua_axis_physics_PhysicsJointRatchet_construct); tolua_endmodule(tolua_S); auto typeName = typeid(axis::PhysicsJointRatchet).name(); // rtti is literal storage g_luaType[reinterpret_cast(typeName)] = "ax.PhysicsJointRatchet"; g_typeCast[typeName] = "ax.PhysicsJointRatchet"; return 1; } int lua_axis_physics_PhysicsJointGear_setRatio(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointGear* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointGear",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointGear*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointGear_setRatio'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsJointGear:setRatio"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointGear_setRatio'", nullptr); return 0; } cobj->setRatio(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointGear:setRatio",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointGear_setRatio'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointGear_getPhase(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointGear* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointGear",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointGear*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointGear_getPhase'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointGear_getPhase'", nullptr); return 0; } double ret = cobj->getPhase(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointGear:getPhase",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointGear_getPhase'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointGear_setPhase(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointGear* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointGear",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointGear*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointGear_setPhase'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsJointGear:setPhase"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointGear_setPhase'", nullptr); return 0; } cobj->setPhase(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointGear:setPhase",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointGear_setPhase'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointGear_createConstraints(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointGear* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointGear",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointGear*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointGear_createConstraints'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointGear_createConstraints'", nullptr); return 0; } bool ret = cobj->createConstraints(); tolua_pushboolean(tolua_S,(bool)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointGear:createConstraints",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointGear_createConstraints'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointGear_getRatio(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointGear* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointGear",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointGear*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointGear_getRatio'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointGear_getRatio'", nullptr); return 0; } double ret = cobj->getRatio(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointGear:getRatio",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointGear_getRatio'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointGear_construct(lua_State* tolua_S) { int argc = 0; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertable(tolua_S,1,"ax.PhysicsJointGear",0,&tolua_err)) goto tolua_lerror; #endif argc = lua_gettop(tolua_S) - 1; if (argc == 4) { axis::PhysicsBody* arg0; axis::PhysicsBody* arg1; double arg2; double arg3; ok &= luaval_to_object(tolua_S, 2, "ax.PhysicsBody",&arg0, "ax.PhysicsJointGear:construct"); ok &= luaval_to_object(tolua_S, 3, "ax.PhysicsBody",&arg1, "ax.PhysicsJointGear:construct"); ok &= luaval_to_number(tolua_S, 4,&arg2, "ax.PhysicsJointGear:construct"); ok &= luaval_to_number(tolua_S, 5,&arg3, "ax.PhysicsJointGear:construct"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointGear_construct'", nullptr); return 0; } axis::PhysicsJointGear* ret = axis::PhysicsJointGear::construct(arg0, arg1, arg2, arg3); object_to_luaval(tolua_S, "ax.PhysicsJointGear",(axis::PhysicsJointGear*)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d\n ", "ax.PhysicsJointGear:construct",argc, 4); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointGear_construct'.",&tolua_err); #endif return 0; } static int lua_axis_physics_PhysicsJointGear_finalize(lua_State* tolua_S) { printf("luabindings: finalizing LUA object (PhysicsJointGear)"); return 0; } int lua_register_axis_physics_PhysicsJointGear(lua_State* tolua_S) { tolua_usertype(tolua_S,"ax.PhysicsJointGear"); tolua_cclass(tolua_S,"PhysicsJointGear","ax.PhysicsJointGear","ax.PhysicsJoint",nullptr); tolua_beginmodule(tolua_S,"PhysicsJointGear"); tolua_function(tolua_S,"setRatio",lua_axis_physics_PhysicsJointGear_setRatio); tolua_function(tolua_S,"getPhase",lua_axis_physics_PhysicsJointGear_getPhase); tolua_function(tolua_S,"setPhase",lua_axis_physics_PhysicsJointGear_setPhase); tolua_function(tolua_S,"createConstraints",lua_axis_physics_PhysicsJointGear_createConstraints); tolua_function(tolua_S,"getRatio",lua_axis_physics_PhysicsJointGear_getRatio); tolua_function(tolua_S,"construct", lua_axis_physics_PhysicsJointGear_construct); tolua_endmodule(tolua_S); auto typeName = typeid(axis::PhysicsJointGear).name(); // rtti is literal storage g_luaType[reinterpret_cast(typeName)] = "ax.PhysicsJointGear"; g_typeCast[typeName] = "ax.PhysicsJointGear"; return 1; } int lua_axis_physics_PhysicsJointMotor_setRate(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointMotor* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointMotor",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointMotor*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointMotor_setRate'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsJointMotor:setRate"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointMotor_setRate'", nullptr); return 0; } cobj->setRate(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointMotor:setRate",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointMotor_setRate'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointMotor_getRate(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointMotor* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointMotor",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointMotor*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointMotor_getRate'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointMotor_getRate'", nullptr); return 0; } double ret = cobj->getRate(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointMotor:getRate",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointMotor_getRate'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointMotor_createConstraints(lua_State* tolua_S) { int argc = 0; axis::PhysicsJointMotor* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsJointMotor",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsJointMotor*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsJointMotor_createConstraints'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointMotor_createConstraints'", nullptr); return 0; } bool ret = cobj->createConstraints(); tolua_pushboolean(tolua_S,(bool)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsJointMotor:createConstraints",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointMotor_createConstraints'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsJointMotor_construct(lua_State* tolua_S) { int argc = 0; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertable(tolua_S,1,"ax.PhysicsJointMotor",0,&tolua_err)) goto tolua_lerror; #endif argc = lua_gettop(tolua_S) - 1; if (argc == 3) { axis::PhysicsBody* arg0; axis::PhysicsBody* arg1; double arg2; ok &= luaval_to_object(tolua_S, 2, "ax.PhysicsBody",&arg0, "ax.PhysicsJointMotor:construct"); ok &= luaval_to_object(tolua_S, 3, "ax.PhysicsBody",&arg1, "ax.PhysicsJointMotor:construct"); ok &= luaval_to_number(tolua_S, 4,&arg2, "ax.PhysicsJointMotor:construct"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsJointMotor_construct'", nullptr); return 0; } axis::PhysicsJointMotor* ret = axis::PhysicsJointMotor::construct(arg0, arg1, arg2); object_to_luaval(tolua_S, "ax.PhysicsJointMotor",(axis::PhysicsJointMotor*)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d\n ", "ax.PhysicsJointMotor:construct",argc, 3); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsJointMotor_construct'.",&tolua_err); #endif return 0; } static int lua_axis_physics_PhysicsJointMotor_finalize(lua_State* tolua_S) { printf("luabindings: finalizing LUA object (PhysicsJointMotor)"); return 0; } int lua_register_axis_physics_PhysicsJointMotor(lua_State* tolua_S) { tolua_usertype(tolua_S,"ax.PhysicsJointMotor"); tolua_cclass(tolua_S,"PhysicsJointMotor","ax.PhysicsJointMotor","ax.PhysicsJoint",nullptr); tolua_beginmodule(tolua_S,"PhysicsJointMotor"); tolua_function(tolua_S,"setRate",lua_axis_physics_PhysicsJointMotor_setRate); tolua_function(tolua_S,"getRate",lua_axis_physics_PhysicsJointMotor_getRate); tolua_function(tolua_S,"createConstraints",lua_axis_physics_PhysicsJointMotor_createConstraints); tolua_function(tolua_S,"construct", lua_axis_physics_PhysicsJointMotor_construct); tolua_endmodule(tolua_S); auto typeName = typeid(axis::PhysicsJointMotor).name(); // rtti is literal storage g_luaType[reinterpret_cast(typeName)] = "ax.PhysicsJointMotor"; g_typeCast[typeName] = "ax.PhysicsJointMotor"; return 1; } int lua_axis_physics_PhysicsWorld_setGravity(lua_State* tolua_S) { int argc = 0; axis::PhysicsWorld* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsWorld",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsWorld*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsWorld_setGravity'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { axis::Vec2 arg0; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsWorld:setGravity"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsWorld_setGravity'", nullptr); return 0; } cobj->setGravity(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsWorld:setGravity",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsWorld_setGravity'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsWorld_getAllBodies(lua_State* tolua_S) { int argc = 0; axis::PhysicsWorld* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsWorld",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsWorld*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsWorld_getAllBodies'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsWorld_getAllBodies'", nullptr); return 0; } const axis::Vector& ret = cobj->getAllBodies(); ccvector_to_luaval(tolua_S, ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsWorld:getAllBodies",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsWorld_getAllBodies'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsWorld_setFixedUpdateRate(lua_State* tolua_S) { int argc = 0; axis::PhysicsWorld* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsWorld",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsWorld*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsWorld_setFixedUpdateRate'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { int arg0; ok &= luaval_to_int32(tolua_S, 2,(int *)&arg0, "ax.PhysicsWorld:setFixedUpdateRate"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsWorld_setFixedUpdateRate'", nullptr); return 0; } cobj->setFixedUpdateRate(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsWorld:setFixedUpdateRate",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsWorld_setFixedUpdateRate'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsWorld_setSubsteps(lua_State* tolua_S) { int argc = 0; axis::PhysicsWorld* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsWorld",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsWorld*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsWorld_setSubsteps'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { int arg0; ok &= luaval_to_int32(tolua_S, 2,(int *)&arg0, "ax.PhysicsWorld:setSubsteps"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsWorld_setSubsteps'", nullptr); return 0; } cobj->setSubsteps(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsWorld:setSubsteps",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsWorld_setSubsteps'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsWorld_setAutoStep(lua_State* tolua_S) { int argc = 0; axis::PhysicsWorld* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsWorld",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsWorld*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsWorld_setAutoStep'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { bool arg0; ok &= luaval_to_boolean(tolua_S, 2,&arg0, "ax.PhysicsWorld:setAutoStep"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsWorld_setAutoStep'", nullptr); return 0; } cobj->setAutoStep(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsWorld:setAutoStep",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsWorld_setAutoStep'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsWorld_addJoint(lua_State* tolua_S) { int argc = 0; axis::PhysicsWorld* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsWorld",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsWorld*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsWorld_addJoint'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { axis::PhysicsJoint* arg0; ok &= luaval_to_object(tolua_S, 2, "ax.PhysicsJoint",&arg0, "ax.PhysicsWorld:addJoint"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsWorld_addJoint'", nullptr); return 0; } cobj->addJoint(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsWorld:addJoint",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsWorld_addJoint'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsWorld_removeAllJoints(lua_State* tolua_S) { int argc = 0; axis::PhysicsWorld* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsWorld",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsWorld*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsWorld_removeAllJoints'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsWorld_removeAllJoints'", nullptr); return 0; } cobj->removeAllJoints(); lua_settop(tolua_S, 1); return 1; } if (argc == 1) { bool arg0; ok &= luaval_to_boolean(tolua_S, 2,&arg0, "ax.PhysicsWorld:removeAllJoints"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsWorld_removeAllJoints'", nullptr); return 0; } cobj->removeAllJoints(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsWorld:removeAllJoints",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsWorld_removeAllJoints'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsWorld_getDebugDrawMask(lua_State* tolua_S) { int argc = 0; axis::PhysicsWorld* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsWorld",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsWorld*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsWorld_getDebugDrawMask'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsWorld_getDebugDrawMask'", nullptr); return 0; } int ret = cobj->getDebugDrawMask(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsWorld:getDebugDrawMask",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsWorld_getDebugDrawMask'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsWorld_setPreUpdateCallback(lua_State* tolua_S) { int argc = 0; axis::PhysicsWorld* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsWorld",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsWorld*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsWorld_setPreUpdateCallback'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { std::function arg0; do { // Lambda binding for lua is not supported. assert(false); } while(0) ; if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsWorld_setPreUpdateCallback'", nullptr); return 0; } cobj->setPreUpdateCallback(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsWorld:setPreUpdateCallback",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsWorld_setPreUpdateCallback'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsWorld_isAutoStep(lua_State* tolua_S) { int argc = 0; axis::PhysicsWorld* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsWorld",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsWorld*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsWorld_isAutoStep'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsWorld_isAutoStep'", nullptr); return 0; } bool ret = cobj->isAutoStep(); tolua_pushboolean(tolua_S,(bool)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsWorld:isAutoStep",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsWorld_isAutoStep'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsWorld_setPostUpdateCallback(lua_State* tolua_S) { int argc = 0; axis::PhysicsWorld* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsWorld",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsWorld*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsWorld_setPostUpdateCallback'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { std::function arg0; do { // Lambda binding for lua is not supported. assert(false); } while(0) ; if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsWorld_setPostUpdateCallback'", nullptr); return 0; } cobj->setPostUpdateCallback(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsWorld:setPostUpdateCallback",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsWorld_setPostUpdateCallback'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsWorld_removeBody(lua_State* tolua_S) { int argc = 0; axis::PhysicsWorld* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsWorld",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsWorld*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsWorld_removeBody'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; do{ if (argc == 1) { int arg0; ok &= luaval_to_int32(tolua_S, 2,(int *)&arg0, "ax.PhysicsWorld:removeBody"); if (!ok) { break; } cobj->removeBody(arg0); lua_settop(tolua_S, 1); return 1; } }while(0); ok = true; do{ if (argc == 1) { axis::PhysicsBody* arg0; ok &= luaval_to_object(tolua_S, 2, "ax.PhysicsBody",&arg0, "ax.PhysicsWorld:removeBody"); if (!ok) { break; } cobj->removeBody(arg0); lua_settop(tolua_S, 1); return 1; } }while(0); ok = true; luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsWorld:removeBody",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsWorld_removeBody'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsWorld_removeJoint(lua_State* tolua_S) { int argc = 0; axis::PhysicsWorld* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsWorld",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsWorld*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsWorld_removeJoint'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { axis::PhysicsJoint* arg0; ok &= luaval_to_object(tolua_S, 2, "ax.PhysicsJoint",&arg0, "ax.PhysicsWorld:removeJoint"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsWorld_removeJoint'", nullptr); return 0; } cobj->removeJoint(arg0); lua_settop(tolua_S, 1); return 1; } if (argc == 2) { axis::PhysicsJoint* arg0; bool arg1; ok &= luaval_to_object(tolua_S, 2, "ax.PhysicsJoint",&arg0, "ax.PhysicsWorld:removeJoint"); ok &= luaval_to_boolean(tolua_S, 3,&arg1, "ax.PhysicsWorld:removeJoint"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsWorld_removeJoint'", nullptr); return 0; } cobj->removeJoint(arg0, arg1); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsWorld:removeJoint",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsWorld_removeJoint'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsWorld_getShapes(lua_State* tolua_S) { int argc = 0; axis::PhysicsWorld* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsWorld",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsWorld*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsWorld_getShapes'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { axis::Vec2 arg0; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsWorld:getShapes"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsWorld_getShapes'", nullptr); return 0; } axis::Vector ret = cobj->getShapes(arg0); ccvector_to_luaval(tolua_S, ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsWorld:getShapes",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsWorld_getShapes'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsWorld_step(lua_State* tolua_S) { int argc = 0; axis::PhysicsWorld* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsWorld",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsWorld*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsWorld_step'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsWorld:step"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsWorld_step'", nullptr); return 0; } cobj->step(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsWorld:step",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsWorld_step'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsWorld_setDebugDrawMask(lua_State* tolua_S) { int argc = 0; axis::PhysicsWorld* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsWorld",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsWorld*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsWorld_setDebugDrawMask'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { int arg0; ok &= luaval_to_int32(tolua_S, 2,(int *)&arg0, "ax.PhysicsWorld:setDebugDrawMask"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsWorld_setDebugDrawMask'", nullptr); return 0; } cobj->setDebugDrawMask(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsWorld:setDebugDrawMask",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsWorld_setDebugDrawMask'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsWorld_getGravity(lua_State* tolua_S) { int argc = 0; axis::PhysicsWorld* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsWorld",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsWorld*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsWorld_getGravity'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsWorld_getGravity'", nullptr); return 0; } axis::Vec2 ret = cobj->getGravity(); vec2_to_luaval(tolua_S, ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsWorld:getGravity",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsWorld_getGravity'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsWorld_setUpdateRate(lua_State* tolua_S) { int argc = 0; axis::PhysicsWorld* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsWorld",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsWorld*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsWorld_setUpdateRate'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { int arg0; ok &= luaval_to_int32(tolua_S, 2,(int *)&arg0, "ax.PhysicsWorld:setUpdateRate"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsWorld_setUpdateRate'", nullptr); return 0; } cobj->setUpdateRate(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsWorld:setUpdateRate",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsWorld_setUpdateRate'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsWorld_getFixedUpdateRate(lua_State* tolua_S) { int argc = 0; axis::PhysicsWorld* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsWorld",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsWorld*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsWorld_getFixedUpdateRate'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsWorld_getFixedUpdateRate'", nullptr); return 0; } int ret = cobj->getFixedUpdateRate(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsWorld:getFixedUpdateRate",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsWorld_getFixedUpdateRate'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsWorld_getSubsteps(lua_State* tolua_S) { int argc = 0; axis::PhysicsWorld* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsWorld",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsWorld*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsWorld_getSubsteps'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsWorld_getSubsteps'", nullptr); return 0; } int ret = cobj->getSubsteps(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsWorld:getSubsteps",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsWorld_getSubsteps'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsWorld_getSpeed(lua_State* tolua_S) { int argc = 0; axis::PhysicsWorld* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsWorld",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsWorld*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsWorld_getSpeed'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsWorld_getSpeed'", nullptr); return 0; } double ret = cobj->getSpeed(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsWorld:getSpeed",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsWorld_getSpeed'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsWorld_getUpdateRate(lua_State* tolua_S) { int argc = 0; axis::PhysicsWorld* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsWorld",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsWorld*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsWorld_getUpdateRate'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsWorld_getUpdateRate'", nullptr); return 0; } int ret = cobj->getUpdateRate(); tolua_pushnumber(tolua_S,(lua_Number)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsWorld:getUpdateRate",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsWorld_getUpdateRate'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsWorld_removeAllBodies(lua_State* tolua_S) { int argc = 0; axis::PhysicsWorld* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsWorld",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsWorld*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsWorld_removeAllBodies'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 0) { if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsWorld_removeAllBodies'", nullptr); return 0; } cobj->removeAllBodies(); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsWorld:removeAllBodies",argc, 0); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsWorld_removeAllBodies'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsWorld_setSpeed(lua_State* tolua_S) { int argc = 0; axis::PhysicsWorld* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsWorld",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsWorld*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsWorld_setSpeed'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { double arg0; ok &= luaval_to_number(tolua_S, 2,&arg0, "ax.PhysicsWorld:setSpeed"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsWorld_setSpeed'", nullptr); return 0; } cobj->setSpeed(arg0); lua_settop(tolua_S, 1); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsWorld:setSpeed",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsWorld_setSpeed'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsWorld_getShape(lua_State* tolua_S) { int argc = 0; axis::PhysicsWorld* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsWorld",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsWorld*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsWorld_getShape'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { axis::Vec2 arg0; ok &= luaval_to_vec2(tolua_S, 2, &arg0, "ax.PhysicsWorld:getShape"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsWorld_getShape'", nullptr); return 0; } axis::PhysicsShape* ret = cobj->getShape(arg0); object_to_luaval(tolua_S, "ax.PhysicsShape",(axis::PhysicsShape*)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsWorld:getShape",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsWorld_getShape'.",&tolua_err); #endif return 0; } int lua_axis_physics_PhysicsWorld_getBody(lua_State* tolua_S) { int argc = 0; axis::PhysicsWorld* cobj = nullptr; bool ok = true; #if COCOS2D_DEBUG >= 1 tolua_Error tolua_err; #endif #if COCOS2D_DEBUG >= 1 if (!tolua_isusertype(tolua_S,1,"ax.PhysicsWorld",0,&tolua_err)) goto tolua_lerror; #endif cobj = (axis::PhysicsWorld*)tolua_tousertype(tolua_S,1,0); #if COCOS2D_DEBUG >= 1 if (!cobj) { tolua_error(tolua_S,"invalid 'cobj' in function 'lua_axis_physics_PhysicsWorld_getBody'", nullptr); return 0; } #endif argc = lua_gettop(tolua_S)-1; if (argc == 1) { int arg0; ok &= luaval_to_int32(tolua_S, 2,(int *)&arg0, "ax.PhysicsWorld:getBody"); if(!ok) { tolua_error(tolua_S,"invalid arguments in function 'lua_axis_physics_PhysicsWorld_getBody'", nullptr); return 0; } axis::PhysicsBody* ret = cobj->getBody(arg0); object_to_luaval(tolua_S, "ax.PhysicsBody",(axis::PhysicsBody*)ret); return 1; } luaL_error(tolua_S, "%s has wrong number of arguments: %d, was expecting %d \n", "ax.PhysicsWorld:getBody",argc, 1); return 0; #if COCOS2D_DEBUG >= 1 tolua_lerror: tolua_error(tolua_S,"#ferror in function 'lua_axis_physics_PhysicsWorld_getBody'.",&tolua_err); #endif return 0; } static int lua_axis_physics_PhysicsWorld_finalize(lua_State* tolua_S) { printf("luabindings: finalizing LUA object (PhysicsWorld)"); return 0; } int lua_register_axis_physics_PhysicsWorld(lua_State* tolua_S) { tolua_usertype(tolua_S,"ax.PhysicsWorld"); tolua_cclass(tolua_S,"PhysicsWorld","ax.PhysicsWorld","",nullptr); tolua_beginmodule(tolua_S,"PhysicsWorld"); tolua_function(tolua_S,"setGravity",lua_axis_physics_PhysicsWorld_setGravity); tolua_function(tolua_S,"getAllBodies",lua_axis_physics_PhysicsWorld_getAllBodies); tolua_function(tolua_S,"setFixedUpdateRate",lua_axis_physics_PhysicsWorld_setFixedUpdateRate); tolua_function(tolua_S,"setSubsteps",lua_axis_physics_PhysicsWorld_setSubsteps); tolua_function(tolua_S,"setAutoStep",lua_axis_physics_PhysicsWorld_setAutoStep); tolua_function(tolua_S,"addJoint",lua_axis_physics_PhysicsWorld_addJoint); tolua_function(tolua_S,"removeAllJoints",lua_axis_physics_PhysicsWorld_removeAllJoints); tolua_function(tolua_S,"getDebugDrawMask",lua_axis_physics_PhysicsWorld_getDebugDrawMask); tolua_function(tolua_S,"setPreUpdateCallback",lua_axis_physics_PhysicsWorld_setPreUpdateCallback); tolua_function(tolua_S,"isAutoStep",lua_axis_physics_PhysicsWorld_isAutoStep); tolua_function(tolua_S,"setPostUpdateCallback",lua_axis_physics_PhysicsWorld_setPostUpdateCallback); tolua_function(tolua_S,"removeBody",lua_axis_physics_PhysicsWorld_removeBody); tolua_function(tolua_S,"removeJoint",lua_axis_physics_PhysicsWorld_removeJoint); tolua_function(tolua_S,"getShapes",lua_axis_physics_PhysicsWorld_getShapes); tolua_function(tolua_S,"step",lua_axis_physics_PhysicsWorld_step); tolua_function(tolua_S,"setDebugDrawMask",lua_axis_physics_PhysicsWorld_setDebugDrawMask); tolua_function(tolua_S,"getGravity",lua_axis_physics_PhysicsWorld_getGravity); tolua_function(tolua_S,"setUpdateRate",lua_axis_physics_PhysicsWorld_setUpdateRate); tolua_function(tolua_S,"getFixedUpdateRate",lua_axis_physics_PhysicsWorld_getFixedUpdateRate); tolua_function(tolua_S,"getSubsteps",lua_axis_physics_PhysicsWorld_getSubsteps); tolua_function(tolua_S,"getSpeed",lua_axis_physics_PhysicsWorld_getSpeed); tolua_function(tolua_S,"getUpdateRate",lua_axis_physics_PhysicsWorld_getUpdateRate); tolua_function(tolua_S,"removeAllBodies",lua_axis_physics_PhysicsWorld_removeAllBodies); tolua_function(tolua_S,"setSpeed",lua_axis_physics_PhysicsWorld_setSpeed); tolua_function(tolua_S,"getShape",lua_axis_physics_PhysicsWorld_getShape); tolua_function(tolua_S,"getBody",lua_axis_physics_PhysicsWorld_getBody); tolua_endmodule(tolua_S); auto typeName = typeid(axis::PhysicsWorld).name(); // rtti is literal storage g_luaType[reinterpret_cast(typeName)] = "ax.PhysicsWorld"; g_typeCast[typeName] = "ax.PhysicsWorld"; return 1; } TOLUA_API int register_all_axis_physics(lua_State* tolua_S) { tolua_open(tolua_S); tolua_module(tolua_S,"ax",0); tolua_beginmodule(tolua_S,"ax"); lua_register_axis_physics_PhysicsBody(tolua_S); lua_register_axis_physics_PhysicsWorld(tolua_S); lua_register_axis_physics_PhysicsJoint(tolua_S); lua_register_axis_physics_PhysicsJointLimit(tolua_S); lua_register_axis_physics_PhysicsJointFixed(tolua_S); lua_register_axis_physics_EventListenerPhysicsContact(tolua_S); lua_register_axis_physics_EventListenerPhysicsContactWithGroup(tolua_S); lua_register_axis_physics_PhysicsShape(tolua_S); lua_register_axis_physics_PhysicsShapePolygon(tolua_S); lua_register_axis_physics_PhysicsShapeBox(tolua_S); lua_register_axis_physics_PhysicsJointMotor(tolua_S); lua_register_axis_physics_PhysicsJointRatchet(tolua_S); lua_register_axis_physics_PhysicsJointDistance(tolua_S); lua_register_axis_physics_PhysicsShapeCircle(tolua_S); lua_register_axis_physics_PhysicsShapeEdgePolygon(tolua_S); lua_register_axis_physics_PhysicsJointPin(tolua_S); lua_register_axis_physics_PhysicsContactPreSolve(tolua_S); lua_register_axis_physics_PhysicsShapeEdgeChain(tolua_S); lua_register_axis_physics_PhysicsShapeEdgeSegment(tolua_S); lua_register_axis_physics_PhysicsJointGear(tolua_S); lua_register_axis_physics_PhysicsContact(tolua_S); lua_register_axis_physics_EventListenerPhysicsContactWithBodies(tolua_S); lua_register_axis_physics_PhysicsJointRotarySpring(tolua_S); lua_register_axis_physics_PhysicsContactPostSolve(tolua_S); lua_register_axis_physics_PhysicsJointGroove(tolua_S); lua_register_axis_physics_PhysicsShapeEdgeBox(tolua_S); lua_register_axis_physics_PhysicsJointRotaryLimit(tolua_S); lua_register_axis_physics_PhysicsJointSpring(tolua_S); lua_register_axis_physics_EventListenerPhysicsContactWithShapes(tolua_S); tolua_endmodule(tolua_S); return 1; } #endif