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// auto generated bindings, don't manually edit
# include "lua_generated_bindings.h"
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# include "lua_boxed_numerics.h"
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# include <RC_Channel/RC_Channel.h>
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# include <SRV_Channel/SRV_Channel.h>
# include <AP_SerialLED/AP_SerialLED.h>
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# include <AP_Vehicle/AP_Vehicle.h>
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# include <GCS_MAVLink/GCS.h>
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# include <AP_Relay/AP_Relay.h>
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# include <AP_Terrain/AP_Terrain.h>
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# include <AP_RangeFinder/AP_RangeFinder.h>
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# include <AP_Notify/AP_Notify.h>
# include <AP_Math/AP_Math.h>
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# include <AP_GPS/AP_GPS.h>
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# include <AP_BattMonitor/AP_BattMonitor.h>
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# include <AP_Arming/AP_Arming.h>
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# include <AP_AHRS/AP_AHRS.h>
# include <AP_Common/Location.h>
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# if !defined(AP_TERRAIN_AVAILABLE) || (AP_TERRAIN_AVAILABLE != 1)
# error Scripting requires terrain to be available
# endif // !defined(AP_TERRAIN_AVAILABLE) || (AP_TERRAIN_AVAILABLE != 1)
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static int binding_argcheck ( lua_State * L , int expected_arg_count ) {
const int args = lua_gettop ( L ) ;
if ( args > expected_arg_count ) {
return luaL_argerror ( L , args , " too many arguments " ) ;
} else if ( args < expected_arg_count ) {
return luaL_argerror ( L , args , " too few arguments " ) ;
}
return 0 ;
}
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int new_Vector2f ( lua_State * L ) {
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luaL_checkstack ( L , 2 , " Out of stack " ) ;
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void * ud = lua_newuserdata ( L , sizeof ( Vector2f ) ) ;
memset ( ud , 0 , sizeof ( Vector2f ) ) ;
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new ( ud ) Vector2f ( ) ;
luaL_getmetatable ( L , " Vector2f " ) ;
lua_setmetatable ( L , - 2 ) ;
return 1 ;
}
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int new_Vector3f ( lua_State * L ) {
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luaL_checkstack ( L , 2 , " Out of stack " ) ;
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void * ud = lua_newuserdata ( L , sizeof ( Vector3f ) ) ;
memset ( ud , 0 , sizeof ( Vector3f ) ) ;
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new ( ud ) Vector3f ( ) ;
luaL_getmetatable ( L , " Vector3f " ) ;
lua_setmetatable ( L , - 2 ) ;
return 1 ;
}
int new_Location ( lua_State * L ) {
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luaL_checkstack ( L , 2 , " Out of stack " ) ;
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void * ud = lua_newuserdata ( L , sizeof ( Location ) ) ;
memset ( ud , 0 , sizeof ( Location ) ) ;
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new ( ud ) Location ( ) ;
luaL_getmetatable ( L , " Location " ) ;
lua_setmetatable ( L , - 2 ) ;
return 1 ;
}
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Vector2f * check_Vector2f ( lua_State * L , int arg ) {
void * data = luaL_checkudata ( L , arg , " Vector2f " ) ;
return ( Vector2f * ) data ;
}
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Vector3f * check_Vector3f ( lua_State * L , int arg ) {
void * data = luaL_checkudata ( L , arg , " Vector3f " ) ;
return ( Vector3f * ) data ;
}
Location * check_Location ( lua_State * L , int arg ) {
void * data = luaL_checkudata ( L , arg , " Location " ) ;
return ( Location * ) data ;
}
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static int Vector2f_y ( lua_State * L ) {
Vector2f * ud = check_Vector2f ( L , 1 ) ;
switch ( lua_gettop ( L ) ) {
case 1 :
lua_pushnumber ( L , ud - > y ) ;
return 1 ;
case 2 : {
const float raw_data_2 = luaL_checknumber ( L , 2 ) ;
luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( - FLT_MAX , - INFINITY ) ) & & ( raw_data_2 < = MIN ( FLT_MAX , INFINITY ) ) ) , 2 , " y out of range " ) ;
const float data_2 = raw_data_2 ;
ud - > y = data_2 ;
return 0 ;
}
default :
return luaL_argerror ( L , lua_gettop ( L ) , " too many arguments " ) ;
}
}
static int Vector2f_x ( lua_State * L ) {
Vector2f * ud = check_Vector2f ( L , 1 ) ;
switch ( lua_gettop ( L ) ) {
case 1 :
lua_pushnumber ( L , ud - > x ) ;
return 1 ;
case 2 : {
const float raw_data_2 = luaL_checknumber ( L , 2 ) ;
luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( - FLT_MAX , - INFINITY ) ) & & ( raw_data_2 < = MIN ( FLT_MAX , INFINITY ) ) ) , 2 , " x out of range " ) ;
const float data_2 = raw_data_2 ;
ud - > x = data_2 ;
return 0 ;
}
default :
return luaL_argerror ( L , lua_gettop ( L ) , " too many arguments " ) ;
}
}
static int Vector3f_z ( lua_State * L ) {
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Vector3f * ud = check_Vector3f ( L , 1 ) ;
switch ( lua_gettop ( L ) ) {
case 1 :
lua_pushnumber ( L , ud - > z ) ;
return 1 ;
case 2 : {
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const float raw_data_2 = luaL_checknumber ( L , 2 ) ;
luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( - FLT_MAX , - INFINITY ) ) & & ( raw_data_2 < = MIN ( FLT_MAX , INFINITY ) ) ) , 2 , " z out of range " ) ;
const float data_2 = raw_data_2 ;
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ud - > z = data_2 ;
return 0 ;
}
default :
return luaL_argerror ( L , lua_gettop ( L ) , " too many arguments " ) ;
}
}
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static int Vector3f_y ( lua_State * L ) {
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Vector3f * ud = check_Vector3f ( L , 1 ) ;
switch ( lua_gettop ( L ) ) {
case 1 :
lua_pushnumber ( L , ud - > y ) ;
return 1 ;
case 2 : {
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const float raw_data_2 = luaL_checknumber ( L , 2 ) ;
luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( - FLT_MAX , - INFINITY ) ) & & ( raw_data_2 < = MIN ( FLT_MAX , INFINITY ) ) ) , 2 , " y out of range " ) ;
const float data_2 = raw_data_2 ;
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ud - > y = data_2 ;
return 0 ;
}
default :
return luaL_argerror ( L , lua_gettop ( L ) , " too many arguments " ) ;
}
}
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static int Vector3f_x ( lua_State * L ) {
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Vector3f * ud = check_Vector3f ( L , 1 ) ;
switch ( lua_gettop ( L ) ) {
case 1 :
lua_pushnumber ( L , ud - > x ) ;
return 1 ;
case 2 : {
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const float raw_data_2 = luaL_checknumber ( L , 2 ) ;
luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( - FLT_MAX , - INFINITY ) ) & & ( raw_data_2 < = MIN ( FLT_MAX , INFINITY ) ) ) , 2 , " x out of range " ) ;
const float data_2 = raw_data_2 ;
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ud - > x = data_2 ;
return 0 ;
}
default :
return luaL_argerror ( L , lua_gettop ( L ) , " too many arguments " ) ;
}
}
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static int Location_loiter_xtrack ( lua_State * L ) {
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Location * ud = check_Location ( L , 1 ) ;
switch ( lua_gettop ( L ) ) {
case 1 :
lua_pushinteger ( L , ud - > loiter_xtrack ) ;
return 1 ;
case 2 : {
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const bool data_2 = static_cast < bool > ( lua_toboolean ( L , 2 ) ) ;
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ud - > loiter_xtrack = data_2 ;
return 0 ;
}
default :
return luaL_argerror ( L , lua_gettop ( L ) , " too many arguments " ) ;
}
}
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static int Location_origin_alt ( lua_State * L ) {
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Location * ud = check_Location ( L , 1 ) ;
switch ( lua_gettop ( L ) ) {
case 1 :
lua_pushinteger ( L , ud - > origin_alt ) ;
return 1 ;
case 2 : {
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const bool data_2 = static_cast < bool > ( lua_toboolean ( L , 2 ) ) ;
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ud - > origin_alt = data_2 ;
return 0 ;
}
default :
return luaL_argerror ( L , lua_gettop ( L ) , " too many arguments " ) ;
}
}
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static int Location_terrain_alt ( lua_State * L ) {
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Location * ud = check_Location ( L , 1 ) ;
switch ( lua_gettop ( L ) ) {
case 1 :
lua_pushinteger ( L , ud - > terrain_alt ) ;
return 1 ;
case 2 : {
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const bool data_2 = static_cast < bool > ( lua_toboolean ( L , 2 ) ) ;
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ud - > terrain_alt = data_2 ;
return 0 ;
}
default :
return luaL_argerror ( L , lua_gettop ( L ) , " too many arguments " ) ;
}
}
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static int Location_relative_alt ( lua_State * L ) {
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Location * ud = check_Location ( L , 1 ) ;
switch ( lua_gettop ( L ) ) {
case 1 :
lua_pushinteger ( L , ud - > relative_alt ) ;
return 1 ;
case 2 : {
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const bool data_2 = static_cast < bool > ( lua_toboolean ( L , 2 ) ) ;
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ud - > relative_alt = data_2 ;
return 0 ;
}
default :
return luaL_argerror ( L , lua_gettop ( L ) , " too many arguments " ) ;
}
}
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static int Location_lng ( lua_State * L ) {
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Location * ud = check_Location ( L , 1 ) ;
switch ( lua_gettop ( L ) ) {
case 1 :
lua_pushinteger ( L , ud - > lng ) ;
return 1 ;
case 2 : {
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const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
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luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( - 1800000000 , INT32_MIN ) ) & & ( raw_data_2 < = MIN ( 1800000000 , INT32_MAX ) ) ) , 2 , " lng out of range " ) ;
const int32_t data_2 = raw_data_2 ;
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ud - > lng = data_2 ;
return 0 ;
}
default :
return luaL_argerror ( L , lua_gettop ( L ) , " too many arguments " ) ;
}
}
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static int Location_lat ( lua_State * L ) {
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Location * ud = check_Location ( L , 1 ) ;
switch ( lua_gettop ( L ) ) {
case 1 :
lua_pushinteger ( L , ud - > lat ) ;
return 1 ;
case 2 : {
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const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
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luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( - 900000000 , INT32_MIN ) ) & & ( raw_data_2 < = MIN ( 900000000 , INT32_MAX ) ) ) , 2 , " lat out of range " ) ;
const int32_t data_2 = raw_data_2 ;
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ud - > lat = data_2 ;
return 0 ;
}
default :
return luaL_argerror ( L , lua_gettop ( L ) , " too many arguments " ) ;
}
}
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static int Vector2f_is_zero ( lua_State * L ) {
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binding_argcheck ( L , 1 ) ;
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Vector2f * ud = check_Vector2f ( L , 1 ) ;
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const bool data = ud - > is_zero ( ) ;
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lua_pushboolean ( L , data ) ;
return 1 ;
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}
static int Vector2f_is_inf ( lua_State * L ) {
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binding_argcheck ( L , 1 ) ;
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Vector2f * ud = check_Vector2f ( L , 1 ) ;
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const bool data = ud - > is_inf ( ) ;
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lua_pushboolean ( L , data ) ;
return 1 ;
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}
static int Vector2f_is_nan ( lua_State * L ) {
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binding_argcheck ( L , 1 ) ;
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Vector2f * ud = check_Vector2f ( L , 1 ) ;
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const bool data = ud - > is_nan ( ) ;
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lua_pushboolean ( L , data ) ;
return 1 ;
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}
static int Vector2f_normalize ( lua_State * L ) {
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binding_argcheck ( L , 1 ) ;
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Vector2f * ud = check_Vector2f ( L , 1 ) ;
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ud - > normalize ( ) ;
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return 0 ;
}
static int Vector2f_length ( lua_State * L ) {
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binding_argcheck ( L , 1 ) ;
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Vector2f * ud = check_Vector2f ( L , 1 ) ;
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const float data = ud - > length ( ) ;
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lua_pushnumber ( L , data ) ;
return 1 ;
}
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static int Vector2f___add ( lua_State * L ) {
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binding_argcheck ( L , 2 ) ;
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Vector2f * ud = check_Vector2f ( L , 1 ) ;
Vector2f * ud2 = check_Vector2f ( L , 2 ) ;
new_Vector2f ( L ) ;
* check_Vector2f ( L , - 1 ) = * ud + * ud2 ; ;
return 1 ;
}
static int Vector2f___sub ( lua_State * L ) {
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binding_argcheck ( L , 2 ) ;
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Vector2f * ud = check_Vector2f ( L , 1 ) ;
Vector2f * ud2 = check_Vector2f ( L , 2 ) ;
new_Vector2f ( L ) ;
* check_Vector2f ( L , - 1 ) = * ud - * ud2 ; ;
return 1 ;
}
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static int Vector3f_is_zero ( lua_State * L ) {
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binding_argcheck ( L , 1 ) ;
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Vector3f * ud = check_Vector3f ( L , 1 ) ;
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const bool data = ud - > is_zero ( ) ;
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lua_pushboolean ( L , data ) ;
return 1 ;
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}
static int Vector3f_is_inf ( lua_State * L ) {
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binding_argcheck ( L , 1 ) ;
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Vector3f * ud = check_Vector3f ( L , 1 ) ;
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const bool data = ud - > is_inf ( ) ;
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lua_pushboolean ( L , data ) ;
return 1 ;
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}
static int Vector3f_is_nan ( lua_State * L ) {
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binding_argcheck ( L , 1 ) ;
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Vector3f * ud = check_Vector3f ( L , 1 ) ;
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const bool data = ud - > is_nan ( ) ;
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lua_pushboolean ( L , data ) ;
return 1 ;
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}
static int Vector3f_normalize ( lua_State * L ) {
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binding_argcheck ( L , 1 ) ;
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Vector3f * ud = check_Vector3f ( L , 1 ) ;
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ud - > normalize ( ) ;
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return 0 ;
}
static int Vector3f_length ( lua_State * L ) {
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binding_argcheck ( L , 1 ) ;
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Vector3f * ud = check_Vector3f ( L , 1 ) ;
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const float data = ud - > length ( ) ;
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lua_pushnumber ( L , data ) ;
return 1 ;
}
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static int Vector3f___add ( lua_State * L ) {
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binding_argcheck ( L , 2 ) ;
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Vector3f * ud = check_Vector3f ( L , 1 ) ;
Vector3f * ud2 = check_Vector3f ( L , 2 ) ;
new_Vector3f ( L ) ;
* check_Vector3f ( L , - 1 ) = * ud + * ud2 ; ;
return 1 ;
}
static int Vector3f___sub ( lua_State * L ) {
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binding_argcheck ( L , 2 ) ;
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Vector3f * ud = check_Vector3f ( L , 1 ) ;
Vector3f * ud2 = check_Vector3f ( L , 2 ) ;
new_Vector3f ( L ) ;
* check_Vector3f ( L , - 1 ) = * ud - * ud2 ; ;
return 1 ;
}
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static int Location_get_distance_NE ( lua_State * L ) {
binding_argcheck ( L , 2 ) ;
Location * ud = check_Location ( L , 1 ) ;
Location & data_2 = * check_Location ( L , 2 ) ;
const Vector2f & data = ud - > get_distance_NE (
data_2 ) ;
new_Vector2f ( L ) ;
* check_Vector2f ( L , - 1 ) = data ;
return 1 ;
}
static int Location_get_distance_NED ( lua_State * L ) {
binding_argcheck ( L , 2 ) ;
Location * ud = check_Location ( L , 1 ) ;
Location & data_2 = * check_Location ( L , 2 ) ;
const Vector3f & data = ud - > get_distance_NED (
data_2 ) ;
new_Vector3f ( L ) ;
* check_Vector3f ( L , - 1 ) = data ;
return 1 ;
}
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static int Location_get_bearing ( lua_State * L ) {
binding_argcheck ( L , 2 ) ;
Location * ud = check_Location ( L , 1 ) ;
Location & data_2 = * check_Location ( L , 2 ) ;
const float data = ud - > get_bearing (
data_2 ) ;
lua_pushnumber ( L , data ) ;
return 1 ;
}
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static int Location_get_vector_from_origin_NEU ( lua_State * L ) {
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binding_argcheck ( L , 1 ) ;
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Location * ud = check_Location ( L , 1 ) ;
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Vector3f data_5002 = { } ;
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const bool data = ud - > get_vector_from_origin_NEU (
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data_5002 ) ;
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if ( data ) {
new_Vector3f ( L ) ;
* check_Vector3f ( L , - 1 ) = data_5002 ;
} else {
lua_pushnil ( L ) ;
}
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return 1 ;
}
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static int Location_offset ( lua_State * L ) {
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binding_argcheck ( L , 3 ) ;
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Location * ud = check_Location ( L , 1 ) ;
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const float raw_data_2 = luaL_checknumber ( L , 2 ) ;
luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( - FLT_MAX , - INFINITY ) ) & & ( raw_data_2 < = MIN ( FLT_MAX , INFINITY ) ) ) , 2 , " argument out of range " ) ;
const float data_2 = raw_data_2 ;
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const float raw_data_3 = luaL_checknumber ( L , 3 ) ;
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luaL_argcheck ( L , ( ( raw_data_3 > = MAX ( - FLT_MAX , - INFINITY ) ) & & ( raw_data_3 < = MIN ( FLT_MAX , INFINITY ) ) ) , 3 , " argument out of range " ) ;
const float data_3 = raw_data_3 ;
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ud - > offset (
data_2 ,
data_3 ) ;
return 0 ;
}
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static int Location_get_distance ( lua_State * L ) {
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binding_argcheck ( L , 2 ) ;
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Location * ud = check_Location ( L , 1 ) ;
Location & data_2 = * check_Location ( L , 2 ) ;
const float data = ud - > get_distance (
data_2 ) ;
lua_pushnumber ( L , data ) ;
return 1 ;
}
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const luaL_Reg Vector2f_meta [ ] = {
{ " y " , Vector2f_y } ,
{ " x " , Vector2f_x } ,
{ " is_zero " , Vector2f_is_zero } ,
{ " is_inf " , Vector2f_is_inf } ,
{ " is_nan " , Vector2f_is_nan } ,
{ " normalize " , Vector2f_normalize } ,
{ " length " , Vector2f_length } ,
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{ " __add " , Vector2f___add } ,
{ " __sub " , Vector2f___sub } ,
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{ NULL , NULL }
} ;
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const luaL_Reg Vector3f_meta [ ] = {
{ " z " , Vector3f_z } ,
{ " y " , Vector3f_y } ,
{ " x " , Vector3f_x } ,
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{ " is_zero " , Vector3f_is_zero } ,
{ " is_inf " , Vector3f_is_inf } ,
{ " is_nan " , Vector3f_is_nan } ,
{ " normalize " , Vector3f_normalize } ,
{ " length " , Vector3f_length } ,
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{ " __add " , Vector3f___add } ,
{ " __sub " , Vector3f___sub } ,
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{ NULL , NULL }
} ;
const luaL_Reg Location_meta [ ] = {
{ " loiter_xtrack " , Location_loiter_xtrack } ,
{ " origin_alt " , Location_origin_alt } ,
{ " terrain_alt " , Location_terrain_alt } ,
{ " relative_alt " , Location_relative_alt } ,
{ " lng " , Location_lng } ,
{ " lat " , Location_lat } ,
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{ " get_distance_NE " , Location_get_distance_NE } ,
{ " get_distance_NED " , Location_get_distance_NED } ,
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{ " get_bearing " , Location_get_bearing } ,
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{ " get_vector_from_origin_NEU " , Location_get_vector_from_origin_NEU } ,
{ " offset " , Location_offset } ,
{ " get_distance " , Location_get_distance } ,
{ NULL , NULL }
} ;
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static int RC_Channels_get_pwm ( lua_State * L ) {
RC_Channels * ud = RC_Channels : : get_singleton ( ) ;
if ( ud = = nullptr ) {
return luaL_argerror ( L , 1 , " rc not supported on this firmware " ) ;
}
binding_argcheck ( L , 2 ) ;
const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( 1 , 0 ) ) & & ( raw_data_2 < = MIN ( NUM_RC_CHANNELS , UINT8_MAX ) ) ) , 2 , " argument out of range " ) ;
const uint8_t data_2 = static_cast < uint8_t > ( raw_data_2 ) ;
uint16_t data_5003 = { } ;
const bool data = ud - > get_pwm (
data_2 ,
data_5003 ) ;
if ( data ) {
lua_pushinteger ( L , data_5003 ) ;
} else {
lua_pushnil ( L ) ;
}
return 1 ;
}
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static int SRV_Channels_find_channel ( lua_State * L ) {
SRV_Channels * ud = SRV_Channels : : get_singleton ( ) ;
if ( ud = = nullptr ) {
return luaL_argerror ( L , 1 , " SRV_Channels not supported on this firmware " ) ;
}
binding_argcheck ( L , 2 ) ;
const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
luaL_argcheck ( L , ( ( raw_data_2 > = static_cast < int32_t > ( SRV_Channel : : k_none ) ) & & ( raw_data_2 < = static_cast < int32_t > ( SRV_Channel : : k_nr_aux_servo_functions - 1 ) ) ) , 2 , " argument out of range " ) ;
const SRV_Channel : : Aux_servo_function_t data_2 = static_cast < SRV_Channel : : Aux_servo_function_t > ( raw_data_2 ) ;
uint8_t data_5003 = { } ;
const bool data = ud - > find_channel (
data_2 ,
data_5003 ) ;
if ( data ) {
lua_pushinteger ( L , data_5003 ) ;
} else {
lua_pushnil ( L ) ;
}
return 1 ;
}
static int AP_SerialLED_send ( lua_State * L ) {
AP_SerialLED * ud = AP_SerialLED : : get_singleton ( ) ;
if ( ud = = nullptr ) {
return luaL_argerror ( L , 1 , " serialLED not supported on this firmware " ) ;
}
binding_argcheck ( L , 1 ) ;
ud - > send ( ) ;
return 0 ;
}
static int AP_SerialLED_set_RGB ( lua_State * L ) {
AP_SerialLED * ud = AP_SerialLED : : get_singleton ( ) ;
if ( ud = = nullptr ) {
return luaL_argerror ( L , 1 , " serialLED not supported on this firmware " ) ;
}
binding_argcheck ( L , 6 ) ;
const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( 1 , 0 ) ) & & ( raw_data_2 < = MIN ( 16 , UINT8_MAX ) ) ) , 2 , " argument out of range " ) ;
const uint8_t data_2 = static_cast < uint8_t > ( raw_data_2 ) ;
const uint32_t raw_data_3 = * check_uint32_t ( L , 3 ) ;
luaL_argcheck ( L , ( ( raw_data_3 > = MAX ( 0U , 0U ) ) & & ( raw_data_3 < = MIN ( UINT32_MAX , UINT32_MAX ) ) ) , 3 , " argument out of range " ) ;
const uint32_t data_3 = static_cast < uint32_t > ( raw_data_3 ) ;
const lua_Integer raw_data_4 = luaL_checkinteger ( L , 4 ) ;
luaL_argcheck ( L , ( ( raw_data_4 > = MAX ( 0 , 0 ) ) & & ( raw_data_4 < = MIN ( UINT8_MAX , UINT8_MAX ) ) ) , 4 , " argument out of range " ) ;
const uint8_t data_4 = static_cast < uint8_t > ( raw_data_4 ) ;
const lua_Integer raw_data_5 = luaL_checkinteger ( L , 5 ) ;
luaL_argcheck ( L , ( ( raw_data_5 > = MAX ( 0 , 0 ) ) & & ( raw_data_5 < = MIN ( UINT8_MAX , UINT8_MAX ) ) ) , 5 , " argument out of range " ) ;
const uint8_t data_5 = static_cast < uint8_t > ( raw_data_5 ) ;
const lua_Integer raw_data_6 = luaL_checkinteger ( L , 6 ) ;
luaL_argcheck ( L , ( ( raw_data_6 > = MAX ( 0 , 0 ) ) & & ( raw_data_6 < = MIN ( UINT8_MAX , UINT8_MAX ) ) ) , 6 , " argument out of range " ) ;
const uint8_t data_6 = static_cast < uint8_t > ( raw_data_6 ) ;
ud - > set_RGB (
data_2 ,
data_3 ,
data_4 ,
data_5 ,
data_6 ) ;
return 0 ;
}
static int AP_SerialLED_set_num_LEDs ( lua_State * L ) {
AP_SerialLED * ud = AP_SerialLED : : get_singleton ( ) ;
if ( ud = = nullptr ) {
return luaL_argerror ( L , 1 , " serialLED not supported on this firmware " ) ;
}
binding_argcheck ( L , 3 ) ;
const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
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luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( 1 , 0 ) ) & & ( raw_data_2 < = MIN ( 16 , UINT8_MAX ) ) ) , 2 , " argument out of range " ) ;
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const uint8_t data_2 = static_cast < uint8_t > ( raw_data_2 ) ;
const lua_Integer raw_data_3 = luaL_checkinteger ( L , 3 ) ;
luaL_argcheck ( L , ( ( raw_data_3 > = MAX ( 0 , 0 ) ) & & ( raw_data_3 < = MIN ( 32 , UINT8_MAX ) ) ) , 3 , " argument out of range " ) ;
const uint8_t data_3 = static_cast < uint8_t > ( raw_data_3 ) ;
const bool data = ud - > set_num_LEDs (
data_2 ,
data_3 ) ;
lua_pushboolean ( L , data ) ;
return 1 ;
}
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static int AP_Vehicle_set_mode ( lua_State * L ) {
AP_Vehicle * ud = AP_Vehicle : : get_singleton ( ) ;
if ( ud = = nullptr ) {
return luaL_argerror ( L , 1 , " vehicle not supported on this firmware " ) ;
}
binding_argcheck ( L , 2 ) ;
const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( 0 , 0 ) ) & & ( raw_data_2 < = MIN ( UINT8_MAX , UINT8_MAX ) ) ) , 2 , " argument out of range " ) ;
const uint8_t data_2 = static_cast < uint8_t > ( raw_data_2 ) ;
const bool data = ud - > set_mode (
data_2 ,
ModeReason : : SCRIPTING ) ;
lua_pushboolean ( L , data ) ;
return 1 ;
}
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static int GCS_set_message_interval ( lua_State * L ) {
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GCS * ud = GCS : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " gcs not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 4 ) ;
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const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
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luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( 0 , 0 ) ) & & ( raw_data_2 < = MIN ( MAVLINK_COMM_NUM_BUFFERS , UINT8_MAX ) ) ) , 2 , " argument out of range " ) ;
const uint8_t data_2 = static_cast < uint8_t > ( raw_data_2 ) ;
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const uint32_t raw_data_3 = * check_uint32_t ( L , 3 ) ;
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luaL_argcheck ( L , ( ( raw_data_3 > = MAX ( 0U , 0U ) ) & & ( raw_data_3 < = MIN ( UINT32_MAX , UINT32_MAX ) ) ) , 3 , " argument out of range " ) ;
const uint32_t data_3 = static_cast < uint32_t > ( raw_data_3 ) ;
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const lua_Integer raw_data_4 = luaL_checkinteger ( L , 4 ) ;
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luaL_argcheck ( L , ( ( raw_data_4 > = MAX ( - 1 , INT32_MIN ) ) & & ( raw_data_4 < = MIN ( INT32_MAX , INT32_MAX ) ) ) , 4 , " argument out of range " ) ;
const int32_t data_4 = raw_data_4 ;
const MAV_RESULT & data = ud - > set_message_interval (
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data_2 ,
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data_3 ,
data_4 ) ;
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lua_pushinteger ( L , data ) ;
return 1 ;
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}
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static int GCS_send_text ( lua_State * L ) {
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GCS * ud = GCS : : get_singleton ( ) ;
if ( ud = = nullptr ) {
return luaL_argerror ( L , 1 , " gcs not supported on this firmware " ) ;
}
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binding_argcheck ( L , 3 ) ;
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const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
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luaL_argcheck ( L , ( ( raw_data_2 > = static_cast < int32_t > ( MAV_SEVERITY_EMERGENCY ) ) & & ( raw_data_2 < = static_cast < int32_t > ( MAV_SEVERITY_DEBUG ) ) ) , 2 , " argument out of range " ) ;
const MAV_SEVERITY data_2 = static_cast < MAV_SEVERITY > ( raw_data_2 ) ;
const char * data_3 = luaL_checkstring ( L , 3 ) ;
ud - > send_text (
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data_2 ,
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" %s " ,
data_3 ) ;
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return 0 ;
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}
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static int AP_Relay_toggle ( lua_State * L ) {
AP_Relay * ud = AP_Relay : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " relay not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 2 ) ;
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const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
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luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( 0 , 0 ) ) & & ( raw_data_2 < = MIN ( AP_RELAY_NUM_RELAYS , UINT8_MAX ) ) ) , 2 , " argument out of range " ) ;
const uint8_t data_2 = static_cast < uint8_t > ( raw_data_2 ) ;
ud - > toggle (
data_2 ) ;
return 0 ;
}
static int AP_Relay_enabled ( lua_State * L ) {
AP_Relay * ud = AP_Relay : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " relay not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 2 ) ;
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const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
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luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( 0 , 0 ) ) & & ( raw_data_2 < = MIN ( AP_RELAY_NUM_RELAYS , UINT8_MAX ) ) ) , 2 , " argument out of range " ) ;
const uint8_t data_2 = static_cast < uint8_t > ( raw_data_2 ) ;
const bool data = ud - > enabled (
data_2 ) ;
lua_pushboolean ( L , data ) ;
return 1 ;
}
static int AP_Relay_off ( lua_State * L ) {
AP_Relay * ud = AP_Relay : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " relay not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 2 ) ;
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const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
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luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( 0 , 0 ) ) & & ( raw_data_2 < = MIN ( AP_RELAY_NUM_RELAYS , UINT8_MAX ) ) ) , 2 , " argument out of range " ) ;
const uint8_t data_2 = static_cast < uint8_t > ( raw_data_2 ) ;
ud - > off (
data_2 ) ;
return 0 ;
}
static int AP_Relay_on ( lua_State * L ) {
AP_Relay * ud = AP_Relay : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " relay not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 2 ) ;
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const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
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luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( 0 , 0 ) ) & & ( raw_data_2 < = MIN ( AP_RELAY_NUM_RELAYS , UINT8_MAX ) ) ) , 2 , " argument out of range " ) ;
const uint8_t data_2 = static_cast < uint8_t > ( raw_data_2 ) ;
ud - > on (
data_2 ) ;
return 0 ;
}
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static int AP_Terrain_height_above_terrain ( lua_State * L ) {
AP_Terrain * ud = AP_Terrain : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " terrain not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 2 ) ;
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float data_5002 = { } ;
const bool data_3 = static_cast < bool > ( lua_toboolean ( L , 3 ) ) ;
const bool data = ud - > height_above_terrain (
data_5002 ,
data_3 ) ;
if ( data ) {
lua_pushnumber ( L , data_5002 ) ;
} else {
lua_pushnil ( L ) ;
}
return 1 ;
}
static int AP_Terrain_height_terrain_difference_home ( lua_State * L ) {
AP_Terrain * ud = AP_Terrain : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " terrain not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 2 ) ;
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float data_5002 = { } ;
const bool data_3 = static_cast < bool > ( lua_toboolean ( L , 3 ) ) ;
const bool data = ud - > height_terrain_difference_home (
data_5002 ,
data_3 ) ;
if ( data ) {
lua_pushnumber ( L , data_5002 ) ;
} else {
lua_pushnil ( L ) ;
}
return 1 ;
}
static int AP_Terrain_height_amsl ( lua_State * L ) {
AP_Terrain * ud = AP_Terrain : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " terrain not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 3 ) ;
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Location & data_2 = * check_Location ( L , 2 ) ;
float data_5003 = { } ;
const bool data_4 = static_cast < bool > ( lua_toboolean ( L , 4 ) ) ;
const bool data = ud - > height_amsl (
data_2 ,
data_5003 ,
data_4 ) ;
if ( data ) {
lua_pushnumber ( L , data_5003 ) ;
} else {
lua_pushnil ( L ) ;
}
return 1 ;
}
static int AP_Terrain_status ( lua_State * L ) {
AP_Terrain * ud = AP_Terrain : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " terrain not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 1 ) ;
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const uint8_t data = ud - > status ( ) ;
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lua_pushinteger ( L , data ) ;
return 1 ;
}
static int AP_Terrain_enabled ( lua_State * L ) {
AP_Terrain * ud = AP_Terrain : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " terrain not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 1 ) ;
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const bool data = ud - > enabled ( ) ;
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lua_pushboolean ( L , data ) ;
return 1 ;
}
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static int RangeFinder_num_sensors ( lua_State * L ) {
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RangeFinder * ud = RangeFinder : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " rangefinder not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 1 ) ;
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const uint8_t data = ud - > num_sensors ( ) ;
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lua_pushinteger ( L , data ) ;
return 1 ;
}
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static int AP_Notify_handle_rgb ( lua_State * L ) {
AP_Notify * ud = AP_Notify : : get_singleton ( ) ;
if ( ud = = nullptr ) {
return luaL_argerror ( L , 1 , " notify not supported on this firmware " ) ;
}
binding_argcheck ( L , 5 ) ;
const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( 0 , 0 ) ) & & ( raw_data_2 < = MIN ( UINT8_MAX , UINT8_MAX ) ) ) , 2 , " argument out of range " ) ;
const uint8_t data_2 = static_cast < uint8_t > ( raw_data_2 ) ;
const lua_Integer raw_data_3 = luaL_checkinteger ( L , 3 ) ;
luaL_argcheck ( L , ( ( raw_data_3 > = MAX ( 0 , 0 ) ) & & ( raw_data_3 < = MIN ( UINT8_MAX , UINT8_MAX ) ) ) , 3 , " argument out of range " ) ;
const uint8_t data_3 = static_cast < uint8_t > ( raw_data_3 ) ;
const lua_Integer raw_data_4 = luaL_checkinteger ( L , 4 ) ;
luaL_argcheck ( L , ( ( raw_data_4 > = MAX ( 0 , 0 ) ) & & ( raw_data_4 < = MIN ( UINT8_MAX , UINT8_MAX ) ) ) , 4 , " argument out of range " ) ;
const uint8_t data_4 = static_cast < uint8_t > ( raw_data_4 ) ;
const lua_Integer raw_data_5 = luaL_checkinteger ( L , 5 ) ;
luaL_argcheck ( L , ( ( raw_data_5 > = MAX ( 0 , 0 ) ) & & ( raw_data_5 < = MIN ( UINT8_MAX , UINT8_MAX ) ) ) , 5 , " argument out of range " ) ;
const uint8_t data_5 = static_cast < uint8_t > ( raw_data_5 ) ;
ud - > handle_rgb (
data_2 ,
data_3 ,
data_4 ,
data_5 ) ;
return 0 ;
}
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static int AP_Notify_play_tune ( lua_State * L ) {
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AP_Notify * ud = AP_Notify : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " notify not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 2 ) ;
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const char * data_2 = luaL_checkstring ( L , 2 ) ;
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ud - > play_tune (
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data_2 ) ;
return 0 ;
}
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static int AP_GPS_first_unconfigured_gps ( lua_State * L ) {
AP_GPS * ud = AP_GPS : : get_singleton ( ) ;
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if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " gps not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 1 ) ;
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uint8_t data_5002 = { } ;
const bool data = ud - > first_unconfigured_gps (
data_5002 ) ;
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if ( data ) {
lua_pushinteger ( L , data_5002 ) ;
} else {
lua_pushnil ( L ) ;
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}
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return 1 ;
}
static int AP_GPS_get_antenna_offset ( lua_State * L ) {
AP_GPS * ud = AP_GPS : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " gps not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 2 ) ;
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const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
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luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( 0 , 0 ) ) & & ( raw_data_2 < = MIN ( ud - > num_sensors ( ) , UINT8_MAX ) ) ) , 2 , " argument out of range " ) ;
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const uint8_t data_2 = static_cast < uint8_t > ( raw_data_2 ) ;
const Vector3f & data = ud - > get_antenna_offset (
data_2 ) ;
new_Vector3f ( L ) ;
* check_Vector3f ( L , - 1 ) = data ;
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return 1 ;
}
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static int AP_GPS_have_vertical_velocity ( lua_State * L ) {
AP_GPS * ud = AP_GPS : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " gps not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 2 ) ;
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const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
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luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( 0 , 0 ) ) & & ( raw_data_2 < = MIN ( ud - > num_sensors ( ) , UINT8_MAX ) ) ) , 2 , " argument out of range " ) ;
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const uint8_t data_2 = static_cast < uint8_t > ( raw_data_2 ) ;
const bool data = ud - > have_vertical_velocity (
data_2 ) ;
lua_pushboolean ( L , data ) ;
return 1 ;
}
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static int AP_GPS_last_message_time_ms ( lua_State * L ) {
AP_GPS * ud = AP_GPS : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " gps not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 2 ) ;
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const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
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luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( 0 , 0 ) ) & & ( raw_data_2 < = MIN ( ud - > num_sensors ( ) , UINT8_MAX ) ) ) , 2 , " argument out of range " ) ;
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const uint8_t data_2 = static_cast < uint8_t > ( raw_data_2 ) ;
const uint32_t data = ud - > last_message_time_ms (
data_2 ) ;
new_uint32_t ( L ) ;
* static_cast < uint32_t * > ( luaL_checkudata ( L , - 1 , " uint32_t " ) ) = data ;
return 1 ;
}
static int AP_GPS_last_fix_time_ms ( lua_State * L ) {
AP_GPS * ud = AP_GPS : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " gps not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 2 ) ;
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const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
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luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( 0 , 0 ) ) & & ( raw_data_2 < = MIN ( ud - > num_sensors ( ) , UINT8_MAX ) ) ) , 2 , " argument out of range " ) ;
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const uint8_t data_2 = static_cast < uint8_t > ( raw_data_2 ) ;
const uint32_t data = ud - > last_fix_time_ms (
data_2 ) ;
new_uint32_t ( L ) ;
* static_cast < uint32_t * > ( luaL_checkudata ( L , - 1 , " uint32_t " ) ) = data ;
return 1 ;
}
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static int AP_GPS_get_vdop ( lua_State * L ) {
AP_GPS * ud = AP_GPS : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " gps not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 2 ) ;
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const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
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luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( 0 , 0 ) ) & & ( raw_data_2 < = MIN ( ud - > num_sensors ( ) , UINT8_MAX ) ) ) , 2 , " argument out of range " ) ;
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const uint8_t data_2 = static_cast < uint8_t > ( raw_data_2 ) ;
const uint16_t data = ud - > get_vdop (
data_2 ) ;
lua_pushinteger ( L , data ) ;
return 1 ;
}
static int AP_GPS_get_hdop ( lua_State * L ) {
AP_GPS * ud = AP_GPS : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " gps not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 2 ) ;
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const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
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luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( 0 , 0 ) ) & & ( raw_data_2 < = MIN ( ud - > num_sensors ( ) , UINT8_MAX ) ) ) , 2 , " argument out of range " ) ;
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const uint8_t data_2 = static_cast < uint8_t > ( raw_data_2 ) ;
const uint16_t data = ud - > get_hdop (
data_2 ) ;
lua_pushinteger ( L , data ) ;
return 1 ;
}
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static int AP_GPS_time_week_ms ( lua_State * L ) {
AP_GPS * ud = AP_GPS : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " gps not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 2 ) ;
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const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
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luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( 0 , 0 ) ) & & ( raw_data_2 < = MIN ( ud - > num_sensors ( ) , UINT8_MAX ) ) ) , 2 , " argument out of range " ) ;
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const uint8_t data_2 = static_cast < uint8_t > ( raw_data_2 ) ;
const uint32_t data = ud - > time_week_ms (
data_2 ) ;
new_uint32_t ( L ) ;
* static_cast < uint32_t * > ( luaL_checkudata ( L , - 1 , " uint32_t " ) ) = data ;
return 1 ;
}
static int AP_GPS_time_week ( lua_State * L ) {
AP_GPS * ud = AP_GPS : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " gps not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 2 ) ;
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const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
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luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( 0 , 0 ) ) & & ( raw_data_2 < = MIN ( ud - > num_sensors ( ) , UINT8_MAX ) ) ) , 2 , " argument out of range " ) ;
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const uint8_t data_2 = static_cast < uint8_t > ( raw_data_2 ) ;
const uint16_t data = ud - > time_week (
data_2 ) ;
lua_pushinteger ( L , data ) ;
return 1 ;
}
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static int AP_GPS_num_sats ( lua_State * L ) {
AP_GPS * ud = AP_GPS : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " gps not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 2 ) ;
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const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
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luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( 0 , 0 ) ) & & ( raw_data_2 < = MIN ( ud - > num_sensors ( ) , UINT8_MAX ) ) ) , 2 , " argument out of range " ) ;
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const uint8_t data_2 = static_cast < uint8_t > ( raw_data_2 ) ;
const uint8_t data = ud - > num_sats (
data_2 ) ;
lua_pushinteger ( L , data ) ;
return 1 ;
}
static int AP_GPS_ground_course ( lua_State * L ) {
AP_GPS * ud = AP_GPS : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " gps not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 2 ) ;
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const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
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luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( 0 , 0 ) ) & & ( raw_data_2 < = MIN ( ud - > num_sensors ( ) , UINT8_MAX ) ) ) , 2 , " argument out of range " ) ;
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const uint8_t data_2 = static_cast < uint8_t > ( raw_data_2 ) ;
const float data = ud - > ground_course (
data_2 ) ;
lua_pushnumber ( L , data ) ;
return 1 ;
}
static int AP_GPS_ground_speed ( lua_State * L ) {
AP_GPS * ud = AP_GPS : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " gps not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 2 ) ;
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const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
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luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( 0 , 0 ) ) & & ( raw_data_2 < = MIN ( ud - > num_sensors ( ) , UINT8_MAX ) ) ) , 2 , " argument out of range " ) ;
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const uint8_t data_2 = static_cast < uint8_t > ( raw_data_2 ) ;
const float data = ud - > ground_speed (
data_2 ) ;
lua_pushnumber ( L , data ) ;
return 1 ;
}
static int AP_GPS_velocity ( lua_State * L ) {
AP_GPS * ud = AP_GPS : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " gps not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 2 ) ;
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const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
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luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( 0 , 0 ) ) & & ( raw_data_2 < = MIN ( ud - > num_sensors ( ) , UINT8_MAX ) ) ) , 2 , " argument out of range " ) ;
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const uint8_t data_2 = static_cast < uint8_t > ( raw_data_2 ) ;
const Vector3f & data = ud - > velocity (
data_2 ) ;
new_Vector3f ( L ) ;
* check_Vector3f ( L , - 1 ) = data ;
return 1 ;
}
static int AP_GPS_vertical_accuracy ( lua_State * L ) {
AP_GPS * ud = AP_GPS : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " gps not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 2 ) ;
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const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
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luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( 0 , 0 ) ) & & ( raw_data_2 < = MIN ( ud - > num_sensors ( ) , UINT8_MAX ) ) ) , 2 , " argument out of range " ) ;
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const uint8_t data_2 = static_cast < uint8_t > ( raw_data_2 ) ;
float data_5003 = { } ;
const bool data = ud - > vertical_accuracy (
data_2 ,
data_5003 ) ;
if ( data ) {
lua_pushnumber ( L , data_5003 ) ;
} else {
lua_pushnil ( L ) ;
}
return 1 ;
}
static int AP_GPS_horizontal_accuracy ( lua_State * L ) {
AP_GPS * ud = AP_GPS : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " gps not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 2 ) ;
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const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
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luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( 0 , 0 ) ) & & ( raw_data_2 < = MIN ( ud - > num_sensors ( ) , UINT8_MAX ) ) ) , 2 , " argument out of range " ) ;
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const uint8_t data_2 = static_cast < uint8_t > ( raw_data_2 ) ;
float data_5003 = { } ;
const bool data = ud - > horizontal_accuracy (
data_2 ,
data_5003 ) ;
if ( data ) {
lua_pushnumber ( L , data_5003 ) ;
} else {
lua_pushnil ( L ) ;
}
return 1 ;
}
static int AP_GPS_speed_accuracy ( lua_State * L ) {
AP_GPS * ud = AP_GPS : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " gps not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 2 ) ;
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const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
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luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( 0 , 0 ) ) & & ( raw_data_2 < = MIN ( ud - > num_sensors ( ) , UINT8_MAX ) ) ) , 2 , " argument out of range " ) ;
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const uint8_t data_2 = static_cast < uint8_t > ( raw_data_2 ) ;
float data_5003 = { } ;
const bool data = ud - > speed_accuracy (
data_2 ,
data_5003 ) ;
if ( data ) {
lua_pushnumber ( L , data_5003 ) ;
} else {
lua_pushnil ( L ) ;
}
return 1 ;
}
static int AP_GPS_location ( lua_State * L ) {
AP_GPS * ud = AP_GPS : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " gps not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 2 ) ;
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const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
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luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( 0 , 0 ) ) & & ( raw_data_2 < = MIN ( ud - > num_sensors ( ) , UINT8_MAX ) ) ) , 2 , " argument out of range " ) ;
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const uint8_t data_2 = static_cast < uint8_t > ( raw_data_2 ) ;
const Location & data = ud - > location (
data_2 ) ;
new_Location ( L ) ;
* check_Location ( L , - 1 ) = data ;
return 1 ;
}
static int AP_GPS_status ( lua_State * L ) {
AP_GPS * ud = AP_GPS : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " gps not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 2 ) ;
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const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
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luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( 0 , 0 ) ) & & ( raw_data_2 < = MIN ( ud - > num_sensors ( ) , UINT8_MAX ) ) ) , 2 , " argument out of range " ) ;
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const uint8_t data_2 = static_cast < uint8_t > ( raw_data_2 ) ;
const uint8_t data = ud - > status (
data_2 ) ;
lua_pushinteger ( L , data ) ;
return 1 ;
}
static int AP_GPS_primary_sensor ( lua_State * L ) {
AP_GPS * ud = AP_GPS : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " gps not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 1 ) ;
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const uint8_t data = ud - > primary_sensor ( ) ;
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lua_pushinteger ( L , data ) ;
return 1 ;
}
static int AP_GPS_num_sensors ( lua_State * L ) {
AP_GPS * ud = AP_GPS : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " gps not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 1 ) ;
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const uint8_t data = ud - > num_sensors ( ) ;
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lua_pushinteger ( L , data ) ;
return 1 ;
}
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static int AP_BattMonitor_get_cycle_count ( lua_State * L ) {
AP_BattMonitor * ud = AP_BattMonitor : : get_singleton ( ) ;
if ( ud = = nullptr ) {
return luaL_argerror ( L , 1 , " battery not supported on this firmware " ) ;
}
binding_argcheck ( L , 2 ) ;
const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( 0 , 0 ) ) & & ( raw_data_2 < = MIN ( ud - > num_instances ( ) , UINT8_MAX ) ) ) , 2 , " argument out of range " ) ;
const uint8_t data_2 = static_cast < uint8_t > ( raw_data_2 ) ;
uint16_t data_5003 = { } ;
const bool data = ud - > get_cycle_count (
data_2 ,
data_5003 ) ;
if ( data ) {
lua_pushinteger ( L , data_5003 ) ;
} else {
lua_pushnil ( L ) ;
}
return 1 ;
}
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static int AP_BattMonitor_get_temperature ( lua_State * L ) {
AP_BattMonitor * ud = AP_BattMonitor : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " battery not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 2 ) ;
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float data_5002 = { } ;
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const lua_Integer raw_data_3 = luaL_checkinteger ( L , 2 ) ;
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luaL_argcheck ( L , ( ( raw_data_3 > = MAX ( 0 , 0 ) ) & & ( raw_data_3 < = MIN ( ud - > num_instances ( ) , UINT8_MAX ) ) ) , 3 , " argument out of range " ) ;
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const uint8_t data_3 = static_cast < uint8_t > ( raw_data_3 ) ;
const bool data = ud - > get_temperature (
data_5002 ,
data_3 ) ;
if ( data ) {
lua_pushnumber ( L , data_5002 ) ;
} else {
lua_pushnil ( L ) ;
}
return 1 ;
}
static int AP_BattMonitor_overpower_detected ( lua_State * L ) {
AP_BattMonitor * ud = AP_BattMonitor : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " battery not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 2 ) ;
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const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
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luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( 0 , 0 ) ) & & ( raw_data_2 < = MIN ( ud - > num_instances ( ) , UINT8_MAX ) ) ) , 2 , " argument out of range " ) ;
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const uint8_t data_2 = static_cast < uint8_t > ( raw_data_2 ) ;
const bool data = ud - > overpower_detected (
data_2 ) ;
lua_pushboolean ( L , data ) ;
return 1 ;
}
static int AP_BattMonitor_has_failsafed ( lua_State * L ) {
AP_BattMonitor * ud = AP_BattMonitor : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " battery not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 1 ) ;
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const bool data = ud - > has_failsafed ( ) ;
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lua_pushboolean ( L , data ) ;
return 1 ;
}
static int AP_BattMonitor_pack_capacity_mah ( lua_State * L ) {
AP_BattMonitor * ud = AP_BattMonitor : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " battery not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 2 ) ;
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const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
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luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( 0 , 0 ) ) & & ( raw_data_2 < = MIN ( ud - > num_instances ( ) , UINT8_MAX ) ) ) , 2 , " argument out of range " ) ;
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const uint8_t data_2 = static_cast < uint8_t > ( raw_data_2 ) ;
const int32_t data = ud - > pack_capacity_mah (
data_2 ) ;
lua_pushinteger ( L , data ) ;
return 1 ;
}
static int AP_BattMonitor_capacity_remaining_pct ( lua_State * L ) {
AP_BattMonitor * ud = AP_BattMonitor : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " battery not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 2 ) ;
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const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
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luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( 0 , 0 ) ) & & ( raw_data_2 < = MIN ( ud - > num_instances ( ) , UINT8_MAX ) ) ) , 2 , " argument out of range " ) ;
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const uint8_t data_2 = static_cast < uint8_t > ( raw_data_2 ) ;
const uint8_t data = ud - > capacity_remaining_pct (
data_2 ) ;
lua_pushinteger ( L , data ) ;
return 1 ;
}
static int AP_BattMonitor_consumed_wh ( lua_State * L ) {
AP_BattMonitor * ud = AP_BattMonitor : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " battery not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 2 ) ;
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float data_5002 = { } ;
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const lua_Integer raw_data_3 = luaL_checkinteger ( L , 2 ) ;
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luaL_argcheck ( L , ( ( raw_data_3 > = MAX ( 0 , 0 ) ) & & ( raw_data_3 < = MIN ( ud - > num_instances ( ) , UINT8_MAX ) ) ) , 3 , " argument out of range " ) ;
const uint8_t data_3 = static_cast < uint8_t > ( raw_data_3 ) ;
const bool data = ud - > consumed_wh (
data_5002 ,
data_3 ) ;
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if ( data ) {
lua_pushnumber ( L , data_5002 ) ;
} else {
lua_pushnil ( L ) ;
}
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return 1 ;
}
static int AP_BattMonitor_consumed_mah ( lua_State * L ) {
AP_BattMonitor * ud = AP_BattMonitor : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " battery not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 2 ) ;
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float data_5002 = { } ;
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const lua_Integer raw_data_3 = luaL_checkinteger ( L , 2 ) ;
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luaL_argcheck ( L , ( ( raw_data_3 > = MAX ( 0 , 0 ) ) & & ( raw_data_3 < = MIN ( ud - > num_instances ( ) , UINT8_MAX ) ) ) , 3 , " argument out of range " ) ;
const uint8_t data_3 = static_cast < uint8_t > ( raw_data_3 ) ;
const bool data = ud - > consumed_mah (
data_5002 ,
data_3 ) ;
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if ( data ) {
lua_pushnumber ( L , data_5002 ) ;
} else {
lua_pushnil ( L ) ;
}
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return 1 ;
}
static int AP_BattMonitor_current_amps ( lua_State * L ) {
AP_BattMonitor * ud = AP_BattMonitor : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " battery not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 2 ) ;
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float data_5002 = { } ;
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const lua_Integer raw_data_3 = luaL_checkinteger ( L , 2 ) ;
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luaL_argcheck ( L , ( ( raw_data_3 > = MAX ( 0 , 0 ) ) & & ( raw_data_3 < = MIN ( ud - > num_instances ( ) , UINT8_MAX ) ) ) , 3 , " argument out of range " ) ;
const uint8_t data_3 = static_cast < uint8_t > ( raw_data_3 ) ;
const bool data = ud - > current_amps (
data_5002 ,
data_3 ) ;
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if ( data ) {
lua_pushnumber ( L , data_5002 ) ;
} else {
lua_pushnil ( L ) ;
}
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return 1 ;
}
static int AP_BattMonitor_voltage_resting_estimate ( lua_State * L ) {
AP_BattMonitor * ud = AP_BattMonitor : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " battery not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 2 ) ;
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const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
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luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( 0 , 0 ) ) & & ( raw_data_2 < = MIN ( ud - > num_instances ( ) , UINT8_MAX ) ) ) , 2 , " argument out of range " ) ;
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const uint8_t data_2 = static_cast < uint8_t > ( raw_data_2 ) ;
const float data = ud - > voltage_resting_estimate (
data_2 ) ;
lua_pushnumber ( L , data ) ;
return 1 ;
}
static int AP_BattMonitor_voltage ( lua_State * L ) {
AP_BattMonitor * ud = AP_BattMonitor : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " battery not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 2 ) ;
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const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
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luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( 0 , 0 ) ) & & ( raw_data_2 < = MIN ( ud - > num_instances ( ) , UINT8_MAX ) ) ) , 2 , " argument out of range " ) ;
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const uint8_t data_2 = static_cast < uint8_t > ( raw_data_2 ) ;
const float data = ud - > voltage (
data_2 ) ;
lua_pushnumber ( L , data ) ;
return 1 ;
}
static int AP_BattMonitor_healthy ( lua_State * L ) {
AP_BattMonitor * ud = AP_BattMonitor : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " battery not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 2 ) ;
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const lua_Integer raw_data_2 = luaL_checkinteger ( L , 2 ) ;
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luaL_argcheck ( L , ( ( raw_data_2 > = MAX ( 0 , 0 ) ) & & ( raw_data_2 < = MIN ( ud - > num_instances ( ) , UINT8_MAX ) ) ) , 2 , " argument out of range " ) ;
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const uint8_t data_2 = static_cast < uint8_t > ( raw_data_2 ) ;
const bool data = ud - > healthy (
data_2 ) ;
lua_pushboolean ( L , data ) ;
return 1 ;
}
static int AP_BattMonitor_num_instances ( lua_State * L ) {
AP_BattMonitor * ud = AP_BattMonitor : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " battery not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 1 ) ;
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const uint8_t data = ud - > num_instances ( ) ;
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lua_pushinteger ( L , data ) ;
return 1 ;
}
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static int AP_Arming_arm ( lua_State * L ) {
AP_Arming * ud = AP_Arming : : get_singleton ( ) ;
if ( ud = = nullptr ) {
return luaL_argerror ( L , 1 , " arming not supported on this firmware " ) ;
}
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binding_argcheck ( L , 1 ) ;
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const bool data = ud - > arm ( AP_Arming : : Method : : SCRIPTING ) ;
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lua_pushboolean ( L , data ) ;
return 1 ;
}
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static int AP_Arming_is_armed ( lua_State * L ) {
AP_Arming * ud = AP_Arming : : get_singleton ( ) ;
if ( ud = = nullptr ) {
return luaL_argerror ( L , 1 , " arming not supported on this firmware " ) ;
}
binding_argcheck ( L , 1 ) ;
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const bool data = ud - > is_armed ( ) ;
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lua_pushboolean ( L , data ) ;
return 1 ;
}
static int AP_Arming_disarm ( lua_State * L ) {
AP_Arming * ud = AP_Arming : : get_singleton ( ) ;
if ( ud = = nullptr ) {
return luaL_argerror ( L , 1 , " arming not supported on this firmware " ) ;
}
binding_argcheck ( L , 1 ) ;
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const bool data = ud - > disarm ( ) ;
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lua_pushboolean ( L , data ) ;
return 1 ;
}
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static int AP_AHRS_prearm_healthy ( lua_State * L ) {
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AP_AHRS * ud = AP_AHRS : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " ahrs not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 1 ) ;
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ud - > get_semaphore ( ) . take_blocking ( ) ;
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const bool data = ud - > prearm_healthy ( ) ;
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ud - > get_semaphore ( ) . give ( ) ;
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lua_pushboolean ( L , data ) ;
return 1 ;
}
static int AP_AHRS_home_is_set ( lua_State * L ) {
AP_AHRS * ud = AP_AHRS : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " ahrs not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 1 ) ;
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ud - > get_semaphore ( ) . take_blocking ( ) ;
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const bool data = ud - > home_is_set ( ) ;
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ud - > get_semaphore ( ) . give ( ) ;
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lua_pushboolean ( L , data ) ;
return 1 ;
}
static int AP_AHRS_get_relative_position_NED_home ( lua_State * L ) {
AP_AHRS * ud = AP_AHRS : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " ahrs not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 1 ) ;
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Vector3f data_5002 = { } ;
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ud - > get_semaphore ( ) . take_blocking ( ) ;
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const bool data = ud - > get_relative_position_NED_home (
data_5002 ) ;
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ud - > get_semaphore ( ) . give ( ) ;
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if ( data ) {
new_Vector3f ( L ) ;
* check_Vector3f ( L , - 1 ) = data_5002 ;
} else {
lua_pushnil ( L ) ;
}
return 1 ;
}
static int AP_AHRS_get_velocity_NED ( lua_State * L ) {
AP_AHRS * ud = AP_AHRS : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " ahrs not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 1 ) ;
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Vector3f data_5002 = { } ;
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ud - > get_semaphore ( ) . take_blocking ( ) ;
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const bool data = ud - > get_velocity_NED (
data_5002 ) ;
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ud - > get_semaphore ( ) . give ( ) ;
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if ( data ) {
new_Vector3f ( L ) ;
* check_Vector3f ( L , - 1 ) = data_5002 ;
} else {
lua_pushnil ( L ) ;
}
return 1 ;
}
static int AP_AHRS_groundspeed_vector ( lua_State * L ) {
AP_AHRS * ud = AP_AHRS : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " ahrs not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 1 ) ;
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ud - > get_semaphore ( ) . take_blocking ( ) ;
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const Vector2f & data = ud - > groundspeed_vector ( ) ;
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ud - > get_semaphore ( ) . give ( ) ;
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new_Vector2f ( L ) ;
* check_Vector2f ( L , - 1 ) = data ;
return 1 ;
}
static int AP_AHRS_wind_estimate ( lua_State * L ) {
AP_AHRS * ud = AP_AHRS : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " ahrs not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 1 ) ;
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ud - > get_semaphore ( ) . take_blocking ( ) ;
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const Vector3f & data = ud - > wind_estimate ( ) ;
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ud - > get_semaphore ( ) . give ( ) ;
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new_Vector3f ( L ) ;
* check_Vector3f ( L , - 1 ) = data ;
return 1 ;
}
static int AP_AHRS_get_hagl ( lua_State * L ) {
AP_AHRS * ud = AP_AHRS : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " ahrs not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 1 ) ;
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float data_5002 = { } ;
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ud - > get_semaphore ( ) . take_blocking ( ) ;
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const bool data = ud - > get_hagl (
data_5002 ) ;
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ud - > get_semaphore ( ) . give ( ) ;
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if ( data ) {
lua_pushnumber ( L , data_5002 ) ;
} else {
lua_pushnil ( L ) ;
}
return 1 ;
}
static int AP_AHRS_get_gyro ( lua_State * L ) {
AP_AHRS * ud = AP_AHRS : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " ahrs not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 1 ) ;
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ud - > get_semaphore ( ) . take_blocking ( ) ;
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const Vector3f & data = ud - > get_gyro ( ) ;
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ud - > get_semaphore ( ) . give ( ) ;
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new_Vector3f ( L ) ;
* check_Vector3f ( L , - 1 ) = data ;
return 1 ;
}
static int AP_AHRS_get_home ( lua_State * L ) {
AP_AHRS * ud = AP_AHRS : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " ahrs not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 1 ) ;
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ud - > get_semaphore ( ) . take_blocking ( ) ;
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const Location & data = ud - > get_home ( ) ;
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ud - > get_semaphore ( ) . give ( ) ;
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new_Location ( L ) ;
* check_Location ( L , - 1 ) = data ;
return 1 ;
}
static int AP_AHRS_get_position ( lua_State * L ) {
AP_AHRS * ud = AP_AHRS : : get_singleton ( ) ;
if ( ud = = nullptr ) {
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return luaL_argerror ( L , 1 , " ahrs not supported on this firmware " ) ;
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}
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binding_argcheck ( L , 1 ) ;
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Location data_5002 = { } ;
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ud - > get_semaphore ( ) . take_blocking ( ) ;
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const bool data = ud - > get_position (
data_5002 ) ;
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ud - > get_semaphore ( ) . give ( ) ;
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if ( data ) {
new_Location ( L ) ;
* check_Location ( L , - 1 ) = data_5002 ;
} else {
lua_pushnil ( L ) ;
}
return 1 ;
}
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static int AP_AHRS_get_yaw ( lua_State * L ) {
AP_AHRS * ud = AP_AHRS : : get_singleton ( ) ;
if ( ud = = nullptr ) {
return luaL_argerror ( L , 1 , " ahrs not supported on this firmware " ) ;
}
binding_argcheck ( L , 1 ) ;
ud - > get_semaphore ( ) . take_blocking ( ) ;
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const float data = ud - > get_yaw ( ) ;
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ud - > get_semaphore ( ) . give ( ) ;
lua_pushnumber ( L , data ) ;
return 1 ;
}
static int AP_AHRS_get_pitch ( lua_State * L ) {
AP_AHRS * ud = AP_AHRS : : get_singleton ( ) ;
if ( ud = = nullptr ) {
return luaL_argerror ( L , 1 , " ahrs not supported on this firmware " ) ;
}
binding_argcheck ( L , 1 ) ;
ud - > get_semaphore ( ) . take_blocking ( ) ;
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const float data = ud - > get_pitch ( ) ;
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ud - > get_semaphore ( ) . give ( ) ;
lua_pushnumber ( L , data ) ;
return 1 ;
}
static int AP_AHRS_get_roll ( lua_State * L ) {
AP_AHRS * ud = AP_AHRS : : get_singleton ( ) ;
if ( ud = = nullptr ) {
return luaL_argerror ( L , 1 , " ahrs not supported on this firmware " ) ;
}
binding_argcheck ( L , 1 ) ;
ud - > get_semaphore ( ) . take_blocking ( ) ;
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const float data = ud - > get_roll ( ) ;
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ud - > get_semaphore ( ) . give ( ) ;
lua_pushnumber ( L , data ) ;
return 1 ;
}
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const luaL_Reg RC_Channels_meta [ ] = {
{ " get_pwm " , RC_Channels_get_pwm } ,
{ NULL , NULL }
} ;
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const luaL_Reg SRV_Channels_meta [ ] = {
{ " find_channel " , SRV_Channels_find_channel } ,
{ NULL , NULL }
} ;
const luaL_Reg AP_SerialLED_meta [ ] = {
{ " send " , AP_SerialLED_send } ,
{ " set_RGB " , AP_SerialLED_set_RGB } ,
{ " set_num_LEDs " , AP_SerialLED_set_num_LEDs } ,
{ NULL , NULL }
} ;
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const luaL_Reg AP_Vehicle_meta [ ] = {
{ " set_mode " , AP_Vehicle_set_mode } ,
{ NULL , NULL }
} ;
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const luaL_Reg GCS_meta [ ] = {
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{ " set_message_interval " , GCS_set_message_interval } ,
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{ " send_text " , GCS_send_text } ,
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{ NULL , NULL }
} ;
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const luaL_Reg AP_Relay_meta [ ] = {
{ " toggle " , AP_Relay_toggle } ,
{ " enabled " , AP_Relay_enabled } ,
{ " off " , AP_Relay_off } ,
{ " on " , AP_Relay_on } ,
{ NULL , NULL }
} ;
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const luaL_Reg AP_Terrain_meta [ ] = {
{ " height_above_terrain " , AP_Terrain_height_above_terrain } ,
{ " height_terrain_difference_home " , AP_Terrain_height_terrain_difference_home } ,
{ " height_amsl " , AP_Terrain_height_amsl } ,
{ " status " , AP_Terrain_status } ,
{ " enabled " , AP_Terrain_enabled } ,
{ NULL , NULL }
} ;
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const luaL_Reg RangeFinder_meta [ ] = {
{ " num_sensors " , RangeFinder_num_sensors } ,
{ NULL , NULL }
} ;
const luaL_Reg AP_Notify_meta [ ] = {
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{ " handle_rgb " , AP_Notify_handle_rgb } ,
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{ " play_tune " , AP_Notify_play_tune } ,
{ NULL , NULL }
} ;
const luaL_Reg AP_GPS_meta [ ] = {
{ " first_unconfigured_gps " , AP_GPS_first_unconfigured_gps } ,
{ " get_antenna_offset " , AP_GPS_get_antenna_offset } ,
{ " have_vertical_velocity " , AP_GPS_have_vertical_velocity } ,
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{ " last_message_time_ms " , AP_GPS_last_message_time_ms } ,
{ " last_fix_time_ms " , AP_GPS_last_fix_time_ms } ,
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{ " get_vdop " , AP_GPS_get_vdop } ,
{ " get_hdop " , AP_GPS_get_hdop } ,
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{ " time_week_ms " , AP_GPS_time_week_ms } ,
{ " time_week " , AP_GPS_time_week } ,
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{ " num_sats " , AP_GPS_num_sats } ,
{ " ground_course " , AP_GPS_ground_course } ,
{ " ground_speed " , AP_GPS_ground_speed } ,
{ " velocity " , AP_GPS_velocity } ,
{ " vertical_accuracy " , AP_GPS_vertical_accuracy } ,
{ " horizontal_accuracy " , AP_GPS_horizontal_accuracy } ,
{ " speed_accuracy " , AP_GPS_speed_accuracy } ,
{ " location " , AP_GPS_location } ,
{ " status " , AP_GPS_status } ,
{ " primary_sensor " , AP_GPS_primary_sensor } ,
{ " num_sensors " , AP_GPS_num_sensors } ,
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{ NULL , NULL }
} ;
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const luaL_Reg AP_BattMonitor_meta [ ] = {
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{ " get_cycle_count " , AP_BattMonitor_get_cycle_count } ,
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{ " get_temperature " , AP_BattMonitor_get_temperature } ,
{ " overpower_detected " , AP_BattMonitor_overpower_detected } ,
{ " has_failsafed " , AP_BattMonitor_has_failsafed } ,
{ " pack_capacity_mah " , AP_BattMonitor_pack_capacity_mah } ,
{ " capacity_remaining_pct " , AP_BattMonitor_capacity_remaining_pct } ,
{ " consumed_wh " , AP_BattMonitor_consumed_wh } ,
{ " consumed_mah " , AP_BattMonitor_consumed_mah } ,
{ " current_amps " , AP_BattMonitor_current_amps } ,
{ " voltage_resting_estimate " , AP_BattMonitor_voltage_resting_estimate } ,
{ " voltage " , AP_BattMonitor_voltage } ,
{ " healthy " , AP_BattMonitor_healthy } ,
{ " num_instances " , AP_BattMonitor_num_instances } ,
{ NULL , NULL }
} ;
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const luaL_Reg AP_Arming_meta [ ] = {
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{ " arm " , AP_Arming_arm } ,
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{ " is_armed " , AP_Arming_is_armed } ,
{ " disarm " , AP_Arming_disarm } ,
{ NULL , NULL }
} ;
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const luaL_Reg AP_AHRS_meta [ ] = {
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{ " prearm_healthy " , AP_AHRS_prearm_healthy } ,
{ " home_is_set " , AP_AHRS_home_is_set } ,
{ " get_relative_position_NED_home " , AP_AHRS_get_relative_position_NED_home } ,
{ " get_velocity_NED " , AP_AHRS_get_velocity_NED } ,
{ " groundspeed_vector " , AP_AHRS_groundspeed_vector } ,
{ " wind_estimate " , AP_AHRS_wind_estimate } ,
{ " get_hagl " , AP_AHRS_get_hagl } ,
{ " get_gyro " , AP_AHRS_get_gyro } ,
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{ " get_home " , AP_AHRS_get_home } ,
{ " get_position " , AP_AHRS_get_position } ,
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{ " get_yaw " , AP_AHRS_get_yaw } ,
{ " get_pitch " , AP_AHRS_get_pitch } ,
{ " get_roll " , AP_AHRS_get_roll } ,
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{ NULL , NULL }
} ;
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struct userdata_enum {
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const char * name ;
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int value ;
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} ;
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struct userdata_enum AP_Terrain_enums [ ] = {
{ " TerrainStatusOK " , AP_Terrain : : TerrainStatusOK } ,
{ " TerrainStatusUnhealthy " , AP_Terrain : : TerrainStatusUnhealthy } ,
{ " TerrainStatusDisabled " , AP_Terrain : : TerrainStatusDisabled } ,
{ NULL , 0 } } ;
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struct userdata_enum AP_GPS_enums [ ] = {
{ " GPS_OK_FIX_3D_RTK_FIXED " , AP_GPS : : GPS_OK_FIX_3D_RTK_FIXED } ,
{ " GPS_OK_FIX_3D_RTK_FLOAT " , AP_GPS : : GPS_OK_FIX_3D_RTK_FLOAT } ,
{ " GPS_OK_FIX_3D_DGPS " , AP_GPS : : GPS_OK_FIX_3D_DGPS } ,
{ " GPS_OK_FIX_3D " , AP_GPS : : GPS_OK_FIX_3D } ,
{ " GPS_OK_FIX_2D " , AP_GPS : : GPS_OK_FIX_2D } ,
{ " NO_FIX " , AP_GPS : : NO_FIX } ,
{ " NO_GPS " , AP_GPS : : NO_GPS } ,
{ NULL , 0 } } ;
struct userdata_meta {
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const char * name ;
const luaL_Reg * reg ;
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const struct userdata_enum * enums ;
} ;
const struct userdata_meta userdata_fun [ ] = {
{ " Vector2f " , Vector2f_meta , NULL } ,
{ " Vector3f " , Vector3f_meta , NULL } ,
{ " Location " , Location_meta , NULL } ,
} ;
const struct userdata_meta singleton_fun [ ] = {
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{ " rc " , RC_Channels_meta , NULL } ,
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{ " SRV_Channels " , SRV_Channels_meta , NULL } ,
{ " serialLED " , AP_SerialLED_meta , NULL } ,
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{ " vehicle " , AP_Vehicle_meta , NULL } ,
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{ " gcs " , GCS_meta , NULL } ,
{ " relay " , AP_Relay_meta , NULL } ,
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{ " terrain " , AP_Terrain_meta , AP_Terrain_enums } ,
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{ " rangefinder " , RangeFinder_meta , NULL } ,
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{ " notify " , AP_Notify_meta , NULL } ,
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{ " gps " , AP_GPS_meta , AP_GPS_enums } ,
{ " battery " , AP_BattMonitor_meta , NULL } ,
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{ " arming " , AP_Arming_meta , NULL } ,
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{ " ahrs " , AP_AHRS_meta , NULL } ,
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} ;
void load_generated_bindings ( lua_State * L ) {
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luaL_checkstack ( L , 5 , " Out of stack " ) ;
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// userdata metatables
for ( uint32_t i = 0 ; i < ARRAY_SIZE ( userdata_fun ) ; i + + ) {
luaL_newmetatable ( L , userdata_fun [ i ] . name ) ;
luaL_setfuncs ( L , userdata_fun [ i ] . reg , 0 ) ;
lua_pushstring ( L , " __index " ) ;
lua_pushvalue ( L , - 2 ) ;
lua_settable ( L , - 3 ) ;
lua_pop ( L , 1 ) ;
}
// singleton metatables
for ( uint32_t i = 0 ; i < ARRAY_SIZE ( singleton_fun ) ; i + + ) {
luaL_newmetatable ( L , singleton_fun [ i ] . name ) ;
luaL_setfuncs ( L , singleton_fun [ i ] . reg , 0 ) ;
lua_pushstring ( L , " __index " ) ;
lua_pushvalue ( L , - 2 ) ;
lua_settable ( L , - 3 ) ;
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if ( singleton_fun [ i ] . enums ! = nullptr ) {
int j = 0 ;
while ( singleton_fun [ i ] . enums [ j ] . name ! = NULL ) {
lua_pushstring ( L , singleton_fun [ i ] . enums [ j ] . name ) ;
lua_pushinteger ( L , singleton_fun [ i ] . enums [ j ] . value ) ;
lua_settable ( L , - 3 ) ;
j + + ;
}
}
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lua_pop ( L , 1 ) ;
lua_newuserdata ( L , 0 ) ;
luaL_getmetatable ( L , singleton_fun [ i ] . name ) ;
lua_setmetatable ( L , - 2 ) ;
lua_setglobal ( L , singleton_fun [ i ] . name ) ;
}
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load_boxed_numerics ( L ) ;
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}
const char * singletons [ ] = {
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" rc " ,
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" SRV_Channels " ,
" serialLED " ,
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" vehicle " ,
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" gcs " ,
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" relay " ,
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" terrain " ,
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" rangefinder " ,
" notify " ,
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" gps " ,
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" battery " ,
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" arming " ,
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" ahrs " ,
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} ;
const struct userdata {
const char * name ;
const lua_CFunction fun ;
} new_userdata [ ] = {
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{ " Vector2f " , new_Vector2f } ,
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{ " Vector3f " , new_Vector3f } ,
{ " Location " , new_Location } ,
} ;
void load_generated_sandbox ( lua_State * L ) {
for ( uint32_t i = 0 ; i < ARRAY_SIZE ( singletons ) ; i + + ) {
lua_pushstring ( L , singletons [ i ] ) ;
lua_getglobal ( L , singletons [ i ] ) ;
lua_settable ( L , - 3 ) ;
}
for ( uint32_t i = 0 ; i < ARRAY_SIZE ( new_userdata ) ; i + + ) {
lua_pushstring ( L , new_userdata [ i ] . name ) ;
lua_pushcfunction ( L , new_userdata [ i ] . fun ) ;
lua_settable ( L , - 3 ) ;
}
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load_boxed_numerics_sandbox ( L ) ;
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}