// Module for interfacing with the DHTxx sensors (xx = 11-21-22-33-44). #include "module.h" #include "lauxlib.h" #include "platform.h" #include "cpu_esp8266.h" #include "dht/dht.h" #define NUM_DHT GPIO_PIN_NUM // **************************************************************************** // DHT functions int platform_dht_exists( unsigned id ) { return ((id < NUM_DHT) && (id > 0)); } // Lua: status, temp, humi, tempdec, humidec = dht.read( id ) static int dht_lapi_read( lua_State *L ) { unsigned id = luaL_checkinteger( L, 1 ); MOD_CHECK_ID( dht, id ); lua_pushinteger( L, dht_read_universal(id) ); double temp = dht_getTemperature(); double humi = dht_getHumidity(); int tempdec = (int)((temp - (int)temp) * 1000); int humidec = (int)((humi - (int)humi) * 1000); lua_pushnumber( L, temp ); lua_pushnumber( L, humi ); lua_pushnumber( L, tempdec ); lua_pushnumber( L, humidec ); return 5; } // Lua: status, temp, humi, tempdec, humidec = dht.read11( id )) static int dht_lapi_read11( lua_State *L ) { unsigned id = luaL_checkinteger( L, 1 ); MOD_CHECK_ID( dht, id ); lua_pushinteger( L, dht_read11(id) ); double temp = dht_getTemperature(); double humi = dht_getHumidity(); int tempdec = (int)((temp - (int)temp) * 1000); int humidec = (int)((humi - (int)humi) * 1000); lua_pushnumber( L, temp ); lua_pushnumber( L, humi ); lua_pushnumber( L, tempdec ); lua_pushnumber( L, humidec ); return 5; } // Lua: status, temp, humi, tempdec, humidec = dht.readxx( id )) static int dht_lapi_readxx( lua_State *L ) { unsigned id = luaL_checkinteger( L, 1 ); MOD_CHECK_ID( dht, id ); lua_pushinteger( L, dht_read(id) ); double temp = dht_getTemperature(); double humi = dht_getHumidity(); int tempdec = (int)((temp - (int)temp) * 1000); int humidec = (int)((humi - (int)humi) * 1000); lua_pushnumber( L, temp ); lua_pushnumber( L, humi ); lua_pushnumber( L, tempdec ); lua_pushnumber( L, humidec ); return 5; } // // Lua: result = dht.humidity() // static int dht_lapi_humidity( lua_State *L ) // { // lua_pushnumber( L, dht_getHumidity() ); // return 1; // } // // Lua: result = dht.humiditydecimal() // static int dht_lapi_humiditydecimal( lua_State *L ) // { // double value = dht_getHumidity(); // int result = (int)((value - (int)value) * 1000); // lua_pushnumber( L, result ); // return 1; // } // // Lua: result = dht.temperature() // static int dht_lapi_temperature( lua_State *L ) // { // lua_pushnumber( L, dht_getTemperature() ); // return 1; // } // // Lua: result = dht.temperaturedecimal() // static int dht_lapi_temperaturedecimal( lua_State *L ) // { // double value = dht_getTemperature(); // int result = (int)((value - (int)value) * 1000); // lua_pushnumber( L, result ); // return 1; // } // Module function map LROT_BEGIN(dht) LROT_FUNCENTRY( read, dht_lapi_read ) LROT_FUNCENTRY( read11, dht_lapi_read11 ) LROT_FUNCENTRY( readxx, dht_lapi_readxx ) LROT_NUMENTRY( OK, DHTLIB_OK ) LROT_NUMENTRY( ERROR_CHECKSUM, DHTLIB_ERROR_CHECKSUM ) LROT_NUMENTRY( ERROR_TIMEOUT, DHTLIB_ERROR_TIMEOUT ) LROT_END( dht, NULL, 0 ) NODEMCU_MODULE(DHT, "dht", dht, NULL);