/* xdrv_52_3_berry_native.ino - Berry scripting language, native fucnctions Copyright (C) 2021 Stephan Hadinger, Berry language by Guan Wenliang https://github.com/Skiars/berry This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ #ifdef USE_BERRY #include #if defined(CONFIG_IDF_TARGET_ESP32) || defined(CONFIG_IDF_TARGET_ESP32S2) #include #endif /*********************************************************************************************\ * Native functions mapped to Berry functions * * import gpio * * \*********************************************************************************************/ extern "C" { int gp_pin_mode(bvm *vm); int gp_pin_mode(bvm *vm) { int32_t argc = be_top(vm); // Get the number of arguments if (argc == 2 && be_isint(vm, 1) && be_isint(vm, 2)) { int32_t pin = be_toint(vm, 1); int32_t mode = be_toint(vm, 2); if (pin >= 0) { if (mode > 0) { // standard ESP mode pinMode(pin, mode); } else { // synthetic mode if (-1 == mode) { // DAC #if defined(CONFIG_IDF_TARGET_ESP32) if (25 == pin || 26 == pin) { uint32_t channel = pin - 25; // 1 or 2 esp_err_t err = dac_output_enable((dac_channel_t) channel); if (err) { be_raisef(vm, "value_error", "Error: dac_output_enable(%i) -> %i", channel, err); } } else { be_raise(vm, "value_error", "DAC only supported on GPIO25-26"); } #elif defined(CONFIG_IDF_TARGET_ESP32S2) if (17 == pin || 18 == pin) { uint32_t channel = pin - 17; // 1 or 2 esp_err_t err = dac_output_enable((dac_channel_t) channel); if (err) { be_raisef(vm, "value_error", "Error: dac_output_enable(%i) -> %i", channel, err); } } else { be_raise(vm, "value_error", "DAC only supported on GPIO17-18"); } #elif defined(CONFIG_IDF_TARGET_ESP32C3) be_raise(vm, "value_error", "DAC unsupported in this chip"); #else be_raise(vm, "value_error", "DAC unsupported in this chip"); #endif } } } be_return_nil(vm); } be_raise(vm, kTypeError, nullptr); } int gp_digital_write(bvm *vm); int gp_digital_write(bvm *vm) { int32_t argc = be_top(vm); // Get the number of arguments if (argc == 2 && be_isint(vm, 1) && be_isint(vm, 2)) { int32_t pin = be_toint(vm, 1); int32_t val = be_toint(vm, 2); if (pin >= 0) { digitalWrite(pin, val); } be_return_nil(vm); } be_raise(vm, kTypeError, nullptr); } int gp_digital_read(bvm *vm); int gp_digital_read(bvm *vm) { int32_t argc = be_top(vm); // Get the number of arguments if (argc == 1 && be_isint(vm, 1)) { int32_t pin = be_toint(vm, 1); if (pin >= 0) { int32_t ret = digitalRead(pin); be_pushint(vm, ret); } else { be_pushnil(vm); } be_return(vm); } be_raise(vm, kTypeError, nullptr); } int gp_dac_voltage(bvm *vm); int gp_dac_voltage(bvm *vm) { int32_t argc = be_top(vm); // Get the number of arguments if (argc == 2 && be_isint(vm, 1) && be_isint(vm, 2)) { int32_t pin = be_toint(vm, 1); int32_t mV = be_toint(vm, 2); if (mV < 0) { mV = 0; } uint32_t dac_value = changeUIntScale(mV, 0, 3300, 0, 255); // convert from 0..3300 ms to 0..255 #if defined(CONFIG_IDF_TARGET_ESP32) if (25 == pin || 26 == pin) { uint32_t channel = pin - 25; // 1 or 2 esp_err_t err = dac_output_voltage((dac_channel_t) channel, dac_value); if (err) { be_raisef(vm, "internal_error", "Error: esp_err_tdac_output_voltage(%i, %i) -> %i", channel, dac_value, err); } } else { be_raise(vm, "value_error", "DAC only supported on GPIO25-26"); } #elif defined(CONFIG_IDF_TARGET_ESP32S2) if (17 == pin || 18 == pin) { uint32_t channel = pin - 17; // 1 or 2 esp_err_t err = dac_output_voltage((dac_channel_t) channel, dac_value); if (err) { be_raisef(vm, "internal_error", "Error: esp_err_tdac_output_voltage(%i, %i) -> %i", channel, dac_value, err); } } else { be_raise(vm, "value_error", "DAC only supported on GPIO17-18"); } #elif defined(CONFIG_IDF_TARGET_ESP32C3) be_raise(vm, "value_error", "DAC unsupported in this chip"); #else be_raise(vm, "value_error", "DAC unsupported in this chip"); #endif be_pushint(vm, changeUIntScale(dac_value, 0, 255, 0, 3300)); be_return(vm); } be_raise(vm, kTypeError, nullptr); } // Tasmota specific int gp_pin_used(bvm *vm); int gp_pin_used(bvm *vm) { int32_t argc = be_top(vm); // Get the number of arguments if (argc >= 1 && argc <= 2 && be_isint(vm, 1)) { int32_t pin = be_toint(vm, 1); int32_t index = 0; if (argc == 2 && be_isint(vm, 2)) { index = be_toint(vm, 2); } bool ret = PinUsed(pin, index); be_pushbool(vm, ret); be_return(vm); } be_raise(vm, kTypeError, nullptr); } int gp_pin(bvm *vm); int gp_pin(bvm *vm) { int32_t argc = be_top(vm); // Get the number of arguments if (argc >= 1 && argc <= 2 && be_isint(vm, 1)) { int32_t pin = be_toint(vm, 1); int32_t index = 0; if (argc == 2 && be_isint(vm, 2)) { index = be_toint(vm, 2); } int32_t ret = Pin(pin, index); be_pushint(vm, ret); be_return(vm); } be_raise(vm, kTypeError, nullptr); } } #endif // USE_BERRY