ST Expansion SW Team
Javascript wrappers for HTS221 Sensor library
Dependencies: HTS221
HTS221_JS-js.cpp
- Committer:
- akhtar.syedzeeshan@gmail.com
- Date:
- 2018-01-17
- Revision:
- 6:b2c4b0678856
- Parent:
- 5:bbe15d3cac27
File content as of revision 6:b2c4b0678856:
/**
******************************************************************************
* @file HTS221_JS-js.cpp
* @author ST
* @version V1.0.0
* @date 9 October 2017
* @brief Implementation of an HTS221 Humidity and Temperature sensor for use
* with Javascript.
******************************************************************************
* @attention
*
* <h2><center>© COPYRIGHT(c) 2017 STMicroelectronics</center></h2>
*
* Redistribution and use in source and binary forms, with or without modification,
* are permitted provided that the following conditions are met:
* 1. Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
* 3. Neither the name of STMicroelectronics nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
* CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
******************************************************************************
*/
/* Includes ------------------------------------------------------------------*/
#include "jerryscript-mbed-util/logging.h"
#include "jerryscript-mbed-library-registry/wrap_tools.h"
// Load the library that we'll wrap
#include "HTS221_JS.h"
#include "mbed.h"
/* Class Implementation ------------------------------------------------------*/
/**
* HTS221_JS#destructor
* Called if/when the HTS221_JS is GC'ed.
*/
void NAME_FOR_CLASS_NATIVE_DESTRUCTOR(HTS221_JS)(void *void_ptr) {
delete static_cast<HTS221_JS*>(void_ptr);
}
/**
* Type infomation of the native HTS221_JS pointer
* Set HTS221_JS#destructor as the free callback.
*/
static const jerry_object_native_info_t native_obj_type_info = {
.free_cb = NAME_FOR_CLASS_NATIVE_DESTRUCTOR(HTS221_JS)
};
/**
* HTS221_JS#init_spi (native JavaScript method)
* @brief Initializes the sensor using SPI interface
* @param SPI interface
* @param CS pin
* @param DRDY pin
*/
DECLARE_CLASS_FUNCTION(HTS221_JS, init_spi) {
CHECK_ARGUMENT_COUNT(HTS221_JS, init_spi, (args_count == 1 || args_count == 3));
CHECK_ARGUMENT_TYPE_ALWAYS(HTS221_JS, init_spi, 0, object);
CHECK_ARGUMENT_TYPE_ON_CONDITION(HTS221_JS, init_spi, 1, number, args_count == 3);
CHECK_ARGUMENT_TYPE_ON_CONDITION(HTS221_JS, init_spi, 2, number, args_count == 3);
// Unwrap native HTS221_JS object
void *void_ptr;
const jerry_object_native_info_t *type_ptr;
bool has_ptr = jerry_get_object_native_pointer(this_obj, &void_ptr, &type_ptr);
if (!has_ptr || type_ptr != &native_obj_type_info) {
return jerry_create_error(JERRY_ERROR_TYPE,
(const jerry_char_t *) "Failed to get native HTS221_JS pointer");
}
HTS221_JS *native_ptr = static_cast<HTS221_JS*>(void_ptr);
// Unwrap arguments
void *spi_ptr;
const jerry_object_native_info_t *spi_type_ptr;
bool spi_has_ptr = jerry_get_object_native_pointer(args[0], &spi_ptr, &spi_type_ptr);
// Check if we have the spi pointer
if (!spi_has_ptr) {
printf("Not a SPI input!");
return jerry_create_error(JERRY_ERROR_TYPE,
(const jerry_char_t *) "Failed to get native DigitalOut pointer");
}
// Cast the argument to C++
SPI* spi = reinterpret_cast<SPI*>(spi_ptr);
// Call the native function
if(args_count == 1){
native_ptr->init(*spi);
}
else if(args_count == 3){
int cs_pin = jerry_get_number_value(args[1]);
int drdy_pin = jerry_get_number_value(args[2]);
native_ptr->init(*spi, (PinName) cs_pin, (PinName) drdy_pin);
}
return jerry_create_number(0);
}
/**
* HTS221_JS#init_i2c (native JavaScript method)
* @brief Initializes the sensor using I2C interface
* @param I2C interface
* @param Address
* @param DRDY pin
*/
DECLARE_CLASS_FUNCTION(HTS221_JS, init_i2c) {
CHECK_ARGUMENT_COUNT(HTS221_JS, init_i2c, (args_count == 1 || args_count == 3));
CHECK_ARGUMENT_TYPE_ALWAYS(HTS221_JS, init_i2c, 0, object);
CHECK_ARGUMENT_TYPE_ON_CONDITION(HTS221_JS, init_i2c, 1, number, args_count == 3);
CHECK_ARGUMENT_TYPE_ON_CONDITION(HTS221_JS, init_i2c, 2, number, args_count == 3);
// Unwrap native HTS221_JS object
void *void_ptr;
const jerry_object_native_info_t *type_ptr;
bool has_ptr = jerry_get_object_native_pointer(this_obj, &void_ptr, &type_ptr);
if (!has_ptr || type_ptr != &native_obj_type_info) {
return jerry_create_error(JERRY_ERROR_TYPE,
(const jerry_char_t *) "Failed to get native HTS221_JS pointer");
}
HTS221_JS *native_ptr = static_cast<HTS221_JS*>(void_ptr);
// Unwrap arguments
void *i2c_ptr;
const jerry_object_native_info_t *i2c_type_ptr;
bool i2c_has_ptr = jerry_get_object_native_pointer(args[0], &i2c_ptr, &i2c_type_ptr);
// Check if we have the i2c pointer
if (!i2c_has_ptr) {
printf("Not a I2C input!");
return jerry_create_error(JERRY_ERROR_TYPE,
(const jerry_char_t *) "Failed to get native DigitalOut pointer");
}
// Cast the argument to C++
DevI2C* i2c = reinterpret_cast<DevI2C*>(i2c_ptr);
// call the respective function
if(args_count == 1){
native_ptr->init(*i2c);
}
else if(args_count == 3){
int address = jerry_get_number_value(args[1]);
int drdy_pin = jerry_get_number_value(args[2]);
native_ptr->init(*i2c, (uint8_t) address, (PinName) drdy_pin);
}
return jerry_create_number(0);
}
/**
* HTS221_JS#get_temperature (native JavaScript method)
* @brief Gets the temperature reading
* @returns Temperature
*/
DECLARE_CLASS_FUNCTION(HTS221_JS, get_temperature) {
CHECK_ARGUMENT_COUNT(HTS221_JS, get_temperature, (args_count == 0));
// Unwrap native HTS221_JS object
void *void_ptr;
const jerry_object_native_info_t *type_ptr;
bool has_ptr = jerry_get_object_native_pointer(this_obj, &void_ptr, &type_ptr);
if (!has_ptr || type_ptr != &native_obj_type_info) {
return jerry_create_error(JERRY_ERROR_TYPE,
(const jerry_char_t *) "Failed to get native HTS221_JS pointer");
}
HTS221_JS *native_ptr = static_cast<HTS221_JS*>(void_ptr);
// Get the result from the C++ API
float result = native_ptr->get_temperature();
//printf("temp hts221: %s\n", result);
// Cast it back to JavaScript and return
return jerry_create_number(result);
}
/**
* HTS221_JS#get_temperature_string (native JavaScript method)
* @brief Gets the temperature reading in string form
* @returns Temperature in string
*/
DECLARE_CLASS_FUNCTION(HTS221_JS, get_temperature_string) {
CHECK_ARGUMENT_COUNT(HTS221_JS, get_temperature_string, (args_count == 0));
// Unwrap native HTS221_JS object
void *void_ptr;
const jerry_object_native_info_t *type_ptr;
bool has_ptr = jerry_get_object_native_pointer(this_obj, &void_ptr, &type_ptr);
if (!has_ptr || type_ptr != &native_obj_type_info) {
return jerry_create_error(JERRY_ERROR_TYPE,
(const jerry_char_t *) "Failed to get native HTS221_JS pointer");
}
HTS221_JS *native_ptr = static_cast<HTS221_JS*>(void_ptr);
char * result = new char[128];
result = native_ptr->get_temperature_string(result);
//pc.printf("Temperature: %s", result);
// Cast it back to JavaScript
jerry_value_t out = jerry_create_string((unsigned char *)result);
//printf("temperature: %s\n", result);
// Recycle the result from function
delete result;
// Return the output
return out;
}
/**
* HTS221_JS#get_humidity (native JavaScript method)
* @brief Get the humidity reading
* @returns Humidity
*/
DECLARE_CLASS_FUNCTION(HTS221_JS, get_humidity) {
CHECK_ARGUMENT_COUNT(HTS221_JS, get_humidity, (args_count == 0));
// Unwrap native HTS221_JS object
void *void_ptr;
const jerry_object_native_info_t *type_ptr;
bool has_ptr = jerry_get_object_native_pointer(this_obj, &void_ptr, &type_ptr);
if (!has_ptr || type_ptr != &native_obj_type_info) {
return jerry_create_error(JERRY_ERROR_TYPE,
(const jerry_char_t *) "Failed to get native HTS221_JS pointer");
}
HTS221_JS *native_ptr = static_cast<HTS221_JS*>(void_ptr);
// Get the result from the C++ API
float result = native_ptr->get_humidity();
//printf("humidity hts221: %s\n", result);
// Cast it back to JavaScript and return
return jerry_create_number(result);
}
/**
* HTS221_JS#get_humidity_string (native JavaScript method)
* @brief Get the humidity reading in string form
* @returns humidity in string
*/
DECLARE_CLASS_FUNCTION(HTS221_JS, get_humidity_string) {
CHECK_ARGUMENT_COUNT(HTS221_JS, get_humidity_string, (args_count == 0));
// Unwrap native HTS221_JS object
void *void_ptr;
const jerry_object_native_info_t *type_ptr;
bool has_ptr = jerry_get_object_native_pointer(this_obj, &void_ptr, &type_ptr);
if (!has_ptr || type_ptr != &native_obj_type_info) {
return jerry_create_error(JERRY_ERROR_TYPE,
(const jerry_char_t *) "Failed to get native HTS221_JS pointer");
}
HTS221_JS *native_ptr = static_cast<HTS221_JS*>(void_ptr);
char * result = new char[128];
result = native_ptr->get_humidity_string(result);
// Cast it back to JavaScript
jerry_value_t out = jerry_create_string((unsigned char *)result);
//printf("humidity: %s\n", result);
// Recycle the result from function
delete result;
// Return the output
return out;
}
/**
* HTS221_JS#led_on (native JavaScript method)
* @brief Sets the LED to 1, for testing purposes
* @param DigitalOut pin to blink
*/
DECLARE_CLASS_FUNCTION(HTS221_JS, led_on) {
// Check that we have 1 argument, and that it's an object
CHECK_ARGUMENT_COUNT(HTS221_JS, led_on, (args_count == 1));
CHECK_ARGUMENT_TYPE_ALWAYS(HTS221_JS, led_on, 0, object);
// Unwrap native HTS221_JS object
void *void_ptr;
const jerry_object_native_info_t *type_ptr;
bool has_ptr = jerry_get_object_native_pointer(this_obj, &void_ptr, &type_ptr);
if (!has_ptr || type_ptr != &native_obj_type_info) {
return jerry_create_error(JERRY_ERROR_TYPE,
(const jerry_char_t *) "Failed to get native HTS221_JS pointer");
}
HTS221_JS *native_ptr = static_cast<HTS221_JS*>(void_ptr);
// Cast the LED argument
void *led_void_ptr;
const jerry_object_native_info_t *led_type_ptr;
bool led_has_ptr = jerry_get_object_native_pointer(args[0], &led_void_ptr, &led_type_ptr);
if (!led_has_ptr) {
printf("Not a DigitalOut input!");
return jerry_create_error(JERRY_ERROR_TYPE,
(const jerry_char_t *) "Failed to get native DigitalOut pointer");
}
DigitalOut *pin_ptr = reinterpret_cast<DigitalOut*>(led_void_ptr);
// Call the function from the C++ API
native_ptr->led_on(*pin_ptr);
// Return
return jerry_create_undefined();
}
/**
* HTS221_JS (native JavaScript constructor)
* @brief Constructor for Javascript wrapper
* @returns JavaScript object representing HTS221_JS.
*/
DECLARE_CLASS_CONSTRUCTOR(HTS221_JS) {
CHECK_ARGUMENT_COUNT(HTS221_JS, __constructor, args_count == 0);
//pc.printf("constructor called!\n");
// Extract native HTS221_JS pointer (from this object)
HTS221_JS *native_ptr = new HTS221_JS();
jerry_value_t js_object = jerry_create_object();
jerry_set_object_native_pointer(js_object, native_ptr, &native_obj_type_info);
// attach methods
ATTACH_CLASS_FUNCTION(js_object, HTS221_JS, init_spi);
ATTACH_CLASS_FUNCTION(js_object, HTS221_JS, init_i2c);
ATTACH_CLASS_FUNCTION(js_object, HTS221_JS, get_temperature);
ATTACH_CLASS_FUNCTION(js_object, HTS221_JS, get_temperature_string);
ATTACH_CLASS_FUNCTION(js_object, HTS221_JS, get_humidity);
ATTACH_CLASS_FUNCTION(js_object, HTS221_JS, get_humidity_string);
ATTACH_CLASS_FUNCTION(js_object, HTS221_JS, led_on);
return js_object;
}