Dreameforce 2013 giveaway demo
Dependencies: C12832_lcd EthernetInterface LM75B MMA7660 libxively mbed-rtos mbed
Fork of xively-dreamforce by
main.cpp
- Committer:
- errordeveloper
- Date:
- 2013-11-11
- Revision:
- 17:6457dc373c2d
- Parent:
- 16:878226cefdb1
- Child:
- 18:07869e8bddb2
File content as of revision 17:6457dc373c2d:
#include "mbed.h" #include "EthernetInterface.h" #define XI_FEED_ID 34525050 // set Xively Feed ID (numerical, no quoutes) #define XI_API_KEY "MsBCnO8YoVNiDBt3X1WbO5MkxO3No2hzMNx45OwbeHf5CecZ" // set Xively API key (double-quoted string) #include "app_board_io.h" #include "xively.h" #include "xi_err.h" #include "MMA7660.h" #include "LM75B.h" #include "C12832_lcd.h" LM75B tmp(p28, p27); DigitalOut fan(p22); PwmOut progress_led(LED1); C12832_LCD lcd; #include "logo.h" int main() { lcd_print_xively_logo(); EthernetInterface eth; Thread _rgbpwm(rgbpwm_thread); int s = eth.init(); //Use DHCP if( s != NULL ) { lcd_printf( "Could not initialise. Will halt!\n" ); exit( 0 ); } s = eth.connect(); if( s != NULL ) { lcd_printf( "Could not connect. Will halt!\n" ); exit( 0 ); } else { lcd_printf( "IP: %s\n", eth.getIPAddress() ); } xi_feed_t output_channels; memset( &output_channels, NULL, sizeof( xi_feed_t ) ); output_channels.feed_id = XI_FEED_ID; output_channels.datastream_count = 1; output_channels.datastreams[0].datapoint_count = 1; xi_datastream_t* temperature_datastream = &output_channels.datastreams[0]; strcpy( temperature_datastream->datastream_id, "temp" ); xi_datapoint_t* temp = &temperature_datastream->datapoints[0]; xi_feed_t input_channels; memset( &input_channels, NULL, sizeof( xi_feed_t ) ); input_channels.feed_id = XI_FEED_ID; input_channels.datastream_count = 2; input_channels.datastreams[0].datapoint_count = 1; xi_datastream_t* fan_ctl_datastream = &input_channels.datastreams[0]; strcpy( fan_ctl_datastream->datastream_id, "fan" ); xi_datapoint_t* fan_ctl = &fan_ctl_datastream->datapoints[0]; input_channels.datastreams[1].datapoint_count = 1; xi_datastream_t* led_ctl_datastream = &input_channels.datastreams[1]; strcpy( led_ctl_datastream->datastream_id, "led" ); xi_datapoint_t* led_ctl = &led_ctl_datastream->datapoints[0]; // create the cosm library context xi_context_t* xi_context = xi_create_context( XI_HTTP, XI_API_KEY, output_channels.feed_id ); // check if everything works if( xi_context == NULL ) { return -1; } while( true ) { xi_set_value_f32( temp, tmp.read() ); printf( "Updating output channels...\r\n" ); progress_led = 0.6; xi_feed_update( xi_context, &output_channels ); progress_led = 0.1; printf( " [%s]\r\n", xi_get_error_string( xi_get_last_error() ) ); printf( "Reading input channels...\r\n" ); xi_feed_get( xi_context, &input_channels ); printf( " [%s]\r\n", xi_get_error_string( xi_get_last_error() ) ); lcd_printf( "led: %s\nfan: %d\n", xi_value_pointer_str( led_ctl ), xi_get_value_i32( fan_ctl ) ); switch( xi_get_value_i32( fan_ctl ) ) { case 0: fan = 0; break; case 1: fan = 1; break; } if( strcmp( xi_value_pointer_str( led_ctl ), "RED" ) == 0 ) { } else if( strcmp( xi_value_pointer_str( led_ctl ), "GREEN" ) == 0 ) { } else if( strcmp( xi_value_pointer_str( led_ctl ), "BLUE" ) == 0 ) { } else /* OFF */ { } wait( 5.0 ); progress_led = 0; } }