Vizic Technologies
/
SimpleClock_SG2
Simple Clock Demo - MBED + SmartGPU2 board
main.cpp
- Committer:
- emmanuelchio
- Date:
- 2014-04-18
- Revision:
- 2:22fecf4cd6a1
- Parent:
- 1:4803259f24d3
- Child:
- 3:05e0e61ebf24
File content as of revision 2:22fecf4cd6a1:
/**************************************************************************************/ /**************************************************************************************/ /*SMARTGPU2 intelligent embedded graphics processor unit those examples are for using the SMARTGPU2 with the mbed microcontoller, just connect tx,rx,and reset Board: http://www.vizictechnologies.com/ www.vizictechnologies.com Vizic Technologies copyright 2014 */ /**************************************************************************************/ /**************************************************************************************/ #include "mbed.h" #include "SMARTGPU2.h" //we define a new structure of INT instead of UNSIGNED INT typedef struct { int x; //X axis int y; //Y axis } POINTINT; //to create a point with point.x and point.y variable #define CLOCKBODYCOLOUR BLACK //colour for the body clock #define CLOCKEDGECOLOUR GREEN //colour for the edge of the clock #define SECCOL YELLOW //seconds hand colour #define MINCOL MAGENTA //minutes hand colour #define HOURCOL RED //hours hand colour #define HALFX LCD_WIDTH/2 //this point represent the x center of the clock where math is done #define HALFY LCD_HEIGHT/2 //this point represent the y center of the clock where math is done SMARTGPU2 lcd(TXPIN,RXPIN,RESETPIN); //create our object called "lcd" /***************************************************/ /***************************************************/ void initializeSmartGPU2(void){ //Initialize SMARTGPU2 Board lcd.reset(); //physically reset SMARTGPU2 lcd.start(); //initialize the SMARTGPU2 processor } /***************************************************/ /***************************************************/ /***************************************************/ /***************************************************/ int main() { POINTINT secP,minsP,hourP; AXIS updatedXPosition; int secs=15; int mins=45; int hours=2; int angleH,angleM,angleS; int handHour=75;//hand size int handMin=85;//hand size int handSec=95;//hand size initializeSmartGPU2(); //Init communication with SmartGPU2 board lcd.baudChange(BAUD7); //set a fast baud! for fast drawing lcd.drawCircle(HALFX,HALFY,(HALFY/2)-5,CLOCKBODYCOLOUR,FILL); //draw clock body lcd.drawCircle(HALFX,HALFY,(HALFY/2)-5,CLOCKEDGECOLOUR,UNFILL); //draw clock edge //config strings lcd.setTextColour(CLOCKEDGECOLOUR); lcd.setTextSize(FONT5); lcd.setTextBackFill(TRANS); while(1){ //Do some Math to get the second point of the clock hands. (first point is always the center of the clock) angleS=secs*6; //get the current seconds in angle form, a circle have 360 degrees divided by 60 seconds = 6, then we multiply the 6 by the current seconds to get current angle secP.x=((sin((angleS*3.14)/180)) * handSec); //get X component of the second's hand secP.y=((cos((angleS*3.14)/180)) * handSec); //get Y component of the second's hand angleM=mins*6; //get the current minutes in angle form, a circle have 360 degrees divided by 60 minutes = 6, then we multiply the 6 by the current minutes to get current angle minsP.x=((sin((angleM*3.14)/180)) * handMin); //get X component of the minutes's hand minsP.y=((cos((angleM*3.14)/180)) * handMin); //get Y component of the minutes's hand angleH=hours*30; //get the current hours in angle form, a circle have 360 degrees divided by 12 hours = 30, then we multiply the 30 by the current hours to get current angle hourP.x=((sin((angleH*3.14)/180)) * handHour); //get X component of the hours's hand hourP.y=((cos((angleH*3.14)/180)) * handHour); //get Y component of the hours's hand lcd.putLetter(HALFX-20,22,'1',&updatedXPosition); //Draw the 1 lcd.putLetter(updatedXPosition,22,'2',&updatedXPosition); //Draw the 2 //Draw current time hands lcd.drawLine(HALFX,HALFY,HALFX+minsP.x,HALFY-minsP.y,MINCOL); // Draw the minutes hand, first point is the center of the clock, and the second is the point obtained by doing math lcd.drawLine(HALFX,HALFY,HALFX+hourP.x,HALFY-hourP.y,HOURCOL); // Draw the hours hand, first point is the center of the clock, and the second is the point obtained by doing math lcd.drawLine(HALFX,HALFY,HALFX+secP.x,HALFY-secP.y,SECCOL); // Draw the seconds hand, first point is the center of the clock, and the second is the point obtained by doing math lcd.drawCircle(HALFX,HALFY,5,SECCOL,FILL); // Draw the center of the second's hand wait_ms(1000); // wait for one second delay (we dont need to explain why we're waiting one second, right?) secs++; // increase seconds if(secs==60){ // if we reach 60 seconds mins++; // increase the minutes if(mins==60){ // if we reach 60 minutes hours++; // increase the minutes if(hours==12){ // if we reach 12 hours hours=0; // clear hours } mins=0; // clear minutes } secs=0; // clear seconds } //Erase all hands lcd.drawLine(HALFX,HALFY,HALFX+secP.x,HALFY-secP.y,CLOCKBODYCOLOUR); // Erase Second's hand lcd.drawLine(HALFX,HALFY,HALFX+minsP.x,HALFY-minsP.y,CLOCKBODYCOLOUR); // Erase Minute's hand lcd.drawLine(HALFX,HALFY,HALFX+hourP.x,HALFY-hourP.y,CLOCKBODYCOLOUR); // Erase Hour's hand } }