Added HangmanGame class, but does not work yet
Dependencies: SDFileSystem app epson mbed msp430 pl tests
pageoled.cpp
- Committer:
- group-FlexBook
- Date:
- 2017-12-04
- Revision:
- 0:fa7450a43b99
File content as of revision 0:fa7450a43b99:
// // Filename: pageoled.cpp // // Flexbook page for page A3. // #include "pageoled.h" #include "pagesensor.h" #include "log.h" #include <iostream> namespace Flexbook { PageOLED::PageOLED() : data(p9), clock(p10), strobe(p11), enable(p12) { Log("Creating PageOLED"); data = 0; clock = 0; strobe = 0; enable = 1; Write(0xffffffffffff); wait(1.0); // test case follows //Write(Translate(0,0,1,2,3,10)); //wait(2.0); /* for (int i=0; i<200; i++) { Write(Translate(0,0,0,0,0,i % 6)); if (i<120) wait_ms(30); else wait_ms(i); } for (int i=0; i<600; i++) { Write(Translate(i%6,i%6,0,0,i*7%6,i%10)); wait(0.5); } uint64_t oledpixels = 63; for(int i=0; i<43; i++) { Write(oledpixels); oledpixels = 1 + (oledpixels * 2); wait(0.5); } wait(5.0); */ // test case ends Write(0x000000000000); } PageOLED::~PageOLED() { Log("Deleting PageOLED"); } // Write data to OLED. void PageOLED::Write(uint64_t writedata) { strobe = 1; enable = 1; for(int bit = 0; bit < 48; bit++) { data = writedata & 1; clock = 1; writedata = writedata >> 1; clock = 0; } strobe = 0; enable = 0; } uint64_t PageOLED::Translate(char b1, char b2, char b3, char b4, char b5, char d1) // b1..b5 should be a number 0..6 - the number of bars lit in each of the five bar graphs // d1 should be a number 0..9 - and is displayed as a single digit { uint64_t result = 0; //start with 0, each addition only changes a single bit //create bit pattern for leftmost bar graph (No. 1) if (b1>6) result = result + (0x010000000000); //bit 40 - not connected on new OLEDS if (b1>5) result = result + (0x020000000000); //bit 41 if (b1>4) result = result + (0x040000000000); //bit 42 if (b1>3) result = result + (0x080000000000); //bit 43 if (b1>2) result = result + (0x000800000000); //bit 35 if (b1>1) result = result + (0x000400000000); //bit 34 if (b1>0) result = result + (0x000200000000); //bit 33 //create bit pattern for second bar graph if (b2>6) result = result + (0x000100000000); //bit 32 - not connected on new OLEDS if (b2>5) result = result + (0x800000000000); //bit 47 if (b2>4) result = result + (0x400000000000); //bit 46 if (b2>3) result = result + (0x200000000000); //bit 45 if (b2>2) result = result + (0x100000000000); //bit 44 if (b2>1) result = result + (0x001000000000); //bit 36 if (b2>0) result = result + (0x002000000000); //bit 37 //create bit pattern for third bar graph if (b3>6) result = result + (0x004000000000); //bit 38 - not connected on new OLEDS if (b3>5) result = result + (0x008000000000); //bit 39 if (b3>4) result = result + (0x000001000000); //bit 24 if (b3>3) result = result + (0x000002000000); //bit 25 if (b3>2) result = result + (0x000004000000); //bit 26 if (b3>1) result = result + (0x000008000000); //bit 27 if (b3>0) result = result + (0x000000080000); //bit 19 //create bit pattern for fourth bar graph if (b4>6) result = result + (0x000000040000); //bit 18 - not connected on new OLEDS if (b4>5) result = result + (0x000000020000); //bit 17 if (b4>4) result = result + (0x000000010000); //bit 16 if (b4>3) result = result + (0x000080000000); //bit 31 if (b4>2) result = result + (0x000040000000); //bit 30 if (b4>1) result = result + (0x000020000000); //bit 29 if (b4>0) result = result + (0x000010000000); //bit 28 //create bit pattern for fifth (rightmost) bar graph if (b5>6) result = result + (0x000000100000); //bit 20 - not connected on new OLEDS if (b5>5) result = result + (0x000000200000); //bit 21 if (b5>4) result = result + (0x000000400000); //bit 22 if (b5>3) result = result + (0x000000800000); //bit 23 if (b5>2) result = result + (0x000000000100); //bit 8 if (b5>1) result = result + (0x000000000200); //bit 9 if (b5>0) result = result + (0x000000000400); //bit 10 //create bit pattern for digit - each digit needs multiple segments to be lit //7 segments use bits 6, 7, 11, 12, 13, 14 and 15 switch (d1) { case 0: result = result + (0x01E3 << 6); break; //0001 1110 0011 case 1: result = result + (0x0042 << 6); break; //0000 0100 0010 case 2: result = result + (0x0383 << 6); break; //0011 1000 0011 case 3: result = result + (0x02C3 << 6); break; //0010 1100 0011 case 4: result = result + (0x0262 << 6); break; //0010 0110 0010 case 5: result = result + (0x02E1 << 6); break; //0010 1110 0001 case 6: result = result + (0x03E1 << 6); break; //0011 1110 0001 case 7: result = result + (0x0043 << 6); break; //0000 0100 0011 case 8: result = result + (0x03E3 << 6); break; //0011 1110 0011 case 9: result = result + (0x02E3 << 6); break; //0010 1110 0011 } //Note least significant 6 bits (0..5) are not used return(result); } void PageOLED::SensorPoll(const SensorData &sensordata) { Write(Translate(3,sensordata.temperature,4,sensordata.pressure,2,sensordata.pressure)); //printf("%i \n", sensordata.temperature); } void PageOLED::DiceRoll(const int dicenr) { } void PageOLED::HandlePageActions () { //Write(Translate(0,sensordata.temperature,0,sensordata.pressure,0,3)); Log("OLED updated"); } } // End Flexbook namespace.