noisymime
/
speeduino-personal
mirror of https://github.com/noisymime/speeduino-personal.git
1
0
Fork 0
Code Issues Packages Projects Releases Wiki Activity

Merge pull request #24 from noisymime/pr/22 

Merge revised Pr/22
This commit is contained in:
Josh Stewart 2015-10-13 10:07:05 +11:00
parent 150d39b4ad 8a0615d9be
commit b515058cc7
2 changed files with 616 additions and 362 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

15
comms.h
View File

@ -10,13 +10,24 @@
#define iacPage 7
#define boostvvtPage 8
byte currentPage;
byte currentPage = 1;
boolean isMap = true;
const char pageTitles[] PROGMEM
{
"\nVolumetric Efficiancy Map\0"
"\nPage 1 Config\0"
"\nIgnition Map\0"
"\nPage 2 Config\0"
"\nAir/Fuel Ratio Map\0"
"\nPage 3 Config\0"
"\nPage 4 Config"
};
void command();
void sendValues();
void receiveValue(int offset, byte newValue);
void saveConfig();
void sendPage();
void sendPage(bool useChar);
void receiveCalibration(byte tableID);
void sendToothLog(bool useChar);
void testComm();

457
comms.ino
View File

@ -29,11 +29,28 @@ void command()
testComm();
break;
case 'L':
sendPage(true);
break;
case 'N':
Serial.println();
break;
case 'P': // set the current page
//A 2nd byte of data is required after the 'P' specifying the new page number.
//This loop should never need to run as the byte should already be in the buffer, but is here just in case
while (Serial.available() == 0) { }
currentPage = Serial.read();
if (currentPage >= '0') {
currentPage -= '0';
}
if (currentPage == veMapPage || currentPage == ignMapPage || currentPage == afrMapPage) {
isMap = true;
}
else {
isMap = false;
}
break;
case 'R': // send 39 bytes of realtime values
@ -50,14 +67,14 @@ void command()
break;
case 'V': // send VE table and constants
sendPage();
sendPage(false);
break;
case 'W': // receive new VE or constant at 'W'+<offset>+<newbyte>
int offset;
while (Serial.available() == 0) { }
if(currentPage == veMapPage || currentPage == ignMapPage || currentPage == afrMapPage )
if (isMap)
{
byte offset1, offset2;
offset1 = Serial.read();
@ -94,30 +111,29 @@ void command()
digitalWrite(pinInjector1, LOW);
digitalWrite(pinInjector2, LOW);
return;
Serial.println("Coolant");
for(int x=0; x<CALIBRATION_TABLE_SIZE; x++)
Serial.println(F("Coolant"));
for (int x = 0; x < CALIBRATION_TABLE_SIZE; x++)
{
Serial.print(x);
Serial.print(", ");
Serial.println(cltCalibrationTable[x]);
}
Serial.println("Inlet temp");
for(int x=0; x<CALIBRATION_TABLE_SIZE; x++)
Serial.println(F("Inlet temp"));
for (int x = 0; x < CALIBRATION_TABLE_SIZE; x++)
{
Serial.print(x);
Serial.print(", ");
Serial.println(iatCalibrationTable[x]);
}
Serial.println("O2");
for(int x=0; x<CALIBRATION_TABLE_SIZE; x++)
Serial.println(F("O2"));
for (int x = 0; x < CALIBRATION_TABLE_SIZE; x++)
{
Serial.print(x);
Serial.print(", ");
Serial.println(o2CalibrationTable[x]);
}
Serial.println("WUE");
for(int x=0; x<10; x++)
Serial.println(F("WUE"));
for (int x = 0; x < 10; x++)
{
Serial.print(configPage2.wueBins[x]);
Serial.print(", ");
@ -134,6 +150,40 @@ void command()
sendToothLog(true); //Sends tooth log values as chars
break;
case '?':
Serial.println
(F(
"\n"
"===Command Help===\n\n"
"All commands are single character and are concatenated with their parameters \n"
"without spaces. Some parameters are binary and cannot be entered through this \n"
"prompt by conventional means. \n"
"Syntax: <command>+<parameter1>+<parameter2>+<parameterN>\n\n"
"===List of Commands===\n\n"
"A - Displays 31 bytes of currentStatus values in binary (live data)\n"
"B - Burn current map and configPage values to eeprom\n"
"C - Test COM port. Used by Tunerstudio to see whether an ECU is on a given serial \n"
" port. Returns a binary number.\n"
"L - Displays map page (aka table) or configPage values. Use P to change page (not \n"
" every page is a map)\n"
"N - Print new line.\n"
"P - Set current page. Syntax: P+<pageNumber>\n"
"R - Same as A command\n"
"S - Display signature number\n"
"Q - Same as S command\n"
"V - Display map or configPage values in binary\n"
"W - Set one byte in map or configPage. Expects binary parameters. \n"
" Syntax: W+<offset>+<newbyte>\n"
"t - Set calibration values. Expects binary parameters. Table index is either 0, \n"
" 1, or 2. Syntax: t+<tble_idx>+<newValue1>+<newValue2>+<newValueN>\n"
"Z - Display calibration values\n"
"T - Displays 256 tooth log entries in binary\n"
"r - Displays 256 tooth log entries\n"
"? - Displays this help page"
));
break;
default:
break;
}
@ -151,7 +201,7 @@ void sendValues(int length)
response[1] = currentStatus.squirt; //Squirt Bitfield
response[2] = currentStatus.engine; //Engine Status Bitfield
response[3] = (byte)(divu100(currentStatus.dwell)); //Dwell in ms * 10
response[4] = (byte)(currentStatus.MAP >> 1); //map value is divided by 2
response[4] = currentStatus.MAP; //map
response[5] = (byte)(currentStatus.IAT + CALIBRATION_TEMPERATURE_OFFSET); //mat
response[6] = (byte)(currentStatus.coolant + CALIBRATION_TEMPERATURE_OFFSET); //Coolant ADC
response[7] = currentStatus.tpsADC; //TPS (Raw 0-255)
@ -192,14 +242,14 @@ void sendValues(int length)
void receiveValue(int offset, byte newValue)
{
byte* pnt_configPage;
void* pnt_configPage;
switch (currentPage)
{
case veMapPage:
if (offset < 256) //New value is part of the fuel map
{
fuelTable.values[15-offset/16][offset%16] = newValue;
fuelTable.values[15 - offset / 16][offset % 16] = newValue;
return;
}
else
@ -208,12 +258,12 @@ void receiveValue(int offset, byte newValue)
if (offset < 272)
{
//X Axis
fuelTable.axisX[(offset-256)] = ((int)(newValue) * 100); //The RPM values sent by tunerstudio are divided by 100, need to multiple it back by 100 to make it correct
fuelTable.axisX[(offset - 256)] = ((int)(newValue) * 100); //The RPM values sent by megasquirt are divided by 100, need to multiple it back by 100 to make it correct
}
else
{
//Y Axis
offset = 15-(offset-272); //Need to do a translation to flip the order (Due to us using (0,0) in the top left rather than bottom right
offset = 15 - (offset - 272); //Need to do a translation to flip the order (Due to us using (0,0) in the top left rather than bottom right
fuelTable.axisY[offset] = (int)(newValue);
}
return;
@ -221,18 +271,18 @@ void receiveValue(int offset, byte newValue)
break;
case veSetPage:
pnt_configPage = (byte *)&configPage1; //Setup a pointer to the relevant config page
pnt_configPage = &configPage1; //Setup a pointer to the relevant config page
//For some reason, TunerStudio is sending offsets greater than the maximum page size. I'm not sure if it's their bug or mine, but the fix is to only update the config page if the offset is less than the maximum size
if( offset < page_size)
if ( offset < page_size)
{
*(pnt_configPage + (byte)offset) = newValue; //Need to subtract 80 because the map and bins (Which make up 80 bytes) aren't part of the config pages
*((byte *)pnt_configPage + (byte)offset) = newValue; //Need to subtract 80 because the map and bins (Which make up 80 bytes) aren't part of the config pages
}
break;
case ignMapPage: //Ignition settings page (Page 2)
if (offset < 256) //New value is part of the ignition map
{
ignitionTable.values[15-offset/16][offset%16] = newValue;
ignitionTable.values[15 - offset / 16][offset % 16] = newValue;
return;
}
else
@ -241,30 +291,30 @@ void receiveValue(int offset, byte newValue)
if (offset < 272)
{
//X Axis
ignitionTable.axisX[(offset-256)] = (int)(newValue) * int(100); //The RPM values sent by TunerStudio are divided by 100, need to multiple it back by 100 to make it correct
ignitionTable.axisX[(offset - 256)] = (int)(newValue) * int(100); //The RPM values sent by megasquirt are divided by 100, need to multiple it back by 100 to make it correct
}
else
{
//Y Axis
offset = 15-(offset-272); //Need to do a translation to flip the order
offset = 15 - (offset - 272); //Need to do a translation to flip the order
ignitionTable.axisY[offset] = (int)(newValue);
}
return;
}
case ignSetPage:
pnt_configPage = (byte *)&configPage2;
pnt_configPage = &configPage2;
//For some reason, TunerStudio is sending offsets greater than the maximum page size. I'm not sure if it's their bug or mine, but the fix is to only update the config page if the offset is less than the maximum size
if( offset < page_size)
if ( offset < page_size)
{
*(pnt_configPage + (byte)offset) = newValue; //Need to subtract 80 because the map and bins (Which make up 80 bytes) aren't part of the config pages
*((byte *)pnt_configPage + (byte)offset) = newValue; //Need to subtract 80 because the map and bins (Which make up 80 bytes) aren't part of the config pages
}
break;
case afrMapPage: //Air/Fuel ratio target settings page
if (offset < 256) //New value is part of the afr map
{
afrTable.values[15-offset/16][offset%16] = newValue;
afrTable.values[15 - offset / 16][offset % 16] = newValue;
return;
}
else
@ -273,12 +323,12 @@ void receiveValue(int offset, byte newValue)
if (offset < 272)
{
//X Axis
afrTable.axisX[(offset-256)] = int(newValue) * int(100); //The RPM values sent by TunerStudio are divided by 100, need to multiply it back by 100 to make it correct
afrTable.axisX[(offset - 256)] = int(newValue) * int(100); //The RPM values sent by megasquirt are divided by 100, need to multiply it back by 100 to make it correct
}
else
{
//Y Axis
offset = 15-(offset-272); //Need to do a translation to flip the order
offset = 15 - (offset - 272); //Need to do a translation to flip the order
afrTable.axisY[offset] = int(newValue);
}
@ -286,43 +336,42 @@ void receiveValue(int offset, byte newValue)
}
case afrSetPage:
pnt_configPage = (byte *)&configPage3;
pnt_configPage = &configPage3;
//For some reason, TunerStudio is sending offsets greater than the maximum page size. I'm not sure if it's their bug or mine, but the fix is to only update the config page if the offset is less than the maximum size
if( offset < page_size)
if ( offset < page_size)
{
*(pnt_configPage + (byte)offset) = newValue; //Need to subtract 80 because the map and bins (Which make up 80 bytes) aren't part of the config pages
*((byte *)pnt_configPage + (byte)offset) = newValue; //Need to subtract 80 because the map and bins (Which make up 80 bytes) aren't part of the config pages
}
break;
case iacPage: //Idle Air Control settings page (Page 4)
pnt_configPage = (byte *)&configPage4;
pnt_configPage = &configPage4;
//For some reason, TunerStudio is sending offsets greater than the maximum page size. I'm not sure if it's their bug or mine, but the fix is to only update the config page if the offset is less than the maximum size
if( offset < page_size)
if ( offset < page_size)
{
*(pnt_configPage + (byte)offset) = newValue;
*((byte *)pnt_configPage + (byte)offset) = newValue;
}
break;
case boostvvtPage: //Boost and VVT maps (8x8)
if (offset < 64) //New value is part of the boost map
{
boostTable.values[7-offset/8][offset%8] = newValue;
boostTable.values[7 - offset / 8][offset % 8] = newValue;
return;
}
else if (offset < 72) //New value is on the X (RPM) axis of the boost table
{
boostTable.axisX[(offset-64)] = int(newValue) * int(100); //The RPM values sent by TunerStudio are divided by 100, need to multiply it back by 100 to make it correct
boostTable.axisX[(offset - 64)] = int(newValue) * int(100); //The RPM values sent by TunerStudio are divided by 100, need to multiply it back by 100 to make it correct
return;
}
else if (offset < 80) //New value is on the Y (TPS) axis of the boost table
{
boostTable.axisY[(7-(offset-72))] = int(newValue);
boostTable.axisY[(7 - (offset - 72))] = int(newValue);
return;
}
else if (offset < 144) //New value is part of the vvt map
{
offset = offset - 80;
vvtTable.values[7-offset/8][offset%8] = newValue;
vvtTable.values[7 - offset / 8][offset % 8] = newValue;
return;
}
else if (offset < 152) //New value is on the X (RPM) axis of the vvt table
@ -334,10 +383,9 @@ void receiveValue(int offset, byte newValue)
else //New value is on the Y (Load) axis of the vvt table
{
offset = offset - 152;
vvtTable.axisY[(7-offset)] = int(newValue);
vvtTable.axisY[(7 - offset)] = int(newValue);
return;
}
default:
break;
}
@ -347,102 +395,204 @@ void receiveValue(int offset, byte newValue)
sendPage() packs the data within the current page (As set with the 'P' command)
into a buffer and sends it.
Note that some translation of the data is required to lay it out in the way Megasqurit / TunerStudio expect it
useChar - If true, all values are send as chars, this is for the serial command line interface. TunerStudio expects data as raw values, so this must be set false in that case
*/
void sendPage()
void sendPage(bool useChar)
{
byte* pnt_configPage;
void* pnt_configPage;
struct table3D currentTable;
byte currentTitleIndex = 0;
switch (currentPage)
{
case veMapPage:
{
//Need to perform a translation of the values[MAP/TPS][RPM] into the MS expected format
//MS format has origin (0,0) in the bottom left corner, we use the top left for efficiency reasons
byte response[map_page_size];
for(int x=0;x<256;x++) { response[x] = fuelTable.values[15-x/16][x%16]; } //This is slightly non-intuitive, but essentially just flips the table vertically (IE top line becomes the bottom line etc). Columns are unchanged
for(int x=256;x<272;x++) { response[x] = byte(fuelTable.axisX[(x-256)] / 100); } //RPM Bins for VE table (Need to be dvidied by 100)
for(int y=272;y<288;y++) { response[y] = byte(fuelTable.axisY[15-(y-272)]); } //MAP or TPS bins for VE table
Serial.write((byte *)&response, sizeof(response));
currentTitleIndex = 0;
currentTable = fuelTable;
break;
}
case veSetPage:
{
//All other bytes can simply be copied from the config table
byte response[page_size];
pnt_configPage = (byte *)&configPage1; //Create a pointer to Page 1 in memory
for(byte x=0; x<page_size; x++)
// currentTitleIndex = 27;
if (useChar)
{
response[x] = *(pnt_configPage + x); //Each byte is simply the location in memory of configPage1 + the offset + the variable number (x)
//To Display Values from Config Page 1
Serial.println((const __FlashStringHelper *)&pageTitles[27]);
for (pnt_configPage = &configPage1; pnt_configPage < &configPage1.wueValues[0]; pnt_configPage = (byte *)pnt_configPage + 1) Serial.println(*((byte *)pnt_configPage));
for (byte x = 10; x; x--)
{
Serial.print(configPage1.wueValues[10 - x]);
Serial.print(' ');
}
Serial.write((byte *)&response, sizeof(response));
Serial.println();
for (pnt_configPage = (byte *)&configPage1.wueValues[9] + 1; pnt_configPage < &configPage1.inj1Ang; pnt_configPage = (byte *)pnt_configPage + 1) {
Serial.println(*((byte *)pnt_configPage));
}
for (pnt_configPage = &configPage1.inj1Ang; pnt_configPage < (unsigned int *)&configPage1.inj4Ang + 1; pnt_configPage = (unsigned int *)pnt_configPage + 1) Serial.println(*((unsigned int *)pnt_configPage));
for (pnt_configPage = (unsigned int *)&configPage1.inj4Ang + 1; pnt_configPage < (byte *)&configPage1 + page_size; pnt_configPage = (byte *)pnt_configPage + 1) Serial.println(*((byte *)pnt_configPage));
return;
}
else pnt_configPage = &configPage1; //Create a pointer to Page 1 in memory
break;
}
case ignMapPage:
{
//Need to perform a translation of the values[MAP/TPS][RPM] into the MS expected format
byte response[map_page_size];
for(int x=0;x<256;x++) { response[x] = ignitionTable.values[15-x/16][x%16]; }
for(int x=256;x<272;x++) { response[x] = byte(ignitionTable.axisX[(x-256)] / 100); }
for(int y=272;y<288;y++) { response[y] = byte(ignitionTable.axisY[15-(y-272)]); }
Serial.write((byte *)&response, sizeof(response));
currentTitleIndex = 42;
currentTable = ignitionTable;
break;
}
case ignSetPage:
{
//All other bytes can simply be copied from the config table
byte response[page_size];
pnt_configPage = (byte *)&configPage2; //Create a pointer to Page 2 in memory
for(byte x=0; x<page_size; x++)
//currentTitleIndex = 56;
if (useChar)
{
response[x] = *(pnt_configPage + x); //Each byte is simply the location in memory of configPage2 + the offset + the variable number (x)
//To Display Values from Config Page 2
Serial.println((const __FlashStringHelper *)&pageTitles[56]);
Serial.println(configPage2.triggerAngle);
for (pnt_configPage = (int *)&configPage2 + 1; pnt_configPage < &configPage2.taeBins[0]; pnt_configPage = (byte *)pnt_configPage + 1) Serial.println(*((byte *)pnt_configPage));
for (byte y = 2; y; y--)
{
byte * currentVar;
if (y == 2) {
currentVar = configPage2.taeBins;
}
Serial.write((byte *)&response, sizeof(response));
else {
currentVar = configPage2.taeValues;
}
for (byte x = 4; x; x--)
{
Serial.print(currentVar[4 - x]);
Serial.print(' ');
}
Serial.println();
}
for (byte x = 10; x ; x--)
{
Serial.print(configPage2.wueBins[10 - x]);
Serial.print(' ');
}
Serial.println();
Serial.println(configPage2.dwellLimit);
for (byte x = 6; x; x--)
{
Serial.print(configPage2.dwellCorrectionValues[6 - x]);
Serial.print(' ');
}
Serial.println();
for (pnt_configPage = (byte *)&configPage2.dwellCorrectionValues[5] + 1; pnt_configPage < (byte *)&configPage2 + page_size; pnt_configPage = (byte *)pnt_configPage + 1)
{
Serial.println(*((byte *)pnt_configPage));
}
return;
}
else pnt_configPage = &configPage2; //Create a pointer to Page 2 in memory
break;
}
case afrMapPage:
{
//Need to perform a translation of the values[MAP/TPS][RPM] into the MS expected format
byte response[map_page_size];
for(int x=0;x<256;x++) { response[x] = afrTable.values[15-x/16][x%16]; }
for(int x=256;x<272;x++) { response[x] = byte(afrTable.axisX[(x-256)] / 100); }
for(int y=272;y<288;y++) { response[y] = byte(afrTable.axisY[15-(y-272)]); }
Serial.write((byte *)&response, sizeof(response));
currentTitleIndex = 71;
currentTable = afrTable;
break;
}
case afrSetPage:
{
//All other bytes can simply be copied from the config table
byte response[page_size];
pnt_configPage = (byte *)&configPage3; //Create a pointer to Page 2 in memory
for(byte x=0; x<page_size; x++)
//currentTitleIndex = 91;
if (useChar)
{
response[x] = *(pnt_configPage + x); //Each byte is simply the location in memory of configPage2 + the offset + the variable number (x)
//To Display Values from Config Page 3
Serial.println((const __FlashStringHelper *)&pageTitles[91]);
for (pnt_configPage = &configPage3; pnt_configPage < &configPage3.voltageCorrectionBins[0]; pnt_configPage = (byte *)pnt_configPage + 1)
{
Serial.println(*((byte *)pnt_configPage));
}
Serial.write((byte *)&response, sizeof(response));
for (byte y = 2; y; y--)
{
byte * currentVar;
if (y == 2) { currentVar = configPage3.voltageCorrectionBins; }
else { currentVar = configPage3.injVoltageCorrectionValues; }
for (byte x = 6; x; x--)
{
Serial.print(currentVar[6 - x]);
Serial.print(' ');
}
Serial.println();
}
for (byte y = 2; y; y--)
{
byte* currentVar;
if (y == 2) currentVar = configPage3.airDenBins;
else currentVar = configPage3.airDenRates;
for (byte x = 9; x; x--)
{
Serial.print(currentVar[9 - x]);
Serial.print(' ');
}
Serial.println();
}
for (pnt_configPage = (byte *)&configPage3.airDenRates[8] + 1; pnt_configPage < (byte *)&configPage3 + page_size; pnt_configPage = (byte *)pnt_configPage + 1)
{
Serial.println(*((byte *)pnt_configPage));
}
return;
}
else pnt_configPage = &configPage3; //Create a pointer to Page 3 in memory
break;
}
case iacPage:
{
byte response[page_size];
pnt_configPage = (byte *)&configPage4; //Create a pointer to Page 2 in memory
for(byte x=0; x<page_size; x++)
//currentTitleIndex = 106;
//To Display Values from Config Page 4
if (useChar)
{
response[x] = *(pnt_configPage + x); //Each byte is simply the location in memory of configPage2 + the offset + the variable number (x)
Serial.println((const __FlashStringHelper *)&pageTitles[106]);
for (byte y = 4; y; y--)
{
byte * currentVar;
switch (y)
{
case 1: currentVar = configPage4.iacBins; break;
case 2: currentVar = configPage4.iacOLPWMVal; break;
case 3: currentVar = configPage4.iacOLStepVal; break;
case 4: currentVar = configPage4.iacCLValues; break;
default: break;
}
Serial.write((byte *)&response, sizeof(response));
for (byte x = 10; x; x--)
{
Serial.print(currentVar[10 - x]);
Serial.print(' ');
}
Serial.println();
}
for (byte y = 3; y; y--)
{
byte * currentVar;
switch (y)
{
case 1: currentVar = configPage4.iacCrankBins; break;
case 2: currentVar = configPage4.iacCrankDuty; break;
case 3: currentVar = configPage4.iacCrankSteps; break;
default: break;
}
for (byte x = 4; x; x--)
{
Serial.print(currentVar[4 - x]);
Serial.print(' ');
}
Serial.println();
}
for (pnt_configPage = (byte *)&configPage4.iacCrankBins[3] + 1; pnt_configPage < (byte *)&configPage4 + page_size; pnt_configPage = (byte *)pnt_configPage + 1) Serial.println(*((byte *)pnt_configPage));
return;
}
else pnt_configPage = &configPage4; //Create a pointer to Page 4 in memory
break;
}
@ -452,25 +602,110 @@ void sendPage()
byte response[160]; //Bit hacky, but the size is: (8x8 + 8 + 8) + (8x8 + 8 + 8) = 160
//Boost table
for(int x=0;x<64;x++) { response[x] = boostTable.values[7-x/8][x%8]; }
for(int x=64;x<72;x++) { response[x] = byte(boostTable.axisX[(x-64)] / 100); }
for(int y=72;y<80;y++) { response[y] = byte(boostTable.axisY[7-(y-72)]); }
for (int x = 0; x < 64; x++) { response[x] = boostTable.values[7 - x / 8][x % 8]; }
for (int x = 64; x < 72; x++) { response[x] = byte(boostTable.axisX[(x - 64)] / 100); }
for (int y = 72; y < 80; y++) { response[y] = byte(boostTable.axisY[7 - (y - 72)]); }
//VVT table
for(int x=0;x<64;x++) { response[x+80] = vvtTable.values[7-x/8][x%8]; }
for(int x=64;x<72;x++) { response[x+80] = byte(vvtTable.axisX[(x-64)] / 100); }
for(int y=72;y<80;y++) { response[y+80] = byte(vvtTable.axisY[7-(y-72)]); }
for (int x = 0; x < 64; x++) { response[x + 80] = vvtTable.values[7 - x / 8][x % 8]; }
for (int x = 64; x < 72; x++) { response[x + 80] = byte(vvtTable.axisX[(x - 64)] / 100); }
for (int y = 72; y < 80; y++) { response[y + 80] = byte(vvtTable.axisY[7 - (y - 72)]); }
Serial.write((byte *)&response, sizeof(response));
return;
break;
}
default:
{
Serial.println(F("\nPage has not been implemented yet. Change to another page."));
return;
break;
}
}
if (isMap)
{
if (useChar)
{
const char spaceChar = ' ';
/*while(pageTitles[currentTitleIndex])
{
Serial.print(pageTitles[currentTitleIndex]);
currentTitleIndex++;
}*/
Serial.println((const __FlashStringHelper *)&pageTitles[currentTitleIndex]);
Serial.print(F("\n "));
for (int x = 0; x < currentTable.xSize; x++)
{
byte axisX = byte(currentTable.axisX[x] / 100);
if (axisX < 100)
{
Serial.write(spaceChar);
if (axisX < 10)
{
Serial.write(spaceChar);
}
}
Serial.print(axisX);
Serial.write(spaceChar);
}
Serial.println();
for (int y = 0; y < currentTable.ySize; y++)
{
Serial.print(byte(currentTable.axisY[y]));
Serial.write(spaceChar);
for (int x = 0; x < currentTable.xSize; x++)
{
byte value = currentTable.values[y][x];
if (value < 100)
{
Serial.write(spaceChar);
if (value < 10)
{
Serial.write(spaceChar);
}
}
Serial.print(value);
Serial.write(spaceChar);
}
Serial.println();
}
}
else
{
//Need to perform a translation of the values[yaxis][xaxis] into the MS expected format
//MS format has origin (0,0) in the bottom left corner, we use the top left for efficiency reasons
byte response[map_page_size];
for (int x = 0; x < 256; x++) { response[x] = currentTable.values[15 - x / 16][x % 16]; } //This is slightly non-intuitive, but essentially just flips the table vertically (IE top line becomes the bottom line etc). Columns are unchanged
for (int x = 256; x < 272; x++) { response[x] = byte(currentTable.axisX[(x - 256)] / 100); } //RPM Bins for VE table (Need to be dvidied by 100)
for (int y = 272; y < 288; y++) { response[y] = byte(currentTable.axisY[15 - (y - 272)]); } //MAP or TPS bins for VE table
Serial.write((byte *)&response, sizeof(response));
}
}
else
{
/*if(useChar)
{
while(pageTitles[currentTitleIndex])
{
Serial.print(pageTitles[currentTitleIndex]);
currentTitleIndex++;
}
Serial.println();
for(byte x=0;x<page_size;x++) Serial.println(*((byte *)pnt_configPage + x));
}
else
{*/
//All other bytes can simply be copied from the config table
byte response[page_size];
for (byte x = 0; x < page_size; x++)
{
response[x] = *((byte *)pnt_configPage + x); //Each byte is simply the location in memory of the configPage + the offset + the variable number (x)
}
Serial.write((byte *)&response, sizeof(response));
// }
}
return;
}
/*
This function is used to store calibration data sent by Tuner Studio.
*/
@ -522,7 +757,7 @@ void receiveCalibration(byte tableID)
for (x = 0; x < 1024; x++)
{
//UNlike what is listed in the protocol documentation, the O2 sensor values are sent as bytes rather than ints
if(BYTES_PER_VALUE == 1)
if (BYTES_PER_VALUE == 1)
{
while ( Serial.available() < 1 ) {}
tempValue = Serial.read();
@ -540,8 +775,12 @@ void receiveCalibration(byte tableID)
if (every2nd) //Only use every 2nd value
{
if (tempValue > 255) { tempValue = 255; } // Cap the maximum value to prevent overflow when converting to byte
if (tempValue < 0) { tempValue = 0; }
if (tempValue > 255) {
tempValue = 255; // Cap the maximum value to prevent overflow when converting to byte
}
if (tempValue < 0) {
tempValue = 0;
}
pnt_TargetTable[(x / 2)] = (byte)tempValue;
int y = EEPROM_CALIBRATION_O2 + counter;
@ -550,7 +789,9 @@ void receiveCalibration(byte tableID)
analogWrite(13, (counter % 50) );
counter++;
}
else { every2nd = true; }
else {
every2nd = true;
}
}
@ -565,7 +806,9 @@ void sendToothLog(bool useChar)
{
//We need 256 records to send to TunerStudio. If there aren't that many in the buffer (Buffer is 512 long) then we just return and wait for the next call
if (toothHistoryIndex < 256) { return; } //Don't believe this is the best way to go. Just display whatever is in the buffer
if (toothHistoryIndex < 256) {
return; //Don't believe this is the best way to go. Just display whatever is in the buffer
}
unsigned int tempToothHistory[512]; //Create a temporary array that will contain a copy of what is in the main toothHistory array
//Copy the working history into the temporary buffer array. This is done so that, if the history loops whilst the values are being sent over serial, it doesn't affect the values
@ -575,14 +818,14 @@ void sendToothLog(bool useChar)
//Loop only needs to go to 256 (Even though the buffer is 512 long) as we only ever send 256 entries at a time
if (useChar)
{
for(int x=0; x<256; x++)
for (int x = 0; x < 256; x++)
{
Serial.println(tempToothHistory[x]);
}
}
else
{
for(int x=0; x<256; x++)
for (int x = 0; x < 256; x++)
{
Serial.write(highByte(tempToothHistory[x]));
Serial.write(lowByte(tempToothHistory[x]));