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#include "qmk_parser.h"
qmk_parser::qmk_parser()
{
}
qmk_parser::~qmk_parser()
{
}
QString qmk_parser::parseFiles(QString mainLayout, QString revLayout, QString mainConfig, QString revConfig, QString keymapConfig, QString keymap, QString keycodes, bool ignoreUndefinedKeys)
{
m_isError = false;
QVector<QStringList> allMacroList;
QVector<QStringList> tempMacroList;
QStringList macroInFile;
int allMacroListSize;
macroInFile = findMacro(deleteCommentsAndStrings(mainLayout));
foreach (QString macro, macroInFile)
allMacroList.push_back(parseMacro(macro));
macroInFile = findMacro(deleteCommentsAndStrings(mainConfig));
foreach (QString macro, macroInFile)
tempMacroList.push_back(parseMacro(macro));
allMacroListSize = allMacroList.size();
for (int i = (allMacroListSize - 1); i >= 0; i--)
{
foreach (QStringList tempMacro, tempMacroList)
{
if (tempMacro[0] == allMacroList[i][0])
{
allMacroList.remove(i);
break;
}
}
}
allMacroList.append(tempMacroList);
tempMacroList.clear();
macroInFile = findMacro(deleteCommentsAndStrings(revLayout));
foreach (QString macro, macroInFile)
tempMacroList.push_back(parseMacro(macro));
allMacroListSize = allMacroList.size();
for (int i = (allMacroListSize - 1); i >= 0; i--)
{
foreach (QStringList tempMacro, tempMacroList)
{
if (tempMacro[0] == allMacroList[i][0])
{
allMacroList.remove(i);
break;
}
}
}
allMacroList.append(tempMacroList);
tempMacroList.clear();
macroInFile = findMacro(deleteCommentsAndStrings(revConfig));
foreach (QString macro, macroInFile)
tempMacroList.push_back(parseMacro(macro));
allMacroListSize = allMacroList.size();
for (int i = (allMacroListSize - 1); i >= 0; i--)
{
foreach (QStringList tempMacro, tempMacroList)
{
if (tempMacro[0] == allMacroList[i][0])
{
allMacroList.remove(i);
break;
}
}
}
allMacroList.append(tempMacroList);
tempMacroList.clear();
macroInFile = findMacro(deleteCommentsAndStrings(keymapConfig));
foreach (QString macro, macroInFile)
tempMacroList.push_back(parseMacro(macro));
allMacroListSize = allMacroList.size();
for (int i = (allMacroListSize - 1); i >= 0; i--)
{
foreach (QStringList tempMacro, tempMacroList)
{
if (tempMacro[0] == allMacroList[i][0])
{
allMacroList.remove(i);
break;
}
}
}
allMacroList.append(tempMacroList);
tempMacroList.clear();
keymap = deleteCommentsAndStrings(keymap);
macroInFile = findMacro(keymap);
foreach (QString macro, macroInFile)
tempMacroList.push_back(parseMacro(macro));
allMacroListSize = allMacroList.size();
for (int i = (allMacroListSize - 1); i >= 0; i--)
{
foreach (QStringList tempMacro, tempMacroList)
{
if (tempMacro[0] == allMacroList[i][0])
{
allMacroList.remove(i);
break;
}
}
}
allMacroList.append(tempMacroList);
tempMacroList.clear();
QString matrix = findExpression(keymap, "keymaps");
QString matrixWithMacro = setMacroToExpression(matrix, allMacroList);
QString clearedKeycodes = deleteCommentsAndStrings(keycodes);
QStringList macroInKeycodes = findMacro(clearedKeycodes);
QVector<QStringList> macroKeycodesList;
foreach (QString s, macroInKeycodes)
macroKeycodesList.push_back(parseMacro(s));
matrixWithMacro = setMacroToExpression(matrixWithMacro, macroKeycodesList);
int assignIndex = matrixWithMacro.indexOf("=");
QString matrixVal = matrixWithMacro.mid(assignIndex + 1, matrixWithMacro.size() - assignIndex - 1);
int leftBracketCnt = 0;
for (int i = 0; i < matrixVal.size(); i++)
{
if (matrixVal[i] == "{")
leftBracketCnt++;
else if (matrixVal[i] == "}")
break;
}
QVector<QVector<QVector<QString>>> matrix3;
QVector<QVector<QString>> matrix2;
QVector<QString> matrix1;
if (leftBracketCnt == 1)
matrix1 = parseOneDimArr(matrixVal);
else if (leftBracketCnt == 2)
matrix2 = parseTwoDimArr(matrixVal);
else if (leftBracketCnt == 3)
matrix3 = parseThreeDimArr(matrixVal);
else
return QString("Error - not correct dimensions in matrix data");
if (m_isError)
return QString("Parsing keyboard matrix error (ullegal matrix in keymap file)");
QStringList keycodeEnums = findEnums(clearedKeycodes);
QVector<QVector<QString>> enumValues;
QVector<QVector<QString>> tempEnumValues;
foreach (QString s, keycodeEnums) {
if (!(getEnumName(s).contains("mouse", Qt::CaseInsensitive)))
{
tempEnumValues = getEnumValues(s);
foreach (QVector<QString> enumValue, tempEnumValues)
{
if (!(enumValue[0].contains("mouse", Qt::CaseInsensitive)))
enumValues.push_back(enumValue);
}
}
}
QVector<QString> fnEnumVal(2);
fnEnumVal[0] = "MO(1)";
fnEnumVal[1] = "1";
enumValues.push_back(fnEnumVal);
m_Rows.clear();
m_Columns.clear();
m_diodeDirection = 0;
foreach (QStringList macro, allMacroList) {
if (macro[0] == "MATRIX_ROW_PINS")
m_Rows = parseOneDimArr(macro[1].right(macro[1].size() - macro[1].indexOf("{")));
else if (macro[0] == "MATRIX_COL_PINS")
m_Columns = parseOneDimArr(macro[1].right(macro[1].size() - macro[1].indexOf("{")));
else if (macro[0] == "DIODE_DIRECTION")
{
if (macro[1] == "COL2ROW")
m_diodeDirection = 1;
else
m_diodeDirection = 2;
}
}
if (!matrix3.isEmpty())
{
foreach (QVector<QVector<QString>> matrix2x, matrix3)
matrix2.append(matrix2x);
}
if (!matrix2.isEmpty())
{
foreach (QVector<QString> matrix1x, matrix2)
matrix1.append(matrix1x);
}
if ((matrix1.size() != (m_Columns.size() * m_Rows.size())) && (matrix1.size() != (2 * m_Columns.size() * m_Rows.size())))
return QString("Error - matrix has not correct count of elements (maybe there is too many dimensions)");
m_Matrix.resize(m_Rows.size());
for (int i = 0; i < m_Rows.size(); i++)
{
m_Matrix[i].resize(m_Columns.size());
for (int j = 0; j < m_Columns.size(); j++)
{
m_Matrix[i][j] = -1;
foreach (QVector<QString> value, enumValues)
{
if (matrix1[i * m_Columns.size() + j] == value[0])
{
m_Matrix[i][j] = value[1].toInt();
break;
}
}
if (m_Matrix[i][j] == -1)
m_Matrix[i][j] = strToNum(matrix1[i * m_Columns.size() + j]);
if (m_Matrix[i][j] == -1)
{
if (!ignoreUndefinedKeys)
return QString("Error - undefined elements in matrix (%1)!").arg(matrix1[i * m_Columns.size() + j]);
else
m_Matrix[i][j] = 0;
}
}
}
if (matrix1.size() == (m_Columns.size() * m_Rows.size()))
m_FnMatrix = m_Matrix;
else
{
m_FnMatrix.resize(m_Rows.size());
for (int i = 0; i < m_Rows.size(); i++)
{
m_FnMatrix[i].resize(m_Columns.size());
for (int j = 0; j < m_Columns.size(); j++)
{
m_FnMatrix[i][j] = -1;
foreach (QVector<QString> value, enumValues)
{
if (matrix1[m_Columns.size() * m_Rows.size() + i * m_Columns.size() + j] == value[0])
{
m_FnMatrix[i][j] = value[1].toInt();
break;
}
}
if (m_FnMatrix[i][j] == -1)
{
m_FnMatrix[i][j] = strToNum(matrix1[m_Columns.size() * m_Rows.size() + i * m_Columns.size() + j]);
if (m_FnMatrix[i][j] == 1) // QMK FEATURE: CODE 0x01 IS TRANSPARENT
m_FnMatrix[i][j] = 0;
}
if (m_FnMatrix[i][j] == -1)
{
if (!ignoreUndefinedKeys)
return QString("Error - undefined elements in matrix (%1)!").arg(matrix1[m_Columns.size() * m_Rows.size() + i * m_Columns.size() + j]);
else
m_FnMatrix[i][j] = 0;
}
if (m_FnMatrix[i][j] == 0)
m_FnMatrix[i][j] = m_Matrix[i][j];
}
}
}
return QString("");
}
QStringList qmk_parser::findMacro(QString src)
{
QStringList lines = src.split("\n");
QStringList macro;
QString macroStr;
bool macroFound = false;
foreach (QString str, lines) {
if (!macroFound)
{
if (str.contains("#define"))
{
macroFound = true;
str = str.right(str.length() - 7);
}
}
if (macroFound)
{
if (str.at(str.length() - 1) == "\\")
macroStr += str.left(str.length() - 1);
else
{
macroStr += str;
macro.push_back(macroStr);
macroFound = false;
macroStr.clear();
}
}
}
return macro;
}
QStringList qmk_parser::parseMacro(QString macro)
{
QString inputMacro;
QStringList parsedMacro;
inputMacro = macro.replace(QRegExp("^[ \t\v\r\n\f]+"), "");
inputMacro = inputMacro.replace(QRegExp("[ \t\v\r\n\f]+"), " ");
int firstSpace = inputMacro.indexOf(QRegExp("[ \t\v\r\n\f]+"));
QString macroName = inputMacro.left(firstSpace);
if (macroName.contains("("))
{
int leftBracketCnt = 0;
int rightBracketCnt = 0;
int argStart = inputMacro.indexOf("(");
int argEnd = 0;
for (int i = 0; i < inputMacro.size(); i++)
{
if (inputMacro[i] == "(")
leftBracketCnt++;
else if (inputMacro[i] == ")")
{
rightBracketCnt++;
if (rightBracketCnt == leftBracketCnt)
{
argEnd = i;
break;
}
}
}
if (argEnd <= argStart)
{
m_isError = true;
return parsedMacro;
}
QString args = inputMacro.mid(argStart + 1, argEnd - argStart - 1);
macroName = macroName.left(macroName.indexOf("("));
parsedMacro.append(macroName);
args += "\n";
args.replace(QRegExp("^[ \t\v\r\n\f]+"), "");
args.replace(QRegExp("[ \t\v\r\n\f]+$"), "");
QStringList argsList = args.split(QRegExp("[, \t\v\r\n\f]+"));
parsedMacro.append(argsList);
QString body = inputMacro.right(inputMacro.size() - argEnd - 1);
body += "\n";
body = body.replace(QRegExp("^[ \t\v\r\n\f]+"), "");
body = body.replace(QRegExp("[ \t\v\r\n\f]+$"), "");
parsedMacro.append(body);
}
else
{
parsedMacro.append(macroName);
if (!((firstSpace < 1) || ((inputMacro.size() - firstSpace) < 0)))
{
QString body = inputMacro.right(inputMacro.size() - firstSpace);
body += "\n";
body = body.replace(QRegExp("^[ \t\v\r\n\f]+"), "");
body = body.replace(QRegExp("[ \t\v\r\n\f]+$"), "");
parsedMacro.append(body);
}
}
return parsedMacro;
}
QString qmk_parser::deleteCommentsAndStrings(QString src, bool deleteStrings)
{
QString srcNoComments(src);
int i = 0;
bool isOneLineComment = false;
bool isMultiLineComment = false;
bool isString = false;
QVector<QVector<int>> deleteAreas;
QVector<int> tempArea(2, 0);
while (i < srcNoComments.size()) {
if (isOneLineComment)
{
if ((srcNoComments[i-1] != "\\") && (srcNoComments[i] == "\n"))
{
tempArea[1] = i;
deleteAreas.push_back(tempArea);
isOneLineComment = false;
}
}
else if (isMultiLineComment)
{
if ((srcNoComments[i-1] == "*") && (srcNoComments[i] == "/"))
{
tempArea[1] = i + 1;
deleteAreas.push_back(tempArea);
isMultiLineComment = false;
}
}
else if (isString)
{
if ((srcNoComments[i-1] != "\\") && (srcNoComments[i] == "\""))
{
tempArea[1] = i + 1;
if (deleteStrings)
deleteAreas.push_back(tempArea);
isString = false;
}
}
else
{
if (srcNoComments[i] == "\"")
{
tempArea[0] = i;
isString = true;
}
else if (i < (srcNoComments.size() - 1))
{
if ((srcNoComments[i] == "/") && (srcNoComments[i+1] == "/"))
{
tempArea[0] = i;
isOneLineComment = true;
}
else if ((srcNoComments[i] == "/") && (srcNoComments[i+1] == "*"))
{
tempArea[0] = i;
isMultiLineComment = true;
}
}
}
i++;
}
if (isOneLineComment)
{
tempArea[1] = srcNoComments.size();
deleteAreas.push_back(tempArea);
}
if (isMultiLineComment)
m_isError = true;
if (isString)
m_isError = true;
for (int i = (deleteAreas.size() - 1); i >= 0; i--)
srcNoComments.replace(deleteAreas[i][0], deleteAreas[i][1] - deleteAreas[i][0], "");
// THIS PART IS SIMPLE #IF 0 DELETER. #IF 0 IS IN KEYCODE.H. WORKS UNCORRECT IN OTHER SITUATIONS!!!
bool isIfZero = false;
QStringList srcLines = srcNoComments.split("\n");
QString srcOut;
for (int i = 0; i < srcLines.size(); i++)
{
if (srcLines[i].contains(QRegExp("^[\\s]*#if[\\s]*0")))
isIfZero = true;
if ((!isIfZero) && (!srcLines[i].contains("#endif")) && (!srcLines[i].contains("#else")) && (!srcLines[i].contains("#if")))
srcOut += (srcLines[i] + "\n");
if (isIfZero)
{
if ((srcLines[i].contains("#endif")) || (srcLines[i].contains("#else")))
isIfZero = false;
}
}
return srcOut;
}
QString qmk_parser::findExpression(QString src, QString expression)
{
QStringList srcList = src.split("\n");
QString fullExpression;
foreach (QString str, srcList)
{
if (fullExpression.size() == 0)
{
if (str.contains(expression))
{
fullExpression = fullExpression + str + "\n";
if (str.contains(";"))
break;
}
}
else
{
fullExpression = fullExpression + str + "\n";
if (str.contains(";"))
break;
}
}
fullExpression.replace(QRegExp("[ \t\v\r\n\f]+"), " ");
fullExpression.replace(QRegExp("^[ \t\v\r\n\f]+"), "");
fullExpression.replace(QRegExp("[ \t\v\r\n\f]+$"), "");
return fullExpression;
}
QString qmk_parser::setMacroToExpression(QString expression, QVector<QStringList> macroList)
{
expression.replace("\\", "");
bool expressionHasMacro = true;
while (expressionHasMacro)
{
expressionHasMacro = false;
foreach (QStringList macro, macroList)
{
int macroIndex = expression.indexOf(macro[0]);
if (macroIndex >= 0)
{
if (macroIndex > 0)
{
if (QString(expression[macroIndex-1]).contains(QRegExp("[A-Za-z0-9_]")))
macroIndex = -1;
}
if ((macroIndex + macro[0].size()) < expression.size())
{
if (QString(expression[macroIndex + macro[0].size()]).contains(QRegExp("[A-Za-z0-9_]")))
macroIndex = -1;
}
}
if (macroIndex >= 0)
{
if (macro.size() > 2) // MACRO WITH ARGUMENTS
{
int leftBracketCnt = 0;
int rightBracketCnt = 0;
int argStart = expression.indexOf("(", macroIndex);
int argEnd = 0;
for (int i = macroIndex; i < expression.size(); i++)
{
if (expression[i] == "(")
leftBracketCnt++;
else if (expression[i] == ")")
{
rightBracketCnt++;
if (rightBracketCnt == leftBracketCnt)
{
argEnd = i;
break;
}
}
}
if (argEnd <= argStart)
{
m_isError = true;
return QString("");
}
QString args = expression.mid(argStart + 1, argEnd - argStart - 1);
args += "\n";
args.replace(QRegExp("^[ \t\v\r\n\f]+"), "");
args.replace(QRegExp("[ \t\v\r\n\f]+$"), "");
QStringList argsList = args.split(QRegExp("[, \t\v\r\n\f]+"));
if (argsList.size() != (macro.size() - 2))
{
m_isError = true;
return QString("");
}
QString replacedText = macro[macro.size() - 1];
for (int i = 0; i < argsList.size(); i++)
replacedText.replace (macro[i + 1], argsList[i]);
expression.replace(macroIndex, argEnd - macroIndex + 1, replacedText);
}
else if (macro.size() == 2) // MACRO WITHOUT ARGUMENTS
expression.replace(macro[0], macro[1]);
if (macro.size() >= 2)
expressionHasMacro = true;
}
}
}
return expression;
}
QStringList qmk_parser::findEnums(QString src)
{
QStringList output;
QStringList srcRows = src.split("\n");
QString currentEnum;
foreach (QString s, srcRows)
{
if (currentEnum.isEmpty())
{
if (s.contains("enum"))
{
currentEnum = s + "\n";
if (s.contains(";"))
{
output.push_back(currentEnum);
currentEnum.clear();
}
}
}
else
{
currentEnum = currentEnum + s + "\n";
if (s.contains(";"))
{
output.push_back(currentEnum);
currentEnum.clear();
}
}
}
return output;
}
QString qmk_parser::getEnumName(QString enumSrc)
{
if (!enumSrc.contains("{"))
return QString("");
enumSrc = enumSrc.left(enumSrc.indexOf("{"));
enumSrc = enumSrc.simplified();
QStringList enumNameList = enumSrc.split(QRegExp("\\s"));
if (enumNameList.size() != 2)
return QString("");
if (enumNameList[0] != "enum")
return QString("");
return enumNameList[1];
}
QVector<QVector<QString>> qmk_parser::getEnumValues(QString src)
{
QVector<QVector<QString>> output;
QVector<QString> value(2);
QVector<int> leftBrackets;
QVector<int> rightBrackets;
for (int i = 0; i < src.size(); i++)
{
if (src[i] == "{")
leftBrackets.push_back(i);
if (src[i] == "}")
rightBrackets.push_back(i);
}
if ((leftBrackets.size() != 1) || (rightBrackets.size() != 1))
{
m_isError = true;
return output;
}
QString enumContent = src.mid(leftBrackets[0] + 1, rightBrackets[0] - leftBrackets[0] - 1);
QStringList enumValues = enumContent.split(QRegExp("[\\s]*,[\\s]*"));
int currentIndex = 0;
foreach (QString s, enumValues)
{
if (s.contains("="))
{
QStringList enumValueBody = s.split(QRegExp("[\\s]*=[\\s]*"));
currentIndex = strToNum(enumValueBody[1].simplified());
if (currentIndex == -1)
{
m_isError = true;
return output;
}
value[0] = enumValueBody[0].simplified();
value[1] = QString::number(currentIndex);
currentIndex++;
}
else
{
value[0] = s.simplified();
value[1] = QString::number(currentIndex);
currentIndex++;
}
output.push_back(value);
}
return output;
}
QVector<QString> qmk_parser::parseOneDimArr(QString arr)
{
arr.replace("{", "");
arr.replace("}", "");
arr.replace("\\", "");
QVector<QString> output;
QStringList arrElements = arr.split(QRegExp("[\\s]*,[\\s]*"));
foreach (QString str, arrElements)
output.push_back(str.simplified());
return output;
}
QVector<QVector<QString>> qmk_parser::parseTwoDimArr(QString arr)
{
QVector<QVector<QString>> output;
QVector<int> leftBracketIndexes;
QVector<int> rightBracketIndexes;
for (int i = 0; i < arr.size(); i++)
{
if (arr[i] == "{")
leftBracketIndexes.push_back(i);
else if (arr[i] == "}")
rightBracketIndexes.push_back(i);
}
if (leftBracketIndexes.size() != rightBracketIndexes.size())
{
m_isError = true;
return output;
}
if ((leftBracketIndexes[1] < rightBracketIndexes[0]) && (leftBracketIndexes[leftBracketIndexes.size() - 1] < rightBracketIndexes[rightBracketIndexes.size() - 2]))
{
leftBracketIndexes.remove(0);
rightBracketIndexes.remove(rightBracketIndexes.size() - 1);
}
for (int i = 0; i < (leftBracketIndexes.size() - 1); i++)
{
if (!((leftBracketIndexes[i] < rightBracketIndexes[i]) && (leftBracketIndexes[i + 1] > rightBracketIndexes[i])))
{
m_isError = true;
return output;
}
}
output.resize(leftBracketIndexes.size());
QVector<int> arrIndexes;
for (int i = 0; i < leftBracketIndexes.size(); i++)
{
int startIndex = 0;
if (i > 0)
startIndex = rightBracketIndexes[i - 1] + 1;
QString indexStr = arr.mid(startIndex, leftBracketIndexes[i] - startIndex);
int index = 0;
if ((indexStr.contains("[")) && (indexStr.contains("]")))
{
indexStr = indexStr.mid(indexStr.indexOf("[") + 1, indexStr.indexOf("]") - indexStr.indexOf("[") - 1);
indexStr = indexStr.simplified();
index = strToNum(indexStr);
if (index < 0)
{
m_isError = true;
return output;
}
arrIndexes.push_back(index);
}
QString oneDimentionStr = arr.mid(leftBracketIndexes[i], rightBracketIndexes[i] - leftBracketIndexes[i] + 1);
if (!arrIndexes.isEmpty())
output[index] = parseOneDimArr(oneDimentionStr);
else
output[i] = parseOneDimArr(oneDimentionStr);
}
if ((arrIndexes.size() != 0) && (arrIndexes.size() != output.size()))
{
output.clear();
m_isError = true;
return output;
}
return output;
}
QVector<QVector<QVector<QString>>> qmk_parser::parseThreeDimArr(QString arr)
{
QVector<QVector<QVector<QString>>> output;
QVector<int> leftBracketIndexes;
QVector<int> rightBracketIndexes;
for (int i = 0; i < arr.size(); i++)
{
if (arr[i] == "{")
leftBracketIndexes.push_back(i);
else if (arr[i] == "}")
rightBracketIndexes.push_back(i);
}
if (leftBracketIndexes.size() != rightBracketIndexes.size())
{
m_isError = true;
return output;
}
if ((leftBracketIndexes[2] < rightBracketIndexes[0]) && (leftBracketIndexes[leftBracketIndexes.size() - 1] < rightBracketIndexes[rightBracketIndexes.size() - 3]))
{
arr = arr.mid(leftBracketIndexes[0] + 1, rightBracketIndexes[rightBracketIndexes.size() - 1] - leftBracketIndexes[0] - 1);
// leftBracketIndexes.remove(0);
// rightBracketIndexes.remove(rightBracketIndexes.size() - 1);
}
// QVector<int> leftBracket2dimIndexes;
// QVector<int> rightBracket2dimIndexes;
leftBracketIndexes.clear();
rightBracketIndexes.clear();
int leftBracketCounter = 0;
int rightBracketCounter = 0;
for (int i = 0; i < arr.size(); i++)
{
if (arr[i] == "{")
{
if (leftBracketCounter == rightBracketCounter)
leftBracketIndexes.push_back(i);
leftBracketCounter++;
}
else if (arr[i] == "}")
{
rightBracketCounter++;
if (leftBracketCounter == rightBracketCounter)
rightBracketIndexes.push_back(i);
}
}
if (leftBracketIndexes.size() != rightBracketIndexes.size())
{
m_isError = true;
return output;
}
output.resize(leftBracketIndexes.size());
QVector<int> arrIndexes;
for (int i = 0; i < leftBracketIndexes.size(); i++)
{
int startIndex = 0;
if (i > 0)
startIndex = rightBracketIndexes[i - 1] + 1;
QString indexStr = arr.mid(startIndex, leftBracketIndexes[i] - startIndex);
int index = 0;
if ((indexStr.contains("[")) && (indexStr.contains("]")))
{
indexStr = indexStr.mid(indexStr.indexOf("[") + 1, indexStr.indexOf("]") - indexStr.indexOf("[") - 1);
indexStr = indexStr.simplified();
index = strToNum(indexStr);
if (index < 0)
{
m_isError = true;
return output;
}
arrIndexes.push_back(index);
}
QString oneDimentionStr = arr.mid(leftBracketIndexes[i], rightBracketIndexes[i] - leftBracketIndexes[i] + 1);
if (!arrIndexes.isEmpty())
output[index] = parseTwoDimArr(oneDimentionStr);
else
output[i] = parseTwoDimArr(oneDimentionStr);
}
if ((arrIndexes.size() != 0) && (arrIndexes.size() != output.size()))
{
output.clear();
m_isError = true;
return output;
}
return output;
}
int qmk_parser::strToNum(QString s)
{
bool success = false;
int number;
if ((s[0] != "0") || (s.size() == 1))
number = s.toInt(&success, 10);
else
{
if ((s[1] == "x") || (s[1] == "X"))
number = s.right(s.size() - 2).toInt(&success, 16);
else if ((s[1] == "b") || (s[1] == "B"))
number = s.right(s.size() - 2).toInt(&success, 2);
else
number = s.right(s.size() - 1).toInt(&success, 8);
}
if (!success)
number = -1; // ERROR SIGN
return number;
}
QVector<QString> qmk_parser::getColumns()
{
return m_Columns;
}
QVector<QString> qmk_parser::getRows()
{
return m_Rows;
}
QVector<QVector<int>> qmk_parser::getMatrix()
{
return m_Matrix;
}
QVector<QVector<int>> qmk_parser::getFnMatrix()
{
return m_FnMatrix;
}
int qmk_parser::getDiodeDirection()
{
return m_diodeDirection;
}