Fix FTBFS due to broken and redundant functions

git-svn-id: svn://anonsvn.kde.org/home/kde/branches/trinity/kdewebdev@1075934 283d02a7-25f6-0310-bc7c-ecb5cbfe19da
v3.5.13-sru
tpearson 15 years ago
parent 28e8409ec5
commit d3b4e48f30

@ -80,18 +80,6 @@ static ParseNode f_stringFindRev(Parser*, const ParameterList& params)
params.count() == 3 ? params[2].toInt() : params[0].toString().length());
}
static ParseNode f_stringCount(Parser*, const ParameterList& params)
{
int c = 0;
int s = 0;
while (params[0].toString().find(params[1].toString(), s) > -1)
{
s = params[0].toString().find(params[1].toString(), s) + 1;
c++;
}
return c;
}
static ParseNode f_stringLeft(Parser*, const ParameterList& params)
{
return params[0].toString().left(params[1].toInt());
@ -132,44 +120,6 @@ static ParseNode f_stringIsEmpty(Parser*, const ParameterList& params)
return params[0].toString().isEmpty();
}
static ParseNode f_stringSort(Parser*, const ParameterList& params)
{
if (params.count() == 2 )
{
QStringList tmplst = QStringList::split(params[1].toString(), params[0].toString());
tmplst.sort();
return tmplst.join(params[1].toString());
}
else
{
QStringList tmplst = QStringList::split("\n", params[0].toString());
tmplst.sort();
return tmplst.join("\n");
}
}
static ParseNode f_stringTrim(Parser*, const ParameterList& params)
{
return params[0].toString().stripWhiteSpace();
}
static ParseNode f_stringPadLeft(Parser*, const ParameterList& params)
{
if (params.count() == 2 )
return params[0].toString().rightJustify(params[1].toInt(), ' ', false);
QString s = params[2].toString();
QChar ch = s.at(0);
return params[0].toString().rightJustify(params[1].toInt(), ch, false);
}
static ParseNode f_stringPadRight(Parser*, const ParameterList& params)
{
if (params.count() == 2 )
return params[0].toString().leftJustify(params[1].toInt(), ' ', false);
QString s = params[2].toString();
QChar ch = s.at(0);
return params[0].toString().leftJustify(params[1].toInt(), ch, false);
}
static ParseNode f_stringSection(Parser*, const ParameterList& params)
{
return params[0].toString().section(params[1].toString(), params[2].toInt(),
@ -603,7 +553,7 @@ static ParseNode f_arrayValues(Parser* P, const ParameterList& params)
static ParseNode f_arrayRemove(Parser* P, const ParameterList& params)
{
if (P->isArray(params[0].toString()))
if (!P->isArray(params[0].toString()))
P->unsetArray(params[0].toString(), params[1].toString());
return ParseNode();
}
@ -747,427 +697,6 @@ static ParseNode f_arrayIndexedInsertElements(Parser* P, const ParameterList& pa
return ParseNode();
}
static ParseNode f_arrayFlipCopy(Parser* P, const ParameterList& params)
{
QString name = params[0].toString();
if (!P->isArray(name))
return ParseNode();
QString arr = params[1].toString();
const QMap<QString, ParseNode> A = P->array(name);
for (QMapConstIterator<QString, ParseNode> It = A.begin(); It != A.end(); ++It )
{
P->setArray(arr, (*It).toString(), It.key() );
}
return ParseNode();
}
/*********** matrix (2D array) functions ********/
static ParseNode f_matrixClear(Parser* P, const ParameterList& params)
{
P->unsetMatrix(params[0].toString());
return ParseNode();
}
static ParseNode f_matrixToString(Parser* P, const ParameterList& params)
{
QString name = params[0].toString();
if (!P->isMatrix(name))
return ParseNode();
QString matrix;
QString colhead;
const QMap<QString, QMap<QString, ParseNode> > A = P->matrix(name);
int r = 0;
int c = 0;
int frow = 0;
int fcol = 0;
if (params.count() >= 1)
frow = params[1].toInt(); //row headings
if (params.count() >= 2)
fcol = params[2].toInt(); //col headings
QString tmp;
typedef QMap<int, QString> col_map;
col_map col_head;
for (QMapConstIterator<QString, QMap<QString, ParseNode> > It1 = A.begin(); It1 != A.end(); ++It1 )
{
const QMap<QString, ParseNode> B = It1.data();
for (QMapConstIterator<QString, ParseNode> It2 = B.begin(); It2 != B.end(); ++It2 )
{
bool colfound = false;
for (QMapConstIterator<int, QString> It3 = col_head.begin(); It3 != col_head.end(); ++It3 )
{
if (It2.key() == (*It3))
{
colfound = true;
break;
}
}
if (!colfound)
{
col_head[c] = It2.key();
if (c > 0)
colhead.append("\t");
colhead.append(It2.key());
c++;
}
}
}
if (fcol && frow)
colhead.prepend("\t");
for (QMapConstIterator<QString, QMap<QString, ParseNode> > It1 = A.begin(); It1 != A.end(); ++It1)
{
if (r > 0 )
matrix.append("\n");
if (frow) //add row keys
{
tmp = It1.key();
matrix.append(tmp+"\t");
}
c = 0;
const QMap<int, QString> B = col_head;
for (QMapConstIterator<int, QString> It2 = B.begin(); It2 != B.end(); ++It2 )
{
if (c > 0)
matrix.append("\t");
matrix.append(P->matrixValue(name, It1.key(), (*It2) ).toString());
c++;
}
r++;
}
if (fcol)
matrix.prepend(colhead+"\n");
return matrix;
}
static ParseNode f_matrixFromString(Parser* P, const ParameterList& params)
{
QString name = params[0].toString();
QStringList rows = QStringList::split("\n", params[1].toString());
int r = 0;
int frow = 0;
int fcol = 0;
QString rkey;
QMap<int, QString> colhead;
if (params.count() > 1)
frow = params[2].toInt(); //row headings
if (params.count() > 2)
fcol = params[3].toInt(); //col headings
for (QStringList::Iterator itr = rows.begin(); itr != rows.end(); ++itr )
{
int c = 0;
QString ckey;
QStringList cols = QStringList::split("\t", (*itr), true);
for (QStringList::Iterator itc = cols.begin(); itc != cols.end(); ++itc )
{
QString val = (*itc).stripWhiteSpace();
if (frow)
{
if (c == 0 && !val.isEmpty())
{
rkey = val;
}
}
else
rkey = QString::number(r);
if (fcol && r == 0 && c >= 0)
{
if (!val.isEmpty())
colhead[c] = val;
else
colhead[c] = QString::number(c);
}
if (!val.isEmpty() && !(c == 0 && frow) && !(r == 0 && fcol))
{
if (fcol)
ckey = colhead[c];
else
ckey = QString::number(c);
P->setMatrix(name, rkey, ckey, val);
}
c++;
}
r++;
}
return ParseNode();
}
static ParseNode f_matrixRows(Parser* P, const ParameterList& params)
{
if (P->isMatrix(params[0].toString()))
return (uint)(P->matrix(params[0].toString()).count());
else
return (uint)0;
}
static ParseNode f_matrixRowKeys(Parser* P, const ParameterList& params)
{
QString name = params[0].toString();
if (!P->isMatrix(name))
return ParseNode();
QString matrix;
QString tmp;
QString separator = "\t";
if (params.count() == 2)
separator = params[1].toString();
const QMap<QString, QMap<QString, ParseNode> > A = P->matrix(name);
int r = 0;
for (QMapConstIterator<QString, QMap<QString, ParseNode> > It1 = A.begin(); It1 != A.end(); ++It1)
{
if (r > 0 )
matrix.append(separator);
tmp = It1.key();
matrix.append(tmp);
r++;
}
return matrix;
}
static ParseNode f_matrixFindRow(Parser* P, const ParameterList& params)
{
QString name = params[0].toString();
if (!P->isMatrix(name))
return ParseNode();
QString col = params[1].toString();
QString val = params[2].toString();
QString tmp;
int i = 0;
int find;
if (params.count() == 4)
find = params[3].toInt();
else
find = 0;
const QMap<QString, QMap<QString, ParseNode> > A = P->matrix(name);
for (QMapConstIterator<QString, QMap<QString, ParseNode> > It = A.begin(); It != A.end(); ++It)
{
if (val == P->matrixValue(name, It.key(), col).toString())
{
if (find == i)
return It.key();
i++;
}
}
return ParseNode();
}
static ParseNode f_matrixCols(Parser* P, const ParameterList& params)
{
QString name = params[0].toString();
if (P->isMatrix(name))
{
typedef QMap<int, QString> col_map;
col_map col_head;
uint cols = 0;
const QMap<QString, QMap<QString, ParseNode> > A = P->matrix(name);
for (QMapConstIterator<QString, QMap<QString, ParseNode> > It = A.begin(); It != A.end(); ++It)
{
const QMap<QString, ParseNode> B = It.data();
for (QMapConstIterator<QString, ParseNode> It2 = B.begin(); It2 != B.end(); ++It2 )
{
bool colfound = false;
for (QMapConstIterator<int, QString> It3 = col_head.begin(); It3 != col_head.end(); ++It3 )
{
if (It2.key() == (*It3))
{
colfound = true;
break;
}
}
if (!colfound)
{
col_head[cols] = It2.key();
cols++;
}
}
}
return (uint)cols;
}
else
return (uint)0;
}
static ParseNode f_matrixColumnKeys(Parser* P, const ParameterList& params)
{
QString name = params[0].toString();
if (!P->isMatrix(name))
return ParseNode();
QString matrix;
QString tmp;
QString separator = "\t";
if (params.count() == 2)
separator = params[1].toString();
const QMap<QString, QMap<QString, ParseNode> > A = P->matrix(name);
QStringList colnames;
int c =0;
typedef QMap<int, QString> col_map;
col_map col_head;
for (QMapConstIterator<QString, QMap<QString, ParseNode> > It1 = A.begin(); It1 != A.end(); ++It1 )
{
const QMap<QString, ParseNode> B = It1.data();
for (QMapConstIterator<QString, ParseNode> It2 = B.begin(); It2 != B.end(); ++It2 )
{
bool colfound = false;
for (QMapConstIterator<int, QString> It3 = col_head.begin(); It3 != col_head.end(); ++It3 )
{
if (It2.key() == (*It3))
{
colfound = true;
break;
}
}
if (!colfound)
{
col_head[c] = It2.key();
if (c > 0)
matrix.append(separator);
matrix.append(It2.key());
c++;
}
}
}
return matrix;
}
static ParseNode f_matrixRowToArray(Parser* P, const ParameterList& params)
{
QString mtr = params[0].toString();
if (P->isMatrix(mtr))
{
const QMap<QString, QMap<QString, ParseNode> > A = P->matrix(mtr);
int i = 0;
int rclear = 1;
int ridx = 1;
if (params.count() > 2)
rclear = params[3].toInt();
if (params.count() > 3)
ridx = params[4].toInt();
QString arr = params[2].toString();
if (rclear)
P->unsetArray(arr);
for (QMapConstIterator<QString, QMap<QString, ParseNode> > It1 = A.begin(); It1 != A.end(); ++It1)
{
if (It1.key() == params[1].toString() )
{
const QMap<QString, ParseNode> B = It1.data();
for (QMapConstIterator<QString, ParseNode> It2 = B.begin(); It2 != B.end(); ++It2 )
{
if (ridx)
P->setArray(arr, QString::number(i), (*It2));
else
P->setArray(arr, It2.key(), (*It2));
i++;
}
}
}
}
return ParseNode();
}
static ParseNode f_matrixColumnToArray(Parser* P, const ParameterList& params)
{
QString name = params[0].toString();
if (P->isMatrix(name))
{
const QMap<QString, QMap<QString, ParseNode> > A = P->matrix(name);
for (QMapConstIterator<QString, QMap<QString, ParseNode> > It1 = A.begin(); It1 != A.end(); ++It1)
{
const QMap<QString, ParseNode> B = It1.data();
for (QMapConstIterator<QString, ParseNode> It2 = B.begin(); It2 != B.end(); ++It2 )
{
if (It2.key() == params[1].toString() )
{
P->setArray(params[2].toString(), It1.key(), (*It2));
}
}
}
}
return ParseNode();
}
static ParseNode f_matrixColumnToIndexedArray(Parser* P, const ParameterList& params)
{
QString name = params[0].toString();
if (P->isMatrix(name))
{
const QMap<QString, QMap<QString, ParseNode> > A = P->matrix(name);
int i = 0;
for (QMapConstIterator<QString, QMap<QString, ParseNode> > It1 = A.begin(); It1 != A.end(); ++It1)
{
const QMap<QString, ParseNode> B = It1.data();
for (QMapConstIterator<QString, ParseNode> It2 = B.begin(); It2 != B.end(); ++It2 )
{
if (It2.key() == params[1].toString() )
{
P->setArray(params[2].toString(), QString::number(i), (*It2));
i++;
}
}
}
}
return ParseNode();
}
static ParseNode f_matrixAddRow(Parser* P, const ParameterList& params)
{
QString name = params[0].toString();
QString rowkey = params[1].toString();
QStringList rows = QStringList::split("\n", params[2].toString());
for (QStringList::Iterator itr = rows.begin(); itr != rows.end(); ++itr )
{
QStringList cols = QStringList::split("\t", (*itr));
if (cols.count() != 2 )
continue;
QStringList::Iterator itc = cols.begin();
QString rkey = (*itc).stripWhiteSpace();
++itc;
QString rval = (*itc).stripWhiteSpace();
if (!rkey.isEmpty() && !rval.isEmpty())
P->setMatrix(name, rowkey, rkey, rval);
}
return ParseNode();
}
static ParseNode f_matrixRemoveRow(Parser* P, const ParameterList& params)
{
QString name = params[0].toString();
if (!P->isMatrix(name))
return ParseNode();
QString rowkey = params[1].toString();
int found = 0;
const QMap<QString, QMap<QString, ParseNode> > A = P->matrix(name);
if (A.contains(rowkey))
{
P->unsetMatrix(name, rowkey);
found = 1;
}
return QString::number(found);
}
/*
static ParseNode f_matrixAddColumn(Parser* P, const ParameterList& params)
{
}
*/
static ParseNode f_matrixRemoveColumn(Parser* P, const ParameterList& params)
{
QString name = params[0].toString();
QString colkey = params[1].toString();
if (!P->isMatrix(name))
return ParseNode();
int found = 0;
const QMap<QString, QMap<QString, ParseNode> > A = P->matrix(name);
for (QMapConstIterator<QString, QMap<QString, ParseNode> > It = A.begin(); It != A.end(); ++It)
{
if (A[It.key()].contains(colkey))
found = 1;
P->unsetMatrix(name, It.key(), colkey);
}
return QString::number(found);
}
/*
static ParseNode f_matrixIndexedCopy(Parser* P, const ParameterList& params)
{
}
*/
/********** input functions *********************/
static ParseNode f_inputColor(Parser*, const ParameterList& params)
{
@ -1264,7 +793,7 @@ static ParseNode f_message_info(Parser*, const ParameterList& params)
if (params.count() > 1)
caption = params[1].toString();
KMessageBox::information(0, text, caption);
return 1;
return ParseNode();
}
static ParseNode f_message_error(Parser*, const ParameterList& params)
@ -1275,7 +804,7 @@ static ParseNode f_message_error(Parser*, const ParameterList& params)
if (params.count() > 1)
caption = params[1].toString();
KMessageBox::error(0, text, caption);
return 1;
return ParseNode();
}
static ParseNode f_message_warning(Parser*, const ParameterList& params)
@ -1386,7 +915,6 @@ void ParserData::registerStandardFunctions()
registerFunction("str_find", Function(&f_stringFind, ValueInt, ValueString, ValueString, ValueInt, 2));
registerFunction("str_findrev", Function(&f_stringFindRev, ValueInt, ValueString, ValueString, ValueInt, 2));
registerFunction("str_left", Function(&f_stringLeft, ValueString, ValueString, ValueInt));
registerFunction("str_count", Function(&f_stringCount, ValueInt, ValueString, ValueString));
registerFunction("str_right", Function(&f_stringRight, ValueString, ValueString, ValueInt));
registerFunction("str_mid", Function(&f_stringMid, ValueString, ValueString, ValueInt, ValueInt, 2));
registerFunction("str_remove", Function(&f_stringRemove, ValueString, ValueString, ValueString));
@ -1400,10 +928,6 @@ void ParserData::registerStandardFunctions()
registerFunction("str_toint", Function(&f_stringToInt, ValueString, ValueInt, 1));
registerFunction("str_todouble", Function(&f_stringToDouble, ValueString, ValueDouble, 1));
registerFunction("str_round", Function(&f_stringRound, ValueInt, ValueDouble, ValueInt, 2));
registerFunction("str_sort", Function(&f_stringSort, ValueString, ValueString, ValueString, 1, 2));
registerFunction("str_trim", Function(&f_stringTrim, ValueString, ValueString, 1));
registerFunction("str_padLeft", Function(&f_stringPadLeft, ValueString, ValueInt, ValueString, ValueString, 1, 2));
registerFunction("str_padRight", Function(&f_stringPadRight, ValueString, ValueInt, ValueString, ValueString, 1, 2));
registerFunction("return", Function(&f_return, ValueNone, ValueString, 1, 1));
registerFunction("debug", Function(&f_debug, ValueNone, ValueString, 1, 100));
registerFunction("echo", Function(&f_echo, ValueNone, ValueString, 1, 100));
@ -1439,35 +963,19 @@ void ParserData::registerStandardFunctions()
registerFunction("array_indexedRemoveElements", Function(&f_arrayIndexedRemoveElements, ValueNone, ValueString, ValueInt, ValueInt, 2 , 3));
registerFunction("array_indexedInsertElements", Function(&f_arrayIndexedInsertElements, ValueNone, ValueString, ValueInt, ValueString, ValueString, 3, 4));
registerFunction("array_remove", Function(&f_arrayRemove, ValueNone, ValueString, ValueString));
registerFunction("matrix_fromString", Function(&f_matrixFromString, ValueNone, ValueString, ValueString, ValueInt, ValueInt, 2, 4));
registerFunction("matrix_toString", Function(&f_matrixToString, ValueNone, ValueString, ValueInt, ValueInt, 1, 3));
registerFunction("matrix_clear", Function(&f_matrixClear, ValueNone, ValueString));
registerFunction("matrix_rows", Function(&f_matrixRows, ValueInt, ValueString));
registerFunction("matrix_columns", Function(&f_matrixCols, ValueInt, ValueString));
registerFunction("matrix_rowToArray", Function(&f_matrixRowToArray, ValueNone, ValueString, ValueInt, ValueString, ValueInt, ValueInt, 3, 5));
registerFunction("matrix_columnToArray", Function(&f_matrixColumnToArray, ValueNone, ValueString, ValueString, ValueString, 3, 3));
registerFunction("matrix_columnToIndexedArray", Function(&f_matrixColumnToIndexedArray, ValueNone, ValueString, ValueString, ValueString, 3, 3));
registerFunction("array_flipCopy", Function(&f_arrayFlipCopy, ValueNone, ValueString, ValueString, 2, 2));
registerFunction("matrix_rowKeys", Function(&f_matrixRowKeys, ValueString, ValueString, ValueString, 1, 2));
registerFunction("matrix_columnKeys", Function(&f_matrixColumnKeys, ValueString, ValueString, ValueString, 1, 2));
registerFunction("matrix_addRow", Function(&f_matrixAddRow, ValueNone, ValueString, ValueString, ValueString, 3, 3));
registerFunction("matrix_removeRow", Function(&f_matrixRemoveRow, ValueInt, ValueString, ValueString, 2, 2));
registerFunction("matrix_removeColumn", Function(&f_matrixRemoveColumn, ValueInt, ValueString, ValueString, 2, 2));
registerFunction("matrix_findRow", Function(&f_matrixFindRow, ValueString, ValueString, ValueString, ValueString, 3, 4));
registerFunction("input_color", Function(&f_inputColor, ValueString, ValueString, 0));
registerFunction("input_text", Function(&f_inputText, ValueString, ValueString, ValueString, ValueString, 2));
registerFunction("input_password", Function(&f_inputPassword, ValueString, ValueString, ValueString, 1));
registerFunction("input_value", Function(&f_inputValue, ValueInt, ValueString, ValueString, ValueInt, ValueInt,
ValueInt, ValueInt, 6));
ValueInt, ValueInt, 5));
registerFunction("input_double", Function(&f_inputValueDouble, ValueDouble, ValueString, ValueString, ValueDouble, ValueDouble,
ValueDouble, ValueDouble, 6));
ValueDouble, ValueDouble, 5));
registerFunction("input_openfile", Function(&f_inputOpenFile, ValueString, ValueString, ValueString, ValueString, 0));
registerFunction("input_openfiles", Function(&f_inputOpenFiles, ValueString, ValueString, ValueString, ValueString, 0));
registerFunction("input_savefile", Function(&f_inputSaveFile, ValueString, ValueString, ValueString, ValueString, 0));
registerFunction("input_directory", Function(&f_inputDirectory, ValueString, ValueString, ValueString, 0));
registerFunction("message_info", Function(&f_message_info, ValueInt, ValueString, ValueString, 1));
registerFunction("message_error", Function(&f_message_error, ValueInt, ValueString, ValueString, 1));
registerFunction("message_info", Function(&f_message_info, ValueNone, ValueString, ValueString, 1));
registerFunction("message_error", Function(&f_message_error, ValueNone, ValueString, ValueString, 1));
registerFunction("message_warning", Function(&f_message_warning, ValueInt, ValueString, ValueString,
ValueString, ValueString, ValueString, 1));
registerFunction("message_question", Function(&f_message_question, ValueInt, ValueString, ValueString,

@ -120,21 +120,11 @@ bool ParseNode::isVariable() const
return type() == ValueKeyword && keyword() == Variable;
}
bool ParseNode::isArray() const
{
return type() == ValueKeyword && keyword() == Array;
}
QString ParseNode::variableName() const
{
return isVariable() ? m_string : QString();
}
QString ParseNode::arrayName() const
{
return isArray() ? m_string : QString();
}
QString ParseNode::errorMessage() const
{
return isValid() ? QString() : m_string;
@ -238,13 +228,6 @@ void ParseNode::setVariable(const QString& name)
m_string = name;
}
void ParseNode::setArray(const QString& name)
{
m_type = ValueKeyword;
m_keyword = Array;
m_string = name;
}
bool ParseNode::isValue() const
{
return m_type <= ValueValue;

@ -23,8 +23,8 @@ namespace Parse
{
enum Keyword {For, To, Step, End, While, Do, Foreach, In, If, Then, Else, Elseif, Endif, Switch, Case,
Break, Continue, Exit, Dot, Semicolon, Comma, Assign, Less, LessEqual, Greater, GreaterEqual, Equal, NotEqual,
Not, And, Or, False, True, LeftParenthesis, RightParenthesis, LeftBracket, DoubleBracket, RightBracket, LeftCurlyBrace, RightCurlyBrace, PlusEqual, MinusEqual, Increment, Decrement,
Plus, Minus, Multiply, Divide, Mod, LastRealKeyword = Mod, Variable, Invalid, Array, Matrix, ArrKeyVal};
Not, And, Or, False, True, LeftParenthesis, RightParenthesis, LeftBracket, RightBracket,
Plus, Minus, Multiply, Divide, Mod, LastRealKeyword = Mod, Variable, Invalid};
enum KeywordGroup {GroupComparison, GroupAdd, GroupMultiply, GroupMisc};
enum ValueType {ValueString, ValueInt, ValueDouble, ValueValue = ValueDouble, ValueKeyword,
@ -74,12 +74,8 @@ public:
bool isKeyword(Parse::Keyword k) const;
/* Check if current value is a variable */
bool isVariable() const;
/* Check if current value is an Array */
bool isArray() const;
/* Return the name of variable */
QString variableName() const;
/* Return the name of array */
QString arrayName() const;
/* Return error message if applicable */
QString errorMessage() const;
/* Calculate common type for two nodes */
@ -104,8 +100,6 @@ public:
void setValue(const QString& s);
/* set value as variable */
void setVariable(const QString& name);
/* set value as array */
void setArray(const QString& name);
/* check if it is correct value */
bool isValue() const;
/* for setting some context information, f. e. for bug reporting */

@ -99,15 +99,6 @@ bool Parser::setString(const QString& s)
{
while (start < s.length() && s[start] != '\n')
start++;
} // enable /* */ block comments
else if (s[start] == '/' && start < s.length() +1 && s[start+1] == '*')
{
start += 2;
while (start < s.length() +1 && !(s[start] == '*' && s[start+1] == '/'))
{
start++;
}
start += 2;
} // special keyword: <>
else if (m_data->stringToKeyword(s.mid(start, 2)) <= LastRealKeyword)
{
@ -203,12 +194,10 @@ ParseNode Parser::parseConstant(Parse::Mode)
}
return p;
}
//attempting to allow assign or copy of array, so far with no joy
ParseNode Parser::parseValue(Mode mode)
{
ParseNode p = next();
//QString p2 = QString(p.toString());
//qDebug("parseValue p2 = "+p2);
if (isFunction())
return parseFunction(mode);
else if (isWidget())
@ -218,13 +207,6 @@ ParseNode Parser::parseValue(Mode mode)
if (tryKeyword(LeftBracket, CheckOnly))
{
QString index = parseValue(mode).toString();
if (tryKeyword(DoubleBracket, CheckOnly))
{//2D array "matrix"
QString index2 = parseValue(mode).toString();
tryKeyword(RightBracket);
QString arr = p.variableName();
return matrixValue(arr, index, index2);
}
tryKeyword(RightBracket);
QString arr = p.variableName();
return arrayValue(arr, index);
@ -260,11 +242,6 @@ ParseNode Parser::parseValue(Mode mode)
return ParseNode(0);
else if (tryKeyword(True, CheckOnly))
return ParseNode(1);
/* else if (isArray(p2))
{
qDebug("returning array fpr p2");
return p2;
}*/
else if (p.isKeyword())
setError(i18n("Expected value"));
else // single value
@ -434,7 +411,6 @@ ParseNode Parser::parseFunction(Mode mode)
{
int pos = m_start;
QString name = next().variableName();
//qDebug("Parsing function: "+name);
Function f = m_data->function(name);
m_start++;
ParameterList params;
@ -508,188 +484,20 @@ ParseNode Parser::parseWidget(Mode mode, const QString &widgetName)
ParseNode Parser::parseAssignment(Mode mode)
{
QString var = nextVariable();
//qDebug("var = "+var+" Pos:"+QString::number(m_start));
if (tryKeyword(LeftBracket, CheckOnly))
{
QString index = parseValue(mode).toString();
if (tryKeyword(DoubleBracket, CheckOnly))
{//2D array "matrix"
ParseNode p1 = next(); //move along...
QString index2 = parseValue(mode).toString();
tryKeyword(RightBracket);
p1 = next();
ParseNode p2 = matrixValue(var, index, index2);
if (p1.isKeyword(PlusEqual))
{
tryKeyword(PlusEqual);
ParseNode p = parseExpression(mode);
if (mode == Execute)
{
if (p2.type() == ValueString)
p = QString(p2.toString() + p.toString());
else if (p2.type() == ValueDouble)
p = p2.toDouble() + p.toDouble();
else
p = p2.toInt() + p.toInt();
setMatrix(var, index, index2, p);
}
}
else if (p1.isKeyword(MinusEqual))
{
tryKeyword(MinusEqual);
ParseNode p = parseExpression(mode);
if (mode == Execute)
{
if (p2.type() == ValueDouble)
p = p2.toDouble() - p.toDouble();
else
p = p2.toInt() - p.toInt();
setMatrix(var, index, index2, p);
}
}
else if (p1.isKeyword(Increment))
{
tryKeyword(Increment);
if (mode == Execute)
{
p2 = p2.toInt() + 1;
setMatrix(var, index, index2, p2);
}
}
else if (p1.isKeyword(Decrement))
{
tryKeyword(Decrement);
if (mode == Execute)
{
p2 = p2.toInt() - 1;
setMatrix(var, index, index2, p2);
}
}
else
{
tryKeyword(Assign);
ParseNode p = parseExpression(mode);
if (mode == Execute)
setMatrix(var, index, index2, p);
}
}
else
{
tryKeyword(RightBracket);
ParseNode p1 = next();
// seems awkward and pedantic but array values are now handled like variables
// for special assign with oparator
ParseNode p2 = arrayValue(var, index);
if (p1.isKeyword(PlusEqual))
{
tryKeyword(PlusEqual);
ParseNode p = parseExpression(mode);
if (mode == Execute)
{
if (p2.type() == ValueString)
p = QString(p2.toString() + p.toString());
else if (p2.type() == ValueDouble)
p = p2.toDouble() + p.toDouble();
else
p = p2.toInt() + p.toInt();
setArray(var, index, p);
}
}
else if (p1.isKeyword(MinusEqual))
{
tryKeyword(MinusEqual);
ParseNode p = parseExpression(mode);
if (mode == Execute)
{
if (p2.type() == ValueDouble)
p = p2.toDouble() - p.toDouble();
else
p = p2.toInt() - p.toInt();
setArray(var, index, p);
}
}
else if (p1.isKeyword(Increment))
{
tryKeyword(Increment);
if (mode == Execute)
{
p2 = p2.toInt() + 1;
setArray(var, index, p2);
}
}
else if (p1.isKeyword(Decrement))
{
tryKeyword(Decrement);
if (mode == Execute)
{
p2 = p2.toInt() - 1;
setArray(var, index, p2);
}
}
else
{
tryKeyword(Assign);
ParseNode p = parseExpression(mode);
if (mode == Execute)
setArray(var, index, p);
}
}
}
else if (tryKeyword(Assign, CheckOnly))
{
tryKeyword(RightBracket);
tryKeyword(Assign);
ParseNode p = parseExpression(mode);
if (mode == Execute)
{
setVariable(var, p);
}
setArray(var, index, p);
}
else if (tryKeyword(PlusEqual, CheckOnly))
else if (tryKeyword(Assign, CheckOnly))
{
ParseNode p = parseExpression(mode);
if (mode == Execute)
{
ParseNode p2 = variable(var);
if (p2.type() == ValueString)
p = QString(p2.toString() + p.toString());
else if (p2.type() == ValueDouble)
p = p2.toDouble() + p.toDouble();
else
p = p2.toInt() + p.toInt();
setVariable(var, p);
}
}
else if (tryKeyword(MinusEqual, CheckOnly))
{
ParseNode p = parseExpression(mode);
if (mode == Execute)
{
ParseNode p2 = variable(var);
if (p2.type() == ValueDouble)
p = p2.toDouble() - p.toDouble();
else
p = p2.toInt() - p.toInt();
setVariable(var, p);
}
}
else if (tryKeyword(Increment, CheckOnly))
{
//ParseNode p = parseExpression(mode);
if (mode == Execute)
{
ParseNode p = variable(var);
p = p.toInt() + 1;
setVariable(var, p);
}
}
else if (tryKeyword(Decrement, CheckOnly))
{
//ParseNode p = parseExpression(mode);
if (mode == Execute)
{
ParseNode p = variable(var);
p = p.toInt() - 1;
setVariable(var, p);
}
}
else if (tryKeyword(Dot, CheckOnly))
{
@ -721,14 +529,11 @@ Flow Parser::parseIf(Mode mode)
ParseNode p = next();
Flow flow = FlowStandard;
bool matched = false;
bool thenFound = false;
do {
m_start++;
Mode m = matched ? CheckOnly : mode;
p = parseCondition(m);
thenFound = tryKeyword(Then, CheckOnly);
if (!thenFound)
tryKeyword(LeftCurlyBrace);
tryKeyword(Then);
bool condition = !matched && p.toBool();
if (condition)
{
@ -739,52 +544,29 @@ Flow Parser::parseIf(Mode mode)
else
parseBlock(CheckOnly);
matched = matched || p.toBool();
if (!thenFound)
tryKeyword(RightCurlyBrace);
} while (nextElseIf() == true);
bool braceFound = false;
} while (next().isKeyword(Elseif));
if (tryKeyword(Else, CheckOnly))
{
braceFound = tryKeyword(LeftCurlyBrace, CheckOnly);
if (!matched)
flow = parseBlock(mode);
else
parseBlock(CheckOnly);
}
if (braceFound)
tryKeyword(RightCurlyBrace);
if (thenFound)
tryKeyword(Endif);
return flow;
}
bool Parser::nextElseIf()
{
ParseNode p1 = next();
if (p1.isKeyword(Elseif))
return true;
else
{
ParseNode p2 = next();
if (p1.isKeyword(Else) && p2.isKeyword(If) )
return true;
}
return false;
}
Parse::Flow Parser::parseWhile(Mode mode)
{
m_start++;
int start = m_start;
bool running = true;
Parse::Flow flow = FlowStandard;
bool doFound = false;
while (running)
{
m_start = start;
ParseNode p = parseCondition(mode);
doFound = tryKeyword(Do, CheckOnly);
if (!doFound && !tryKeyword(LeftCurlyBrace))
if (!tryKeyword(Do))
break;
running = p.toBool();
flow = parseBlock(running ? mode : CheckOnly);
@ -793,10 +575,7 @@ Parse::Flow Parser::parseWhile(Mode mode)
}
if (flow != FlowExit)
{
if (doFound)
tryKeyword(End);
else
tryKeyword(RightCurlyBrace);
tryKeyword(End);
return FlowStandard;
}
else
@ -814,13 +593,10 @@ Parse::Flow Parser::parseFor(Mode mode)
int step = 1;
if (tryKeyword(Step, CheckOnly))
step = parseExpression(mode).toInt();
bool doFound = tryKeyword(Do, CheckOnly);
if (!doFound)
tryKeyword(LeftCurlyBrace);
tryKeyword(Do);
int block = m_start;
Parse::Flow flow = FlowStandard;
if (end >= start && step > 0)
if (end >= start)
{
for (int i = start; i <= end; i+=step)
{
@ -830,24 +606,11 @@ Parse::Flow Parser::parseFor(Mode mode)
if (flow == FlowBreak || flow == FlowExit)
break;
}
} else if (end <= start && step < 0)
{
for (int i = start; i >= end; i+=step)
{
m_start = block;
setVariable(var, ParseNode(i));
flow = parseBlock(mode);
if (flow == FlowBreak || flow == FlowExit)
break;
}
} else
parseBlock(Parse::CheckOnly);
if (flow != FlowExit)
{
if (doFound)
tryKeyword(End);
else
tryKeyword(RightCurlyBrace);
tryKeyword(End);
return FlowStandard;
}
else
@ -858,22 +621,12 @@ Parse::Flow Parser::parseForeach(Mode mode)
{
m_start++;
QString var = nextVariable();
QString var2 = "";
bool matrixfound = tryKeyword(ArrKeyVal, CheckOnly);
if (matrixfound == true)
{
m_start--;
tryKeyword(ArrKeyVal);
var2 = nextVariable();
}
tryKeyword(In);
QString arr = nextVariable();
bool doFound = tryKeyword(Do, CheckOnly);
if (!doFound)
tryKeyword(LeftCurlyBrace);
tryKeyword(Do);
int start = m_start;
Parse::Flow flow = FlowStandard;
if (isArray(arr) && array(arr).count() && !matrixfound)
if (isArray(arr) && array(arr).count())
{
const QMap<QString, ParseNode> A = array(arr);
for (QMapConstIterator<QString, ParseNode> It = A.begin(); It != A.end(); ++It)
@ -885,41 +638,11 @@ Parse::Flow Parser::parseForeach(Mode mode)
break;
}
}
else if (isMatrix(arr) && matrix(arr).count() )
{
const QMap<QString, QMap<QString, ParseNode> > A = matrix(arr);
for (QMapConstIterator<QString, QMap<QString, ParseNode> > It = A.begin(); It != A.end(); ++It)
{
m_start = start;
setVariable(var, It.key());
if (matrixfound == true)
{
const QMap<QString, ParseNode> B = It.data();
for (QMapConstIterator<QString, ParseNode> It2 = B.begin(); It2 != B.end(); ++It2 )
{
m_start = start;
setVariable(var2, It2.key());
flow = parseBlock(mode);
if (flow == FlowBreak || flow == FlowExit)
break;
}
}
else
{
flow = parseBlock(mode);
if (flow == FlowBreak || flow == FlowExit)
break;
}
}
}
else
parseBlock(CheckOnly);
if (flow != FlowExit)
{
if (doFound)
tryKeyword(End);
else
tryKeyword(RightCurlyBrace);
tryKeyword(End);
return FlowStandard;
}
else
@ -932,8 +655,6 @@ void Parser::parseSwitch(Mode mode)
QString var = nextVariable();
ParseNode caseValue = variable(var);
bool executed = false;
bool braceFound = false;
braceFound = tryKeyword(LeftCurlyBrace, CheckOnly);
tryKeyword(Semicolon, CheckOnly);
while (tryKeyword(Case, CheckOnly))
{
@ -945,17 +666,12 @@ void Parser::parseSwitch(Mode mode)
}
if (tryKeyword(Else, CheckOnly))
parseBlock(executed ? CheckOnly : mode);
if (!braceFound)
tryKeyword(End);
else
tryKeyword(RightCurlyBrace);
tryKeyword(End);
}
Flow Parser::parseCommand(Mode mode)
{
ParseNode p = next();
QString p2 = p.toString();
//qDebug("Parsing command: "+p2);
if (next().isKeyword(If))
return parseIf(mode);
else if (next().isKeyword(While))
@ -1024,7 +740,7 @@ bool Parser::tryKeyword(Keyword k, Mode mode)
if (k == Dot)
setError(i18n("Expected '%1'<br><br>Possible cause of the error is having a variable with the same name as a widget").arg(m_data->keywordToString(k)));
else
setError(i18n("Expected '%1' got '%2'.").arg(m_data->keywordToString(k)).arg(next().toString()));
setError(i18n("Expected '%1'").arg(m_data->keywordToString(k)));
}
return false;
}
@ -1170,66 +886,6 @@ ParseNode Parser::arrayValue(const QString& name, const QString& key) const
return m_arrays[name].contains(key) ? m_arrays[name][key] : ParseNode();
}
// 2D arrays "Matrix"
const QMap<QString, QMap<QString, ParseNode> >& Parser::matrix(const QString& name) const
{
if (isGlobal(name))
return m_globalMatrices[name];
else
return m_matrices[name];
}
bool Parser::isMatrix(const QString& name) const
{
return m_matrices.contains(name) || m_globalMatrices.contains(name);
}
void Parser::setMatrix(const QString& name, const QString& keyr, const QString& keyc, ParseNode value)
{
if (isGlobal(name))
m_globalMatrices[name][keyr][keyc] = value;
else
m_matrices[name][keyr][keyc] = value;
}
void Parser::unsetMatrix(const QString& name, const QString& keyr, const QString& keyc)
{
if (isGlobal(name))
{
if (keyr.isNull())
m_globalMatrices.remove(name);
else if (isMatrix(name))
{
if (keyc.isNull())
m_globalMatrices[name].remove(keyr);
else
m_globalMatrices[name][keyr].remove(keyc);
}
}
else
{
if (keyr.isNull())
m_matrices.remove(name);
else if (isMatrix(name))
{
if (keyc.isNull())
m_matrices[name].remove(keyr);
else
m_matrices[name][keyr].remove(keyc);
}
}
}
ParseNode Parser::matrixValue(const QString& name, const QString& keyr, const QString& keyc) const
{
if (!isMatrix(name))
return ParseNode();
if (isGlobal(name))
return m_globalMatrices[name].contains(keyr) && m_globalMatrices[name][keyr].contains(keyc) ? m_globalMatrices[name][keyr][keyc] : ParseNode();
else
return m_matrices[name].contains(keyr) && m_matrices[name][keyr].contains(keyc) ? m_matrices[name][keyr][keyc] : ParseNode();
}
KommanderWidget* Parser::currentWidget() const
@ -1239,5 +895,5 @@ KommanderWidget* Parser::currentWidget() const
QMap<QString, ParseNode> Parser::m_globalVariables;
QMap<QString, QMap<QString, ParseNode> > Parser::m_globalArrays;
QMap<QString, QMap<QString, QMap<QString, ParseNode> > > Parser::m_globalMatrices;

@ -68,16 +68,6 @@ public:
void unsetArray(const QString& name, const QString& key = QString::null);
// array value
ParseNode arrayValue(const QString& name, const QString& key) const;
// access 2D array
const QMap<QString, QMap<QString, ParseNode> >& matrix(const QString& name) const;
// check if this is name of a 2D array
bool isMatrix(const QString& name) const;
// set array key
void setMatrix(const QString& name, const QString& keyr, const QString& keyc, ParseNode value);
// unset array key or whole array
void unsetMatrix(const QString& name, const QString& keyr = QString::null, const QString& keyc = QString::null);
// array value
ParseNode matrixValue(const QString& name, const QString& keyr, const QString& keyc) const;
// get associated widget
KommanderWidget* currentWidget() const;
@ -143,8 +133,6 @@ private:
void insertNode(ParseNode p, int line);
// next item to be parsed
ParseNode next() const;
// next is Else or Else && If?
bool nextElseIf();
// check if next item is keyword k, if so - go further, if no, set error
bool tryKeyword(Parse::Keyword k, Parse::Mode mode = Parse::Execute);
// check if next item is a variable, if so, return its name
@ -181,16 +169,12 @@ private:
QMap<QString, ParseNode> m_variables;
// arrays
QMap<QString, QMap<QString, ParseNode> > m_arrays;
// 2D arrays
QMap<QString, QMap<QString, QMap<QString, ParseNode> > > m_matrices;
// Kommander
KommanderWidget* m_widget;
// global variables
static QMap<QString, ParseNode> m_globalVariables;
// global arrays
static QMap<QString, QMap<QString, ParseNode> > m_globalArrays;
// global 2D arrays
static QMap<QString, QMap<QString, QMap<QString, ParseNode> > > m_globalMatrices;
};
#endif

@ -59,8 +59,6 @@ ParserData::ParserData()
m_keywords["else"] = Else;
m_keywords["elseif"] = Elseif;
m_keywords["endif"] = Endif;
m_keywords["{"] = LeftCurlyBrace;
m_keywords["}"] = RightCurlyBrace;
m_keywords["switch"] = Switch;
m_keywords["case"] = Case;
m_keywords["while"] = While;
@ -92,19 +90,13 @@ ParserData::ParserData()
m_keywords["("] = LeftParenthesis;
m_keywords[")"] = RightParenthesis;
m_keywords["["] = LeftBracket;
m_keywords["]["] = DoubleBracket;
m_keywords["]"] = RightBracket;
m_keywords["+"] = Plus;
m_keywords["-"] = Minus;
m_keywords["*"] = Multiply;
m_keywords["/"] = Divide;
m_keywords["%"] = Mod;
m_keywords["+="] = PlusEqual;
m_keywords["-="] = MinusEqual;
m_keywords["++"] = Increment;
m_keywords["--"] = Decrement;
m_keywords["mod"] = Mod;
m_keywords["with"] = ArrKeyVal;
m_groups[Less] = GroupComparison;
m_groups[LessEqual] = GroupComparison;

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