public void GroupingInstanceEnd(Grouping g) // called at start for each grouping instance
{
}
public void GroupingEnd(Grouping g) // called at end of grouping
{
}
private void PrepRecursiveGroup(Report rpt, TableWorkClass wc)
{
// Prepare for processing recursive group
Grouping g = wc.RecursiveGroup;
IExpr parentExpr = g.ParentGroup;
GroupExpression gexpr = g.GroupExpressions.Items[0] as GroupExpression;
IExpr groupExpr = gexpr.Expression;
TypeCode tc = groupExpr.GetTypeCode();
List <Row> odata = new List <Row>(wc.Data.Data); // this is the old data that we'll recreate using the recursive hierarchy
List <Row> newrows = new List <Row>(odata.Count);
// For now we assume on a single top of tree (and it must sort first as null)
// spec is incomplete: should have ability to specify starting value of tree
// TODO: pull all of the rows that start with null
newrows.Add(odata[0]); // add the starting row
odata.RemoveAt(0); // remove olddata
// we need to build the group entry stack
// Build the initial one
wc.Groups = new List <GroupEntry>();
GroupEntry ge = new GroupEntry(null, null, 0);
ge.EndRow = odata.Count - 1;
wc.Groups.Add(ge); // top group
List <GroupEntry> ges = new List <GroupEntry>();
ges.Add(ge);
// loop thru the rows and find their children
// we place the children right after the parent
// this reorders the rows in the form of the hierarchy
Row r;
RecursiveCompare rc = new RecursiveCompare(rpt, parentExpr, tc, groupExpr);
for (int iRow = 0; iRow < newrows.Count; iRow++) // go thru the temp rows
{
r = newrows[iRow];
r.GroupEntry = ge = new GroupEntry(g, null, iRow); // TODO: sort for this group??
r.GroupEntry.EndRow = iRow;
// pull out all the rows that match this value
int iMainRow = odata.BinarySearch(r, rc);
if (iMainRow < 0)
{
for (int i = 0; i <= r.Level + 1 && i < ges.Count; i++)
{
ge = ges[i] as GroupEntry;
Row rr = newrows[ge.StartRow]; // start row has the base level of group
if (rr.Level < r.Level)
{
ge.EndRow = iRow;
}
}
continue;
}
// look backward for starting row;
// in case of duplicates, BinarySearch can land on any of the rows
object cmpvalue = groupExpr.Evaluate(rpt, r);
int sRow = iMainRow - 1;
while (sRow >= 0)
{
object v = parentExpr.Evaluate(rpt, odata[sRow]);
if (Filter.ApplyCompare(tc, cmpvalue, v) != 0)
{
break;
}
sRow--;
}
sRow++; // adjust; since we went just prior it
// look forward for ending row
int eRow = iMainRow + 1;
while (eRow < odata.Count)
{
object v = parentExpr.Evaluate(rpt, odata[eRow]);
if (Filter.ApplyCompare(tc, cmpvalue, v) != 0)
{
break;
}
eRow++;
}
// Build a group entry for this
GroupEntry ge2 = ges[r.Level] as GroupEntry;
ge2.NestedGroup.Add(ge);
if (r.Level + 1 >= ges.Count) // ensure we have room in the array (based on level)
{
ges.Add(ge); // add to the array
}
else
{
ges[r.Level + 1] = ge; // put this in the array
}
// add all of them in; want the same order for these rows.
int offset = 1;
for (int tRow = sRow; tRow < eRow; tRow++)
{
Row tr = odata[tRow];
tr.Level = r.Level + 1;
newrows.Insert(iRow + offset, tr);
offset++;
}
// remove from old data
odata.RemoveRange(sRow, eRow - sRow);
}
// update the groupentries for the very last row
int lastrow = newrows.Count - 1;
r = newrows[lastrow];
for (int i = 0; i < r.Level + 1 && i < ges.Count; i++)
{
ge = ges[i] as GroupEntry;
ge.EndRow = lastrow;
}
wc.Data.Data = newrows; // we've completely replaced the rows
return;
}
public void GroupingStart(Grouping g) // called at start of grouping
{
}
public void GroupingEnd(Grouping g)
{
}
private void PrepGroups(Report rpt, TableWorkClass wc)
{
wc.RecursiveGroup = null;
if (_TableGroups == null)
{ // no tablegroups; check to ensure details is grouped
if (_Details == null || _Details.Grouping == null)
{
return; // no groups to prepare
}
}
int i = 0;
// 1) Build array of all GroupExpression objects
List <GroupExpression> gea = new List <GroupExpression>();
// count the number of groups
int countG = 0;
if (_TableGroups != null)
{
countG = _TableGroups.Items.Count;
}
Grouping dg = null;
Sorting ds = null;
if (_Details != null && _Details.Grouping != null)
{
dg = _Details.Grouping;
ds = _Details.Sorting;
countG++;
}
GroupEntry[] currentGroups = new GroupEntry[countG++];
if (_TableGroups != null)
{ // add in the groups for the tablegroup
foreach (TableGroup tg in _TableGroups.Items)
{
if (tg.Grouping.ParentGroup != null)
{
wc.RecursiveGroup = tg.Grouping;
}
tg.Grouping.SetIndex(rpt, i); // set the index of this group (so we can find the GroupEntry)
currentGroups[i++] = new GroupEntry(tg.Grouping, tg.Sorting, 0);
foreach (GroupExpression ge in tg.Grouping.GroupExpressions.Items)
{
gea.Add(ge);
}
}
}
if (dg != null)
{ // add in the groups for the details grouping
if (dg.ParentGroup != null)
{
wc.RecursiveGroup = dg;
}
dg.SetIndex(rpt, i); // set the index of this group (so we can find the GroupEntry)
currentGroups[i++] = new GroupEntry(dg, ds, 0);
foreach (GroupExpression ge in dg.GroupExpressions.Items)
{
gea.Add(ge);
}
}
if (wc.RecursiveGroup != null)
{
if (gea.Count != 1) // Limitiation of implementation
{
throw new Exception("Error: Recursive groups must be the only group definition.");
}
PrepRecursiveGroup(rpt, wc); // only one group and it's recursive: optimization
return;
}
// Save the typecodes, and grouping by groupexpression; for later use
TypeCode[] tcs = new TypeCode[gea.Count];
Grouping[] grp = new Grouping[gea.Count];
i = 0;
foreach (GroupExpression ge in gea)
{
grp[i] = (Grouping)(ge.Parent.Parent); // remember the group
tcs[i++] = ge.Expression.GetTypeCode(); // remember type of expression
}
// 2) Loop thru the data, then loop thru the GroupExpression list
wc.Groups = new List <GroupEntry>();
object[] savValues = null;
object[] grpValues = null;
int rowCurrent = 0;
foreach (Row row in wc.Data.Data)
{
// Get the values for all the group expressions
if (grpValues == null)
{
grpValues = new object[gea.Count];
}
i = 0;
foreach (GroupExpression ge in gea)
{
if (((Grouping)(ge.Parent.Parent)).ParentGroup == null)
{
grpValues[i++] = ge.Expression.Evaluate(rpt, row);
}
else
{
grpValues[i++] = null; // Want all the parentGroup to evaluate equal
}
}
// For first row we just primed the pump; action starts on next row
if (rowCurrent == 0) // always start new group on first row
{
rowCurrent++;
savValues = grpValues;
grpValues = null;
continue;
}
// compare the values; if change then we have a group break
for (i = 0; i < savValues.Length; i++)
{
if (Filter.ApplyCompare(tcs[i], savValues[i], grpValues[i]) != 0)
{
// start a new group; and force a break on every subgroup
GroupEntry saveGe = null;
for (int j = grp[i].GetIndex(rpt); j < currentGroups.Length; j++)
{
currentGroups[j].EndRow = rowCurrent - 1;
if (j == 0)
{
wc.Groups.Add(currentGroups[j]); // top group
}
else if (saveGe == null)
{
currentGroups[j - 1].NestedGroup.Add(currentGroups[j]);
}
else
{
saveGe.NestedGroup.Add(currentGroups[j]);
}
saveGe = currentGroups[j]; // retain this GroupEntry
currentGroups[j] = new GroupEntry(currentGroups[j].Group, currentGroups[j].Sort, rowCurrent);
}
savValues = grpValues;
grpValues = null;
break; // break out of the value comparison loop
}
}
rowCurrent++;
}
// End of all rows force break on end of rows
for (i = 0; i < currentGroups.Length; i++)
{
currentGroups[i].EndRow = rowCurrent - 1;
if (i == 0)
{
wc.Groups.Add(currentGroups[i]); // top group
}
else
{
currentGroups[i - 1].NestedGroup.Add(currentGroups[i]);
}
}
return;
}
public void GroupingInstanceEnd(Grouping g)
{
}
public void GroupingInstanceStart(Grouping g)
{
}
public void GroupingStart(Grouping g)
{
}
// return an IEnumerable that represents the scope of the data
protected RowEnumerable GetDataScope(Report rpt, Row row, out bool bSave)
{
bSave = true;
RowEnumerable re = null;
if (this._Scope != null)
{
Type t = this._Scope.GetType();
//150208AJM GJL Trying - And Succeeding!!! to get data from chart
if (t == typeof(Chart))
{
Chart c = (Chart)this._Scope;
this._Scope = c.ChartMatrix;
t = this._Scope.GetType();
}
if (t == typeof(Grouping))
{
bSave = false;
Grouping g = (Grouping)(this._Scope);
if (g.InMatrix)
{
Rows rows = g.GetRows(rpt);
if (rows == null)
{
return(null);
}
re = new RowEnumerable(0, rows.Data.Count - 1, rows.Data, _LevelCheck);
}
else
{
if (row == null || row.R.CurrentGroups == null) // currentGroups can be null when reference Textbox in header/footer that has a scoped aggr function reference (TODO: this is a problem!)
{
return(null);
}
GroupEntry ge = row.R.CurrentGroups[g.GetIndex(rpt)];
re = new RowEnumerable(ge.StartRow, ge.EndRow, row.R.Data, _LevelCheck);
}
}
else if (t == typeof(Matrix))
{
bSave = false;
Matrix m = (Matrix)(this._Scope);
Rows mData = m.GetMyData(rpt);
re = new RowEnumerable(0, mData.Data.Count - 1, mData.Data, false);
}
else if (t == typeof(string))
{ // happens on page header/footer scope
if (row != null)
{
re = new RowEnumerable(0, row.R.Data.Count - 1, row.R.Data, false);
}
bSave = false;
}
else if (row != null)
{
re = new RowEnumerable(0, row.R.Data.Count - 1, row.R.Data, false);
}
else
{
DataSetDefn ds = this._Scope as DataSetDefn;
if (ds != null && ds.Query != null)
{
Rows rows = ds.Query.GetMyData(rpt);
if (rows != null)
{
re = new RowEnumerable(0, rows.Data.Count - 1, rows.Data, false);
}
}
}
}
else if (row != null)
{
re = new RowEnumerable(0, row.R.Data.Count - 1, row.R.Data, false);
}
return(re);
}
override public void FinalPass()
{
// optimization: avoid expression overhead if this isn't really an expression
if (_Source == null)
{
_Expr = new Constant("");
return;
}
else if (_Source == "" || // empty expression
_Source[0] != '=') // if 1st char not '='
{
_Expr = new Constant(_Source); // this is a constant value
return;
}
Parser p = new Parser(OwnerReport.DataCache);
// find the fields that are part of the DataRegion (if there is one)
IDictionary fields = null;
ReportLink dr = Parent;
Grouping grp = null; // remember if in a table group or detail group or list group
Matrix m = null;
ReportLink phpf = null;
while (dr != null)
{
if (dr is Grouping)
{
p.NoAggregateFunctions = true;
}
else if (dr is TableGroup)
{
grp = ((TableGroup)dr).Grouping;
}
else if (dr is Matrix)
{
m = (Matrix)dr; // if matrix we need to pass special
break;
}
else if (dr is Details)
{
grp = ((Details)dr).Grouping;
}
else if (dr is List)
{
grp = ((List)dr).Grouping;
break;
}
else if (dr is PageHeader || dr is PageFooter)
{
phpf = dr;
}
else if (dr is DataRegion || dr is DataSetDefn)
{
break;
}
dr = dr.Parent;
}
if (dr != null)
{
if (dr is DataSetDefn)
{
DataSetDefn d = (DataSetDefn)dr;
if (d.Fields != null)
{
fields = d.Fields.Items;
}
}
else // must be a DataRegion
{
DataRegion d = (DataRegion)dr;
if (d.DataSetDefn != null &&
d.DataSetDefn.Fields != null)
{
fields = d.DataSetDefn.Fields.Items;
}
}
}
NameLookup lu = new NameLookup(fields, OwnerReport.LUReportParameters,
OwnerReport.LUReportItems, OwnerReport.LUGlobals,
OwnerReport.LUUser, OwnerReport.LUAggrScope,
grp, m, OwnerReport.CodeModules, OwnerReport.Classes, OwnerReport.DataSetsDefn,
OwnerReport.CodeType);
if (phpf != null)
{
// Non-null when expression is in PageHeader or PageFooter;
// Expression name needed for dynamic lookup of ReportItems on a page.
lu.PageFooterHeader = phpf;
lu.ExpressionName = _UniqueName = "xn_" + Interlocked.Increment(ref Parser.Counter).ToString();
}
try
{
_Expr = p.Parse(lu, _Source);
}
catch (Exception e)
{
_Expr = new ConstantError(e.Message);
// Invalid expression
OwnerReport.rl.LogError(8, ErrorText(e.Message));
}
// Optimize removing any expression that always result in a constant
try
{
_Expr = _Expr.ConstantOptimization();
}
catch (Exception ex)
{
OwnerReport.rl.LogError(4, "Expression:" + _Source + "\r\nConstant Optimization exception:\r\n" + ex.Message + "\r\nStack trace:\r\n" + ex.StackTrace);
}
_Type = _Expr.GetTypeCode();
return;
}
