SA-MP/raknet/DS_Table.cpp

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#include "DS_Table.h"
#include "DS_OrderedList.h"
#include <string.h>
#include <assert.h>
using namespace DataStructures;
#ifdef _MSC_VER
#pragma warning( push )
#endif
#ifdef _MSC_VER
#pragma warning( disable : 4100 ) // warning C4100: <variable name> : unreferenced formal parameter
#endif
void ExtendRows(Table::Row* input, int index)
{
input->cells.Insert(new Table::Cell );
}
#ifdef _MSC_VER
#pragma warning( disable : 4100 ) // warning C4100: <variable name> : unreferenced formal parameter
#endif
void FreeRow(Table::Row* input, int index)
{
unsigned i;
for (i=0; i < input->cells.Size(); i++)
{
delete input->cells[i];
}
delete input;
}
Table::Cell::Cell()
{
isEmpty=true;
}
Table::Cell::~Cell()
{
Clear();
}
Table::Cell& Table::Cell::operator = ( const Table::Cell& input )
{
isEmpty=input.isEmpty;
i=input.i;
if (input.c)
{
if (c)
delete [] c;
c = new char [i];
memcpy(c, input.c, i);
}
return *this;
}
Table::Cell::Cell( const Table::Cell & input)
{
isEmpty=input.isEmpty;
i=input.i;
if (input.c)
{
if (c)
delete [] c;
c = new char [i];
memcpy(c, input.c, i);
}
}
void Table::Cell::Set(int input)
{
assert(isEmpty);
i=input;
c=0;
isEmpty=false;
}
void Table::Cell::Set(char *input)
{
assert(isEmpty);
if (input && input[0])
{
i=(int)strlen(input)+1;
c = new char [i];
strcpy(c, input);
}
else
c=0;
i=0;
isEmpty=false;
}
void Table::Cell::Set(char *input, int inputLength)
{
assert(isEmpty);
if (input)
{
c = new char [inputLength];
i=inputLength;
memcpy(c, input, inputLength);
}
else
{
c=0;
i=0;
}
isEmpty=false;
}
void Table::Cell::Get(int *output)
{
assert(isEmpty==false);
*output=i;
}
void Table::Cell::Get(char *output)
{
assert(isEmpty==false);
strcpy(output, c);
}
void Table::Cell::Get(char *output, int *outputLength)
{
assert(isEmpty==false);
memcpy(output, c, i);
if (outputLength)
*outputLength=i;
}
Table::Cell::Cell(int intValue, char *charValue, ColumnType type)
{
if (type==NUMERIC)
{
Set(intValue);
}
else if (type==STRING)
{
Set(charValue);
}
else
{
Set(charValue, intValue);
}
isEmpty=false;
}
void Table::Cell::Clear(void)
{
if (isEmpty==false)
delete [] c;
isEmpty=true;
}
Table::ColumnDescriptor::ColumnDescriptor()
{
}
Table::ColumnDescriptor::~ColumnDescriptor()
{
}
Table::ColumnDescriptor::ColumnDescriptor(char cn[_TABLE_MAX_COLUMN_NAME_LENGTH], ColumnType ct)
{
columnType=ct;
strcpy(columnName, cn);
}
void Table::Row::UpdateCell(unsigned columnIndex, int value)
{
cells[columnIndex]->Clear();
cells[columnIndex]->Set(value);
// cells[columnIndex]->i=value;
// cells[columnIndex]->c=0;
// cells[columnIndex]->isEmpty=false;
}
void Table::Row::UpdateCell(unsigned columnIndex, char *str)
{
cells[columnIndex]->Clear();
cells[columnIndex]->Set(str);
}
void Table::Row::UpdateCell(unsigned columnIndex, int byteLength, char *data)
{
cells[columnIndex]->Clear();
cells[columnIndex]->Set(data,byteLength);
}
Table::Table()
{
}
Table::~Table()
{
Clear();
}
unsigned Table::AddColumn(char columnName[_TABLE_MAX_COLUMN_NAME_LENGTH], ColumnType columnType)
{
if (columnName[0]==0)
return (unsigned) -1;
// Add this column.
columns.Insert(Table::ColumnDescriptor(columnName, columnType));
// Extend the rows by one
rows.ForEachData(ExtendRows);
return columns.Size()-1;
}
void Table::RemoveColumn(unsigned columnIndex)
{
if (columnIndex >= columns.Size())
return;
columns.RemoveAtIndex(columnIndex);
// Remove this index from each row.
int i;
DataStructures::Page<unsigned, Row*, _TABLE_BPLUS_TREE_ORDER> *cur = rows.GetListHead();
while (cur)
{
for (i=0; i < cur->size; i++)
{
delete cur->data[i]->cells[columnIndex];
cur->data[i]->cells.RemoveAtIndex(columnIndex);
}
cur=cur->next;
}
}
unsigned Table::ColumnIndex(char columnName[_TABLE_MAX_COLUMN_NAME_LENGTH])
{
unsigned columnIndex;
for (columnIndex=0; columnIndex<columns.Size(); columnIndex++)
if (strcmp(columnName, columns[columnIndex].columnName)==0)
return columnIndex;
return (unsigned)-1;
}
char* Table::ColumnName(unsigned index)
{
if (index >= columns.Size())
return 0;
else
return (char*)columns[index].columnName;
}
Table::ColumnType Table::GetColumnType(unsigned index)
{
if (index >= columns.Size())
return (Table::ColumnType) 0;
else
return columns[index].columnType;
}
unsigned Table::GetColumnCount(void) const
{
return columns.Size();
}
unsigned Table::GetRowCount(void) const
{
return rows.Size();
}
Table::Row* Table::AddRow(unsigned rowId)
{
Row *newRow;
newRow = new Row;
if (rows.Insert(rowId, newRow)==false)
{
delete newRow;
return 0; // Already exists
}
unsigned rowIndex;
for (rowIndex=0; rowIndex < columns.Size(); rowIndex++)
newRow->cells.Insert( new Table::Cell() );
return newRow;
}
Table::Row* Table::AddRow(unsigned rowId, DataStructures::List<Cell> &initialCellValues)
{
Row *newRow = new Row;
unsigned rowIndex;
for (rowIndex=0; rowIndex < columns.Size(); rowIndex++)
{
if (rowIndex < initialCellValues.Size() && initialCellValues[rowIndex].isEmpty==false)
newRow->cells.Insert(new Table::Cell(initialCellValues[rowIndex].i, initialCellValues[rowIndex].c, columns[rowIndex].columnType));
else
newRow->cells.Insert(new Table::Cell());
}
rows.Insert(rowId, newRow);
return newRow;
}
Table::Row* Table::AddRowColumns(unsigned rowId, Row *row, DataStructures::List<unsigned> columnIndices)
{
Row *newRow = new Row;
unsigned columnIndex;
for (columnIndex=0; columnIndex < columnIndices.Size(); columnIndex++)
{
if (row->cells[columnIndices[columnIndex]]->isEmpty==false)
{
newRow->cells.Insert(new Table::Cell(
row->cells[columnIndices[columnIndex]]->i,
row->cells[columnIndices[columnIndex]]->c,
columns[columnIndex].columnType
));
}
else
{
newRow->cells.Insert(new Cell());
}
}
rows.Insert(rowId, newRow);
return newRow;
}
void Table::RemoveRow(unsigned rowId)
{
Row *out;
if (rows.Delete(rowId, out))
DeleteRow(out);
}
void Table::RemoveRows(Table *tableContainingRowIDs)
{
unsigned i;
DataStructures::Page<unsigned, Row*, _TABLE_BPLUS_TREE_ORDER> *cur = tableContainingRowIDs->GetRows().GetListHead();
while (cur)
{
for (i=0; i < (unsigned)cur->size; i++)
{
rows.Delete(cur->keys[i]);
}
cur=cur->next;
}
return;
}
bool Table::UpdateCell(unsigned rowId, unsigned columnIndex, int value)
{
assert(columns[columnIndex].columnType==NUMERIC);
Row *row = GetRowByID(rowId);
if (row)
{
row->UpdateCell(columnIndex, value);
return true;
}
return false;
}
bool Table::UpdateCell(unsigned rowId, unsigned columnIndex, char *str)
{
assert(columns[columnIndex].columnType==STRING);
Row *row = GetRowByID(rowId);
if (row)
{
row->UpdateCell(columnIndex, str);
return true;
}
return false;
}
bool Table::UpdateCell(unsigned rowId, unsigned columnIndex, int byteLength, char *data)
{
assert(columns[columnIndex].columnType==BINARY);
Row *row = GetRowByID(rowId);
if (row)
{
row->UpdateCell(columnIndex, byteLength, data);
return true;
}
return false;
}
Table::FilterQuery::FilterQuery()
{
}
Table::FilterQuery::~FilterQuery()
{
}
Table::FilterQuery::FilterQuery(unsigned column, Cell *cell, FilterQueryType op)
{
columnIndex=column;
cellValue=cell;
operation=op;
}
Table::Row* Table::GetRowByID(unsigned rowId)
{
Row *row;
if (rows.Get(rowId, row))
return row;
return 0;
}
Table::Row* Table::GetRowByIndex(unsigned rowIndex)
{
DataStructures::Page<unsigned, Row*, _TABLE_BPLUS_TREE_ORDER> *cur = rows.GetListHead();
while (cur)
{
if (rowIndex < (unsigned)cur->size)
return cur->data[rowIndex];
if (rowIndex <= (unsigned)cur->size)
rowIndex-=cur->size;
else
return 0;
cur=cur->next;
}
return 0;
}
void Table::QueryTable(unsigned *columnSubset, unsigned numColumnSubset, FilterQuery *inclusionFilters, unsigned numInclusionFilters, unsigned *rowIds, unsigned numRowIDs, Table *result)
{
unsigned i;
DataStructures::List<unsigned> columnIndicesToReturn;
// Clear the result table.
result->Clear();
if (columnSubset && numColumnSubset>0)
{
for (i=0; i < numColumnSubset; i++)
{
if (columnSubset[i]>=0 && columnSubset[i]<columns.Size())
columnIndicesToReturn.Insert(columnSubset[i]);
}
}
else
{
for (i=0; i < columns.Size(); i++)
columnIndicesToReturn.Insert(i);
}
if (columnIndicesToReturn.Size()==0)
return; // No valid columns specified
for (i=0; i < columnIndicesToReturn.Size(); i++)
{
result->AddColumn(columns[columnIndicesToReturn[i]].columnName,columns[columnIndicesToReturn[i]].columnType);
}
// Get the column indices of the filter queries.
DataStructures::List<unsigned> inclusionFilterColumnIndices;
if (inclusionFilters && numInclusionFilters>0)
{
for (i=0; i < numInclusionFilters; i++)
{
if (inclusionFilters[i].columnIndex>=0 && inclusionFilters[i].columnIndex<columns.Size())
inclusionFilterColumnIndices.Insert(inclusionFilters[i].columnIndex);
else
inclusionFilterColumnIndices.Insert((unsigned)-1);
}
}
if (rowIds==0 || numRowIDs==0)
{
// All rows
DataStructures::Page<unsigned, Row*, _TABLE_BPLUS_TREE_ORDER> *cur = rows.GetListHead();
while (cur)
{
for (i=0; i < (unsigned)cur->size; i++)
{
QueryRow(inclusionFilterColumnIndices, columnIndicesToReturn, cur->keys[i], cur->data[i], inclusionFilters, result);
}
cur=cur->next;
}
}
else
{
// Specific rows
Row *row;
for (i=0; i < numRowIDs; i++)
{
if (rows.Get(rowIds[i], row))
{
QueryRow(inclusionFilterColumnIndices, columnIndicesToReturn, rowIds[i], row, inclusionFilters, result);
}
}
}
}
void Table::QueryRow(DataStructures::List<unsigned> &inclusionFilterColumnIndices, DataStructures::List<unsigned> &columnIndicesToReturn, unsigned key, Table::Row* row, FilterQuery *inclusionFilters, Table *result)
{
bool pass;
unsigned columnIndex;
unsigned j;
// If no inclusion filters, just add the row
if (inclusionFilterColumnIndices.Size()==0)
{
result->AddRowColumns(key, row, columnIndicesToReturn);
}
else
{
// Go through all inclusion filters. Only add this row if all filters pass.
for (j=0; j<inclusionFilterColumnIndices.Size(); j++)
{
columnIndex=inclusionFilterColumnIndices[j];
if (row->cells[columnIndex]->isEmpty==false && columnIndex!=(unsigned)-1)
{
switch (inclusionFilters[j].operation)
{
case QF_EQUAL:
switch(columns[inclusionFilterColumnIndices[j]].columnType)
{
case NUMERIC:
pass=row->cells[columnIndex]->i==inclusionFilters[j].cellValue->i;
break;
case STRING:
pass=strcmp(row->cells[columnIndex]->c,inclusionFilters[j].cellValue->c)==0;
break;
case BINARY:
pass=row->cells[columnIndex]->i==inclusionFilters[j].cellValue->i &&
memcmp(row->cells[columnIndex]->c,inclusionFilters[j].cellValue->c, row->cells[columnIndex]->i)==0;
break;
}
break;
case QF_NOT_EQUAL:
switch(columns[inclusionFilterColumnIndices[j]].columnType)
{
case NUMERIC:
pass=row->cells[columnIndex]->i!=inclusionFilters[j].cellValue->i;
break;
case STRING:
pass=strcmp(row->cells[columnIndex]->c,inclusionFilters[j].cellValue->c)!=0;
break;
case BINARY:
pass=row->cells[columnIndex]->i==inclusionFilters[j].cellValue->i &&
memcmp(row->cells[columnIndex]->c,inclusionFilters[j].cellValue->c, row->cells[columnIndex]->i)==0;
break;
}
break;
case QF_GREATER_THAN:
switch(columns[inclusionFilterColumnIndices[j]].columnType)
{
case NUMERIC:
pass=row->cells[columnIndex]->i>inclusionFilters[j].cellValue->i;
break;
case STRING:
pass=strcmp(row->cells[columnIndex]->c,inclusionFilters[j].cellValue->c)>0;
break;
}
break;
case QF_LESS_THAN:
switch(columns[inclusionFilterColumnIndices[j]].columnType)
{
case NUMERIC:
pass=row->cells[columnIndex]->i<inclusionFilters[j].cellValue->i;
break;
case STRING:
pass=strcmp(row->cells[columnIndex]->c,inclusionFilters[j].cellValue->c)<0;
break;
}
break;
case QF_IS_EMPTY:
pass=false;
break;
case QF_NOT_EMPTY:
pass=true;
break;
}
}
else
{
if (inclusionFilters[j].operation==QF_IS_EMPTY)
pass=true;
else
pass=false; // No value for this cell
}
if (pass==false)
break;
}
if (pass)
{
result->AddRowColumns(key, row, columnIndicesToReturn);
}
}
}
static Table::SortQuery *_sortQueries;
static unsigned _numSortQueries;
static DataStructures::List<unsigned> *_columnIndices;
static DataStructures::List<Table::ColumnDescriptor> *_columns;
int RowSort(Table::Row* const &first, Table::Row* const &second) // first is the one inserting, second is the one already there.
{
unsigned i, columnIndex;
for (i=0; i<_numSortQueries; i++)
{
columnIndex=(*_columnIndices)[i];
if (columnIndex==(unsigned)-1)
continue;
if (first->cells[columnIndex]->isEmpty==true && second->cells[columnIndex]->isEmpty==false)
return 1; // Empty cells always go at the end
if (first->cells[columnIndex]->isEmpty==false && second->cells[columnIndex]->isEmpty==true)
return -1; // Empty cells always go at the end
if (_sortQueries[i].operation==Table::QS_INCREASING_ORDER)
{
if ((*_columns)[columnIndex].columnType==Table::NUMERIC)
{
if (first->cells[columnIndex]->i>second->cells[columnIndex]->i)
return 1;
if (first->cells[columnIndex]->i<second->cells[columnIndex]->i)
return -1;
}
else
{
// String
if (strcmp(first->cells[columnIndex]->c,second->cells[columnIndex]->c)>0)
return 1;
if (strcmp(first->cells[columnIndex]->c,second->cells[columnIndex]->c)<0)
return -1;
}
}
else
{
if ((*_columns)[columnIndex].columnType==Table::NUMERIC)
{
if (first->cells[columnIndex]->i<second->cells[columnIndex]->i)
return 1;
if (first->cells[columnIndex]->i>second->cells[columnIndex]->i)
return -1;
}
else
{
// String
if (strcmp(first->cells[columnIndex]->c,second->cells[columnIndex]->c)<0)
return 1;
if (strcmp(first->cells[columnIndex]->c,second->cells[columnIndex]->c)>0)
return -1;
}
}
}
return 0;
}
void Table::SortTable(Table::SortQuery *sortQueries, unsigned numSortQueries, Table::Row** out)
{
unsigned i;
unsigned outLength;
DataStructures::List<unsigned> columnIndices;
_sortQueries=sortQueries;
_numSortQueries=numSortQueries;
_columnIndices=&columnIndices;
_columns=&columns;
bool anyValid=false;
for (i=0; i < numSortQueries; i++)
{
if (sortQueries[i].columnIndex>=0 && sortQueries[i].columnIndex<columns.Size() && columns[sortQueries[i].columnIndex].columnType!=BINARY)
{
columnIndices.Insert(sortQueries[i].columnIndex);
anyValid=true;
}
else
columnIndices.Insert((unsigned)-1); // Means don't check this column
}
DataStructures::Page<unsigned, Row*, _TABLE_BPLUS_TREE_ORDER> *cur;
cur = rows.GetListHead();
if (anyValid==false)
{
outLength=0;
while (cur)
{
for (i=0; i < (unsigned)cur->size; i++)
{
out[(outLength)++]=cur->data[i];
}
cur=cur->next;
}
return;
}
// Start adding to ordered list.
DataStructures::OrderedList<Row*, Row*, RowSort> orderedList;
while (cur)
{
for (i=0; i < (unsigned)cur->size; i++)
{
orderedList.Insert(cur->data[i],cur->data[i]);
}
cur=cur->next;
}
outLength=0;
for (i=0; i < orderedList.Size(); i++)
out[(outLength)++]=orderedList[i];
}
void Table::PrintRow(char *out, int outLength, char columnDelineator, bool printDelineatorForBinary, Table::Row* inputRow)
{
if (outLength<=0)
return;
if (outLength==1)
{
*out=0;
return;
}
if (inputRow->cells.Size()!=columns.Size())
{
strncpy(out, "Cell width does not match column width.\n", outLength);
out[outLength-1]=0;
return;
}
char buff[512];
unsigned i;
int len;
out[0]=0;
for (i=0; i < columns.Size(); i++)
{
if (columns[i].columnType==NUMERIC)
{
if (inputRow->cells[i]->isEmpty==false)
{
sprintf(buff, "%i", inputRow->cells[i]->i);
len=(int)strlen(buff);
}
else
len=0;
if (i+1!=columns.Size())
buff[len++]=columnDelineator;
buff[len]=0;
}
else if (columns[i].columnType==STRING)
{
if (inputRow->cells[i]->isEmpty==false && inputRow->cells[i]->c)
{
strncpy(buff, inputRow->cells[i]->c, 512-2);
buff[512-2]=0;
len=(int)strlen(buff);
}
else
len=0;
if (i+1!=columns.Size())
buff[len++]=columnDelineator;
buff[len]=0;
}
else
{
if (printDelineatorForBinary)
{
if (i+1!=columns.Size())
buff[0]=columnDelineator;
buff[1]=0;
}
else
buff[0]=0;
}
len=(int)strlen(out);
if (outLength==len+1)
break;
strncpy(out+len, buff, outLength-len);
out[outLength-1]=0;
}
}
void Table::Clear(void)
{
rows.ForEachData(FreeRow);
rows.Clear();
columns.Clear(true);
}
List<Table::ColumnDescriptor>& Table::GetColumns(void)
{
return columns;
}
DataStructures::BPlusTree<unsigned, Table::Row*, _TABLE_BPLUS_TREE_ORDER>& Table::GetRows(void)
{
return rows;
}
DataStructures::Page<unsigned, DataStructures::Table::Row*, _TABLE_BPLUS_TREE_ORDER> * Table::GetListHead(void)
{
return rows.GetListHead();
}
void Table::DeleteRow(Table::Row *row)
{
unsigned rowIndex;
for (rowIndex=0; rowIndex < row->cells.Size(); rowIndex++)
{
delete row->cells[rowIndex];
}
delete row;
}
#ifdef _MSC_VER
#pragma warning( pop )
#endif