public void GetAggregatedValueTest()
{
var cell1 = new Mock<Cell>();
var cell2 = new Mock<Cell>();
var cell3 = new Mock<Cell>();
List<Cell> cells = new List<Cell>();
cells.Add(cell1.Object);
cells.Add(cell2.Object);
CountAggregation target = new CountAggregation();
double expected = 2;
double actual;
actual = (double)target.GetAggregatedValue(cells);
Assert.AreEqual(expected, actual);
cells.Add(cell3.Object);
expected = 3;
actual = (double)target.GetAggregatedValue(cells);
Assert.AreEqual(expected, actual);
}
static void Main(string[] args)
{
// ------------------------ FIRST TABLE --------------------------------------
Cell c1 = new Cell(2011);
Cell c2 = new Cell(2012);
Cell c3 = new Cell(2013);
Cell s1 = new Cell("Kraków");
Cell s2 = new Cell("Kraków");
Cell s3 = new Cell("Gdańsk");
Cell s4 = new Cell("Gdańsk");
Cell s5 = new Cell("Wrocław");
Cell s6 = new Cell("Poznań");
Cell s7 = new Cell("Wawa");
Cell s8 = new Cell("Gdańsk");
Cell s9 = new Cell("Rzym");
Cell l1 = new Cell((int)15);
Cell l2 = new Cell((int)20);
Cell l3 = new Cell((int)20);
Cell l4 = new Cell((int)30);
Cell l5 = new Cell((int)40);
Cell l6 = new Cell((int)50);
Cell l7 = new Cell((int)60);
Cell l8 = new Cell((int)80);
Cell l9 = new Cell((int)11);
Cell p1 = new Cell(2);
Column c = new Column("Rok", DataType.StringDimension);
c.AddCell(c1);
c.AddCell(c1);
c.AddCell(c2);
c.AddCell(c3);
c.AddCell(c2);
c.AddCell(c3);
c.AddCell(c1);
c.AddCell(c1);
Column s = new Column("Miasto", DataType.StringDimension);
s.AddCell(s1);
s.AddCell(s2);
s.AddCell(s3);
s.AddCell(s4);
s.AddCell(s5);
s.AddCell(s6);
s.AddCell(s7);
s.AddCell(s8);
Column l = new Column("Sprzedaż", DataType.FloatFact);
l.AddCell(l1);
l.AddCell(l2);
l.AddCell(l3);
l.AddCell(l4);
l.AddCell(l5);
l.AddCell(l6);
l.AddCell(l7);
l.AddCell(l8);
Column p = new Column("Coś", DataType.IntegerFact);
p.AddCell(p1);
p.AddCell(p1);
p.AddCell(p1);
p.AddCell(p1);
p.AddCell(p1);
p.AddCell(p1);
p.AddCell(p1);
p.AddCell(p1);
List<Column> mylist = new List<Column>();
//mylist.Add(c);
mylist.Add(s);
mylist.Add(l);
mylist.Add(p);
Table first_table = new Table("Dane1", null, mylist);
//Console.WriteLine(first_table);
first_table.print();
// ------------------------ SECOND TABLE --------------------------------------
Cell s11 = new Cell("Berlin");
Cell s21 = new Cell("Kolonia");
Cell s31 = new Cell("Hamburg");
Cell l11 = new Cell(70.5);
Cell l21 = new Cell(65);
Cell l31 = new Cell((double)15);
Column ss = new Column("Miasto", DataType.StringDimension);
ss.AddCell(s11);
ss.AddCell(s21);
ss.AddCell(s31);
Column ll = new Column("Sprzedaż", DataType.FloatFact);
ll.AddCell(l11);
ll.AddCell(l21);
ll.AddCell(l31);
Column pp = new Column("Coś", DataType.IntegerFact);
pp.AddCell(p1);
pp.AddCell(p1);
pp.AddCell(p1);
List<Column> mylist1 = new List<Column>();
mylist1.Add(ss);
mylist1.Add(ll);
mylist1.Add(pp);
Table second_table = new Table("Dane2", null, mylist1);
// ------------------------ TABLE --------------------------------------------
mylist = new List<Column>();
mylist.Add(c);
mylist.Add(s);
mylist.Add(l);
mylist.Add(p);
Table second = new Table("Tabeleczka", null, mylist);
//Console.WriteLine(second);
second.print();
// ------------------------ GROUP COMMAND -----------------------------------
Dictionary<Column, Aggregation> dict = new Dictionary<Column, Aggregation>();
dict.Add(l, new AverageAggregation());
dict.Add(p, new SumAggregation());
Command cmd = new GroupCommand(new List<Column> { s }, dict);
first_table.Execute(cmd).print();
//Console.WriteLine(first_table.Execute(cmd));
dict[l] = new CountAggregation();
//Console.WriteLine(first_table.Execute(cmd));
first_table.Execute(cmd).print();
dict = new Dictionary<Column, Aggregation>();
dict.Add(l, new AverageAggregation());
dict.Add(p, new SumAggregation());
cmd = new GroupCommand(new List<Column> { c, s }, dict);
//Console.WriteLine(second.Execute(cmd));
second.Execute(cmd).print();
//------------------------- OTHER COMMANDS -----------------------------------
first_table.Execute(new SelectCommand(new List<int> { 0 })).print();
first_table.Execute(new SelectCommand(new List<int> { 1 })).print();
first_table.Execute(new FilterCommand(first_table.Columns[1], cellContent => (double)cellContent > 20)).print();
first_table.Execute(new ComputationOfTwoColumnsCommand(first_table.Columns[1], first_table.Columns[2], (cellContent, cell2Content) => (double)cellContent + (double)cell2Content)).print();
Table result = first_table.Execute(new ComputationOfOneColumnCommand(first_table.Columns[1], cellContent => (double)cellContent * 2));
Table modified = new Table(result.Name, first_table, result.Columns);
modified.print();
modified.Undo().print();
first_table.Execute(new VerticalJoinCommand(second_table)).print();
// ------------------------ AGGREGATION TESTS ---------------------------------------
List<Cell> cells = new List<Cell>();
cells.Add(l11);
cells.Add(l21);
cells.Add(l31);
Console.WriteLine((double)(new SumAggregation()).GetAggregatedValue(cells));
Console.WriteLine((double)(new MaxAggregation()).GetAggregatedValue(cells));
Console.WriteLine((int)(new CountAggregation()).GetAggregatedValue(cells));
Console.WriteLine((double)(new MinAggregation()).GetAggregatedValue(cells));
Console.WriteLine((double)(new AverageAggregation()).GetAggregatedValue(cells));
Console.ReadKey();
}
static void Main(string[] args)
{
// ------------------------ FIRST TABLE --------------------------------------
Cell c1 = new Cell(2011);
Cell c2 = new Cell(2012);
Cell c3 = new Cell(2013);
Cell s1 = new Cell("Kraków");
Cell s2 = new Cell("Kraków");
Cell s3 = new Cell("Gdańsk");
Cell s4 = new Cell("Gdańsk");
Cell s5 = new Cell("Wrocław");
Cell s6 = new Cell("Poznań");
Cell s7 = new Cell("Wawa");
Cell s8 = new Cell("Gdańsk");
Cell s9 = new Cell("Rzym");
Cell l1 = new Cell((int)15);
Cell l2 = new Cell((int)20);
Cell l3 = new Cell((int)20);
Cell l4 = new Cell((int)30);
Cell l5 = new Cell((int)40);
Cell l6 = new Cell((int)50);
Cell l7 = new Cell((int)60);
Cell l8 = new Cell((int)80);
Cell l9 = new Cell((int)11);
Cell p1 = new Cell(2);
Column c = new Column("Rok", DataType.StringDimension);
c.AddCell(c1);
c.AddCell(c1);
c.AddCell(c2);
c.AddCell(c3);
c.AddCell(c2);
c.AddCell(c3);
c.AddCell(c1);
c.AddCell(c1);
Column s = new Column("Miasto", DataType.StringDimension);
s.AddCell(s1);
s.AddCell(s2);
s.AddCell(s3);
s.AddCell(s4);
s.AddCell(s5);
s.AddCell(s6);
s.AddCell(s7);
s.AddCell(s8);
Column l = new Column("Sprzedaż", DataType.FloatFact);
l.AddCell(l1);
l.AddCell(l2);
l.AddCell(l3);
l.AddCell(l4);
l.AddCell(l5);
l.AddCell(l6);
l.AddCell(l7);
l.AddCell(l8);
Column p = new Column("Coś", DataType.IntegerFact);
p.AddCell(p1);
p.AddCell(p1);
p.AddCell(p1);
p.AddCell(p1);
p.AddCell(p1);
p.AddCell(p1);
p.AddCell(p1);
p.AddCell(p1);
List <Column> mylist = new List <Column>();
//mylist.Add(c);
mylist.Add(s);
mylist.Add(l);
mylist.Add(p);
Table first_table = new Table("Dane1", null, mylist);
//Console.WriteLine(first_table);
first_table.print();
// ------------------------ SECOND TABLE --------------------------------------
Cell s11 = new Cell("Berlin");
Cell s21 = new Cell("Kolonia");
Cell s31 = new Cell("Hamburg");
Cell l11 = new Cell(70.5);
Cell l21 = new Cell(65);
Cell l31 = new Cell((double)15);
Column ss = new Column("Miasto", DataType.StringDimension);
ss.AddCell(s11);
ss.AddCell(s21);
ss.AddCell(s31);
Column ll = new Column("Sprzedaż", DataType.FloatFact);
ll.AddCell(l11);
ll.AddCell(l21);
ll.AddCell(l31);
Column pp = new Column("Coś", DataType.IntegerFact);
pp.AddCell(p1);
pp.AddCell(p1);
pp.AddCell(p1);
List <Column> mylist1 = new List <Column>();
mylist1.Add(ss);
mylist1.Add(ll);
mylist1.Add(pp);
Table second_table = new Table("Dane2", null, mylist1);
// ------------------------ TABLE --------------------------------------------
mylist = new List <Column>();
mylist.Add(c);
mylist.Add(s);
mylist.Add(l);
mylist.Add(p);
Table second = new Table("Tabeleczka", null, mylist);
//Console.WriteLine(second);
second.print();
// ------------------------ GROUP COMMAND -----------------------------------
Dictionary <Column, Aggregation> dict = new Dictionary <Column, Aggregation>();
dict.Add(l, new AverageAggregation());
dict.Add(p, new SumAggregation());
Command cmd = new GroupCommand(new List <Column> {
s
}, dict);
first_table.Execute(cmd).print();
//Console.WriteLine(first_table.Execute(cmd));
dict[l] = new CountAggregation();
//Console.WriteLine(first_table.Execute(cmd));
first_table.Execute(cmd).print();
dict = new Dictionary <Column, Aggregation>();
dict.Add(l, new AverageAggregation());
dict.Add(p, new SumAggregation());
cmd = new GroupCommand(new List <Column> {
c, s
}, dict);
//Console.WriteLine(second.Execute(cmd));
second.Execute(cmd).print();
//------------------------- OTHER COMMANDS -----------------------------------
first_table.Execute(new SelectCommand(new List <int> {
0
})).print();
first_table.Execute(new SelectCommand(new List <int> {
1
})).print();
first_table.Execute(new FilterCommand(first_table.Columns[1], cellContent => (double)cellContent > 20)).print();
first_table.Execute(new ComputationOfTwoColumnsCommand(first_table.Columns[1], first_table.Columns[2], (cellContent, cell2Content) => (double)cellContent + (double)cell2Content)).print();
Table result = first_table.Execute(new ComputationOfOneColumnCommand(first_table.Columns[1], cellContent => (double)cellContent * 2));
Table modified = new Table(result.Name, first_table, result.Columns);
modified.print();
modified.Undo().print();
first_table.Execute(new VerticalJoinCommand(second_table)).print();
// ------------------------ AGGREGATION TESTS ---------------------------------------
List <Cell> cells = new List <Cell>();
cells.Add(l11);
cells.Add(l21);
cells.Add(l31);
Console.WriteLine((double)(new SumAggregation()).GetAggregatedValue(cells));
Console.WriteLine((double)(new MaxAggregation()).GetAggregatedValue(cells));
Console.WriteLine((int)(new CountAggregation()).GetAggregatedValue(cells));
Console.WriteLine((double)(new MinAggregation()).GetAggregatedValue(cells));
Console.WriteLine((double)(new AverageAggregation()).GetAggregatedValue(cells));
Console.ReadKey();
}