package xlsx
import (
"bytes"
"encoding/xml"
. "gopkg.in/check.v1"
)
type SheetSuite struct{}
var _ = Suite(&SheetSuite{})
// Test we can add a Row to a Sheet
func (s *SheetSuite) TestAddRow(c *C) {
// Create a file with three rows.
var f *File
f = NewFile()
sheet, _ := f.AddSheet("MySheet")
row0 := sheet.AddRow()
cell0 := row0.AddCell()
cell0.Value = "Row 0"
c.Assert(row0, NotNil)
row1 := sheet.AddRow()
cell1 := row1.AddCell()
cell1.Value = "Row 1"
row2 := sheet.AddRow()
cell2 := row2.AddCell()
cell2.Value = "Row 2"
// Check the file
expected := []string{"Row 0", "Row 1", "Row 2"}
c.Assert(len(sheet.Rows), Equals, len(expected))
for i, row := range sheet.Rows {
c.Assert(row.Cells[0].Value, Equals, expected[i])
}
// Insert a row in the middle
row1pt5, err := sheet.AddRowAtIndex(2)
c.Assert(err, IsNil)
cell1pt5 := row1pt5.AddCell()
cell1pt5.Value = "Row 1.5"
expected = []string{"Row 0", "Row 1", "Row 1.5", "Row 2"}
c.Assert(len(sheet.Rows), Equals, len(expected))
for i, row := range sheet.Rows {
c.Assert(row.Cells[0].Value, Equals, expected[i])
}
// Insert a row at the beginning
rowNewStart, err := sheet.AddRowAtIndex(0)
c.Assert(err, IsNil)
cellNewStart := rowNewStart.AddCell()
cellNewStart.Value = "Row -1"
// Insert a row at one index past the end, this is the same as AddRow().
row2pt5, err := sheet.AddRowAtIndex(5)
c.Assert(err, IsNil)
cell2pt5 := row2pt5.AddCell()
cell2pt5.Value = "Row 2.5"
expected = []string{"Row -1", "Row 0", "Row 1", "Row 1.5", "Row 2", "Row 2.5"}
c.Assert(len(sheet.Rows), Equals, len(expected))
for i, row := range sheet.Rows {
c.Assert(row.Cells[0].Value, Equals, expected[i])
}
// Negative and out of range indicies should fail for insert
_, err = sheet.AddRowAtIndex(-1)
c.Assert(err, NotNil)
// Since we allow inserting into the position that does not yet exist, it has to be 1 greater
// than you would think in order to fail.
_, err = sheet.AddRowAtIndex(7)
c.Assert(err, NotNil)
// Negative and out of range indicies should fail for remove
err = sheet.RemoveRowAtIndex(-1)
c.Assert(err, NotNil)
err = sheet.RemoveRowAtIndex(6)
c.Assert(err, NotNil)
// Remove from the beginning, the end, and the middle.
err = sheet.RemoveRowAtIndex(0)
c.Assert(err, IsNil)
err = sheet.RemoveRowAtIndex(4)
c.Assert(err, IsNil)
err = sheet.RemoveRowAtIndex(2)
c.Assert(err, IsNil)
expected = []string{"Row 0", "Row 1", "Row 2"}
c.Assert(len(sheet.Rows), Equals, len(expected))
for i, row := range sheet.Rows {
c.Assert(row.Cells[0].Value, Equals, expected[i])
}
}
// Test we can get row by index from Sheet
func (s *SheetSuite) TestGetRowByIndex(c *C) {
var f *File
f = NewFile()
sheet, _ := f.AddSheet("MySheet")
row := sheet.Row(10)
c.Assert(row, NotNil)
c.Assert(len(sheet.Rows), Equals, 11)
row = sheet.Row(2)
c.Assert(row, NotNil)
c.Assert(len(sheet.Rows), Equals, 11)
}
func (s *SheetSuite) TestMakeXLSXSheetFromRows(c *C) {
file := NewFile()
sheet, _ := file.AddSheet("Sheet1")
row := sheet.AddRow()
cell := row.AddCell()
cell.Value = "A cell!"
refTable := NewSharedStringRefTable()
styles := newXlsxStyleSheet(nil)
xSheet := sheet.makeXLSXSheet(refTable, styles)
c.Assert(xSheet.Dimension.Ref, Equals, "A1")
c.Assert(xSheet.SheetData.Row, HasLen, 1)
xRow := xSheet.SheetData.Row[0]
c.Assert(xRow.R, Equals, 1)
c.Assert(xRow.Spans, Equals, "")
c.Assert(xRow.C, HasLen, 1)
xC := xRow.C[0]
c.Assert(xC.R, Equals, "A1")
c.Assert(xC.S, Equals, 0)
c.Assert(xC.T, Equals, "s") // Shared string type
c.Assert(xC.V, Equals, "0") // reference to shared string
xSST := refTable.makeXLSXSST()
c.Assert(xSST.Count, Equals, 1)
c.Assert(xSST.UniqueCount, Equals, 1)
c.Assert(xSST.SI, HasLen, 1)
xSI := xSST.SI[0]
c.Assert(xSI.T, Equals, "A cell!")
}
// Test if the NumFmts assigned properly according the FormatCode in cell.
func (s *SheetSuite) TestMakeXLSXSheetWithNumFormats(c *C) {
file := NewFile()
sheet, _ := file.AddSheet("Sheet1")
row := sheet.AddRow()
cell1 := row.AddCell()
cell1.Value = "A cell!"
cell1.NumFmt = "general"
cell2 := row.AddCell()
cell2.Value = "37947.7500001"
cell2.NumFmt = "0"
cell3 := row.AddCell()
cell3.Value = "37947.7500001"
cell3.NumFmt = "mm-dd-yy"
cell4 := row.AddCell()
cell4.Value = "37947.7500001"
cell4.NumFmt = "hh:mm:ss"
refTable := NewSharedStringRefTable()
styles := newXlsxStyleSheet(nil)
worksheet := sheet.makeXLSXSheet(refTable, styles)
c.Assert(styles.CellStyleXfs, IsNil)
c.Assert(styles.CellXfs.Count, Equals, 4)
c.Assert(styles.CellXfs.Xf[0].NumFmtId, Equals, 0)
c.Assert(styles.CellXfs.Xf[1].NumFmtId, Equals, 1)
c.Assert(styles.CellXfs.Xf[2].NumFmtId, Equals, 14)
c.Assert(styles.CellXfs.Xf[3].NumFmtId, Equals, 164)
c.Assert(styles.NumFmts.Count, Equals, 1)
c.Assert(styles.NumFmts.NumFmt[0].NumFmtId, Equals, 164)
c.Assert(styles.NumFmts.NumFmt[0].FormatCode, Equals, "hh:mm:ss")
// Finally we check that the cell points to the right CellXf /
// CellStyleXf.
c.Assert(worksheet.SheetData.Row[0].C[0].S, Equals, 0)
c.Assert(worksheet.SheetData.Row[0].C[1].S, Equals, 1)
}
// When we create the xlsxSheet we also populate the xlsxStyles struct
// with style information.
func (s *SheetSuite) TestMakeXLSXSheetAlsoPopulatesXLSXSTyles(c *C) {
file := NewFile()
sheet, _ := file.AddSheet("Sheet1")
row := sheet.AddRow()
cell1 := row.AddCell()
cell1.Value = "A cell!"
style1 := NewStyle()
style1.Font = *NewFont(10, "Verdana")
style1.Fill = *NewFill("solid", "FFFFFFFF", "00000000")
style1.Border = *NewBorder("none", "thin", "none", "thin")
cell1.SetStyle(style1)
// We need a second style to check that Xfs are populated correctly.
cell2 := row.AddCell()
cell2.Value = "Another cell!"
style2 := NewStyle()
style2.Font = *NewFont(10, "Verdana")
style2.Fill = *NewFill("solid", "FFFFFFFF", "00000000")
style2.Border = *NewBorder("none", "thin", "none", "thin")
cell2.SetStyle(style2)
refTable := NewSharedStringRefTable()
styles := newXlsxStyleSheet(nil)
worksheet := sheet.makeXLSXSheet(refTable, styles)
c.Assert(styles.Fonts.Count, Equals, 2)
c.Assert(styles.Fonts.Font[0].Sz.Val, Equals, "12")
c.Assert(styles.Fonts.Font[0].Name.Val, Equals, "Verdana")
c.Assert(styles.Fonts.Font[1].Sz.Val, Equals, "10")
c.Assert(styles.Fonts.Font[1].Name.Val, Equals, "Verdana")
c.Assert(styles.Fills.Count, Equals, 3)
c.Assert(styles.Fills.Fill[0].PatternFill.PatternType, Equals, "none")
c.Assert(styles.Fills.Fill[0].PatternFill.FgColor.RGB, Equals, "")
c.Assert(styles.Fills.Fill[0].PatternFill.BgColor.RGB, Equals, "")
c.Assert(styles.Borders.Count, Equals, 2)
c.Assert(styles.Borders.Border[1].Left.Style, Equals, "none")
c.Assert(styles.Borders.Border[1].Right.Style, Equals, "thin")
c.Assert(styles.Borders.Border[1].Top.Style, Equals, "none")
c.Assert(styles.Borders.Border[1].Bottom.Style, Equals, "thin")
c.Assert(styles.CellStyleXfs, IsNil)
c.Assert(styles.CellXfs.Count, Equals, 2)
c.Assert(styles.CellXfs.Xf[0].FontId, Equals, 0)
c.Assert(styles.CellXfs.Xf[0].FillId, Equals, 0)
c.Assert(styles.CellXfs.Xf[0].BorderId, Equals, 0)
// Finally we check that the cell points to the right CellXf /
// CellStyleXf.
c.Assert(worksheet.SheetData.Row[0].C[0].S, Equals, 1)
c.Assert(worksheet.SheetData.Row[0].C[1].S, Equals, 1)
}
// If the column width is not customised, the xslxCol.CustomWidth field is set to 0.
func (s *SheetSuite) TestMakeXLSXSheetDefaultsCustomColWidth(c *C) {
file := NewFile()
sheet, _ := file.AddSheet("Sheet1")
row := sheet.AddRow()
cell1 := row.AddCell()
cell1.Value = "A cell!"
refTable := NewSharedStringRefTable()
styles := newXlsxStyleSheet(nil)
worksheet := sheet.makeXLSXSheet(refTable, styles)
c.Assert(worksheet.Cols.Col[0].CustomWidth, Equals, false)
}
// If the column width is customised, the xslxCol.CustomWidth field is set to 1.
func (s *SheetSuite) TestMakeXLSXSheetSetsCustomColWidth(c *C) {
file := NewFile()
sheet, _ := file.AddSheet("Sheet1")
row := sheet.AddRow()
cell1 := row.AddCell()
cell1.Value = "A cell!"
err := sheet.SetColWidth(0, 1, 10.5)
c.Assert(err, IsNil)
refTable := NewSharedStringRefTable()
styles := newXlsxStyleSheet(nil)
worksheet := sheet.makeXLSXSheet(refTable, styles)
c.Assert(worksheet.Cols.Col[1].CustomWidth, Equals, true)
}
func (s *SheetSuite) TestMarshalSheet(c *C) {
file := NewFile()
sheet, _ := file.AddSheet("Sheet1")
row := sheet.AddRow()
cell := row.AddCell()
cell.Value = "A cell!"
refTable := NewSharedStringRefTable()
styles := newXlsxStyleSheet(nil)
xSheet := sheet.makeXLSXSheet(refTable, styles)
output := bytes.NewBufferString(xml.Header)
body, err := xml.Marshal(xSheet)
c.Assert(err, IsNil)
c.Assert(body, NotNil)
_, err = output.Write(body)
c.Assert(err, IsNil)
expectedXLSXSheet := `
0
&C&"Times New Roman,Regular"&12&A&C&"Times New Roman,Regular"&12Page &P`
c.Assert(output.String(), Equals, expectedXLSXSheet)
}
func (s *SheetSuite) TestMarshalSheetWithMultipleCells(c *C) {
file := NewFile()
sheet, _ := file.AddSheet("Sheet1")
row := sheet.AddRow()
cell := row.AddCell()
cell.Value = "A cell (with value 1)!"
cell = row.AddCell()
cell.Value = "A cell (with value 2)!"
refTable := NewSharedStringRefTable()
styles := newXlsxStyleSheet(nil)
xSheet := sheet.makeXLSXSheet(refTable, styles)
output := bytes.NewBufferString(xml.Header)
body, err := xml.Marshal(xSheet)
c.Assert(err, IsNil)
c.Assert(body, NotNil)
_, err = output.Write(body)
c.Assert(err, IsNil)
expectedXLSXSheet := `
01
&C&"Times New Roman,Regular"&12&A&C&"Times New Roman,Regular"&12Page &P`
c.Assert(output.String(), Equals, expectedXLSXSheet)
}
func (s *SheetSuite) TestSetColWidth(c *C) {
file := NewFile()
sheet, _ := file.AddSheet("Sheet1")
_ = sheet.SetColWidth(0, 0, 10.5)
_ = sheet.SetColWidth(1, 5, 11)
c.Assert(sheet.Cols[0].Width, Equals, 10.5)
c.Assert(sheet.Cols[0].Max, Equals, 1)
c.Assert(sheet.Cols[0].Min, Equals, 1)
c.Assert(sheet.Cols[1].Width, Equals, float64(11))
c.Assert(sheet.Cols[1].Max, Equals, 2)
c.Assert(sheet.Cols[1].Min, Equals, 2)
}
func (s *SheetSuite) TestSetRowHeightCM(c *C) {
file := NewFile()
sheet, _ := file.AddSheet("Sheet1")
row := sheet.AddRow()
row.SetHeightCM(1.5)
c.Assert(row.Height, Equals, 42.51968505)
}
func (s *SheetSuite) TestAlignment(c *C) {
leftalign := *DefaultAlignment()
leftalign.Horizontal = "left"
centerHalign := *DefaultAlignment()
centerHalign.Horizontal = "center"
rightalign := *DefaultAlignment()
rightalign.Horizontal = "right"
file := NewFile()
sheet, _ := file.AddSheet("Sheet1")
style := NewStyle()
hrow := sheet.AddRow()
// Horizontals
cell := hrow.AddCell()
cell.Value = "left"
style.Alignment = leftalign
style.ApplyAlignment = true
cell.SetStyle(style)
style = NewStyle()
cell = hrow.AddCell()
cell.Value = "centerH"
style.Alignment = centerHalign
style.ApplyAlignment = true
cell.SetStyle(style)
style = NewStyle()
cell = hrow.AddCell()
cell.Value = "right"
style.Alignment = rightalign
style.ApplyAlignment = true
cell.SetStyle(style)
// Verticals
topalign := *DefaultAlignment()
topalign.Vertical = "top"
centerValign := *DefaultAlignment()
centerValign.Vertical = "center"
bottomalign := *DefaultAlignment()
bottomalign.Vertical = "bottom"
style = NewStyle()
vrow := sheet.AddRow()
cell = vrow.AddCell()
cell.Value = "top"
style.Alignment = topalign
style.ApplyAlignment = true
cell.SetStyle(style)
style = NewStyle()
cell = vrow.AddCell()
cell.Value = "centerV"
style.Alignment = centerValign
style.ApplyAlignment = true
cell.SetStyle(style)
style = NewStyle()
cell = vrow.AddCell()
cell.Value = "bottom"
style.Alignment = bottomalign
style.ApplyAlignment = true
cell.SetStyle(style)
parts, err := file.MarshallParts()
c.Assert(err, IsNil)
obtained := parts["xl/styles.xml"]
shouldbe := `
`
expected := bytes.NewBufferString(shouldbe)
c.Assert(obtained, Equals, expected.String())
}
func (s *SheetSuite) TestBorder(c *C) {
file := NewFile()
sheet, _ := file.AddSheet("Sheet1")
row := sheet.AddRow()
cell1 := row.AddCell()
cell1.Value = "A cell!"
style1 := NewStyle()
style1.Border = *NewBorder("thin", "thin", "thin", "thin")
style1.ApplyBorder = true
cell1.SetStyle(style1)
refTable := NewSharedStringRefTable()
styles := newXlsxStyleSheet(nil)
worksheet := sheet.makeXLSXSheet(refTable, styles)
c.Assert(styles.Borders.Border[1].Left.Style, Equals, "thin")
c.Assert(styles.Borders.Border[1].Right.Style, Equals, "thin")
c.Assert(styles.Borders.Border[1].Top.Style, Equals, "thin")
c.Assert(styles.Borders.Border[1].Bottom.Style, Equals, "thin")
c.Assert(worksheet.SheetData.Row[0].C[0].S, Equals, 1)
}
func (s *SheetSuite) TestOutlineLevels(c *C) {
file := NewFile()
sheet, _ := file.AddSheet("Sheet1")
r1 := sheet.AddRow()
c11 := r1.AddCell()
c11.Value = "A1"
c12 := r1.AddCell()
c12.Value = "B1"
r2 := sheet.AddRow()
c21 := r2.AddCell()
c21.Value = "A2"
c22 := r2.AddCell()
c22.Value = "B2"
r3 := sheet.AddRow()
c31 := r3.AddCell()
c31.Value = "A3"
c32 := r3.AddCell()
c32.Value = "B3"
// Add some groups
r1.OutlineLevel = 1
r2.OutlineLevel = 2
sheet.Col(0).OutlineLevel = 1
refTable := NewSharedStringRefTable()
styles := newXlsxStyleSheet(nil)
worksheet := sheet.makeXLSXSheet(refTable, styles)
c.Assert(worksheet.SheetFormatPr.OutlineLevelCol, Equals, uint8(1))
c.Assert(worksheet.SheetFormatPr.OutlineLevelRow, Equals, uint8(2))
c.Assert(worksheet.Cols.Col[0].OutlineLevel, Equals, uint8(1))
c.Assert(worksheet.Cols.Col[1].OutlineLevel, Equals, uint8(0))
c.Assert(worksheet.SheetData.Row[0].OutlineLevel, Equals, uint8(1))
c.Assert(worksheet.SheetData.Row[1].OutlineLevel, Equals, uint8(2))
c.Assert(worksheet.SheetData.Row[2].OutlineLevel, Equals, uint8(0))
}
func (s *SheetSuite) TestAutoFilter(c *C) {
file := NewFile()
sheet, _ := file.AddSheet("Sheet1")
r1 := sheet.AddRow()
r1.AddCell()
r1.AddCell()
r1.AddCell()
r2 := sheet.AddRow()
r2.AddCell()
r2.AddCell()
r2.AddCell()
r3 := sheet.AddRow()
r3.AddCell()
r3.AddCell()
r3.AddCell()
// Define a filter area
sheet.AutoFilter = &AutoFilter{TopLeftCell: "B2", BottomRightCell: "C3"}
refTable := NewSharedStringRefTable()
styles := newXlsxStyleSheet(nil)
worksheet := sheet.makeXLSXSheet(refTable, styles)
c.Assert(worksheet.AutoFilter, NotNil)
c.Assert(worksheet.AutoFilter.Ref, Equals, "B2:C3")
}