package excelize import ( "fmt" "path/filepath" "testing" "github.com/stretchr/testify/assert" ) func TestRows(t *testing.T) { const sheet2 = "Sheet2" xlsx, err := OpenFile(filepath.Join("test", "Book1.xlsx")) if !assert.NoError(t, err) { t.FailNow() } rows, err := xlsx.Rows(sheet2) if !assert.NoError(t, err) { t.FailNow() } collectedRows := make([][]string, 0) for rows.Next() { columns, err := rows.Columns() assert.NoError(t, err) collectedRows = append(collectedRows, trimSliceSpace(columns)) } if !assert.NoError(t, rows.Error()) { t.FailNow() } returnedRows, err := xlsx.GetRows(sheet2) assert.NoError(t, err) for i := range returnedRows { returnedRows[i] = trimSliceSpace(returnedRows[i]) } if !assert.Equal(t, collectedRows, returnedRows) { t.FailNow() } r := Rows{} r.Columns() } func TestRowsError(t *testing.T) { xlsx, err := OpenFile(filepath.Join("test", "Book1.xlsx")) if !assert.NoError(t, err) { t.FailNow() } _, err = xlsx.Rows("SheetN") assert.EqualError(t, err, "Sheet SheetN is not exist") } func TestRowHeight(t *testing.T) { xlsx := NewFile() sheet1 := xlsx.GetSheetName(1) assert.EqualError(t, xlsx.SetRowHeight(sheet1, 0, defaultRowHeightPixels+1.0), "invalid row number 0") height, err := xlsx.GetRowHeight("Sheet1", 0) assert.EqualError(t, err, "invalid row number 0") assert.NoError(t, xlsx.SetRowHeight(sheet1, 1, 111.0)) height, err = xlsx.GetRowHeight(sheet1, 1) assert.NoError(t, err) assert.Equal(t, 111.0, height) assert.NoError(t, xlsx.SetRowHeight(sheet1, 4, 444.0)) height, err = xlsx.GetRowHeight(sheet1, 4) assert.NoError(t, err) assert.Equal(t, 444.0, height) // Test get row height that rows index over exists rows. height, err = xlsx.GetRowHeight(sheet1, 5) assert.NoError(t, err) assert.Equal(t, defaultRowHeightPixels, height) // Test get row height that rows heights haven't changed. height, err = xlsx.GetRowHeight(sheet1, 3) assert.NoError(t, err) assert.Equal(t, defaultRowHeightPixels, height) err = xlsx.SaveAs(filepath.Join("test", "TestRowHeight.xlsx")) if !assert.NoError(t, err) { t.FailNow() } convertColWidthToPixels(0) } func TestRowVisibility(t *testing.T) { xlsx, err := prepareTestBook1() if !assert.NoError(t, err) { t.FailNow() } assert.NoError(t, xlsx.SetRowVisible("Sheet3", 2, false)) assert.NoError(t, xlsx.SetRowVisible("Sheet3", 2, true)) xlsx.GetRowVisible("Sheet3", 2) xlsx.GetRowVisible("Sheet3", 25) assert.EqualError(t, xlsx.SetRowVisible("Sheet3", 0, true), "invalid row number 0") visible, err := xlsx.GetRowVisible("Sheet3", 0) assert.Equal(t, false, visible) assert.EqualError(t, err, "invalid row number 0") assert.NoError(t, xlsx.SaveAs(filepath.Join("test", "TestRowVisibility.xlsx"))) } func TestRemoveRow(t *testing.T) { xlsx := NewFile() sheet1 := xlsx.GetSheetName(1) r := xlsx.workSheetReader(sheet1) const ( colCount = 10 rowCount = 10 ) fillCells(xlsx, sheet1, colCount, rowCount) xlsx.SetCellHyperLink(sheet1, "A5", "https://github.com/360EntSecGroup-Skylar/excelize", "External") assert.EqualError(t, xlsx.RemoveRow(sheet1, -1), "invalid row number -1") assert.EqualError(t, xlsx.RemoveRow(sheet1, 0), "invalid row number 0") assert.NoError(t, xlsx.RemoveRow(sheet1, 4)) if !assert.Len(t, r.SheetData.Row, rowCount-1) { t.FailNow() } xlsx.MergeCell(sheet1, "B3", "B5") assert.NoError(t, xlsx.RemoveRow(sheet1, 2)) if !assert.Len(t, r.SheetData.Row, rowCount-2) { t.FailNow() } assert.NoError(t, xlsx.RemoveRow(sheet1, 4)) if !assert.Len(t, r.SheetData.Row, rowCount-3) { t.FailNow() } err := xlsx.AutoFilter(sheet1, "A2", "A2", `{"column":"A","expression":"x != blanks"}`) if !assert.NoError(t, err) { t.FailNow() } assert.NoError(t, xlsx.RemoveRow(sheet1, 1)) if !assert.Len(t, r.SheetData.Row, rowCount-4) { t.FailNow() } assert.NoError(t, xlsx.RemoveRow(sheet1, 2)) if !assert.Len(t, r.SheetData.Row, rowCount-5) { t.FailNow() } assert.NoError(t, xlsx.RemoveRow(sheet1, 1)) if !assert.Len(t, r.SheetData.Row, rowCount-6) { t.FailNow() } assert.NoError(t, xlsx.RemoveRow(sheet1, 10)) assert.NoError(t, xlsx.SaveAs(filepath.Join("test", "TestRemoveRow.xlsx"))) } func TestInsertRow(t *testing.T) { xlsx := NewFile() sheet1 := xlsx.GetSheetName(1) r := xlsx.workSheetReader(sheet1) const ( colCount = 10 rowCount = 10 ) fillCells(xlsx, sheet1, colCount, rowCount) xlsx.SetCellHyperLink(sheet1, "A5", "https://github.com/360EntSecGroup-Skylar/excelize", "External") assert.EqualError(t, xlsx.InsertRow(sheet1, -1), "invalid row number -1") assert.EqualError(t, xlsx.InsertRow(sheet1, 0), "invalid row number 0") assert.NoError(t, xlsx.InsertRow(sheet1, 1)) if !assert.Len(t, r.SheetData.Row, rowCount+1) { t.FailNow() } assert.NoError(t, xlsx.InsertRow(sheet1, 4)) if !assert.Len(t, r.SheetData.Row, rowCount+2) { t.FailNow() } assert.NoError(t, xlsx.SaveAs(filepath.Join("test", "TestInsertRow.xlsx"))) } // Testing internal sructure state after insert operations. // It is important for insert workflow to be constant to avoid side effect with functions related to internal structure. func TestInsertRowInEmptyFile(t *testing.T) { xlsx := NewFile() sheet1 := xlsx.GetSheetName(1) r := xlsx.workSheetReader(sheet1) assert.NoError(t, xlsx.InsertRow(sheet1, 1)) assert.Len(t, r.SheetData.Row, 0) assert.NoError(t, xlsx.InsertRow(sheet1, 2)) assert.Len(t, r.SheetData.Row, 0) assert.NoError(t, xlsx.InsertRow(sheet1, 99)) assert.Len(t, r.SheetData.Row, 0) assert.NoError(t, xlsx.SaveAs(filepath.Join("test", "TestInsertRowInEmptyFile.xlsx"))) } func TestDuplicateRow(t *testing.T) { const sheet = "Sheet1" outFile := filepath.Join("test", "TestDuplicateRow.%s.xlsx") cells := map[string]string{ "A1": "A1 Value", "A2": "A2 Value", "A3": "A3 Value", "B1": "B1 Value", "B2": "B2 Value", "B3": "B3 Value", } newFileWithDefaults := func() *File { f := NewFile() for cell, val := range cells { f.SetCellStr(sheet, cell, val) } return f } t.Run("FromSingleRow", func(t *testing.T) { xlsx := NewFile() xlsx.SetCellStr(sheet, "A1", cells["A1"]) xlsx.SetCellStr(sheet, "B1", cells["B1"]) assert.NoError(t, xlsx.DuplicateRow(sheet, 1)) if !assert.NoError(t, xlsx.SaveAs(fmt.Sprintf(outFile, "TestDuplicateRow.FromSingleRow_1"))) { t.FailNow() } expect := map[string]string{ "A1": cells["A1"], "B1": cells["B1"], "A2": cells["A1"], "B2": cells["B1"], } for cell, val := range expect { v, err := xlsx.GetCellValue(sheet, cell) assert.NoError(t, err) if !assert.Equal(t, val, v, cell) { t.FailNow() } } assert.NoError(t, xlsx.DuplicateRow(sheet, 2)) if !assert.NoError(t, xlsx.SaveAs(fmt.Sprintf(outFile, "TestDuplicateRow.FromSingleRow_2"))) { t.FailNow() } expect = map[string]string{ "A1": cells["A1"], "B1": cells["B1"], "A2": cells["A1"], "B2": cells["B1"], "A3": cells["A1"], "B3": cells["B1"], } for cell, val := range expect { v, err := xlsx.GetCellValue(sheet, cell) assert.NoError(t, err) if !assert.Equal(t, val, v, cell) { t.FailNow() } } }) t.Run("UpdateDuplicatedRows", func(t *testing.T) { xlsx := NewFile() xlsx.SetCellStr(sheet, "A1", cells["A1"]) xlsx.SetCellStr(sheet, "B1", cells["B1"]) assert.NoError(t, xlsx.DuplicateRow(sheet, 1)) xlsx.SetCellStr(sheet, "A2", cells["A2"]) xlsx.SetCellStr(sheet, "B2", cells["B2"]) if !assert.NoError(t, xlsx.SaveAs(fmt.Sprintf(outFile, "TestDuplicateRow.UpdateDuplicatedRows"))) { t.FailNow() } expect := map[string]string{ "A1": cells["A1"], "B1": cells["B1"], "A2": cells["A2"], "B2": cells["B2"], } for cell, val := range expect { v, err := xlsx.GetCellValue(sheet, cell) assert.NoError(t, err) if !assert.Equal(t, val, v, cell) { t.FailNow() } } }) t.Run("FirstOfMultipleRows", func(t *testing.T) { xlsx := newFileWithDefaults() assert.NoError(t, xlsx.DuplicateRow(sheet, 1)) if !assert.NoError(t, xlsx.SaveAs(fmt.Sprintf(outFile, "TestDuplicateRow.FirstOfMultipleRows"))) { t.FailNow() } expect := map[string]string{ "A1": cells["A1"], "B1": cells["B1"], "A2": cells["A1"], "B2": cells["B1"], "A3": cells["A2"], "B3": cells["B2"], "A4": cells["A3"], "B4": cells["B3"], } for cell, val := range expect { v, err := xlsx.GetCellValue(sheet, cell) assert.NoError(t, err) if !assert.Equal(t, val, v, cell) { t.FailNow() } } }) t.Run("ZeroWithNoRows", func(t *testing.T) { xlsx := NewFile() assert.EqualError(t, xlsx.DuplicateRow(sheet, 0), "invalid row number 0") if !assert.NoError(t, xlsx.SaveAs(fmt.Sprintf(outFile, "TestDuplicateRow.ZeroWithNoRows"))) { t.FailNow() } val, err := xlsx.GetCellValue(sheet, "A1") assert.NoError(t, err) assert.Equal(t, "", val) val, err = xlsx.GetCellValue(sheet, "B1") assert.NoError(t, err) assert.Equal(t, "", val) val, err = xlsx.GetCellValue(sheet, "A2") assert.NoError(t, err) assert.Equal(t, "", val) val, err = xlsx.GetCellValue(sheet, "B2") assert.NoError(t, err) assert.Equal(t, "", val) assert.NoError(t, err) expect := map[string]string{ "A1": "", "B1": "", "A2": "", "B2": "", } for cell, val := range expect { v, err := xlsx.GetCellValue(sheet, cell) assert.NoError(t, err) if !assert.Equal(t, val, v, cell) { t.FailNow() } } }) t.Run("MiddleRowOfEmptyFile", func(t *testing.T) { xlsx := NewFile() assert.NoError(t, xlsx.DuplicateRow(sheet, 99)) if !assert.NoError(t, xlsx.SaveAs(fmt.Sprintf(outFile, "TestDuplicateRow.MiddleRowOfEmptyFile"))) { t.FailNow() } expect := map[string]string{ "A98": "", "A99": "", "A100": "", } for cell, val := range expect { v, err := xlsx.GetCellValue(sheet, cell) assert.NoError(t, err) if !assert.Equal(t, val, v, cell) { t.FailNow() } } }) t.Run("WithLargeOffsetToMiddleOfData", func(t *testing.T) { xlsx := newFileWithDefaults() assert.NoError(t, xlsx.DuplicateRowTo(sheet, 1, 3)) if !assert.NoError(t, xlsx.SaveAs(fmt.Sprintf(outFile, "TestDuplicateRow.WithLargeOffsetToMiddleOfData"))) { t.FailNow() } expect := map[string]string{ "A1": cells["A1"], "B1": cells["B1"], "A2": cells["A2"], "B2": cells["B2"], "A3": cells["A1"], "B3": cells["B1"], "A4": cells["A3"], "B4": cells["B3"], } for cell, val := range expect { v, err := xlsx.GetCellValue(sheet, cell) assert.NoError(t, err) if !assert.Equal(t, val, v, cell) { t.FailNow() } } }) t.Run("WithLargeOffsetToEmptyRows", func(t *testing.T) { xlsx := newFileWithDefaults() assert.NoError(t, xlsx.DuplicateRowTo(sheet, 1, 7)) if !assert.NoError(t, xlsx.SaveAs(fmt.Sprintf(outFile, "TestDuplicateRow.WithLargeOffsetToEmptyRows"))) { t.FailNow() } expect := map[string]string{ "A1": cells["A1"], "B1": cells["B1"], "A2": cells["A2"], "B2": cells["B2"], "A3": cells["A3"], "B3": cells["B3"], "A7": cells["A1"], "B7": cells["B1"], } for cell, val := range expect { v, err := xlsx.GetCellValue(sheet, cell) assert.NoError(t, err) if !assert.Equal(t, val, v, cell) { t.FailNow() } } }) t.Run("InsertBefore", func(t *testing.T) { xlsx := newFileWithDefaults() assert.NoError(t, xlsx.DuplicateRowTo(sheet, 2, 1)) if !assert.NoError(t, xlsx.SaveAs(fmt.Sprintf(outFile, "TestDuplicateRow.InsertBefore"))) { t.FailNow() } expect := map[string]string{ "A1": cells["A2"], "B1": cells["B2"], "A2": cells["A1"], "B2": cells["B1"], "A3": cells["A2"], "B3": cells["B2"], "A4": cells["A3"], "B4": cells["B3"], } for cell, val := range expect { v, err := xlsx.GetCellValue(sheet, cell) assert.NoError(t, err) if !assert.Equal(t, val, v, cell) { t.FailNow() } } }) t.Run("InsertBeforeWithLargeOffset", func(t *testing.T) { xlsx := newFileWithDefaults() assert.NoError(t, xlsx.DuplicateRowTo(sheet, 3, 1)) if !assert.NoError(t, xlsx.SaveAs(fmt.Sprintf(outFile, "TestDuplicateRow.InsertBeforeWithLargeOffset"))) { t.FailNow() } expect := map[string]string{ "A1": cells["A3"], "B1": cells["B3"], "A2": cells["A1"], "B2": cells["B1"], "A3": cells["A2"], "B3": cells["B2"], "A4": cells["A3"], "B4": cells["B3"], } for cell, val := range expect { v, err := xlsx.GetCellValue(sheet, cell) assert.NoError(t, err) if !assert.Equal(t, val, v) { t.FailNow() } } }) } func TestDuplicateRowInvalidRownum(t *testing.T) { const sheet = "Sheet1" outFile := filepath.Join("test", "TestDuplicateRowInvalidRownum.%s.xlsx") cells := map[string]string{ "A1": "A1 Value", "A2": "A2 Value", "A3": "A3 Value", "B1": "B1 Value", "B2": "B2 Value", "B3": "B3 Value", } invalidIndexes := []int{-100, -2, -1, 0} for _, row := range invalidIndexes { name := fmt.Sprintf("%d", row) t.Run(name, func(t *testing.T) { xlsx := NewFile() for col, val := range cells { xlsx.SetCellStr(sheet, col, val) } assert.EqualError(t, xlsx.DuplicateRow(sheet, row), fmt.Sprintf("invalid row number %d", row)) for col, val := range cells { v, err := xlsx.GetCellValue(sheet, col) assert.NoError(t, err) if !assert.Equal(t, val, v) { t.FailNow() } } assert.NoError(t, xlsx.SaveAs(fmt.Sprintf(outFile, name))) }) } for _, row1 := range invalidIndexes { for _, row2 := range invalidIndexes { name := fmt.Sprintf("[%d,%d]", row1, row2) t.Run(name, func(t *testing.T) { xlsx := NewFile() for col, val := range cells { xlsx.SetCellStr(sheet, col, val) } assert.EqualError(t, xlsx.DuplicateRowTo(sheet, row1, row2), fmt.Sprintf("invalid row number %d", row1)) for col, val := range cells { v, err := xlsx.GetCellValue(sheet, col) assert.NoError(t, err) if !assert.Equal(t, val, v) { t.FailNow() } } assert.NoError(t, xlsx.SaveAs(fmt.Sprintf(outFile, name))) }) } } } func trimSliceSpace(s []string) []string { for { if len(s) > 0 && s[len(s)-1] == "" { s = s[:len(s)-1] } else { break } } return s }