// SiYuan - Refactor your thinking // Copyright (c) 2020-present, b3log.org // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU Affero General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Affero General Public License for more details. // // You should have received a copy of the GNU Affero General Public License // along with this program. If not, see . package av import ( "math" "sort" "github.com/siyuan-note/siyuan/kernel/util" ) // LayoutTable 描述了表格布局的结构。 type LayoutTable struct { Spec int `json:"spec"` // 布局格式版本 ID string `json:"id"` // 布局 ID Columns []*ViewTableColumn `json:"columns"` // 表格列 RowIDs []string `json:"rowIds"` // 行 ID,用于自定义排序 Filters []*ViewFilter `json:"filters"` // 过滤规则 Sorts []*ViewSort `json:"sorts"` // 排序规则 PageSize int `json:"pageSize"` // 每页行数 } type ViewTableColumn struct { ID string `json:"id"` // 列 ID Wrap bool `json:"wrap"` // 是否换行 Hidden bool `json:"hidden"` // 是否隐藏 Pin bool `json:"pin"` // 是否固定 Width string `json:"width"` // 列宽度 Calc *ColumnCalc `json:"calc,omitempty"` // 计算 } type Calculable interface { CalcCols() } type ColumnCalc struct { Operator CalcOperator `json:"operator"` Result *Value `json:"result"` } type CalcOperator string const ( CalcOperatorNone CalcOperator = "" CalcOperatorCountAll CalcOperator = "Count all" CalcOperatorCountValues CalcOperator = "Count values" CalcOperatorCountUniqueValues CalcOperator = "Count unique values" CalcOperatorCountEmpty CalcOperator = "Count empty" CalcOperatorCountNotEmpty CalcOperator = "Count not empty" CalcOperatorPercentEmpty CalcOperator = "Percent empty" CalcOperatorPercentNotEmpty CalcOperator = "Percent not empty" CalcOperatorSum CalcOperator = "Sum" CalcOperatorAverage CalcOperator = "Average" CalcOperatorMedian CalcOperator = "Median" CalcOperatorMin CalcOperator = "Min" CalcOperatorMax CalcOperator = "Max" CalcOperatorRange CalcOperator = "Range" CalcOperatorEarliest CalcOperator = "Earliest" CalcOperatorLatest CalcOperator = "Latest" CalcOperatorChecked CalcOperator = "Checked" CalcOperatorUnchecked CalcOperator = "Unchecked" CalcOperatorPercentChecked CalcOperator = "Percent checked" CalcOperatorPercentUnchecked CalcOperator = "Percent unchecked" ) // Table 描述了表格实例的结构。 type Table struct { ID string `json:"id"` // 表格布局 ID Icon string `json:"icon"` // 表格图标 Name string `json:"name"` // 表格名称 HideAttrViewName bool `json:"hideAttrViewName"` // 是否隐藏属性视图名称 Filters []*ViewFilter `json:"filters"` // 过滤规则 Sorts []*ViewSort `json:"sorts"` // 排序规则 Columns []*TableColumn `json:"columns"` // 表格列 Rows []*TableRow `json:"rows"` // 表格行 RowCount int `json:"rowCount"` // 表格总行数 PageSize int `json:"pageSize"` // 每页行数 } type TableColumn struct { ID string `json:"id"` // 列 ID Name string `json:"name"` // 列名 Type KeyType `json:"type"` // 列类型 Icon string `json:"icon"` // 列图标 Wrap bool `json:"wrap"` // 是否换行 Hidden bool `json:"hidden"` // 是否隐藏 Pin bool `json:"pin"` // 是否固定 Width string `json:"width"` // 列宽度 Calc *ColumnCalc `json:"calc"` // 计算 // 以下是某些列类型的特有属性 Options []*SelectOption `json:"options,omitempty"` // 选项列表 NumberFormat NumberFormat `json:"numberFormat"` // 数字列格式化 Template string `json:"template"` // 模板列内容 Relation *Relation `json:"relation,omitempty"` // 关联列 Rollup *Rollup `json:"rollup,omitempty"` // 汇总列 Date *Date `json:"date,omitempty"` // 日期设置 } type TableCell struct { ID string `json:"id"` Value *Value `json:"value"` ValueType KeyType `json:"valueType"` Color string `json:"color"` BgColor string `json:"bgColor"` } type TableRow struct { ID string `json:"id"` Cells []*TableCell `json:"cells"` } func (row *TableRow) GetBlockValue() (ret *Value) { for _, cell := range row.Cells { if KeyTypeBlock == cell.ValueType { ret = cell.Value break } } return } func (row *TableRow) GetValue(keyID string) (ret *Value) { for _, cell := range row.Cells { if nil != cell.Value && keyID == cell.Value.KeyID { ret = cell.Value break } } return } func (table *Table) GetType() LayoutType { return LayoutTypeTable } func (table *Table) GetID() string { return table.ID } func (table *Table) SortRows(attrView *AttributeView) { if 1 > len(table.Sorts) { return } type ColIndexSort struct { Index int Order SortOrder } var colIndexSorts []*ColIndexSort for _, s := range table.Sorts { for i, c := range table.Columns { if c.ID == s.Column { colIndexSorts = append(colIndexSorts, &ColIndexSort{Index: i, Order: s.Order}) break } } } editedValRows := map[string]bool{} for i, row := range table.Rows { for _, colIndexSort := range colIndexSorts { val := table.Rows[i].Cells[colIndexSort.Index].Value if KeyTypeCheckbox == val.Type { if block := row.GetBlockValue(); nil != block && block.IsEdited() { // 如果主键编辑过,则勾选框也算作编辑过,参与排序 https://github.com/siyuan-note/siyuan/issues/11016 editedValRows[row.ID] = true break } } if val.IsEdited() { // 如果该行某列的值已经编辑过,则该行可参与排序 editedValRows[row.ID] = true break } } } // 将未编辑的行和已编辑的行分开排序 var uneditedRows, editedRows []*TableRow for _, row := range table.Rows { if _, ok := editedValRows[row.ID]; ok { editedRows = append(editedRows, row) } else { uneditedRows = append(uneditedRows, row) } } sort.Slice(uneditedRows, func(i, j int) bool { val1 := uneditedRows[i].GetBlockValue() if nil == val1 { return true } val2 := uneditedRows[j].GetBlockValue() if nil == val2 { return false } return val1.CreatedAt < val2.CreatedAt }) sort.Slice(editedRows, func(i, j int) bool { sorted := true for _, colIndexSort := range colIndexSorts { val1 := editedRows[i].Cells[colIndexSort.Index].Value val2 := editedRows[j].Cells[colIndexSort.Index].Value if nil == val1 || val1.IsEmpty() { if nil != val2 && !val2.IsEmpty() { return false } sorted = false continue } else { if nil == val2 || val2.IsEmpty() { return true } } result := val1.Compare(val2, attrView) if 0 == result { sorted = false continue } sorted = true if colIndexSort.Order == SortOrderAsc { return 0 > result } return 0 < result } if !sorted { key1 := editedRows[i].GetBlockValue() if nil == key1 { return false } key2 := editedRows[j].GetBlockValue() if nil == key2 { return false } return key1.CreatedAt < key2.CreatedAt } return false }) // 将包含未编辑的行放在最后 table.Rows = append(editedRows, uneditedRows...) if 1 > len(table.Rows) { table.Rows = []*TableRow{} } } func (table *Table) FilterRows(attrView *AttributeView) { if 1 > len(table.Filters) { return } var colIndexes []int for _, f := range table.Filters { for i, c := range table.Columns { if c.ID == f.Column { colIndexes = append(colIndexes, i) break } } } rows := []*TableRow{} for _, row := range table.Rows { pass := true for j, index := range colIndexes { operator := table.Filters[j].Operator if nil == row.Cells[index].Value { if FilterOperatorIsNotEmpty == operator { pass = false } else if FilterOperatorIsEmpty == operator { pass = true break } if KeyTypeText != row.Cells[index].ValueType { pass = false } break } if !row.Cells[index].Value.Filter(table.Filters[j], attrView, row.ID) { pass = false break } } if pass { rows = append(rows, row) } } table.Rows = rows } func (table *Table) CalcCols() { for i, col := range table.Columns { if nil == col.Calc { continue } if CalcOperatorNone == col.Calc.Operator { continue } switch col.Type { case KeyTypeBlock: table.calcColBlock(col, i) case KeyTypeText: table.calcColText(col, i) case KeyTypeNumber: table.calcColNumber(col, i) case KeyTypeDate: table.calcColDate(col, i) case KeyTypeSelect: table.calcColSelect(col, i) case KeyTypeMSelect: table.calcColMSelect(col, i) case KeyTypeURL: table.calcColURL(col, i) case KeyTypeEmail: table.calcColEmail(col, i) case KeyTypePhone: table.calcColPhone(col, i) case KeyTypeMAsset: table.calcColMAsset(col, i) case KeyTypeTemplate: table.calcColTemplate(col, i) case KeyTypeCreated: table.calcColCreated(col, i) case KeyTypeUpdated: table.calcColUpdated(col, i) case KeyTypeCheckbox: table.calcColCheckbox(col, i) case KeyTypeRelation: table.calcColRelation(col, i) case KeyTypeRollup: table.calcColRollup(col, i) } } } func (table *Table) calcColTemplate(col *TableColumn, colIndex int) { switch col.Calc.Operator { case CalcOperatorCountAll: col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(len(table.Rows)), NumberFormatNone)} case CalcOperatorCountValues: countValues := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Template && "" != row.Cells[colIndex].Value.Template.Content { countValues++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countValues), NumberFormatNone)} case CalcOperatorCountUniqueValues: countUniqueValues := 0 uniqueValues := map[string]bool{} for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Template && "" != row.Cells[colIndex].Value.Template.Content { if !uniqueValues[row.Cells[colIndex].Value.Template.Content] { uniqueValues[row.Cells[colIndex].Value.Template.Content] = true countUniqueValues++ } } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countUniqueValues), NumberFormatNone)} case CalcOperatorCountEmpty: countEmpty := 0 for _, row := range table.Rows { if nil == row.Cells[colIndex] || nil == row.Cells[colIndex].Value || nil == row.Cells[colIndex].Value.Template || "" == row.Cells[colIndex].Value.Template.Content { countEmpty++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countEmpty), NumberFormatNone)} case CalcOperatorCountNotEmpty: countNotEmpty := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Template && "" != row.Cells[colIndex].Value.Template.Content { countNotEmpty++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countNotEmpty), NumberFormatNone)} case CalcOperatorPercentEmpty: countEmpty := 0 for _, row := range table.Rows { if nil == row.Cells[colIndex] || nil == row.Cells[colIndex].Value || nil == row.Cells[colIndex].Value.Template || "" == row.Cells[colIndex].Value.Template.Content { countEmpty++ } } if 0 < len(table.Rows) { col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countEmpty)/float64(len(table.Rows)), NumberFormatPercent)} } case CalcOperatorPercentNotEmpty: countNotEmpty := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Template && "" != row.Cells[colIndex].Value.Template.Content { countNotEmpty++ } } if 0 < len(table.Rows) { col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countNotEmpty)/float64(len(table.Rows)), NumberFormatPercent)} } case CalcOperatorSum: sum := 0.0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Template && "" != row.Cells[colIndex].Value.Template.Content { val, _ := util.Convert2Float(row.Cells[colIndex].Value.Template.Content) sum += val } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(sum, col.NumberFormat)} case CalcOperatorAverage: sum := 0.0 count := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Template && "" != row.Cells[colIndex].Value.Template.Content { val, _ := util.Convert2Float(row.Cells[colIndex].Value.Template.Content) sum += val count++ } } if 0 != count { col.Calc.Result = &Value{Number: NewFormattedValueNumber(sum/float64(count), col.NumberFormat)} } case CalcOperatorMedian: values := []float64{} for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Template && "" != row.Cells[colIndex].Value.Template.Content { val, _ := util.Convert2Float(row.Cells[colIndex].Value.Template.Content) values = append(values, val) } } sort.Float64s(values) if len(values) > 0 { if len(values)%2 == 0 { col.Calc.Result = &Value{Number: NewFormattedValueNumber((values[len(values)/2-1]+values[len(values)/2])/2, col.NumberFormat)} } else { col.Calc.Result = &Value{Number: NewFormattedValueNumber(values[len(values)/2], col.NumberFormat)} } } case CalcOperatorMin: minVal := math.MaxFloat64 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Template && "" != row.Cells[colIndex].Value.Template.Content { val, _ := util.Convert2Float(row.Cells[colIndex].Value.Template.Content) if val < minVal { minVal = val } } } if math.MaxFloat64 != minVal { col.Calc.Result = &Value{Number: NewFormattedValueNumber(minVal, col.NumberFormat)} } case CalcOperatorMax: maxVal := -math.MaxFloat64 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Template && "" != row.Cells[colIndex].Value.Template.Content { val, _ := util.Convert2Float(row.Cells[colIndex].Value.Template.Content) if val > maxVal { maxVal = val } } } if -math.MaxFloat64 != maxVal { col.Calc.Result = &Value{Number: NewFormattedValueNumber(maxVal, col.NumberFormat)} } case CalcOperatorRange: minVal := math.MaxFloat64 maxVal := -math.MaxFloat64 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Template && "" != row.Cells[colIndex].Value.Template.Content { val, _ := util.Convert2Float(row.Cells[colIndex].Value.Template.Content) if val < minVal { minVal = val } if val > maxVal { maxVal = val } } } if math.MaxFloat64 != minVal && -math.MaxFloat64 != maxVal { col.Calc.Result = &Value{Number: NewFormattedValueNumber(maxVal-minVal, col.NumberFormat)} } } } func (table *Table) calcColMAsset(col *TableColumn, colIndex int) { switch col.Calc.Operator { case CalcOperatorCountAll: col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(len(table.Rows)), NumberFormatNone)} case CalcOperatorCountValues: countValues := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.MAsset && 0 < len(row.Cells[colIndex].Value.MAsset) { countValues += len(row.Cells[colIndex].Value.MAsset) } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countValues), NumberFormatNone)} case CalcOperatorCountUniqueValues: countUniqueValues := 0 uniqueValues := map[string]bool{} for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.MAsset && 0 < len(row.Cells[colIndex].Value.MAsset) { for _, sel := range row.Cells[colIndex].Value.MAsset { if _, ok := uniqueValues[sel.Content]; !ok { uniqueValues[sel.Content] = true countUniqueValues++ } } } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countUniqueValues), NumberFormatNone)} case CalcOperatorCountEmpty: countEmpty := 0 for _, row := range table.Rows { if nil == row.Cells[colIndex] || nil == row.Cells[colIndex].Value || nil == row.Cells[colIndex].Value.MAsset || 0 == len(row.Cells[colIndex].Value.MAsset) { countEmpty++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countEmpty), NumberFormatNone)} case CalcOperatorCountNotEmpty: countNotEmpty := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.MAsset && 0 < len(row.Cells[colIndex].Value.MAsset) { countNotEmpty++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countNotEmpty), NumberFormatNone)} case CalcOperatorPercentEmpty: countEmpty := 0 for _, row := range table.Rows { if nil == row.Cells[colIndex] || nil == row.Cells[colIndex].Value || nil == row.Cells[colIndex].Value.MAsset || 0 == len(row.Cells[colIndex].Value.MAsset) { countEmpty++ } } if 0 < len(table.Rows) { col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countEmpty)/float64(len(table.Rows)), NumberFormatPercent)} } case CalcOperatorPercentNotEmpty: countNotEmpty := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.MAsset && 0 < len(row.Cells[colIndex].Value.MAsset) { countNotEmpty++ } } if 0 < len(table.Rows) { col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countNotEmpty)/float64(len(table.Rows)), NumberFormatPercent)} } } } func (table *Table) calcColMSelect(col *TableColumn, colIndex int) { switch col.Calc.Operator { case CalcOperatorCountAll: col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(len(table.Rows)), NumberFormatNone)} case CalcOperatorCountValues: countValues := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.MSelect && 0 < len(row.Cells[colIndex].Value.MSelect) { countValues += len(row.Cells[colIndex].Value.MSelect) } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countValues), NumberFormatNone)} case CalcOperatorCountUniqueValues: countUniqueValues := 0 uniqueValues := map[string]bool{} for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.MSelect && 0 < len(row.Cells[colIndex].Value.MSelect) { for _, sel := range row.Cells[colIndex].Value.MSelect { if _, ok := uniqueValues[sel.Content]; !ok { uniqueValues[sel.Content] = true countUniqueValues++ } } } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countUniqueValues), NumberFormatNone)} case CalcOperatorCountEmpty: countEmpty := 0 for _, row := range table.Rows { if nil == row.Cells[colIndex] || nil == row.Cells[colIndex].Value || nil == row.Cells[colIndex].Value.MSelect || 0 == len(row.Cells[colIndex].Value.MSelect) { countEmpty++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countEmpty), NumberFormatNone)} case CalcOperatorCountNotEmpty: countNotEmpty := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.MSelect && 0 < len(row.Cells[colIndex].Value.MSelect) { countNotEmpty++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countNotEmpty), NumberFormatNone)} case CalcOperatorPercentEmpty: countEmpty := 0 for _, row := range table.Rows { if nil == row.Cells[colIndex] || nil == row.Cells[colIndex].Value || nil == row.Cells[colIndex].Value.MSelect || 0 == len(row.Cells[colIndex].Value.MSelect) { countEmpty++ } } if 0 < len(table.Rows) { col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countEmpty)/float64(len(table.Rows)), NumberFormatPercent)} } case CalcOperatorPercentNotEmpty: countNotEmpty := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.MSelect && 0 < len(row.Cells[colIndex].Value.MSelect) { countNotEmpty++ } } if 0 < len(table.Rows) { col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countNotEmpty)/float64(len(table.Rows)), NumberFormatPercent)} } } } func (table *Table) calcColSelect(col *TableColumn, colIndex int) { switch col.Calc.Operator { case CalcOperatorCountAll: col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(len(table.Rows)), NumberFormatNone)} case CalcOperatorCountValues: countValues := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.MSelect && 0 < len(row.Cells[colIndex].Value.MSelect) && nil != row.Cells[colIndex].Value.MSelect[0] && "" != row.Cells[colIndex].Value.MSelect[0].Content { countValues++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countValues), NumberFormatNone)} case CalcOperatorCountUniqueValues: countUniqueValues := 0 uniqueValues := map[string]bool{} for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.MSelect && 0 < len(row.Cells[colIndex].Value.MSelect) && nil != row.Cells[colIndex].Value.MSelect[0] && "" != row.Cells[colIndex].Value.MSelect[0].Content { if _, ok := uniqueValues[row.Cells[colIndex].Value.MSelect[0].Content]; !ok { uniqueValues[row.Cells[colIndex].Value.MSelect[0].Content] = true countUniqueValues++ } } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countUniqueValues), NumberFormatNone)} case CalcOperatorCountEmpty: countEmpty := 0 for _, row := range table.Rows { if nil == row.Cells[colIndex] || nil == row.Cells[colIndex].Value || nil == row.Cells[colIndex].Value.MSelect || 1 > len(row.Cells[colIndex].Value.MSelect) || nil == row.Cells[colIndex].Value.MSelect[0] || "" == row.Cells[colIndex].Value.MSelect[0].Content { countEmpty++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countEmpty), NumberFormatNone)} case CalcOperatorCountNotEmpty: countNotEmpty := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.MSelect && 0 < len(row.Cells[colIndex].Value.MSelect) && nil != row.Cells[colIndex].Value.MSelect[0] && "" != row.Cells[colIndex].Value.MSelect[0].Content { countNotEmpty++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countNotEmpty), NumberFormatNone)} case CalcOperatorPercentEmpty: countEmpty := 0 for _, row := range table.Rows { if nil == row.Cells[colIndex] || nil == row.Cells[colIndex].Value || nil == row.Cells[colIndex].Value.MSelect || 1 > len(row.Cells[colIndex].Value.MSelect) || nil == row.Cells[colIndex].Value.MSelect[0] || "" == row.Cells[colIndex].Value.MSelect[0].Content { countEmpty++ } } if 0 < len(table.Rows) { col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countEmpty)/float64(len(table.Rows)), NumberFormatPercent)} } case CalcOperatorPercentNotEmpty: countNotEmpty := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.MSelect && 0 < len(row.Cells[colIndex].Value.MSelect) && nil != row.Cells[colIndex].Value.MSelect[0] && "" != row.Cells[colIndex].Value.MSelect[0].Content { countNotEmpty++ } } if 0 < len(table.Rows) { col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countNotEmpty)/float64(len(table.Rows)), NumberFormatPercent)} } } } func (table *Table) calcColDate(col *TableColumn, colIndex int) { switch col.Calc.Operator { case CalcOperatorCountAll: col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(len(table.Rows)), NumberFormatNone)} case CalcOperatorCountValues: countValues := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Date && row.Cells[colIndex].Value.Date.IsNotEmpty { countValues++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countValues), NumberFormatNone)} case CalcOperatorCountUniqueValues: countUniqueValues := 0 uniqueValues := map[int64]bool{} for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Date && row.Cells[colIndex].Value.Date.IsNotEmpty { if _, ok := uniqueValues[row.Cells[colIndex].Value.Date.Content]; !ok { countUniqueValues++ uniqueValues[row.Cells[colIndex].Value.Date.Content] = true } } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countUniqueValues), NumberFormatNone)} case CalcOperatorCountEmpty: countEmpty := 0 for _, row := range table.Rows { if nil == row.Cells[colIndex] || nil == row.Cells[colIndex].Value || nil == row.Cells[colIndex].Value.Date || !row.Cells[colIndex].Value.Date.IsNotEmpty { countEmpty++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countEmpty), NumberFormatNone)} case CalcOperatorCountNotEmpty: countNotEmpty := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Date && row.Cells[colIndex].Value.Date.IsNotEmpty { countNotEmpty++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countNotEmpty), NumberFormatNone)} case CalcOperatorPercentEmpty: countEmpty := 0 for _, row := range table.Rows { if nil == row.Cells[colIndex] || nil == row.Cells[colIndex].Value || nil == row.Cells[colIndex].Value.Date || !row.Cells[colIndex].Value.Date.IsNotEmpty { countEmpty++ } } if 0 < len(table.Rows) { col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countEmpty)/float64(len(table.Rows)), NumberFormatPercent)} } case CalcOperatorPercentNotEmpty: countNotEmpty := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Date && row.Cells[colIndex].Value.Date.IsNotEmpty { countNotEmpty++ } } if 0 < len(table.Rows) { col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countNotEmpty)/float64(len(table.Rows)), NumberFormatPercent)} } case CalcOperatorEarliest: earliest := int64(0) var isNotTime, hasEndDate bool for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Date && row.Cells[colIndex].Value.Date.IsNotEmpty { if 0 == earliest || earliest > row.Cells[colIndex].Value.Date.Content { earliest = row.Cells[colIndex].Value.Date.Content isNotTime = row.Cells[colIndex].Value.Date.IsNotTime hasEndDate = row.Cells[colIndex].Value.Date.HasEndDate } } } if 0 != earliest { col.Calc.Result = &Value{Date: NewFormattedValueDate(earliest, 0, DateFormatNone, isNotTime, hasEndDate)} } case CalcOperatorLatest: latest := int64(0) var isNotTime, hasEndDate bool for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Date && row.Cells[colIndex].Value.Date.IsNotEmpty { if 0 == latest || latest < row.Cells[colIndex].Value.Date.Content { latest = row.Cells[colIndex].Value.Date.Content isNotTime = row.Cells[colIndex].Value.Date.IsNotTime hasEndDate = row.Cells[colIndex].Value.Date.HasEndDate } } } if 0 != latest { col.Calc.Result = &Value{Date: NewFormattedValueDate(latest, 0, DateFormatNone, isNotTime, hasEndDate)} } case CalcOperatorRange: earliest := int64(0) latest := int64(0) var isNotTime, hasEndDate bool for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Date && row.Cells[colIndex].Value.Date.IsNotEmpty { if 0 == earliest || earliest > row.Cells[colIndex].Value.Date.Content { earliest = row.Cells[colIndex].Value.Date.Content isNotTime = row.Cells[colIndex].Value.Date.IsNotTime hasEndDate = row.Cells[colIndex].Value.Date.HasEndDate } if 0 == latest || latest < row.Cells[colIndex].Value.Date.Content { latest = row.Cells[colIndex].Value.Date.Content isNotTime = row.Cells[colIndex].Value.Date.IsNotTime hasEndDate = row.Cells[colIndex].Value.Date.HasEndDate } } } if 0 != earliest && 0 != latest { col.Calc.Result = &Value{Date: NewFormattedValueDate(earliest, latest, DateFormatDuration, isNotTime, hasEndDate)} } } } func (table *Table) calcColNumber(col *TableColumn, colIndex int) { switch col.Calc.Operator { case CalcOperatorCountAll: col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(len(table.Rows)), NumberFormatNone)} case CalcOperatorCountValues: countValues := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Number && row.Cells[colIndex].Value.Number.IsNotEmpty { countValues++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countValues), NumberFormatNone)} case CalcOperatorCountUniqueValues: countUniqueValues := 0 uniqueValues := map[float64]bool{} for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Number && row.Cells[colIndex].Value.Number.IsNotEmpty { if !uniqueValues[row.Cells[colIndex].Value.Number.Content] { uniqueValues[row.Cells[colIndex].Value.Number.Content] = true countUniqueValues++ } } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countUniqueValues), NumberFormatNone)} case CalcOperatorCountEmpty: countEmpty := 0 for _, row := range table.Rows { if nil == row.Cells[colIndex] || nil == row.Cells[colIndex].Value || nil == row.Cells[colIndex].Value.Number || !row.Cells[colIndex].Value.Number.IsNotEmpty { countEmpty++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countEmpty), NumberFormatNone)} case CalcOperatorCountNotEmpty: countNotEmpty := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Number && row.Cells[colIndex].Value.Number.IsNotEmpty { countNotEmpty++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countNotEmpty), NumberFormatNone)} case CalcOperatorPercentEmpty: countEmpty := 0 for _, row := range table.Rows { if nil == row.Cells[colIndex] || nil == row.Cells[colIndex].Value || nil == row.Cells[colIndex].Value.Number || !row.Cells[colIndex].Value.Number.IsNotEmpty { countEmpty++ } } if 0 < len(table.Rows) { col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countEmpty)/float64(len(table.Rows)), NumberFormatPercent)} } case CalcOperatorPercentNotEmpty: countNotEmpty := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Number && row.Cells[colIndex].Value.Number.IsNotEmpty { countNotEmpty++ } } if 0 < len(table.Rows) { col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countNotEmpty)/float64(len(table.Rows)), NumberFormatPercent)} } case CalcOperatorSum: sum := 0.0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Number && row.Cells[colIndex].Value.Number.IsNotEmpty { sum += row.Cells[colIndex].Value.Number.Content } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(sum, col.NumberFormat)} case CalcOperatorAverage: sum := 0.0 count := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Number && row.Cells[colIndex].Value.Number.IsNotEmpty { sum += row.Cells[colIndex].Value.Number.Content count++ } } if 0 != count { col.Calc.Result = &Value{Number: NewFormattedValueNumber(sum/float64(count), col.NumberFormat)} } case CalcOperatorMedian: values := []float64{} for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Number && row.Cells[colIndex].Value.Number.IsNotEmpty { values = append(values, row.Cells[colIndex].Value.Number.Content) } } sort.Float64s(values) if len(values) > 0 { if len(values)%2 == 0 { col.Calc.Result = &Value{Number: NewFormattedValueNumber((values[len(values)/2-1]+values[len(values)/2])/2, col.NumberFormat)} } else { col.Calc.Result = &Value{Number: NewFormattedValueNumber(values[len(values)/2], col.NumberFormat)} } } case CalcOperatorMin: minVal := math.MaxFloat64 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Number && row.Cells[colIndex].Value.Number.IsNotEmpty { if row.Cells[colIndex].Value.Number.Content < minVal { minVal = row.Cells[colIndex].Value.Number.Content } } } if math.MaxFloat64 != minVal { col.Calc.Result = &Value{Number: NewFormattedValueNumber(minVal, col.NumberFormat)} } case CalcOperatorMax: maxVal := -math.MaxFloat64 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Number && row.Cells[colIndex].Value.Number.IsNotEmpty { if row.Cells[colIndex].Value.Number.Content > maxVal { maxVal = row.Cells[colIndex].Value.Number.Content } } } if -math.MaxFloat64 != maxVal { col.Calc.Result = &Value{Number: NewFormattedValueNumber(maxVal, col.NumberFormat)} } case CalcOperatorRange: minVal := math.MaxFloat64 maxVal := -math.MaxFloat64 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Number && row.Cells[colIndex].Value.Number.IsNotEmpty { if row.Cells[colIndex].Value.Number.Content < minVal { minVal = row.Cells[colIndex].Value.Number.Content } if row.Cells[colIndex].Value.Number.Content > maxVal { maxVal = row.Cells[colIndex].Value.Number.Content } } } if math.MaxFloat64 != minVal && -math.MaxFloat64 != maxVal { col.Calc.Result = &Value{Number: NewFormattedValueNumber(maxVal-minVal, col.NumberFormat)} } } } func (table *Table) calcColText(col *TableColumn, colIndex int) { switch col.Calc.Operator { case CalcOperatorCountAll: col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(len(table.Rows)), NumberFormatNone)} case CalcOperatorCountValues: countValues := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Text && "" != row.Cells[colIndex].Value.Text.Content { countValues++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countValues), NumberFormatNone)} case CalcOperatorCountUniqueValues: countUniqueValues := 0 uniqueValues := map[string]bool{} for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Text && "" != row.Cells[colIndex].Value.Text.Content { if !uniqueValues[row.Cells[colIndex].Value.Text.Content] { uniqueValues[row.Cells[colIndex].Value.Text.Content] = true countUniqueValues++ } } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countUniqueValues), NumberFormatNone)} case CalcOperatorCountEmpty: countEmpty := 0 for _, row := range table.Rows { if nil == row.Cells[colIndex] || nil == row.Cells[colIndex].Value || nil == row.Cells[colIndex].Value.Text || "" == row.Cells[colIndex].Value.Text.Content { countEmpty++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countEmpty), NumberFormatNone)} case CalcOperatorCountNotEmpty: countNotEmpty := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Text && "" != row.Cells[colIndex].Value.Text.Content { countNotEmpty++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countNotEmpty), NumberFormatNone)} case CalcOperatorPercentEmpty: countEmpty := 0 for _, row := range table.Rows { if nil == row.Cells[colIndex] || nil == row.Cells[colIndex].Value || nil == row.Cells[colIndex].Value.Text || "" == row.Cells[colIndex].Value.Text.Content { countEmpty++ } } if 0 < len(table.Rows) { col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countEmpty)/float64(len(table.Rows)), NumberFormatPercent)} } case CalcOperatorPercentNotEmpty: countNotEmpty := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Text && "" != row.Cells[colIndex].Value.Text.Content { countNotEmpty++ } } if 0 < len(table.Rows) { col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countNotEmpty)/float64(len(table.Rows)), NumberFormatPercent)} } } } func (table *Table) calcColURL(col *TableColumn, colIndex int) { switch col.Calc.Operator { case CalcOperatorCountAll: col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(len(table.Rows)), NumberFormatNone)} case CalcOperatorCountValues: countValues := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.URL && "" != row.Cells[colIndex].Value.URL.Content { countValues++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countValues), NumberFormatNone)} case CalcOperatorCountUniqueValues: countUniqueValues := 0 uniqueValues := map[string]bool{} for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.URL && "" != row.Cells[colIndex].Value.URL.Content { if !uniqueValues[row.Cells[colIndex].Value.URL.Content] { uniqueValues[row.Cells[colIndex].Value.URL.Content] = true countUniqueValues++ } } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countUniqueValues), NumberFormatNone)} case CalcOperatorCountEmpty: countEmpty := 0 for _, row := range table.Rows { if nil == row.Cells[colIndex] || nil == row.Cells[colIndex].Value || nil == row.Cells[colIndex].Value.URL || "" == row.Cells[colIndex].Value.URL.Content { countEmpty++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countEmpty), NumberFormatNone)} case CalcOperatorCountNotEmpty: countNotEmpty := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.URL && "" != row.Cells[colIndex].Value.URL.Content { countNotEmpty++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countNotEmpty), NumberFormatNone)} case CalcOperatorPercentEmpty: countEmpty := 0 for _, row := range table.Rows { if nil == row.Cells[colIndex] || nil == row.Cells[colIndex].Value || nil == row.Cells[colIndex].Value.URL || "" == row.Cells[colIndex].Value.URL.Content { countEmpty++ } } if 0 < len(table.Rows) { col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countEmpty)/float64(len(table.Rows)), NumberFormatPercent)} } case CalcOperatorPercentNotEmpty: countNotEmpty := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.URL && "" != row.Cells[colIndex].Value.URL.Content { countNotEmpty++ } } if 0 < len(table.Rows) { col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countNotEmpty)/float64(len(table.Rows)), NumberFormatPercent)} } } } func (table *Table) calcColEmail(col *TableColumn, colIndex int) { switch col.Calc.Operator { case CalcOperatorCountAll: col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(len(table.Rows)), NumberFormatNone)} case CalcOperatorCountValues: countValues := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Email && "" != row.Cells[colIndex].Value.Email.Content { countValues++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countValues), NumberFormatNone)} case CalcOperatorCountUniqueValues: countUniqueValues := 0 uniqueValues := map[string]bool{} for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Email && "" != row.Cells[colIndex].Value.Email.Content { if !uniqueValues[row.Cells[colIndex].Value.Email.Content] { uniqueValues[row.Cells[colIndex].Value.Email.Content] = true countUniqueValues++ } } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countUniqueValues), NumberFormatNone)} case CalcOperatorCountEmpty: countEmpty := 0 for _, row := range table.Rows { if nil == row.Cells[colIndex] || nil == row.Cells[colIndex].Value || nil == row.Cells[colIndex].Value.Email || "" == row.Cells[colIndex].Value.Email.Content { countEmpty++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countEmpty), NumberFormatNone)} case CalcOperatorCountNotEmpty: countNotEmpty := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Email && "" != row.Cells[colIndex].Value.Email.Content { countNotEmpty++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countNotEmpty), NumberFormatNone)} case CalcOperatorPercentEmpty: countEmpty := 0 for _, row := range table.Rows { if nil == row.Cells[colIndex] || nil == row.Cells[colIndex].Value || nil == row.Cells[colIndex].Value.Email || "" == row.Cells[colIndex].Value.Email.Content { countEmpty++ } } if 0 < len(table.Rows) { col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countEmpty)/float64(len(table.Rows)), NumberFormatPercent)} } case CalcOperatorPercentNotEmpty: countNotEmpty := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Email && "" != row.Cells[colIndex].Value.Email.Content { countNotEmpty++ } } if 0 < len(table.Rows) { col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countNotEmpty)/float64(len(table.Rows)), NumberFormatPercent)} } } } func (table *Table) calcColPhone(col *TableColumn, colIndex int) { switch col.Calc.Operator { case CalcOperatorCountAll: col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(len(table.Rows)), NumberFormatNone)} case CalcOperatorCountValues: countValues := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Phone && "" != row.Cells[colIndex].Value.Phone.Content { countValues++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countValues), NumberFormatNone)} case CalcOperatorCountUniqueValues: countUniqueValues := 0 uniqueValues := map[string]bool{} for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Phone && "" != row.Cells[colIndex].Value.Phone.Content { if !uniqueValues[row.Cells[colIndex].Value.Phone.Content] { uniqueValues[row.Cells[colIndex].Value.Phone.Content] = true countUniqueValues++ } } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countUniqueValues), NumberFormatNone)} case CalcOperatorCountEmpty: countEmpty := 0 for _, row := range table.Rows { if nil == row.Cells[colIndex] || nil == row.Cells[colIndex].Value || nil == row.Cells[colIndex].Value.Phone || "" == row.Cells[colIndex].Value.Phone.Content { countEmpty++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countEmpty), NumberFormatNone)} case CalcOperatorCountNotEmpty: countNotEmpty := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Phone && "" != row.Cells[colIndex].Value.Phone.Content { countNotEmpty++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countNotEmpty), NumberFormatNone)} case CalcOperatorPercentEmpty: countEmpty := 0 for _, row := range table.Rows { if nil == row.Cells[colIndex] || nil == row.Cells[colIndex].Value || nil == row.Cells[colIndex].Value.Phone || "" == row.Cells[colIndex].Value.Phone.Content { countEmpty++ } } if 0 < len(table.Rows) { col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countEmpty)/float64(len(table.Rows)), NumberFormatPercent)} } case CalcOperatorPercentNotEmpty: countNotEmpty := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Phone && "" != row.Cells[colIndex].Value.Phone.Content { countNotEmpty++ } } if 0 < len(table.Rows) { col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countNotEmpty)/float64(len(table.Rows)), NumberFormatPercent)} } } } func (table *Table) calcColBlock(col *TableColumn, colIndex int) { switch col.Calc.Operator { case CalcOperatorCountAll: col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(len(table.Rows)), NumberFormatNone)} case CalcOperatorCountValues: countValues := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Block && "" != row.Cells[colIndex].Value.Block.Content { countValues++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countValues), NumberFormatNone)} case CalcOperatorCountUniqueValues: countUniqueValues := 0 uniqueValues := map[string]bool{} for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Block && "" != row.Cells[colIndex].Value.Block.Content { if !uniqueValues[row.Cells[colIndex].Value.Block.Content] { uniqueValues[row.Cells[colIndex].Value.Block.Content] = true countUniqueValues++ } } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countUniqueValues), NumberFormatNone)} case CalcOperatorCountEmpty: countEmpty := 0 for _, row := range table.Rows { if nil == row.Cells[colIndex] || nil == row.Cells[colIndex].Value || nil == row.Cells[colIndex].Value.Block || "" == row.Cells[colIndex].Value.Block.Content { countEmpty++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countEmpty), NumberFormatNone)} case CalcOperatorCountNotEmpty: countNotEmpty := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Block && "" != row.Cells[colIndex].Value.Block.Content { countNotEmpty++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countNotEmpty), NumberFormatNone)} case CalcOperatorPercentEmpty: countEmpty := 0 for _, row := range table.Rows { if nil == row.Cells[colIndex] || nil == row.Cells[colIndex].Value || nil == row.Cells[colIndex].Value.Block || "" == row.Cells[colIndex].Value.Block.Content { countEmpty++ } } if 0 < len(table.Rows) { col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countEmpty)/float64(len(table.Rows)), NumberFormatPercent)} } case CalcOperatorPercentNotEmpty: countNotEmpty := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Block && "" != row.Cells[colIndex].Value.Block.Content { countNotEmpty++ } } if 0 < len(table.Rows) { col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countNotEmpty)/float64(len(table.Rows)), NumberFormatPercent)} } } } func (table *Table) calcColCreated(col *TableColumn, colIndex int) { switch col.Calc.Operator { case CalcOperatorCountAll: col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(len(table.Rows)), NumberFormatNone)} case CalcOperatorCountValues: countValues := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Created { countValues++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countValues), NumberFormatNone)} case CalcOperatorCountUniqueValues: countUniqueValues := 0 uniqueValues := map[int64]bool{} for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Created { if _, ok := uniqueValues[row.Cells[colIndex].Value.Created.Content]; !ok { countUniqueValues++ uniqueValues[row.Cells[colIndex].Value.Created.Content] = true } } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countUniqueValues), NumberFormatNone)} case CalcOperatorCountEmpty: countEmpty := 0 for _, row := range table.Rows { if nil == row.Cells[colIndex] || nil == row.Cells[colIndex].Value || nil == row.Cells[colIndex].Value.Created { countEmpty++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countEmpty), NumberFormatNone)} case CalcOperatorCountNotEmpty: countNotEmpty := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Created { countNotEmpty++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countNotEmpty), NumberFormatNone)} case CalcOperatorPercentEmpty: countEmpty := 0 for _, row := range table.Rows { if nil == row.Cells[colIndex] || nil == row.Cells[colIndex].Value || nil == row.Cells[colIndex].Value.Created { countEmpty++ } } if 0 < len(table.Rows) { col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countEmpty)/float64(len(table.Rows)), NumberFormatPercent)} } case CalcOperatorPercentNotEmpty: countNotEmpty := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Created { countNotEmpty++ } } if 0 < len(table.Rows) { col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countNotEmpty)/float64(len(table.Rows)), NumberFormatPercent)} } case CalcOperatorEarliest: earliest := int64(0) for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Created { if 0 == earliest || earliest > row.Cells[colIndex].Value.Created.Content { earliest = row.Cells[colIndex].Value.Created.Content } } } if 0 != earliest { col.Calc.Result = &Value{Created: NewFormattedValueCreated(earliest, 0, CreatedFormatNone)} } case CalcOperatorLatest: latest := int64(0) for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Created { if 0 == latest || latest < row.Cells[colIndex].Value.Created.Content { latest = row.Cells[colIndex].Value.Created.Content } } } if 0 != latest { col.Calc.Result = &Value{Created: NewFormattedValueCreated(latest, 0, CreatedFormatNone)} } case CalcOperatorRange: earliest := int64(0) latest := int64(0) for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Created { if 0 == earliest || earliest > row.Cells[colIndex].Value.Created.Content { earliest = row.Cells[colIndex].Value.Created.Content } if 0 == latest || latest < row.Cells[colIndex].Value.Created.Content { latest = row.Cells[colIndex].Value.Created.Content } } } if 0 != earliest && 0 != latest { col.Calc.Result = &Value{Created: NewFormattedValueCreated(earliest, latest, CreatedFormatDuration)} } } } func (table *Table) calcColUpdated(col *TableColumn, colIndex int) { switch col.Calc.Operator { case CalcOperatorCountAll: col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(len(table.Rows)), NumberFormatNone)} case CalcOperatorCountValues: countValues := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Updated && row.Cells[colIndex].Value.Updated.IsNotEmpty { countValues++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countValues), NumberFormatNone)} case CalcOperatorCountUniqueValues: countUniqueValues := 0 uniqueValues := map[int64]bool{} for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Updated && row.Cells[colIndex].Value.Updated.IsNotEmpty { if _, ok := uniqueValues[row.Cells[colIndex].Value.Updated.Content]; !ok { countUniqueValues++ uniqueValues[row.Cells[colIndex].Value.Updated.Content] = true } } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countUniqueValues), NumberFormatNone)} case CalcOperatorCountEmpty: countEmpty := 0 for _, row := range table.Rows { if nil == row.Cells[colIndex] || nil == row.Cells[colIndex].Value || nil == row.Cells[colIndex].Value.Updated || !row.Cells[colIndex].Value.Updated.IsNotEmpty { countEmpty++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countEmpty), NumberFormatNone)} case CalcOperatorCountNotEmpty: countNotEmpty := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Updated && row.Cells[colIndex].Value.Updated.IsNotEmpty { countNotEmpty++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countNotEmpty), NumberFormatNone)} case CalcOperatorPercentEmpty: countEmpty := 0 for _, row := range table.Rows { if nil == row.Cells[colIndex] || nil == row.Cells[colIndex].Value || nil == row.Cells[colIndex].Value.Updated || !row.Cells[colIndex].Value.Updated.IsNotEmpty { countEmpty++ } } if 0 < len(table.Rows) { col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countEmpty)/float64(len(table.Rows)), NumberFormatPercent)} } case CalcOperatorPercentNotEmpty: countNotEmpty := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Updated && row.Cells[colIndex].Value.Updated.IsNotEmpty { countNotEmpty++ } } if 0 < len(table.Rows) { col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countNotEmpty)/float64(len(table.Rows)), NumberFormatPercent)} } case CalcOperatorEarliest: earliest := int64(0) for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Updated && row.Cells[colIndex].Value.Updated.IsNotEmpty { if 0 == earliest || earliest > row.Cells[colIndex].Value.Updated.Content { earliest = row.Cells[colIndex].Value.Updated.Content } } } if 0 != earliest { col.Calc.Result = &Value{Updated: NewFormattedValueUpdated(earliest, 0, UpdatedFormatNone)} } case CalcOperatorLatest: latest := int64(0) for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Updated && row.Cells[colIndex].Value.Updated.IsNotEmpty { if 0 == latest || latest < row.Cells[colIndex].Value.Updated.Content { latest = row.Cells[colIndex].Value.Updated.Content } } } if 0 != latest { col.Calc.Result = &Value{Updated: NewFormattedValueUpdated(latest, 0, UpdatedFormatNone)} } case CalcOperatorRange: earliest := int64(0) latest := int64(0) for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Updated && row.Cells[colIndex].Value.Updated.IsNotEmpty { if 0 == earliest || earliest > row.Cells[colIndex].Value.Updated.Content { earliest = row.Cells[colIndex].Value.Updated.Content } if 0 == latest || latest < row.Cells[colIndex].Value.Updated.Content { latest = row.Cells[colIndex].Value.Updated.Content } } } if 0 != earliest && 0 != latest { col.Calc.Result = &Value{Updated: NewFormattedValueUpdated(earliest, latest, UpdatedFormatDuration)} } } } func (table *Table) calcColCheckbox(col *TableColumn, colIndex int) { switch col.Calc.Operator { case CalcOperatorCountAll: col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(len(table.Rows)), NumberFormatNone)} case CalcOperatorChecked: countChecked := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Checkbox && row.Cells[colIndex].Value.Checkbox.Checked { countChecked++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countChecked), NumberFormatNone)} case CalcOperatorUnchecked: countUnchecked := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Checkbox && !row.Cells[colIndex].Value.Checkbox.Checked { countUnchecked++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countUnchecked), NumberFormatNone)} case CalcOperatorPercentChecked: countChecked := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Checkbox && row.Cells[colIndex].Value.Checkbox.Checked { countChecked++ } } if 0 < len(table.Rows) { col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countChecked)/float64(len(table.Rows)), NumberFormatPercent)} } case CalcOperatorPercentUnchecked: countUnchecked := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Checkbox && !row.Cells[colIndex].Value.Checkbox.Checked { countUnchecked++ } } if 0 < len(table.Rows) { col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countUnchecked)/float64(len(table.Rows)), NumberFormatPercent)} } } } func (table *Table) calcColRelation(col *TableColumn, colIndex int) { switch col.Calc.Operator { case CalcOperatorCountAll: col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(len(table.Rows)), NumberFormatNone)} case CalcOperatorCountValues: countValues := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Relation { countValues++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countValues), NumberFormatNone)} case CalcOperatorCountUniqueValues: countUniqueValues := 0 uniqueValues := map[string]bool{} for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Relation { for _, id := range row.Cells[colIndex].Value.Relation.BlockIDs { if !uniqueValues[id] { uniqueValues[id] = true countUniqueValues++ } } } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countUniqueValues), NumberFormatNone)} case CalcOperatorCountEmpty: countEmpty := 0 for _, row := range table.Rows { if nil == row.Cells[colIndex] || nil == row.Cells[colIndex].Value || nil == row.Cells[colIndex].Value.Relation || 0 == len(row.Cells[colIndex].Value.Relation.BlockIDs) { countEmpty++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countEmpty), NumberFormatNone)} case CalcOperatorCountNotEmpty: countNotEmpty := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Relation && 0 < len(row.Cells[colIndex].Value.Relation.BlockIDs) { countNotEmpty++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countNotEmpty), NumberFormatNone)} case CalcOperatorPercentEmpty: countEmpty := 0 for _, row := range table.Rows { if nil == row.Cells[colIndex] || nil == row.Cells[colIndex].Value || nil == row.Cells[colIndex].Value.Relation || 0 == len(row.Cells[colIndex].Value.Relation.BlockIDs) { countEmpty++ } } if 0 < len(table.Rows) { col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countEmpty)/float64(len(table.Rows)), NumberFormatPercent)} } case CalcOperatorPercentNotEmpty: countNotEmpty := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Relation && 0 < len(row.Cells[colIndex].Value.Relation.BlockIDs) { countNotEmpty++ } } if 0 < len(table.Rows) { col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countNotEmpty)/float64(len(table.Rows)), NumberFormatPercent)} } } } func (table *Table) calcColRollup(col *TableColumn, colIndex int) { switch col.Calc.Operator { case CalcOperatorCountAll: col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(len(table.Rows)), NumberFormatNone)} case CalcOperatorCountValues: countValues := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Rollup { countValues++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countValues), NumberFormatNone)} case CalcOperatorCountUniqueValues: countUniqueValues := 0 uniqueValues := map[string]bool{} for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Rollup { for _, content := range row.Cells[colIndex].Value.Rollup.Contents { if !uniqueValues[content.String(true)] { uniqueValues[content.String(true)] = true countUniqueValues++ } } } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countUniqueValues), NumberFormatNone)} case CalcOperatorCountEmpty: countEmpty := 0 for _, row := range table.Rows { if nil == row.Cells[colIndex] || nil == row.Cells[colIndex].Value || nil == row.Cells[colIndex].Value.Rollup || 0 == len(row.Cells[colIndex].Value.Rollup.Contents) { countEmpty++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countEmpty), NumberFormatNone)} case CalcOperatorCountNotEmpty: countNotEmpty := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Rollup && 0 < len(row.Cells[colIndex].Value.Rollup.Contents) { countNotEmpty++ } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countNotEmpty), NumberFormatNone)} case CalcOperatorPercentEmpty: countEmpty := 0 for _, row := range table.Rows { if nil == row.Cells[colIndex] || nil == row.Cells[colIndex].Value || nil == row.Cells[colIndex].Value.Rollup || 0 == len(row.Cells[colIndex].Value.Rollup.Contents) { countEmpty++ } } if 0 < len(table.Rows) { col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countEmpty)/float64(len(table.Rows)), NumberFormatPercent)} } case CalcOperatorPercentNotEmpty: countNotEmpty := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Rollup && 0 < len(row.Cells[colIndex].Value.Rollup.Contents) { countNotEmpty++ } } if 0 < len(table.Rows) { col.Calc.Result = &Value{Number: NewFormattedValueNumber(float64(countNotEmpty)/float64(len(table.Rows)), NumberFormatPercent)} } case CalcOperatorSum: sum := 0.0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Rollup && 0 < len(row.Cells[colIndex].Value.Rollup.Contents) { for _, content := range row.Cells[colIndex].Value.Rollup.Contents { val, _ := util.Convert2Float(content.String(false)) sum += val } } } col.Calc.Result = &Value{Number: NewFormattedValueNumber(sum, col.NumberFormat)} case CalcOperatorAverage: sum := 0.0 count := 0 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Rollup && 0 < len(row.Cells[colIndex].Value.Rollup.Contents) { for _, content := range row.Cells[colIndex].Value.Rollup.Contents { val, _ := util.Convert2Float(content.String(false)) sum += val count++ } } } if 0 != count { col.Calc.Result = &Value{Number: NewFormattedValueNumber(sum/float64(count), col.NumberFormat)} } case CalcOperatorMedian: values := []float64{} for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Rollup && 0 < len(row.Cells[colIndex].Value.Rollup.Contents) { for _, content := range row.Cells[colIndex].Value.Rollup.Contents { val, _ := util.Convert2Float(content.String(false)) values = append(values, val) } } } sort.Float64s(values) if 0 < len(values) { if 0 == len(values)%2 { col.Calc.Result = &Value{Number: NewFormattedValueNumber((values[len(values)/2-1]+values[len(values)/2])/2, col.NumberFormat)} } else { col.Calc.Result = &Value{Number: NewFormattedValueNumber(values[len(values)/2], col.NumberFormat)} } } case CalcOperatorMin: minVal := math.MaxFloat64 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Rollup && 0 < len(row.Cells[colIndex].Value.Rollup.Contents) { for _, content := range row.Cells[colIndex].Value.Rollup.Contents { val, _ := util.Convert2Float(content.String(false)) if val < minVal { minVal = val } } } } if math.MaxFloat64 != minVal { col.Calc.Result = &Value{Number: NewFormattedValueNumber(minVal, col.NumberFormat)} } case CalcOperatorMax: maxVal := -math.MaxFloat64 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Rollup && 0 < len(row.Cells[colIndex].Value.Rollup.Contents) { for _, content := range row.Cells[colIndex].Value.Rollup.Contents { val, _ := util.Convert2Float(content.String(false)) if val > maxVal { maxVal = val } } } } if -math.MaxFloat64 != maxVal { col.Calc.Result = &Value{Number: NewFormattedValueNumber(maxVal, col.NumberFormat)} } case CalcOperatorRange: minVal := math.MaxFloat64 maxVal := -math.MaxFloat64 for _, row := range table.Rows { if nil != row.Cells[colIndex] && nil != row.Cells[colIndex].Value && nil != row.Cells[colIndex].Value.Rollup && 0 < len(row.Cells[colIndex].Value.Rollup.Contents) { for _, content := range row.Cells[colIndex].Value.Rollup.Contents { val, _ := util.Convert2Float(content.String(false)) if val < minVal { minVal = val } if val > maxVal { maxVal = val } } } } if math.MaxFloat64 != minVal && -math.MaxFloat64 != maxVal { col.Calc.Result = &Value{Number: NewFormattedValueNumber(maxVal-minVal, col.NumberFormat)} } } }