// Copyright 2016 - 2020 The excelize Authors. All rights reserved. Use of // this source code is governed by a BSD-style license that can be found in // the LICENSE file. // // Package excelize providing a set of functions that allow you to write to // and read from XLSX files. Support reads and writes XLSX file generated by // Microsoft Excelâ„¢ 2007 and later. Support save file without losing original // charts of XLSX. This library needs Go version 1.10 or later. package excelize import ( "encoding/xml" "errors" "fmt" "strconv" "strings" ) // PivotTableOption directly maps the format settings of the pivot table. type PivotTableOption struct { DataRange string PivotTableRange string Rows []string Columns []string Data []string Page []string } // AddPivotTable provides the method to add pivot table by given pivot table // options. For example, create a pivot table on the Sheet1!$G$2:$M$34 area // with the region Sheet1!$A$1:$E$31 as the data source, summarize by sum for // sales: // // package main // // import ( // "fmt" // "math/rand" // // "github.com/360EntSecGroup-Skylar/excelize" // ) // // func main() { // f := excelize.NewFile() // // Create some data in a sheet // month := []string{"Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep", "Oct", "Nov", "Dec"} // year := []int{2017, 2018, 2019} // types := []string{"Meat", "Dairy", "Beverages", "Produce"} // region := []string{"East", "West", "North", "South"} // f.SetSheetRow("Sheet1", "A1", &[]string{"Month", "Year", "Type", "Sales", "Region"}) // for i := 0; i < 30; i++ { // f.SetCellValue("Sheet1", fmt.Sprintf("A%d", i+2), month[rand.Intn(12)]) // f.SetCellValue("Sheet1", fmt.Sprintf("B%d", i+2), year[rand.Intn(3)]) // f.SetCellValue("Sheet1", fmt.Sprintf("C%d", i+2), types[rand.Intn(4)]) // f.SetCellValue("Sheet1", fmt.Sprintf("D%d", i+2), rand.Intn(5000)) // f.SetCellValue("Sheet1", fmt.Sprintf("E%d", i+2), region[rand.Intn(4)]) // } // if err := f.AddPivotTable(&excelize.PivotTableOption{ // DataRange: "Sheet1!$A$1:$E$31", // PivotTableRange: "Sheet1!$G$2:$M$34", // Rows: []string{"Month", "Year"}, // Columns: []string{"Type"}, // Data: []string{"Sales"}, // }); err != nil { // println(err.Error()) // } // if err := f.SaveAs("Book1.xlsx"); err != nil { // println(err.Error()) // } // } // func (f *File) AddPivotTable(opt *PivotTableOption) error { // parameter validation dataSheet, pivotTableSheetPath, err := f.parseFormatPivotTableSet(opt) if err != nil { return err } pivotTableID := f.countPivotTables() + 1 pivotCacheID := f.countPivotCache() + 1 sheetRelationshipsPivotTableXML := "../pivotTables/pivotTable" + strconv.Itoa(pivotTableID) + ".xml" pivotTableXML := strings.Replace(sheetRelationshipsPivotTableXML, "..", "xl", -1) pivotCacheXML := "xl/pivotCache/pivotCacheDefinition" + strconv.Itoa(pivotCacheID) + ".xml" err = f.addPivotCache(pivotCacheID, pivotCacheXML, opt, dataSheet) if err != nil { return err } // workbook pivot cache workBookPivotCacheRID := f.addRels("xl/_rels/workbook.xml.rels", SourceRelationshipPivotCache, fmt.Sprintf("pivotCache/pivotCacheDefinition%d.xml", pivotCacheID), "") cacheID := f.addWorkbookPivotCache(workBookPivotCacheRID) pivotCacheRels := "xl/pivotTables/_rels/pivotTable" + strconv.Itoa(pivotTableID) + ".xml.rels" // rId not used _ = f.addRels(pivotCacheRels, SourceRelationshipPivotCache, fmt.Sprintf("../pivotCache/pivotCacheDefinition%d.xml", pivotCacheID), "") err = f.addPivotTable(cacheID, pivotTableID, pivotTableXML, opt) if err != nil { return err } pivotTableSheetRels := "xl/worksheets/_rels/" + strings.TrimPrefix(pivotTableSheetPath, "xl/worksheets/") + ".rels" f.addRels(pivotTableSheetRels, SourceRelationshipPivotTable, sheetRelationshipsPivotTableXML, "") f.addContentTypePart(pivotTableID, "pivotTable") f.addContentTypePart(pivotCacheID, "pivotCache") return nil } // parseFormatPivotTableSet provides a function to validate pivot table // properties. func (f *File) parseFormatPivotTableSet(opt *PivotTableOption) (*xlsxWorksheet, string, error) { if opt == nil { return nil, "", errors.New("parameter is required") } dataSheetName, _, err := f.adjustRange(opt.DataRange) if err != nil { return nil, "", fmt.Errorf("parameter 'DataRange' parsing error: %s", err.Error()) } pivotTableSheetName, _, err := f.adjustRange(opt.PivotTableRange) if err != nil { return nil, "", fmt.Errorf("parameter 'PivotTableRange' parsing error: %s", err.Error()) } dataSheet, err := f.workSheetReader(dataSheetName) if err != nil { return dataSheet, "", err } pivotTableSheetPath, ok := f.sheetMap[trimSheetName(pivotTableSheetName)] if !ok { return dataSheet, pivotTableSheetPath, fmt.Errorf("sheet %s is not exist", pivotTableSheetName) } return dataSheet, pivotTableSheetPath, err } // adjustRange adjust range, for example: adjust Sheet1!$E$31:$A$1 to Sheet1!$A$1:$E$31 func (f *File) adjustRange(rangeStr string) (string, []int, error) { if len(rangeStr) < 1 { return "", []int{}, errors.New("parameter is required") } rng := strings.Split(rangeStr, "!") if len(rng) != 2 { return "", []int{}, errors.New("parameter is invalid") } trimRng := strings.Replace(rng[1], "$", "", -1) coordinates, err := f.areaRefToCoordinates(trimRng) if err != nil { return rng[0], []int{}, err } x1, y1, x2, y2 := coordinates[0], coordinates[1], coordinates[2], coordinates[3] if x1 == x2 && y1 == y2 { return rng[0], []int{}, errors.New("parameter is invalid") } // Correct the coordinate area, such correct C1:B3 to B1:C3. if x2 < x1 { x1, x2 = x2, x1 } if y2 < y1 { y1, y2 = y2, y1 } return rng[0], []int{x1, y1, x2, y2}, nil } func (f *File) getPivotFieldsOrder(dataRange string) ([]string, error) { order := []string{} // data range has been checked dataSheet, coordinates, err := f.adjustRange(dataRange) if err != nil { return order, fmt.Errorf("parameter 'DataRange' parsing error: %s", err.Error()) } for col := coordinates[0]; col <= coordinates[2]; col++ { coordinate, _ := CoordinatesToCellName(col, coordinates[1]) name, err := f.GetCellValue(dataSheet, coordinate) if err != nil { return order, err } order = append(order, name) } return order, nil } // addPivotCache provides a function to create a pivot cache by given properties. func (f *File) addPivotCache(pivotCacheID int, pivotCacheXML string, opt *PivotTableOption, ws *xlsxWorksheet) error { // validate data range dataSheet, coordinates, err := f.adjustRange(opt.DataRange) if err != nil { return fmt.Errorf("parameter 'DataRange' parsing error: %s", err.Error()) } order, err := f.getPivotFieldsOrder(opt.DataRange) if err != nil { return err } hcell, _ := CoordinatesToCellName(coordinates[0], coordinates[1]) vcell, _ := CoordinatesToCellName(coordinates[2], coordinates[3]) pc := xlsxPivotCacheDefinition{ SaveData: false, RefreshOnLoad: true, CacheSource: &xlsxCacheSource{ Type: "worksheet", WorksheetSource: &xlsxWorksheetSource{ Ref: hcell + ":" + vcell, Sheet: dataSheet, }, }, CacheFields: &xlsxCacheFields{}, } for _, name := range order { pc.CacheFields.CacheField = append(pc.CacheFields.CacheField, &xlsxCacheField{ Name: name, SharedItems: &xlsxSharedItems{ Count: 0, }, }) } pc.CacheFields.Count = len(pc.CacheFields.CacheField) pivotCache, err := xml.Marshal(pc) f.saveFileList(pivotCacheXML, pivotCache) return err } // addPivotTable provides a function to create a pivot table by given pivot // table ID and properties. func (f *File) addPivotTable(cacheID, pivotTableID int, pivotTableXML string, opt *PivotTableOption) error { // validate pivot table range _, coordinates, err := f.adjustRange(opt.PivotTableRange) if err != nil { return fmt.Errorf("parameter 'PivotTableRange' parsing error: %s", err.Error()) } hcell, _ := CoordinatesToCellName(coordinates[0], coordinates[1]) vcell, _ := CoordinatesToCellName(coordinates[2], coordinates[3]) pt := xlsxPivotTableDefinition{ Name: fmt.Sprintf("Pivot Table%d", pivotTableID), CacheID: cacheID, DataCaption: "Values", Location: &xlsxLocation{ Ref: hcell + ":" + vcell, FirstDataCol: 1, FirstDataRow: 1, FirstHeaderRow: 1, }, PivotFields: &xlsxPivotFields{}, RowFields: &xlsxRowFields{}, RowItems: &xlsxRowItems{ Count: 1, I: []*xlsxI{ { []*xlsxX{{}, {}}, }, }, }, ColItems: &xlsxColItems{ Count: 1, I: []*xlsxI{{}}, }, DataFields: &xlsxDataFields{}, PivotTableStyleInfo: &xlsxPivotTableStyleInfo{ Name: "PivotStyleLight16", ShowRowHeaders: true, ShowColHeaders: true, ShowLastColumn: true, }, } // pivot fields err = f.addPivotFields(&pt, opt) if err != nil { return err } // count pivot fields pt.PivotFields.Count = len(pt.PivotFields.PivotField) // row fields rowFieldsIndex, err := f.getPivotFieldsIndex(opt.Rows, opt) if err != nil { return err } for _, filedIdx := range rowFieldsIndex { pt.RowFields.Field = append(pt.RowFields.Field, &xlsxField{ X: filedIdx, }) } // count row fields pt.RowFields.Count = len(pt.RowFields.Field) err = f.addPivotColFields(&pt, opt) if err != nil { return err } // data fields dataFieldsIndex, err := f.getPivotFieldsIndex(opt.Data, opt) if err != nil { return err } for _, dataField := range dataFieldsIndex { pt.DataFields.DataField = append(pt.DataFields.DataField, &xlsxDataField{ Fld: dataField, }) } // count data fields pt.DataFields.Count = len(pt.DataFields.DataField) pivotTable, err := xml.Marshal(pt) f.saveFileList(pivotTableXML, pivotTable) return err } // inStrSlice provides a method to check if an element is present in an array, // and return the index of its location, otherwise return -1. func inStrSlice(a []string, x string) int { for idx, n := range a { if x == n { return idx } } return -1 } // addPivotColFields create pivot column fields by given pivot table // definition and option. func (f *File) addPivotColFields(pt *xlsxPivotTableDefinition, opt *PivotTableOption) error { if len(opt.Columns) == 0 { return nil } pt.ColFields = &xlsxColFields{} // col fields colFieldsIndex, err := f.getPivotFieldsIndex(opt.Columns, opt) if err != nil { return err } for _, filedIdx := range colFieldsIndex { pt.ColFields.Field = append(pt.ColFields.Field, &xlsxField{ X: filedIdx, }) } // count col fields pt.ColFields.Count = len(pt.ColFields.Field) return err } // addPivotFields create pivot fields based on the column order of the first // row in the data region by given pivot table definition and option. func (f *File) addPivotFields(pt *xlsxPivotTableDefinition, opt *PivotTableOption) error { order, err := f.getPivotFieldsOrder(opt.DataRange) if err != nil { return err } for _, name := range order { if inStrSlice(opt.Rows, name) != -1 { pt.PivotFields.PivotField = append(pt.PivotFields.PivotField, &xlsxPivotField{ Axis: "axisRow", Items: &xlsxItems{ Count: 1, Item: []*xlsxItem{ {T: "default"}, }, }, }) continue } if inStrSlice(opt.Columns, name) != -1 { pt.PivotFields.PivotField = append(pt.PivotFields.PivotField, &xlsxPivotField{ Axis: "axisCol", Items: &xlsxItems{ Count: 1, Item: []*xlsxItem{ {T: "default"}, }, }, }) continue } if inStrSlice(opt.Data, name) != -1 { pt.PivotFields.PivotField = append(pt.PivotFields.PivotField, &xlsxPivotField{ DataField: true, }) continue } pt.PivotFields.PivotField = append(pt.PivotFields.PivotField, &xlsxPivotField{}) } return err } // countPivotTables provides a function to get drawing files count storage in // the folder xl/pivotTables. func (f *File) countPivotTables() int { count := 0 for k := range f.XLSX { if strings.Contains(k, "xl/pivotTables/pivotTable") { count++ } } return count } // countPivotCache provides a function to get drawing files count storage in // the folder xl/pivotCache. func (f *File) countPivotCache() int { count := 0 for k := range f.XLSX { if strings.Contains(k, "xl/pivotCache/pivotCacheDefinition") { count++ } } return count } // getPivotFieldsIndex convert the column of the first row in the data region // to a sequential index by given fields and pivot option. func (f *File) getPivotFieldsIndex(fields []string, opt *PivotTableOption) ([]int, error) { pivotFieldsIndex := []int{} orders, err := f.getPivotFieldsOrder(opt.DataRange) if err != nil { return pivotFieldsIndex, err } for _, field := range fields { if pos := inStrSlice(orders, field); pos != -1 { pivotFieldsIndex = append(pivotFieldsIndex, pos) } } return pivotFieldsIndex, nil } // addWorkbookPivotCache add the association ID of the pivot cache in xl/workbook.xml. func (f *File) addWorkbookPivotCache(RID int) int { wb := f.workbookReader() if wb.PivotCaches == nil { wb.PivotCaches = &xlsxPivotCaches{} } cacheID := 1 for _, pivotCache := range wb.PivotCaches.PivotCache { if pivotCache.CacheID > cacheID { cacheID = pivotCache.CacheID } } cacheID++ wb.PivotCaches.PivotCache = append(wb.PivotCaches.PivotCache, xlsxPivotCache{ CacheID: cacheID, RID: fmt.Sprintf("rId%d", RID), }) return cacheID }