excelize/table.go

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// Copyright 2016 - 2019 The excelize Authors. All rights reserved. Use of
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// 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 Excel™ 2007 and later. Support save file without losing original
// charts of XLSX. This library needs Go version 1.10 or later.
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package excelize
import (
"encoding/json"
"encoding/xml"
"fmt"
"regexp"
"strconv"
"strings"
)
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// parseFormatTableSet provides a function to parse the format settings of the
// table with default value.
func parseFormatTableSet(formatSet string) (*formatTable, error) {
format := formatTable{
TableStyle: "",
ShowRowStripes: true,
}
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err := json.Unmarshal(parseFormatSet(formatSet), &format)
return &format, err
}
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// AddTable provides the method to add table in a worksheet by given worksheet
// name, coordinate area and format set. For example, create a table of A1:D5
// on Sheet1:
//
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// err := f.AddTable("Sheet1", "A1", "D5", ``)
//
// Create a table of F2:H6 on Sheet2 with format set:
//
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// err := f.AddTable("Sheet2", "F2", "H6", `{"table_name":"table","table_style":"TableStyleMedium2", "show_first_column":true,"show_last_column":true,"show_row_stripes":false,"show_column_stripes":true}`)
//
// Note that the table at least two lines include string type header. Multiple
// tables coordinate areas can't have an intersection.
//
// table_name: The name of the table, in the same worksheet name of the table should be unique
//
// table_style: The built-in table style names
//
// TableStyleLight1 - TableStyleLight21
// TableStyleMedium1 - TableStyleMedium28
// TableStyleDark1 - TableStyleDark11
//
func (f *File) AddTable(sheet, hcell, vcell, format string) error {
formatSet, err := parseFormatTableSet(format)
if err != nil {
return err
}
// Coordinate conversion, convert C1:B3 to 2,0,1,2.
hcol, hrow, err := CellNameToCoordinates(hcell)
if err != nil {
return err
}
vcol, vrow, err := CellNameToCoordinates(vcell)
if err != nil {
return err
}
if vcol < hcol {
vcol, hcol = hcol, vcol
}
if vrow < hrow {
vrow, hrow = hrow, vrow
}
tableID := f.countTables() + 1
sheetRelationshipsTableXML := "../tables/table" + strconv.Itoa(tableID) + ".xml"
tableXML := strings.Replace(sheetRelationshipsTableXML, "..", "xl", -1)
// Add first table for given sheet.
rID := f.addSheetRelationships(sheet, SourceRelationshipTable, sheetRelationshipsTableXML, "")
f.addSheetTable(sheet, rID)
err = f.addTable(sheet, tableXML, hcol, hrow, vcol, vrow, tableID, formatSet)
if err != nil {
return err
}
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f.addContentTypePart(tableID, "table")
return err
}
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// countTables provides a function to get table files count storage in the
// folder xl/tables.
func (f *File) countTables() int {
count := 0
for k := range f.XLSX {
if strings.Contains(k, "xl/tables/table") {
count++
}
}
return count
}
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// addSheetTable provides a function to add tablePart element to
// xl/worksheets/sheet%d.xml by given worksheet name and relationship index.
func (f *File) addSheetTable(sheet string, rID int) {
xlsx, _ := f.workSheetReader(sheet)
table := &xlsxTablePart{
RID: "rId" + strconv.Itoa(rID),
}
if xlsx.TableParts == nil {
xlsx.TableParts = &xlsxTableParts{}
}
xlsx.TableParts.Count++
xlsx.TableParts.TableParts = append(xlsx.TableParts.TableParts, table)
}
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// addTable provides a function to add table by given worksheet name,
// coordinate area and format set.
func (f *File) addTable(sheet, tableXML string, x1, y1, x2, y2, i int, formatSet *formatTable) error {
// Correct the minimum number of rows, the table at least two lines.
if y1 == y2 {
y2++
}
// Correct table reference coordinate area, such correct C1:B3 to B1:C3.
ref, err := f.coordinatesToAreaRef([]int{x1, y1, x2, y2})
if err != nil {
return err
}
var tableColumn []*xlsxTableColumn
idx := 0
for i := x1; i <= x2; i++ {
idx++
cell, err := CoordinatesToCellName(i, y1)
if err != nil {
return err
}
name, _ := f.GetCellValue(sheet, cell)
if _, err := strconv.Atoi(name); err == nil {
f.SetCellStr(sheet, cell, name)
}
if name == "" {
name = "Column" + strconv.Itoa(idx)
f.SetCellStr(sheet, cell, name)
}
tableColumn = append(tableColumn, &xlsxTableColumn{
ID: idx,
Name: name,
})
}
name := formatSet.TableName
if name == "" {
name = "Table" + strconv.Itoa(i)
}
t := xlsxTable{
XMLNS: NameSpaceSpreadSheet,
ID: i,
Name: name,
DisplayName: name,
Ref: ref,
AutoFilter: &xlsxAutoFilter{
Ref: ref,
},
TableColumns: &xlsxTableColumns{
Count: idx,
TableColumn: tableColumn,
},
TableStyleInfo: &xlsxTableStyleInfo{
Name: formatSet.TableStyle,
ShowFirstColumn: formatSet.ShowFirstColumn,
ShowLastColumn: formatSet.ShowLastColumn,
ShowRowStripes: formatSet.ShowRowStripes,
ShowColumnStripes: formatSet.ShowColumnStripes,
},
}
table, _ := xml.Marshal(t)
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f.saveFileList(tableXML, table)
return nil
}
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// parseAutoFilterSet provides a function to parse the settings of the auto
// filter.
func parseAutoFilterSet(formatSet string) (*formatAutoFilter, error) {
format := formatAutoFilter{}
err := json.Unmarshal([]byte(formatSet), &format)
return &format, err
}
// AutoFilter provides the method to add auto filter in a worksheet by given
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// worksheet name, coordinate area and settings. An autofilter in Excel is a
// way of filtering a 2D range of data based on some simple criteria. For
// example applying an autofilter to a cell range A1:D4 in the Sheet1:
//
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// err := f.AutoFilter("Sheet1", "A1", "D4", "")
//
// Filter data in an autofilter:
//
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// err := f.AutoFilter("Sheet1", "A1", "D4", `{"column":"B","expression":"x != blanks"}`)
//
// column defines the filter columns in a autofilter range based on simple
// criteria
//
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// It isn't sufficient to just specify the filter condition. You must also
// hide any rows that don't match the filter condition. Rows are hidden using
// the SetRowVisible() method. Excelize can't filter rows automatically since
// this isn't part of the file format.
//
// Setting a filter criteria for a column:
//
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// expression defines the conditions, the following operators are available
// for setting the filter criteria:
//
// ==
// !=
// >
// <
// >=
// <=
// and
// or
//
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// An expression can comprise a single statement or two statements separated
// by the 'and' and 'or' operators. For example:
//
// x < 2000
// x > 2000
// x == 2000
// x > 2000 and x < 5000
// x == 2000 or x == 5000
//
// Filtering of blank or non-blank data can be achieved by using a value of
// Blanks or NonBlanks in the expression:
//
// x == Blanks
// x == NonBlanks
//
// Excel also allows some simple string matching operations:
//
// x == b* // begins with b
// x != b* // doesnt begin with b
// x == *b // ends with b
// x != *b // doesnt end with b
// x == *b* // contains b
// x != *b* // doesn't contains b
//
// You can also use '*' to match any character or number and '?' to match any
// single character or number. No other regular expression quantifier is
// supported by Excel's filters. Excel's regular expression characters can be
// escaped using '~'.
//
// The placeholder variable x in the above examples can be replaced by any
// simple string. The actual placeholder name is ignored internally so the
// following are all equivalent:
//
// x < 2000
// col < 2000
// Price < 2000
//
func (f *File) AutoFilter(sheet, hcell, vcell, format string) error {
hcol, hrow, err := CellNameToCoordinates(hcell)
if err != nil {
return err
}
vcol, vrow, err := CellNameToCoordinates(vcell)
if err != nil {
return err
}
if vcol < hcol {
vcol, hcol = hcol, vcol
}
if vrow < hrow {
vrow, hrow = hrow, vrow
}
formatSet, _ := parseAutoFilterSet(format)
var cellStart, cellEnd string
cellStart, err = CoordinatesToCellName(hcol, hrow)
if err != nil {
return err
}
cellEnd, err = CoordinatesToCellName(vcol, vrow)
if err != nil {
return err
}
ref := cellStart + ":" + cellEnd
refRange := vcol - hcol
return f.autoFilter(sheet, ref, refRange, hcol, formatSet)
}
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// autoFilter provides a function to extract the tokens from the filter
// expression. The tokens are mainly non-whitespace groups.
func (f *File) autoFilter(sheet, ref string, refRange, col int, formatSet *formatAutoFilter) error {
xlsx, err := f.workSheetReader(sheet)
if err != nil {
return err
}
if xlsx.SheetPr != nil {
xlsx.SheetPr.FilterMode = true
}
xlsx.SheetPr = &xlsxSheetPr{FilterMode: true}
filter := &xlsxAutoFilter{
Ref: ref,
}
xlsx.AutoFilter = filter
if formatSet.Column == "" || formatSet.Expression == "" {
return nil
}
fsCol, err := ColumnNameToNumber(formatSet.Column)
if err != nil {
return err
}
offset := fsCol - col
if offset < 0 || offset > refRange {
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return fmt.Errorf("incorrect index of column '%s'", formatSet.Column)
}
filter.FilterColumn = &xlsxFilterColumn{
ColID: offset,
}
re := regexp.MustCompile(`"(?:[^"]|"")*"|\S+`)
token := re.FindAllString(formatSet.Expression, -1)
if len(token) != 3 && len(token) != 7 {
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return fmt.Errorf("incorrect number of tokens in criteria '%s'", formatSet.Expression)
}
expressions, tokens, err := f.parseFilterExpression(formatSet.Expression, token)
if err != nil {
return err
}
f.writeAutoFilter(filter, expressions, tokens)
xlsx.AutoFilter = filter
return nil
}
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// writeAutoFilter provides a function to check for single or double custom
// filters as default filters and handle them accordingly.
func (f *File) writeAutoFilter(filter *xlsxAutoFilter, exp []int, tokens []string) {
if len(exp) == 1 && exp[0] == 2 {
// Single equality.
var filters []*xlsxFilter
filters = append(filters, &xlsxFilter{Val: tokens[0]})
filter.FilterColumn.Filters = &xlsxFilters{Filter: filters}
} else if len(exp) == 3 && exp[0] == 2 && exp[1] == 1 && exp[2] == 2 {
// Double equality with "or" operator.
filters := []*xlsxFilter{}
for _, v := range tokens {
filters = append(filters, &xlsxFilter{Val: v})
}
filter.FilterColumn.Filters = &xlsxFilters{Filter: filters}
} else {
// Non default custom filter.
expRel := map[int]int{0: 0, 1: 2}
andRel := map[int]bool{0: true, 1: false}
for k, v := range tokens {
f.writeCustomFilter(filter, exp[expRel[k]], v)
if k == 1 {
filter.FilterColumn.CustomFilters.And = andRel[exp[k]]
}
}
}
}
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// writeCustomFilter provides a function to write the <customFilter> element.
func (f *File) writeCustomFilter(filter *xlsxAutoFilter, operator int, val string) {
operators := map[int]string{
1: "lessThan",
2: "equal",
3: "lessThanOrEqual",
4: "greaterThan",
5: "notEqual",
6: "greaterThanOrEqual",
22: "equal",
}
customFilter := xlsxCustomFilter{
Operator: operators[operator],
Val: val,
}
if filter.FilterColumn.CustomFilters != nil {
filter.FilterColumn.CustomFilters.CustomFilter = append(filter.FilterColumn.CustomFilters.CustomFilter, &customFilter)
} else {
customFilters := []*xlsxCustomFilter{}
customFilters = append(customFilters, &customFilter)
filter.FilterColumn.CustomFilters = &xlsxCustomFilters{CustomFilter: customFilters}
}
}
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// parseFilterExpression provides a function to converts the tokens of a
// possibly conditional expression into 1 or 2 sub expressions for further
// parsing.
//
// Examples:
//
// ('x', '==', 2000) -> exp1
// ('x', '>', 2000, 'and', 'x', '<', 5000) -> exp1 and exp2
//
func (f *File) parseFilterExpression(expression string, tokens []string) ([]int, []string, error) {
expressions := []int{}
t := []string{}
if len(tokens) == 7 {
// The number of tokens will be either 3 (for 1 expression) or 7 (for 2
// expressions).
conditional := 0
c := tokens[3]
re, _ := regexp.Match(`(or|\|\|)`, []byte(c))
if re {
conditional = 1
}
expression1, token1, err := f.parseFilterTokens(expression, tokens[0:3])
if err != nil {
return expressions, t, err
}
expression2, token2, err := f.parseFilterTokens(expression, tokens[4:7])
if err != nil {
return expressions, t, err
}
expressions = []int{expression1[0], conditional, expression2[0]}
t = []string{token1, token2}
} else {
exp, token, err := f.parseFilterTokens(expression, tokens)
if err != nil {
return expressions, t, err
}
expressions = exp
t = []string{token}
}
return expressions, t, nil
}
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// parseFilterTokens provides a function to parse the 3 tokens of a filter
// expression and return the operator and token.
func (f *File) parseFilterTokens(expression string, tokens []string) ([]int, string, error) {
operators := map[string]int{
"==": 2,
"=": 2,
"=~": 2,
"eq": 2,
"!=": 5,
"!~": 5,
"ne": 5,
"<>": 5,
"<": 1,
"<=": 3,
">": 4,
">=": 6,
}
operator, ok := operators[strings.ToLower(tokens[1])]
if !ok {
// Convert the operator from a number to a descriptive string.
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return []int{}, "", fmt.Errorf("unknown operator: %s", tokens[1])
}
token := tokens[2]
// Special handling for Blanks/NonBlanks.
re, _ := regexp.Match("blanks|nonblanks", []byte(strings.ToLower(token)))
if re {
// Only allow Equals or NotEqual in this context.
if operator != 2 && operator != 5 {
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return []int{operator}, token, fmt.Errorf("the operator '%s' in expression '%s' is not valid in relation to Blanks/NonBlanks'", tokens[1], expression)
}
token = strings.ToLower(token)
// The operator should always be 2 (=) to flag a "simple" equality in
// the binary record. Therefore we convert <> to =.
if token == "blanks" {
if operator == 5 {
token = " "
}
} else {
if operator == 5 {
operator = 2
token = "blanks"
} else {
operator = 5
token = " "
}
}
}
// if the string token contains an Excel match character then change the
// operator type to indicate a non "simple" equality.
re, _ = regexp.Match("[*?]", []byte(token))
if operator == 2 && re {
operator = 22
}
return []int{operator}, token, nil
}