hotime/vendor/github.com/360EntSecGroup-Skylar/excelize/col.go
2022-10-19 21:32:34 +08:00

377 lines
11 KiB
Go

// Copyright 2016 - 2019 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 Excel™ 2007 and later. Support save file without losing original
// charts of XLSX. This library needs Go version 1.8 or later.
package excelize
import (
"bytes"
"math"
"strconv"
"strings"
)
// Define the default cell size and EMU unit of measurement.
const (
defaultColWidthPixels float64 = 64
defaultRowHeightPixels float64 = 20
EMU int = 9525
)
// GetColVisible provides a function to get visible of a single column by given
// worksheet name and column name. For example, get visible state of column D
// in Sheet1:
//
// xlsx.GetColVisible("Sheet1", "D")
//
func (f *File) GetColVisible(sheet, column string) bool {
xlsx := f.workSheetReader(sheet)
col := TitleToNumber(strings.ToUpper(column)) + 1
visible := true
if xlsx.Cols == nil {
return visible
}
for c := range xlsx.Cols.Col {
if xlsx.Cols.Col[c].Min <= col && col <= xlsx.Cols.Col[c].Max {
visible = !xlsx.Cols.Col[c].Hidden
}
}
return visible
}
// SetColVisible provides a function to set visible of a single column by given
// worksheet name and column name. For example, hide column D in Sheet1:
//
// xlsx.SetColVisible("Sheet1", "D", false)
//
func (f *File) SetColVisible(sheet, column string, visible bool) {
xlsx := f.workSheetReader(sheet)
c := TitleToNumber(strings.ToUpper(column)) + 1
col := xlsxCol{
Min: c,
Max: c,
Hidden: !visible,
CustomWidth: true,
}
if xlsx.Cols == nil {
cols := xlsxCols{}
cols.Col = append(cols.Col, col)
xlsx.Cols = &cols
return
}
for v := range xlsx.Cols.Col {
if xlsx.Cols.Col[v].Min <= c && c <= xlsx.Cols.Col[v].Max {
col = xlsx.Cols.Col[v]
}
}
col.Min = c
col.Max = c
col.Hidden = !visible
col.CustomWidth = true
xlsx.Cols.Col = append(xlsx.Cols.Col, col)
}
// GetColOutlineLevel provides a function to get outline level of a single
// column by given worksheet name and column name. For example, get outline
// level of column D in Sheet1:
//
// xlsx.GetColOutlineLevel("Sheet1", "D")
//
func (f *File) GetColOutlineLevel(sheet, column string) uint8 {
xlsx := f.workSheetReader(sheet)
col := TitleToNumber(strings.ToUpper(column)) + 1
level := uint8(0)
if xlsx.Cols == nil {
return level
}
for c := range xlsx.Cols.Col {
if xlsx.Cols.Col[c].Min <= col && col <= xlsx.Cols.Col[c].Max {
level = xlsx.Cols.Col[c].OutlineLevel
}
}
return level
}
// SetColOutlineLevel provides a function to set outline level of a single
// column by given worksheet name and column name. For example, set outline
// level of column D in Sheet1 to 2:
//
// xlsx.SetColOutlineLevel("Sheet1", "D", 2)
//
func (f *File) SetColOutlineLevel(sheet, column string, level uint8) {
xlsx := f.workSheetReader(sheet)
c := TitleToNumber(strings.ToUpper(column)) + 1
col := xlsxCol{
Min: c,
Max: c,
OutlineLevel: level,
CustomWidth: true,
}
if xlsx.Cols == nil {
cols := xlsxCols{}
cols.Col = append(cols.Col, col)
xlsx.Cols = &cols
return
}
for v := range xlsx.Cols.Col {
if xlsx.Cols.Col[v].Min <= c && c <= xlsx.Cols.Col[v].Max {
col = xlsx.Cols.Col[v]
}
}
col.Min = c
col.Max = c
col.OutlineLevel = level
col.CustomWidth = true
xlsx.Cols.Col = append(xlsx.Cols.Col, col)
}
// SetColWidth provides a function to set the width of a single column or
// multiple columns. For example:
//
// xlsx := excelize.NewFile()
// xlsx.SetColWidth("Sheet1", "A", "H", 20)
// err := xlsx.Save()
// if err != nil {
// fmt.Println(err)
// }
//
func (f *File) SetColWidth(sheet, startcol, endcol string, width float64) {
min := TitleToNumber(strings.ToUpper(startcol)) + 1
max := TitleToNumber(strings.ToUpper(endcol)) + 1
if min > max {
min, max = max, min
}
xlsx := f.workSheetReader(sheet)
col := xlsxCol{
Min: min,
Max: max,
Width: width,
CustomWidth: true,
}
if xlsx.Cols != nil {
xlsx.Cols.Col = append(xlsx.Cols.Col, col)
} else {
cols := xlsxCols{}
cols.Col = append(cols.Col, col)
xlsx.Cols = &cols
}
}
// positionObjectPixels calculate the vertices that define the position of a
// graphical object within the worksheet in pixels.
//
// +------------+------------+
// | A | B |
// +-----+------------+------------+
// | |(x1,y1) | |
// | 1 |(A1)._______|______ |
// | | | | |
// | | | | |
// +-----+----| OBJECT |-----+
// | | | | |
// | 2 | |______________. |
// | | | (B2)|
// | | | (x2,y2)|
// +-----+------------+------------+
//
// Example of an object that covers some of the area from cell A1 to B2.
//
// Based on the width and height of the object we need to calculate 8 vars:
//
// colStart, rowStart, colEnd, rowEnd, x1, y1, x2, y2.
//
// We also calculate the absolute x and y position of the top left vertex of
// the object. This is required for images.
//
// The width and height of the cells that the object occupies can be
// variable and have to be taken into account.
//
// The values of col_start and row_start are passed in from the calling
// function. The values of col_end and row_end are calculated by
// subtracting the width and height of the object from the width and
// height of the underlying cells.
//
// colStart # Col containing upper left corner of object.
// x1 # Distance to left side of object.
//
// rowStart # Row containing top left corner of object.
// y1 # Distance to top of object.
//
// colEnd # Col containing lower right corner of object.
// x2 # Distance to right side of object.
//
// rowEnd # Row containing bottom right corner of object.
// y2 # Distance to bottom of object.
//
// width # Width of object frame.
// height # Height of object frame.
//
// xAbs # Absolute distance to left side of object.
// yAbs # Absolute distance to top side of object.
//
func (f *File) positionObjectPixels(sheet string, colStart, rowStart, x1, y1, width, height int) (int, int, int, int, int, int, int, int) {
xAbs := 0
yAbs := 0
// Calculate the absolute x offset of the top-left vertex.
for colID := 1; colID <= colStart; colID++ {
xAbs += f.getColWidth(sheet, colID)
}
xAbs += x1
// Calculate the absolute y offset of the top-left vertex.
// Store the column change to allow optimisations.
for rowID := 1; rowID <= rowStart; rowID++ {
yAbs += f.getRowHeight(sheet, rowID)
}
yAbs += y1
// Adjust start column for offsets that are greater than the col width.
for x1 >= f.getColWidth(sheet, colStart) {
x1 -= f.getColWidth(sheet, colStart)
colStart++
}
// Adjust start row for offsets that are greater than the row height.
for y1 >= f.getRowHeight(sheet, rowStart) {
y1 -= f.getRowHeight(sheet, rowStart)
rowStart++
}
// Initialise end cell to the same as the start cell.
colEnd := colStart
rowEnd := rowStart
width += x1
height += y1
// Subtract the underlying cell widths to find end cell of the object.
for width >= f.getColWidth(sheet, colEnd) {
colEnd++
width -= f.getColWidth(sheet, colEnd)
}
// Subtract the underlying cell heights to find end cell of the object.
for height >= f.getRowHeight(sheet, rowEnd) {
rowEnd++
height -= f.getRowHeight(sheet, rowEnd)
}
// The end vertices are whatever is left from the width and height.
x2 := width
y2 := height
return colStart, rowStart, xAbs, yAbs, colEnd, rowEnd, x2, y2
}
// getColWidth provides a function to get column width in pixels by given
// sheet name and column index.
func (f *File) getColWidth(sheet string, col int) int {
xlsx := f.workSheetReader(sheet)
if xlsx.Cols != nil {
var width float64
for _, v := range xlsx.Cols.Col {
if v.Min <= col && col <= v.Max {
width = v.Width
}
}
if width != 0 {
return int(convertColWidthToPixels(width))
}
}
// Optimisation for when the column widths haven't changed.
return int(defaultColWidthPixels)
}
// GetColWidth provides a function to get column width by given worksheet name
// and column index.
func (f *File) GetColWidth(sheet, column string) float64 {
col := TitleToNumber(strings.ToUpper(column)) + 1
xlsx := f.workSheetReader(sheet)
if xlsx.Cols != nil {
var width float64
for _, v := range xlsx.Cols.Col {
if v.Min <= col && col <= v.Max {
width = v.Width
}
}
if width != 0 {
return width
}
}
// Optimisation for when the column widths haven't changed.
return defaultColWidthPixels
}
// InsertCol provides a function to insert a new column before given column
// index. For example, create a new column before column C in Sheet1:
//
// xlsx.InsertCol("Sheet1", "C")
//
func (f *File) InsertCol(sheet, column string) {
col := TitleToNumber(strings.ToUpper(column))
f.adjustHelper(sheet, col, -1, 1)
}
// RemoveCol provides a function to remove single column by given worksheet
// name and column index. For example, remove column C in Sheet1:
//
// xlsx.RemoveCol("Sheet1", "C")
//
func (f *File) RemoveCol(sheet, column string) {
xlsx := f.workSheetReader(sheet)
for r := range xlsx.SheetData.Row {
for k, v := range xlsx.SheetData.Row[r].C {
axis := v.R
col := string(strings.Map(letterOnlyMapF, axis))
if col == column {
xlsx.SheetData.Row[r].C = append(xlsx.SheetData.Row[r].C[:k], xlsx.SheetData.Row[r].C[k+1:]...)
}
}
}
col := TitleToNumber(strings.ToUpper(column))
f.adjustHelper(sheet, col, -1, -1)
}
// completeCol provieds function to completion column element tags of XML in a
// sheet.
func completeCol(xlsx *xlsxWorksheet, row, cell int) {
buffer := bytes.Buffer{}
for r := range xlsx.SheetData.Row {
if len(xlsx.SheetData.Row[r].C) < cell {
start := len(xlsx.SheetData.Row[r].C)
for iii := start; iii < cell; iii++ {
buffer.WriteString(ToAlphaString(iii))
buffer.WriteString(strconv.Itoa(r + 1))
xlsx.SheetData.Row[r].C = append(xlsx.SheetData.Row[r].C, xlsxC{
R: buffer.String(),
})
buffer.Reset()
}
}
}
}
// convertColWidthToPixels provieds function to convert the width of a cell
// from user's units to pixels. Excel rounds the column width to the nearest
// pixel. If the width hasn't been set by the user we use the default value.
// If the column is hidden it has a value of zero.
func convertColWidthToPixels(width float64) float64 {
var padding float64 = 5
var pixels float64
var maxDigitWidth float64 = 7
if width == 0 {
return pixels
}
if width < 1 {
pixels = (width * 12) + 0.5
return math.Ceil(pixels)
}
pixels = (width*maxDigitWidth + 0.5) + padding
return math.Ceil(pixels)
}