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styles.go 108.05 KB
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// Copyright 2016 - 2023 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 XLAM / XLSM / XLSX / XLTM / XLTX files. Supports reading and
// writing spreadsheet documents generated by Microsoft Excel™ 2007 and later.
// Supports complex components by high compatibility, and provided streaming
// API for generating or reading data from a worksheet with huge amounts of
// data. This library needs Go version 1.16 or later.
package excelize
import (
"bytes"
"encoding/xml"
"fmt"
"io"
"math"
"reflect"
"sort"
"strconv"
"strings"
)
// stylesReader provides a function to get the pointer to the structure after
// deserialization of xl/styles.xml.
func (f *File) stylesReader() (*xlsxStyleSheet, error) {
if f.Styles == nil {
f.Styles = new(xlsxStyleSheet)
if err := f.xmlNewDecoder(bytes.NewReader(namespaceStrictToTransitional(f.readXML(defaultXMLPathStyles)))).
Decode(f.Styles); err != nil && err != io.EOF {
return f.Styles, err
}
}
return f.Styles, nil
}
// styleSheetWriter provides a function to save xl/styles.xml after serialize
// structure.
func (f *File) styleSheetWriter() {
if f.Styles != nil {
output, _ := xml.Marshal(f.Styles)
f.saveFileList(defaultXMLPathStyles, f.replaceNameSpaceBytes(defaultXMLPathStyles, output))
}
}
// themeWriter provides a function to save xl/theme/theme1.xml after serialize
// structure.
func (f *File) themeWriter() {
newColor := func(c *decodeCTColor) xlsxCTColor {
return xlsxCTColor{
ScrgbClr: c.ScrgbClr,
SrgbClr: c.SrgbClr,
HslClr: c.HslClr,
SysClr: c.SysClr,
SchemeClr: c.SchemeClr,
PrstClr: c.PrstClr,
}
}
newFontScheme := func(c *decodeFontCollection) xlsxFontCollection {
return xlsxFontCollection{
Latin: c.Latin,
Ea: c.Ea,
Cs: c.Cs,
Font: c.Font,
ExtLst: c.ExtLst,
}
}
if f.Theme != nil {
output, _ := xml.Marshal(xlsxTheme{
XMLNSa: NameSpaceDrawingML.Value,
XMLNSr: SourceRelationship.Value,
Name: f.Theme.Name,
ThemeElements: xlsxBaseStyles{
ClrScheme: xlsxColorScheme{
Name: f.Theme.ThemeElements.ClrScheme.Name,
Dk1: newColor(&f.Theme.ThemeElements.ClrScheme.Dk1),
Lt1: newColor(&f.Theme.ThemeElements.ClrScheme.Lt1),
Dk2: newColor(&f.Theme.ThemeElements.ClrScheme.Dk2),
Lt2: newColor(&f.Theme.ThemeElements.ClrScheme.Lt2),
Accent1: newColor(&f.Theme.ThemeElements.ClrScheme.Accent1),
Accent2: newColor(&f.Theme.ThemeElements.ClrScheme.Accent2),
Accent3: newColor(&f.Theme.ThemeElements.ClrScheme.Accent3),
Accent4: newColor(&f.Theme.ThemeElements.ClrScheme.Accent4),
Accent5: newColor(&f.Theme.ThemeElements.ClrScheme.Accent5),
Accent6: newColor(&f.Theme.ThemeElements.ClrScheme.Accent6),
Hlink: newColor(&f.Theme.ThemeElements.ClrScheme.Hlink),
FolHlink: newColor(&f.Theme.ThemeElements.ClrScheme.FolHlink),
ExtLst: f.Theme.ThemeElements.ClrScheme.ExtLst,
},
FontScheme: xlsxFontScheme{
Name: f.Theme.ThemeElements.FontScheme.Name,
MajorFont: newFontScheme(&f.Theme.ThemeElements.FontScheme.MajorFont),
MinorFont: newFontScheme(&f.Theme.ThemeElements.FontScheme.MinorFont),
ExtLst: f.Theme.ThemeElements.FontScheme.ExtLst,
},
FmtScheme: xlsxStyleMatrix{
Name: f.Theme.ThemeElements.FmtScheme.Name,
FillStyleLst: f.Theme.ThemeElements.FmtScheme.FillStyleLst,
LnStyleLst: f.Theme.ThemeElements.FmtScheme.LnStyleLst,
EffectStyleLst: f.Theme.ThemeElements.FmtScheme.EffectStyleLst,
BgFillStyleLst: f.Theme.ThemeElements.FmtScheme.BgFillStyleLst,
},
ExtLst: f.Theme.ThemeElements.ExtLst,
},
ObjectDefaults: f.Theme.ObjectDefaults,
ExtraClrSchemeLst: f.Theme.ExtraClrSchemeLst,
CustClrLst: f.Theme.CustClrLst,
ExtLst: f.Theme.ExtLst,
})
f.saveFileList(defaultXMLPathTheme, f.replaceNameSpaceBytes(defaultXMLPathTheme, output))
}
}
// sharedStringsWriter provides a function to save xl/sharedStrings.xml after
// serialize structure.
func (f *File) sharedStringsWriter() {
if f.SharedStrings != nil {
output, _ := xml.Marshal(f.SharedStrings)
f.saveFileList(defaultXMLPathSharedStrings, f.replaceNameSpaceBytes(defaultXMLPathSharedStrings, output))
}
}
// parseFormatStyleSet provides a function to parse the format settings of the
// cells and conditional formats.
func parseFormatStyleSet(style *Style) (*Style, error) {
var err error
if style.Font != nil {
if len(style.Font.Family) > MaxFontFamilyLength {
return style, ErrFontLength
}
if style.Font.Size > MaxFontSize {
return style, ErrFontSize
}
}
if style.CustomNumFmt != nil && len(*style.CustomNumFmt) == 0 {
err = ErrCustomNumFmt
}
return style, err
}
// NewStyle provides a function to create the style for cells by a given style
// options, and returns style index. The same style index can not be used
// across different workbook. This function is concurrency safe. Note that
// the 'Font.Color' field uses an RGB color represented in 'RRGGBB' hexadecimal
// notation.
//
// The following table shows the border types used in 'Border.Type' supported by
// excelize:
//
// Type | Description
// --------------+------------------
// left | Left border
// top | Top border
// right | Right border
// bottom | Bottom border
// diagonalDown | Diagonal down border
// diagonalUp | Diagonal up border
//
// The following table shows the border styles used in 'Border.Style' supported
// by excelize index number:
//
// Index | Name | Weight | Style
// -------+---------------+--------+-------------
// 0 | None | 0 |
// 1 | Continuous | 1 | -----------
// 2 | Continuous | 2 | -----------
// 3 | Dash | 1 | - - - - - -
// 4 | Dot | 1 | . . . . . .
// 5 | Continuous | 3 | -----------
// 6 | Double | 3 | ===========
// 7 | Continuous | 0 | -----------
// 8 | Dash | 2 | - - - - - -
// 9 | Dash Dot | 1 | - . - . - .
// 10 | Dash Dot | 2 | - . - . - .
// 11 | Dash Dot Dot | 1 | - . . - . .
// 12 | Dash Dot Dot | 2 | - . . - . .
// 13 | SlantDash Dot | 2 | / - . / - .
//
// The following table shows the border styles used in 'Border.Style' in the
// order shown in the Excel dialog:
//
// Index | Style | Index | Style
// -------+-------------+-------+-------------
// 0 | None | 12 | - . . - . .
// 7 | ----------- | 13 | / - . / - .
// 4 | . . . . . . | 10 | - . - . - .
// 11 | - . . - . . | 8 | - - - - - -
// 9 | - . - . - . | 2 | -----------
// 3 | - - - - - - | 5 | -----------
// 1 | ----------- | 6 | ===========
//
// The following table shows the shading styles used in 'Fill.Shading' supported
// by excelize index number:
//
// Index | Style | Index | Style
// -------+-----------------+-------+-----------------
// 0-2 | Horizontal | 9-11 | Diagonal down
// 3-5 | Vertical | 12-15 | From corner
// 6-8 | Diagonal Up | 16 | From center
//
// The following table shows the pattern styles used in 'Fill.Pattern' supported
// by excelize index number:
//
// Index | Style | Index | Style
// -------+-----------------+-------+-----------------
// 0 | None | 10 | darkTrellis
// 1 | solid | 11 | lightHorizontal
// 2 | mediumGray | 12 | lightVertical
// 3 | darkGray | 13 | lightDown
// 4 | lightGray | 14 | lightUp
// 5 | darkHorizontal | 15 | lightGrid
// 6 | darkVertical | 16 | lightTrellis
// 7 | darkDown | 17 | gray125
// 8 | darkUp | 18 | gray0625
// 9 | darkGrid | |
//
// The 'Alignment.Indent' is an integer value, where an increment of 1
// represents 3 spaces. Indicates the number of spaces (of the normal style
// font) of indentation for text in a cell. The number of spaces to indent is
// calculated as following:
//
// Number of spaces to indent = indent value * 3
//
// For example, an indent value of 1 means that the text begins 3 space widths
// (of the normal style font) from the edge of the cell. Note: The width of one
// space character is defined by the font. Only left, right, and distributed
// horizontal alignments are supported.
//
// The following table shows the type of cells' horizontal alignment used
// in 'Alignment.Horizontal':
//
// Style
// ------------------
// left
// center
// right
// fill
// justify
// centerContinuous
// distributed
//
// The following table shows the type of cells' vertical alignment used in
// 'Alignment.Vertical':
//
// Style
// ------------------
// top
// center
// justify
// distributed
//
// The 'Alignment.ReadingOrder' is an uint64 value indicating whether the
// reading order of the cell is left-to-right, right-to-left, or context
// dependent. the valid value of this field was:
//
// Value | Description
// -------+----------------------------------------------------
// 0 | Context Dependent - reading order is determined by scanning the
// | text for the first non-whitespace character: if it is a strong
// | right-to-left character, the reading order is right-to-left;
// | otherwise, the reading order left-to-right.
// 1 | Left-to-Right: reading order is left-to-right in the cell, as in
// | English.
// 2 | Right-to-Left: reading order is right-to-left in the cell, as in
// | Hebrew.
//
// The 'Alignment.RelativeIndent' is an integer value to indicate the additional
// number of spaces of indentation to adjust for text in a cell.
//
// The following table shows the type of font underline style used in
// 'Font.Underline':
//
// Style
// ------------------
// none
// single
// double
//
// Excel's built-in all languages formats are shown in the following table:
//
// Index | Format String
// -------+----------------------------------------------------
// 0 | General
// 1 | 0
// 2 | 0.00
// 3 | #,##0
// 4 | #,##0.00
// 5 | ($#,##0_);($#,##0)
// 6 | ($#,##0_);[Red]($#,##0)
// 7 | ($#,##0.00_);($#,##0.00)
// 8 | ($#,##0.00_);[Red]($#,##0.00)
// 9 | 0%
// 10 | 0.00%
// 11 | 0.00E+00
// 12 | # ?/?
// 13 | # ??/??
// 14 | m/d/yy
// 15 | d-mmm-yy
// 16 | d-mmm
// 17 | mmm-yy
// 18 | h:mm AM/PM
// 19 | h:mm:ss AM/PM
// 20 | h:mm
// 21 | h:mm:ss
// 22 | m/d/yy h:mm
// ... | ...
// 37 | (#,##0_);(#,##0)
// 38 | (#,##0_);[Red](#,##0)
// 39 | (#,##0.00_);(#,##0.00)
// 40 | (#,##0.00_);[Red](#,##0.00)
// 41 | _(* #,##0_);_(* (#,##0);_(* "-"_);_(@_)
// 42 | _($* #,##0_);_($* (#,##0);_($* "-"_);_(@_)
// 43 | _(* #,##0.00_);_(* (#,##0.00);_(* "-"??_);_(@_)
// 44 | _($* #,##0.00_);_($* (#,##0.00);_($* "-"??_);_(@_)
// 45 | mm:ss
// 46 | [h]:mm:ss
// 47 | mm:ss.0
// 48 | ##0.0E+0
// 49 | @
//
// Number format code in zh-tw language:
//
// Index | Symbol
// -------+-------------------------------------------
// 27 | [$-404]e/m/d
// 28 | [$-404]e"年"m"月"d"日"
// 29 | [$-404]e"年"m"月"d"日"
// 30 | m/d/yy
// 31 | yyyy"年"m"月"d"日"
// 32 | hh"時"mm"分"
// 33 | hh"時"mm"分"ss"秒"
// 34 | 上午/下午 hh"時"mm"分"
// 35 | 上午/下午 hh"時"mm"分"ss"秒"
// 36 | [$-404]e/m/d
// 50 | [$-404]e/m/d
// 51 | [$-404]e"年"m"月"d"日"
// 52 | 上午/下午 hh"時"mm"分"
// 53 | 上午/下午 hh"時"mm"分"ss"秒"
// 54 | [$-404]e"年"m"月"d"日"
// 55 | 上午/下午 hh"時"mm"分"
// 56 | 上午/下午 hh"時"mm"分"ss"秒"
// 57 | [$-404]e/m/d
// 58 | [$-404]e"年"m"月"d"日"
//
// Number format code in zh-cn language:
//
// Index | Symbol
// -------+-------------------------------------------
// 27 | yyyy"年"m"月"
// 28 | m"月"d"日"
// 29 | m"月"d"日"
// 30 | m-d-yy
// 31 | yyyy"年"m"月"d"日"
// 32 | h"时"mm"分"
// 33 | h"时"mm"分"ss"秒"
// 34 | 上午/下午 h"时"mm"分"
// 35 | 上午/下午 h"时"mm"分"ss"秒
// 36 | yyyy"年"m"月
// 50 | yyyy"年"m"月
// 51 | m"月"d"日
// 52 | yyyy"年"m"月
// 53 | m"月"d"日
// 54 | m"月"d"日
// 55 | 上午/下午 h"时"mm"分
// 56 | 上午/下午 h"时"mm"分"ss"秒
// 57 | yyyy"年"m"月
// 58 | m"月"d"日"
//
// Number format code in ja-jp language:
//
// Index | Symbol
// -------+-------------------------------------------
// 27 | [$-411]ge.m.d
// 28 | [$-411]ggge"年"m"月"d"日
// 29 | [$-411]ggge"年"m"月"d"日
// 30 | m/d/y
// 31 | yyyy"年"m"月"d"日
// 32 | h"時"mm"分
// 33 | h"時"mm"分"ss"秒
// 34 | yyyy"年"m"月
// 35 | m"月"d"日
// 36 | [$-411]ge.m.d
// 50 | [$-411]ge.m.d
// 51 | [$-411]ggge"年"m"月"d"日
// 52 | yyyy"年"m"月
// 53 | m"月"d"日
// 54 | [$-411]ggge"年"m"月"d"日
// 55 | yyyy"年"m"月
// 56 | m"月"d"日
// 57 | [$-411]ge.m.d
// 58 | [$-411]ggge"年"m"月"d"日"
//
// Number format code in ko-kr language:
//
// Index | Symbol
// -------+-------------------------------------------
// 27 | yyyy"年" mm"月" dd"日
// 28 | mm-d
// 29 | mm-d
// 30 | mm-dd-y
// 31 | yyyy"년" mm"월" dd"일
// 32 | h"시" mm"분
// 33 | h"시" mm"분" ss"초
// 34 | yyyy-mm-d
// 35 | yyyy-mm-d
// 36 | yyyy"年" mm"月" dd"日
// 50 | yyyy"年" mm"月" dd"日
// 51 | mm-d
// 52 | yyyy-mm-d
// 53 | yyyy-mm-d
// 54 | mm-d
// 55 | yyyy-mm-d
// 56 | yyyy-mm-d
// 57 | yyyy"年" mm"月" dd"日
// 58 | mm-dd
//
// Number format code in th-th language:
//
// Index | Symbol
// -------+-------------------------------------------
// 59 | t
// 60 | t0.0
// 61 | t#,##
// 62 | t#,##0.0
// 67 | t0
// 68 | t0.00
// 69 | t# ?/
// 70 | t# ??/?
// 71 | ว/ด/ปปป
// 72 | ว-ดดด-ป
// 73 | ว-ดด
// 74 | ดดด-ป
// 75 | ช:น
// 76 | ช:นน:ท
// 77 | ว/ด/ปปปป ช:น
// 78 | นน:ท
// 79 | [ช]:นน:ท
// 80 | นน:ทท.
// 81 | d/m/bb
//
// Excelize built-in currency formats are shown in the following table, only
// support these types in the following table (Index number is used only for
// markup and is not used inside an Excel file and you can't get formatted value
// by the function GetCellValue) currently:
//
// Index | Symbol
// -------+---------------------------------------------------------------
// 164 | ¥
// 165 | $ English (United States)
// 166 | $ Cherokee (United States)
// 167 | $ Chinese (Singapore)
// 168 | $ Chinese (Taiwan)
// 169 | $ English (Australia)
// 170 | $ English (Belize)
// 171 | $ English (Canada)
// 172 | $ English (Jamaica)
// 173 | $ English (New Zealand)
// 174 | $ English (Singapore)
// 175 | $ English (Trinidad & Tobago)
// 176 | $ English (U.S. Virgin Islands)
// 177 | $ English (United States)
// 178 | $ French (Canada)
// 179 | $ Hawaiian (United States)
// 180 | $ Malay (Brunei)
// 181 | $ Quechua (Ecuador)
// 182 | $ Spanish (Chile)
// 183 | $ Spanish (Colombia)
// 184 | $ Spanish (Ecuador)
// 185 | $ Spanish (El Salvador)
// 186 | $ Spanish (Mexico)
// 187 | $ Spanish (Puerto Rico)
// 188 | $ Spanish (United States)
// 189 | $ Spanish (Uruguay)
// 190 | £ English (United Kingdom)
// 191 | £ Scottish Gaelic (United Kingdom)
// 192 | £ Welsh (United Kindom)
// 193 | ¥ Chinese (China)
// 194 | ¥ Japanese (Japan)
// 195 | ¥ Sichuan Yi (China)
// 196 | ¥ Tibetan (China)
// 197 | ¥ Uyghur (China)
// 198 | ֏ Armenian (Armenia)
// 199 | ؋ Pashto (Afghanistan)
// 200 | ؋ Persian (Afghanistan)
// 201 | ৳ Bengali (Bangladesh)
// 202 | ៛ Khmer (Cambodia)
// 203 | ₡ Spanish (Costa Rica)
// 204 | ₦ Hausa (Nigeria)
// 205 | ₦ Igbo (Nigeria)
// 206 | ₩ Korean (South Korea)
// 207 | ₪ Hebrew (Israel)
// 208 | ₫ Vietnamese (Vietnam)
// 209 | € Basque (Spain)
// 210 | € Breton (France)
// 211 | € Catalan (Spain)
// 212 | € Corsican (France)
// 213 | € Dutch (Belgium)
// 214 | € Dutch (Netherlands)
// 215 | € English (Ireland)
// 216 | € Estonian (Estonia)
// 217 | € Euro (€ 123)
// 218 | € Euro (123 €)
// 219 | € Finnish (Finland)
// 220 | € French (Belgium)
// 221 | € French (France)
// 222 | € French (Luxembourg)
// 223 | € French (Monaco)
// 224 | € French (Réunion)
// 225 | € Galician (Spain)
// 226 | € German (Austria)
// 227 | € German (German)
// 228 | € German (Luxembourg)
// 229 | € Greek (Greece)
// 230 | € Inari Sami (Finland)
// 231 | € Irish (Ireland)
// 232 | € Italian (Italy)
// 233 | € Latin (Italy)
// 234 | € Latin, Serbian (Montenegro)
// 235 | € Larvian (Latvia)
// 236 | € Lithuanian (Lithuania)
// 237 | € Lower Sorbian (Germany)
// 238 | € Luxembourgish (Luxembourg)
// 239 | € Maltese (Malta)
// 240 | € Northern Sami (Finland)
// 241 | € Occitan (France)
// 242 | € Portuguese (Portugal)
// 243 | € Serbian (Montenegro)
// 244 | € Skolt Sami (Finland)
// 245 | € Slovak (Slovakia)
// 246 | € Slovenian (Slovenia)
// 247 | € Spanish (Spain)
// 248 | € Swedish (Finland)
// 249 | € Swiss German (France)
// 250 | € Upper Sorbian (Germany)
// 251 | € Western Frisian (Netherlands)
// 252 | ₭ Lao (Laos)
// 253 | ₮ Mongolian (Mongolia)
// 254 | ₮ Mongolian, Mongolian (Mongolia)
// 255 | ₱ English (Philippines)
// 256 | ₱ Filipino (Philippines)
// 257 | ₴ Ukrainian (Ukraine)
// 258 | ₸ Kazakh (Kazakhstan)
// 259 | ₹ Arabic, Kashmiri (India)
// 260 | ₹ English (India)
// 261 | ₹ Gujarati (India)
// 262 | ₹ Hindi (India)
// 263 | ₹ Kannada (India)
// 264 | ₹ Kashmiri (India)
// 265 | ₹ Konkani (India)
// 266 | ₹ Manipuri (India)
// 267 | ₹ Marathi (India)
// 268 | ₹ Nepali (India)
// 269 | ₹ Oriya (India)
// 270 | ₹ Punjabi (India)
// 271 | ₹ Sanskrit (India)
// 272 | ₹ Sindhi (India)
// 273 | ₹ Tamil (India)
// 274 | ₹ Urdu (India)
// 275 | ₺ Turkish (Turkey)
// 276 | ₼ Azerbaijani (Azerbaijan)
// 277 | ₼ Cyrillic, Azerbaijani (Azerbaijan)
// 278 | ₽ Russian (Russia)
// 279 | ₽ Sakha (Russia)
// 280 | ₾ Georgian (Georgia)
// 281 | B/. Spanish (Panama)
// 282 | Br Oromo (Ethiopia)
// 283 | Br Somali (Ethiopia)
// 284 | Br Tigrinya (Ethiopia)
// 285 | Bs Quechua (Bolivia)
// 286 | Bs Spanish (Bolivia)
// 287 | BS. Spanish (Venezuela)
// 288 | BWP Tswana (Botswana)
// 289 | C$ Spanish (Nicaragua)
// 290 | CA$ Latin, Inuktitut (Canada)
// 291 | CA$ Mohawk (Canada)
// 292 | CA$ Unified Canadian Aboriginal Syllabics, Inuktitut (Canada)
// 293 | CFA French (Mali)
// 294 | CFA French (Senegal)
// 295 | CFA Fulah (Senegal)
// 296 | CFA Wolof (Senegal)
// 297 | CHF French (Switzerland)
// 298 | CHF German (Liechtenstein)
// 299 | CHF German (Switzerland)
// 300 | CHF Italian (Switzerland)
// 301 | CHF Romansh (Switzerland)
// 302 | CLP Mapuche (Chile)
// 303 | CN¥ Mongolian, Mongolian (China)
// 304 | DZD Central Atlas Tamazight (Algeria)
// 305 | FCFA French (Cameroon)
// 306 | Ft Hungarian (Hungary)
// 307 | G French (Haiti)
// 308 | Gs. Spanish (Paraguay)
// 309 | GTQ K'iche' (Guatemala)
// 310 | HK$ Chinese (Hong Kong (China))
// 311 | HK$ English (Hong Kong (China))
// 312 | HRK Croatian (Croatia)
// 313 | IDR English (Indonesia)
// 314 | IQD Arbic, Central Kurdish (Iraq)
// 315 | ISK Icelandic (Iceland)
// 316 | K Burmese (Myanmar (Burma))
// 317 | Kč Czech (Czech Republic)
// 318 | KM Bosnian (Bosnia & Herzegovina)
// 319 | KM Croatian (Bosnia & Herzegovina)
// 320 | KM Latin, Serbian (Bosnia & Herzegovina)
// 321 | kr Faroese (Faroe Islands)
// 322 | kr Northern Sami (Norway)
// 323 | kr Northern Sami (Sweden)
// 324 | kr Norwegian Bokmål (Norway)
// 325 | kr Norwegian Nynorsk (Norway)
// 326 | kr Swedish (Sweden)
// 327 | kr. Danish (Denmark)
// 328 | kr. Kalaallisut (Greenland)
// 329 | Ksh Swahili (kenya)
// 330 | L Romanian (Moldova)
// 331 | L Russian (Moldova)
// 332 | L Spanish (Honduras)
// 333 | Lekë Albanian (Albania)
// 334 | MAD Arabic, Central Atlas Tamazight (Morocco)
// 335 | MAD French (Morocco)
// 336 | MAD Tifinagh, Central Atlas Tamazight (Morocco)
// 337 | MOP$ Chinese (Macau (China))
// 338 | MVR Divehi (Maldives)
// 339 | Nfk Tigrinya (Eritrea)
// 340 | NGN Bini (Nigeria)
// 341 | NGN Fulah (Nigeria)
// 342 | NGN Ibibio (Nigeria)
// 343 | NGN Kanuri (Nigeria)
// 344 | NOK Lule Sami (Norway)
// 345 | NOK Southern Sami (Norway)
// 346 | NZ$ Maori (New Zealand)
// 347 | PKR Sindhi (Pakistan)
// 348 | PYG Guarani (Paraguay)
// 349 | Q Spanish (Guatemala)
// 350 | R Afrikaans (South Africa)
// 351 | R English (South Africa)
// 352 | R Zulu (South Africa)
// 353 | R$ Portuguese (Brazil)
// 354 | RD$ Spanish (Dominican Republic)
// 355 | RF Kinyarwanda (Rwanda)
// 356 | RM English (Malaysia)
// 357 | RM Malay (Malaysia)
// 358 | RON Romanian (Romania)
// 359 | Rp Indonesoan (Indonesia)
// 360 | Rs Urdu (Pakistan)
// 361 | Rs. Tamil (Sri Lanka)
// 362 | RSD Latin, Serbian (Serbia)
// 363 | RSD Serbian (Serbia)
// 364 | RUB Bashkir (Russia)
// 365 | RUB Tatar (Russia)
// 366 | S/. Quechua (Peru)
// 367 | S/. Spanish (Peru)
// 368 | SEK Lule Sami (Sweden)
// 369 | SEK Southern Sami (Sweden)
// 370 | soʻm Latin, Uzbek (Uzbekistan)
// 371 | soʻm Uzbek (Uzbekistan)
// 372 | SYP Syriac (Syria)
// 373 | THB Thai (Thailand)
// 374 | TMT Turkmen (Turkmenistan)
// 375 | US$ English (Zimbabwe)
// 376 | ZAR Northern Sotho (South Africa)
// 377 | ZAR Southern Sotho (South Africa)
// 378 | ZAR Tsonga (South Africa)
// 379 | ZAR Tswana (south Africa)
// 380 | ZAR Venda (South Africa)
// 381 | ZAR Xhosa (South Africa)
// 382 | zł Polish (Poland)
// 383 | ден Macedonian (Macedonia)
// 384 | KM Cyrillic, Bosnian (Bosnia & Herzegovina)
// 385 | KM Serbian (Bosnia & Herzegovina)
// 386 | лв. Bulgarian (Bulgaria)
// 387 | p. Belarusian (Belarus)
// 388 | сом Kyrgyz (Kyrgyzstan)
// 389 | сом Tajik (Tajikistan)
// 390 | ج.م. Arabic (Egypt)
// 391 | د.أ. Arabic (Jordan)
// 392 | د.أ. Arabic (United Arab Emirates)
// 393 | د.ب. Arabic (Bahrain)
// 394 | د.ت. Arabic (Tunisia)
// 395 | د.ج. Arabic (Algeria)
// 396 | د.ع. Arabic (Iraq)
// 397 | د.ك. Arabic (Kuwait)
// 398 | د.ل. Arabic (Libya)
// 399 | د.م. Arabic (Morocco)
// 400 | ر Punjabi (Pakistan)
// 401 | ر.س. Arabic (Saudi Arabia)
// 402 | ر.ع. Arabic (Oman)
// 403 | ر.ق. Arabic (Qatar)
// 404 | ر.ي. Arabic (Yemen)
// 405 | ریال Persian (Iran)
// 406 | ل.س. Arabic (Syria)
// 407 | ل.ل. Arabic (Lebanon)
// 408 | ብር Amharic (Ethiopia)
// 409 | रू Nepaol (Nepal)
// 410 | රු. Sinhala (Sri Lanka)
// 411 | ADP
// 412 | AED
// 413 | AFA
// 414 | AFN
// 415 | ALL
// 416 | AMD
// 417 | ANG
// 418 | AOA
// 419 | ARS
// 420 | ATS
// 421 | AUD
// 422 | AWG
// 423 | AZM
// 424 | AZN
// 425 | BAM
// 426 | BBD
// 427 | BDT
// 428 | BEF
// 429 | BGL
// 430 | BGN
// 431 | BHD
// 432 | BIF
// 433 | BMD
// 434 | BND
// 435 | BOB
// 436 | BOV
// 437 | BRL
// 438 | BSD
// 439 | BTN
// 440 | BWP
// 441 | BYR
// 442 | BZD
// 443 | CAD
// 444 | CDF
// 445 | CHE
// 446 | CHF
// 447 | CHW
// 448 | CLF
// 449 | CLP
// 450 | CNY
// 451 | COP
// 452 | COU
// 453 | CRC
// 454 | CSD
// 455 | CUC
// 456 | CVE
// 457 | CYP
// 458 | CZK
// 459 | DEM
// 460 | DJF
// 461 | DKK
// 462 | DOP
// 463 | DZD
// 464 | ECS
// 465 | ECV
// 466 | EEK
// 467 | EGP
// 468 | ERN
// 469 | ESP
// 470 | ETB
// 471 | EUR
// 472 | FIM
// 473 | FJD
// 474 | FKP
// 475 | FRF
// 476 | GBP
// 477 | GEL
// 478 | GHC
// 479 | GHS
// 480 | GIP
// 481 | GMD
// 482 | GNF
// 483 | GRD
// 484 | GTQ
// 485 | GYD
// 486 | HKD
// 487 | HNL
// 488 | HRK
// 489 | HTG
// 490 | HUF
// 491 | IDR
// 492 | IEP
// 493 | ILS
// 494 | INR
// 495 | IQD
// 496 | IRR
// 497 | ISK
// 498 | ITL
// 499 | JMD
// 500 | JOD
// 501 | JPY
// 502 | KAF
// 503 | KES
// 504 | KGS
// 505 | KHR
// 506 | KMF
// 507 | KPW
// 508 | KRW
// 509 | KWD
// 510 | KYD
// 511 | KZT
// 512 | LAK
// 513 | LBP
// 514 | LKR
// 515 | LRD
// 516 | LSL
// 517 | LTL
// 518 | LUF
// 519 | LVL
// 520 | LYD
// 521 | MAD
// 522 | MDL
// 523 | MGA
// 524 | MGF
// 525 | MKD
// 526 | MMK
// 527 | MNT
// 528 | MOP
// 529 | MRO
// 530 | MTL
// 531 | MUR
// 532 | MVR
// 533 | MWK
// 534 | MXN
// 535 | MXV
// 536 | MYR
// 537 | MZM
// 538 | MZN
// 539 | NAD
// 540 | NGN
// 541 | NIO
// 542 | NLG
// 543 | NOK
// 544 | NPR
// 545 | NTD
// 546 | NZD
// 547 | OMR
// 548 | PAB
// 549 | PEN
// 550 | PGK
// 551 | PHP
// 552 | PKR
// 553 | PLN
// 554 | PTE
// 555 | PYG
// 556 | QAR
// 557 | ROL
// 558 | RON
// 559 | RSD
// 560 | RUB
// 561 | RUR
// 562 | RWF
// 563 | SAR
// 564 | SBD
// 565 | SCR
// 566 | SDD
// 567 | SDG
// 568 | SDP
// 569 | SEK
// 570 | SGD
// 571 | SHP
// 572 | SIT
// 573 | SKK
// 574 | SLL
// 575 | SOS
// 576 | SPL
// 577 | SRD
// 578 | SRG
// 579 | STD
// 580 | SVC
// 581 | SYP
// 582 | SZL
// 583 | THB
// 584 | TJR
// 585 | TJS
// 586 | TMM
// 587 | TMT
// 588 | TND
// 589 | TOP
// 590 | TRL
// 591 | TRY
// 592 | TTD
// 593 | TWD
// 594 | TZS
// 595 | UAH
// 596 | UGX
// 597 | USD
// 598 | USN
// 599 | USS
// 600 | UYI
// 601 | UYU
// 602 | UZS
// 603 | VEB
// 604 | VEF
// 605 | VND
// 606 | VUV
// 607 | WST
// 608 | XAF
// 609 | XAG
// 610 | XAU
// 611 | XB5
// 612 | XBA
// 613 | XBB
// 614 | XBC
// 615 | XBD
// 616 | XCD
// 617 | XDR
// 618 | XFO
// 619 | XFU
// 620 | XOF
// 621 | XPD
// 622 | XPF
// 623 | XPT
// 624 | XTS
// 625 | XXX
// 626 | YER
// 627 | YUM
// 628 | ZAR
// 629 | ZMK
// 630 | ZMW
// 631 | ZWD
// 632 | ZWL
// 633 | ZWN
// 634 | ZWR
//
// Excelize support set custom number format for cell. For example, set number
// as date type in Uruguay (Spanish) format for Sheet1!A6:
//
// f := excelize.NewFile()
// defer func() {
// if err := f.Close(); err != nil {
// fmt.Println(err)
// }
// }()
// if err := f.SetCellValue("Sheet1", "A6", 42920.5); err != nil {
// fmt.Println(err)
// return
// }
// exp := "[$-380A]dddd\\,\\ dd\" de \"mmmm\" de \"yyyy;@"
// style, err := f.NewStyle(&excelize.Style{CustomNumFmt: &exp})
// if err != nil {
// fmt.Println(err)
// return
// }
// err = f.SetCellStyle("Sheet1", "A6", "A6", style)
//
// Cell Sheet1!A6 in the Excel Application: martes, 04 de Julio de 2017
func (f *File) NewStyle(style *Style) (int, error) {
var (
fs *Style
font *xlsxFont
err error
cellXfsID, fontID, borderID, fillID int
)
if style == nil {
return cellXfsID, err
}
fs, err = parseFormatStyleSet(style)
if err != nil {
return cellXfsID, err
}
if fs.DecimalPlaces != nil && (*fs.DecimalPlaces < 0 || *fs.DecimalPlaces > 30) {
fs.DecimalPlaces = intPtr(2)
}
f.mu.Lock()
s, err := f.stylesReader()
if err != nil {
f.mu.Unlock()
return cellXfsID, err
}
f.mu.Unlock()
s.mu.Lock()
defer s.mu.Unlock()
// check given style already exist.
if cellXfsID, err = f.getStyleID(s, fs); err != nil || cellXfsID != -1 {
return cellXfsID, err
}
numFmtID := newNumFmt(s, fs)
if fs.Font != nil {
fontID, _ = f.getFontID(s, fs)
if fontID == -1 {
s.Fonts.Count++
font, _ = f.newFont(fs)
s.Fonts.Font = append(s.Fonts.Font, font)
fontID = s.Fonts.Count - 1
}
}
borderID = getBorderID(s, fs)
if borderID == -1 {
if len(fs.Border) == 0 {
borderID = 0
} else {
s.Borders.Count++
s.Borders.Border = append(s.Borders.Border, newBorders(fs))
borderID = s.Borders.Count - 1
}
}
if fillID = getFillID(s, fs); fillID == -1 {
if fill := newFills(fs, true); fill != nil {
s.Fills.Count++
s.Fills.Fill = append(s.Fills.Fill, fill)
fillID = s.Fills.Count - 1
} else {
fillID = 0
}
}
applyAlignment, alignment := fs.Alignment != nil, newAlignment(fs)
applyProtection, protection := fs.Protection != nil, newProtection(fs)
return setCellXfs(s, fontID, numFmtID, fillID, borderID, applyAlignment, applyProtection, alignment, protection)
}
var (
// styleBorders list all types of the cell border style.
styleBorders = []string{
"none",
"thin",
"medium",
"dashed",
"dotted",
"thick",
"double",
"hair",
"mediumDashed",
"dashDot",
"mediumDashDot",
"dashDotDot",
"mediumDashDotDot",
"slantDashDot",
}
// styleBorderTypes list all types of the cell border.
styleBorderTypes = []string{
"left", "right", "top", "bottom", "diagonalUp", "diagonalDown",
}
// styleFillPatterns list all types of the cell fill style.
styleFillPatterns = []string{
"none",
"solid",
"mediumGray",
"darkGray",
"lightGray",
"darkHorizontal",
"darkVertical",
"darkDown",
"darkUp",
"darkGrid",
"darkTrellis",
"lightHorizontal",
"lightVertical",
"lightDown",
"lightUp",
"lightGrid",
"lightTrellis",
"gray125",
"gray0625",
}
// styleFillVariants list all preset variants of the fill style.
styleFillVariants = []xlsxGradientFill{
{Degree: 90, Stop: []*xlsxGradientFillStop{{}, {Position: 1}}},
{Degree: 270, Stop: []*xlsxGradientFillStop{{}, {Position: 1}}},
{Degree: 90, Stop: []*xlsxGradientFillStop{{}, {Position: 0.5}, {Position: 1}}},
{Stop: []*xlsxGradientFillStop{{}, {Position: 1}}},
{Degree: 180, Stop: []*xlsxGradientFillStop{{}, {Position: 1}}},
{Stop: []*xlsxGradientFillStop{{}, {Position: 0.5}, {Position: 1}}},
{Degree: 45, Stop: []*xlsxGradientFillStop{{}, {Position: 1}}},
{Degree: 255, Stop: []*xlsxGradientFillStop{{}, {Position: 1}}},
{Degree: 45, Stop: []*xlsxGradientFillStop{{}, {Position: 0.5}, {Position: 1}}},
{Degree: 135, Stop: []*xlsxGradientFillStop{{}, {Position: 1}}},
{Degree: 315, Stop: []*xlsxGradientFillStop{{}, {Position: 1}}},
{Degree: 135, Stop: []*xlsxGradientFillStop{{}, {Position: 0.5}, {Position: 1}}},
{Stop: []*xlsxGradientFillStop{{}, {Position: 1}}, Type: "path"},
{Stop: []*xlsxGradientFillStop{{}, {Position: 1}}, Type: "path", Left: 1, Right: 1},
{Stop: []*xlsxGradientFillStop{{}, {Position: 1}}, Type: "path", Bottom: 1, Top: 1},
{Stop: []*xlsxGradientFillStop{{}, {Position: 1}}, Type: "path", Bottom: 1, Left: 1, Right: 1, Top: 1},
{Stop: []*xlsxGradientFillStop{{}, {Position: 1}}, Type: "path", Bottom: 0.5, Left: 0.5, Right: 0.5, Top: 0.5},
}
// getXfIDFuncs provides a function to get xfID by given style.
getXfIDFuncs = map[string]func(int, xlsxXf, *Style) bool{
"numFmt": func(numFmtID int, xf xlsxXf, style *Style) bool {
if style.CustomNumFmt == nil && numFmtID == -1 {
return xf.NumFmtID != nil && *xf.NumFmtID == 0
}
if style.NegRed || (style.DecimalPlaces != nil && *style.DecimalPlaces != 2) {
return false
}
return xf.NumFmtID != nil && *xf.NumFmtID == numFmtID
},
"font": func(fontID int, xf xlsxXf, style *Style) bool {
if style.Font == nil {
return (xf.FontID == nil || *xf.FontID == 0) && (xf.ApplyFont == nil || !*xf.ApplyFont)
}
return xf.FontID != nil && *xf.FontID == fontID && xf.ApplyFont != nil && *xf.ApplyFont
},
"fill": func(fillID int, xf xlsxXf, style *Style) bool {
if style.Fill.Type == "" {
return (xf.FillID == nil || *xf.FillID == 0) && (xf.ApplyFill == nil || !*xf.ApplyFill)
}
return xf.FillID != nil && *xf.FillID == fillID && xf.ApplyFill != nil && *xf.ApplyFill
},
"border": func(borderID int, xf xlsxXf, style *Style) bool {
if len(style.Border) == 0 {
return (xf.BorderID == nil || *xf.BorderID == 0) && (xf.ApplyBorder == nil || !*xf.ApplyBorder)
}
return xf.BorderID != nil && *xf.BorderID == borderID && xf.ApplyBorder != nil && *xf.ApplyBorder
},
"alignment": func(ID int, xf xlsxXf, style *Style) bool {
if style.Alignment == nil {
return xf.ApplyAlignment == nil || !*xf.ApplyAlignment
}
return reflect.DeepEqual(xf.Alignment, newAlignment(style))
},
"protection": func(ID int, xf xlsxXf, style *Style) bool {
if style.Protection == nil {
return xf.ApplyProtection == nil || !*xf.ApplyProtection
}
return reflect.DeepEqual(xf.Protection, newProtection(style)) && xf.ApplyProtection != nil && *xf.ApplyProtection
},
}
// extractStyleCondFuncs provides a function set to returns if shoudle be
// extract style definition by given style.
extractStyleCondFuncs = map[string]func(xlsxXf, *xlsxStyleSheet) bool{
"fill": func(xf xlsxXf, s *xlsxStyleSheet) bool {
return (xf.ApplyFill == nil || (xf.ApplyFill != nil && *xf.ApplyFill)) &&
xf.FillID != nil && s.Fills != nil &&
*xf.FillID < len(s.Fills.Fill)
},
"border": func(xf xlsxXf, s *xlsxStyleSheet) bool {
return (xf.ApplyBorder == nil || (xf.ApplyBorder != nil && *xf.ApplyBorder)) &&
xf.BorderID != nil && s.Borders != nil &&
*xf.BorderID < len(s.Borders.Border)
},
"font": func(xf xlsxXf, s *xlsxStyleSheet) bool {
return (xf.ApplyFont == nil || (xf.ApplyFont != nil && *xf.ApplyFont)) &&
xf.FontID != nil && s.Fonts != nil &&
*xf.FontID < len(s.Fonts.Font)
},
"alignment": func(xf xlsxXf, s *xlsxStyleSheet) bool {
return xf.ApplyAlignment == nil || (xf.ApplyAlignment != nil && *xf.ApplyAlignment)
},
"protection": func(xf xlsxXf, s *xlsxStyleSheet) bool {
return xf.ApplyProtection == nil || (xf.ApplyProtection != nil && *xf.ApplyProtection)
},
}
// drawContFmtFunc defines functions to create conditional formats.
drawContFmtFunc = map[string]func(p int, ct, ref, GUID string, fmtCond *ConditionalFormatOptions) (*xlsxCfRule, *xlsxX14CfRule){
"cellIs": drawCondFmtCellIs,
"timePeriod": drawCondFmtTimePeriod,
"text": drawCondFmtText,
"top10": drawCondFmtTop10,
"aboveAverage": drawCondFmtAboveAverage,
"duplicateValues": drawCondFmtDuplicateUniqueValues,
"uniqueValues": drawCondFmtDuplicateUniqueValues,
"containsBlanks": drawCondFmtBlanks,
"notContainsBlanks": drawCondFmtNoBlanks,
"containsErrors": drawCondFmtErrors,
"notContainsErrors": drawCondFmtNoErrors,
"2_color_scale": drawCondFmtColorScale,
"3_color_scale": drawCondFmtColorScale,
"dataBar": drawCondFmtDataBar,
"expression": drawCondFmtExp,
"iconSet": drawCondFmtIconSet,
}
// extractContFmtFunc defines functions to get conditional formats.
extractContFmtFunc = map[string]func(*File, *xlsxCfRule, *xlsxExtLst) ConditionalFormatOptions{
"cellIs": func(f *File, c *xlsxCfRule, extLst *xlsxExtLst) ConditionalFormatOptions {
return f.extractCondFmtCellIs(c, extLst)
},
"timePeriod": func(f *File, c *xlsxCfRule, extLst *xlsxExtLst) ConditionalFormatOptions {
return f.extractCondFmtTimePeriod(c, extLst)
},
"containsText": func(f *File, c *xlsxCfRule, extLst *xlsxExtLst) ConditionalFormatOptions {
return f.extractCondFmtText(c, extLst)
},
"notContainsText": func(f *File, c *xlsxCfRule, extLst *xlsxExtLst) ConditionalFormatOptions {
return f.extractCondFmtText(c, extLst)
},
"beginsWith": func(f *File, c *xlsxCfRule, extLst *xlsxExtLst) ConditionalFormatOptions {
return f.extractCondFmtText(c, extLst)
},
"endsWith": func(f *File, c *xlsxCfRule, extLst *xlsxExtLst) ConditionalFormatOptions {
return f.extractCondFmtText(c, extLst)
},
"top10": func(f *File, c *xlsxCfRule, extLst *xlsxExtLst) ConditionalFormatOptions {
return f.extractCondFmtTop10(c, extLst)
},
"aboveAverage": func(f *File, c *xlsxCfRule, extLst *xlsxExtLst) ConditionalFormatOptions {
return f.extractCondFmtAboveAverage(c, extLst)
},
"duplicateValues": func(f *File, c *xlsxCfRule, extLst *xlsxExtLst) ConditionalFormatOptions {
return f.extractCondFmtDuplicateUniqueValues(c, extLst)
},
"uniqueValues": func(f *File, c *xlsxCfRule, extLst *xlsxExtLst) ConditionalFormatOptions {
return f.extractCondFmtDuplicateUniqueValues(c, extLst)
},
"containsBlanks": func(f *File, c *xlsxCfRule, extLst *xlsxExtLst) ConditionalFormatOptions {
return f.extractCondFmtBlanks(c, extLst)
},
"notContainsBlanks": func(f *File, c *xlsxCfRule, extLst *xlsxExtLst) ConditionalFormatOptions {
return f.extractCondFmtNoBlanks(c, extLst)
},
"containsErrors": func(f *File, c *xlsxCfRule, extLst *xlsxExtLst) ConditionalFormatOptions {
return f.extractCondFmtErrors(c, extLst)
},
"notContainsErrors": func(f *File, c *xlsxCfRule, extLst *xlsxExtLst) ConditionalFormatOptions {
return f.extractCondFmtNoErrors(c, extLst)
},
"colorScale": func(f *File, c *xlsxCfRule, extLst *xlsxExtLst) ConditionalFormatOptions {
return f.extractCondFmtColorScale(c, extLst)
},
"dataBar": func(f *File, c *xlsxCfRule, extLst *xlsxExtLst) ConditionalFormatOptions {
return f.extractCondFmtDataBar(c, extLst)
},
"expression": func(f *File, c *xlsxCfRule, extLst *xlsxExtLst) ConditionalFormatOptions {
return f.extractCondFmtExp(c, extLst)
},
"iconSet": func(f *File, c *xlsxCfRule, extLst *xlsxExtLst) ConditionalFormatOptions {
return f.extractCondFmtIconSet(c, extLst)
},
}
// validType defined the list of valid validation types.
validType = map[string]string{
"cell": "cellIs",
"average": "aboveAverage",
"duplicate": "duplicateValues",
"unique": "uniqueValues",
"top": "top10",
"bottom": "top10",
"text": "text",
"time_period": "timePeriod",
"blanks": "containsBlanks",
"no_blanks": "notContainsBlanks",
"errors": "containsErrors",
"no_errors": "notContainsErrors",
"2_color_scale": "2_color_scale",
"3_color_scale": "3_color_scale",
"data_bar": "dataBar",
"formula": "expression",
"icon_set": "iconSet",
}
// criteriaType defined the list of valid criteria types.
criteriaType = map[string]string{
"!=": "notEqual",
"<": "lessThan",
"<=": "lessThanOrEqual",
"<>": "notEqual",
"=": "equal",
"==": "equal",
">": "greaterThan",
">=": "greaterThanOrEqual",
"begins with": "beginsWith",
"between": "between",
"containing": "containsText",
"continue month": "nextMonth",
"continue week": "nextWeek",
"ends with": "endsWith",
"equal to": "equal",
"greater than or equal to": "greaterThanOrEqual",
"greater than": "greaterThan",
"last 7 days": "last7Days",
"last month": "lastMonth",
"last week": "lastWeek",
"less than or equal to": "lessThanOrEqual",
"less than": "lessThan",
"not between": "notBetween",
"not containing": "notContains",
"not equal to": "notEqual",
"this month": "thisMonth",
"this week": "thisWeek",
"today": "today",
"tomorrow": "tomorrow",
"yesterday": "yesterday",
}
// operatorType defined the list of valid operator types.
operatorType = map[string]string{
"beginsWith": "begins with",
"between": "between",
"containsText": "containing",
"endsWith": "ends with",
"equal": "equal to",
"greaterThan": "greater than",
"greaterThanOrEqual": "greater than or equal to",
"last7Days": "last 7 days",
"lastMonth": "last month",
"lastWeek": "last week",
"lessThan": "less than",
"lessThanOrEqual": "less than or equal to",
"nextMonth": "continue month",
"nextWeek": "continue week",
"notBetween": "not between",
"notContains": "not containing",
"notEqual": "not equal to",
"thisMonth": "this month",
"thisWeek": "this week",
"today": "today",
"tomorrow": "tomorrow",
"yesterday": "yesterday",
}
// cellIsCriteriaType defined the list of valid criteria types used for
// cellIs conditional formats.
cellIsCriteriaType = []string{
"equal",
"notEqual",
"greaterThan",
"lessThan",
"greaterThanOrEqual",
"lessThanOrEqual",
"containsText",
"notContains",
"beginsWith",
"endsWith",
}
// cfvo3 defined the icon set conditional formatting rules.
cfvo3 = &xlsxCfRule{IconSet: &xlsxIconSet{Cfvo: []*xlsxCfvo{
{Type: "percent", Val: "0"},
{Type: "percent", Val: "33"},
{Type: "percent", Val: "67"},
}}}
// cfvo4 defined the icon set conditional formatting rules.
cfvo4 = &xlsxCfRule{IconSet: &xlsxIconSet{Cfvo: []*xlsxCfvo{
{Type: "percent", Val: "0"},
{Type: "percent", Val: "25"},
{Type: "percent", Val: "50"},
{Type: "percent", Val: "75"},
}}}
// cfvo5 defined the icon set conditional formatting rules.
cfvo5 = &xlsxCfRule{IconSet: &xlsxIconSet{Cfvo: []*xlsxCfvo{
{Type: "percent", Val: "0"},
{Type: "percent", Val: "20"},
{Type: "percent", Val: "40"},
{Type: "percent", Val: "60"},
{Type: "percent", Val: "80"},
}}}
// condFmtIconSetPresets defined the list of icon set conditional formatting
// rules.
condFmtIconSetPresets = map[string]*xlsxCfRule{
"3Arrows": cfvo3,
"3ArrowsGray": cfvo3,
"3Flags": cfvo3,
"3Signs": cfvo3,
"3Symbols": cfvo3,
"3Symbols2": cfvo3,
"3TrafficLights1": cfvo3,
"3TrafficLights2": cfvo3,
"4Arrows": cfvo4,
"4ArrowsGray": cfvo4,
"4Rating": cfvo4,
"4RedToBlack": cfvo4,
"4TrafficLights": cfvo4,
"5Arrows": cfvo5,
"5ArrowsGray": cfvo5,
"5Quarters": cfvo5,
"5Rating": cfvo5,
}
)
// getThemeColor provides a function to convert theme color or index color to
// RGB color.
func (f *File) getThemeColor(clr *xlsxColor) string {
var RGB string
if clr == nil || f.Theme == nil {
return RGB
}
if clrScheme := f.Theme.ThemeElements.ClrScheme; clr.Theme != nil {
if val, ok := map[int]*string{
0: &clrScheme.Lt1.SysClr.LastClr,
1: &clrScheme.Dk1.SysClr.LastClr,
2: clrScheme.Lt2.SrgbClr.Val,
3: clrScheme.Dk2.SrgbClr.Val,
4: clrScheme.Accent1.SrgbClr.Val,
5: clrScheme.Accent2.SrgbClr.Val,
6: clrScheme.Accent3.SrgbClr.Val,
7: clrScheme.Accent4.SrgbClr.Val,
8: clrScheme.Accent5.SrgbClr.Val,
9: clrScheme.Accent6.SrgbClr.Val,
}[*clr.Theme]; ok && val != nil {
return strings.TrimPrefix(ThemeColor(*val, clr.Tint), "FF")
}
}
if len(clr.RGB) == 6 {
return clr.RGB
}
if len(clr.RGB) == 8 {
return strings.TrimPrefix(clr.RGB, "FF")
}
if f.Styles.Colors != nil && f.Styles.Colors.IndexedColors != nil && clr.Indexed < len(f.Styles.Colors.IndexedColors.RgbColor) {
return strings.TrimPrefix(ThemeColor(strings.TrimPrefix(f.Styles.Colors.IndexedColors.RgbColor[clr.Indexed].RGB, "FF"), clr.Tint), "FF")
}
if clr.Indexed < len(IndexedColorMapping) {
return strings.TrimPrefix(ThemeColor(IndexedColorMapping[clr.Indexed], clr.Tint), "FF")
}
return RGB
}
// extractBorders provides a function to extract borders styles settings by
// given border styles definition.
func (f *File) extractBorders(bdr *xlsxBorder, s *xlsxStyleSheet, style *Style) {
if bdr != nil {
var borders []Border
extractBorder := func(lineType string, line xlsxLine) {
if line.Style != "" {
borders = append(borders, Border{
Type: lineType,
Color: f.getThemeColor(line.Color),
Style: inStrSlice(styleBorders, line.Style, false),
})
}
}
for i, line := range []xlsxLine{
bdr.Left, bdr.Right, bdr.Top, bdr.Bottom, bdr.Diagonal, bdr.Diagonal,
} {
if i < 4 {
extractBorder(styleBorderTypes[i], line)
}
if i == 4 && bdr.DiagonalUp {
extractBorder(styleBorderTypes[i], line)
}
if i == 5 && bdr.DiagonalDown {
extractBorder(styleBorderTypes[i], line)
}
}
style.Border = borders
}
}
// extractFills provides a function to extract fill styles settings by
// given fill styles definition.
func (f *File) extractFills(fl *xlsxFill, s *xlsxStyleSheet, style *Style) {
if fl != nil {
var fill Fill
if fl.GradientFill != nil {
fill.Type = "gradient"
for shading, variants := range styleFillVariants {
if fl.GradientFill.Bottom == variants.Bottom &&
fl.GradientFill.Degree == variants.Degree &&
fl.GradientFill.Left == variants.Left &&
fl.GradientFill.Right == variants.Right &&
fl.GradientFill.Top == variants.Top &&
fl.GradientFill.Type == variants.Type {
fill.Shading = shading
break
}
}
for _, stop := range fl.GradientFill.Stop {
fill.Color = append(fill.Color, f.getThemeColor(&stop.Color))
}
}
if fl.PatternFill != nil {
fill.Type = "pattern"
fill.Pattern = inStrSlice(styleFillPatterns, fl.PatternFill.PatternType, false)
if fl.PatternFill.BgColor != nil {
fill.Color = []string{f.getThemeColor(fl.PatternFill.BgColor)}
}
if fl.PatternFill.FgColor != nil {
fill.Color = []string{f.getThemeColor(fl.PatternFill.FgColor)}
}
}
style.Fill = fill
}
}
// extractFont provides a function to extract font styles settings by given
// font styles definition.
func (f *File) extractFont(fnt *xlsxFont, s *xlsxStyleSheet, style *Style) {
if fnt != nil {
var font Font
if fnt.B != nil {
font.Bold = fnt.B.Value()
}
if fnt.I != nil {
font.Italic = fnt.I.Value()
}
if fnt.U != nil {
if font.Underline = fnt.U.Value(); font.Underline == "" {
font.Underline = "single"
}
}
if fnt.Name != nil {
font.Family = fnt.Name.Value()
}
if fnt.Sz != nil {
font.Size = fnt.Sz.Value()
}
if fnt.Strike != nil {
font.Strike = fnt.Strike.Value()
}
if fnt.Color != nil {
font.Color = strings.TrimPrefix(fnt.Color.RGB, "FF")
font.ColorIndexed = fnt.Color.Indexed
font.ColorTheme = fnt.Color.Theme
font.ColorTint = fnt.Color.Tint
}
style.Font = &font
}
}
// extractNumFmt provides a function to extract number format by given styles
// definition.
func (f *File) extractNumFmt(n *int, s *xlsxStyleSheet, style *Style) {
if n != nil {
numFmtID := *n
if _, ok := builtInNumFmt[numFmtID]; ok || isLangNumFmt(numFmtID) {
style.NumFmt = numFmtID
return
}
if s.NumFmts != nil {
for _, numFmt := range s.NumFmts.NumFmt {
style.CustomNumFmt = &numFmt.FormatCode
if strings.Contains(numFmt.FormatCode, ";[Red]") {
style.NegRed = true
}
for numFmtID, fmtCode := range currencyNumFmt {
if style.NegRed {
fmtCode += ";[Red]" + fmtCode
}
if numFmt.FormatCode == fmtCode {
style.NumFmt = numFmtID
}
}
}
}
}
}
// extractAlignment provides a function to extract alignment format by
// given style definition.
func (f *File) extractAlignment(a *xlsxAlignment, s *xlsxStyleSheet, style *Style) {
if a != nil {
style.Alignment = &Alignment{
Horizontal: a.Horizontal,
Indent: a.Indent,
JustifyLastLine: a.JustifyLastLine,
ReadingOrder: a.ReadingOrder,
RelativeIndent: a.RelativeIndent,
ShrinkToFit: a.ShrinkToFit,
TextRotation: a.TextRotation,
Vertical: a.Vertical,
WrapText: a.WrapText,
}
}
}
// extractProtection provides a function to extract protection settings by
// given format definition.
func (f *File) extractProtection(p *xlsxProtection, s *xlsxStyleSheet, style *Style) {
if p != nil {
style.Protection = &Protection{}
if p.Hidden != nil {
style.Protection.Hidden = *p.Hidden
}
if p.Locked != nil {
style.Protection.Locked = *p.Locked
}
}
}
// GetStyle provides a function to get style definition by given style index.
func (f *File) GetStyle(idx int) (*Style, error) {
var style *Style
f.mu.Lock()
s, err := f.stylesReader()
if err != nil {
return style, err
}
f.mu.Unlock()
if idx < 0 || s.CellXfs == nil || len(s.CellXfs.Xf) <= idx {
return style, newInvalidStyleID(idx)
}
style = &Style{}
xf := s.CellXfs.Xf[idx]
if extractStyleCondFuncs["fill"](xf, s) {
f.extractFills(s.Fills.Fill[*xf.FillID], s, style)
}
if extractStyleCondFuncs["border"](xf, s) {
f.extractBorders(s.Borders.Border[*xf.BorderID], s, style)
}
if extractStyleCondFuncs["font"](xf, s) {
f.extractFont(s.Fonts.Font[*xf.FontID], s, style)
}
if extractStyleCondFuncs["alignment"](xf, s) {
f.extractAlignment(xf.Alignment, s, style)
}
if extractStyleCondFuncs["protection"](xf, s) {
f.extractProtection(xf.Protection, s, style)
}
f.extractNumFmt(xf.NumFmtID, s, style)
return style, nil
}
// getStyleID provides a function to get styleID by given style. If given
// style does not exist, will return -1.
func (f *File) getStyleID(ss *xlsxStyleSheet, style *Style) (int, error) {
var (
err error
fontID int
styleID = -1
)
if ss.CellXfs == nil {
return styleID, err
}
numFmtID, borderID, fillID := getNumFmtID(ss, style), getBorderID(ss, style), getFillID(ss, style)
if fontID, err = f.getFontID(ss, style); err != nil {
return styleID, err
}
if style.CustomNumFmt != nil {
numFmtID = getCustomNumFmtID(ss, style)
}
for xfID, xf := range ss.CellXfs.Xf {
if getXfIDFuncs["numFmt"](numFmtID, xf, style) &&
getXfIDFuncs["font"](fontID, xf, style) &&
getXfIDFuncs["fill"](fillID, xf, style) &&
getXfIDFuncs["border"](borderID, xf, style) &&
getXfIDFuncs["alignment"](0, xf, style) &&
getXfIDFuncs["protection"](0, xf, style) {
styleID = xfID
return styleID, err
}
}
return styleID, err
}
// NewConditionalStyle provides a function to create style for conditional
// format by given style format. The parameters are the same with the NewStyle
// function.
func (f *File) NewConditionalStyle(style *Style) (int, error) {
f.mu.Lock()
s, err := f.stylesReader()
if err != nil {
f.mu.Unlock()
return 0, err
}
f.mu.Unlock()
fs, err := parseFormatStyleSet(style)
if err != nil {
return 0, err
}
if fs.DecimalPlaces != nil && (*fs.DecimalPlaces < 0 || *fs.DecimalPlaces > 30) {
fs.DecimalPlaces = intPtr(2)
}
dxf := xlsxDxf{
Fill: newFills(fs, false),
}
if fs.Alignment != nil {
dxf.Alignment = newAlignment(fs)
}
if len(fs.Border) > 0 {
dxf.Border = newBorders(fs)
}
if fs.Font != nil {
dxf.Font, _ = f.newFont(fs)
}
if fs.Protection != nil {
dxf.Protection = newProtection(fs)
}
dxf.NumFmt = newDxfNumFmt(s, style, &dxf)
if s.Dxfs == nil {
s.Dxfs = &xlsxDxfs{}
}
s.Dxfs.Count++
s.Dxfs.Dxfs = append(s.Dxfs.Dxfs, &dxf)
return s.Dxfs.Count - 1, nil
}
// GetConditionalStyle returns conditional format style definition by specified
// style index.
func (f *File) GetConditionalStyle(idx int) (*Style, error) {
var style *Style
f.mu.Lock()
s, err := f.stylesReader()
if err != nil {
return style, err
}
f.mu.Unlock()
if idx < 0 || s.Dxfs == nil || len(s.Dxfs.Dxfs) <= idx {
return style, newInvalidStyleID(idx)
}
style = &Style{}
xf := s.Dxfs.Dxfs[idx]
// The default pattern fill type of conditional format style is solid
if xf.Fill != nil && xf.Fill.PatternFill != nil && xf.Fill.PatternFill.PatternType == "" {
xf.Fill.PatternFill.PatternType = "solid"
}
f.extractFills(xf.Fill, s, style)
f.extractBorders(xf.Border, s, style)
f.extractFont(xf.Font, s, style)
f.extractAlignment(xf.Alignment, s, style)
f.extractProtection(xf.Protection, s, style)
if xf.NumFmt != nil {
f.extractNumFmt(&xf.NumFmt.NumFmtID, s, style)
}
return style, nil
}
// newDxfNumFmt provides a function to create number format for conditional
// format styles.
func newDxfNumFmt(styleSheet *xlsxStyleSheet, style *Style, dxf *xlsxDxf) *xlsxNumFmt {
dp, numFmtID := "0", 164 // Default custom number format code from 164.
if style.DecimalPlaces != nil && *style.DecimalPlaces > 0 {
dp += "."
for i := 0; i < *style.DecimalPlaces; i++ {
dp += "0"
}
}
if style.CustomNumFmt != nil {
if styleSheet.Dxfs != nil {
for _, d := range styleSheet.Dxfs.Dxfs {
if d != nil && d.NumFmt != nil && d.NumFmt.NumFmtID > numFmtID {
numFmtID = d.NumFmt.NumFmtID
}
}
}
return &xlsxNumFmt{NumFmtID: numFmtID + 1, FormatCode: *style.CustomNumFmt}
}
numFmtCode, ok := builtInNumFmt[style.NumFmt]
if style.NumFmt > 0 && ok {
return &xlsxNumFmt{NumFmtID: style.NumFmt, FormatCode: numFmtCode}
}
fc, currency := currencyNumFmt[style.NumFmt]
if !currency {
return nil
}
if style.DecimalPlaces != nil {
fc = strings.ReplaceAll(fc, "0.00", dp)
}
if style.NegRed {
fc = fc + ";[Red]" + fc
}
return &xlsxNumFmt{NumFmtID: numFmtID, FormatCode: fc}
}
// GetDefaultFont provides the default font name currently set in the
// workbook. The spreadsheet generated by excelize default font is Calibri.
func (f *File) GetDefaultFont() (string, error) {
font, err := f.readDefaultFont()
if err != nil {
return "", err
}
return *font.Name.Val, err
}
// SetDefaultFont changes the default font in the workbook.
func (f *File) SetDefaultFont(fontName string) error {
font, err := f.readDefaultFont()
if err != nil {
return err
}
font.Name.Val = stringPtr(fontName)
f.mu.Lock()
s, _ := f.stylesReader()
f.mu.Unlock()
s.Fonts.Font[0] = font
custom := true
s.CellStyles.CellStyle[0].CustomBuiltIn = &custom
return err
}
// readDefaultFont provides an un-marshalled font value.
func (f *File) readDefaultFont() (*xlsxFont, error) {
f.mu.Lock()
defer f.mu.Unlock()
s, err := f.stylesReader()
if err != nil {
return nil, err
}
return s.Fonts.Font[0], err
}
// getFontID provides a function to get font ID.
// If given font does not exist, will return -1.
func (f *File) getFontID(styleSheet *xlsxStyleSheet, style *Style) (int, error) {
var err error
fontID := -1
if styleSheet.Fonts == nil || style.Font == nil {
return fontID, err
}
for idx, fnt := range styleSheet.Fonts.Font {
font, err := f.newFont(style)
if err != nil {
return fontID, err
}
if reflect.DeepEqual(*fnt, *font) {
fontID = idx
return fontID, err
}
}
return fontID, err
}
// newFontColor set font color by given styles.
func newFontColor(font *Font) *xlsxColor {
var fontColor *xlsxColor
prepareFontColor := func() {
if fontColor != nil {
return
}
fontColor = &xlsxColor{}
}
if font.Color != "" {
prepareFontColor()
fontColor.RGB = getPaletteColor(font.Color)
}
if font.ColorIndexed >= 0 && font.ColorIndexed <= len(IndexedColorMapping)+1 {
prepareFontColor()
fontColor.Indexed = font.ColorIndexed
}
if font.ColorTheme != nil {
prepareFontColor()
fontColor.Theme = font.ColorTheme
}
if font.ColorTint != 0 {
prepareFontColor()
fontColor.Tint = font.ColorTint
}
return fontColor
}
// newFont provides a function to add font style by given cell format
// settings.
func (f *File) newFont(style *Style) (*xlsxFont, error) {
var err error
if style.Font.Size < MinFontSize {
style.Font.Size = 11
}
fnt := xlsxFont{
Sz: &attrValFloat{Val: float64Ptr(style.Font.Size)},
Name: &attrValString{Val: stringPtr(style.Font.Family)},
Family: &attrValInt{Val: intPtr(2)},
}
fnt.Color = newFontColor(style.Font)
if style.Font.Bold {
fnt.B = &attrValBool{Val: &style.Font.Bold}
}
if style.Font.Italic {
fnt.I = &attrValBool{Val: &style.Font.Italic}
}
if *fnt.Name.Val == "" {
if *fnt.Name.Val, err = f.GetDefaultFont(); err != nil {
return &fnt, err
}
}
if style.Font.Strike {
fnt.Strike = &attrValBool{Val: &style.Font.Strike}
}
if idx := inStrSlice(supportedUnderlineTypes, style.Font.Underline, true); idx != -1 {
fnt.U = &attrValString{Val: stringPtr(supportedUnderlineTypes[idx])}
}
return &fnt, err
}
// getNumFmtID provides a function to get number format code ID.
// If given number format code does not exist, will return -1.
func getNumFmtID(styleSheet *xlsxStyleSheet, style *Style) (numFmtID int) {
numFmtID = -1
if _, ok := builtInNumFmt[style.NumFmt]; ok {
return style.NumFmt
}
if (27 <= style.NumFmt && style.NumFmt <= 36) || (50 <= style.NumFmt && style.NumFmt <= 81) {
numFmtID = style.NumFmt
return
}
if fmtCode, ok := currencyNumFmt[style.NumFmt]; ok {
numFmtID = style.NumFmt
if styleSheet.NumFmts != nil {
for _, numFmt := range styleSheet.NumFmts.NumFmt {
if numFmt.FormatCode == fmtCode {
numFmtID = numFmt.NumFmtID
return
}
}
}
}
return
}
// newNumFmt provides a function to check if number format code in the range
// of built-in values.
func newNumFmt(styleSheet *xlsxStyleSheet, style *Style) int {
dp, numFmtID := "0", 164 // Default custom number format code from 164.
if style.DecimalPlaces != nil && *style.DecimalPlaces > 0 {
dp += "."
for i := 0; i < *style.DecimalPlaces; i++ {
dp += "0"
}
}
if style.CustomNumFmt != nil {
if customNumFmtID := getCustomNumFmtID(styleSheet, style); customNumFmtID != -1 {
return customNumFmtID
}
return setCustomNumFmt(styleSheet, style)
}
if _, ok := builtInNumFmt[style.NumFmt]; !ok {
fc, currency := currencyNumFmt[style.NumFmt]
if !currency {
return setLangNumFmt(style)
}
if style.DecimalPlaces != nil {
fc = strings.ReplaceAll(fc, "0.00", dp)
}
if style.NegRed {
fc = fc + ";[Red]" + fc
}
if styleSheet.NumFmts == nil {
styleSheet.NumFmts = &xlsxNumFmts{NumFmt: []*xlsxNumFmt{}}
} else {
numFmtID = styleSheet.NumFmts.NumFmt[len(styleSheet.NumFmts.NumFmt)-1].NumFmtID + 1
}
styleSheet.NumFmts.NumFmt = append(styleSheet.NumFmts.NumFmt, &xlsxNumFmt{
FormatCode: fc, NumFmtID: numFmtID,
})
styleSheet.NumFmts.Count++
return numFmtID
}
return style.NumFmt
}
// setCustomNumFmt provides a function to set custom number format code.
func setCustomNumFmt(styleSheet *xlsxStyleSheet, style *Style) int {
nf := xlsxNumFmt{NumFmtID: 163, FormatCode: *style.CustomNumFmt}
if styleSheet.NumFmts == nil {
styleSheet.NumFmts = &xlsxNumFmts{}
}
for _, numFmt := range styleSheet.NumFmts.NumFmt {
if numFmt != nil && nf.NumFmtID < numFmt.NumFmtID {
nf.NumFmtID = numFmt.NumFmtID
}
}
nf.NumFmtID++
styleSheet.NumFmts.NumFmt = append(styleSheet.NumFmts.NumFmt, &nf)
styleSheet.NumFmts.Count = len(styleSheet.NumFmts.NumFmt)
return nf.NumFmtID
}
// getCustomNumFmtID provides a function to get custom number format code ID.
// If given custom number format code does not exist, will return -1.
func getCustomNumFmtID(styleSheet *xlsxStyleSheet, style *Style) (customNumFmtID int) {
customNumFmtID = -1
if styleSheet.NumFmts == nil {
return
}
for _, numFmt := range styleSheet.NumFmts.NumFmt {
if style.CustomNumFmt != nil && numFmt.FormatCode == *style.CustomNumFmt {
customNumFmtID = numFmt.NumFmtID
return
}
}
return
}
// isLangNumFmt provides a function to returns if a given number format ID is a
// built-in language glyphs number format code.
func isLangNumFmt(ID int) bool {
return (27 <= ID && ID <= 36) || (50 <= ID && ID <= 62) || (67 <= ID && ID <= 81)
}
// setLangNumFmt provides a function to set number format code with language.
func setLangNumFmt(style *Style) int {
if isLangNumFmt(style.NumFmt) {
return style.NumFmt
}
return 0
}
// getFillID provides a function to get fill ID. If given fill is not
// exist, will return -1.
func getFillID(styleSheet *xlsxStyleSheet, style *Style) (fillID int) {
fillID = -1
if styleSheet.Fills == nil || style.Fill.Type == "" {
return
}
fills := newFills(style, true)
if fills == nil {
return
}
for idx, fill := range styleSheet.Fills.Fill {
if reflect.DeepEqual(fill, fills) {
fillID = idx
return
}
}
return
}
// newFills provides a function to add fill elements in the styles.xml by
// given cell format settings.
func newFills(style *Style, fg bool) *xlsxFill {
var fill xlsxFill
switch style.Fill.Type {
case "gradient":
if len(style.Fill.Color) != 2 || style.Fill.Shading < 0 || style.Fill.Shading > 16 {
break
}
gradient := styleFillVariants[style.Fill.Shading]
gradient.Stop[0].Color.RGB = getPaletteColor(style.Fill.Color[0])
gradient.Stop[1].Color.RGB = getPaletteColor(style.Fill.Color[1])
if len(gradient.Stop) == 3 {
gradient.Stop[2].Color.RGB = getPaletteColor(style.Fill.Color[0])
}
fill.GradientFill = &gradient
case "pattern":
if style.Fill.Pattern > 18 || style.Fill.Pattern < 0 {
break
}
if len(style.Fill.Color) < 1 {
break
}
var pattern xlsxPatternFill
pattern.PatternType = styleFillPatterns[style.Fill.Pattern]
if fg {
if pattern.FgColor == nil {
pattern.FgColor = new(xlsxColor)
}
pattern.FgColor.RGB = getPaletteColor(style.Fill.Color[0])
} else {
if pattern.BgColor == nil {
pattern.BgColor = new(xlsxColor)
}
pattern.BgColor.RGB = getPaletteColor(style.Fill.Color[0])
}
fill.PatternFill = &pattern
default:
return nil
}
return &fill
}
// newAlignment provides a function to formatting information pertaining to
// text alignment in cells. There are a variety of choices for how text is
// aligned both horizontally and vertically, as well as indentation settings,
// and so on.
func newAlignment(style *Style) *xlsxAlignment {
var alignment xlsxAlignment
if style.Alignment != nil {
alignment.Horizontal = style.Alignment.Horizontal
alignment.Indent = style.Alignment.Indent
alignment.JustifyLastLine = style.Alignment.JustifyLastLine
alignment.ReadingOrder = style.Alignment.ReadingOrder
alignment.RelativeIndent = style.Alignment.RelativeIndent
alignment.ShrinkToFit = style.Alignment.ShrinkToFit
alignment.TextRotation = style.Alignment.TextRotation
alignment.Vertical = style.Alignment.Vertical
alignment.WrapText = style.Alignment.WrapText
}
return &alignment
}
// newProtection provides a function to set protection properties associated
// with the cell.
func newProtection(style *Style) *xlsxProtection {
var protection xlsxProtection
if style.Protection != nil {
protection.Hidden = &style.Protection.Hidden
protection.Locked = &style.Protection.Locked
}
return &protection
}
// getBorderID provides a function to get border ID. If given border is not
// exist, will return -1.
func getBorderID(styleSheet *xlsxStyleSheet, style *Style) (borderID int) {
borderID = -1
if styleSheet.Borders == nil || len(style.Border) == 0 {
return
}
for idx, border := range styleSheet.Borders.Border {
if reflect.DeepEqual(*border, *newBorders(style)) {
borderID = idx
return
}
}
return
}
// newBorders provides a function to add border elements in the styles.xml by
// given borders format settings.
func newBorders(style *Style) *xlsxBorder {
var border xlsxBorder
for _, v := range style.Border {
if 0 <= v.Style && v.Style < 14 {
var color xlsxColor
color.RGB = getPaletteColor(v.Color)
switch v.Type {
case "left":
border.Left.Style = styleBorders[v.Style]
border.Left.Color = &color
case "right":
border.Right.Style = styleBorders[v.Style]
border.Right.Color = &color
case "top":
border.Top.Style = styleBorders[v.Style]
border.Top.Color = &color
case "bottom":
border.Bottom.Style = styleBorders[v.Style]
border.Bottom.Color = &color
case "diagonalUp":
border.Diagonal.Style = styleBorders[v.Style]
border.Diagonal.Color = &color
border.DiagonalUp = true
case "diagonalDown":
border.Diagonal.Style = styleBorders[v.Style]
border.Diagonal.Color = &color
border.DiagonalDown = true
}
}
}
return &border
}
// setCellXfs provides a function to set describes all the formatting for a
// cell.
func setCellXfs(style *xlsxStyleSheet, fontID, numFmtID, fillID, borderID int, applyAlignment, applyProtection bool, alignment *xlsxAlignment, protection *xlsxProtection) (int, error) {
var xf xlsxXf
xf.FontID = intPtr(fontID)
if fontID != 0 {
xf.ApplyFont = boolPtr(true)
}
xf.NumFmtID = intPtr(numFmtID)
if numFmtID != 0 {
xf.ApplyNumberFormat = boolPtr(true)
}
xf.FillID = intPtr(fillID)
if fillID != 0 {
xf.ApplyFill = boolPtr(true)
}
xf.BorderID = intPtr(borderID)
if borderID != 0 {
xf.ApplyBorder = boolPtr(true)
}
if len(style.CellXfs.Xf) == MaxCellStyles {
return 0, ErrCellStyles
}
style.CellXfs.Count = len(style.CellXfs.Xf) + 1
xf.Alignment = alignment
if alignment != nil {
xf.ApplyAlignment = boolPtr(applyAlignment)
}
if applyProtection {
xf.ApplyProtection = boolPtr(applyProtection)
xf.Protection = protection
}
xfID := 0
xf.XfID = &xfID
style.CellXfs.Xf = append(style.CellXfs.Xf, xf)
return style.CellXfs.Count - 1, nil
}
// GetCellStyle provides a function to get cell style index by given worksheet
// name and cell reference.
func (f *File) GetCellStyle(sheet, cell string) (int, error) {
ws, err := f.workSheetReader(sheet)
if err != nil {
return 0, err
}
col, row, err := CellNameToCoordinates(cell)
if err != nil {
return 0, err
}
ws.prepareSheetXML(col, row)
ws.mu.Lock()
defer ws.mu.Unlock()
return ws.prepareCellStyle(col, row, ws.SheetData.Row[row-1].C[col-1].S), err
}
// SetCellStyle provides a function to add style attribute for cells by given
// worksheet name, range reference and style ID. This function is concurrency
// safe. Note that diagonalDown and diagonalUp type border should be use same
// color in the same range. SetCellStyle will overwrite the existing
// styles for the cell, it won't append or merge style with existing styles.
//
// For example create a borders of cell H9 on Sheet1:
//
// style, err := f.NewStyle(&excelize.Style{
// Border: []excelize.Border{
// {Type: "left", Color: "0000FF", Style: 3},
// {Type: "top", Color: "00FF00", Style: 4},
// {Type: "bottom", Color: "FFFF00", Style: 5},
// {Type: "right", Color: "FF0000", Style: 6},
// {Type: "diagonalDown", Color: "A020F0", Style: 7},
// {Type: "diagonalUp", Color: "A020F0", Style: 8},
// },
// })
// if err != nil {
// fmt.Println(err)
// }
// err = f.SetCellStyle("Sheet1", "H9", "H9", style)
//
// Set gradient fill with vertical variants shading styles for cell H9 on
// Sheet1:
//
// style, err := f.NewStyle(&excelize.Style{
// Fill: excelize.Fill{Type: "gradient", Color: []string{"FFFFFF", "E0EBF5"}, Shading: 1},
// })
// if err != nil {
// fmt.Println(err)
// }
// err = f.SetCellStyle("Sheet1", "H9", "H9", style)
//
// Set solid style pattern fill for cell H9 on Sheet1:
//
// style, err := f.NewStyle(&excelize.Style{
// Fill: excelize.Fill{Type: "pattern", Color: []string{"E0EBF5"}, Pattern: 1},
// })
// if err != nil {
// fmt.Println(err)
// }
// err = f.SetCellStyle("Sheet1", "H9", "H9", style)
//
// Set alignment style for cell H9 on Sheet1:
//
// style, err := f.NewStyle(&excelize.Style{
// Alignment: &excelize.Alignment{
// Horizontal: "center",
// Indent: 1,
// JustifyLastLine: true,
// ReadingOrder: 0,
// RelativeIndent: 1,
// ShrinkToFit: true,
// TextRotation: 45,
// Vertical: "",
// WrapText: true,
// },
// })
// if err != nil {
// fmt.Println(err)
// }
// err = f.SetCellStyle("Sheet1", "H9", "H9", style)
//
// Dates and times in Excel are represented by real numbers, for example "Apr 7
// 2017 12:00 PM" is represented by the number 42920.5. Set date and time format
// for cell H9 on Sheet1:
//
// f.SetCellValue("Sheet1", "H9", 42920.5)
// style, err := f.NewStyle(&excelize.Style{NumFmt: 22})
// if err != nil {
// fmt.Println(err)
// }
// err = f.SetCellStyle("Sheet1", "H9", "H9", style)
//
// Set font style for cell H9 on Sheet1:
//
// style, err := f.NewStyle(&excelize.Style{
// Font: &excelize.Font{
// Bold: true,
// Italic: true,
// Family: "Times New Roman",
// Size: 36,
// Color: "777777",
// },
// })
// if err != nil {
// fmt.Println(err)
// }
// err = f.SetCellStyle("Sheet1", "H9", "H9", style)
//
// Hide and lock for cell H9 on Sheet1:
//
// style, err := f.NewStyle(&excelize.Style{
// Protection: &excelize.Protection{
// Hidden: true,
// Locked: true,
// },
// })
// if err != nil {
// fmt.Println(err)
// }
// err = f.SetCellStyle("Sheet1", "H9", "H9", style)
func (f *File) SetCellStyle(sheet, topLeftCell, bottomRightCell string, styleID int) error {
hCol, hRow, err := CellNameToCoordinates(topLeftCell)
if err != nil {
return err
}
vCol, vRow, err := CellNameToCoordinates(bottomRightCell)
if err != nil {
return err
}
// Normalize the range, such correct C1:B3 to B1:C3.
if vCol < hCol {
vCol, hCol = hCol, vCol
}
if vRow < hRow {
vRow, hRow = hRow, vRow
}
hColIdx := hCol - 1
hRowIdx := hRow - 1
vColIdx := vCol - 1
vRowIdx := vRow - 1
f.mu.Lock()
ws, err := f.workSheetReader(sheet)
if err != nil {
f.mu.Unlock()
return err
}
s, err := f.stylesReader()
if err != nil {
f.mu.Unlock()
return err
}
f.mu.Unlock()
ws.mu.Lock()
defer ws.mu.Unlock()
ws.prepareSheetXML(vCol, vRow)
ws.makeContiguousColumns(hRow, vRow, vCol)
if styleID < 0 || s.CellXfs == nil || len(s.CellXfs.Xf) <= styleID {
return newInvalidStyleID(styleID)
}
for r := hRowIdx; r <= vRowIdx; r++ {
for k := hColIdx; k <= vColIdx; k++ {
ws.SheetData.Row[r].C[k].S = styleID
}
}
return err
}
// SetConditionalFormat provides a function to create conditional formatting
// rule for cell value. Conditional formatting is a feature of Excel which
// allows you to apply a format to a cell or a range of cells based on certain
// criteria.
//
// The type option is a required parameter and it has no default value.
// Allowable type values and their associated parameters are:
//
// Type | Parameters
// ---------------+------------------------------------
// cell | Criteria
// | Value
// | MinValue
// | MaxValue
// time_period | Criteria
// text | Criteria
// | Value
// average | Criteria
// duplicate | (none)
// unique | (none)
// top | Criteria
// | Value
// bottom | Criteria
// | Value
// blanks | (none)
// no_blanks | (none)
// errors | (none)
// no_errors | (none)
// 2_color_scale | MinType
// | MaxType
// | MinValue
// | MaxValue
// | MinColor
// | MaxColor
// 3_color_scale | MinType
// | MidType
// | MaxType
// | MinValue
// | MidValue
// | MaxValue
// | MinColor
// | MidColor
// | MaxColor
// data_bar | MinType
// | MaxType
// | MinValue
// | MaxValue
// | BarBorderColor
// | BarColor
// | BarDirection
// | BarOnly
// | BarSolid
// icon_set | IconStyle
// | ReverseIcons
// | IconsOnly
// formula | Criteria
//
// The 'Criteria' parameter is used to set the criteria by which the cell data
// will be evaluated. It has no default value. The most common criteria as
// applied to {Type: "cell"} are:
//
// between |
// not between |
// equal to | ==
// not equal to | !=
// greater than | >
// less than | <
// greater than or equal to | >=
// less than or equal to | <=
//
// You can either use Excel's textual description strings, in the first column
// above, or the more common symbolic alternatives.
//
// Additional criteria which are specific to other conditional format types are
// shown in the relevant sections below.
//
// value: The value is generally used along with the criteria parameter to set
// the rule by which the cell data will be evaluated:
//
// err := f.SetConditionalFormat("Sheet1", "D1:D10",
// []excelize.ConditionalFormatOptions{
// {
// Type: "cell",
// Criteria: ">",
// Format: format,
// Value: "6",
// },
// },
// )
//
// The value property can also be an cell reference:
//
// err := f.SetConditionalFormat("Sheet1", "D1:D10",
// []excelize.ConditionalFormatOptions{
// {
// Type: "cell",
// Criteria: ">",
// Format: format,
// Value: "$C$1",
// },
// },
// )
//
// type: format - The format parameter is used to specify the format that will
// be applied to the cell when the conditional formatting criterion is met. The
// format is created using the NewConditionalStyle function in the same way as
// cell formats:
//
// format, err := f.NewConditionalStyle(
// &excelize.Style{
// Font: &excelize.Font{Color: "9A0511"},
// Fill: excelize.Fill{
// Type: "pattern", Color: []string{"FEC7CE"}, Pattern: 1,
// },
// },
// )
// if err != nil {
// fmt.Println(err)
// }
// err = f.SetConditionalFormat("Sheet1", "D1:D10",
// []excelize.ConditionalFormatOptions{
// {Type: "cell", Criteria: ">", Format: format, Value: "6"},
// },
// )
//
// Note: In Excel, a conditional format is superimposed over the existing cell
// format and not all cell format properties can be modified. Properties that
// cannot be modified in a conditional format are font name, font size,
// superscript and subscript, diagonal borders, all alignment properties and all
// protection properties.
//
// Excel specifies some default formats to be used with conditional formatting.
// These can be replicated using the following excelize formats:
//
// // Rose format for bad conditional.
// format1, err := f.NewConditionalStyle(
// &excelize.Style{
// Font: &excelize.Font{Color: "9A0511"},
// Fill: excelize.Fill{
// Type: "pattern", Color: []string{"#FEC7CE"}, Pattern: 1,
// },
// },
// )
//
// // Light yellow format for neutral conditional.
// format2, err := f.NewConditionalStyle(
// &excelize.Style{
// Font: &excelize.Font{Color: "9B5713"},
// Fill: excelize.Fill{
// Type: "pattern", Color: []string{"FEEAA0"}, Pattern: 1,
// },
// },
// )
//
// // Light green format for good conditional.
// format3, err := f.NewConditionalStyle(
// &excelize.Style{
// Font: &excelize.Font{Color: "09600B"},
// Fill: excelize.Fill{
// Type: "pattern", Color: []string{"C7EECF"}, Pattern: 1,
// },
// },
// )
//
// type: MinValue - The 'MinValue' parameter is used to set the lower limiting
// value when the criteria is either "between" or "not between".
//
// // Highlight cells rules: between...
// err := f.SetConditionalFormat("Sheet1", "A1:A10",
// []excelize.ConditionalFormatOptions{
// {
// Type: "cell",
// Criteria: "between",
// Format: format,
// MinValue: 6",
// MaxValue: 8",
// },
// },
// )
//
// type: MaxValue - The 'MaxValue' parameter is used to set the upper limiting
// value when the criteria is either "between" or "not between". See the
// previous example.
//
// type: average - The average type is used to specify Excel's "Average" style
// conditional format:
//
// // Top/Bottom rules: Above Average...
// err := f.SetConditionalFormat("Sheet1", "A1:A10",
// []excelize.ConditionalFormatOptions{
// {
// Type: "average",
// Criteria: "=",
// Format: format1,
// AboveAverage: true,
// },
// },
// )
//
// // Top/Bottom rules: Below Average...
// err := f.SetConditionalFormat("Sheet1", "B1:B10",
// []excelize.ConditionalFormatOptions{
// {
// Type: "average",
// Criteria: "=",
// Format: format2,
// AboveAverage: false,
// },
// },
// )
//
// type: duplicate - The duplicate type is used to highlight duplicate cells in
// a range:
//
// // Highlight cells rules: Duplicate Values...
// err := f.SetConditionalFormat("Sheet1", "A1:A10",
// []excelize.ConditionalFormatOptions{
// {Type: "duplicate", Criteria: "=", Format: format},
// },
// )
//
// type: unique - The unique type is used to highlight unique cells in a range:
//
// // Highlight cells rules: Not Equal To...
// err := f.SetConditionalFormat("Sheet1", "A1:A10",
// []excelize.ConditionalFormatOptions{
// {Type: "unique", Criteria: "=", Format: format},
// },
// )
//
// type: top - The top type is used to specify the top n values by number or
// percentage in a range:
//
// // Top/Bottom rules: Top 10.
// err := f.SetConditionalFormat("Sheet1", "H1:H10",
// []excelize.ConditionalFormatOptions{
// {
// Type: "top",
// Criteria: "=",
// Format: format,
// Value: "6",
// },
// },
// )
//
// The criteria can be used to indicate that a percentage condition is required:
//
// err := f.SetConditionalFormat("Sheet1", "A1:A10",
// []excelize.ConditionalFormatOptions{
// {
// Type: "top",
// Criteria: "=",
// Format: format,
// Value: "6",
// Percent: true,
// },
// },
// )
//
// type: 2_color_scale - The 2_color_scale type is used to specify Excel's "2
// Color Scale" style conditional format:
//
// // Color scales: 2 color.
// err := f.SetConditionalFormat("Sheet1", "A1:A10",
// []excelize.ConditionalFormatOptions{
// {
// Type: "2_color_scale",
// Criteria: "=",
// MinType: "min",
// MaxType: "max",
// MinColor: "#F8696B",
// MaxColor: "#63BE7B",
// },
// },
// )
//
// This conditional type can be modified with MinType, MaxType, MinValue,
// MaxValue, MinColor and MaxColor, see below.
//
// type: 3_color_scale - The 3_color_scale type is used to specify Excel's "3
// Color Scale" style conditional format:
//
// // Color scales: 3 color.
// err := f.SetConditionalFormat("Sheet1", "A1:A10",
// []excelize.ConditionalFormatOptions{
// {
// Type: "3_color_scale",
// Criteria: "=",
// MinType: "min",
// MidType: "percentile",
// MaxType: "max",
// MinColor: "#F8696B",
// MidColor: "#FFEB84",
// MaxColor: "#63BE7B",
// },
// },
// )
//
// This conditional type can be modified with MinType, MidType, MaxType,
// MinValue, MidValue, MaxValue, MinColor, MidColor and MaxColor, see
// below.
//
// type: data_bar - The data_bar type is used to specify Excel's "Data Bar"
// style conditional format.
//
// MinType - The MinType and MaxType properties are available when the
// conditional formatting type is 2_color_scale, 3_color_scale or data_bar.
// The MidType is available for 3_color_scale. The properties are used as
// follows:
//
// // Data Bars: Gradient Fill.
// err := f.SetConditionalFormat("Sheet1", "K1:K10",
// []excelize.ConditionalFormatOptions{
// {
// Type: "data_bar",
// Criteria: "=",
// MinType: "min",
// MaxType: "max",
// BarColor: "#638EC6",
// },
// },
// )
//
// The available min/mid/max types are:
//
// min (for MinType only)
// num
// percent
// percentile
// formula
// max (for MaxType only)
//
// MidType - Used for 3_color_scale. Same as MinType, see above.
//
// MaxType - Same as MinType, see above.
//
// MinValue - The MinValue and MaxValue properties are available when the
// conditional formatting type is 2_color_scale, 3_color_scale or data_bar.
//
// MidValue - The MidValue is available for 3_color_scale. Same as MinValue,
// see above.
//
// MaxValue - Same as MinValue, see above.
//
// MinColor - The MinColor and MaxColor properties are available when the
// conditional formatting type is 2_color_scale, 3_color_scale or data_bar.
//
// MidColor - The MidColor is available for 3_color_scale. The properties
// are used as follows:
//
// // Color scales: 3 color.
// err := f.SetConditionalFormat("Sheet1", "B1:B10",
// []excelize.ConditionalFormatOptions{
// {
// Type: "3_color_scale",
// Criteria: "=",
// MinType: "min",
// MidType: "percentile",
// MaxType: "max",
// MinColor: "#F8696B",
// MidColor: "#FFEB84",
// MaxColor: "#63BE7B",
// },
// },
// )
//
// MaxColor - Same as MinColor, see above.
//
// BarColor - Used for data_bar. Same as MinColor, see above.
//
// BarBorderColor - Used for sets the color for the border line of a data bar,
// this is only visible in Excel 2010 and later.
//
// BarDirection - sets the direction for data bars. The available options are:
//
// context - Data bar direction is set by spreadsheet application based on the context of the data displayed.
// leftToRight - Data bar direction is from right to left.
// rightToLeft - Data bar direction is from left to right.
//
// BarOnly - Used for set displays a bar data but not the data in the cells.
//
// BarSolid - Used for turns on a solid (non-gradient) fill for data bars, this
// is only visible in Excel 2010 and later.
//
// IconStyle - The available options are:
//
// 3Arrows
// 3ArrowsGray
// 3Flags
// 3Signs
// 3Symbols
// 3Symbols2
// 3TrafficLights1
// 3TrafficLights2
// 4Arrows
// 4ArrowsGray
// 4Rating
// 4RedToBlack
// 4TrafficLights
// 5Arrows
// 5ArrowsGray
// 5Quarters
// 5Rating
//
// ReverseIcons - Used for set reversed icons sets.
//
// IconsOnly - Used for set displayed without the cell value.
//
// StopIfTrue - used to set the "stop if true" feature of a conditional
// formatting rule when more than one rule is applied to a cell or a range of
// cells. When this parameter is set then subsequent rules are not evaluated
// if the current rule is true.
func (f *File) SetConditionalFormat(sheet, rangeRef string, opts []ConditionalFormatOptions) error {
ws, err := f.workSheetReader(sheet)
if err != nil {
return err
}
if strings.Contains(rangeRef, ":") {
rect, err := rangeRefToCoordinates(rangeRef)
if err != nil {
return err
}
_ = sortCoordinates(rect)
rangeRef, _ = f.coordinatesToRangeRef(rect, strings.Contains(rangeRef, "$"))
}
// Create a pseudo GUID for each unique rule.
var rules int
for _, cf := range ws.ConditionalFormatting {
rules += len(cf.CfRule)
}
var (
cfRule []*xlsxCfRule
noCriteriaTypes = []string{
"containsBlanks",
"notContainsBlanks",
"containsErrors",
"notContainsErrors",
"expression",
"iconSet",
}
)
for i, opt := range opts {
var vt, ct string
var ok bool
// "type" is a required parameter, check for valid validation types.
vt, ok = validType[opt.Type]
if ok {
// Check for valid criteria types.
ct, ok = criteriaType[opt.Criteria]
if ok || inStrSlice(noCriteriaTypes, vt, true) != -1 {
drawFunc, ok := drawContFmtFunc[vt]
if ok {
priority := rules + i
rule, x14rule := drawFunc(priority, ct, strings.Split(rangeRef, ":")[0],
fmt.Sprintf("{00000000-0000-0000-%04X-%012X}", f.getSheetID(sheet), priority), &opt)
if rule == nil {
return ErrParameterInvalid
}
if x14rule != nil {
if err = f.appendCfRule(ws, x14rule); err != nil {
return err
}
f.addSheetNameSpace(sheet, NameSpaceSpreadSheetX14)
}
cfRule = append(cfRule, rule)
continue
}
}
return ErrParameterInvalid
}
return ErrParameterInvalid
}
ws.ConditionalFormatting = append(ws.ConditionalFormatting, &xlsxConditionalFormatting{
SQRef: rangeRef,
CfRule: cfRule,
})
return err
}
// appendCfRule provides a function to append rules to conditional formatting.
func (f *File) appendCfRule(ws *xlsxWorksheet, rule *xlsxX14CfRule) error {
var (
err error
idx int
appendMode bool
decodeExtLst = new(decodeExtLst)
condFmts *xlsxX14ConditionalFormattings
decodeCondFmts *decodeX14ConditionalFormattings
ext *xlsxExt
condFmtBytes, condFmtsBytes, extLstBytes []byte
)
condFmtBytes, _ = xml.Marshal([]*xlsxX14ConditionalFormatting{
{XMLNSXM: NameSpaceSpreadSheetExcel2006Main.Value, CfRule: []*xlsxX14CfRule{rule}},
})
if ws.ExtLst != nil { // append mode ext
if err = f.xmlNewDecoder(strings.NewReader("<extLst>" + ws.ExtLst.Ext + "</extLst>")).
Decode(decodeExtLst); err != nil && err != io.EOF {
return err
}
for idx, ext = range decodeExtLst.Ext {
if ext.URI == ExtURIConditionalFormattings {
decodeCondFmts = new(decodeX14ConditionalFormattings)
_ = f.xmlNewDecoder(strings.NewReader(ext.Content)).Decode(decodeCondFmts)
if condFmts == nil {
condFmts = &xlsxX14ConditionalFormattings{}
}
condFmts.Content = decodeCondFmts.Content + string(condFmtBytes)
condFmtsBytes, _ = xml.Marshal(condFmts)
decodeExtLst.Ext[idx].Content = string(condFmtsBytes)
appendMode = true
}
}
}
if !appendMode {
condFmtsBytes, _ = xml.Marshal(&xlsxX14ConditionalFormattings{Content: string(condFmtBytes)})
decodeExtLst.Ext = append(decodeExtLst.Ext, &xlsxExt{
URI: ExtURIConditionalFormattings, Content: string(condFmtsBytes),
})
}
sort.Slice(decodeExtLst.Ext, func(i, j int) bool {
return inStrSlice(worksheetExtURIPriority, decodeExtLst.Ext[i].URI, false) <
inStrSlice(worksheetExtURIPriority, decodeExtLst.Ext[j].URI, false)
})
extLstBytes, err = xml.Marshal(decodeExtLst)
ws.ExtLst = &xlsxExtLst{Ext: strings.TrimSuffix(strings.TrimPrefix(string(extLstBytes), "<extLst>"), "</extLst>")}
return err
}
// extractCondFmtCellIs provides a function to extract conditional format
// settings for cell value (include between, not between, equal, not equal,
// greater than and less than) by given conditional formatting rule.
func (f *File) extractCondFmtCellIs(c *xlsxCfRule, extLst *xlsxExtLst) ConditionalFormatOptions {
format := ConditionalFormatOptions{StopIfTrue: c.StopIfTrue, Type: "cell", Criteria: operatorType[c.Operator]}
if c.DxfID != nil {
format.Format = *c.DxfID
}
if len(c.Formula) == 2 {
format.MinValue, format.MaxValue = c.Formula[0], c.Formula[1]
return format
}
format.Value = c.Formula[0]
return format
}
// extractCondFmtTimePeriod provides a function to extract conditional format
// settings for time period by given conditional formatting rule.
func (f *File) extractCondFmtTimePeriod(c *xlsxCfRule, extLst *xlsxExtLst) ConditionalFormatOptions {
format := ConditionalFormatOptions{StopIfTrue: c.StopIfTrue, Type: "time_period", Criteria: operatorType[c.Operator]}
if c.DxfID != nil {
format.Format = *c.DxfID
}
return format
}
// extractCondFmtText provides a function to extract conditional format
// settings for text cell values by given conditional formatting rule.
func (f *File) extractCondFmtText(c *xlsxCfRule, extLst *xlsxExtLst) ConditionalFormatOptions {
format := ConditionalFormatOptions{StopIfTrue: c.StopIfTrue, Type: "text", Criteria: operatorType[c.Operator], Value: c.Text}
if c.DxfID != nil {
format.Format = *c.DxfID
}
return format
}
// extractCondFmtTop10 provides a function to extract conditional format
// settings for top N (default is top 10) by given conditional formatting
// rule.
func (f *File) extractCondFmtTop10(c *xlsxCfRule, extLst *xlsxExtLst) ConditionalFormatOptions {
format := ConditionalFormatOptions{
StopIfTrue: c.StopIfTrue,
Type: "top",
Criteria: "=",
Percent: c.Percent,
Value: strconv.Itoa(c.Rank),
}
if c.DxfID != nil {
format.Format = *c.DxfID
}
if c.Bottom {
format.Type = "bottom"
}
return format
}
// extractCondFmtAboveAverage provides a function to extract conditional format
// settings for above average and below average by given conditional formatting
// rule.
func (f *File) extractCondFmtAboveAverage(c *xlsxCfRule, extLst *xlsxExtLst) ConditionalFormatOptions {
format := ConditionalFormatOptions{
StopIfTrue: c.StopIfTrue,
Type: "average",
Criteria: "=",
}
if c.DxfID != nil {
format.Format = *c.DxfID
}
if c.AboveAverage != nil {
format.AboveAverage = *c.AboveAverage
}
return format
}
// extractCondFmtDuplicateUniqueValues provides a function to extract
// conditional format settings for duplicate and unique values by given
// conditional formatting rule.
func (f *File) extractCondFmtDuplicateUniqueValues(c *xlsxCfRule, extLst *xlsxExtLst) ConditionalFormatOptions {
format := ConditionalFormatOptions{
StopIfTrue: c.StopIfTrue,
Type: map[string]string{
"duplicateValues": "duplicate",
"uniqueValues": "unique",
}[c.Type],
Criteria: "=",
}
if c.DxfID != nil {
format.Format = *c.DxfID
}
return format
}
// extractCondFmtBlanks provides a function to extract conditional format
// settings for blank cells by given conditional formatting rule.
func (f *File) extractCondFmtBlanks(c *xlsxCfRule, extLst *xlsxExtLst) ConditionalFormatOptions {
format := ConditionalFormatOptions{
StopIfTrue: c.StopIfTrue,
Type: "blanks",
}
if c.DxfID != nil {
format.Format = *c.DxfID
}
return format
}
// extractCondFmtNoBlanks provides a function to extract conditional format
// settings for no blank cells by given conditional formatting rule.
func (f *File) extractCondFmtNoBlanks(c *xlsxCfRule, extLst *xlsxExtLst) ConditionalFormatOptions {
format := ConditionalFormatOptions{
StopIfTrue: c.StopIfTrue,
Type: "no_blanks",
}
if c.DxfID != nil {
format.Format = *c.DxfID
}
return format
}
// extractCondFmtErrors provides a function to extract conditional format
// settings for cells with errors by given conditional formatting rule.
func (f *File) extractCondFmtErrors(c *xlsxCfRule, extLst *xlsxExtLst) ConditionalFormatOptions {
format := ConditionalFormatOptions{
StopIfTrue: c.StopIfTrue,
Type: "errors",
}
if c.DxfID != nil {
format.Format = *c.DxfID
}
return format
}
// extractCondFmtNoErrors provides a function to extract conditional format
// settings for cells without errors by given conditional formatting rule.
func (f *File) extractCondFmtNoErrors(c *xlsxCfRule, extLst *xlsxExtLst) ConditionalFormatOptions {
format := ConditionalFormatOptions{
StopIfTrue: c.StopIfTrue,
Type: "no_errors",
}
if c.DxfID != nil {
format.Format = *c.DxfID
}
return format
}
// extractCondFmtColorScale provides a function to extract conditional format
// settings for color scale (include 2 color scale and 3 color scale) by given
// conditional formatting rule.
func (f *File) extractCondFmtColorScale(c *xlsxCfRule, extLst *xlsxExtLst) ConditionalFormatOptions {
format := ConditionalFormatOptions{StopIfTrue: c.StopIfTrue}
format.Type, format.Criteria = "2_color_scale", "="
values := len(c.ColorScale.Cfvo)
colors := len(c.ColorScale.Color)
if colors > 1 && values > 1 {
format.MinType = c.ColorScale.Cfvo[0].Type
if c.ColorScale.Cfvo[0].Val != "0" {
format.MinValue = c.ColorScale.Cfvo[0].Val
}
format.MinColor = "#" + f.getThemeColor(c.ColorScale.Color[0])
format.MaxType = c.ColorScale.Cfvo[1].Type
if c.ColorScale.Cfvo[1].Val != "0" {
format.MaxValue = c.ColorScale.Cfvo[1].Val
}
format.MaxColor = "#" + f.getThemeColor(c.ColorScale.Color[1])
}
if colors == 3 {
format.Type = "3_color_scale"
format.MidType = c.ColorScale.Cfvo[1].Type
if c.ColorScale.Cfvo[1].Val != "0" {
format.MidValue = c.ColorScale.Cfvo[1].Val
}
format.MidColor = "#" + f.getThemeColor(c.ColorScale.Color[1])
format.MaxType = c.ColorScale.Cfvo[2].Type
if c.ColorScale.Cfvo[2].Val != "0" {
format.MaxValue = c.ColorScale.Cfvo[2].Val
}
format.MaxColor = "#" + f.getThemeColor(c.ColorScale.Color[2])
}
return format
}
// extractCondFmtDataBarRule provides a function to extract conditional format
// settings for data bar by given conditional formatting rule extension list.
func (f *File) extractCondFmtDataBarRule(ID string, format *ConditionalFormatOptions, condFmts []decodeX14ConditionalFormatting) {
for _, condFmt := range condFmts {
for _, rule := range condFmt.CfRule {
if rule.DataBar != nil && rule.ID == ID {
format.BarDirection = rule.DataBar.Direction
if rule.DataBar.Gradient != nil && !*rule.DataBar.Gradient {
format.BarSolid = true
}
if rule.DataBar.BorderColor != nil {
format.BarBorderColor = "#" + f.getThemeColor(rule.DataBar.BorderColor)
}
}
}
}
}
// extractCondFmtDataBar provides a function to extract conditional format
// settings for data bar by given conditional formatting rule.
func (f *File) extractCondFmtDataBar(c *xlsxCfRule, extLst *xlsxExtLst) ConditionalFormatOptions {
format := ConditionalFormatOptions{Type: "data_bar", Criteria: "="}
if c.DataBar != nil {
format.StopIfTrue = c.StopIfTrue
format.MinType = c.DataBar.Cfvo[0].Type
format.MinValue = c.DataBar.Cfvo[0].Val
format.MaxType = c.DataBar.Cfvo[1].Type
format.MaxValue = c.DataBar.Cfvo[1].Val
format.BarColor = "#" + f.getThemeColor(c.DataBar.Color[0])
if c.DataBar.ShowValue != nil {
format.BarOnly = !*c.DataBar.ShowValue
}
}
extractExtLst := func(ID string, extLst *decodeExtLst) {
for _, ext := range extLst.Ext {
if ext.URI == ExtURIConditionalFormattings {
decodeCondFmts := new(decodeX14ConditionalFormattingRules)
if err := xml.Unmarshal([]byte(ext.Content), &decodeCondFmts); err == nil {
f.extractCondFmtDataBarRule(ID, &format, decodeCondFmts.CondFmt)
}
}
}
}
if c.ExtLst != nil {
ext := decodeX14ConditionalFormattingExt{}
if err := xml.Unmarshal([]byte(c.ExtLst.Ext), &ext); err == nil && extLst != nil {
decodeExtLst := new(decodeExtLst)
if err = xml.Unmarshal([]byte("<extLst>"+extLst.Ext+"</extLst>"), decodeExtLst); err == nil {
extractExtLst(ext.ID, decodeExtLst)
}
}
}
return format
}
// extractCondFmtExp provides a function to extract conditional format settings
// for expression by given conditional formatting rule.
func (f *File) extractCondFmtExp(c *xlsxCfRule, extLst *xlsxExtLst) ConditionalFormatOptions {
format := ConditionalFormatOptions{StopIfTrue: c.StopIfTrue, Type: "formula"}
if c.DxfID != nil {
format.Format = *c.DxfID
}
if len(c.Formula) > 0 {
format.Criteria = c.Formula[0]
}
return format
}
// extractCondFmtIconSet provides a function to extract conditional format
// settings for icon sets by given conditional formatting rule.
func (f *File) extractCondFmtIconSet(c *xlsxCfRule, extLst *xlsxExtLst) ConditionalFormatOptions {
format := ConditionalFormatOptions{Type: "icon_set"}
if c.IconSet != nil {
if c.IconSet.ShowValue != nil {
format.IconsOnly = !*c.IconSet.ShowValue
}
format.IconStyle = c.IconSet.IconSet
format.ReverseIcons = c.IconSet.Reverse
}
return format
}
// GetConditionalFormats returns conditional format settings by given worksheet
// name.
func (f *File) GetConditionalFormats(sheet string) (map[string][]ConditionalFormatOptions, error) {
conditionalFormats := make(map[string][]ConditionalFormatOptions)
ws, err := f.workSheetReader(sheet)
if err != nil {
return conditionalFormats, err
}
for _, cf := range ws.ConditionalFormatting {
var opts []ConditionalFormatOptions
for _, cr := range cf.CfRule {
if extractFunc, ok := extractContFmtFunc[cr.Type]; ok {
opts = append(opts, extractFunc(f, cr, ws.ExtLst))
}
}
conditionalFormats[cf.SQRef] = opts
}
return conditionalFormats, err
}
// UnsetConditionalFormat provides a function to unset the conditional format
// by given worksheet name and range reference.
func (f *File) UnsetConditionalFormat(sheet, rangeRef string) error {
ws, err := f.workSheetReader(sheet)
if err != nil {
return err
}
for i, cf := range ws.ConditionalFormatting {
if cf.SQRef == rangeRef {
ws.ConditionalFormatting = append(ws.ConditionalFormatting[:i], ws.ConditionalFormatting[i+1:]...)
return nil
}
}
return nil
}
// drawCondFmtCellIs provides a function to create conditional formatting rule
// for cell value (include between, not between, equal, not equal, greater
// than and less than) by given priority, criteria type and format settings.
func drawCondFmtCellIs(p int, ct, ref, GUID string, format *ConditionalFormatOptions) (*xlsxCfRule, *xlsxX14CfRule) {
c := &xlsxCfRule{
Priority: p + 1,
StopIfTrue: format.StopIfTrue,
Type: validType[format.Type],
Operator: ct,
DxfID: intPtr(format.Format),
}
// "between" and "not between" criteria require 2 values.
if ct == "between" || ct == "notBetween" {
c.Formula = append(c.Formula, []string{format.MinValue, format.MaxValue}...)
}
if inStrSlice(cellIsCriteriaType, ct, true) != -1 {
c.Formula = append(c.Formula, format.Value)
}
return c, nil
}
// drawCondFmtTimePeriod provides a function to create conditional formatting
// rule for time period by given priority, criteria type and format settings.
func drawCondFmtTimePeriod(p int, ct, ref, GUID string, format *ConditionalFormatOptions) (*xlsxCfRule, *xlsxX14CfRule) {
return &xlsxCfRule{
Priority: p + 1,
StopIfTrue: format.StopIfTrue,
Type: "timePeriod",
Operator: ct,
Formula: []string{
map[string]string{
"yesterday": fmt.Sprintf("FLOOR(%s,1)=TODAY()-1", ref),
"today": fmt.Sprintf("FLOOR(%s,1)=TODAY()", ref),
"tomorrow": fmt.Sprintf("FLOOR(%s,1)=TODAY()+1", ref),
"last 7 days": fmt.Sprintf("AND(TODAY()-FLOOR(%[1]s,1)<=6,FLOOR(%[1]s,1)<=TODAY())", ref),
"last week": fmt.Sprintf("AND(TODAY()-ROUNDDOWN(%[1]s,0)>=(WEEKDAY(TODAY())),TODAY()-ROUNDDOWN(%[1]s,0)<(WEEKDAY(TODAY())+7))", ref),
"this week": fmt.Sprintf("AND(TODAY()-ROUNDDOWN(%[1]s,0)<=WEEKDAY(TODAY())-1,ROUNDDOWN(%[1]s,0)-TODAY()>=7-WEEKDAY(TODAY()))", ref),
"continue week": fmt.Sprintf("AND(ROUNDDOWN(%[1]s,0)-TODAY()>(7-WEEKDAY(TODAY())),ROUNDDOWN(%[1]s,0)-TODAY()<(15-WEEKDAY(TODAY())))", ref),
"last month": fmt.Sprintf("AND(MONTH(%[1]s)=MONTH(TODAY())-1,OR(YEAR(%[1]s)=YEAR(TODAY()),AND(MONTH(%[1]s)=1,YEAR(%[1]s)=YEAR(TODAY())-1)))", ref),
"this month": fmt.Sprintf("AND(MONTH(%[1]s)=MONTH(TODAY()),YEAR(%[1]s)=YEAR(TODAY()))", ref),
"continue month": fmt.Sprintf("AND(MONTH(%[1]s)=MONTH(TODAY())+1,OR(YEAR(%[1]s)=YEAR(TODAY()),AND(MONTH(%[1]s)=12,YEAR(%[1]s)=YEAR(TODAY())+1)))", ref),
}[ct],
},
DxfID: intPtr(format.Format),
}, nil
}
// drawCondFmtText provides a function to create conditional formatting rule for
// text cell values by given priority, criteria type and format settings.
func drawCondFmtText(p int, ct, ref, GUID string, format *ConditionalFormatOptions) (*xlsxCfRule, *xlsxX14CfRule) {
return &xlsxCfRule{
Priority: p + 1,
StopIfTrue: format.StopIfTrue,
Type: map[string]string{
"containsText": "containsText",
"notContains": "notContainsText",
"beginsWith": "beginsWith",
"endsWith": "endsWith",
}[ct],
Text: format.Value,
Operator: ct,
Formula: []string{
map[string]string{
"containsText": fmt.Sprintf("NOT(ISERROR(SEARCH(\"%s\",%s)))",
strings.NewReplacer(`"`, `""`).Replace(format.Value), ref),
"notContains": fmt.Sprintf("ISERROR(SEARCH(\"%s\",%s))",
strings.NewReplacer(`"`, `""`).Replace(format.Value), ref),
"beginsWith": fmt.Sprintf("LEFT(%[2]s,LEN(\"%[1]s\"))=\"%[1]s\"",
strings.NewReplacer(`"`, `""`).Replace(format.Value), ref),
"endsWith": fmt.Sprintf("RIGHT(%[2]s,LEN(\"%[1]s\"))=\"%[1]s\"",
strings.NewReplacer(`"`, `""`).Replace(format.Value), ref),
}[ct],
},
DxfID: intPtr(format.Format),
}, nil
}
// drawCondFmtTop10 provides a function to create conditional formatting rule
// for top N (default is top 10) by given priority, criteria type and format
// settings.
func drawCondFmtTop10(p int, ct, ref, GUID string, format *ConditionalFormatOptions) (*xlsxCfRule, *xlsxX14CfRule) {
c := &xlsxCfRule{
Priority: p + 1,
StopIfTrue: format.StopIfTrue,
Bottom: format.Type == "bottom",
Type: validType[format.Type],
Rank: 10,
DxfID: intPtr(format.Format),
Percent: format.Percent,
}
if rank, err := strconv.Atoi(format.Value); err == nil {
c.Rank = rank
}
return c, nil
}
// drawCondFmtAboveAverage provides a function to create conditional
// formatting rule for above average and below average by given priority,
// criteria type and format settings.
func drawCondFmtAboveAverage(p int, ct, ref, GUID string, format *ConditionalFormatOptions) (*xlsxCfRule, *xlsxX14CfRule) {
return &xlsxCfRule{
Priority: p + 1,
StopIfTrue: format.StopIfTrue,
Type: validType[format.Type],
AboveAverage: boolPtr(format.AboveAverage),
DxfID: intPtr(format.Format),
}, nil
}
// drawCondFmtDuplicateUniqueValues provides a function to create conditional
// formatting rule for duplicate and unique values by given priority, criteria
// type and format settings.
func drawCondFmtDuplicateUniqueValues(p int, ct, ref, GUID string, format *ConditionalFormatOptions) (*xlsxCfRule, *xlsxX14CfRule) {
return &xlsxCfRule{
Priority: p + 1,
StopIfTrue: format.StopIfTrue,
Type: validType[format.Type],
DxfID: intPtr(format.Format),
}, nil
}
// drawCondFmtColorScale provides a function to create conditional formatting
// rule for color scale (include 2 color scale and 3 color scale) by given
// priority, criteria type and format settings.
func drawCondFmtColorScale(p int, ct, ref, GUID string, format *ConditionalFormatOptions) (*xlsxCfRule, *xlsxX14CfRule) {
minValue := format.MinValue
if minValue == "" {
minValue = "0"
}
maxValue := format.MaxValue
if maxValue == "" {
maxValue = "0"
}
midValue := format.MidValue
if midValue == "" {
midValue = "50"
}
c := &xlsxCfRule{
Priority: p + 1,
StopIfTrue: format.StopIfTrue,
Type: "colorScale",
ColorScale: &xlsxColorScale{
Cfvo: []*xlsxCfvo{
{Type: format.MinType, Val: minValue},
},
Color: []*xlsxColor{
{RGB: getPaletteColor(format.MinColor)},
},
},
}
if validType[format.Type] == "3_color_scale" {
c.ColorScale.Cfvo = append(c.ColorScale.Cfvo, &xlsxCfvo{Type: format.MidType, Val: midValue})
c.ColorScale.Color = append(c.ColorScale.Color, &xlsxColor{RGB: getPaletteColor(format.MidColor)})
}
c.ColorScale.Cfvo = append(c.ColorScale.Cfvo, &xlsxCfvo{Type: format.MaxType, Val: maxValue})
c.ColorScale.Color = append(c.ColorScale.Color, &xlsxColor{RGB: getPaletteColor(format.MaxColor)})
return c, nil
}
// drawCondFmtDataBar provides a function to create conditional formatting
// rule for data bar by given priority, criteria type and format settings.
func drawCondFmtDataBar(p int, ct, ref, GUID string, format *ConditionalFormatOptions) (*xlsxCfRule, *xlsxX14CfRule) {
var x14CfRule *xlsxX14CfRule
var extLst *xlsxExtLst
if format.BarSolid || format.BarDirection == "leftToRight" || format.BarDirection == "rightToLeft" || format.BarBorderColor != "" {
extLst = &xlsxExtLst{Ext: fmt.Sprintf(`<ext uri="%s" xmlns:x14="%s"><x14:id>%s</x14:id></ext>`, ExtURIConditionalFormattingRuleID, NameSpaceSpreadSheetX14.Value, GUID)}
x14CfRule = &xlsxX14CfRule{
Type: validType[format.Type],
ID: GUID,
DataBar: &xlsx14DataBar{
MaxLength: 100,
Border: format.BarBorderColor != "",
Gradient: !format.BarSolid,
Direction: format.BarDirection,
Cfvo: []*xlsxCfvo{{Type: "autoMin"}, {Type: "autoMax"}},
NegativeFillColor: &xlsxColor{RGB: "FFFF0000"},
AxisColor: &xlsxColor{RGB: "FFFF0000"},
},
}
if x14CfRule.DataBar.Border {
x14CfRule.DataBar.BorderColor = &xlsxColor{RGB: getPaletteColor(format.BarBorderColor)}
}
}
return &xlsxCfRule{
Priority: p + 1,
StopIfTrue: format.StopIfTrue,
Type: validType[format.Type],
DataBar: &xlsxDataBar{
ShowValue: boolPtr(!format.BarOnly),
Cfvo: []*xlsxCfvo{{Type: format.MinType, Val: format.MinValue}, {Type: format.MaxType, Val: format.MaxValue}},
Color: []*xlsxColor{{RGB: getPaletteColor(format.BarColor)}},
},
ExtLst: extLst,
}, x14CfRule
}
// drawCondFmtExp provides a function to create conditional formatting rule
// for expression by given priority, criteria type and format settings.
func drawCondFmtExp(p int, ct, ref, GUID string, format *ConditionalFormatOptions) (*xlsxCfRule, *xlsxX14CfRule) {
return &xlsxCfRule{
Priority: p + 1,
StopIfTrue: format.StopIfTrue,
Type: validType[format.Type],
Formula: []string{format.Criteria},
DxfID: intPtr(format.Format),
}, nil
}
// drawCondFmtErrors provides a function to create conditional formatting rule
// for cells with errors by given priority, criteria type and format settings.
func drawCondFmtErrors(p int, ct, ref, GUID string, format *ConditionalFormatOptions) (*xlsxCfRule, *xlsxX14CfRule) {
return &xlsxCfRule{
Priority: p + 1,
StopIfTrue: format.StopIfTrue,
Type: validType[format.Type],
Formula: []string{fmt.Sprintf("ISERROR(%s)", ref)},
DxfID: intPtr(format.Format),
}, nil
}
// drawCondFmtNoErrors provides a function to create conditional formatting rule
// for cells without errors by given priority, criteria type and format settings.
func drawCondFmtNoErrors(p int, ct, ref, GUID string, format *ConditionalFormatOptions) (*xlsxCfRule, *xlsxX14CfRule) {
return &xlsxCfRule{
Priority: p + 1,
StopIfTrue: format.StopIfTrue,
Type: validType[format.Type],
Formula: []string{fmt.Sprintf("NOT(ISERROR(%s))", ref)},
DxfID: intPtr(format.Format),
}, nil
}
// drawCondFmtBlanks provides a function to create conditional formatting rule
// for blank cells by given priority, criteria type and format settings.
func drawCondFmtBlanks(p int, ct, ref, GUID string, format *ConditionalFormatOptions) (*xlsxCfRule, *xlsxX14CfRule) {
return &xlsxCfRule{
Priority: p + 1,
StopIfTrue: format.StopIfTrue,
Type: validType[format.Type],
Formula: []string{fmt.Sprintf("LEN(TRIM(%s))=0", ref)},
DxfID: intPtr(format.Format),
}, nil
}
// drawCondFmtNoBlanks provides a function to create conditional formatting rule
// for no blanks cells by given priority, criteria type and format settings.
func drawCondFmtNoBlanks(p int, ct, ref, GUID string, format *ConditionalFormatOptions) (*xlsxCfRule, *xlsxX14CfRule) {
return &xlsxCfRule{
Priority: p + 1,
StopIfTrue: format.StopIfTrue,
Type: validType[format.Type],
Formula: []string{fmt.Sprintf("LEN(TRIM(%s))>0", ref)},
DxfID: intPtr(format.Format),
}, nil
}
// drawCondFmtIconSet provides a function to create conditional formatting rule
// for icon set by given priority, criteria type and format settings.
func drawCondFmtIconSet(p int, ct, ref, GUID string, format *ConditionalFormatOptions) (*xlsxCfRule, *xlsxX14CfRule) {
cfRule, ok := condFmtIconSetPresets[format.IconStyle]
if !ok {
return nil, nil
}
cfRule.Priority = p + 1
cfRule.IconSet.IconSet = format.IconStyle
cfRule.IconSet.Reverse = format.ReverseIcons
cfRule.IconSet.ShowValue = boolPtr(!format.IconsOnly)
cfRule.Type = validType[format.Type]
return cfRule, nil
}
// getPaletteColor provides a function to convert the RBG color by given
// string.
func getPaletteColor(color string) string {
return "FF" + strings.ReplaceAll(strings.ToUpper(color), "#", "")
}
// themeReader provides a function to get the pointer to the xl/theme/theme1.xml
// structure after deserialization.
func (f *File) themeReader() (*decodeTheme, error) {
if _, ok := f.Pkg.Load(defaultXMLPathTheme); !ok {
return nil, nil
}
theme := decodeTheme{}
if err := f.xmlNewDecoder(bytes.NewReader(namespaceStrictToTransitional(f.readXML(defaultXMLPathTheme)))).
Decode(&theme); err != nil && err != io.EOF {
return &theme, err
}
return &theme, nil
}
// ThemeColor applied the color with tint value.
func ThemeColor(baseColor string, tint float64) string {
if tint == 0 {
return "FF" + baseColor
}
r, _ := strconv.ParseUint(baseColor[:2], 16, 64)
g, _ := strconv.ParseUint(baseColor[2:4], 16, 64)
b, _ := strconv.ParseUint(baseColor[4:6], 16, 64)
var h, s, l float64
if r <= math.MaxUint8 && g <= math.MaxUint8 && b <= math.MaxUint8 {
h, s, l = RGBToHSL(uint8(r), uint8(g), uint8(b))
}
if tint < 0 {
l *= 1 + tint
} else {
l = l*(1-tint) + (1 - (1 - tint))
}
br, bg, bb := HSLToRGB(h, s, l)
return fmt.Sprintf("FF%02X%02X%02X", br, bg, bb)
}
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