package excelize import ( "encoding/json" "encoding/xml" "fmt" "math" "strconv" "strings" ) // Excel styles can reference number formats that are built-in, all of which // have an id less than 164. This is a possibly incomplete list comprised of as // many of them as I could find. var builtInNumFmt = map[int]string{ 0: "general", 1: "0", 2: "0.00", 3: "#,##0", 4: "#,##0.00", 9: "0%", 10: "0.00%", 11: "0.00e+00", 12: "# ?/?", 13: "# ??/??", 14: "mm-dd-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: `_("$"* #,##0.00_);_("$"* \(#,##0.00\);_("$"* "-"??_);_(@_)`, 45: "mm:ss", 46: "[h]:mm:ss", 47: "mmss.0", 48: "##0.0e+0", 49: "@", } // langNumFmt defined number format code with unicode in different language. var langNumFmt = map[string]map[int]string{ "zh-tw": zhtwNumFmt, "zh-cn": zhcnNumFmt, "zh-tw_unicode": zhtwUnicodeNumFmt, "zh-cn_unicode": zhcnUnicodeNumFmt, "ja-jp": jajpNumFmt, "ko-kr": kokrNumFmt, "ja-jp_unicode": jajpUnicodeNumFmt, "ko-kr_unicode": kokrUnicodeNumFmt, "th-th": ththNumFmt, "th-th_unicode": ththUnicodeNumFmt, } // zh-tw format code. var zhtwNumFmt = map[int]string{ 27: "[$-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"`, } // zh-cn format code. var zhcnNumFmt = map[int]string{ 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"`, } // zh-tw format code (with unicode values provided for language glyphs where // they occur). var zhtwUnicodeNumFmt = map[int]string{ 27: "[$-404]e/m/d", 28: `[$-404]e"5E74"m"6708"d"65E5"`, 29: `[$-404]e"5E74"m"6708"d"65E5"`, 30: "m/d/yy", 31: `yyyy"5E74"m"6708"d"65E5"`, 32: `hh"6642"mm"5206"`, 33: `hh"6642"mm"5206"ss"79D2"`, 34: `4E0A5348/4E0B5348hh"6642"mm"5206"`, 35: `4E0A5348/4E0B5348hh"6642"mm"5206"ss"79D2"`, 36: "[$-404]e/m/d", 50: "[$-404]e/m/d", 51: `[$-404]e"5E74"m"6708"d"65E5"`, 52: `4E0A5348/4E0B5348hh"6642"mm"5206"`, 53: `4E0A5348/4E0B5348hh"6642"mm"5206"ss"79D2"`, 54: `[$-404]e"5E74"m"6708"d"65E5"`, 55: `4E0A5348/4E0B5348hh"6642"mm"5206"`, 56: `4E0A5348/4E0B5348hh"6642"mm"5206"ss"79D2"`, 57: "[$-404]e/m/d", 58: `[$-404]e"5E74"m"6708"d"65E5"`, } // zh-cn format code (with unicode values provided for language glyphs where // they occur). var zhcnUnicodeNumFmt = map[int]string{ 27: `yyyy"5E74"m"6708"`, 28: `m"6708"d"65E5"`, 29: `m"6708"d"65E5"`, 30: "m-d-yy", 31: `yyyy"5E74"m"6708"d"65E5"`, 32: `h"65F6"mm"5206"`, 33: `h"65F6"mm"5206"ss"79D2"`, 34: `4E0A5348/4E0B5348h"65F6"mm"5206"`, 35: `4E0A5348/4E0B5348h"65F6"mm"5206"ss"79D2"`, 36: `yyyy"5E74"m"6708"`, 50: `yyyy"5E74"m"6708"`, 51: `m"6708"d"65E5"`, 52: `yyyy"5E74"m"6708"`, 53: `m"6708"d"65E5"`, 54: `m"6708"d"65E5"`, 55: `4E0A5348/4E0B5348h"65F6"mm"5206"`, 56: `4E0A5348/4E0B5348h"65F6"mm"5206"ss"79D2"`, 57: `yyyy"5E74"m"6708"`, 58: `m"6708"d"65E5"`, } // ja-jp format code. var jajpNumFmt = map[int]string{ 27: "[$-411]ge.m.d", 28: `[$-411]ggge"年"m"月"d"日"`, 29: `[$-411]ggge"年"m"月"d"日"`, 30: "m/d/yy", 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"`, } // ko-kr format code. var kokrNumFmt = map[int]string{ 27: `yyyy"年" mm"月" dd"日"`, 28: "mm-dd", 29: "mm-dd", 30: "mm-dd-yy", 31: `yyyy"년" mm"월" dd"일"`, 32: `h"시" mm"분"`, 33: `h"시" mm"분" ss"초"`, 34: `yyyy-mm-dd`, 35: `yyyy-mm-dd`, 36: `yyyy"年" mm"月" dd"日"`, 50: `yyyy"年" mm"月" dd"日"`, 51: "mm-dd", 52: "yyyy-mm-dd", 53: "yyyy-mm-dd", 54: "mm-dd", 55: "yyyy-mm-dd", 56: "yyyy-mm-dd", 57: `yyyy"年" mm"月" dd"日"`, 58: "mm-dd", } // ja-jp format code (with unicode values provided for language glyphs where // they occur). var jajpUnicodeNumFmt = map[int]string{ 27: "[$-411]ge.m.d", 28: `[$-411]ggge"5E74"m"6708"d"65E5"`, 29: `[$-411]ggge"5E74"m"6708"d"65E5"`, 30: "m/d/yy", 31: `yyyy"5E74"m"6708"d"65E5"`, 32: `h"6642"mm"5206"`, 33: `h"6642"mm"5206"ss"79D2"`, 34: `yyyy"5E74"m"6708"`, 35: `m"6708"d"65E5"`, 36: "[$-411]ge.m.d", 50: "[$-411]ge.m.d", 51: `[$-411]ggge"5E74"m"6708"d"65E5"`, 52: `yyyy"5E74"m"6708"`, 53: `m"6708"d"65E5"`, 54: `[$-411]ggge"5E74"m"6708"d"65E5"`, 55: `yyyy"5E74"m"6708"`, 56: `m"6708"d"65E5"`, 57: "[$-411]ge.m.d", 58: `[$-411]ggge"5E74"m"6708"d"65E5"`, } // ko-kr format code (with unicode values provided for language glyphs where // they occur). var kokrUnicodeNumFmt = map[int]string{ 27: `yyyy"5E74" mm"6708" dd"65E5"`, 28: "mm-dd", 29: "mm-dd", 30: "mm-dd-yy", 31: `yyyy"B144" mm"C6D4" dd"C77C"`, 32: `h"C2DC" mm"BD84"`, 33: `h"C2DC" mm"BD84" ss"CD08"`, 34: "yyyy-mm-dd", 35: "yyyy-mm-dd", 36: `yyyy"5E74" mm"6708" dd"65E5"`, 50: `yyyy"5E74" mm"6708" dd"65E5"`, 51: "mm-dd", 52: "yyyy-mm-dd", 53: "yyyy-mm-dd", 54: "mm-dd", 55: "yyyy-mm-dd", 56: "yyyy-mm-dd", 57: `yyyy"5E74" mm"6708" dd"65E5"`, 58: "mm-dd", } // th-th format code. var ththNumFmt = map[int]string{ 59: "t0", 60: "t0.00", 61: "t#,##0", 62: "t#,##0.00", 67: "t0%", 68: "t0.00%", 69: "t# ?/?", 70: "t# ??/??", 71: "ว/ด/ปปปป", 72: "ว-ดดด-ปป", 73: "ว-ดดด", 74: "ดดด-ปป", 75: "ช:นน", 76: "ช:นน:ทท", 77: "ว/ด/ปปปป ช:นน", 78: "นน:ทท", 79: "[ช]:นน:ทท", 80: "นน:ทท.0", 81: "d/m/bb", } // th-th format code (with unicode values provided for language glyphs where // they occur). var ththUnicodeNumFmt = map[int]string{ 59: "t0", 60: "t0.00", 61: "t#,##0", 62: "t#,##0.00", 67: "t0%", 68: "t0.00%", 69: "t# ?/?", 70: "t# ??/??", 71: "0E27/0E14/0E1B0E1B0E1B0E1B", 72: "0E27-0E140E140E14-0E1B0E1B", 73: "0E27-0E140E140E14", 74: "0E140E140E14-0E1B0E1B", 75: "0E0A:0E190E19", 76: "0E0A:0E190E19:0E170E17", 77: "0E27/0E14/0E1B0E1B0E1B0E1B 0E0A:0E190E19", 78: "0E190E19:0E170E17", 79: "[0E0A]:0E190E19:0E170E17", 80: "0E190E19:0E170E17.0", 81: "d/m/bb", } // currencyNumFmt defined the currency number format map. var currencyNumFmt = map[int]string{ 164: `"CN¥",##0.00`, 165: "[$$-409]#,##0.00", 166: "[$$-45C]#,##0.00", 167: "[$$-1004]#,##0.00", 168: "[$$-404]#,##0.00", 169: "[$$-C09]#,##0.00", 170: "[$$-2809]#,##0.00", 171: "[$$-1009]#,##0.00", 172: "[$$-2009]#,##0.00", 173: "[$$-1409]#,##0.00", 174: "[$$-4809]#,##0.00", 175: "[$$-2C09]#,##0.00", 176: "[$$-2409]#,##0.00", 177: "[$$-1000]#,##0.00", 178: `#,##0.00\ [$$-C0C]`, 179: "[$$-475]#,##0.00", 180: "[$$-83E]#,##0.00", 181: `[$$-86B]\ #,##0.00`, 182: `[$$-340A]\ #,##0.00`, 183: "[$$-240A]#,##0.00", 184: `[$$-300A]\ #,##0.00`, 185: "[$$-440A]#,##0.00", 186: "[$$-80A]#,##0.00", 187: "[$$-500A]#,##0.00", 188: "[$$-540A]#,##0.00", 189: `[$$-380A]\ #,##0.00`, } // builtInNumFmtFunc defined the format conversion functions map. Partial format // code doesn't support currently and will return original string. var builtInNumFmtFunc = map[int]func(i int, v string) string{ 0: formatToString, 1: formatToInt, 2: formatToFloat, 3: formatToInt, 4: formatToFloat, 9: formatToC, 10: formatToD, 11: formatToE, 12: formatToString, // Doesn't support currently 13: formatToString, // Doesn't support currently 14: parseTime, 15: parseTime, 16: parseTime, 17: parseTime, 18: parseTime, 19: parseTime, 20: parseTime, 21: parseTime, 22: parseTime, 37: formatToA, 38: formatToA, 39: formatToB, 40: formatToB, 41: formatToString, // Doesn't support currently 42: formatToString, // Doesn't support currently 43: formatToString, // Doesn't support currently 44: formatToString, // Doesn't support currently 45: parseTime, 46: parseTime, 47: parseTime, 48: formatToE, 49: formatToString, } // formatToString provides function to return original string by given built-in // number formats code and cell string. func formatToString(i int, v string) string { return v } // formatToInt provides function to convert original string to integer format as // string type by given built-in number formats code and cell string. func formatToInt(i int, v string) string { f, err := strconv.ParseFloat(v, 64) if err != nil { return v } return fmt.Sprintf("%d", int(f)) } // formatToFloat provides function to convert original string to float format as // string type by given built-in number formats code and cell string. func formatToFloat(i int, v string) string { f, err := strconv.ParseFloat(v, 64) if err != nil { return v } return fmt.Sprintf("%.2f", f) } // formatToA provides function to convert original string to special format as // string type by given built-in number formats code and cell string. func formatToA(i int, v string) string { f, err := strconv.ParseFloat(v, 64) if err != nil { return v } if f < 0 { t := int(math.Abs(f)) return fmt.Sprintf("(%d)", t) } t := int(f) return fmt.Sprintf("%d", t) } // formatToB provides function to convert original string to special format as // string type by given built-in number formats code and cell string. func formatToB(i int, v string) string { f, err := strconv.ParseFloat(v, 64) if err != nil { return v } if f < 0 { return fmt.Sprintf("(%.2f)", f) } return fmt.Sprintf("%.2f", f) } // formatToC provides function to convert original string to special format as // string type by given built-in number formats code and cell string. func formatToC(i int, v string) string { f, err := strconv.ParseFloat(v, 64) if err != nil { return v } f = f * 100 return fmt.Sprintf("%d%%", int(f)) } // formatToD provides function to convert original string to special format as // string type by given built-in number formats code and cell string. func formatToD(i int, v string) string { f, err := strconv.ParseFloat(v, 64) if err != nil { return v } f = f * 100 return fmt.Sprintf("%.2f%%", f) } // formatToE provides function to convert original string to special format as // string type by given built-in number formats code and cell string. func formatToE(i int, v string) string { f, err := strconv.ParseFloat(v, 64) if err != nil { return v } return fmt.Sprintf("%.e", f) } // parseTime provides function to returns a string parsed using time.Time. // Replace Excel placeholders with Go time placeholders. For example, replace // yyyy with 2006. These are in a specific order, due to the fact that m is used // in month, minute, and am/pm. It would be easier to fix that with regular // expressions, but if it's possible to keep this simple it would be easier to // maintain. Full-length month and days (e.g. March, Tuesday) have letters in // them that would be replaced by other characters below (such as the 'h' in // March, or the 'd' in Tuesday) below. First we convert them to arbitrary // characters unused in Excel Date formats, and then at the end, turn them to // what they should actually be. func parseTime(i int, v string) string { f, err := strconv.ParseFloat(v, 64) if err != nil { return v } val := timeFromExcelTime(f, false) format := builtInNumFmt[i] replacements := []struct{ xltime, gotime string }{ {"yyyy", "2006"}, {"yy", "06"}, {"mmmm", "%%%%"}, {"dddd", "&&&&"}, {"dd", "02"}, {"d", "2"}, {"mmm", "Jan"}, {"mmss", "0405"}, {"ss", "05"}, {"hh", "15"}, {"h", "3"}, {"mm:", "04:"}, {":mm", ":04"}, {"mm", "01"}, {"am/pm", "pm"}, {"m/", "1/"}, {"%%%%", "January"}, {"&&&&", "Monday"}, } for _, repl := range replacements { format = strings.Replace(format, repl.xltime, repl.gotime, 1) } // If the hour is optional, strip it out, along with the possible dangling // colon that would remain. if val.Hour() < 1 { format = strings.Replace(format, "]:", "]", 1) format = strings.Replace(format, "[3]", "", 1) format = strings.Replace(format, "[15]", "", 1) } else { format = strings.Replace(format, "[3]", "3", 1) format = strings.Replace(format, "[15]", "15", 1) } return val.Format(format) } // stylesReader provides function to get the pointer to the structure after // deserialization of xl/styles.xml. func (f *File) stylesReader() *xlsxStyleSheet { if f.Styles == nil { var styleSheet xlsxStyleSheet xml.Unmarshal([]byte(f.readXML("xl/styles.xml")), &styleSheet) f.Styles = &styleSheet } return f.Styles } // styleSheetWriter provides function to save xl/styles.xml after serialize // structure. func (f *File) styleSheetWriter() { if f.Styles != nil { output, _ := xml.Marshal(f.Styles) f.saveFileList("xl/styles.xml", replaceWorkSheetsRelationshipsNameSpace(string(output))) } } // parseFormatStyleSet provides function to parse the format settings of the // borders. func parseFormatStyleSet(style string) (*formatCellStyle, error) { format := formatCellStyle{ DecimalPlaces: 2, } err := json.Unmarshal([]byte(style), &format) return &format, err } // NewStyle provides function to create style for cells by given style format. // Note that the color field uses RGB color code. // // The following shows the border styles sorted 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 shows the borders 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 shows the shading styles sorted by excelize index number: // // | Index | Style | Index | Style | // +-------+-----------------+-------+-----------------+ // | 0 | Horizontal | 3 | Diagonal down | // | 1 | Vertical | 4 | From corner | // | 2 | Diagonal Up | 5 | From center | // // The following shows the patterns styles sorted 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 following the type of horizontal alignment in cells: // // | Style | // +------------------+ // | left | // | center | // | right | // | fill | // | justify | // | centerContinuous | // | distributed | // // The following the type of vertical alignment in cells: // // | Style | // +------------------+ // | top | // | center | // | justify | // | distributed | // // The following the type of font underline style: // // | Style | // +------------------+ // | 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 | @ | // // 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 | CN¥ | // | 165 | $ English (China) | // | 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. Vigin 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) | // func (f *File) NewStyle(style string) (int, error) { var cellXfsID int styleSheet := f.stylesReader() formatCellStyle, err := parseFormatStyleSet(style) if err != nil { return cellXfsID, err } numFmtID := setNumFmt(styleSheet, formatCellStyle) fontID := setFont(styleSheet, formatCellStyle) borderID := setBorders(styleSheet, formatCellStyle) fillID := setFills(styleSheet, formatCellStyle) applyAlignment, alignment := setAlignment(styleSheet, formatCellStyle) cellXfsID = setCellXfs(styleSheet, fontID, numFmtID, fillID, borderID, applyAlignment, alignment) return cellXfsID, nil } // setFont provides function to add font style by given cell format settings. func setFont(style *xlsxStyleSheet, formatCellStyle *formatCellStyle) int { if formatCellStyle.Font == nil { return 0 } fontUnderlineType := map[string]string{"single": "single", "double": "double"} if formatCellStyle.Font.Family == "" { formatCellStyle.Font.Family = "Calibri" } if formatCellStyle.Font.Size < 1 { formatCellStyle.Font.Size = 11 } if formatCellStyle.Font.Color == "" { formatCellStyle.Font.Color = "#000000" } f := font{ B: formatCellStyle.Font.Bold, I: formatCellStyle.Font.Italic, Sz: &attrValInt{Val: formatCellStyle.Font.Size}, Color: &xlsxColor{RGB: getPaletteColor(formatCellStyle.Font.Color)}, Name: &attrValString{Val: formatCellStyle.Font.Family}, Family: &attrValInt{Val: 2}, Scheme: &attrValString{Val: "minor"}, } val, ok := fontUnderlineType[formatCellStyle.Font.Underline] if ok { f.U = &attrValString{Val: val} } font, _ := xml.Marshal(f) style.Fonts.Count++ style.Fonts.Font = append(style.Fonts.Font, &xlsxFont{ Font: string(font[6 : len(font)-7]), }) return style.Fonts.Count - 1 } // setNumFmt provides function to check if number format code in the range of // built-in values. func setNumFmt(style *xlsxStyleSheet, formatCellStyle *formatCellStyle) int { dp := "0." numFmtID := 164 // Default custom number format code from 164. if formatCellStyle.DecimalPlaces < 0 || formatCellStyle.DecimalPlaces > 30 { formatCellStyle.DecimalPlaces = 2 } for i := 0; i < formatCellStyle.DecimalPlaces; i++ { dp += "0" } _, ok := builtInNumFmt[formatCellStyle.NumFmt] if !ok { fc, currency := currencyNumFmt[formatCellStyle.NumFmt] if !currency { return setLangNumFmt(style, formatCellStyle) } fc = strings.Replace(fc, "0.00", dp, -1) if style.NumFmts != nil { numFmtID = style.NumFmts.NumFmt[len(style.NumFmts.NumFmt)-1].NumFmtID + 1 nf := xlsxNumFmt{ FormatCode: fc, NumFmtID: numFmtID, } style.NumFmts.NumFmt = append(style.NumFmts.NumFmt, &nf) style.NumFmts.Count++ } else { nf := xlsxNumFmt{ FormatCode: fc, NumFmtID: numFmtID, } numFmts := xlsxNumFmts{ NumFmt: []*xlsxNumFmt{&nf}, Count: 1, } style.NumFmts = &numFmts } return numFmtID } return formatCellStyle.NumFmt } // setLangNumFmt provides function to set number format code with language. func setLangNumFmt(style *xlsxStyleSheet, formatCellStyle *formatCellStyle) int { numFmts, ok := langNumFmt[formatCellStyle.Lang] if !ok { return 0 } var fc string fc, ok = numFmts[formatCellStyle.NumFmt] if !ok { return 0 } nf := xlsxNumFmt{ FormatCode: fc, NumFmtID: formatCellStyle.NumFmt, } if style.NumFmts != nil { style.NumFmts.NumFmt = append(style.NumFmts.NumFmt, &nf) style.NumFmts.Count++ } else { numFmts := xlsxNumFmts{ NumFmt: []*xlsxNumFmt{&nf}, Count: 1, } style.NumFmts = &numFmts } return formatCellStyle.NumFmt } // setFills provides function to add fill elements in the styles.xml by given // cell format settings. func setFills(style *xlsxStyleSheet, formatCellStyle *formatCellStyle) int { var patterns = []string{ "none", "solid", "mediumGray", "darkGray", "lightGray", "darkHorizontal", "darkVertical", "darkDown", "darkUp", "darkGrid", "darkTrellis", "lightHorizontal", "lightVertical", "lightDown", "lightUp", "lightGrid", "lightTrellis", "gray125", "gray0625", } var variants = []float64{ 90, 0, 45, 135, } var fill xlsxFill switch formatCellStyle.Fill.Type { case "gradient": if len(formatCellStyle.Fill.Color) != 2 { break } var gradient xlsxGradientFill switch formatCellStyle.Fill.Shading { case 0, 1, 2, 3: gradient.Degree = variants[formatCellStyle.Fill.Shading] case 4: gradient.Type = "path" case 5: gradient.Type = "path" gradient.Bottom = 0.5 gradient.Left = 0.5 gradient.Right = 0.5 gradient.Top = 0.5 default: break } var stops []*xlsxGradientFillStop for index, color := range formatCellStyle.Fill.Color { var stop xlsxGradientFillStop stop.Position = float64(index) stop.Color.RGB = getPaletteColor(color) stops = append(stops, &stop) } gradient.Stop = stops fill.GradientFill = &gradient case "pattern": if formatCellStyle.Fill.Pattern > 18 || formatCellStyle.Fill.Pattern < 0 { break } if len(formatCellStyle.Fill.Color) < 1 { break } var pattern xlsxPatternFill pattern.PatternType = patterns[formatCellStyle.Fill.Pattern] pattern.FgColor.RGB = getPaletteColor(formatCellStyle.Fill.Color[0]) fill.PatternFill = &pattern } style.Fills.Count++ style.Fills.Fill = append(style.Fills.Fill, &fill) return style.Fills.Count - 1 } // setAlignment provides 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 setAlignment(style *xlsxStyleSheet, formatCellStyle *formatCellStyle) (bool, *xlsxAlignment) { if formatCellStyle.Alignment == nil { return false, &xlsxAlignment{} } var alignment = xlsxAlignment{ Horizontal: formatCellStyle.Alignment.Horizontal, Indent: formatCellStyle.Alignment.Indent, JustifyLastLine: formatCellStyle.Alignment.JustifyLastLine, ReadingOrder: formatCellStyle.Alignment.ReadingOrder, RelativeIndent: formatCellStyle.Alignment.RelativeIndent, ShrinkToFit: formatCellStyle.Alignment.ShrinkToFit, TextRotation: formatCellStyle.Alignment.TextRotation, Vertical: formatCellStyle.Alignment.Vertical, WrapText: formatCellStyle.Alignment.WrapText, } return true, &alignment } // setBorders provides function to add border elements in the styles.xml by // given borders format settings. func setBorders(style *xlsxStyleSheet, formatCellStyle *formatCellStyle) int { var styles = []string{ "none", "thin", "medium", "dashed", "dotted", "thick", "double", "hair", "mediumDashed", "dashDot", "mediumDashDot", "dashDotDot", "mediumDashDotDot", "slantDashDot", } var border xlsxBorder for _, v := range formatCellStyle.Border { if v.Style > 13 || v.Style < 0 { continue } var color xlsxColor color.RGB = getPaletteColor(v.Color) switch v.Type { case "left": border.Left.Style = styles[v.Style] border.Left.Color = &color case "right": border.Right.Style = styles[v.Style] border.Right.Color = &color case "top": border.Top.Style = styles[v.Style] border.Top.Color = &color case "bottom": border.Bottom.Style = styles[v.Style] border.Bottom.Color = &color case "diagonalUp": border.Diagonal.Style = styles[v.Style] border.Diagonal.Color = &color border.DiagonalUp = true case "diagonalDown": border.Diagonal.Style = styles[v.Style] border.Diagonal.Color = &color border.DiagonalDown = true } } style.Borders.Count++ style.Borders.Border = append(style.Borders.Border, &border) return style.Borders.Count - 1 } // setCellXfs provides function to set describes all of the formatting for a // cell. func setCellXfs(style *xlsxStyleSheet, fontID, numFmtID, fillID, borderID int, applyAlignment bool, alignment *xlsxAlignment) int { var xf xlsxXf xf.FontID = fontID if fontID != 0 { xf.ApplyFont = true } xf.NumFmtID = numFmtID if numFmtID != 0 { xf.ApplyNumberFormat = true } xf.FillID = fillID xf.BorderID = borderID style.CellXfs.Count++ xf.Alignment = alignment xf.ApplyAlignment = applyAlignment style.CellXfs.Xf = append(style.CellXfs.Xf, xf) return style.CellXfs.Count - 1 } // SetCellStyle provides function to add style attribute for cells by given // worksheet sheet index, coordinate area and style ID. Note that diagonalDown // and diagonalUp type border should be use same color in the same coordinate // area. // // For example create a borders of cell H9 on Sheet1: // // style, err := xlsx.NewStyle(`{"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) // } // xlsx.SetCellStyle("Sheet1", "H9", "H9", style) // // Set gradient fill with vertical variants shading styles for cell H9 on // Sheet1: // // style, err := xlsx.NewStyle(`{"fill":{"type":"gradient","color":["#FFFFFF","#E0EBF5"],"shading":1}}`) // if err != nil { // fmt.Println(err) // } // xlsx.SetCellStyle("Sheet1", "H9", "H9", style) // // Set solid style pattern fill for cell H9 on Sheet1: // // style, err := xlsx.NewStyle(`{"fill":{"type":"pattern","color":["#E0EBF5"],"pattern":1}}`) // if err != nil { // fmt.Println(err) // } // xlsx.SetCellStyle("Sheet1", "H9", "H9", style) // // Set alignment style for cell H9 on Sheet1: // // style, err := xlsx.NewStyle(`{"alignment":{"horizontal":"center","ident":1,"justify_last_line":true,"reading_order":0,"relative_indent":1,"shrink_to_fit":true,"text_rotation":45,"vertical":"","wrap_text":true}}`) // if err != nil { // fmt.Println(err) // } // xlsx.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: // // xlsx.SetCellValue("Sheet1", "H9", 42920.5) // style, err := xlsx.NewStyle(`{"number_format": 22}`) // if err != nil { // fmt.Println(err) // } // xlsx.SetCellStyle("Sheet1", "H9", "H9", style) // // Set font style for cell H9 on Sheet1: // // style, err := xlsx.NewStyle(`{"font":{"bold":true,"italic":true,"family":"Berlin Sans FB Demi","size":36,"color":"#777777"}}`) // if err != nil { // fmt.Println(err) // } // xlsx.SetCellStyle("Sheet1", "H9", "H9", style) // func (f *File) SetCellStyle(sheet, hcell, vcell string, styleID int) { hcell = strings.ToUpper(hcell) vcell = strings.ToUpper(vcell) // Coordinate conversion, convert C1:B3 to 2,0,1,2. hcol := string(strings.Map(letterOnlyMapF, hcell)) hrow, _ := strconv.Atoi(strings.Map(intOnlyMapF, hcell)) hyAxis := hrow - 1 hxAxis := TitleToNumber(hcol) vcol := string(strings.Map(letterOnlyMapF, vcell)) vrow, _ := strconv.Atoi(strings.Map(intOnlyMapF, vcell)) vyAxis := vrow - 1 vxAxis := TitleToNumber(vcol) if vxAxis < hxAxis { hcell, vcell = vcell, hcell vxAxis, hxAxis = hxAxis, vxAxis } if vyAxis < hyAxis { hcell, vcell = vcell, hcell vyAxis, hyAxis = hyAxis, vyAxis } // Correct the coordinate area, such correct C1:B3 to B1:C3. hcell = ToAlphaString(hxAxis) + strconv.Itoa(hyAxis+1) vcell = ToAlphaString(vxAxis) + strconv.Itoa(vyAxis+1) xlsx := f.workSheetReader(sheet) completeRow(xlsx, vyAxis+1, vxAxis+1) completeCol(xlsx, vyAxis+1, vxAxis+1) for r, row := range xlsx.SheetData.Row { for k, c := range row.C { if checkCellInArea(c.R, hcell+":"+vcell) { xlsx.SheetData.Row[r].C[k].S = styleID } } } } // getPaletteColor provides function to convert the RBG color by given string. func getPaletteColor(color string) string { return "FF" + strings.Replace(strings.ToUpper(color), "#", "", -1) }