// Copyright (c) 2014-2016 Thomas Fussell // Copyright (c) 2010-2015 openpyxl // // Permission is hereby granted, free of charge, to any person obtaining a copy // of this software and associated documentation files (the "Software"), to deal // in the Software without restriction, including without limitation the rights // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell // copies of the Software, and to permit persons to whom the Software is // furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in // all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, WRISING FROM, // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN // THE SOFTWARE // // @license: http://www.opensource.org/licenses/mit-license.php // @author: see AUTHORS file #include #include #include #include #include #include #include namespace { const std::unordered_map &builtin_formats() { static const std::unordered_map *formats = new std::unordered_map ({ { 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, "# \?\?/??" }, // escape trigraph { 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, "@" } // EXCEL differs from the standard in the following: //{14, "m/d/yyyy"}, //{22, "m/d/yyyy h:mm"}, //{37, "#,##0_);(#,##0)"}, //{38, "#,##0_);[Red]"}, //{39, "#,##0.00_);(#,##0.00)"}, //{40, "#,##0.00_);[Red]"}, //{47, "mm:ss.0"}, //{55, "yyyy/mm/dd"} }); return *formats; } enum class condition_type { less_than, less_or_equal, equal, greater_than, greater_or_equal, invalid }; struct section { bool has_value = false; std::string value; bool has_color = false; std::string color; bool has_condition = false; condition_type condition = condition_type::invalid; std::string condition_value; bool has_locale = false; std::string locale; section &operator=(const section &other) { has_value = other.has_value; value = other.value; has_color = other.has_color; color = other.color; has_condition = other.has_condition; condition = other.condition; condition_value = other.condition_value; has_locale = other.has_locale; locale = other.locale; return *this; } }; struct format_sections { section first; section second; section third; section fourth; }; // copied from named_range.cpp, keep in sync /// /// Return a vector containing string split at each delim. /// /// /// This should maybe be in a utility header so it can be used elsewhere. /// std::vector split_string(const std::string &string, char delim) { std::vector split; std::string::size_type previous_index = 0; auto separator_index = string.find(delim); while (separator_index != std::string::npos) { auto part = string.substr(previous_index, separator_index - previous_index); split.push_back(part); previous_index = separator_index + 1; separator_index = string.find(delim, previous_index); } split.push_back(string.substr(previous_index)); return split; } std::vector split_string_any(const std::string &string, const std::string &delims) { std::vector split; std::string::size_type previous_index = 0; auto separator_index = string.find_first_of(delims); while (separator_index != std::string::npos) { auto part = string.substr(previous_index, separator_index - previous_index); if (!part.empty()) { split.push_back(part); } previous_index = separator_index + 1; separator_index = string.find_first_of(delims, previous_index); } split.push_back(string.substr(previous_index)); return split; } bool is_date_format(const std::string &format_string) { auto not_in = format_string.find_first_not_of("/-:, mMyYdDhHsSAP"); return not_in == std::string::npos; } bool is_valid_color(const std::string &color) { static const std::vector *colors = new std::vector( { "Black", "Green", "White", "Blue", "Magenta", "Yellow", "Cyan", "Red" }); auto compare_color = [&](const std::string &other) { if (color.size() != other.size()) return false; for (std::size_t i = 0; i < color.size(); i++) { if (std::toupper(color[i]) != std::toupper(other[i])) { return false; } } return true; }; return std::find_if(colors->begin(), colors->end(), compare_color) != colors->end(); } bool parse_condition(const std::string &string, section &s) { s.has_condition = false; s.condition = condition_type::invalid; s.condition_value.clear(); if (string[0] == '<') { s.has_condition = true; if (string[1] == '=') { s.condition = condition_type::less_or_equal; s.condition_value = string.substr(2); } else { s.condition = condition_type::less_than; s.condition_value = string.substr(1); } } if (string[0] == '>') { s.has_condition = true; if (string[1] == '=') { s.condition = condition_type::greater_or_equal; s.condition_value = string.substr(2); } else { s.condition = condition_type::greater_than; s.condition_value = string.substr(1); } } else if (string[0] == '=') { s.has_condition = true; s.condition = condition_type::equal; s.condition_value = string.substr(1); } return s.has_condition; } bool is_hex(char c) { return (c >= 'A' && c <= 'F') || (c >= '0' && c <= '9'); } const std::unordered_map known_locales() { const std::unordered_map *all = new std::unordered_map( { { 0x401, "Arabic - Saudi Arabia" }, { 0x402, "Bulgarian" }, { 0x403, "Catalan" }, { 0x404, "Chinese - Taiwan" }, { 0x405, "Czech" }, { 0x406, "Danish" }, { 0x407, "German - Germany" }, { 0x408, "Greek" }, { 0x409, "English - United States" }, { 0x410, "Italian - Italy" }, { 0x411, "Japanese" }, { 0x412, "Korean" }, { 0x413, "Dutch - Netherlands" }, { 0x414, "Norwegian - Bokml" }, { 0x415, "Polish" }, { 0x416, "Portuguese - Brazil" }, { 0x417, "Raeto-Romance" }, { 0x418, "Romanian - Romania" }, { 0x419, "Russian" }, { 0x420, "Urdu" }, { 0x421, "Indonesian" }, { 0x422, "Ukrainian" }, { 0x423, "Belarusian" }, { 0x424, "Slovenian" }, { 0x425, "Estonian" }, { 0x426, "Latvian" }, { 0x427, "Lithuanian" }, { 0x428, "Tajik" }, { 0x429, "Farsi - Persian" }, { 0x430, "Sesotho (Sutu)" }, { 0x431, "Tsonga" }, { 0x432, "Setsuana" }, { 0x433, "Venda" }, { 0x434, "Xhosa" }, { 0x435, "Zulu" }, { 0x436, "Afrikaans" }, { 0x437, "Georgian" }, { 0x438, "Faroese" }, { 0x439, "Hindi" }, { 0x440, "Kyrgyz - Cyrillic" }, { 0x441, "Swahili" }, { 0x442, "Turkmen" }, { 0x443, "Uzbek - Latin" }, { 0x444, "Tatar" }, { 0x445, "Bengali - India" }, { 0x446, "Punjabi" }, { 0x447, "Gujarati" }, { 0x448, "Oriya" }, { 0x449, "Tamil" }, { 0x450, "Mongolian" }, { 0x451, "Tibetan" }, { 0x452, "Welsh" }, { 0x453, "Khmer" }, { 0x454, "Lao" }, { 0x455, "Burmese" }, { 0x456, "Galician" }, { 0x457, "Konkani" }, { 0x458, "Manipuri" }, { 0x459, "Sindhi" }, { 0x460, "Kashmiri" }, { 0x461, "Nepali" }, { 0x462, "Frisian - Netherlands" }, { 0x464, "Filipino" }, { 0x465, "Divehi; Dhivehi; Maldivian" }, { 0x466, "Edo" }, { 0x470, "Igbo - Nigeria" }, { 0x474, "Guarani - Paraguay" }, { 0x476, "Latin" }, { 0x477, "Somali" }, { 0x481, "Maori" }, { 0x801, "Arabic - Iraq" }, { 0x804, "Chinese - China" }, { 0x807, "German - Switzerland" }, { 0x809, "English - Great Britain" }, { 0x810, "Italian - Switzerland" }, { 0x813, "Dutch - Belgium" }, { 0x814, "Norwegian - Nynorsk" }, { 0x816, "Portuguese - Portugal" }, { 0x818, "Romanian - Moldova" }, { 0x819, "Russian - Moldova" }, { 0x843, "Uzbek - Cyrillic" }, { 0x845, "Bengali - Bangladesh" }, { 0x850, "Mongolian" }, { 0x1001, "Arabic - Libya" }, { 0x1004, "Chinese - Singapore" }, { 0x1007, "German - Luxembourg" }, { 0x1009, "English - Canada" }, { 0x1401, "Arabic - Algeria" }, { 0x1404, "Chinese - Macau SAR" }, { 0x1407, "German - Liechtenstein" }, { 0x1409, "English - New Zealand" }, { 0x1801, "Arabic - Morocco" }, { 0x1809, "English - Ireland" }, { 0x2001, "Arabic - Oman" }, { 0x2009, "English - Jamaica" }, { 0x2401, "Arabic - Yemen" }, { 0x2409, "English - Caribbean" }, { 0x2801, "Arabic - Syria" }, { 0x2809, "English - Belize" }, { 0x3001, "Arabic - Lebanon" }, { 0x3009, "English - Zimbabwe" }, { 0x3401, "Arabic - Kuwait" }, { 0x3409, "English - Phillippines" }, { 0x3801, "Arabic - United Arab Emirates" }, { 0x4001, "Arabic - Qatar" } }); return *all; } bool is_valid_locale(const std::string &locale_string) { auto hyphen_index = locale_string.find('-'); if (hyphen_index == std::string::npos) { return false; } std::string country = locale_string.substr(hyphen_index + 1); if (country.empty()) { return false; } for (auto c : country) { if (!is_hex(static_cast(std::toupper(c)))) { return false; } } auto index = std::stoi(country, 0, 16); auto known_locales_ = known_locales(); if (known_locales_.find(index) == known_locales_.end()) { return false; } std::string beginning = locale_string.substr(0, locale_string.find('-')); if (beginning.empty() || beginning[0] != '$') { return false; } if (beginning.size() == 1) { return true; } beginning = beginning.substr(1); return true; } section parse_section(const std::string §ion_string) { if (section_string.empty()) { throw std::runtime_error("empty format"); } section s; std::string format_part; std::string bracket_part; std::vector bracket_parts; bool in_quotes = false; bool in_brackets = false; const std::vector bracket_times = { "h", "hh", "m", "mm", "s", "ss" }; for (std::size_t i = 0; i < section_string.size(); i++) { if (!in_quotes && section_string[i] == '"') { format_part.push_back(section_string[i]); in_quotes = true; } else if (in_quotes && section_string[i] == '"') { format_part.push_back(section_string[i]); if (i < section_string.size() - 1 && section_string[i + 1] != '"') { in_quotes = false; } } else if (!in_brackets && section_string[i] == '[') { in_brackets = true; for (auto bracket_time : bracket_times) { if (i < section_string.size() - bracket_time.size() && section_string.substr(i + 1, bracket_time.size()) == bracket_time) { in_brackets = false; break; } } } else if (in_brackets) { if (section_string[i] == ']') { in_brackets = false; if (is_valid_color(bracket_part)) { if (!s.has_color) { s.color = bracket_part; s.has_color = true; } else { throw std::runtime_error("two colors"); } } else if (is_valid_locale(bracket_part)) { if (!s.has_locale) { s.locale = bracket_part; s.has_locale = true; } else { throw std::runtime_error("two locales"); } } else if (s.has_condition || !parse_condition(bracket_part, s)) { throw std::runtime_error("invalid bracket format"); } bracket_part.clear(); } else { bracket_part.push_back(section_string[i]); } } else { format_part.push_back(section_string[i]); } } s.value = format_part; s.has_value = true; return s; } format_sections parse_format_sections(const std::string &combined) { format_sections result = {}; auto split = split_string(combined, ';'); result.first = parse_section(split[0]); if (!result.first.has_condition) { result.second = result.first; result.third = result.first; } if (split.size() > 1) { result.second = parse_section(split[1]); } if (split.size() > 2) { if (result.first.has_condition && !result.second.has_condition) { throw std::runtime_error("first two sections should have conditions"); } result.third = parse_section(split[2]); if (result.third.has_condition) { throw std::runtime_error("third section shouldn't have a condition"); } } if (split.size() > 3) { if (result.first.has_condition) { throw std::runtime_error("too many parts"); } result.fourth = parse_section(split[3]); } if (split.size() > 4) { throw std::runtime_error("too many parts"); } return result; } std::string format_section(long double number, const section &format, xlnt::calendar base_date) { const std::string unquoted = "$+(:^'{<=-/)!&~}> "; std::string format_temp = format.value; std::string result; if (is_date_format(format.value)) { auto lower_string = [](const std::string &s) { std::string lower; lower.resize(s.size()); for (std::size_t i = 0; i < s.size(); i++) lower[i] = static_cast(std::tolower(s[i])); return lower; }; auto value = format.value; bool twelve_hour = false; if (format.value.size() > 5 && lower_string(value).substr(format.value.size() - 5) == "am/pm") { twelve_hour = true; } const std::string date_unquoted = ",-/: "; const std::vector dates = { "m", "mm", "mmm", "mmmmm", "mmmmmm", "d", "dd", "ddd", "dddd", "yy", "yyyy", "h", "[h]", "hh", "m", "[m]", "mm", "s", "[s]", "ss" }; const std::vector MonthNames = { "January", "February", "March", "April", "May", "June", "July", "August", "September", "October", "November", "December" }; auto split = split_string_any(format.value, date_unquoted); std::string::size_type index = 0, prev = 0; auto d = xlnt::datetime::from_number(number, base_date); bool processed_month = false; for (auto part : split) { while (format.value.substr(index, part.size()) != part) { index++; } part = lower_string(part); auto between = format.value.substr(prev, index - prev); if (between == "/" && part == "pm") { index += part.size(); prev = index; continue; } result.append(between); if (part == "m" && !processed_month) { result.append(std::to_string(d.month)); processed_month = true; } else if (part == "mm" && !processed_month) { if (d.month < 10) { result.append("0"); } result.append(std::to_string(d.month)); processed_month = true; } else if (part == "mmm" && !processed_month) { result.append(MonthNames.at(static_cast(d.month - 1)).substr(0, 3)); processed_month = true; } else if (part == "mmmm" && !processed_month) { result.append(MonthNames.at(static_cast(d.month - 1))); processed_month = true; } else if (part == "d") { result.append(std::to_string(d.day)); } else if (part == "dd") { if (d.day < 10) { result.append("0"); } result.append(std::to_string(d.day)); } else if (part == "yy") { result.append(std::to_string(d.year % 1000)); } else if (part == "yyyy") { result.append(std::to_string(d.year)); } else if (part == "h") { if (twelve_hour) { result.append(std::to_string(d.hour % 12)); } else { result.append(std::to_string(d.hour)); } processed_month = true; } else if (part == "hh") { if (twelve_hour) { if (d.hour % 12 < 10) { result.append("0"); } result.append(std::to_string(d.hour % 12)); } else { if (d.hour < 10) { result.append("0"); } result.append(std::to_string(d.hour)); } processed_month = true; } else if (part == "m") { result.append(std::to_string(d.minute)); } else if (part == "mm") { if (d.minute < 10) { result.append("0"); } result.append(std::to_string(d.minute)); } else if (part == "s") { result.append(std::to_string(d.second)); } else if (part == "ss") { if (d.second < 10) { result.append("0"); } result.append(std::to_string(d.second)); } else if (part == "am") { if (d.hour < 12) { result.append("AM"); } else { result.append("PM"); } } index += part.size(); prev = index; } if (index < format.value.size()) { result.append(format.value.substr(index)); } } else if (format.value.find_first_of("General") != std::string::npos || format.value == "0") { std::string before_text, end_text; auto open_quote = format.value.find('"'); if (open_quote != std::string::npos) { auto close_quote = format.value.find('"', open_quote + 1); auto quoted_text = format.value.substr(open_quote, close_quote - open_quote + 1); if (open_quote == 0) { before_text = quoted_text.substr(1, quoted_text.size() - 2); } else { end_text = quoted_text.substr(1, quoted_text.size() - 2); } } if (number < 0) { before_text = std::string("-") + before_text; } result = before_text; if (number == static_cast(number)) { result.append(std::to_string(static_cast(std::abs(number)))); } else { auto number_string = std::to_string(std::abs(number)); while (number_string.find('.') != std::string::npos && number_string.back() == '0' && number_string.find('.') < number_string.size() - 1) { number_string.erase(number_string.end() - 1); } result.append(number_string); } result.append(end_text); } else if (format.value.find("#,##0.00") != std::string::npos) { auto index = format.value.find("#,##0.00"); auto before_text = format.value.substr(0, index); auto after_text = format.value.substr(index + 8); bool minus_first = before_text.substr(0, 1) == "-"; if (minus_first) { before_text = before_text.substr(1); } if (format.has_locale && format.locale == "$$-1009") { before_text = std::string(minus_first ? "-" : "") + "CA$" + before_text; } else if (format.has_locale && format.locale == "$€-407") { before_text = std::string(minus_first ? "-" : "") + "€" + before_text; } result = before_text + std::to_string(number < 0 ? -number : number) + after_text; auto decimal_pos = result.find('.'); if (decimal_pos != std::string::npos) { result[decimal_pos] = ','; decimal_pos += 3; while (decimal_pos < result.size()) { result.pop_back(); } } } return result; } std::string format_section(const std::string &text, const section &format) { auto arobase_index = format.value.find('@'); std::string first_part, middle_part, last_part; if (arobase_index != std::string::npos) { first_part = format.value.substr(0, arobase_index); middle_part = text; last_part = format.value.substr(arobase_index + 1); } else { first_part = format.value; } auto unquote = [](std::string &s) { if (!s.empty()) { if (s.front() != '"' || s.back() != '"') return false; s = s.substr(1, s.size() - 2); } return true; }; if (!unquote(first_part) || !unquote(last_part)) { throw std::runtime_error(std::string("additional text must be enclosed in quotes: ") + format.value); } return first_part + middle_part + last_part; } std::string format_number(long double number, const std::string &format, xlnt::calendar base_date) { auto sections = parse_format_sections(format); if (sections.first.has_condition) { auto right_side = std::stod(sections.first.condition_value); if ((sections.first.condition == condition_type::equal && number == right_side) || (sections.first.condition == condition_type::greater_or_equal && number >= right_side) || (sections.first.condition == condition_type::greater_than && number > right_side) || (sections.first.condition == condition_type::less_or_equal && number <= right_side) || (sections.first.condition == condition_type::less_than && number < right_side)) { return format_section(number, sections.first, base_date); } right_side = std::stod(sections.second.condition_value); if ((sections.second.condition == condition_type::equal && number == right_side) || (sections.second.condition == condition_type::greater_or_equal && number >= right_side) || (sections.second.condition == condition_type::greater_than && number > right_side) || (sections.second.condition == condition_type::less_or_equal && number <= right_side) || (sections.second.condition == condition_type::less_than && number < right_side)) { return format_section(number, sections.second, base_date); } } else { if (number > 0) { return format_section(number, sections.first, base_date); } else if (number < 0) { return format_section(number, sections.second, base_date); } } // number == 0 or default condition return format_section(number, sections.third, base_date); } std::string format_text(const std::string &text, const std::string &format) { if (format == "General" || format == "@") return text; auto sections = parse_format_sections(format); return format_section(text, sections.fourth); } } // namespace namespace xlnt { const number_format number_format::general() { static const number_format *format = new number_format(builtin_formats().at(0), 0); return *format; } const number_format number_format::text() { static const number_format *format = new number_format(builtin_formats().at(49), 49); return *format; } const number_format number_format::number() { static const number_format *format = new number_format(builtin_formats().at(1), 1); return *format; } const number_format number_format::number_00() { static const number_format *format = new number_format(builtin_formats().at(2), 2); return *format; } const number_format number_format::number_comma_separated1() { static const number_format *format = new number_format(builtin_formats().at(4), 4); return *format; } const number_format number_format::percentage() { static const number_format *format = new number_format(builtin_formats().at(9), 9); return *format; } const number_format number_format::percentage_00() { static const number_format *format = new number_format(builtin_formats().at(10), 10); return *format; } const number_format number_format::date_yyyymmdd2() { static const number_format *format = new number_format("yyyy-mm-dd"); return *format; } const number_format number_format::date_yyyymmdd() { static const number_format *format = new number_format("yy-mm-dd"); return *format; } const number_format number_format::date_ddmmyyyy() { static const number_format *format = new number_format("dd/mm/yy"); return *format; } const number_format number_format::date_dmyslash() { static const number_format *format = new number_format("d/m/y"); return *format; } const number_format number_format::date_dmyminus() { static const number_format *format = new number_format("d-m-y"); return *format; } const number_format number_format::date_dmminus() { static const number_format *format = new number_format("d-m"); return *format; } const number_format number_format::date_myminus() { static const number_format *format = new number_format("m-y"); return *format; } const number_format number_format::date_xlsx14() { static const number_format *format = new number_format(builtin_formats().at(14), 14); return *format; } const number_format number_format::date_xlsx15() { static const number_format *format = new number_format(builtin_formats().at(15), 15); return *format; } const number_format number_format::date_xlsx16() { static const number_format *format = new number_format(builtin_formats().at(16), 16); return *format; } const number_format number_format::date_xlsx17() { static const number_format *format = new number_format(builtin_formats().at(17), 17); return *format; } const number_format number_format::date_xlsx22() { static const number_format *format = new number_format(builtin_formats().at(22), 22); return *format; } const number_format number_format::date_datetime() { static const number_format *format = new number_format("yyyy-mm-dd h:mm:ss"); return *format; } const number_format number_format::date_time1() { static const number_format *format = new number_format(builtin_formats().at(18), 18); return *format; } const number_format number_format::date_time2() { static const number_format *format = new number_format(builtin_formats().at(19), 19); return *format; } const number_format number_format::date_time3() { static const number_format *format = new number_format(builtin_formats().at(20), 20); return *format; } const number_format number_format::date_time4() { static const number_format *format = new number_format(builtin_formats().at(21), 21); return *format; } const number_format number_format::date_time5() { static const number_format *format = new number_format(builtin_formats().at(45), 45); return *format; } const number_format number_format::date_time6() { static const number_format *format = new number_format(builtin_formats().at(21), 21); return *format; } const number_format number_format::date_time7() { static const number_format *format = new number_format("i:s.S"); return *format; } const number_format number_format::date_time8() { static const number_format *format = new number_format("h:mm:ss@"); return *format; } const number_format number_format::date_timedelta() { static const number_format *format = new number_format("[hh]:mm:ss"); return *format; } const number_format number_format::date_yyyymmddslash() { static const number_format *format = new number_format("yy/mm/dd@"); return *format; } const number_format number_format::currency_usd_simple() { static const number_format *format = new number_format("\"$\"#,##0.00_-"); return *format; } const number_format number_format::currency_usd() { static const number_format *format = new number_format("$#,##0_-"); return *format; } const number_format number_format::currency_eur_simple() { static const number_format *format = new number_format("[$EUR ]#,##0.00_-"); return *format; } number_format::number_format() : number_format(general()) { } number_format::number_format(std::size_t id) : number_format(from_builtin_id(id)) { } number_format::number_format(const std::string &format_string) : id_set_(false), id_(0) { set_format_string(format_string); } number_format::number_format(const std::string &format_string, std::size_t id) : id_set_(false), id_(0) { set_format_string(format_string, id); } number_format number_format::from_builtin_id(std::size_t builtin_id) { if (builtin_formats().find(builtin_id) == builtin_formats().end()) { throw std::runtime_error("unknown id: " + std::to_string(builtin_id)); } auto format_string = builtin_formats().at(builtin_id); return number_format(format_string, builtin_id); } std::string number_format::get_format_string() const { return format_string_; } std::string number_format::to_hash_string() const { std::string hash_string("number_format"); hash_string.append(format_string_); hash_string.append("|||"); hash_string.append(std::to_string(id_)); return hash_string; } void number_format::set_format_string(const std::string &format_string) { format_string_ = format_string; id_ = 0; id_set_ = false; for (const auto &pair : builtin_formats()) { if (pair.second == format_string) { id_ = pair.first; id_set_ = true; break; } } } void number_format::set_format_string(const std::string &format_string, std::size_t id) { format_string_ = format_string; id_ = id; id_set_ = true; } bool number_format::has_id() const { return id_set_; } void number_format::set_id(std::size_t id) { id_ = id; id_set_ = true; } std::size_t number_format::get_id() const { if(!id_set_) { throw std::runtime_error("number format doesn't have an id"); } return id_; } bool number_format::is_date_format() const { if (format_string_ != "General") { try { auto sections = parse_format_sections(format_string_); return ::is_date_format(sections.first.value); } catch (std::exception) { return false; } } return false; } std::string number_format::format(const std::string &text) const { return format_text(text, format_string_); } std::string number_format::format(long double number, calendar base_date) const { return format_number(number, format_string_, base_date); } } // namespace xlnt