// 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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace { std::pair cast_numeric(const std::string &s) { auto str_end = static_cast(nullptr); auto result = std::strtold(s.c_str(), &str_end); return (str_end != s.c_str() + s.size()) ? std::make_pair(false, 0.0L) : std::make_pair(true, result); } std::pair cast_percentage(const std::string &s) { if (s.back() == '%') { auto number = cast_numeric(s.substr(0, s.size() - 1)); if (number.first) { return {true, number.second / 100}; } } return {false, 0}; } std::pair cast_time(const std::string &s) { xlnt::time result; std::vector time_components; std::size_t prev = 0; auto colon_index = s.find(':'); while (colon_index != std::string::npos) { time_components.push_back(s.substr(prev, colon_index - prev)); prev = colon_index + 1; colon_index = s.find(':', colon_index + 1); } time_components.push_back(s.substr(prev, colon_index - prev)); if (time_components.size() < 2 || time_components.size() > 3) { return {false, result}; } std::vector numeric_components; for (auto component : time_components) { if (component.empty() || (component.substr(0, component.find('.')).size() > 2)) { return {false, result}; } for (auto d : component) { if (!(d >= '0' && d <= '9') && d != '.') { return {false, result}; } } auto without_leading_zero = component.front() == '0' ? component.substr(1) : component; auto numeric = std::stod(without_leading_zero); numeric_components.push_back(numeric); } result.hour = static_cast(numeric_components[0]); result.minute = static_cast(numeric_components[1]); if (std::fabs(static_cast(result.minute) - numeric_components[1]) > std::numeric_limits::epsilon()) { result.minute = result.hour; result.hour = 0; result.second = static_cast(numeric_components[1]); result.microsecond = static_cast((numeric_components[1] - result.second) * 1E6); } else if (numeric_components.size() > 2) { result.second = static_cast(numeric_components[2]); result.microsecond = static_cast((numeric_components[2] - result.second) * 1E6); } return {true, result}; } } // namespace namespace xlnt { const std::unordered_map &cell::error_codes() { static const auto *codes = new std::unordered_map{ {"#NULL!", 0}, {"#DIV/0!", 1}, {"#VALUE!", 2}, {"#REF!", 3}, {"#NAME?", 4}, {"#NUM!", 5}, {"#N/A!", 6}}; return *codes; } std::string cell::check_string(const std::string &to_check) { // so we can modify it std::string s = to_check; if (s.size() == 0) { return s; } else if (s.size() > 32767) { s = s.substr(0, 32767); // max string length in Excel } for (char c : s) { if (c >= 0 && (c <= 8 || c == 11 || c == 12 || (c >= 14 && c <= 31))) { throw illegal_character(c); } } return s; } cell::cell(detail::cell_impl *d) : d_(d) { } bool cell::garbage_collectible() const { return !(data_type() != type::null || is_merged() || has_formula() || has_format()); } template <> XLNT_API void cell::value(std::nullptr_t) { d_->type_ = type::null; } template <> XLNT_API void cell::value(bool b) { d_->value_numeric_ = b ? 1 : 0; d_->type_ = type::boolean; } template <> XLNT_API void cell::value(std::int8_t i) { d_->value_numeric_ = static_cast(i); d_->type_ = type::numeric; } template <> XLNT_API void cell::value(std::int16_t i) { d_->value_numeric_ = static_cast(i); d_->type_ = type::numeric; } template <> XLNT_API void cell::value(std::int32_t i) { d_->value_numeric_ = static_cast(i); d_->type_ = type::numeric; } template <> XLNT_API void cell::value(std::int64_t i) { d_->value_numeric_ = static_cast(i); d_->type_ = type::numeric; } template <> XLNT_API void cell::value(std::uint8_t i) { d_->value_numeric_ = static_cast(i); d_->type_ = type::numeric; } template <> XLNT_API void cell::value(std::uint16_t i) { d_->value_numeric_ = static_cast(i); d_->type_ = type::numeric; } template <> XLNT_API void cell::value(std::uint32_t i) { d_->value_numeric_ = static_cast(i); d_->type_ = type::numeric; } template <> XLNT_API void cell::value(std::uint64_t i) { d_->value_numeric_ = static_cast(i); d_->type_ = type::numeric; } #ifdef _MSC_VER template <> XLNT_API void cell::value(unsigned long i) { d_->value_numeric_ = static_cast(i); d_->type_ = type::numeric; } #endif #ifdef __linux template <> XLNT_API void cell::value(long long i) { d_->value_numeric_ = static_cast(i); d_->type_ = type::numeric; } template <> XLNT_API void cell::value(unsigned long long i) { d_->value_numeric_ = static_cast(i); d_->type_ = type::numeric; } #endif template <> XLNT_API void cell::value(float f) { d_->value_numeric_ = static_cast(f); d_->type_ = type::numeric; } template <> XLNT_API void cell::value(double d) { d_->value_numeric_ = static_cast(d); d_->type_ = type::numeric; } template <> XLNT_API void cell::value(long double d) { d_->value_numeric_ = static_cast(d); d_->type_ = type::numeric; } template <> XLNT_API void cell::value(std::string s) { s = check_string(s); if (s.size() > 1 && s.front() == '=') { d_->type_ = type::formula; formula(s); } else if (cell::error_codes().find(s) != cell::error_codes().end()) { error(s); } else { d_->type_ = type::string; d_->value_text_.plain_text(s); if (s.size() > 0) { workbook().add_shared_string(d_->value_text_); } } } template <> XLNT_API void cell::value(rich_text text) { if (text.runs().size() == 1 && !text.runs().front().second.is_set()) { value(text.plain_text()); } else { d_->type_ = type::string; d_->value_text_ = text; workbook().add_shared_string(text); } } template <> XLNT_API void cell::value(char const *c) { value(std::string(c)); } template <> XLNT_API void cell::value(cell c) { d_->type_ = c.d_->type_; d_->value_numeric_ = c.d_->value_numeric_; d_->value_text_ = c.d_->value_text_; d_->hyperlink_ = c.d_->hyperlink_; d_->formula_ = c.d_->formula_; d_->format_ = c.d_->format_; } template <> XLNT_API void cell::value(date d) { d_->type_ = type::numeric; d_->value_numeric_ = d.to_number(base_date()); number_format(number_format::date_yyyymmdd2()); } template <> XLNT_API void cell::value(datetime d) { d_->type_ = type::numeric; d_->value_numeric_ = d.to_number(base_date()); number_format(number_format::date_datetime()); } template <> XLNT_API void cell::value(time t) { d_->type_ = type::numeric; d_->value_numeric_ = t.to_number(); number_format(number_format::date_time6()); } template <> XLNT_API void cell::value(timedelta t) { d_->type_ = type::numeric; d_->value_numeric_ = t.to_number(); number_format(xlnt::number_format("[hh]:mm:ss")); } row_t cell::row() const { return d_->row_; } column_t cell::column() const { return d_->column_; } void cell::merged(bool merged) { d_->is_merged_ = merged; } bool cell::is_merged() const { return d_->is_merged_; } bool cell::is_date() const { return data_type() == type::numeric && has_format() && number_format().is_date_format(); } cell_reference cell::reference() const { return {d_->column_, d_->row_}; } bool cell::operator==(std::nullptr_t) const { return d_ == nullptr; } bool cell::operator==(const cell &comparand) const { return d_ == comparand.d_; } cell &cell::operator=(const cell &rhs) { d_->column_ = rhs.d_->column_; d_->format_ = rhs.d_->format_; d_->formula_ = rhs.d_->formula_; d_->hyperlink_ = rhs.d_->hyperlink_; d_->is_merged_ = rhs.d_->is_merged_; d_->parent_ = rhs.d_->parent_; d_->row_ = rhs.d_->row_; d_->type_ = rhs.d_->type_; d_->value_numeric_ = rhs.d_->value_numeric_; d_->value_text_ = rhs.d_->value_text_; return *this; } std::string cell::hyperlink() const { return d_->hyperlink_.get(); } void cell::hyperlink(const std::string &hyperlink) { if (hyperlink.length() == 0 || std::find(hyperlink.begin(), hyperlink.end(), ':') == hyperlink.end()) { throw invalid_parameter(); } d_->hyperlink_ = hyperlink; if (data_type() == type::null) { value(hyperlink); } } void cell::formula(const std::string &formula) { if (formula.empty()) { throw invalid_parameter(); } if (formula[0] == '=') { d_->formula_ = formula.substr(1); } else { d_->formula_ = formula; } } bool cell::has_formula() const { return d_->formula_.is_set(); } std::string cell::formula() const { return d_->formula_.get(); } void cell::clear_formula() { d_->formula_.clear(); } void cell::error(const std::string &error) { if (error.length() == 0 || error[0] != '#') { throw invalid_data_type(); } d_->value_text_.plain_text(error); d_->type_ = type::error; } cell cell::offset(int column, int row) { return worksheet().cell(reference().make_offset(column, row)); } worksheet cell::worksheet() { return xlnt::worksheet(d_->parent_); } const worksheet cell::worksheet() const { return xlnt::worksheet(d_->parent_); } workbook &cell::workbook() { return worksheet().workbook(); } const workbook &cell::workbook() const { return worksheet().workbook(); } std::pair cell::anchor() const { double left = 0; for (column_t column_index = 1; column_index <= d_->column_ - 1; column_index++) { left += worksheet().cell(column_index, row()).width(); } double top = 0; for (row_t row_index = 1; row_index <= d_->row_ - 1; row_index++) { top += worksheet().cell(column(), row_index).height(); } return {static_cast(left), static_cast(top)}; } cell::type cell::data_type() const { return d_->type_; } void cell::data_type(type t) { d_->type_ = t; } number_format cell::computed_number_format() const { return xlnt::number_format(); } font cell::computed_font() const { return xlnt::font(); } fill cell::computed_fill() const { return xlnt::fill(); } border cell::computed_border() const { return xlnt::border(); } alignment cell::computed_alignment() const { return xlnt::alignment(); } protection cell::computed_protection() const { return xlnt::protection(); } void cell::clear_value() { d_->value_numeric_ = 0; d_->value_text_.clear(); d_->formula_.clear(); d_->type_ = cell::type::null; } template <> XLNT_API bool cell::value() const { return d_->value_numeric_ != 0.L; } template <> XLNT_API std::int8_t cell::value() const { return static_cast(d_->value_numeric_); } template <> XLNT_API std::int16_t cell::value() const { return static_cast(d_->value_numeric_); } template <> XLNT_API std::int32_t cell::value() const { return static_cast(d_->value_numeric_); } template <> XLNT_API std::int64_t cell::value() const { return static_cast(d_->value_numeric_); } template <> XLNT_API std::uint8_t cell::value() const { return static_cast(d_->value_numeric_); } template <> XLNT_API std::uint16_t cell::value() const { return static_cast(d_->value_numeric_); } template <> XLNT_API std::uint32_t cell::value() const { return static_cast(d_->value_numeric_); } template <> XLNT_API std::uint64_t cell::value() const { return static_cast(d_->value_numeric_); } #ifdef __linux template <> XLNT_API long long cell::value() const { return static_cast(d_->value_numeric_); } template <> XLNT_API unsigned long long cell::value() const { return static_cast(d_->value_numeric_); } #endif template <> XLNT_API float cell::value() const { return static_cast(d_->value_numeric_); } template <> XLNT_API double cell::value() const { return static_cast(d_->value_numeric_); } template <> XLNT_API long double cell::value() const { return d_->value_numeric_; } template <> XLNT_API time cell::value() const { return time::from_number(d_->value_numeric_); } template <> XLNT_API datetime cell::value() const { return datetime::from_number(d_->value_numeric_, base_date()); } template <> XLNT_API date cell::value() const { return date::from_number(static_cast(d_->value_numeric_), base_date()); } template <> XLNT_API timedelta cell::value() const { return timedelta::from_number(d_->value_numeric_); } void cell::alignment(const class alignment &alignment_) { auto new_format = has_format() ? modifiable_format() : workbook().create_format(); format(new_format.alignment(alignment_, true)); } void cell::border(const class border &border_) { auto new_format = has_format() ? modifiable_format() : workbook().create_format(); format(new_format.border(border_, true)); } void cell::fill(const class fill &fill_) { auto new_format = has_format() ? modifiable_format() : workbook().create_format(); format(new_format.fill(fill_, true)); } void cell::font(const class font &font_) { auto new_format = has_format() ? modifiable_format() : workbook().create_format(); format(new_format.font(font_, true)); } void cell::number_format(const class number_format &number_format_) { auto new_format = has_format() ? modifiable_format() : workbook().create_format(); format(new_format.number_format(number_format_, true)); } void cell::protection(const class protection &protection_) { auto new_format = has_format() ? modifiable_format() : workbook().create_format(); format(new_format.protection(protection_, true)); } template <> XLNT_API std::string cell::value() const { return d_->value_text_.plain_text(); } template <> XLNT_API rich_text cell::value() const { return d_->value_text_; } bool cell::has_value() const { return d_->type_ != cell::type::null; } std::string cell::to_string() const { auto nf = computed_number_format(); switch (data_type()) { case cell::type::null: return ""; case cell::type::numeric: return nf.format(value(), base_date()); case cell::type::string: case cell::type::formula: case cell::type::error: return nf.format(value()); case cell::type::boolean: return value() == 0.L ? "FALSE" : "TRUE"; } return ""; } bool cell::has_format() const { return d_->format_.is_set(); } void cell::format(const class format new_format) { if (has_format()) { format().d_->references -= format().d_->references > 0 ? 1 : 0; } ++new_format.d_->references; d_->format_ = new_format.d_; } calendar cell::base_date() const { return workbook().base_date(); } XLNT_API std::ostream &operator<<(std::ostream &stream, const xlnt::cell &cell) { return stream << cell.to_string(); } void cell::value(const std::string &value_string, bool infer_type) { value(value_string); if (!infer_type) { return; } auto percentage = cast_percentage(value_string); if (percentage.first) { d_->value_numeric_ = percentage.second; d_->type_ = cell::type::numeric; number_format(xlnt::number_format::percentage()); } else { auto time = cast_time(value_string); if (time.first) { d_->type_ = cell::type::numeric; number_format(number_format::date_time6()); d_->value_numeric_ = time.second.to_number(); } else { auto numeric = cast_numeric(value_string); if (numeric.first) { d_->value_numeric_ = numeric.second; d_->type_ = cell::type::numeric; } } } } void cell::clear_format() { format().d_->references -= format().d_->references > 0 ? 1 : 0; d_->format_.clear(); } void cell::clear_style() { if (has_format()) { modifiable_format().clear_style(); } } void cell::style(const class style &new_style) { auto new_format = has_format() ? format() : workbook().create_format(); format(new_format.style(new_style)); } void cell::style(const std::string &style_name) { style(workbook().style(style_name)); } const style cell::style() const { if (!has_format() || !format().has_style()) { throw invalid_attribute(); } return format().style(); } bool cell::has_style() const { return has_format() && format().has_style(); } format cell::modifiable_format() { if (!d_->format_) { throw invalid_attribute(); } return xlnt::format(d_->format_.get()); } const format cell::format() const { if (!d_->format_) { throw invalid_attribute(); } return xlnt::format(d_->format_.get()); } alignment cell::alignment() const { return format().alignment(); } border cell::border() const { return format().border(); } fill cell::fill() const { return format().fill(); } font cell::font() const { return format().font(); } number_format cell::number_format() const { return format().number_format(); } protection cell::protection() const { return format().protection(); } bool cell::has_hyperlink() const { return d_->hyperlink_.is_set(); } // comment bool cell::has_comment() { return d_->comment_.is_set(); } void cell::clear_comment() { d_->comment_.clear(); } class comment cell::comment() { if (!has_comment()) { throw xlnt::exception("cell has no comment"); } return d_->comment_.get(); } void cell::comment(const std::string &text, const std::string &author) { comment(xlnt::comment(text, author)); } void cell::comment(const std::string &text, const class font &comment_font, const std::string &author) { xlnt::rich_text rich_comment_text(text, comment_font); comment(xlnt::comment(rich_comment_text, author)); } void cell::comment(const class comment &new_comment) { d_->comment_.set(new_comment); // offset comment 5 pixels down and 5 pixels right of the top right corner of the cell auto cell_position = anchor(); cell_position.first += static_cast(width()) + 5; cell_position.second += 5; d_->comment_.get().position(cell_position.first, cell_position.second); d_->comment_.get().size(200, 100); worksheet().register_comments_in_manifest(); } double cell::width() const { return worksheet().column_width(column()); } double cell::height() const { return worksheet().row_height(row()); } } // namespace xlnt