xlnt/source/cell.cpp

702 lines
14 KiB
C++

#include <algorithm>
#include <locale>
#include <sstream>
#include <xlnt/cell/cell.hpp>
#include <xlnt/cell/cell_reference.hpp>
#include <xlnt/cell/comment.hpp>
#include <xlnt/common/datetime.hpp>
#include <xlnt/common/relationship.hpp>
#include <xlnt/worksheet/worksheet.hpp>
#include <xlnt/common/exceptions.hpp>
#include <xlnt/workbook/workbook.hpp>
#include <xlnt/workbook/document_properties.hpp>
#include <xlnt/common/exceptions.hpp>
#include "detail/cell_impl.hpp"
#include "detail/comment_impl.hpp"
namespace xlnt {
const xlnt::color xlnt::color::black(0);
const xlnt::color xlnt::color::white(1);
const std::unordered_map<std::string, int> cell::ErrorCodes =
{
{"#NULL!", 0},
{"#DIV/0!", 1},
{"#VALUE!", 2},
{"#REF!", 3},
{"#NAME?", 4},
{"#NUM!", 5},
{"#N/A!", 6}
};
cell::cell() : d_(nullptr)
{
}
cell::cell(detail::cell_impl *d) : d_(d)
{
}
cell::cell(worksheet worksheet, const cell_reference &reference) : d_(nullptr)
{
cell self = worksheet.get_cell(reference);
d_ = self.d_;
}
template<typename T>
cell::cell(worksheet worksheet, const cell_reference &reference, const T &initial_value) : cell(worksheet, reference)
{
set_value(initial_value);
}
bool cell::garbage_collectible() const
{
return !(get_data_type() != type::null || is_merged() || has_comment() || has_formula());
}
template<>
void cell::set_value(bool b)
{
d_->is_date_ = false;
d_->value_numeric_ = b ? 1 : 0;
d_->type_ = type::boolean;
}
template<>
void cell::set_value(std::int8_t i)
{
d_->is_date_ = false;
d_->value_numeric_ = static_cast<long double>(i);
d_->type_ = type::numeric;
}
template<>
void cell::set_value(std::int16_t i)
{
d_->is_date_ = false;
d_->value_numeric_ = static_cast<long double>(i);
d_->type_ = type::numeric;
}
template<>
void cell::set_value(std::int32_t i)
{
d_->is_date_ = false;
d_->value_numeric_ = static_cast<long double>(i);
d_->type_ = type::numeric;
}
template<>
void cell::set_value(std::int64_t i)
{
d_->is_date_ = false;
d_->value_numeric_ = static_cast<long double>(i);
d_->type_ = type::numeric;
}
template<>
void cell::set_value(std::uint8_t i)
{
d_->is_date_ = false;
d_->value_numeric_ = static_cast<long double>(i);
d_->type_ = type::numeric;
}
template<>
void cell::set_value(std::uint16_t i)
{
d_->is_date_ = false;
d_->value_numeric_ = static_cast<long double>(i);
d_->type_ = type::numeric;
}
template<>
void cell::set_value(std::uint32_t i)
{
d_->is_date_ = false;
d_->value_numeric_ = static_cast<long double>(i);
d_->type_ = type::numeric;
}
template<>
void cell::set_value(std::uint64_t i)
{
d_->is_date_ = false;
d_->value_numeric_ = static_cast<long double>(i);
d_->type_ = type::numeric;
}
#ifdef _WIN32
void cell::set_value(unsigned long i)
{
d_->is_date_ = false;
d_->value_numeric_ = static_cast<long double>(i);
d_->type_ = type::numeric;
}
#endif
#ifdef __linux__
void cell::set_value(long long i)
{
d_->is_date_ = false;
d_->value_numeric_ = static_cast<long double>(i);
d_->type_ = type::numeric;
}
void cell::set_value(unsigned long long i)
{
d_->is_date_ = false;
d_->value_numeric_ = static_cast<long double>(i);
d_->type_ = type::numeric;
}
#endif
template<>
void cell::set_value(float f)
{
d_->is_date_ = false;
d_->value_numeric_ = static_cast<long double>(f);
d_->type_ = type::numeric;
}
template<>
void cell::set_value(double d)
{
d_->is_date_ = false;
d_->value_numeric_ = static_cast<long double>(d);
d_->type_ = type::numeric;
}
template<>
void cell::set_value(long double d)
{
d_->is_date_ = false;
d_->value_numeric_ = static_cast<long double>(d);
d_->type_ = type::numeric;
}
template<>
void cell::set_value(std::string s)
{
d_->set_string(s, get_parent().get_parent().get_guess_types());
}
template<>
void cell::set_value(char const *c)
{
set_value(std::string(c));
}
template<>
void cell::set_value(cell c)
{
}
template<>
void cell::set_value(date d)
{
auto base_date = get_parent().get_parent().get_properties().excel_base_date;
d_->set_date(d.to_number(base_date), xlnt::number_format::format::date_yyyymmdd2);
}
template<>
void cell::set_value(datetime d)
{
auto base_date = get_parent().get_parent().get_properties().excel_base_date;
d_->set_date(d.to_number(base_date), xlnt::number_format::format::date_datetime);
}
template<>
void cell::set_value(time t)
{
d_->set_date(t.to_number(), xlnt::number_format::format::date_time6);
}
template<>
void cell::set_value(timedelta t)
{
d_->set_date(t.to_number(), xlnt::number_format::format::date_timedelta);
d_->is_date_ = false; // a timedelta isn't actually a date, still uses mostly the same code
}
bool cell::has_style() const
{
return d_->style_ != nullptr;
}
row_t cell::get_row() const
{
return d_->row_;
}
std::string cell::get_column() const
{
return cell_reference::column_string_from_index(d_->column_);
}
void cell::set_merged(bool merged)
{
d_->is_merged_ = merged;
}
bool cell::is_merged() const
{
return d_->is_merged_;
}
bool cell::is_date() const
{
return d_->is_date_ || (d_->style_ != nullptr && get_style().get_number_format().get_format_code() == number_format::format::date_xlsx14);
}
cell_reference cell::get_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_;
}
style &cell::get_style()
{
return d_->get_style(true);
}
const style &cell::get_style() const
{
return d_->get_style();
}
void cell::set_style(const xlnt::style &s)
{
get_style() = s;
}
cell &cell::operator=(const cell &rhs)
{
*d_ = *rhs.d_;
return *this;
}
bool operator<(cell left, cell right)
{
return left.get_reference() < right.get_reference();
}
std::string cell::to_string() const
{
return "<Cell " + worksheet(d_->parent_).get_title() + "." + get_reference().to_string() + ">";
}
relationship cell::get_hyperlink() const
{
if(!d_->has_hyperlink_)
{
throw std::runtime_error("no hyperlink set");
}
return d_->hyperlink_;
}
bool cell::has_hyperlink() const
{
return d_->has_hyperlink_;
}
void cell::set_hyperlink(const std::string &hyperlink)
{
if(hyperlink.length() == 0 || std::find(hyperlink.begin(), hyperlink.end(), ':') == hyperlink.end())
{
throw data_type_exception();
}
d_->has_hyperlink_ = true;
d_->hyperlink_ = worksheet(d_->parent_).create_relationship(relationship::type::hyperlink, hyperlink);
if(get_data_type() == type::null)
{
set_value(hyperlink);
}
}
void cell::set_formula(const std::string &formula)
{
if(formula.length() == 0)
{
throw data_type_exception();
}
d_->formula_ = formula;
}
bool cell::has_formula() const
{
return !d_->formula_.empty();
}
std::string cell::get_formula() const
{
if(d_->formula_.empty())
{
throw data_type_exception();
}
return d_->formula_;
}
void cell::clear_formula()
{
d_->formula_.clear();
}
void cell::set_comment(const xlnt::comment &c)
{
if(c.d_ != d_->comment_.get())
{
throw xlnt::attribute_error();
}
if(!has_comment())
{
get_parent().increment_comments();
}
*get_comment().d_ = *c.d_;
}
void cell::clear_comment()
{
if(has_comment())
{
get_parent().decrement_comments();
}
d_->comment_ = nullptr;
}
bool cell::has_comment() const
{
return d_->comment_ != nullptr;
}
void cell::set_error(const std::string &error)
{
if(error.length() == 0 || error[0] != '#')
{
throw data_type_exception();
}
d_->value_string_ = error;
d_->type_ = type::error;
}
cell cell::offset(column_t column, row_t row)
{
return get_parent().get_cell(cell_reference(d_->column_ + column, d_->row_ + row));
}
worksheet cell::get_parent()
{
return worksheet(d_->parent_);
}
const worksheet cell::get_parent() const
{
return worksheet(d_->parent_);
}
comment cell::get_comment()
{
if(d_->comment_ == nullptr)
{
d_->comment_.reset(new detail::comment_impl());
get_parent().increment_comments();
}
return comment(d_->comment_.get());
}
std::pair<int, int> cell::get_anchor() const
{
static const double DefaultColumnWidth = 51.85;
static const double DefaultRowHeight = 15.0;
auto points_to_pixels = [](double value, double dpi) { return (int)std::ceil(value * dpi / 72); };
auto left_columns = d_->column_ - 1;
auto &column_dimensions = get_parent().get_column_dimensions();
int left_anchor = 0;
auto default_width = points_to_pixels(DefaultColumnWidth, 96.0);
for(int column_index = 1; column_index <= (int)left_columns; column_index++)
{
if(column_dimensions.find(column_index) != column_dimensions.end())
{
auto cdw = column_dimensions.at(column_index);
if(cdw > 0)
{
left_anchor += points_to_pixels(cdw, 96.0);
continue;
}
}
left_anchor += default_width;
}
auto top_rows = d_->row_ - 1;
auto &row_dimensions = get_parent().get_row_dimensions();
int top_anchor = 0;
auto default_height = points_to_pixels(DefaultRowHeight, 96.0);
for(int row_index = 1; row_index <= (int)top_rows; row_index++)
{
if(row_dimensions.find(row_index) != row_dimensions.end())
{
auto rdh = row_dimensions.at(row_index);
if(rdh > 0)
{
top_anchor += points_to_pixels(rdh, 96.0);
continue;
}
}
top_anchor += default_height;
}
return {left_anchor, top_anchor};
}
cell::type cell::get_data_type() const
{
return d_->type_;
}
void cell::set_data_type(type t)
{
d_->type_ = t;
}
std::size_t cell::get_xf_index() const
{
return d_->xf_index_;
}
std::string cell::get_number_format()
{
return get_style().get_number_format().get_format_code_string();
}
std::string cell::get_number_format() const
{
return get_style().get_number_format().get_format_code_string();
}
font &cell::get_font()
{
return get_style().get_font();
}
fill &cell::get_fill()
{
return get_style().get_fill();
}
const fill &cell::get_fill() const
{
return get_style().get_fill();
}
border &cell::get_border()
{
return get_style().get_border();
}
alignment &cell::get_alignment()
{
return get_style().get_alignment();
}
protection &cell::get_protection()
{
return get_style().get_protection();
}
bool cell::pivot_button()
{
return get_style().pivot_button();
}
bool cell::quote_prefix()
{
return get_style().quote_prefix();
}
void cell::clear_value()
{
d_->value_numeric_ = 0;
d_->value_string_.clear();
d_->formula_.clear();
d_->type_ = cell::type::null;
}
template<>
bool cell::get_value() const
{
return d_->value_numeric_ != 0;
}
template<>
std::int8_t cell::get_value() const
{
return static_cast<std::int8_t>(d_->value_numeric_);
}
template<>
std::int16_t cell::get_value() const
{
return static_cast<std::int16_t>(d_->value_numeric_);
}
template<>
std::int32_t cell::get_value() const
{
return static_cast<std::int32_t>(d_->value_numeric_);
}
template<>
std::int64_t cell::get_value() const
{
return static_cast<std::int64_t>(d_->value_numeric_);
}
template<>
std::uint8_t cell::get_value() const
{
return static_cast<std::uint8_t>(d_->value_numeric_);
}
template<>
std::uint16_t cell::get_value() const
{
return static_cast<std::uint16_t>(d_->value_numeric_);
}
template<>
std::uint32_t cell::get_value() const
{
return static_cast<std::uint32_t>(d_->value_numeric_);
}
template<>
std::uint64_t cell::get_value() const
{
return static_cast<std::uint64_t>(d_->value_numeric_);
}
template<>
float cell::get_value() const
{
return static_cast<float>(d_->value_numeric_);
}
template<>
double cell::get_value() const
{
return static_cast<double>(d_->value_numeric_);
}
template<>
long double cell::get_value() const
{
return d_->value_numeric_;
}
template<>
time cell::get_value() const
{
return time::from_number(d_->value_numeric_);
}
template<>
datetime cell::get_value() const
{
return datetime::from_number(d_->value_numeric_, xlnt::calendar::windows_1900);
}
template<>
date cell::get_value() const
{
return date::from_number(d_->value_numeric_, xlnt::calendar::windows_1900);
}
template<>
timedelta cell::get_value() const
{
return timedelta(0, 0);
//return timedelta::from_number(d_->value_numeric_);
}
void cell::set_number_format(const std::string &format_string)
{
get_style().get_number_format().set_format_code_string(format_string);
}
template<>
std::string cell::get_value() const
{
return d_->value_string_;
}
bool cell::has_value() const
{
return d_->type_ != cell::type::null;
}
std::ostream &cell::print(std::ostream &stream, bool convert) const
{
if(!convert)
{
return stream << get_value<std::string>();
}
else
{
switch(get_data_type())
{
case type::null:
return stream << "";
case type::string:
return stream << get_value<std::string>();
case type::numeric:
if(is_date())
{
return stream << get_value<datetime>().to_string(get_parent().get_parent().get_properties().excel_base_date);
}
else
{
return stream << get_value<long double>();
}
case type::error:
return stream << get_value<std::string>();
case type::formula:
return stream << d_->formula_;
default:
return stream;
}
}
}
} // namespace xlnt