xlnt/source/worksheet/worksheet.cpp

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#include <algorithm>
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#include <xlnt/cell/cell.hpp>
#include <xlnt/common/datetime.hpp>
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#include <xlnt/common/exceptions.hpp>
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#include <xlnt/common/relationship.hpp>
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#include <xlnt/workbook/named_range.hpp>
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#include <xlnt/workbook/workbook.hpp>
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#include <xlnt/worksheet/range.hpp>
#include <xlnt/worksheet/range_reference.hpp>
#include <xlnt/worksheet/worksheet.hpp>
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#include "detail/worksheet_impl.hpp"
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namespace xlnt {
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worksheet::worksheet() : d_(nullptr)
{
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}
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worksheet::worksheet(detail::worksheet_impl *d) : d_(d)
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{
}
worksheet::worksheet(const worksheet &rhs) : d_(rhs.d_)
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{
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}
worksheet::worksheet(workbook &parent, const std::string &title) : d_(title == "" ? parent.create_sheet().d_ : parent.create_sheet(title).d_)
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{
}
bool worksheet::has_frozen_panes() const
{
return get_frozen_panes() != cell_reference("A1");
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}
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std::string worksheet::unique_sheet_name(const std::string &value) const
{
auto names = get_parent().get_sheet_names();
auto match = std::find(names.begin(), names.end(), value);
std::size_t append = 0;
while(match != names.end())
{
append++;
match = std::find(names.begin(), names.end(), value + std::to_string(append));
}
return append == 0 ? value : value + std::to_string(append);
}
void worksheet::create_named_range(const std::string &name, const range_reference &reference)
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{
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std::vector<named_range::target> targets;
targets.push_back({*this, reference});
d_->named_ranges_[name] = named_range(name, targets);
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}
range worksheet::operator()(const xlnt::cell_reference &top_left, const xlnt::cell_reference &bottom_right)
{
return get_range({top_left, bottom_right});
}
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cell worksheet::operator[](const cell_reference &ref)
{
return get_cell(ref);
}
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std::vector<range_reference> worksheet::get_merged_ranges() const
{
return d_->merged_cells_;
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}
margins &worksheet::get_page_margins()
{
return d_->page_margins_;
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}
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void worksheet::auto_filter(const range_reference &reference)
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{
d_->auto_filter_ = reference;
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}
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void worksheet::auto_filter(const xlnt::range &range)
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{
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auto_filter(range.get_reference());
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}
range_reference worksheet::get_auto_filter() const
{
return d_->auto_filter_;
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}
bool worksheet::has_auto_filter() const
{
return d_->auto_filter_.get_width() > 0;
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}
void worksheet::unset_auto_filter()
{
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d_->auto_filter_ = range_reference(1, 1, 1, 1);
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}
page_setup &worksheet::get_page_setup()
{
return d_->page_setup_;
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}
std::string worksheet::to_string() const
{
return "<Worksheet \"" + d_->title_ + "\">";
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}
workbook &worksheet::get_parent() const
{
return *d_->parent_;
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}
void worksheet::garbage_collect()
{
auto cell_map_iter = d_->cell_map_.begin();
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while(cell_map_iter != d_->cell_map_.end())
{
auto cell_iter = cell_map_iter->second.begin();
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while(cell_iter != cell_map_iter->second.end())
{
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cell current_cell(&cell_iter->second);
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if(current_cell.garbage_collectible())
{
cell_iter = cell_map_iter->second.erase(cell_iter);
continue;
}
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cell_iter++;
}
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if(cell_map_iter->second.empty())
{
cell_map_iter = d_->cell_map_.erase(cell_map_iter);
continue;
}
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cell_map_iter++;
}
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}
std::list<cell> worksheet::get_cell_collection()
{
std::list<cell> cells;
for(auto &c : d_->cell_map_)
{
for(auto &d : c.second)
{
cells.push_back(cell(&d.second));
}
}
return cells;
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}
std::string worksheet::get_title() const
{
if(d_ == nullptr)
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{
throw std::runtime_error("null worksheet");
}
return d_->title_;
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}
void worksheet::set_title(const std::string &title)
{
d_->title_ = title;
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}
cell_reference worksheet::get_frozen_panes() const
{
return d_->freeze_panes_;
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}
void worksheet::freeze_panes(xlnt::cell top_left_cell)
{
d_->freeze_panes_ = top_left_cell.get_reference();
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}
void worksheet::freeze_panes(const std::string &top_left_coordinate)
{
d_->freeze_panes_ = cell_reference(top_left_coordinate);
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}
void worksheet::unfreeze_panes()
{
d_->freeze_panes_ = cell_reference("A1");
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}
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const std::unordered_map<column_t, double> &worksheet::get_column_dimensions() const
{
return d_->column_dimensions_;
}
const std::unordered_map<row_t, double> &worksheet::get_row_dimensions() const
{
return d_->row_dimensions_;
}
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cell worksheet::get_cell(const cell_reference &reference)
{
if(d_->cell_map_.find(reference.get_row()) == d_->cell_map_.end())
{
d_->cell_map_[reference.get_row()] = std::unordered_map<column_t, detail::cell_impl>();
}
auto &row = d_->cell_map_[reference.get_row()];
if(row.find(reference.get_column_index()) == row.end())
{
row[reference.get_column_index()] = detail::cell_impl(d_, reference.get_column_index(), reference.get_row());
}
return cell(&row[reference.get_column_index()]);
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}
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const cell worksheet::get_cell(const cell_reference &reference) const
{
return cell(&d_->cell_map_.at(reference.get_row()).at(reference.get_column_index()));
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}
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row_properties &worksheet::get_row_properties(row_t row)
{
return d_->row_properties_[row];
}
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bool worksheet::has_row_properties(row_t row) const
{
return d_->row_properties_.find(row) != d_->row_properties_.end();
}
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range worksheet::get_named_range(const std::string &name)
{
if(!has_named_range(name))
{
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throw named_range_exception();
}
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return get_range(d_->named_ranges_[name].get_targets()[0].second);
}
column_t worksheet::get_lowest_column() const
{
if(d_->cell_map_.empty())
{
return 1;
}
column_t lowest = std::numeric_limits<column_t>::max();
for(auto &row : d_->cell_map_)
{
for(auto &c : row.second)
{
lowest = std::min(lowest, (column_t)c.first);
}
}
return lowest;
}
row_t worksheet::get_lowest_row() const
{
if(d_->cell_map_.empty())
{
return 1;
}
row_t lowest = std::numeric_limits<row_t>::max();
for(auto &row : d_->cell_map_)
{
lowest = std::min(lowest, (row_t)row.first);
}
return lowest;
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}
row_t worksheet::get_highest_row() const
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{
row_t highest = 1;
for(auto &row : d_->cell_map_)
{
highest = std::max(highest, (row_t)row.first);
}
return highest;
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}
column_t worksheet::get_highest_column() const
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{
column_t highest = 1;
for(auto &row : d_->cell_map_)
{
for(auto &c : row.second)
{
highest = std::max(highest, (column_t)c.first);
}
}
return highest;
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}
range_reference worksheet::calculate_dimension() const
{
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auto lowest_column = get_lowest_column();
auto lowest_row = get_lowest_row();
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auto highest_column = get_highest_column();
auto highest_row = get_highest_row();
return range_reference(lowest_column, lowest_row, highest_column, highest_row);
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}
range worksheet::get_range(const range_reference &reference)
{
return range(*this, reference);
}
const range worksheet::get_range(const range_reference &reference) const
{
return range(*this, reference);
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}
range worksheet::get_squared_range(column_t min_col, row_t min_row, column_t max_col, row_t max_row)
{
range_reference reference(min_col, min_row, max_col, max_row);
return get_range(reference);
}
const range worksheet::get_squared_range(column_t min_col, row_t min_row, column_t max_col, row_t max_row) const
{
range_reference reference(min_col, min_row, max_col, max_row);
return get_range(reference);
}
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std::vector<relationship> worksheet::get_relationships()
{
return d_->relationships_;
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}
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relationship worksheet::create_relationship(relationship::type type, const std::string &target_uri)
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{
std::string r_id = "rId" + std::to_string(d_->relationships_.size() + 1);
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d_->relationships_.push_back(relationship(type, r_id, target_uri));
return d_->relationships_.back();
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}
void worksheet::merge_cells(const range_reference &reference)
{
d_->merged_cells_.push_back(reference);
bool first = true;
for(auto row : get_range(reference))
{
for(auto cell : row)
{
cell.set_merged(true);
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if(!first)
{
if(cell.get_data_type() == cell::type::string)
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{
cell.set_value("");
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}
else
{
cell.clear_value();
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}
}
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first = false;
}
}
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}
void worksheet::merge_cells(column_t start_column, row_t start_row, column_t end_column, row_t end_row)
{
merge_cells(xlnt::range_reference(start_column, start_row, end_column, end_row));
}
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void worksheet::unmerge_cells(const range_reference &reference)
{
auto match = std::find(d_->merged_cells_.begin(), d_->merged_cells_.end(), reference);
if(match == d_->merged_cells_.end())
{
throw std::runtime_error("cells not merged");
}
d_->merged_cells_.erase(match);
for(auto row : get_range(reference))
{
for(auto cell : row)
{
cell.set_merged(false);
}
}
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}
void worksheet::unmerge_cells(column_t start_column, row_t start_row, column_t end_column, row_t end_row)
{
unmerge_cells(xlnt::range_reference(start_column, start_row, end_column, end_row));
}
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void worksheet::append()
{
get_cell(cell_reference(1, get_next_row()));
}
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void worksheet::append(const std::vector<std::string> &cells)
{
xlnt::cell_reference next(1, get_next_row());
for(auto cell : cells)
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{
get_cell(next).set_value(cell);
next.set_column_index(next.get_column_index() + 1);
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}
}
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row_t worksheet::get_next_row() const
{
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auto row = get_highest_row() + 1;
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if(row == 2 && d_->cell_map_.size() == 0)
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{
row = 1;
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}
return row;
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}
void worksheet::append(const std::vector<int> &cells)
{
xlnt::cell_reference next(1, get_next_row());
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for(auto cell : cells)
{
get_cell(next).set_value(cell);
next.set_column_index(next.get_column_index() + 1);
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}
}
void worksheet::append(const std::vector<date> &cells)
{
xlnt::cell_reference next(1, get_next_row());
for(auto cell : cells)
{
get_cell(next).set_value(cell);
next.set_column_index(next.get_column_index() + 1);
}
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}
void worksheet::append(const std::vector<cell> &cells)
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{
xlnt::cell_reference next(1, get_next_row());
for(auto cell : cells)
{
get_cell(next).set_value(cell);
next.set_column_index(next.get_column_index() + 1);
}
}
void worksheet::append(const std::unordered_map<std::string, std::string> &cells)
{
auto row = get_next_row();
for(auto cell : cells)
{
get_cell(cell_reference(cell.first, row)).set_value(cell.second);
}
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}
void worksheet::append(const std::unordered_map<int, std::string> &cells)
{
auto row = get_next_row();
for(auto cell : cells)
{
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get_cell(cell_reference(static_cast<column_t>(cell.first), row)).set_value(cell.second);
}
}
void worksheet::append(const std::vector<int>::const_iterator begin, const std::vector<int>::const_iterator end)
{
xlnt::cell_reference next(1, get_next_row());
for(auto i = begin; i != end; i++)
{
get_cell(next).set_value(*i);
next.set_column_index(next.get_column_index() + 1);
}
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}
xlnt::range worksheet::rows() const
{
return get_range(calculate_dimension());
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}
xlnt::range worksheet::rows(const std::string &range_string) const
{
return get_range(range_reference(range_string));
}
xlnt::range worksheet::rows(const std::string &range_string, int row_offset, int column_offset) const
{
range_reference reference(range_string);
return get_range(reference.make_offset(column_offset, row_offset));
}
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xlnt::range worksheet::columns() const
{
return range(*this, calculate_dimension(), major_order::column);
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}
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bool worksheet::operator==(const worksheet &other) const
{
return d_ == other.d_;
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}
bool worksheet::operator!=(const worksheet &other) const
{
return d_ != other.d_;
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}
bool worksheet::operator==(std::nullptr_t) const
{
return d_ == nullptr;
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}
bool worksheet::operator!=(std::nullptr_t) const
{
return d_ != nullptr;
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}
void worksheet::operator=(const worksheet &other)
{
d_ = other.d_;
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}
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const cell worksheet::operator[](const cell_reference &ref) const
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{
return get_cell(ref);
}
range worksheet::operator[](const range_reference &ref)
{
return get_range(ref);
}
range worksheet::operator[](const std::string &name)
{
if(has_named_range(name))
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{
return get_named_range(name);
}
return get_range(range_reference(name));
}
bool worksheet::has_named_range(const std::string &name)
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{
return d_->named_ranges_.find(name) != d_->named_ranges_.end();
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}
void worksheet::remove_named_range(const std::string &name)
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{
if(!has_named_range(name))
{
throw std::runtime_error("worksheet doesn't have named range");
}
d_->named_ranges_.erase(name);
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}
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void worksheet::reserve(std::size_t n)
{
d_->cell_map_.reserve(n);
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}
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void worksheet::increment_comments()
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{
d_->comment_count_++;
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}
void worksheet::decrement_comments()
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{
d_->comment_count_--;
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}
std::size_t worksheet::get_comment_count() const
{
return d_->comment_count_;
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}
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header_footer &worksheet::get_header_footer()
{
return d_->header_footer_;
}
const header_footer &worksheet::get_header_footer() const
{
return d_->header_footer_;
}
header_footer::header_footer()
{
}
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header::header() : default_(true), font_size_(12)
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{
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}
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footer::footer() : default_(true), font_size_(12)
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{
}
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void worksheet::set_parent(xlnt::workbook &wb)
{
d_->parent_ = &wb;
}
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std::vector<std::string> worksheet::get_formula_attributes() const
{
return {};
}
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cell_reference worksheet::get_point_pos(int left, int top) 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 default_height = points_to_pixels(DefaultRowHeight, 96.0);
auto default_width = points_to_pixels(DefaultColumnWidth, 96.0);
column_t current_column = 1;
row_t current_row = 1;
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int left_pos = 0;
int top_pos = 0;
while(left_pos <= left)
{
current_column++;
if(d_->column_dimensions_.find(current_column) != d_->column_dimensions_.end())
{
auto cdw = d_->column_dimensions_.at(current_column);
if(cdw >= 0)
{
left_pos += points_to_pixels(cdw, 96.0);
continue;
}
}
left_pos += default_width;
}
while(top_pos <= top)
{
current_row++;
if(d_->row_dimensions_.find(current_row) != d_->row_dimensions_.end())
{
auto cdh = d_->column_dimensions_.at(current_row);
if(cdh >= 0)
{
top_pos += points_to_pixels(cdh, 96.0);
continue;
}
}
top_pos += default_height;
}
return {current_column - 1, current_row - 1};
}
cell_reference worksheet::get_point_pos(const std::pair<int, int> &point) const
{
return get_point_pos(point.first, point.second);
}
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void worksheet::set_sheet_state(page_setup::sheet_state state)
{
get_page_setup().set_sheet_state(state);
}
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} // namespace xlnt