mapnik/src/layer.cpp
Mathis Logemann e7c3d04309 format dir include and src
format all files

Revert "format all files"

This reverts commit 95d5812e49e7f916b68e786596f5a8eb5bcac414.

Revert "format some files"

This reverts commit ed3c8762d4d828b2b28e7b18809fc33f4f8ccaf5.

format all files

fix formatting in dir include

fix formatting of debug macro
2022-01-27 00:12:08 +01:00

315 lines
7.4 KiB
C++

/*****************************************************************************
*
* This file is part of Mapnik (c++ mapping toolkit)
*
* Copyright (C) 2021 Artem Pavlenko
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*
*****************************************************************************/
// mapnik
#include <mapnik/datasource.hpp>
#include <mapnik/datasource_cache.hpp>
#include <mapnik/layer.hpp>
// stl
#include <string>
namespace mapnik {
layer::layer(std::string const& _name, std::string const& _srs)
: name_(_name)
, srs_(_srs)
, minimum_scale_denom_(0)
, maximum_scale_denom_(std::numeric_limits<double>::max())
, active_(true)
, queryable_(false)
, clear_label_cache_(false)
, cache_features_(false)
, group_by_()
, styles_()
, layers_()
, ds_()
, buffer_size_()
, maximum_extent_()
, comp_op_()
, opacity_(1.0f)
{}
layer::layer(layer const& rhs)
: name_(rhs.name_)
, srs_(rhs.srs_)
, minimum_scale_denom_(rhs.minimum_scale_denom_)
, maximum_scale_denom_(rhs.maximum_scale_denom_)
, active_(rhs.active_)
, queryable_(rhs.queryable_)
, clear_label_cache_(rhs.clear_label_cache_)
, cache_features_(rhs.cache_features_)
, group_by_(rhs.group_by_)
, styles_(rhs.styles_)
, layers_(rhs.layers_)
, ds_(rhs.ds_)
, buffer_size_(rhs.buffer_size_)
, maximum_extent_(rhs.maximum_extent_)
, comp_op_(rhs.comp_op_)
, opacity_(rhs.opacity_)
{}
layer::layer(layer&& rhs)
: name_(std::move(rhs.name_))
, srs_(std::move(rhs.srs_))
, minimum_scale_denom_(std::move(rhs.minimum_scale_denom_))
, maximum_scale_denom_(std::move(rhs.maximum_scale_denom_))
, active_(std::move(rhs.active_))
, queryable_(std::move(rhs.queryable_))
, clear_label_cache_(std::move(rhs.clear_label_cache_))
, cache_features_(std::move(rhs.cache_features_))
, group_by_(std::move(rhs.group_by_))
, styles_(std::move(rhs.styles_))
, layers_(std::move(rhs.layers_))
, ds_(std::move(rhs.ds_))
, buffer_size_(std::move(rhs.buffer_size_))
, maximum_extent_(std::move(rhs.maximum_extent_))
, comp_op_(std::move(rhs.comp_op_))
, opacity_(std::move(rhs.opacity_))
{}
layer& layer::operator=(layer rhs)
{
using std::swap;
std::swap(this->name_, rhs.name_);
std::swap(this->srs_, rhs.srs_);
std::swap(this->minimum_scale_denom_, rhs.minimum_scale_denom_);
std::swap(this->maximum_scale_denom_, rhs.maximum_scale_denom_);
std::swap(this->active_, rhs.active_);
std::swap(this->queryable_, rhs.queryable_);
std::swap(this->clear_label_cache_, rhs.clear_label_cache_);
std::swap(this->cache_features_, rhs.cache_features_);
std::swap(this->group_by_, rhs.group_by_);
std::swap(this->styles_, rhs.styles_);
std::swap(this->ds_, rhs.ds_);
std::swap(this->buffer_size_, rhs.buffer_size_);
std::swap(this->maximum_extent_, rhs.maximum_extent_);
std::swap(this->comp_op_, rhs.comp_op_);
std::swap(this->opacity_, rhs.opacity_);
return *this;
}
bool layer::operator==(layer const& rhs) const
{
return (name_ == rhs.name_) && (srs_ == rhs.srs_) && (minimum_scale_denom_ == rhs.minimum_scale_denom_) &&
(maximum_scale_denom_ == rhs.maximum_scale_denom_) && (active_ == rhs.active_) &&
(queryable_ == rhs.queryable_) && (clear_label_cache_ == rhs.clear_label_cache_) &&
(cache_features_ == rhs.cache_features_) && (group_by_ == rhs.group_by_) && (styles_ == rhs.styles_) &&
((ds_ && rhs.ds_) ? *ds_ == *rhs.ds_ : ds_ == rhs.ds_) && (buffer_size_ == rhs.buffer_size_) &&
(maximum_extent_ == rhs.maximum_extent_) && (comp_op_ == rhs.comp_op_) && (opacity_ == rhs.opacity_);
}
layer::~layer() {}
void layer::set_name(std::string const& _name)
{
name_ = _name;
}
std::string const& layer::name() const
{
return name_;
}
void layer::set_srs(std::string const& _srs)
{
srs_ = _srs;
}
std::string const& layer::srs() const
{
return srs_;
}
void layer::add_style(std::string const& stylename)
{
styles_.push_back(stylename);
}
std::vector<std::string> const& layer::styles() const
{
return styles_;
}
std::vector<std::string>& layer::styles()
{
return styles_;
}
void layer::add_layer(layer const& l)
{
layers_.emplace_back(l);
}
void layer::add_layer(layer&& l)
{
layers_.push_back(std::move(l));
}
std::vector<layer> const& layer::layers() const
{
return layers_;
}
void layer::set_minimum_scale_denominator(double minimum_scale_denom)
{
minimum_scale_denom_ = minimum_scale_denom;
}
void layer::set_maximum_scale_denominator(double maximum_scale_denom)
{
maximum_scale_denom_ = maximum_scale_denom;
}
double layer::minimum_scale_denominator() const
{
return minimum_scale_denom_;
}
double layer::maximum_scale_denominator() const
{
return maximum_scale_denom_;
}
void layer::set_active(bool _active)
{
active_ = _active;
}
bool layer::active() const
{
return active_;
}
bool layer::visible(double scale_denom) const
{
return active() && scale_denom >= minimum_scale_denom_ - 1e-6 && scale_denom < maximum_scale_denom_ + 1e-6;
}
void layer::set_queryable(bool _queryable)
{
queryable_ = _queryable;
}
bool layer::queryable() const
{
return queryable_;
}
datasource_ptr layer::datasource() const
{
return ds_;
}
void layer::set_datasource(datasource_ptr const& ds)
{
ds_ = ds;
}
void layer::set_maximum_extent(box2d<double> const& box)
{
maximum_extent_.reset(box);
}
boost::optional<box2d<double>> const& layer::maximum_extent() const
{
return maximum_extent_;
}
void layer::reset_maximum_extent()
{
maximum_extent_.reset();
}
void layer::set_buffer_size(int size)
{
buffer_size_.reset(size);
}
boost::optional<int> const& layer::buffer_size() const
{
return buffer_size_;
}
void layer::reset_buffer_size()
{
buffer_size_.reset();
}
box2d<double> layer::envelope() const
{
if (ds_)
return ds_->envelope();
return box2d<double>();
}
void layer::set_clear_label_cache(bool clear)
{
clear_label_cache_ = clear;
}
bool layer::clear_label_cache() const
{
return clear_label_cache_;
}
void layer::set_cache_features(bool _cache_features)
{
cache_features_ = _cache_features;
}
bool layer::cache_features() const
{
return cache_features_;
}
void layer::set_group_by(std::string const& column)
{
group_by_ = column;
}
std::string const& layer::group_by() const
{
return group_by_;
}
void layer::set_comp_op(composite_mode_e comp_op)
{
comp_op_ = comp_op;
}
boost::optional<composite_mode_e> layer::comp_op() const
{
return comp_op_;
}
void layer::set_opacity(double opacity)
{
opacity_ = opacity;
}
double layer::get_opacity() const
{
return opacity_;
}
} // namespace mapnik