/***************************************************************************** * * This file is part of Mapnik (c++ mapping toolkit) * * Copyright (C) 2011 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 #include #include namespace mapnik { void evaluate_transform(agg::trans_affine& tr, Feature const& feature, transform_list_ptr const& trans_expr) { #ifdef MAPNIK_LOG MAPNIK_LOG_DEBUG(transform) << "transform: evaluate " << (trans_expr ? transform_processor_type::to_string(*trans_expr) : std::string("null")); #endif if (trans_expr) { transform_processor_type::evaluate(tr, feature, *trans_expr); } } // default ctor symbolizer_base::symbolizer_base() : properties_(), properties_complete_(), writer_name_(), writer_ptr_(), comp_op_(src_over), clip_(true), simplify_tolerance_value_(0.0), smooth_value_(0.0) { } // copy ctor symbolizer_base::symbolizer_base(symbolizer_base const& other) : comp_op_(other.comp_op_), affine_transform_(other.affine_transform_), clip_(other.clip_), simplify_tolerance_value_(other.simplify_tolerance_value_), smooth_value_(other.smooth_value_) {} void symbolizer_base::add_metawriter(std::string const& name, metawriter_properties const& properties) { writer_name_ = name; properties_ = properties; } void symbolizer_base::add_metawriter(metawriter_ptr writer_ptr, metawriter_properties const& properties, std::string const& name) { writer_ptr_ = writer_ptr; properties_ = properties; writer_name_ = name; if (writer_ptr) { properties_complete_ = writer_ptr->get_default_properties(); properties_complete_.insert(properties_.begin(), properties_.end()); } else { properties_complete_.clear(); } } void symbolizer_base::cache_metawriters(Map const &m) { if (writer_name_.empty()) { properties_complete_.clear(); writer_ptr_ = metawriter_ptr(); return; // No metawriter } writer_ptr_ = m.find_metawriter(writer_name_); if (writer_ptr_) { properties_complete_ = writer_ptr_->get_default_properties(); properties_complete_.insert(properties_.begin(), properties_.end()); } else { properties_complete_.clear(); MAPNIK_LOG_WARN(symbolizer) << "Metawriter '" << writer_name_ << "' used but not defined."; } } metawriter_with_properties symbolizer_base::get_metawriter() const { return metawriter_with_properties(writer_ptr_, properties_complete_); } void symbolizer_base::set_comp_op(composite_mode_e comp_op) { comp_op_ = comp_op; } composite_mode_e symbolizer_base::comp_op() const { return comp_op_; } void symbolizer_base::set_transform(transform_type const& affine_transform) { affine_transform_ = affine_transform; #ifdef MAPNIK_LOG MAPNIK_LOG_DEBUG(load_map) << "map_parser: set_transform: " << (affine_transform_ ? transform_processor_type::to_string(*affine_transform_) : std::string("null")); #endif } transform_type const& symbolizer_base::get_transform() const { return affine_transform_; } std::string symbolizer_base::get_transform_string() const { if (affine_transform_) return transform_processor_type::to_string(*affine_transform_); else return std::string(); } void symbolizer_base::set_clip(bool clip) { clip_ = clip; } bool symbolizer_base::clip() const { return clip_; } void symbolizer_base::set_simplify_tolerance(double simplify_tolerance) { simplify_tolerance_value_ = simplify_tolerance; } double symbolizer_base::simplify_tolerance() const { return simplify_tolerance_value_; } void symbolizer_base::set_smooth(double smooth) { smooth_value_ = smooth; } double symbolizer_base::smooth() const { return smooth_value_; } /////////////////////////////////////////////////////////////////////////////////////// symbolizer_with_image::symbolizer_with_image(path_expression_ptr file) : image_filename_( file ), image_opacity_(1.0f) { } symbolizer_with_image::symbolizer_with_image( symbolizer_with_image const& rhs) : image_filename_(rhs.image_filename_), image_opacity_(rhs.image_opacity_), image_transform_(rhs.image_transform_) { } path_expression_ptr symbolizer_with_image::get_filename() const { return image_filename_; } void symbolizer_with_image::set_filename(path_expression_ptr image_filename) { image_filename_ = image_filename; } void symbolizer_with_image::set_opacity(float opacity) { image_opacity_ = opacity; } float symbolizer_with_image::get_opacity() const { return image_opacity_; } void symbolizer_with_image::set_image_transform(transform_type const& tr) { image_transform_ = tr; #ifdef MAPNIK_LOG MAPNIK_LOG_DEBUG(load_map) << "map_parser: set_image_transform: " << (image_transform_ ? transform_processor_type::to_string(*image_transform_) : std::string("null")); #endif } transform_type const& symbolizer_with_image::get_image_transform() const { return image_transform_; } std::string symbolizer_with_image::get_image_transform_string() const { if (image_transform_) return transform_processor_type::to_string(*image_transform_); else return std::string(); } } // end of namespace mapnik