/***************************************************************************** * * This file is part of Mapnik (c++ mapping toolkit) * * Copyright (C) 2006 Artem Pavlenko * Copyright (C) 2006 10East Corp. * * 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 * *****************************************************************************/ //$Id$ //stl #include #include // boost #include #include #include #include //mapnik #include #include #include namespace mapnik { placement::placement(string_info *info_, CoordTransform *ctrans_, const proj_transform *proj_trans_, geometry_ptr geom_, std::pair dimensions_) : info(info_), ctrans(ctrans_), proj_trans(proj_trans_), geom(geom_), label_placement(point_placement), dimensions(dimensions_), has_dimensions(true), shape_path(*ctrans_, *geom_, *proj_trans_), total_distance_(-1.0), wrap_width(0), text_ratio(0) { } //For text placement::placement(string_info *info_, CoordTransform *ctrans_, const proj_transform *proj_trans_, geometry_ptr geom_, label_placement_e placement_) : info(info_), ctrans(ctrans_), proj_trans(proj_trans_), geom(geom_), label_placement(placement_), has_dimensions(false), shape_path(*ctrans_, *geom_, *proj_trans_), total_distance_(-1.0), wrap_width(0), text_ratio(0) { } placement::~placement() { } std::pair placement::get_position_at_distance(double target_distance) { double old_x, old_y, new_x, new_y; double x, y; x = y = 0.0; double distance = 0.0; shape_path.rewind(0); shape_path.vertex(&new_x,&new_y); for (unsigned i = 0; i < geom->num_points() - 1; i++) { double dx, dy; old_x = new_x; old_y = new_y; shape_path.vertex(&new_x,&new_y); dx = new_x - old_x; dy = new_y - old_y; double segment_length = sqrt(dx*dx + dy*dy); distance += segment_length; if (distance > target_distance) { x = new_x - dx*(distance - target_distance)/segment_length; y = new_y - dy*(distance - target_distance)/segment_length; break; } } return std::pair(x, y); } double placement::get_total_distance() { if (total_distance_ < 0.0) { double old_x, old_y, new_x, new_y; shape_path.rewind(0); shape_path.vertex(&old_x,&old_y); total_distance_ = 0.0; for (unsigned i = 0; i < geom->num_points() - 1; i++) { double dx, dy; shape_path.vertex(&new_x,&new_y); dx = new_x - old_x; dy = new_y - old_y; total_distance_ += sqrt(dx*dx + dy*dy); old_x = new_x; old_y = new_y; } } return total_distance_; } void placement::clear_envelopes() { while (!envelopes.empty()) envelopes.pop(); } placement_finder::placement_finder(Envelope e) : detector_(e) { } bool placement_finder::find_placement(placement *p) { if (p->label_placement == point_placement) { return find_placement_horizontal(p); } else if (p->label_placement == line_placement) { return find_placement_follow(p); } return false; } bool placement_finder::find_placement_follow(placement *p) { std::pair string_dimensions = p->info->get_dimensions(); double string_width = string_dimensions.first; // double string_height = string_dimensions.second; double distance = p->get_total_distance(); //~ double delta = string_width/distance; double delta = distance/100.0; for (double i = 0; i < (distance - string_width)/2.0; i += delta) { p->clear_envelopes(); if ( build_path_follow(p, (distance - string_width)/2.0 + i) ) { update_detector(p); return true; } p->clear_envelopes(); if ( build_path_follow(p, (distance - string_width)/2.0 - i) ) { update_detector(p); return true; } } p->starting_x = 0; p->starting_y = 0; return false; } bool placement_finder::find_placement_horizontal(placement *p) { double distance = p->get_total_distance(); //~ double delta = string_width/distance; double delta = distance/100.0; for (double i = 0; i < distance/2.0; i += delta) { p->clear_envelopes(); if ( build_path_horizontal(p, distance/2.0 + i) ) { update_detector(p); return true; } p->clear_envelopes(); if ( build_path_horizontal(p, distance/2.0 - i) ) { update_detector(p); return true; } } p->starting_x = 0; p->starting_y = 0; return false; } void placement_finder::update_detector(placement *p) { while (!p->envelopes.empty()) { Envelope e = p->envelopes.front(); detector_.insert(e); p->envelopes.pop(); } } bool placement_finder::build_path_follow(placement *p, double target_distance) { double new_x, new_y, old_x, old_y; unsigned cur_node = 0; double angle = 0.0; int orientation = 0; p->path.clear(); double x, y; x = y = 0.0; double distance = 0.0; std::pair string_dimensions = p->info->get_dimensions(); // double string_width = string_dimensions.first; double string_height = string_dimensions.second; p->shape_path.rewind(0); p->shape_path.vertex(&new_x,&new_y); for (unsigned i = 0; i < p->geom->num_points() - 1; i++) { double dx, dy; cur_node++; old_x = new_x; old_y = new_y; p->shape_path.vertex(&new_x,&new_y); dx = new_x - old_x; dy = new_y - old_y; double segment_length = sqrt(dx*dx + dy*dy); distance += segment_length; if (distance > target_distance) { p->starting_x = new_x - dx*(distance - target_distance)/segment_length; p->starting_y = new_y - dy*(distance - target_distance)/segment_length; angle = atan2(-dy, dx); if (angle > M_PI/2 || angle <= -M_PI/2) { orientation = -1; } else { orientation = 1; } distance -= target_distance; break; } } for (unsigned i = 0; i < p->info->num_characters(); i++) { character_info ci; unsigned c; while (distance <= 0) { double dx, dy; cur_node++; if (cur_node >= p->geom->num_points()) { break; } old_x = new_x; old_y = new_y; p->shape_path.vertex(&new_x,&new_y); dx = new_x - old_x; dy = new_y - old_y; angle = atan2(-dy, dx ); distance += sqrt(dx*dx+dy*dy); } if (orientation == -1) { ci = p->info->at(p->info->num_characters() - i - 1); } else { ci = p->info->at(i); } c = ci.character; Envelope e; if (p->has_dimensions) { e.init(x, y, x + p->dimensions.first, y + p->dimensions.second); } if (orientation == -1) { x = new_x - (distance - ci.width)*cos(angle); y = new_y + (distance - ci.width)*sin(angle); //Center the text on the line. x += (((double)string_height/2.0) - 1.0)*cos(angle+M_PI/2); y -= (((double)string_height/2.0) - 1.0)*sin(angle+M_PI/2); if (!p->has_dimensions) { e.init(x, y, x + ci.width*cos(angle+M_PI), y - ci.width*sin(angle+M_PI)); e.expand_to_include(x - ci.height*sin(angle+M_PI), y - ci.height*cos(angle+M_PI)); e.expand_to_include(x + (ci.width*cos(angle+M_PI) - ci.height*sin(angle+M_PI)), y - (ci.width*sin(angle+M_PI) + ci.height*cos(angle+M_PI))); } } else { x = new_x - distance*cos(angle); y = new_y + distance*sin(angle); //Center the text on the line. x += (((double)string_height/2.0) - 1.0)*cos(angle-M_PI/2); y -= (((double)string_height/2.0) - 1.0)*sin(angle-M_PI/2); if (!p->has_dimensions) { e.init(x, y, x + ci.width*cos(angle), y - ci.width*sin(angle)); e.expand_to_include(x - ci.height*sin(angle), y - ci.height*cos(angle)); e.expand_to_include(x + (ci.width*cos(angle) - ci.height*sin(angle)), y - (ci.width*sin(angle) + ci.height*cos(angle))); } } if (!detector_.has_placement(e)) { return false; } p->envelopes.push(e); p->path.add_node(c, x - p->starting_x, -y + p->starting_y, (orientation == -1 ? angle + M_PI : angle)); distance -= ci.width; } return true; } /* bool placement_finder::build_path_horizontal(placement *p, double target_distance) { double x, y; p->path.clear(); std::pair string_dimensions = p->info->get_dimensions(); double string_width = string_dimensions.first; double string_height = string_dimensions.second; x = -string_width/2.0; y = -string_height/2.0 + 1.0; if (p->geom->type() == LineString) { std::pair starting_pos = p->get_position_at_distance(target_distance); p->starting_x = starting_pos.first; p->starting_y = starting_pos.second; } else { p->geom->label_position(&p->starting_x, &p->starting_y); // TODO: // We would only want label position in final 'paper' coords. // Move view and proj transforms to e.g. label_position(x,y,proj_trans,ctrans)? double z=0; p->proj_trans->backward(p->starting_x, p->starting_y, z); p->ctrans->forward(&p->starting_x, &p->starting_y); } for (unsigned i = 0; i < p->info->num_characters(); i++) { character_info ci;; ci = p->info->at(i); unsigned c = ci.character; p->path.add_node(c, x, y, 0.0); Envelope e; if (p->has_dimensions) { e.init(p->starting_x - (p->dimensions.first/2.0), p->starting_y - (p->dimensions.second/2.0), p->starting_x + (p->dimensions.first/2.0), p->starting_y + (p->dimensions.second/2.0)); } else { e.init(p->starting_x + x, p->starting_y - y, p->starting_x + x + ci.width, p->starting_y - y - ci.height); } if (!detector_.has_placement(e)) { return false; } p->envelopes.push(e); x += ci.width; } return true; } */ bool placement_finder::build_path_horizontal(placement *p, double target_distance) { p->path.clear(); std::pair string_dimensions = p->info->get_dimensions(); double string_width = string_dimensions.first; double string_height = string_dimensions.second; // check if we need to wrap the string double wrap_at = string_width + 1; if (p->wrap_width && string_width > p->wrap_width) { if (p->text_ratio) for (int i = 1; ((wrap_at = string_width/i)/(string_height*i)) > p->text_ratio && (string_width/i) > p->wrap_width; ++i); else wrap_at = p->wrap_width; //std::clog << "Wrapping string at" << wrap_at << std::endl; } // work out where our line breaks need to be std::vector line_breaks; std::vector line_widths; if (wrap_at < string_width && p->info->num_characters() > 0) { int line_count=0; int last_space = 0; string_width = 0; string_height = 0; double line_width = 0; double line_height = 0; double word_width = 0; double word_height = 0; for (unsigned int ii = 0; ii < p->info->num_characters(); ii++) { character_info ci; ci = p->info->at(ii); unsigned c = ci.character; word_width += ci.width; word_height = word_height > ci.height ? word_height : ci.height; ++line_count; if (c == ' ') { last_space = ii; line_width += word_width; line_height = line_height > word_height ? line_height : word_height; word_width = 0; word_height = 0; } if (line_width > 0 && line_width > wrap_at) { string_width = string_width > line_width ? string_width : line_width; string_height += line_height; line_breaks.push_back(last_space); line_widths.push_back(line_width); ii = last_space; line_count = 0; line_width = 0; line_height = 0; word_width = 0; word_height = 0; } } line_width += word_width; string_width = string_width > line_width ? string_width : line_width; line_breaks.push_back(p->info->num_characters() + 1); line_widths.push_back(line_width); } if (line_breaks.size() == 0) { line_breaks.push_back(p->info->num_characters() + 1); line_widths.push_back(string_width); } p->info->set_dimensions(string_width, string_height); if (p->geom->type() == LineString) { std::pair starting_pos = p->get_position_at_distance(target_distance); p->starting_x = starting_pos.first; p->starting_y = starting_pos.second; } else { p->geom->label_position(&p->starting_x, &p->starting_y); // TODO: // We would only want label position in final 'paper' coords. // Move view and proj transforms to e.g. label_position(x,y,proj_trans,ctrans)? double z=0; p->proj_trans->backward(p->starting_x, p->starting_y, z); p->ctrans->forward(&p->starting_x, &p->starting_y); } double line_height = 0; unsigned int line_number = 0; unsigned int index_to_wrap_at = line_breaks[line_number]; double line_width = line_widths[line_number]; double x = -line_width/2.0; double y = -string_height/2.0 + 1.0; for (unsigned i = 0; i < p->info->num_characters(); i++) { character_info ci; ci = p->info->at(i); unsigned c = ci.character; if (i == index_to_wrap_at) { index_to_wrap_at = line_breaks[++line_number]; line_width = line_widths[line_number]; y -= line_height; x = -line_width/2.0; line_height = 0; continue; } else { p->path.add_node(c, x, y, 0.0); Envelope e; if (p->has_dimensions) { e.init(p->starting_x - (p->dimensions.first/2.0), p->starting_y - (p->dimensions.second/2.0), p->starting_x + (p->dimensions.first/2.0), p->starting_y + (p->dimensions.second/2.0)); } else { e.init(p->starting_x + x, p->starting_y - y, p->starting_x + x + ci.width, p->starting_y - y - ci.height); } if (!detector_.has_placement(e)) { return false; } p->envelopes.push(e); } x += ci.width; line_height = line_height > ci.height ? line_height : ci.height; } return true; } }