/***************************************************************************** * * This file is part of Mapnik (c++ mapping toolkit) * * Copyright (C) 2013 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 * *****************************************************************************/ #include #include #include #include // ICU #include namespace mapnik { // Output is centered around (0,0) static void rotated_box2d(box2d & box, rotation const& rot, pixel_position const& center, double width, double height) { double half_width, half_height; if (rot.sin == 0 && rot.cos == 1.) { half_width = width / 2.; half_height = height / 2.; } else { half_width = (width * rot.cos + height * rot.sin) /2.; half_height = (width * rot.sin + height * rot.cos) /2.; } box.init(center.x - half_width, center.y - half_height, center.x + half_width, center.y + half_height); } pixel_position pixel_position::rotate(rotation const& rot) const { return pixel_position(x * rot.cos - y * rot.sin, x * rot.sin + y * rot.cos); } text_layout::text_layout(face_manager_freetype & font_manager, double scale_factor, text_layout_properties const& properties) : font_manager_(font_manager), scale_factor_(scale_factor), itemizer_(), width_map_(), width_(0.0), height_(0.0), glyphs_count_(0), lines_(), properties_(properties) {} void text_layout::add_text(mapnik::value_unicode_string const& str, evaluated_format_properties_ptr format) { itemizer_.add_text(str, format); } void text_layout::add_child(text_layout_ptr const& child_layout) { child_layout_list_.push_back(child_layout); } mapnik::value_unicode_string const& text_layout::text() const { return itemizer_.text(); } void text_layout::layout() { unsigned num_lines = itemizer_.num_lines(); for (unsigned i = 0; i < num_lines; ++i) { std::pair line_limits = itemizer_.line(i); text_line line(line_limits.first, line_limits.second); //Break line if neccessary break_line(line, wrap_width_ * scale_factor_, text_ratio_, wrap_before_); } init_auto_alignment(); // Find text origin. displacement_ = scale_factor_ * displacement_ + alignment_offset(); if (rotate_displacement_) displacement_ = displacement_.rotate(!orientation_); // Find layout bounds, expanded for rotation rotated_box2d(bounds_, orientation_, displacement_, width_, height_); } // In the Unicode string characters are always stored in logical order. // This makes line breaking easy. One word is added to the current line at a time. Once the line is too long // we either go back one step or inset the line break at the current position (depending on "wrap_before" setting). // At the end everything that is left over is added as the final line. void text_layout::break_line(text_line & line, double wrap_width, unsigned text_ratio, bool wrap_before) { shape_text(line); if (!wrap_width || line.width() < wrap_width) { add_line(line); return; } if (text_ratio) { double wrap_at; double string_width = line.width(); double string_height = line.line_height(); for (double i = 1.0; ((wrap_at = string_width/i)/(string_height*i)) > text_ratio && (string_width/i) > wrap_width; i += 1.0) ; wrap_width = wrap_at; } mapnik::value_unicode_string const& text = itemizer_.text(); Locale locale; // TODO: Is the default constructor correct? UErrorCode status = U_ZERO_ERROR; BreakIterator *breakitr = BreakIterator::createLineInstance(locale, status); // Not breaking the text if an error occurs is probably the best thing we can do. // https://github.com/mapnik/mapnik/issues/2072 if (!U_SUCCESS(status)) { add_line(line); MAPNIK_LOG_ERROR(text_layout) << " could not create BreakIterator: " << u_errorName(status); return; } breakitr->setText(text); double current_line_length = 0; int last_break_position = static_cast(line.first_char()); for (unsigned i=line.first_char(); i < line.last_char(); ++i) { // TODO: character_spacing std::map::const_iterator width_itr = width_map_.find(i); if (width_itr != width_map_.end()) { current_line_length += width_itr->second; } if (current_line_length <= wrap_width) continue; int break_position = wrap_before ? breakitr->preceding(i) : breakitr->following(i); // following() returns a break position after the last word. So DONE should only be returned // when calling preceding. if (break_position <= last_break_position || break_position == static_cast(BreakIterator::DONE)) { // A single word is longer than the maximum line width. // Violate line width requirement and choose next break position break_position = breakitr->following(i); if (break_position == static_cast(BreakIterator::DONE)) { break_position = line.last_char(); MAPNIK_LOG_ERROR(text_layout) << "Unexpected result in break_line. Trying to recover...\n"; } } // Break iterator operates on the whole string, while we only look at one line. So we need to // clamp break values. if (break_position < static_cast(line.first_char())) { break_position = line.first_char(); } if (break_position > static_cast(line.last_char())) { break_position = line.last_char(); } text_line new_line(last_break_position, break_position); clear_cluster_widths(last_break_position, break_position); shape_text(new_line); add_line(new_line); last_break_position = break_position; i = break_position - 1; current_line_length = 0; } if (last_break_position == static_cast(line.first_char())) { // No line breaks => no reshaping required add_line(line); } else if (last_break_position != static_cast(line.last_char())) { text_line new_line(last_break_position, line.last_char()); clear_cluster_widths(last_break_position, line.last_char()); shape_text(new_line); add_line(new_line); } } void text_layout::add_line(text_line & line) { if (lines_.empty()) { line.set_first_line(true); } height_ += line.height(); glyphs_count_ += line.size(); width_ = std::max(width_, line.width()); lines_.push_back(line); } void text_layout::clear_cluster_widths(unsigned first, unsigned last) { for (unsigned i=first; i(feature,attrs), properties_.dx); double dy = boost::apply_visitor(extract_value(feature,attrs), properties_.dy); displacement_ = properties_.displacement_evaluator_(dx,dy); wrap_width_ = boost::apply_visitor(extract_value(feature,attrs), properties_.wrap_width); double angle = boost::apply_visitor(extract_value(feature,attrs), properties_.orientation); orientation_.init(angle * M_PI/ 180.0); wrap_before_ = boost::apply_visitor(extract_value(feature,attrs), properties_.wrap_before); rotate_displacement_ = boost::apply_visitor(extract_value(feature,attrs), properties_.rotate_displacement); valign_ = boost::apply_visitor(extract_value(feature,attrs),properties_.valign); halign_ = boost::apply_visitor(extract_value(feature,attrs),properties_.halign); jalign_ = boost::apply_visitor(extract_value(feature,attrs),properties_.jalign); } void text_layout::init_auto_alignment() { if (valign_ == V_AUTO) { if (displacement_.y > 0.0) valign_ = V_BOTTOM; else if (displacement_.y < 0.0) valign_ = V_TOP; else valign_ = V_MIDDLE; } if (halign_ == H_AUTO) { if (displacement_.x > 0.0) halign_ = H_RIGHT; else if (displacement_.x < 0.0) halign_ = H_LEFT; else halign_ = H_MIDDLE; } if (jalign_ == J_AUTO) { if (displacement_.x > 0.0) jalign_ = J_LEFT; else if (displacement_.x < 0.0) jalign_ = J_RIGHT; else jalign_ = J_MIDDLE; } } pixel_position text_layout::alignment_offset() const { pixel_position result(0,0); // if needed, adjust for desired vertical alignment if (valign_ == V_TOP) { result.y = -0.5 * height(); // move center up by 1/2 the total height } else if (valign_ == V_BOTTOM) { result.y = 0.5 * height(); // move center down by the 1/2 the total height } // set horizontal position to middle of text if (halign_ == H_LEFT) { result.x = -0.5 * width(); // move center left by 1/2 the string width } else if (halign_ == H_RIGHT) { result.x = 0.5 * width(); // move center right by 1/2 the string width } return result; } double text_layout::jalign_offset(double line_width) const { if (jalign_ == J_MIDDLE) return -(line_width / 2.0); if (jalign_ == J_LEFT) return -(width() / 2.0); if (jalign_ == J_RIGHT) return (width() / 2.0) - line_width; return 0; } void layout_container::add(text_layout_ptr layout) { text_ += layout->text(); layouts_.push_back(layout); for (text_layout_ptr const& child_layout : layout->get_child_layouts()) { add(child_layout); } } void layout_container::layout() { bounds_.init(0,0,0,0); glyphs_count_ = 0; line_count_ = 0; bool first = true; for (text_layout_ptr const& layout : layouts_) { layout->layout(); glyphs_count_ += layout->glyphs_count(); line_count_ += layout->num_lines(); if (first) { bounds_ = layout->bounds(); first = false; } else { bounds_.expand_to_include(layout->bounds()); } } } void layout_container::clear() { layouts_.clear(); text_.remove(); bounds_.init(0,0,0,0); glyphs_count_ = 0; line_count_ = 0; } } //ns mapnik