/***************************************************************************** * * 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 * *****************************************************************************/ // mapnik #include #include #include #include #include #include namespace mapnik { text_renderer::text_renderer (halo_rasterizer_e rasterizer, composite_mode_e comp_op, composite_mode_e halo_comp_op, double scale_factor, stroker_ptr stroker) : rasterizer_(rasterizer), comp_op_(comp_op), halo_comp_op_(halo_comp_op), scale_factor_(scale_factor), glyphs_(), stroker_(stroker), transform_(), halo_transform_() {} void text_renderer::set_transform(agg::trans_affine const& transform) { transform_ = transform; } void text_renderer::set_halo_transform(agg::trans_affine const& halo_transform) { halo_transform_ = halo_transform; } void text_renderer::prepare_glyphs(glyph_positions const& positions) { FT_Matrix matrix; FT_Vector pen; FT_Error error; for (auto const& glyph_pos : positions) { glyph_info const& glyph = *(glyph_pos.glyph); glyph.face->set_character_sizes(glyph.format->text_size * scale_factor_); //TODO: Optimize this? matrix.xx = static_cast( glyph_pos.rot.cos * 0x10000L); matrix.xy = static_cast(-glyph_pos.rot.sin * 0x10000L); matrix.yx = static_cast( glyph_pos.rot.sin * 0x10000L); matrix.yy = static_cast( glyph_pos.rot.cos * 0x10000L); pixel_position pos = glyph_pos.pos + glyph.offset.rotate(glyph_pos.rot); pen.x = static_cast(pos.x * 64); pen.y = static_cast(pos.y * 64); FT_Face face = glyph.face->get_face(); FT_Set_Transform(face, &matrix, &pen); error = FT_Load_Glyph(face, glyph.glyph_index, FT_LOAD_NO_HINTING); if (error) continue; FT_Glyph image; error = FT_Get_Glyph(face->glyph, &image); if (error) continue; glyphs_.emplace_back(image, glyph.format.get()); } } template void composite_bitmap(T & pixmap, FT_Bitmap *bitmap, unsigned rgba, int x, int y, double opacity, composite_mode_e comp_op) { int x_max=x+bitmap->width; int y_max=y+bitmap->rows; int i,p,j,q; for (i=x,p=0;ibuffer[q*bitmap->width+p]; if (gray) { pixmap.composite_pixel(comp_op, i, j, rgba, gray, opacity); } } } } template agg_text_renderer::agg_text_renderer (pixmap_type & pixmap, halo_rasterizer_e rasterizer, composite_mode_e comp_op, composite_mode_e halo_comp_op, double scale_factor, stroker_ptr stroker) : text_renderer(rasterizer, comp_op, halo_comp_op, scale_factor, stroker), pixmap_(pixmap) {} template void agg_text_renderer::render(glyph_positions const& pos) { glyphs_.clear(); prepare_glyphs(pos); FT_Error error; FT_Vector start; FT_Vector start_halo; int height = pixmap_.height(); pixel_position const& base_point = pos.get_base_point(); start.x = static_cast(base_point.x * (1 << 6)); start.y = static_cast((height - base_point.y) * (1 << 6)); start_halo = start; start.x += transform_.tx * 64; start.y += transform_.ty * 64; start_halo.x += halo_transform_.tx * 64; start_halo.y += halo_transform_.ty * 64; //render halo double halo_radius = 0; FT_Matrix halo_matrix; halo_matrix.xx = halo_transform_.sx * 0x10000L; halo_matrix.xy = halo_transform_.shx * 0x10000L; halo_matrix.yy = halo_transform_.sy * 0x10000L; halo_matrix.yx = halo_transform_.shy * 0x10000L; FT_Matrix matrix; matrix.xx = transform_.sx * 0x10000L; matrix.xy = transform_.shx * 0x10000L; matrix.yy = transform_.sy * 0x10000L; matrix.yx = transform_.shy * 0x10000L; detail::evaluated_format_properties default_props; detail::evaluated_format_properties const* format = &default_props; for (auto const& glyph : glyphs_) { if (glyph.properties) { format = glyph.properties; // Settings have changed. halo_radius = glyph.properties->halo_radius * scale_factor_; } // make sure we've got reasonable values. if (halo_radius <= 0.0 || halo_radius > 1024.0) continue; FT_Glyph g; error = FT_Glyph_Copy(glyph.image, &g); if (!error) { FT_Glyph_Transform(g, &halo_matrix, &start_halo); if (rasterizer_ == HALO_RASTERIZER_FULL) { stroker_->init(halo_radius); FT_Glyph_Stroke(&g, stroker_->get(), 1); error = FT_Glyph_To_Bitmap(&g, FT_RENDER_MODE_NORMAL, 0, 1); if (!error) { FT_BitmapGlyph bit = reinterpret_cast(g); composite_bitmap(pixmap_, &bit->bitmap, format->halo_fill.rgba(), bit->left, height - bit->top, format->halo_opacity, halo_comp_op_); } } else { error = FT_Glyph_To_Bitmap(&g, FT_RENDER_MODE_NORMAL, 0, 1); if (!error) { FT_BitmapGlyph bit = reinterpret_cast(g); render_halo(&bit->bitmap, format->halo_fill.rgba(), bit->left, height - bit->top, halo_radius, format->halo_opacity, halo_comp_op_); } } } FT_Done_Glyph(g); } // render actual text format = &default_props; for (auto & glyph : glyphs_) { if (glyph.properties) { format = glyph.properties; } FT_Glyph_Transform(glyph.image, &matrix, &start); error = FT_Glyph_To_Bitmap(&glyph.image ,FT_RENDER_MODE_NORMAL, 0, 1); if (!error) { FT_BitmapGlyph bit = reinterpret_cast(glyph.image); composite_bitmap(pixmap_, &bit->bitmap, format->fill.rgba(), bit->left, height - bit->top, format->text_opacity, comp_op_); } } } template void grid_text_renderer::render(glyph_positions const& pos, value_integer feature_id) { glyphs_.clear(); prepare_glyphs(pos); FT_Error error; FT_Vector start; unsigned height = pixmap_.height(); pixel_position const& base_point = pos.get_base_point(); start.x = static_cast(base_point.x * (1 << 6)); start.y = static_cast((height - base_point.y) * (1 << 6)); // now render transformed glyphs double halo_radius = 0.0; for (auto & glyph : glyphs_) { if (glyph.properties) { halo_radius = glyph.properties->halo_radius * scale_factor_; } FT_Glyph_Transform(glyph.image, 0, &start); error = FT_Glyph_To_Bitmap(&glyph.image, FT_RENDER_MODE_NORMAL, 0, 1); if (!error) { FT_BitmapGlyph bit = reinterpret_cast(glyph.image); render_halo_id(&bit->bitmap, feature_id, bit->left, height - bit->top, static_cast(halo_radius)); } } } template void agg_text_renderer::render_halo(FT_Bitmap *bitmap, unsigned rgba, int x1, int y1, double halo_radius, double opacity, composite_mode_e comp_op) { int width = bitmap->width; int height = bitmap->rows; int x, y; if (halo_radius < 1.0) { for (x=0; x < width; x++) { for (y=0; y < height; y++) { int gray = bitmap->buffer[y*bitmap->width+x]; if (gray) { pixmap_.composite_pixel(comp_op, x+x1-1, y+y1-1, rgba, gray*halo_radius*halo_radius, opacity); pixmap_.composite_pixel(comp_op, x+x1, y+y1-1, rgba, gray*halo_radius, opacity); pixmap_.composite_pixel(comp_op, x+x1+1, y+y1-1, rgba, gray*halo_radius*halo_radius, opacity); pixmap_.composite_pixel(comp_op, x+x1-1, y+y1, rgba, gray*halo_radius, opacity); pixmap_.composite_pixel(comp_op, x+x1, y+y1, rgba, gray, opacity); pixmap_.composite_pixel(comp_op, x+x1+1, y+y1, rgba, gray*halo_radius, opacity); pixmap_.composite_pixel(comp_op, x+x1-1, y+y1+1, rgba, gray*halo_radius*halo_radius, opacity); pixmap_.composite_pixel(comp_op, x+x1, y+y1+1, rgba, gray*halo_radius, opacity); pixmap_.composite_pixel(comp_op, x+x1+1, y+y1+1, rgba, gray*halo_radius*halo_radius, opacity); } } } } else { for (x=0; x < width; x++) { for (y=0; y < height; y++) { int gray = bitmap->buffer[y*bitmap->width+x]; if (gray) { for (int n=-halo_radius; n <=halo_radius; ++n) for (int m=-halo_radius; m <= halo_radius; ++m) pixmap_.composite_pixel(comp_op, x+x1+m, y+y1+n, rgba, gray, opacity); } } } } } template void grid_text_renderer::render_halo_id( FT_Bitmap *bitmap, mapnik::value_integer feature_id, int x1, int y1, int halo_radius) { int width = bitmap->width; int height = bitmap->rows; int x, y; for (x=0; x < width; x++) { for (y=0; y < height; y++) { int gray = bitmap->buffer[y*bitmap->width+x]; if (gray) { for (int n=-halo_radius; n <=halo_radius; ++n) for (int m=-halo_radius; m <= halo_radius; ++m) pixmap_.setPixel(x+x1+m,y+y1+n,feature_id); } } } } template grid_text_renderer::grid_text_renderer(pixmap_type &pixmap, composite_mode_e comp_op, double scale_factor) : text_renderer(HALO_RASTERIZER_FAST, comp_op, src_over, scale_factor), pixmap_(pixmap) {} template class agg_text_renderer; template class grid_text_renderer; } // namespace mapnik