#pragma once #include "agg_basics.h" #include "agg_conv_curve.h" #include "agg_conv_transform.h" #include "agg_gamma_lut.h" #include "agg_font_freetype.h" // #include "agg_pixfmt_rgb.h" #include "agg_pixfmt_rgba.h" // #include "agg_pixfmt_rgb24_lcd.h" #include "agg_pixfmt_bgra32_lcd.h" #include "agg_rasterizer_scanline_aa.h" #include "agg_renderer_primitives.h" #include "agg_renderer_scanline.h" #include "agg_rendering_buffer.h" #include "agg_scanline_u.h" // FIXME: the pixel type rgb24 of rgba32 is hard coded below class font_renderer_lcd { typedef agg::pixfmt_bgra32 pixfmt_type; typedef agg::renderer_base base_ren_type; typedef agg::renderer_scanline_aa_solid renderer_solid; typedef agg::font_engine_freetype_int32 font_engine_type; typedef agg::font_cache_manager font_manager_type; font_engine_type m_feng; font_manager_type m_fman; agg::gamma_lut<> m_gamma_lut; // Font rendering options. bool m_hinting; bool m_kerning; bool m_grayscale; double m_gamma; bool m_font_loaded; // Pipeline to process the vectors glyph paths (curves + contour) agg::trans_affine m_mtx; agg::conv_curve m_curves; agg::conv_transform > m_trans; public: font_renderer_lcd(bool hinting, bool kerning, bool subpixel, double gamma): m_feng(), m_fman(m_feng), m_hinting(hinting), m_kerning(kerning), m_grayscale(!subpixel), m_gamma(gamma), m_font_loaded(false), m_curves(m_fman.path_adaptor()), m_trans(m_curves, m_mtx) { m_gamma_lut.gamma(m_gamma); } bool load_font(const char *font_filename) { if(m_feng.load_font(font_filename, 0, agg::glyph_ren_outline)) { m_font_loaded = true; } return m_font_loaded; } template double draw_text(Rasterizer& ras, Scanline& sl, RenSolid& ren_solid, const agg::rgba8 color, const char* text, double x, double y, double height, unsigned subpixel_scale) { const double scale_x = 100; m_feng.height(height); m_feng.width(height * scale_x * subpixel_scale); m_feng.hinting(m_hinting); const char* p = text; x *= subpixel_scale; double start_x = x; while(*p) { if(*p == '\n') { x = start_x; y -= height * 1.25; ++p; continue; } const agg::glyph_cache* glyph = m_fman.glyph(*p); if(glyph) { if(m_kerning) { m_fman.add_kerning(&x, &y); } m_fman.init_embedded_adaptors(glyph, 0, 0); if(glyph->data_type == agg::glyph_data_outline) { double ty = m_hinting ? floor(y + 0.5) : y; ras.reset(); m_mtx.reset(); m_mtx *= agg::trans_affine_scaling(1.0 / scale_x, 1); m_mtx *= agg::trans_affine_translation(start_x + x/scale_x, ty); ras.add_path(m_trans); ren_solid.color(color); agg::render_scanlines(ras, sl, ren_solid); } // increment pen position x += glyph->advance_x; y += glyph->advance_y; } ++p; } return x / (subpixel_scale * scale_x); } void clear(agg::rendering_buffer& ren_buf, const agg::rgba8 color) { agg::pixfmt_bgra32 pf(ren_buf); base_ren_type ren_base(pf); ren_base.clear(color); } double render_text(agg::rendering_buffer& ren_buf, const double text_size, const agg::rgba8 text_color, double x, double y, const char *text) { if (!m_font_loaded) { return y; } agg::scanline_u8 sl; agg::rasterizer_scanline_aa<> ras; ras.clip_box(0, 0, ren_buf.width()*3, ren_buf.height()); //-------------------------------------- if(m_grayscale) { agg::pixfmt_bgra32 pf(ren_buf); base_ren_type ren_base(pf); renderer_solid ren_solid(ren_base); y = draw_text(ras, sl, ren_solid, text_color, text, x, y, text_size, 1); } else { // Conventional LUT values: (1./3., 2./9., 1./9.) // The values below are fine tuned as in the Elementary Plot library. // The primary weight should be 0.448 but is left adjustable. agg::lcd_distribution_lut lut(0.448, 0.184, 0.092); typedef agg::pixfmt_bgra32_lcd_gamma > pixfmt_lcd_type; pixfmt_lcd_type pf_lcd(ren_buf, lut, m_gamma_lut); agg::renderer_base ren_base_lcd(pf_lcd); agg::renderer_scanline_aa_solid > ren_solid_lcd(ren_base_lcd); y = draw_text(ras, sl, ren_solid_lcd, text_color, text, x, y, text_size, 3); } return y; } };