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5be532c51b
Originally the size function returned the scaled `size` property for scalable fonts and the non-scaled `pixelsize` property for non-scalable fonts. This caused lots of issues when that property was 0 (empty bars, characters not drawn without warning, see references at the bottom). This behavior was mostly observed on debian where `size` is set to 0 if `pixelsize` is set. We now try to use both properties for both types, but prefering `size` for scalable fonts and `pixelsize` for non-scalable ones. This behavior doesn't break existing correct behavior but now never returns 0. It will always try to fall back to the other property or to some fallback value if both properties are 0. I originally thought this could also make font patterns more expressive by being able to specify the size of scalable fonts directly in pixels like so: Unifont:size=0:pixelsize=20 or to scale non-scalable fonts by forcing polybar to fall back to the `size` property (which is always scaled): Wuncon Siji:pixelsize=0:size=20 But how these two patterns are matched by `fc-match` depends both on the font and on the distro/fontconfig setup. Ref #706 Ref #1450 Ref #1257
341 lines
10 KiB
C++
341 lines
10 KiB
C++
#pragma once
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#include <cairo/cairo-ft.h>
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#include "cairo/types.hpp"
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#include "cairo/utils.hpp"
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#include "common.hpp"
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#include "errors.hpp"
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#include "settings.hpp"
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#include "utils/math.hpp"
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#include "utils/scope.hpp"
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#include "utils/string.hpp"
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POLYBAR_NS
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namespace cairo {
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/**
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* \brief Global pointer to the Freetype library handler
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*/
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static FT_Library g_ftlib;
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/**
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* \brief Abstract font face
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*/
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class font {
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public:
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explicit font(cairo_t* cairo, double offset) : m_cairo(cairo), m_offset(offset) {}
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virtual ~font(){};
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virtual string name() const = 0;
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virtual string file() const = 0;
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virtual double offset() const = 0;
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virtual double size(double dpi) const = 0;
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virtual cairo_font_extents_t extents() = 0;
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virtual void use() {
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cairo_set_font_face(m_cairo, cairo_font_face_reference(m_font_face));
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}
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virtual size_t match(utils::unicode_character& character) = 0;
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virtual size_t match(utils::unicode_charlist& charlist) = 0;
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virtual size_t render(const string& text, double x = 0.0, double y = 0.0) = 0;
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virtual void textwidth(const string& text, cairo_text_extents_t* extents) = 0;
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protected:
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cairo_t* m_cairo;
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cairo_font_face_t* m_font_face{nullptr};
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cairo_font_extents_t m_extents{};
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double m_offset{0.0};
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};
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/**
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* \brief Font based on fontconfig/freetype
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*/
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class font_fc : public font {
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public:
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explicit font_fc(cairo_t* cairo, FcPattern* pattern, double offset, double dpi_x, double dpi_y) : font(cairo, offset), m_pattern(pattern) {
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cairo_matrix_t fm;
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cairo_matrix_t ctm;
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cairo_matrix_init_scale(&fm, size(dpi_x), size(dpi_y));
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cairo_get_matrix(m_cairo, &ctm);
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auto fontface = cairo_ft_font_face_create_for_pattern(m_pattern);
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auto opts = cairo_font_options_create();
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m_scaled = cairo_scaled_font_create(fontface, &fm, &ctm, opts);
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cairo_font_options_destroy(opts);
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cairo_font_face_destroy(fontface);
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auto status = cairo_scaled_font_status(m_scaled);
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if (status != CAIRO_STATUS_SUCCESS) {
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throw application_error(sstream() << "cairo_scaled_font_create(): " << cairo_status_to_string(status));
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}
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auto lock = make_unique<utils::ft_face_lock>(m_scaled);
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auto face = static_cast<FT_Face>(*lock);
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if (FT_Select_Charmap(face, FT_ENCODING_UNICODE) == FT_Err_Ok) {
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return;
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} else if (FT_Select_Charmap(face, FT_ENCODING_BIG5) == FT_Err_Ok) {
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return;
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} else if (FT_Select_Charmap(face, FT_ENCODING_SJIS) == FT_Err_Ok) {
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return;
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}
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lock.reset();
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}
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~font_fc() override {
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if (m_scaled != nullptr) {
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cairo_scaled_font_destroy(m_scaled);
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}
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if (m_pattern != nullptr) {
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FcPatternDestroy(m_pattern);
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}
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}
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cairo_font_extents_t extents() override {
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cairo_scaled_font_extents(m_scaled, &m_extents);
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return m_extents;
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}
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string name() const override {
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return property("family");
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}
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string file() const override {
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return property("file");
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}
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double offset() const override {
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return m_offset;
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}
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/**
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* Calculates the font size in pixels for the given dpi
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*
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* We use the two font properties size and pixelsize. size is in points and
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* needs to be scaled with the given dpi. pixelsize is not scaled.
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*
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* If both size properties are 0, we fall back to a default value of 10
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* points for scalable fonts or 10 pixel for non-scalable ones. This should
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* only happen if both properties are purposefully set to 0
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*
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* For scalable fonts we try to use the size property scaled according to
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* the dpi.
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* For non-scalable fonts we try to use the pixelsize property as-is
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*/
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double size(double dpi) const override {
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bool scalable;
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double fc_pixelsize = 0, fc_size = 0;
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property(FC_SCALABLE, &scalable);
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// Size in points
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property(FC_SIZE, &fc_size);
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// Size in pixels
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property(FC_PIXEL_SIZE, &fc_pixelsize);
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// Fall back to a default value if the size is 0
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double pixelsize = fc_pixelsize == 0? 10 : fc_pixelsize;
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double size = fc_size == 0? 10 : fc_size;
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// Font size in pixels if we use the pixelsize property
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int px_pixelsize = pixelsize + 0.5;
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/*
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* Font size in pixels if we use the size property. Since the size
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* specifies the font size in points, this is converted to pixels
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* according to the dpi given.
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* One point is 1/72 inches, thus this gives us the number of 'dots'
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* (or pixels) for this font
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*/
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int px_size = size / 72.0 * dpi + 0.5;
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if (fc_size == 0 && fc_pixelsize == 0) {
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return scalable? px_size : px_pixelsize;
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}
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if (scalable) {
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/*
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* Use the point size if it's not 0. The pixelsize is only used if the
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* size property is 0 and pixelsize is not
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*/
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if (fc_size != 0) {
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return px_size;
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}
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else {
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return px_pixelsize;
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}
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} else {
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/*
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* Non-scalable fonts do it the other way around, here the size
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* property is only used if pixelsize is 0 and size is not
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*/
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if (fc_pixelsize != 0) {
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return px_pixelsize;
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}
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else {
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return px_size;
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}
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}
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}
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void use() override {
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cairo_set_scaled_font(m_cairo, m_scaled);
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}
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size_t match(utils::unicode_character& character) override {
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auto lock = make_unique<utils::ft_face_lock>(m_scaled);
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auto face = static_cast<FT_Face>(*lock);
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return FT_Get_Char_Index(face, character.codepoint) ? 1 : 0;
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}
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size_t match(utils::unicode_charlist& charlist) override {
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auto lock = make_unique<utils::ft_face_lock>(m_scaled);
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auto face = static_cast<FT_Face>(*lock);
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size_t available_chars = 0;
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for (auto&& c : charlist) {
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if (FT_Get_Char_Index(face, c.codepoint)) {
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available_chars++;
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} else {
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break;
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}
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}
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return available_chars;
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}
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size_t render(const string& text, double x = 0.0, double y = 0.0) override {
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cairo_glyph_t* glyphs{nullptr};
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cairo_text_cluster_t* clusters{nullptr};
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cairo_text_cluster_flags_t cf{};
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int nglyphs = 0, nclusters = 0;
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string utf8 = string(text);
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auto status = cairo_scaled_font_text_to_glyphs(
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m_scaled, x, y, utf8.c_str(), utf8.size(), &glyphs, &nglyphs, &clusters, &nclusters, &cf);
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if (status != CAIRO_STATUS_SUCCESS) {
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throw application_error(sstream() << "cairo_scaled_font_text_to_glyphs()" << cairo_status_to_string(status));
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}
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size_t bytes = 0;
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for (int g = 0; g < nglyphs; g++) {
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if (glyphs[g].index) {
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bytes += clusters[g].num_bytes;
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} else {
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break;
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}
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}
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if (bytes && bytes < text.size()) {
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cairo_glyph_free(glyphs);
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cairo_text_cluster_free(clusters);
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utf8 = text.substr(0, bytes);
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auto status = cairo_scaled_font_text_to_glyphs(
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m_scaled, x, y, utf8.c_str(), utf8.size(), &glyphs, &nglyphs, &clusters, &nclusters, &cf);
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if (status != CAIRO_STATUS_SUCCESS) {
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throw application_error(sstream() << "cairo_scaled_font_text_to_glyphs()" << cairo_status_to_string(status));
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}
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}
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if (bytes) {
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// auto lock = make_unique<utils::device_lock>(cairo_surface_get_device(cairo_get_target(m_cairo)));
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// if (lock.get()) {
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// cairo_glyph_path(m_cairo, glyphs, nglyphs);
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// }
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cairo_text_extents_t extents{};
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cairo_scaled_font_glyph_extents(m_scaled, glyphs, nglyphs, &extents);
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cairo_show_text_glyphs(m_cairo, utf8.c_str(), utf8.size(), glyphs, nglyphs, clusters, nclusters, cf);
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cairo_fill(m_cairo);
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cairo_move_to(m_cairo, x + extents.x_advance, 0.0);
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}
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cairo_glyph_free(glyphs);
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cairo_text_cluster_free(clusters);
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return bytes;
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}
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void textwidth(const string& text, cairo_text_extents_t* extents) override {
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cairo_scaled_font_text_extents(m_scaled, text.c_str(), extents);
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}
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protected:
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string property(string&& property) const {
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FcChar8* file;
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if (FcPatternGetString(m_pattern, property.c_str(), 0, &file) == FcResultMatch) {
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return string(reinterpret_cast<char*>(file));
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} else {
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return "";
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}
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}
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void property(string&& property, bool* dst) const {
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FcBool b;
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FcPatternGetBool(m_pattern, property.c_str(), 0, &b);
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*dst = b;
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}
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void property(string&& property, double* dst) const {
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FcPatternGetDouble(m_pattern, property.c_str(), 0, dst);
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}
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void property(string&& property, int* dst) const {
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FcPatternGetInteger(m_pattern, property.c_str(), 0, dst);
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}
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private:
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cairo_scaled_font_t* m_scaled{nullptr};
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FcPattern* m_pattern{nullptr};
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};
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/**
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* Match and create font from given fontconfig pattern
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*/
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inline decltype(auto) make_font(cairo_t* cairo, string&& fontname, double offset, double dpi_x, double dpi_y) {
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static bool fc_init{false};
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if (!fc_init && !(fc_init = FcInit())) {
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throw application_error("Could not load fontconfig");
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} else if (FT_Init_FreeType(&g_ftlib) != FT_Err_Ok) {
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throw application_error("Could not load FreeType");
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}
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static auto fc_cleanup = scope_util::make_exit_handler([] {
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FT_Done_FreeType(g_ftlib);
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FcFini();
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});
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auto pattern = FcNameParse((FcChar8*)fontname.c_str());
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if(!pattern) {
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logger::make().err("Could not parse font \"%s\"", fontname);
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throw application_error("Could not parse font \"" + fontname + "\"");
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}
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FcDefaultSubstitute(pattern);
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FcConfigSubstitute(nullptr, pattern, FcMatchPattern);
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FcResult result;
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FcPattern* match = FcFontMatch(nullptr, pattern, &result);
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FcPatternDestroy(pattern);
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if (match == nullptr) {
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throw application_error("Could not load font \"" + fontname + "\"");
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}
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#ifdef DEBUG_FONTCONFIG
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FcPatternPrint(match);
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#endif
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return make_shared<font_fc>(cairo, match, offset, dpi_x, dpi_y);
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}
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}
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POLYBAR_NS_END
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