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// SPDX-License-Identifier: GPL-2.0-or-later
/*
* SVGFonts rendering implementation
*
* Authors:
* Felipe C. da S. Sanches <juca@members.fsf.org>
* Jon A. Cruz <jon@joncruz.org>
*
* Copyright (C) 2008 Felipe C. da S. Sanches
*
* Released under GNU GPL v2+, read the file 'COPYING' for more information.
* Read the file 'COPYING' for more information.
*/
#include <2geom/pathvector.h>
#include <2geom/transforms.h>
#include <cairo.h>
#include <vector>
#include "svg/svg.h"
#include "display/cairo-utils.h"
#include "display/nr-svgfonts.h"
#include "display/nr-svgfonts.h"
#include "display/curve.h"
#include "xml/repr.h"
#include "object/sp-path.h"
#include "object/sp-object-group.h"
#include "object/sp-use.h"
#include "object/sp-use-reference.h"
#include "object/sp-font-face.h"
#include "object/sp-glyph.h"
#include "object/sp-missing-glyph.h"
#include "object/sp-font.h"
#include "object/sp-glyph-kerning.h"
// ************************//
// UserFont Implementation //
// ************************//
// I wrote this binding code because Cairomm does not yet support userfonts. I have moved this code to cairomm and sent them a patch.
// Once Cairomm incorporate the UserFonts binding, this code should be removed from inkscape and Cairomm API should be used.
static cairo_user_data_key_t key;
static cairo_status_t font_init_cb (cairo_scaled_font_t *scaled_font,
cairo_t * /*cairo*/, cairo_font_extents_t *metrics){
cairo_font_face_t* face = cairo_scaled_font_get_font_face(scaled_font);
SvgFont* instance = static_cast<SvgFont*>(cairo_font_face_get_user_data(face, &key));
return instance->scaled_font_init(scaled_font, metrics);
}
static cairo_status_t font_text_to_glyphs_cb ( cairo_scaled_font_t *scaled_font,
const char *utf8,
int utf8_len,
cairo_glyph_t **glyphs,
int *num_glyphs,
cairo_text_cluster_t **clusters,
int *num_clusters,
cairo_text_cluster_flags_t *flags){
cairo_font_face_t* face = cairo_scaled_font_get_font_face(scaled_font);
SvgFont* instance = static_cast<SvgFont*>(cairo_font_face_get_user_data(face, &key));
return instance->scaled_font_text_to_glyphs(scaled_font, utf8, utf8_len, glyphs, num_glyphs, clusters, num_clusters, flags);
}
static cairo_status_t font_render_glyph_cb (cairo_scaled_font_t *scaled_font,
unsigned long glyph,
cairo_t *cr,
cairo_text_extents_t *metrics){
cairo_font_face_t* face = cairo_scaled_font_get_font_face(scaled_font);
SvgFont* instance = static_cast<SvgFont*>(cairo_font_face_get_user_data(face, &key));
return instance->scaled_font_render_glyph(scaled_font, glyph, cr, metrics);
}
UserFont::UserFont(SvgFont* instance){
this->face = cairo_user_font_face_create ();
cairo_user_font_face_set_init_func (this->face, font_init_cb);
cairo_user_font_face_set_render_glyph_func (this->face, font_render_glyph_cb);
cairo_user_font_face_set_text_to_glyphs_func(this->face, font_text_to_glyphs_cb);
cairo_font_face_set_user_data (this->face, &key, (void*)instance, (cairo_destroy_func_t) nullptr);
}
//******************************//
// SvgFont class Implementation //
//******************************//
SvgFont::SvgFont(SPFont* spfont){
this->font = spfont;
this->missingglyph = nullptr;
this->userfont = nullptr;
}
cairo_status_t
SvgFont::scaled_font_init (cairo_scaled_font_t */*scaled_font*/,
cairo_font_extents_t */*metrics*/)
{
//TODO
// metrics->ascent = .75;
// metrics->descent = .25;
return CAIRO_STATUS_SUCCESS;
}
unsigned int size_of_substring(const char* substring, gchar* str){
const gchar* original_substring = substring;
while((g_utf8_get_char(substring)==g_utf8_get_char(str)) && g_utf8_get_char(substring) != 0 && g_utf8_get_char(str) != 0){
substring = g_utf8_next_char(substring);
str = g_utf8_next_char(str);
}
if (g_utf8_get_char(substring)==0)
return substring - original_substring;
else
return 0;
}
namespace {
//TODO: in these functions, verify what happens when using unicode strings.
bool MatchVKerningRule(SPVkern const *vkern,
SPGlyph *glyph,
char const *previous_unicode,
gchar const *previous_glyph_name)
{
bool value = (vkern->u1->contains(previous_unicode[0])
|| vkern->g1->contains(previous_glyph_name))
&& (vkern->u2->contains(glyph->unicode[0])
|| vkern->g2->contains(glyph->glyph_name.c_str()));
return value;
}
bool MatchHKerningRule(SPHkern const *hkern,
SPGlyph *glyph,
char const *previous_unicode,
gchar const *previous_glyph_name)
{
bool value = (hkern->u1->contains(previous_unicode[0])
|| hkern->g1->contains(previous_glyph_name))
&& (hkern->u2->contains(glyph->unicode[0])
|| hkern->g2->contains(glyph->glyph_name.c_str()));
return value;
}
} // namespace
cairo_status_t
SvgFont::scaled_font_text_to_glyphs (cairo_scaled_font_t */*scaled_font*/,
const char *utf8,
int /*utf8_len*/,
cairo_glyph_t **glyphs,
int *num_glyphs,
cairo_text_cluster_t **/*clusters*/,
int */*num_clusters*/,
cairo_text_cluster_flags_t */*flags*/)
{
//This function receives a text string to be rendered. It then defines what is the sequence of glyphs that
// is used to properly render this string. It also defines the respective coordinates of each glyph. Thus, it
// has to read the attributes of the SVGFont hkern and vkern nodes in order to adjust the glyph kerning.
//It also determines the usage of the missing-glyph in portions of the string that does not match any of the declared glyphs.
unsigned long i;
int count = 0;
gchar* _utf8 = (gchar*) utf8;
unsigned int len;
bool missing;
//First we find out what's the number of glyphs needed.
while(g_utf8_get_char(_utf8)){
missing = true;
for (i=0; i < (unsigned long) this->glyphs.size(); i++){
if ( (len = size_of_substring(this->glyphs[i]->unicode.c_str(), _utf8)) ){
//TODO: store this cluster
_utf8+=len;
count++;
missing=false;
break;
}
}
if (missing){
//TODO: store this cluster
_utf8++;
count++;
}
}
//We use that info to allocate memory for the glyphs
*glyphs = (cairo_glyph_t*) malloc(count*sizeof(cairo_glyph_t));
char* previous_unicode = nullptr; //This is used for kerning
gchar* previous_glyph_name = nullptr; //This is used for kerning
count=0;
double x=0, y=0;//These vars store the position of the glyph within the rendered string
bool is_horizontal_text = true; //TODO
_utf8 = (char*) utf8;
double font_height = units_per_em();
while(g_utf8_get_char(_utf8)){
len = 0;
for (i=0; i < (unsigned long) this->glyphs.size(); i++){
//check whether is there a glyph declared on the SVG document
// that matches with the text string in its current position
if ( (len = size_of_substring(this->glyphs[i]->unicode.c_str(), _utf8)) ){
for(auto& node: font->children) {
if (!previous_unicode) {
break;
}
//apply glyph kerning if appropriate
auto hkern = cast<SPHkern>(&node);
if (hkern && is_horizontal_text &&
MatchHKerningRule(hkern, this->glyphs[i], previous_unicode, previous_glyph_name) ){
x -= (hkern->k / font_height);
}
auto vkern = cast<SPVkern>(&node);
if (vkern && !is_horizontal_text &&
MatchVKerningRule(vkern, this->glyphs[i], previous_unicode, previous_glyph_name) ){
y -= (vkern->k / font_height);
}
}
previous_unicode = const_cast<char*>(this->glyphs[i]->unicode.c_str());//used for kerning checking
previous_glyph_name = const_cast<char*>(this->glyphs[i]->glyph_name.c_str());//used for kerning checking
(*glyphs)[count].index = i;
(*glyphs)[count].x = x;
(*glyphs)[count++].y = y;
//advance glyph coordinates:
if (is_horizontal_text) {
if (this->glyphs[i]->horiz_adv_x != 0) {
x+=(this->glyphs[i]->horiz_adv_x/font_height);
} else {
x+=(this->font->horiz_adv_x/font_height);
}
} else {
y+=(this->font->vert_adv_y/font_height);
}
_utf8+=len; //advance 'len' bytes in our string pointer
//continue;
goto raptorz;
}
}
raptorz:
if (len==0){
(*glyphs)[count].index = i;
(*glyphs)[count].x = x;
(*glyphs)[count++].y = y;
//advance glyph coordinates:
if (is_horizontal_text) x+=(this->font->horiz_adv_x/font_height);//TODO: use here the height of the font
else y+=(this->font->vert_adv_y/font_height);//TODO: use here the "height" of the font
_utf8 = g_utf8_next_char(_utf8); //advance 1 char in our string pointer
}
}
*num_glyphs = count;
return CAIRO_STATUS_SUCCESS;
}
void
SvgFont::render_glyph_path(cairo_t* cr, Geom::PathVector* pathv){
if (!pathv->empty()){
//This glyph has a path description on its d attribute, so we render it:
cairo_new_path(cr);
//adjust scale of the glyph
Geom::Scale s(1.0/units_per_em());
Geom::Rect area( Geom::Point(0,0), Geom::Point(1,1) ); //I need help here! (reaction: note that the 'area' parameter is an *optional* rect, so you can pass an empty Geom::OptRect() )
feed_pathvector_to_cairo (cr, *pathv, s, area, false, 0);
cairo_fill(cr);
}
}
void
SvgFont::glyph_modified(SPObject* /* blah */, unsigned int /* bleh */){
this->refresh();
//TODO: update rendering on svgfonts preview widget (in the svg fonts dialog)
}
Geom::PathVector
SvgFont::flip_coordinate_system(SPFont* spfont, Geom::PathVector pathv){
double units_per_em = 1024;
for(auto& obj: spfont->children) {
if (is<SPFontFace>(&obj)) {
//XML Tree being directly used here while it shouldn't be.
units_per_em = obj.getRepr()->getAttributeDouble("units_per_em", units_per_em);
}
}
double baseline_offset = units_per_em - spfont->horiz_origin_y;
//This matrix flips y-axis and places the origin at baseline
Geom::Affine m(Geom::Coord(1),Geom::Coord(0),Geom::Coord(0),Geom::Coord(-1),Geom::Coord(0),Geom::Coord(baseline_offset));
return pathv*m;
}
cairo_status_t
SvgFont::scaled_font_render_glyph (cairo_scaled_font_t */*scaled_font*/,
unsigned long glyph,
cairo_t *cr,
cairo_text_extents_t */*metrics*/)
{
// This method does the actual rendering of glyphs.
// We have glyphs.size() glyphs and possibly one missing-glyph declared on this SVG document
// The id of the missing-glyph is always equal to glyphs.size()
// All the other glyphs have ids ranging from 0 to glyphs.size()-1
if (glyph > this->glyphs.size()) return CAIRO_STATUS_SUCCESS;//TODO: this is an error!
SPObject *node = nullptr;
if (glyph == glyphs.size()){
if (!missingglyph) {
return CAIRO_STATUS_SUCCESS;
}
node = missingglyph;
} else {
node = glyphs[glyph];
}
if (!is<SPGlyph>(node) && !is<SPMissingGlyph>(node)) {
return CAIRO_STATUS_SUCCESS; // FIXME: is this the right code to return?
}
auto spfont = cast<SPFont>(node->parent);
if (!spfont) {
return CAIRO_STATUS_SUCCESS; // FIXME: is this the right code to return?
}
//glyphs can be described by arbitrary SVG declared in the childnodes of a glyph node
// or using the d attribute of a glyph node.
// pathv stores the path description from the d attribute:
Geom::PathVector pathv;
auto glyphNode = cast<SPGlyph>(node);
if (glyphNode && glyphNode->d) {
pathv = sp_svg_read_pathv(glyphNode->d);
pathv = flip_coordinate_system(spfont, pathv);
render_glyph_path(cr, &pathv);
} else {
auto missing = cast<SPMissingGlyph>(node);
if (missing && missing->d) {
pathv = sp_svg_read_pathv(missing->d);
pathv = flip_coordinate_system(spfont, pathv);
render_glyph_path(cr, &pathv);
}
}
if (node->hasChildren()){
//render the SVG described on this glyph's child nodes.
for(auto& child: node->children) {
{
auto path = cast<SPPath>(&child);
if (path) {
pathv = path->curve()->get_pathvector();
pathv = flip_coordinate_system(spfont, pathv);
render_glyph_path(cr, &pathv);
}
}
if (is<SPObjectGroup>(&child)) {
g_warning("TODO: svgfonts: render OBJECTGROUP");
}
auto use = cast<SPUse>(&child);
if (use) {
SPItem* item = use->ref->getObject();
auto path = cast<SPPath>(item);
if (path) {
auto shape = cast<SPShape>(item);
g_assert(shape != nullptr);
pathv = shape->curve()->get_pathvector();
pathv = flip_coordinate_system(spfont, pathv);
this->render_glyph_path(cr, &pathv);
}
glyph_modified_connection = item->connectModified(sigc::mem_fun(*this, &SvgFont::glyph_modified));
}
}
}
return CAIRO_STATUS_SUCCESS;
}
cairo_font_face_t*
SvgFont::get_font_face(){
if (!this->userfont) {
for(auto& node: font->children) {
auto glyph = cast<SPGlyph>(&node);
if (glyph) {
glyphs.push_back(glyph);
}
auto missing = cast<SPMissingGlyph>(&node);
if (missing) {
missingglyph = missing;
}
}
this->userfont = new UserFont(this);
}
return this->userfont->face;
}
void SvgFont::refresh(){
this->glyphs.clear();
delete this->userfont;
this->userfont = nullptr;
}
double SvgFont::units_per_em() {
double units_per_em = 1024;
for (auto& obj: font->children) {
if (is<SPFontFace>(&obj)) {
//XML Tree being directly used here while it shouldn't be.
units_per_em = obj.getRepr()->getAttributeDouble("units-per-em", units_per_em);
}
}
if (units_per_em <= 0.0) {
units_per_em = 1024;
}
return units_per_em;
}
/*
Local Variables:
mode:c++
c-file-style:"stroustrup"
c-file-offsets:((innamespace . 0)(inline-open . 0)(case-label . +))
indent-tabs-mode:nil
fill-column:99
End:
*/
// vim: filetype=cpp:expandtab:shiftwidth=4:tabstop=8:softtabstop=4:fileencoding=utf-8:textwidth=99 :
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