style-internal.cpp revision fda0906e75b007b81f1c7a839c940fab31bb2fba
/**
* @file
* SVG stylesheets implementation - Classes used by SPStyle class.
*/
/* Authors:
* C++ conversion:
* Tavmjong Bah <tavmjong@free.fr>
* Legacy C implementation:
* Lauris Kaplinski <lauris@kaplinski.com>
* Peter Moulder <pmoulder@mail.csse.monash.edu.au>
* bulia byak <buliabyak@users.sf.net>
* Abhishek Sharma
* Kris De Gussem <Kris.DeGussem@gmail.com>
*
* Copyright (C) 2001-2002 Lauris Kaplinski
* Copyright (C) 2001 Ximian, Inc.
* Copyright (C) 2005 Monash University
* Copyright (C) 2012 Kris De Gussem
* Copyright (C) 2014 Tavmjong Bah
*
* Released under GNU GPL, read the file 'COPYING' for more information
*/
#ifdef HAVE_CONFIG_H
# include "config.h"
#endif
#include "style-internal.h"
#include "style-enums.h"
#include "style.h"
#include "svg/svg.h"
#include "svg/svg-color.h"
#include "svg/svg-icc-color.h"
#include "streq.h"
#include "strneq.h"
#include "extract-uri.h"
#include "preferences.h"
#include "svg/css-ostringstream.h"
#include "util/units.h"
#include <sigc++/functors/ptr_fun.h>
#include <sigc++/adaptors/bind.h>
// TODO REMOVE OR MAKE MEMBER FUNCTIONS
void sp_style_fill_paint_server_ref_changed( SPObject *old_ref, SPObject *ref, SPStyle *style);
void sp_style_stroke_paint_server_ref_changed(SPObject *old_ref, SPObject *ref, SPStyle *style);
void sp_style_filter_ref_changed( SPObject *old_ref, SPObject *ref, SPStyle *style);
void sp_style_set_ipaint_to_uri(SPStyle *style, SPIPaint *paint, const Inkscape::URI *uri, SPDocument *document);
void sp_style_set_ipaint_to_uri_string (SPStyle *style, SPIPaint *paint, const gchar *uri);
using Inkscape::CSSOStringStream;
// SPIBase --------------------------------------------------------------
// SPIFloat -------------------------------------------------------------
void
SPIFloat::read( gchar const *str ) {
if( !str ) return;
if ( !strcmp(str, "inherit") ) {
set = true;
inherit = true;
} else {
gfloat value_tmp;
if (sp_svg_number_read_f(str, &value_tmp)) {
set = true;
inherit = false;
value = value_tmp;
}
}
}
const Glib::ustring
SPIFloat::write( guint const flags, SPIBase const *const base) const {
SPIFloat const *const my_base = dynamic_cast<const SPIFloat*>(base);
if ( (flags & SP_STYLE_FLAG_ALWAYS) ||
((flags & SP_STYLE_FLAG_IFSET) && this->set) ||
((flags & SP_STYLE_FLAG_IFDIFF) && this->set
&& (!my_base->set || this != my_base )))
{
if (this->inherit) {
return (name + ":inherit;");
} else {
Inkscape::CSSOStringStream os;
os << name << ":" << this->value << ";";
return os.str();
}
}
return Glib::ustring("");
}
void
SPIFloat::cascade( const SPIBase* const parent ) {
if( const SPIFloat* p = dynamic_cast<const SPIFloat*>(parent) ) {
if( (inherits && !set) || inherit ) value = p->value;
} else {
std::cerr << "SPIFloat::cascade(): Incorrect parent type" << std::endl;
}
}
void
SPIFloat::merge( const SPIBase* const parent ) {
if( const SPIFloat* p = dynamic_cast<const SPIFloat*>(parent) ) {
if( inherits ) {
if( (!set || inherit) && p->set && !(p->inherit) ) {
set = p->set;
inherit = p->inherit;
value = p->value;
}
}
} else {
std::cerr << "SPIFloat::merge(): Incorrect parent type" << std::endl;
}
}
bool
SPIFloat::operator==(const SPIBase& rhs) {
if( const SPIFloat* r = dynamic_cast<const SPIFloat*>(&rhs) ) {
return (value == r->value && SPIBase::operator==(rhs));
} else {
return false;
}
}
// SPIScale24 -----------------------------------------------------------
void
SPIScale24::read( gchar const *str ) {
if( !str ) return;
if ( !strcmp(str, "inherit") ) {
set = true;
inherit = true;
} else {
gfloat value_in;
if (sp_svg_number_read_f(str, &value_in)) {
set = true;
inherit = false;
value_in = CLAMP(value_in, 0.0, 1.0);
value = SP_SCALE24_FROM_FLOAT( value_in );
}
}
}
const Glib::ustring
SPIScale24::write( guint const flags, SPIBase const *const base) const {
SPIScale24 const *const my_base = dynamic_cast<const SPIScale24*>(base);
if ( (flags & SP_STYLE_FLAG_ALWAYS) ||
((flags & SP_STYLE_FLAG_IFSET) && this->set) ||
((flags & SP_STYLE_FLAG_IFDIFF) && this->set
&& (!my_base->set || this != my_base )))
{
if (this->inherit) {
return (name + ":inherit;");
} else {
Inkscape::CSSOStringStream os;
os << name << ":" << SP_SCALE24_TO_FLOAT(this->value) << ";";
return os.str();
}
}
return Glib::ustring("");
}
void
SPIScale24::cascade( const SPIBase* const parent ) {
if( const SPIScale24* p = dynamic_cast<const SPIScale24*>(parent) ) {
if( (inherits && !set) || inherit ) value = p->value;
} else {
std::cerr << "SPIScale24::cascade(): Incorrect parent type" << std::endl;
}
}
void
SPIScale24::merge( const SPIBase* const parent ) {
if( const SPIScale24* p = dynamic_cast<const SPIScale24*>(parent) ) {
if( inherits ) {
if( (!set || inherit) && p->set && !(p->inherit) ) {
set = p->set;
inherit = p->inherit;
value = p->value;
}
} else {
// Needed only for 'opacity' which does not inherit. See comment at bottom of file.
if( name.compare( "opacity" ) != 0 )
std::cerr << "SPIScale24::merge: unhandled property: " << name << std::endl;
if( !set || (!inherit && value == SP_SCALE24_MAX) ) {
value = p->value;
} else {
if( inherit ) value = p->value; // Insures child is up-to-date
value = SP_SCALE24_MUL( value, p->value );
inherit = (inherit && p->inherit && (p->value == 0 || p->value == SP_SCALE24_MAX) );
set = (inherit || value < SP_SCALE24_MAX);
}
}
} else {
std::cerr << "SPIScale24::merge(): Incorrect parent type" << std::endl;
}
}
bool
SPIScale24::operator==(const SPIBase& rhs) {
if( const SPIScale24* r = dynamic_cast<const SPIScale24*>(&rhs) ) {
return (value == r->value && SPIBase::operator==(rhs));
} else {
return false;
}
}
// SPILength ------------------------------------------------------------
void
SPILength::read( gchar const *str ) {
if( !str ) return;
if (!strcmp(str, "inherit")) {
set = true;
inherit = true;
unit = SP_CSS_UNIT_NONE;
value = computed = 0.0;
} else {
gdouble value_tmp;
gchar *e;
/** \todo fixme: Move this to standard place (Lauris) */
value_tmp = g_ascii_strtod(str, &e);
if ( !IS_FINITE(value_tmp) ) { // fix for bug lp:935157
return;
}
if ((gchar const *) e != str) {
value = value_tmp;
if (!*e) {
/* Userspace */
unit = SP_CSS_UNIT_NONE;
computed = value;
} else if (!strcmp(e, "px")) {
/* Userspace */
unit = SP_CSS_UNIT_PX;
computed = value;
} else if (!strcmp(e, "pt")) {
/* Userspace / DEVICESCALE */
unit = SP_CSS_UNIT_PT;
computed = Inkscape::Util::Quantity::convert(value, "pt", "px");
} else if (!strcmp(e, "pc")) {
unit = SP_CSS_UNIT_PC;
computed = Inkscape::Util::Quantity::convert(value, "pc", "px");
} else if (!strcmp(e, "mm")) {
unit = SP_CSS_UNIT_MM;
computed = Inkscape::Util::Quantity::convert(value, "mm", "px");
} else if (!strcmp(e, "cm")) {
unit = SP_CSS_UNIT_CM;
computed = Inkscape::Util::Quantity::convert(value, "cm", "px");
} else if (!strcmp(e, "in")) {
unit = SP_CSS_UNIT_IN;
computed = Inkscape::Util::Quantity::convert(value, "in", "px");
} else if (!strcmp(e, "em")) {
/* EM square */
unit = SP_CSS_UNIT_EM;
if( style && &style->font_size ) {
computed = value * style->font_size.computed;
} else {
computed = value * style->font_size.font_size_default;
}
} else if (!strcmp(e, "ex")) {
/* ex square */
unit = SP_CSS_UNIT_EX;
if( style && &style->font_size ) {
computed = value * style->font_size.computed * 0.5; // FIXME
} else {
computed = value * style->font_size.font_size_default * 0.5;
}
} else if (!strcmp(e, "%")) {
/* Percentage */
unit = SP_CSS_UNIT_PERCENT;
value = value * 0.01;
} else {
/* Invalid */
return;
}
set = true;
inherit = false;
}
}
}
const Glib::ustring
SPILength::write( guint const flags, SPIBase const *const base) const {
SPILength const *const my_base = dynamic_cast<const SPILength*>(base);
if ( (flags & SP_STYLE_FLAG_ALWAYS) ||
((flags & SP_STYLE_FLAG_IFSET) && this->set) ||
((flags & SP_STYLE_FLAG_IFDIFF) && this->set
&& (!my_base->set || this != my_base )))
{
if (this->inherit) {
return (name + ":inherit;");
} else {
Inkscape::CSSOStringStream os;
switch (this->unit) {
case SP_CSS_UNIT_NONE:
os << name << ":" << this->computed << ";";
break;
case SP_CSS_UNIT_PX:
os << name << ":" << this->computed << "px;";
break;
case SP_CSS_UNIT_PT:
os << name << ":" << Inkscape::Util::Quantity::convert(this->computed, "px", "pt") << "pt;";
break;
case SP_CSS_UNIT_PC:
os << name << ":" << Inkscape::Util::Quantity::convert(this->computed, "px", "pc") << "pc;";
break;
case SP_CSS_UNIT_MM:
os << name << ":" << Inkscape::Util::Quantity::convert(this->computed, "px", "mm") << "mm;";
break;
case SP_CSS_UNIT_CM:
os << name << ":" << Inkscape::Util::Quantity::convert(this->computed, "px", "cm") << "cm;";
break;
case SP_CSS_UNIT_IN:
os << name << ":" << Inkscape::Util::Quantity::convert(this->computed, "px", "in") << "in;";
break;
case SP_CSS_UNIT_EM:
os << name << ":" << this->value << "em;";
break;
case SP_CSS_UNIT_EX:
os << name << ":" << this->value << "ex;";
break;
case SP_CSS_UNIT_PERCENT:
os << name << ":" << (this->value * 100.0) << "%;";
break;
default:
/* Invalid */
break;
}
return os.str();
}
}
return Glib::ustring("");
}
void
SPILength::cascade( const SPIBase* const parent ) {
if( const SPILength* p = dynamic_cast<const SPILength*>(parent) ) {
if( (inherits && !set) || inherit ) {
value = p->value;
computed = p->computed;
} else {
// Recalculate based on new font-size, font-family inherited from parent
double const em = style->font_size.computed;
if (unit == SP_CSS_UNIT_EM) {
computed = value * em;
} else if (unit == SP_CSS_UNIT_EX) {
// FIXME: Get x height from libnrtype or pango.
computed = value * em * 0.5;
}
}
} else {
std::cerr << "SPILength::cascade(): Incorrect parent type" << std::endl;
}
}
void
SPILength::merge( const SPIBase* const parent ) {
if( const SPILength* p = dynamic_cast<const SPILength*>(parent) ) {
if( inherits ) {
if( (!set || inherit) && p->set && !(p->inherit) ) {
set = p->set;
inherit = p->inherit;
unit = p->unit;
value = p->value;
computed = p->computed;
// Fix up so values are correct
switch (p->unit) {
case SP_CSS_UNIT_EM:
case SP_CSS_UNIT_EX:
g_assert( &style->font_size != NULL && &p->style->font_size != NULL );
value *= p->style->font_size.computed / style->font_size.computed;
/** \todo
* FIXME: Have separate ex ratio parameter.
* Get x height from libnrtype or pango.
*/
if (!IS_FINITE(value)) {
value = computed;
unit = SP_CSS_UNIT_NONE;
}
break;
default:
break;
}
}
}
} else {
std::cerr << "SPIFloat::merge(): Incorrect parent type" << std::endl;
}
}
bool
SPILength::operator==(const SPIBase& rhs) {
if( const SPILength* r = dynamic_cast<const SPILength*>(&rhs) ) {
if( unit != r->unit ) return false;
// If length depends on external parameter, lengths cannot be equal.
if (unit == SP_CSS_UNIT_EM) return false;
if (unit == SP_CSS_UNIT_EX) return false;
if (unit == SP_CSS_UNIT_PERCENT) return false;
if (r->unit == SP_CSS_UNIT_EM) return false;
if (r->unit == SP_CSS_UNIT_EX) return false;
if (r->unit == SP_CSS_UNIT_PERCENT) return false;
return (computed == r->computed );
} else {
return false;
}
}
// SPILengthOrNormal ----------------------------------------------------
void
SPILengthOrNormal::read( gchar const *str ) {
if( !str ) return;
if ( !strcmp(str, "normal") ) {
set = true;
inherit = false;
unit = SP_CSS_UNIT_NONE;
value = computed = 0.0;
normal = true;
} else {
SPILength::read( str );
normal = false;
}
};
const Glib::ustring
SPILengthOrNormal::write( guint const flags, SPIBase const *const base) const {
SPILength const *const my_base = dynamic_cast<const SPILength*>(base);
if ( (flags & SP_STYLE_FLAG_ALWAYS) ||
((flags & SP_STYLE_FLAG_IFSET) && this->set) ||
((flags & SP_STYLE_FLAG_IFDIFF) && this->set
&& (!my_base->set || this != my_base )))
{
if (this->normal) {
return (name + ":normal;");
} else {
return SPILength::write(flags, base);
}
}
return Glib::ustring("");
}
void
SPILengthOrNormal::merge( const SPIBase* const parent ) {
if( const SPILengthOrNormal* p = dynamic_cast<const SPILengthOrNormal*>(parent) ) {
if( inherits ) {
if( (!set || inherit) && p->set && !(p->inherit) ) {
normal = p->normal;
SPILength::merge( parent );
}
}
}
}
bool
SPILengthOrNormal::operator==(const SPIBase& rhs) {
if( const SPILengthOrNormal* r = dynamic_cast<const SPILengthOrNormal*>(&rhs) ) {
if( normal && r->normal ) { return true; }
if( normal != r->normal ) { return false; }
return SPILength::operator==(rhs);
} else {
return false;
}
}
// SPIEnum --------------------------------------------------------------
void
SPIEnum::read( gchar const *str ) {
if( !str ) return;
if( !strcmp(str, "inherit") ) {
set = true;
inherit = true;
} else {
for (unsigned i = 0; enums[i].key; i++) {
if (!strcmp(str, enums[i].key)) {
set = true;
inherit = false;
value = enums[i].value;
/* Save copying for values not needing it */
computed = value;
break;
}
}
// The following is defined in CSS 2.1
if( name.compare("font-weight" ) == 0 ) {
if( value == SP_CSS_FONT_WEIGHT_NORMAL ) {
computed = SP_CSS_FONT_WEIGHT_400;
} else if (value == SP_CSS_FONT_WEIGHT_BOLD ) {
computed = SP_CSS_FONT_WEIGHT_700;
}
}
}
}
const Glib::ustring
SPIEnum::write( guint const flags, SPIBase const *const base) const {
SPIEnum const *const my_base = dynamic_cast<const SPIEnum*>(base);
if ( (flags & SP_STYLE_FLAG_ALWAYS) ||
((flags & SP_STYLE_FLAG_IFSET) && this->set) ||
((flags & SP_STYLE_FLAG_IFDIFF) && this->set
&& (!my_base->set || this != my_base )))
{
if (this->inherit) {
return (name + ":inherit;");
}
for (unsigned i = 0; enums[i].key; ++i) {
if (enums[i].value == static_cast< gint > (this->value) ) {
return (name + ":" + enums[i].key + ";");
}
}
}
return Glib::ustring("");
}
void
SPIEnum::cascade( const SPIBase* const parent ) {
if( const SPIEnum* p = dynamic_cast<const SPIEnum*>(parent) ) {
if( inherits && (!set || inherit) ) {
computed = p->computed;
} else {
if( name.compare("font-stretch" ) == 0 ) {
unsigned const parent_val = p->computed;
if( value == SP_CSS_FONT_STRETCH_NARROWER ) {
computed = (parent_val == SP_CSS_FONT_STRETCH_ULTRA_CONDENSED ?
parent_val : parent_val - 1);
} else if (value == SP_CSS_FONT_STRETCH_WIDER ) {
computed = (parent_val == SP_CSS_FONT_STRETCH_ULTRA_EXPANDED ?
parent_val : parent_val + 1);
}
}
// strictly, 'bolder' and 'lighter' should go to the next weight
// expressible in the current font family, but that's difficult to
// find out, so jumping by 3 seems an appropriate approximation
if( name.compare("font-weight" ) == 0 ) {
unsigned const parent_val = p->computed;
if( value == SP_CSS_FONT_WEIGHT_LIGHTER ) {
computed = (parent_val <= SP_CSS_FONT_WEIGHT_100 + 3 ?
(unsigned)SP_CSS_FONT_WEIGHT_100 : parent_val - 3);
} else if (value == SP_CSS_FONT_WEIGHT_BOLDER ) {
computed = (parent_val >= SP_CSS_FONT_WEIGHT_900 - 3 ?
(unsigned)SP_CSS_FONT_WEIGHT_900 : parent_val + 3);
}
}
}
} else {
std::cerr << "SPIEnum::cascade(): Incorrect parent type" << std::endl;
}
}
// FIXME Handle font_stretch and font_weight (relative values) New derived class?
void
SPIEnum::merge( const SPIBase* const parent ) {
if( const SPIEnum* p = dynamic_cast<const SPIEnum*>(parent) ) {
if( inherits ) {
if( p->set && !p->inherit ) {
if( !set || inherit ) {
set = p->set;
inherit = p->inherit;
value = p->value;
computed = p->computed; // Different from value for font-weight and font-stretch
} else {
// The following is to special case 'font-stretch' and 'font-weight'
unsigned max_computed_val = 100;
unsigned smaller_val = 100;
if( name.compare("font-stretch" ) == 0 ) {
max_computed_val = SP_CSS_FONT_STRETCH_ULTRA_EXPANDED;
smaller_val = SP_CSS_FONT_STRETCH_NARROWER;
} else if( name.compare("font-weight" ) == 0 ) {
max_computed_val = SP_CSS_FONT_WEIGHT_900;
smaller_val = SP_CSS_FONT_WEIGHT_LIGHTER;
}
unsigned const min_computed_val = 0;
unsigned const larger_val = smaller_val + 1;
if( value < smaller_val ) {
// Child has absolute value, leave as is.
// Works for all enum properties
} else if( (value == smaller_val && p->value == larger_val ) ||
(value == larger_val && p->value == smaller_val) ) {
// Values cancel, unset
set = false;
} else if( value == p->value ) {
// Leave as is, what does applying "wider" twice do?
} else {
// Child is smaller or larger, adjust parent value accordingly
unsigned const parent_val = p->computed;
value = (value == smaller_val ?
( parent_val == min_computed_val ? parent_val : parent_val - 1 ) :
( parent_val == max_computed_val ? parent_val : parent_val + 1 ) );
g_assert(value <= max_computed_val);
inherit = false;
g_assert(set);
}
}
}
}
}
}
bool
SPIEnum::operator==(const SPIBase& rhs) {
if( const SPIEnum* r = dynamic_cast<const SPIEnum*>(&rhs) ) {
return (computed == r->computed && SPIBase::operator==(rhs));
} else {
return false;
}
}
// SPIString ------------------------------------------------------------
void
SPIString::read( gchar const *str ) {
if( !str ) return;
g_free(value);
if (!strcmp(str, "inherit")) {
set = true;
inherit = true;
value = NULL;
} else {
set = true;
inherit = false;
value = g_strdup(str);
}
}
const Glib::ustring
SPIString::write( guint const flags, SPIBase const *const base) const {
SPIString const *const my_base = dynamic_cast<const SPIString*>(base);
if ( (flags & SP_STYLE_FLAG_ALWAYS) ||
((flags & SP_STYLE_FLAG_IFSET) && this->set) ||
((flags & SP_STYLE_FLAG_IFDIFF) && this->set
&& (!my_base->set || this != my_base )))
{
if (this->inherit) {
return (name + ":inherit;");
} else {
if( this->value ) {
if( name.compare( "font-family" ) == 0 ) {
// This is for compatibilty with the C version of code.
// This is incorrect as it puts single quotes around the
// entire string rather around the individule font names.
// This should be handled by the routines that extract
// out the font family names and reassembles them into a
// font fallback list. FIXME
return (name + ":" + css2_escape_quote(this->value) + ";");
} else {
return (name + ":" + this->value + ";");
}
}
}
}
return Glib::ustring("");
}
void
SPIString::clear() {
SPIBase::clear();
g_free( value );
value = NULL;
if( value_default ) value = strdup( value_default );
}
void
SPIString::cascade( const SPIBase* const parent ) {
if( const SPIString* p = dynamic_cast<const SPIString*>(parent) ) {
if( inherits && (!set || inherit) ) {
g_free(value);
value = g_strdup(p->value);
}
} else {
std::cerr << "SPIString::cascade(): Incorrect parent type" << std::endl;
}
}
void
SPIString::merge( const SPIBase* const parent ) {
if( const SPIString* p = dynamic_cast<const SPIString*>(parent) ) {
if( inherits ) {
if( (!set || inherit) && p->set && !(p->inherit) ) {
set = p->set;
inherit = p->inherit;
g_free(value);
value = g_strdup(p->value);
}
}
}
}
bool
SPIString::operator==(const SPIBase& rhs) {
if( const SPIString* r = dynamic_cast<const SPIString*>(&rhs) ) {
if( value == NULL && r->value == NULL ) return (SPIBase::operator==(rhs));
if( value == NULL || r->value == NULL ) return false;
return (strcmp(value, r->value) == 0 && SPIBase::operator==(rhs));
} else {
return false;
}
}
// SPIColor -------------------------------------------------------------
// Used for 'color', 'text-decoration-color', 'flood-color', 'lighting-color', and 'stop-color'.
// (The last three have yet to be implemented.)
// CSS3: 'currentcolor' is allowed value and is equal to inherit for the 'color' property.
// FIXME: We should preserve named colors, hsl colors, etc.
void SPIColor::read( gchar const *str ) {
if( !str ) return;
set = false;
inherit = false;
currentcolor = false;
if ( !strcmp(str, "inherit") ) {
set = true;
inherit = true;
} else if ( !strcmp(str, "currentColor") ) {
set = true;
currentcolor = true;
if( name.compare( "color") == 0 ) {
inherit = true; // CSS3
} else {
setColor( style->color.value.color );
}
} else {
guint32 const rgb0 = sp_svg_read_color(str, 0xff);
if (rgb0 != 0xff) {
setColor(rgb0);
set = true;
}
}
}
const Glib::ustring
SPIColor::write( guint const flags, SPIBase const *const base) const {
SPIColor const *const my_base = dynamic_cast<const SPIColor*>(base);
if ( (flags & SP_STYLE_FLAG_ALWAYS) ||
((flags & SP_STYLE_FLAG_IFSET) && this->set) ||
((flags & SP_STYLE_FLAG_IFDIFF) && this->set
&& (!my_base->set || this != my_base )))
{
CSSOStringStream css;
if (this->currentcolor) {
// currentcolor goes first to handle special case for 'color' property
css << "currentColor";
} else if (this->inherit) {
css << "inherit";
} else {
char color_buf[8];
sp_svg_write_color(color_buf, sizeof(color_buf), this->value.color.toRGBA32( 0 ));
css << color_buf;
if (this->value.color.icc) {
if ( !css.str().empty() ) {
css << " ";
}
css << "icc-color(" << this->value.color.icc->colorProfile;
for (std::vector<double>::const_iterator i(this->value.color.icc->colors.begin()),
iEnd(this->value.color.icc->colors.end());
i != iEnd; ++i) {
css << ", " << *i;
}
css << ')';
}
}
if ( !css.str().empty() ) {
return (name + ":" + css.str() + ";");
}
}
return Glib::ustring("");
}
void
SPIColor::cascade( const SPIBase* const parent ) {
if( const SPIColor* p = dynamic_cast<const SPIColor*>(parent) ) {
if( (inherits && !set) || inherit) { // FIXME verify for 'color'
if( !(inherit && currentcolor) ) currentcolor = p->currentcolor;
setColor( p->value.color );
} else {
// Add CSS4 Color: Lighter, Darker
}
} else {
std::cerr << "SPIColor::cascade(): Incorrect parent type" << std::endl;
}
}
void
SPIColor::merge( const SPIBase* const parent ) {
if( const SPIColor* p = dynamic_cast<const SPIColor*>(parent) ) {
if( inherits ) {
if( (!set || inherit) && p->set && !(p->inherit) ) {
set = p->set;
inherit = p->inherit;
currentcolor = p->currentcolor;
value.color = p->value.color;
}
}
}
}
bool
SPIColor::operator==(const SPIBase& rhs) {
if( const SPIColor* r = dynamic_cast<const SPIColor*>(&rhs) ) {
if ( (this->currentcolor != r->currentcolor ) ||
(this->value.color != r->value.color ) ||
(this->value.color.icc != r->value.color.icc ) ||
(this->value.color.icc && r->value.color.icc &&
this->value.color.icc->colorProfile != r->value.color.icc->colorProfile &&
this->value.color.icc->colors != r->value.color.icc->colors ) ) {
return false;
}
return SPIBase::operator==(rhs);
} else {
return false;
}
}
// SPIPaint -------------------------------------------------------------
// Paint is used for 'fill' and 'stroke'. SPIPaint perhaps should be derived from SPIColor.
// 'style' is set in SPStyle::SPStyle or in the legacy SPIPaint::read( gchar, style, document )
// It is needed for computed value when value is 'currentColor'. It is also needed to
// find the object for creating an href (this is done through document but should be done
// directly so document not needed.. FIXME).
SPIPaint::~SPIPaint() {
if( value.href ) {
clear();
delete value.href;
value.href = NULL;
}
}
/**
* Set SPIPaint object from string.
*
* \pre paint == \&style.fill || paint == \&style.stroke.
*/
void
SPIPaint::read( gchar const *str ) {
// std::cout << "SPIPaint::read: Entrance: " << " |" << (str?str:"null") << "|" << std::endl;
// if( style ) {
// std::cout << " document: " << (void*)style->document << std::endl;
// std::cout << " object: " << (style->object?"present":"null") << std::endl;
// if( style->object )
// std::cout << " : " << (style->object->getId()?style->object->getId():"no ID")
// << " document: " << (style->object->document?"yes":"no") << std::endl;
// }
if(!str ) return;
reset( false ); // Do not init
// Is this necessary?
while (g_ascii_isspace(*str)) {
++str;
}
if (streq(str, "inherit")) {
set = true;
inherit = true;
} else {
// Read any URL first. The other values can be stand-alone or backup to the URL.
if ( strneq(str, "url", 3) ) {
// FIXME: THE FOLLOWING CODE SHOULD BE PUT IN A PRIVATE FUNCTION FOR REUSE
gchar *uri = extract_uri( str, &str );
if(uri == NULL || uri[0] == '\0') {
std::cerr << "SPIPaint::read: url is empty or invalid" << std::endl;
} else if (!style ) {
std::cerr << "SPIPaint::read: url with empty SPStyle pointer" << std::endl;
} else {
set = true;
SPDocument *document = (style->object) ? style->object->document : NULL;
// Create href if not done already
if (!value.href && document) {
// std::cout << " Creating value.href" << std::endl;
value.href = new SPPaintServerReference(document);
value.href->changedSignal().connect(sigc::bind(sigc::ptr_fun((this == &style->fill)? sp_style_fill_paint_server_ref_changed : sp_style_stroke_paint_server_ref_changed), style));
}
// std::cout << "uri: " << (uri?uri:"null") << std::endl;
// TODO check what this does in light of move away from union
sp_style_set_ipaint_to_uri_string ( style, this, uri);
}
g_free( uri );
}
while ( g_ascii_isspace(*str) ) {
++str;
}
if (streq(str, "currentColor")) {
set = true;
currentcolor = true;
setColor( style->color.value.color );
} else if (streq(str, "none")) {
set = true;
noneSet = true;
} else {
guint32 const rgb0 = sp_svg_read_color(str, &str, 0xff);
if (rgb0 != 0xff) {
setColor( rgb0 );
set = true;
while (g_ascii_isspace(*str)) {
++str;
}
if (strneq(str, "icc-color(", 10)) {
SVGICCColor* tmp = new SVGICCColor();
if ( ! sp_svg_read_icc_color( str, &str, tmp ) ) {
delete tmp;
tmp = 0;
}
value.color.icc = tmp;
}
}
}
}
}
// Stand-alone read (Legacy read()), used multiple places, e.g. sp-stop.cpp
// This function should not be necessary. FIXME
void
SPIPaint::read( gchar const *str, SPStyle &style_in, SPDocument *document_in ) {
style = &style_in;
style->document = document_in;
read( str );
}
const Glib::ustring
SPIPaint::write( guint const flags, SPIBase const *const base) const {
SPIPaint const *const my_base = dynamic_cast<const SPIPaint*>(base);
if ( (flags & SP_STYLE_FLAG_ALWAYS) ||
((flags & SP_STYLE_FLAG_IFSET) && this->set) ||
((flags & SP_STYLE_FLAG_IFDIFF) && this->set
&& (!my_base->set || this != my_base )))
{
CSSOStringStream css;
if (this->inherit) {
css << "inherit";
} else {
// url must go first as other values can serve as fallbacks
if ( this->value.href && this->value.href->getURI() ) {
const gchar* uri = this->value.href->getURI()->toString();
css << "url(" << uri << ")";
g_free((void *)uri);
}
if ( this->noneSet ) {
if ( !css.str().empty() ) {
css << " ";
}
css << "none";
}
if ( this->currentcolor ) {
if ( !css.str().empty() ) {
css << " ";
}
css << "currentColor";
}
if ( this->colorSet && !this->currentcolor ) {
if ( !css.str().empty() ) {
css << " ";
}
char color_buf[8];
sp_svg_write_color(color_buf, sizeof(color_buf), this->value.color.toRGBA32( 0 ));
css << color_buf;
}
if (this->value.color.icc && !this->currentcolor) {
if ( !css.str().empty() ) {
css << " ";
}
css << "icc-color(" << this->value.color.icc->colorProfile;
for (std::vector<double>::const_iterator i(this->value.color.icc->colors.begin()),
iEnd(this->value.color.icc->colors.end());
i != iEnd; ++i) {
css << ", " << *i;
}
css << ')';
}
}
if ( !css.str().empty() ) {
return (name + ":" + css.str() + ";");
}
}
return Glib::ustring("");
}
void
SPIPaint::clear() {
// std::cout << "SPIPaint::clear(): " << name << std::endl;
reset( true ); // Reset and Init
}
void
SPIPaint::reset( bool init ) {
// std::cout << "SPIPaint::reset(): " << name << " " << init << std::endl;
SPIBase::clear();
currentcolor = false;
colorSet = false;
noneSet = false;
value.color.set( false );
if (value.href){
if (value.href->getObject()) {
value.href->detach();
}
}
if( init ) {
if( name.compare( "fill" ) == 0 ) {
// 'black' is default for 'fill'
setColor(0.0, 0.0, 0.0);
}
if( name.compare( "text-decoration-color" ) == 0 ) {
// currentcolor = true;
}
}
}
void
SPIPaint::cascade( const SPIBase* const parent ) {
// std::cout << "SPIPaint::cascade" << std::endl;
if( const SPIPaint* p = dynamic_cast<const SPIPaint*>(parent) ) {
if(!set || inherit) { // Always inherits
reset( false ); // Do not init
if( p->isPaintserver() ) {
if( p->value.href) {
// Why can we use p->document ?
sp_style_set_ipaint_to_uri( style, this, p->value.href->getURI(), p->value.href->getOwnerDocument());
} else {
std::cerr << "SPIPaint::cascade: Expected paint server not found." << std::endl;
}
} else if( p->isColor() ) {
setColor( p->value.color );
} else if( p->isNoneSet() ) {
noneSet = true;
} else if( p->currentcolor ) {
currentcolor = true;
setColor( style->color.value.color );
} else if( isNone() ) {
//
} else {
g_assert_not_reached();
}
} else {
if( currentcolor ) {
// Update in case color value changed.
setColor( style->color.value.color );
}
}
} else {
std::cerr << "SPIPaint::cascade(): Incorrect parent type" << std::endl;
}
}
void
SPIPaint::merge( const SPIBase* const parent ) {
if( const SPIPaint* p = dynamic_cast<const SPIPaint*>(parent) ) {
// if( inherits ) { Paint always inherits
if( (!set || inherit) && p->set && !(p->inherit) ) {
this->cascade( parent ); // Must call before setting 'set'
set = p->set;
inherit = p->inherit;
}
}
}
bool
SPIPaint::operator==(const SPIBase& rhs) {
if( const SPIPaint* r = dynamic_cast<const SPIPaint*>(&rhs) ) {
if ( (this->isColor() != r->isColor() ) ||
(this->isPaintserver() != r->isPaintserver() ) ||
(this->currentcolor != r->currentcolor ) ) {
return false;
}
if ( this->isPaintserver() ) {
if( this->value.href == NULL || r->value.href == NULL ||
this->value.href->getObject() != r->value.href->getObject() ) {
return false;
}
}
if ( this->isColor() ) {
if ( (this->value.color != r->value.color ) ||
(this->value.color.icc != r->value.color.icc ) ||
(this->value.color.icc && r->value.color.icc &&
this->value.color.icc->colorProfile != r->value.color.icc->colorProfile &&
this->value.color.icc->colors != r->value.color.icc->colors ) ) {
return false;
}
}
return SPIBase::operator==(rhs);
} else {
return false;
}
}
// SPIPaintOrder --------------------------------------------------------
void
SPIPaintOrder::read( gchar const *str ) {
if( !str ) return;
g_free(value);
set = false;
inherit = false;
if (!strcmp(str, "inherit")) {
set = true;
inherit = true;
} else {
set = true;
value = g_strdup(str);
if (!strcmp(value, "normal")) {
layer[0] = SP_CSS_PAINT_ORDER_NORMAL;
layer_set[0] = true;
} else {
// This certainly can be done more efficiently
gchar** c = g_strsplit(value, " ", PAINT_ORDER_LAYERS + 1);
bool used[3] = {false, false, false};
unsigned int i = 0;
for( ; i < PAINT_ORDER_LAYERS; ++i ) {
if( c[i] ) {
layer_set[i] = false;
if( !strcmp( c[i], "fill")) {
layer[i] = SP_CSS_PAINT_ORDER_FILL;
layer_set[i] = true;
used[0] = true;
} else if( !strcmp( c[i], "stroke")) {
layer[i] = SP_CSS_PAINT_ORDER_STROKE;
layer_set[i] = true;
used[1] = true;
} else if( !strcmp( c[i], "markers")) {
layer[i] = SP_CSS_PAINT_ORDER_MARKER;
layer_set[i] = true;
used[2] = true;
} else {
std::cerr << "sp_style_read_ipaintorder: illegal value: " << c[i] << std::endl;
break;
}
} else {
break;
}
}
g_strfreev(c);
// Fill out rest of the layers using the default order
if( !used[0] && i < PAINT_ORDER_LAYERS ) {
layer[i] = SP_CSS_PAINT_ORDER_FILL;
layer_set[i] = false;
++i;
}
if( !used[1] && i < PAINT_ORDER_LAYERS ) {
layer[i] = SP_CSS_PAINT_ORDER_STROKE;
layer_set[i] = false;
++i;
}
if( !used[2] && i < PAINT_ORDER_LAYERS ) {
layer[i] = SP_CSS_PAINT_ORDER_MARKER;
layer_set[i] = false;
}
}
}
}
const Glib::ustring
SPIPaintOrder::write( guint const flags, SPIBase const *const base) const {
SPIPaintOrder const *const my_base = dynamic_cast<const SPIPaintOrder*>(base);
if ( (flags & SP_STYLE_FLAG_ALWAYS) ||
((flags & SP_STYLE_FLAG_IFSET) && this->set) ||
((flags & SP_STYLE_FLAG_IFDIFF) && this->set
&& (!my_base->set || this != my_base )))
{
CSSOStringStream css;
if (this->inherit) {
css << "inherit";
} else {
for( unsigned i = 0; i < PAINT_ORDER_LAYERS; ++i ) {
if( this->layer_set[i] == true ) {
switch (this->layer[i]) {
case SP_CSS_PAINT_ORDER_NORMAL:
css << "normal";
assert( i == 0 );
break;
case SP_CSS_PAINT_ORDER_FILL:
if (i!=0) css << " ";
css << "fill";
break;
case SP_CSS_PAINT_ORDER_STROKE:
if (i!=0) css << " ";
css << "stroke";
break;
case SP_CSS_PAINT_ORDER_MARKER:
if (i!=0) css << " ";
css << "markers";
break;
}
} else {
break;
}
}
}
return (name + ":" + css.str() + ";");
}
return Glib::ustring("");
}
void
SPIPaintOrder::cascade( const SPIBase* const parent ) {
if( const SPIPaintOrder* p = dynamic_cast<const SPIPaintOrder*>(parent) ) {
if(!set || inherit) { // Always inherits
for( unsigned i = 0; i < PAINT_ORDER_LAYERS; ++i ) {
layer[i] = p->layer[i];
layer_set[i] = p->layer_set[i];
}
g_free( value );
value = g_strdup(p->value);
}
} else {
std::cerr << "SPIPaintOrder::cascade(): Incorrect parent type" << std::endl;
}
}
void
SPIPaintOrder::merge( const SPIBase* const parent ) {
if( const SPIPaintOrder* p = dynamic_cast<const SPIPaintOrder*>(parent) ) {
// if( inherits ) { PaintOrder always inherits
if( (!set || inherit) && p->set && !(p->inherit) ) {
this->cascade( parent ); // Must call be setting 'set'
set = p->set;
inherit = p->inherit;
}
}
}
bool
SPIPaintOrder::operator==(const SPIBase& rhs) {
if( const SPIPaintOrder* r = dynamic_cast<const SPIPaintOrder*>(&rhs) ) {
if( layer[0] == SP_CSS_PAINT_ORDER_NORMAL &&
r->layer[0] == SP_CSS_PAINT_ORDER_NORMAL ) return SPIBase::operator==(rhs);
for (unsigned i = 0; i < PAINT_ORDER_LAYERS; ++i ) {
if( layer[i] != r->layer[i] ) return false;
}
return SPIBase::operator==(rhs);
} else {
return false;
}
}
// SPIFilter ------------------------------------------------------------
SPIFilter::~SPIFilter() {
if( href ) {
clear();
delete href;
href = NULL;
}
}
void
SPIFilter::read( gchar const *str ) {
if( !str ) return;
clear();
if ( streq(str, "inherit") ) {
set = true;
inherit = true;
} else if(streq(str, "none")) {
set = true;
} else if (strneq(str, "url", 3)) {
gchar *uri = extract_uri(str);
if(uri == NULL || uri[0] == '\0') {
std::cerr << "SPIFilter::read: url is empty or invalid" << std::endl;
return;
} else if (!style) {
std::cerr << "SPIFilter::read: url with empty SPStyle pointer" << std::endl;
return;
}
set = true;
// Create href if not already done.
if (!href && style->object) {
href = new SPFilterReference(style->object);
href->changedSignal().connect(sigc::bind(sigc::ptr_fun(sp_style_filter_ref_changed), style));
}
try {
href->attach(Inkscape::URI(uri));
} catch (Inkscape::BadURIException &e) {
std::cerr << "SPIFilter::read() " << e.what() << std::endl;
href->detach();
}
g_free (uri);
} else {
std::cerr << "SPIFilter::read(): malformed value: " << str << std::endl;
}
}
const Glib::ustring
SPIFilter::write( guint const flags, SPIBase const *const base) const {
// TODO: fix base
//SPILength const *const my_base = dynamic_cast<const SPILength*>(base);
if ( (flags & SP_STYLE_FLAG_ALWAYS) ||
((flags & SP_STYLE_FLAG_IFSET) && this->set))
{
if (this->inherit) {
return (name + ":inherit;");
} else if(this->href && this->href->getURI()) {
gchar *uri = this->href->getURI()->toString();
Glib::ustring retval = name + ":url(" + uri + ");";
g_free(uri);
return retval;
}
}
return Glib::ustring("");
}
void
SPIFilter::clear() {
SPIBase::clear();
if( href ) {
if( href->getObject() ) {
href->detach();
}
}
}
void
SPIFilter::cascade( const SPIBase* const parent ) {
if( const SPIFilter* p = dynamic_cast<const SPIFilter*>(parent) ) {
if( inherit ) { // Only inherits if 'inherit' true/
// This is rather unlikely so ignore for now. FIXME
(void)p;
std::cerr << "SPIFilter::cascade: value 'inherit' not supported." << std::endl;
} else {
// Do nothing
}
} else {
std::cerr << "SPIFilter::cascade(): Incorrect parent type" << std::endl;
}
}
void
SPIFilter::merge( const SPIBase* const parent ) {
if( const SPIFilter* p = dynamic_cast<const SPIFilter*>(parent) ) {
// The "correct" thing to due is to combine the filter primitives.
// The next best thing is to keep any filter on this object. If there
// is no filter on this object, then use any filter on the parent.
if( (!set || inherit) && p->href && p->href->getObject() ) { // is the getObject() needed?
set = p->set;
inherit = p->inherit;
if( href ) {
// If we alread have an href, use it (unlikely but heck...)
if( href->getObject() ) {
href->detach();
}
} else {
// If we don't have an href, create it
if( &style->document ) { // FIXME
href = new SPFilterReference(style->document);
//href->changedSignal().connect(sigc::bind(sigc::ptr_fun(sp_style_filter_ref_changed), style));
}
}
if( href ) {
// If we now have an href, try to attach parent filter
try {
href->attach(*p->href->getURI());
} catch (Inkscape::BadURIException &e) {
std::cerr << "SPIFilter::merge: " << e.what() << std::endl;
href->detach();
}
}
}
}
}
// FIXME
bool
SPIFilter::operator==(const SPIBase& rhs) {
if( const SPIFilter* r = dynamic_cast<const SPIFilter*>(&rhs) ) {
(void)r;
return true;
} else {
return false;
}
}
// SPIDashArray ---------------------------------------------------------
void
SPIDashArray::read( gchar const *str ) {
if( !str ) return;
set = true;
if( strcmp( str, "inherit") == 0 ) {
inherit = true;
return;
}
values.clear();
if( strcmp(str, "none") == 0) {
return;
}
gchar *e = NULL;
bool LineSolid = true;
while (e != str) {
/* TODO: Should allow <length> rather than just a unitless (px) number. */
double number = g_ascii_strtod(str, (char **) &e);
values.push_back( number );
if (number > 0.00000001)
LineSolid = false;
if (e != str) {
str = e;
}
while (str && *str && !isalnum(*str)) str += 1;
}
if (LineSolid) {
values.clear();
}
return;
}
const Glib::ustring
SPIDashArray::write( guint const flags, SPIBase const *const base) const {
SPIDashArray const *const my_base = dynamic_cast<const SPIDashArray*>(base);
if ( (flags & SP_STYLE_FLAG_ALWAYS) ||
((flags & SP_STYLE_FLAG_IFSET) && this->set) ||
((flags & SP_STYLE_FLAG_IFDIFF) && this->set
&& (!my_base->set || this != my_base )))
{
if (this->inherit) {
return (name + ":inherit;");
} else if (this->values.empty() ) {
return (name + ":none;");
} else {
Inkscape::CSSOStringStream os;
os << name << ":";
for (unsigned i = 0; i < this->values.size(); ++i) {
if (i) {
os << ", ";
}
os << this->values[i];
}
os << ";";
return os.str();
}
}
return Glib::ustring("");
}
void
SPIDashArray::cascade( const SPIBase* const parent ) {
if( const SPIDashArray* p = dynamic_cast<const SPIDashArray*>(parent) ) {
if( !set || inherit ) values = p->values; // Always inherits
} else {
std::cerr << "SPIDashArray::cascade(): Incorrect parent type" << std::endl;
}
}
void
SPIDashArray::merge( const SPIBase* const parent ) {
if( const SPIDashArray* p = dynamic_cast<const SPIDashArray*>(parent) ) {
if( inherits ) {
if( (!set || inherit) && p->set && !(p->inherit) ) {
set = p->set;
inherit = p->inherit;
values = p->values;
}
}
} else {
std::cerr << "SPIDashArray::merge(): Incorrect parent type" << std::endl;
}
}
bool
SPIDashArray::operator==(const SPIBase& rhs) {
if( const SPIDashArray* r = dynamic_cast<const SPIDashArray*>(&rhs) ) {
return values == r->values && SPIBase::operator==(rhs);
} else {
return false;
}
}
// SPIFontSize ----------------------------------------------------------
/** Indexed by SP_CSS_FONT_SIZE_blah. These seem a bit small */
float const SPIFontSize::font_size_table[] = {6.0, 8.0, 10.0, 12.0, 14.0, 18.0, 24.0};
float const SPIFontSize::font_size_default = 12.0;
void
SPIFontSize::read( gchar const *str ) {
if( !str ) return;
if (!strcmp(str, "inherit")) {
set = true;
inherit = true;
} else if ((*str == 'x') || (*str == 's') || (*str == 'm') || (*str == 'l')) {
// xx-small, x-small, etc.
for (unsigned i = 0; enum_font_size[i].key; i++) {
if (!strcmp(str, enum_font_size[i].key)) {
set = true;
inherit = false;
type = SP_FONT_SIZE_LITERAL;
literal = enum_font_size[i].value;
return;
}
}
/* Invalid */
return;
} else {
SPILength length("temp");
length.set = false;
length.read( str );
if( length.set ) {
set = true;
inherit = length.inherit;
unit = length.unit;
value = length.value;
computed = length.computed;
if( unit == SP_CSS_UNIT_PERCENT ) {
type = SP_FONT_SIZE_PERCENTAGE;
} else {
type = SP_FONT_SIZE_LENGTH;
}
}
return;
}
}
const Glib::ustring
SPIFontSize::write( guint const flags, SPIBase const *const base) const {
SPIFontSize const *const my_base = dynamic_cast<const SPIFontSize*>(base);
if ( (flags & SP_STYLE_FLAG_ALWAYS) ||
((flags & SP_STYLE_FLAG_IFSET) && this->set) ||
((flags & SP_STYLE_FLAG_IFDIFF) && this->set
&& (!my_base->set || this != my_base )))
{
CSSOStringStream css;
if (this->inherit) {
css << "inherit";
} else if (this->type == SP_FONT_SIZE_LITERAL) {
for (unsigned i = 0; enum_font_size[i].key; i++) {
if (enum_font_size[i].value == static_cast< gint > (this->literal) ) {
css << enum_font_size[i].key;
}
}
} else if (this->type == SP_FONT_SIZE_LENGTH) {
Inkscape::Preferences *prefs = Inkscape::Preferences::get();
int unit = prefs->getInt("/options/font/unitType", SP_CSS_UNIT_PT);
if (prefs->getBool("/options/font/textOutputPx", true)) {
unit = SP_CSS_UNIT_PX;
}
css << sp_style_css_size_px_to_units(this->computed, unit) << sp_style_get_css_unit_string(unit);
} else if (this->type == SP_FONT_SIZE_PERCENTAGE) {
css << (this->value * 100.0) << "%";
}
return (name + ":" + css.str() + ";");
}
return Glib::ustring("");
}
void
SPIFontSize::cascade( const SPIBase* const parent ) {
if( const SPIFontSize* p = dynamic_cast<const SPIFontSize*>(parent) ) {
if( !set || inherit ) { // Always inherits
computed = p->computed;value = p->value;
// Calculate computed based on parent as needed
} else if( type == SP_FONT_SIZE_LITERAL ) {
if( literal < SP_CSS_FONT_SIZE_SMALLER ) {
computed = font_size_table[ literal ];
} else if( literal == SP_CSS_FONT_SIZE_SMALLER ) {
computed = p->computed / 1.2;
} else if( literal == SP_CSS_FONT_SIZE_LARGER ) {
computed = p->computed * 1.2;
} else {
std::cerr << "SPIFontSize::cascade: Illegal literal value" << std::endl;
}
} else if( type == SP_FONT_SIZE_PERCENTAGE ) {
// Percentage for font size is relative to parent computed (rather than viewport)
computed = p->computed * value;
} else if( type == SP_FONT_SIZE_LENGTH ) {
switch ( unit ) {
case SP_CSS_UNIT_EM:
/* Relative to parent font size */
computed = p->computed * value;
break;
case SP_CSS_UNIT_EX:
/* Relative to parent font size */
computed = p->computed * value * 0.5; /* Hack FIXME */
break;
default:
/* No change */
break;
}
}
} else {
std::cerr << "SPIFontSize::cascade(): Incorrect parent type" << std::endl;
}
}
double
SPIFontSize::relative_fraction() const {
switch (type) {
case SP_FONT_SIZE_LITERAL: {
switch (literal) {
case SP_CSS_FONT_SIZE_SMALLER:
return 5.0 / 6.0;
case SP_CSS_FONT_SIZE_LARGER:
return 6.0 / 5.0;
default:
g_assert_not_reached();
}
}
case SP_FONT_SIZE_PERCENTAGE:
return value;
case SP_FONT_SIZE_LENGTH: {
switch (unit ) {
case SP_CSS_UNIT_EM:
return value;
case SP_CSS_UNIT_EX:
return value * 0.5;
default:
g_assert_not_reached();
}
}
}
g_assert_not_reached();
}
void
SPIFontSize::merge( const SPIBase* const parent ) {
if( const SPIFontSize* p = dynamic_cast<const SPIFontSize*>(parent) ) {
if( p->set && !(p->inherit) ) {
// Parent has definined font-size
if( (!set || inherit) ) {
// Computed value same as parent
set = p->set;
inherit = p->inherit;
value = p->value;
computed = p->computed; // Just to be sure
} else if ( type == SP_FONT_SIZE_LENGTH &&
unit != SP_CSS_UNIT_EM &&
unit != SP_CSS_UNIT_EX ) {
// Absolute size, computed value already set
} else if ( type == SP_FONT_SIZE_LITERAL &&
literal < SP_CSS_FONT_SIZE_SMALLER ) {
// Absolute size, computed value already set
//g_assert( literal < G_N_ELEMENTS(font_size_table) );
g_assert( computed == font_size_table[literal] );
} else {
// Relative size
double const child_frac( relative_fraction() );
set = true;
inherit = false;
computed = p->computed * child_frac;
if ( ( p->type == SP_FONT_SIZE_LITERAL &&
p->literal < SP_CSS_FONT_SIZE_SMALLER ) ||
( p->type == SP_FONT_SIZE_LENGTH &&
p->unit != SP_CSS_UNIT_EM &&
p->unit != SP_CSS_UNIT_EX ) ) {
// Parent absolut size
type = SP_FONT_SIZE_LENGTH;
} else {
// Parent relative size
double const parent_frac( p->relative_fraction() );
if( type == SP_FONT_SIZE_LENGTH ) {
// ex/em
value *= parent_frac;
} else {
value = parent_frac * child_frac;
type = SP_FONT_SIZE_PERCENTAGE;
}
}
} // Relative size
} // Parent set and not inherit
} else {
std::cerr << "SPIFontSize::merge(): Incorrect parent type" << std::endl;
}
}
// What about different SVG units?
bool
SPIFontSize::operator==(const SPIBase& rhs) {
if( const SPIFontSize* r = dynamic_cast<const SPIFontSize*>(&rhs) ) {
if( type != r->type ) { return false;}
if( type == SP_FONT_SIZE_LENGTH ) {
if( computed != r->computed ) { return false;}
} else if (type == SP_FONT_SIZE_LITERAL ) {
if( literal != r->literal ) { return false;}
} else {
if( value != r->value ) { return false;}
}
return SPIBase::operator==(rhs);
} else {
return false;
}
}
// SPIFont ----------------------------------------------------------
void
SPIFont::read( gchar const *str ) {
if( !str ) return;
if( !style ) {
std::cerr << "SPIFont::read(): style is void" << std::endl;
return;
}
if ( !strcmp(str, "inherit") ) {
set = true;
inherit = true;
} else {
// Break string into white space separated tokens
std::stringstream os( str );
Glib::ustring param;
while (os >> param) {
// CSS is case insensitive but we're comparing against lowercase strings
Glib::ustring lparam = param.lowercase();
if (lparam == "/" ) {
// line_height follows... note: font-size already read
os >> param;
lparam = param.lowercase();
style->line_height.readIfUnset( lparam.c_str() );
} else {
// Try to parse each property in turn
SPIEnum test_style("font-style", enum_font_style);
test_style.read( lparam.c_str() );
if( test_style.set ) {
style->font_style = test_style;
continue;
}
// font-variant (Note: only CSS2.1 value small-caps is valid in shortcut.)
SPIEnum test_variant("font-variant", enum_font_variant);
test_variant.read( lparam.c_str() );
if( test_variant.set ) {
style->font_variant = test_variant;
continue;
}
// font-weight
SPIEnum test_weight("font-weight", enum_font_weight);
test_weight.read( lparam.c_str() );
if( test_weight.set ) {
style->font_weight = test_weight;
continue;
}
// font-stretch (added in CSS 3 Fonts)
SPIEnum test_stretch("font-stretch", enum_font_stretch);
test_stretch.read( lparam.c_str() );
if( test_stretch.set ) {
style->font_stretch = test_stretch;
continue;
}
// font-size
SPIFontSize test_size;
test_size.read( lparam.c_str() );
if( test_size.set ) {
style->font_size = test_size;
continue;
}
// No valid property value found.
break;
}
} // params
// The rest must be font-family...
std::string str_s = str; // Why this extra step?
std::string family = str_s.substr( str_s.find( param ) );
style->font_family.readIfUnset( family.c_str() );
// Everything in shorthand is set per CSS rules, this works since
// properties are read backwards from end to start.
style->font_style.set = true;
style->font_variant.set = true;
style->font_weight.set = true;
style->font_stretch.set = true;
style->font_size.set = true;
style->line_height.set = true;
style->font_family.set = true;
// style->font_size_adjust.set = true;
// style->font_kerning.set = true;
// style->font_language_override.set = true;;
}
}
const Glib::ustring
SPIFont::write( guint const flags, SPIBase const *const base) const {
// At the moment, do nothing. We could add a preference to write out
// 'font' shorthand rather than longhand properties.
// SPIFontSize const *const my_base = dynamic_cast<const SPIFontSize*>(base);
// if ( (flags & SP_STYLE_FLAG_ALWAYS) ||
// ((flags & SP_STYLE_FLAG_IFSET) && this->set) ||
// ((flags & SP_STYLE_FLAG_IFDIFF) && this->set
// && (!my_base->set || this != my_base )))
// {
// CSSOStringStream css;
// }
return Glib::ustring("");
}
// void
// SPIFont::cascade( const SPIBase* const parent ) {
// }
// void
// SPIFont::merge( const SPIBase* const parent ) {
// }
// Does nothing...
bool
SPIFont::operator==(const SPIBase& rhs) {
if( /* const SPIFont* r = */ dynamic_cast<const SPIFont*>(&rhs) ) {
return SPIBase::operator==(rhs);
} else {
return false;
}
}
// SPIBaselineShift -----------------------------------------------------
void
SPIBaselineShift::read( gchar const *str ) {
if( !str ) return;
if (!strcmp(str, "inherit")) {
set = true;
inherit = true;
} else if ((*str == 'b') || (*str == 's')) {
// baseline or sub or super
for (unsigned i = 0; enum_baseline_shift[i].key; i++) {
if (!strcmp(str, enum_baseline_shift[i].key)) {
set = true;
inherit = false;
type = SP_BASELINE_SHIFT_LITERAL;
literal = enum_baseline_shift[i].value;
return;
}
}
/* Invalid */
return;
} else {
SPILength length( "temp" );
length.read( str );
set = length.set;
inherit = length.inherit;
unit = length.unit;
value = length.value;
computed = length.computed;
if( unit == SP_CSS_UNIT_PERCENT ) {
type = SP_BASELINE_SHIFT_PERCENTAGE;
} else {
type = SP_BASELINE_SHIFT_LENGTH;
}
return;
}
}
const Glib::ustring
SPIBaselineShift::write( guint const flags, SPIBase const *const base) const {
SPIBaselineShift const *const my_base = dynamic_cast<const SPIBaselineShift*>(base);
if ( (flags & SP_STYLE_FLAG_ALWAYS) ||
((flags & SP_STYLE_FLAG_IFSET) && this->set) ||
((flags & SP_STYLE_FLAG_IFDIFF) && this->set
&& (!my_base->set || !this->isZero() )))
{
CSSOStringStream css;
if (this->inherit) {
css << "inherit";
} else if (this->type == SP_BASELINE_SHIFT_LITERAL) {
for (unsigned i = 0; enum_baseline_shift[i].key; i++) {
if (enum_baseline_shift[i].value == static_cast< gint > (this->literal) ) {
css << enum_baseline_shift[i].key;
}
}
} else if (this->type == SP_BASELINE_SHIFT_LENGTH) {
if( this->unit == SP_CSS_UNIT_EM || this->unit == SP_CSS_UNIT_EX ) {
css << this->value << (this->unit == SP_CSS_UNIT_EM ? "em" : "ex");
} else {
css << this->computed << "px"; // must specify px, see inkscape bug 1221626, mozilla bug 234789
}
} else if (this->type == SP_BASELINE_SHIFT_PERCENTAGE) {
css << (this->value * 100.0) << "%";
}
return (name + ":" + css.str() + ";");
}
return Glib::ustring("");
}
void
SPIBaselineShift::cascade( const SPIBase* const parent ) {
if( const SPIBaselineShift* p = dynamic_cast<const SPIBaselineShift*>(parent) ) {
SPIFontSize *pfont_size = &(p->style->font_size);
g_assert( pfont_size != NULL );
if( !set || inherit ) {
computed = p->computed; // Shift relative to parent shift, corrected below
} else if (type == SP_BASELINE_SHIFT_LITERAL) {
if( literal == SP_CSS_BASELINE_SHIFT_BASELINE ) {
computed = 0; // No change
} else if (literal == SP_CSS_BASELINE_SHIFT_SUB ) {
// Should use subscript position from font relative to alphabetic baseline
// OpenOffice, Adobe: -0.33, Word -0.14, LaTex about -0.2.
computed = -0.2 * pfont_size->computed;
} else if (literal == SP_CSS_BASELINE_SHIFT_SUPER ) {
// Should use superscript position from font relative to alphabetic baseline
// OpenOffice, Adobe: 0.33, Word 0.35, LaTex about 0.45.
computed = 0.4 * pfont_size->computed;
} else {
/* Illegal value */
}
} else if (type == SP_BASELINE_SHIFT_PERCENTAGE) {
// Percentage for baseline shift is relative to computed "line-height"
// which is just font-size (see SVG1.1 'font').
computed = pfont_size->computed * value;
} else if (type == SP_BASELINE_SHIFT_LENGTH) {
switch (unit) {
case SP_CSS_UNIT_EM:
computed = value * pfont_size->computed;
break;
case SP_CSS_UNIT_EX:
computed = value * 0.5 * pfont_size->computed;
break;
default:
/* No change */
break;
}
}
// baseline-shifts are relative to parent baseline
computed += p->computed;
} else {
std::cerr << "SPIBaselineShift::cascade(): Incorrect parent type" << std::endl;
}
}
// This was not defined in the legacy C code, it needs some serious thinking (but is low priority).
// FIX ME
void
SPIBaselineShift::merge( const SPIBase* const parent ) {
if( const SPIBaselineShift* p = dynamic_cast<const SPIBaselineShift*>(parent) ) {
if( (!set || inherit) && p->set && !(p->inherit) ) {
set = p->set;
inherit = p->inherit;
value = p->value;
}
} else {
std::cerr << "SPIBaselineShift::merge(): Incorrect parent type" << std::endl;
}
}
// This is not used but we have it for completeness, it has not been tested.
bool
SPIBaselineShift::operator==(const SPIBase& rhs) {
if( const SPIBaselineShift* r = dynamic_cast<const SPIBaselineShift*>(&rhs) ) {
if( type != r->type ) return false;
if( type == SP_BASELINE_SHIFT_LENGTH ) {
if( computed != r->computed ) return false;
} else if ( type == SP_BASELINE_SHIFT_LITERAL ) {
if( literal != r->literal ) return false;
} else {
if( value != r->value ) return false;
}
return SPIBase::operator==(rhs);
} else {
return false;
}
}
bool
SPIBaselineShift::isZero() const {
if( type == SP_BASELINE_SHIFT_LITERAL ) {
if( literal == SP_CSS_BASELINE_SHIFT_BASELINE ) return true;
} else {
if( value == 0.0 ) return true;
}
return false;
}
// SPITextDecorationLine ------------------------------------------------
void
SPITextDecorationLine::read( gchar const *str ) {
if( !str ) return;
if (!strcmp(str, "inherit")) {
set = true;
inherit = true;
} else if (!strcmp(str, "none")) {
set = true;
inherit = false;
underline = false;
overline = false;
line_through = false;
blink = false;
} else {
bool found_one = false;
bool hit_one = false;
// CSS 2 keywords
bool found_underline = false;
bool found_overline = false;
bool found_line_through = false;
bool found_blink = false;
// This method ignores inlineid keys and extra delimiters, so " ,,, blink hello" will set
// blink and ignore hello
const gchar *hstr = str;
while (1) {
if (*str == ' ' || *str == ',' || *str == '\0'){
int slen = str - hstr;
// CSS 2 keywords
while(1){ // not really a loop, used to avoid a goto
hit_one = true; // most likely we will
if ((slen == 9) && strneq(hstr, "underline", slen)){ found_underline = true; break; }
if ((slen == 8) && strneq(hstr, "overline", slen)){ found_overline = true; break; }
if ((slen == 12) && strneq(hstr, "line-through", slen)){ found_line_through = true; break; }
if ((slen == 5) && strneq(hstr, "blink", slen)){ found_blink = true; break; }
if ((slen == 4) && strneq(hstr, "none", slen)){ break; }
hit_one = false; // whatever this thing is, we do not recognize it
break;
}
found_one |= hit_one;
if(*str == '\0')break;
hstr = str + 1;
}
str++;
}
if (found_one) {
set = true;
inherit = false;
underline = found_underline;
overline = found_overline;
line_through = found_line_through;
blink = found_blink;
}
else {
set = false;
inherit = false;
}
}
}
const Glib::ustring
SPITextDecorationLine::write( guint const flags, SPIBase const *const base) const {
SPITextDecorationLine const *const my_base = dynamic_cast<const SPITextDecorationLine*>(base);
if ( (flags & SP_STYLE_FLAG_ALWAYS) ||
((flags & SP_STYLE_FLAG_IFSET) && this->set) ||
((flags & SP_STYLE_FLAG_IFDIFF) && this->set
&& (!my_base->set || this != my_base )))
{
Inkscape::CSSOStringStream os;
os << name << ":";
if( inherit ) {
os << "inherit";
} else if (this->underline || this->overline || this->line_through || this->blink) {
if (this->underline) os << " underline";
if (this->overline) os << " overline";
if (this->line_through) os << " line-through";
if (this->blink) os << " blink"; // Deprecated
} else {
os << "none";
}
os << ";";
return ( os.str() );
}
return Glib::ustring("");
}
void
SPITextDecorationLine::cascade( const SPIBase* const parent ) {
if( const SPITextDecorationLine* p = dynamic_cast<const SPITextDecorationLine*>(parent) ) {
if( inherits && (!set || inherit) ) {
underline = p->underline;
overline = p->overline;
line_through = p->line_through;
blink = p->blink;
}
} else {
std::cerr << "SPITextDecorationLine::cascade(): Incorrect parent type" << std::endl;
}
}
void
SPITextDecorationLine::merge( const SPIBase* const parent ) {
if( const SPITextDecorationLine* p = dynamic_cast<const SPITextDecorationLine*>(parent) ) {
if( inherits ) { // Always inherits... but special rules?
if( (!set || inherit) && p->set && !(p->inherit) ) {
set = p->set;
inherit = p->inherit;
underline = p->underline;
overline = p->overline;
line_through = p->line_through;
blink = p->blink;
}
}
}
}
bool
SPITextDecorationLine::operator==(const SPIBase& rhs) {
if( const SPITextDecorationLine* r = dynamic_cast<const SPITextDecorationLine*>(&rhs) ) {
return
(underline == r->underline ) &&
(overline == r->overline ) &&
(line_through == r->line_through ) &&
(blink == r->blink ) &&
SPIBase::operator==(rhs);
} else {
return false;
}
}
// SPITextDecorationStyle -----------------------------------------------
void
SPITextDecorationStyle::read( gchar const *str ) {
if( !str ) return;
set = false;
inherit = false;
solid = true; // Default
isdouble = false;
dotted = false;
dashed = false;
wavy = false;
if (!strcmp(str, "inherit")) {
set = true;
inherit = true;
solid = false;
} else {
// note, these are CSS 3 keywords
bool found_solid = false;
bool found_double = false;
bool found_dotted = false;
bool found_dashed = false;
bool found_wavy = false;
bool found_one = false;
// this method ignores inlineid keys and extra delimiters, so " ,,, style hello" will set style and ignore hello
// if more than one style is present, the first is used
const gchar *hstr = str;
while (1) {
if (*str == ' ' || *str == ',' || *str == '\0'){
int slen = str - hstr;
if ( (slen == 5) && strneq(hstr, "solid", slen)){ found_solid = true; found_one = true; break; }
else if ((slen == 6) && strneq(hstr, "double", slen)){ found_double = true; found_one = true; break; }
else if ((slen == 6) && strneq(hstr, "dotted", slen)){ found_dotted = true; found_one = true; break; }
else if ((slen == 6) && strneq(hstr, "dashed", slen)){ found_dashed = true; found_one = true; break; }
else if ((slen == 4) && strneq(hstr, "wavy", slen)){ found_wavy = true; found_one = true; break; }
if(*str == '\0')break; // nothing more to test
hstr = str + 1;
}
str++;
}
if(found_one){
set = true;
solid = found_solid;
isdouble = found_double;
dotted = found_dotted;
dashed = found_dashed;
wavy = found_wavy;
}
else {
set = false;
inherit = false;
}
}
}
const Glib::ustring
SPITextDecorationStyle::write( guint const flags, SPIBase const *const base) const {
SPITextDecorationStyle const *const my_base = dynamic_cast<const SPITextDecorationStyle*>(base);
if ( (flags & SP_STYLE_FLAG_ALWAYS) ||
((flags & SP_STYLE_FLAG_IFSET) && this->set) ||
((flags & SP_STYLE_FLAG_IFDIFF) && this->set
&& (!my_base->set || this != my_base )))
{
Inkscape::CSSOStringStream os;
os << name << ":";
if( inherit ) {
os << "inherit";
} else if (this->solid ) {
os << "solid";
} else if (this->isdouble ) {
os << "double";
} else if (this->dotted ) {
os << "dotted";
} else if (this->dashed ) {
os << "dashed";
} else if (this->wavy ) {
os << "wavy";
} else {
std::cerr << "SPITextDecorationStyle::write(): No valid value for property" << std::endl;
return Glib::ustring("");
}
os << ";";
return ( os.str() );
}
return Glib::ustring("");
}
void
SPITextDecorationStyle::cascade( const SPIBase* const parent ) {
if( const SPITextDecorationStyle* p = dynamic_cast<const SPITextDecorationStyle*>(parent) ) {
if( inherits && (!set || inherit) ) {
solid = p->solid;
isdouble = p->isdouble;
dotted = p->dotted;
dashed = p->dashed;
wavy = p->wavy;
}
} else {
std::cerr << "SPITextDecorationStyle::cascade(): Incorrect parent type" << std::endl;
}
}
void
SPITextDecorationStyle::merge( const SPIBase* const parent ) {
if( const SPITextDecorationStyle* p = dynamic_cast<const SPITextDecorationStyle*>(parent) ) {
if( inherits ) { // Always inherits... but special rules?
if( (!set || inherit) && p->set && !(p->inherit) ) {
set = p->set;
inherit = p->inherit;
solid = p->solid;
isdouble = p->isdouble;
dotted = p->dotted;
dashed = p->dashed;
wavy = p->wavy;
}
}
}
}
bool
SPITextDecorationStyle::operator==(const SPIBase& rhs) {
if( const SPITextDecorationStyle* r = dynamic_cast<const SPITextDecorationStyle*>(&rhs) ) {
return
(solid == r->solid ) &&
(isdouble == r->isdouble ) &&
(dotted == r->dotted ) &&
(dashed == r->dashed ) &&
(wavy == r->wavy ) &&
SPIBase::operator==(rhs);
} else {
return false;
}
}
// TextDecorationColor is handled by SPIPaint (should be SPIColor), default value is "currentColor"
// FIXME
// SPITextDecoration ----------------------------------------------------
void
SPITextDecoration::read( gchar const *str ) {
if( !str ) return;
bool is_css3 = false;
SPITextDecorationLine test_line;
test_line.read( str );
if( test_line.set ) {
style->text_decoration_line = test_line;
}
SPITextDecorationStyle test_style;
test_style.read( str );
if( test_style.set ) {
style->text_decoration_style = test_style;
is_css3 = true;
}
// the color routine must be fed one token at a time - if multiple colors are found the LAST
// one is used ???? then why break on set?
// This could certainly be designed better
SPIColor test_color("text-decoration-color");
test_color.setStylePointer( style );
test_color.read( "currentColor" ); // Default value
test_color.set = false;
const gchar *hstr = str;
while (1) {
if (*str == ' ' || *str == ',' || *str == '\0'){
int slen = str - hstr;
gchar *frag = g_strndup(hstr,slen+1); // only send one piece at a time, since keywords may be intermixed
if( strcmp( frag, "none" ) != 0 ) { // 'none' not allowed
test_color.read( frag );
}
free(frag);
if( test_color.set ) {
style->text_decoration_color = test_color;
is_css3 = true;
break;
}
test_color.read( "currentColor" ); // Default value
test_color.set = false;
if( *str == '\0' )break;
hstr = str + 1;
}
str++;
}
// If we read a style or color then we have CSS3 which require any non-set values to be
// set to their default values.
if( is_css3 ) {
style->text_decoration_line.set = true;
style->text_decoration_style.set = true;
style->text_decoration_color.set = true;
}
// If we set text_decoration_line, then update style_td (for CSS2 text-decoration)
if( style->text_decoration_line.set == true ) {
style_td = style;
}
}
// Returns CSS2 'text-decoration' (using settings in SPTextDecorationLine)
// This is required until all SVG renderers support CSS3 'text-decoration'
const Glib::ustring
SPITextDecoration::write( guint const flags, SPIBase const *const base) const {
SPITextDecoration const *const my_base = dynamic_cast<const SPITextDecoration*>(base);
if ( (flags & SP_STYLE_FLAG_ALWAYS) ||
((flags & SP_STYLE_FLAG_IFSET) && style->text_decoration_line.set) ||
((flags & SP_STYLE_FLAG_IFDIFF) && style->text_decoration_line.set
&& (!my_base->style->text_decoration_line.set ||
style->text_decoration_line != my_base->style->text_decoration_line )))
{
Inkscape::CSSOStringStream os;
os << name << ":";
if( inherit ) {
os << "inherit";
} else if (style->text_decoration_line.underline ||
style->text_decoration_line.overline ||
style->text_decoration_line.line_through ||
style->text_decoration_line.blink) {
if (style->text_decoration_line.underline) os << " underline";
if (style->text_decoration_line.overline) os << " overline";
if (style->text_decoration_line.line_through) os << " line-through";
if (style->text_decoration_line.blink) os << " blink"; // Deprecated
} else {
os << "none";
}
os << ";";
return ( os.str() );
}
return Glib::ustring("");
}
void
SPITextDecoration::cascade( const SPIBase* const parent ) {
if( const SPITextDecoration* p = dynamic_cast<const SPITextDecoration*>(parent) ) {
if( style_td == NULL ) {
style_td = p->style_td;
}
} else {
std::cerr << "SPITextDecoration::cascade(): Incorrect parent type" << std::endl;
}
}
void
SPITextDecoration::merge( const SPIBase* const parent ) {
if( const SPITextDecoration* p = dynamic_cast<const SPITextDecoration*>(parent) ) {
if( style_td == NULL ) {
style_td = p->style_td;
}
} else {
std::cerr << "SPITextDecoration::merge(): Incorrect parent type" << std::endl;
}
}
// Use CSS2 value
bool
SPITextDecoration::operator==(const SPIBase& rhs) {
if( const SPITextDecoration* r = dynamic_cast<const SPITextDecoration*>(&rhs) ) {
return (style->text_decoration_line == r->style->text_decoration_line &&
SPIBase::operator==(rhs));
} else {
return false;
}
}
/* ---------------------------- NOTES ----------------------------- */
/*
* opacity's effect is cumulative; we set the new value to the combined effect. The
* default value for opacity is 1.0, not inherit. (Note that stroke-opacity and
* fill-opacity are quite different from opacity, and don't need any special handling.)
*
* Cases:
* - parent & child were each previously unset, in which case the effective
* opacity value is 1.0, and style should remain unset.
* - parent was previously unset (so computed opacity value of 1.0)
* and child was set to inherit. The merged child should
* get a value of 1.0, and shouldn't inherit (lest the new parent
* has a different opacity value). Given that opacity's default
* value is 1.0 (rather than inherit), we might as well have the
* merged child's opacity be unset.
* - parent was previously unset (so opacity 1.0), and child was set to a number.
* The merged child should retain its existing settings (though it doesn't matter
* if we make it unset if that number was 1.0).
* - parent was inherit and child was unset. Merged child should be set to inherit.
* - parent was inherit and child was inherit. (We can't in general reproduce this
* effect (short of introducing a new group), but setting opacity to inherit is rare.)
* If the inherited value was strictly between 0.0 and 1.0 (exclusive) then the merged
* child's value should be set to the product of the two, i.e. the square of the
* inherited value, and should not be marked as inherit. (This decision assumes that it
* is more important to retain the effective opacity than to retain the inheriting
* effect, and assumes that the inheriting effect either isn't important enough to create
* a group or isn't common enough to bother maintaining the code to create a group.) If
* the inherited value was 0.0 or 1.0, then marking the merged child as inherit comes
* closer to maintaining the effect.
* - parent was inherit and child was set to a numerical value. If the child's value
* was 1.0, then the merged child should have the same settings as the parent.
* If the child's value was 0, then the merged child should also be set to 0.
* If the child's value was anything else, then we do the same as for the inherit/inherit
* case above: have the merged child set to the product of the two opacities and not
* marked as inherit, for the same reasons as for that case.
* - parent was set to a value, and child was unset. The merged child should have
* parent's settings.
* - parent was set to a value, and child was inherit. The merged child should
* be set to the product, i.e. the square of the parent's value.
* - parent & child are each set to a value. The merged child should be set to the
* product.
*/
/*
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 :