diff --git a/src/desktop-style.cpp b/src/desktop-style.cpp
index 19a45a2852f3e629dd206cf79f89fca9b585ba48..c580d6767636a641c2036e2dd62600fe1b081af9 100644 (file)
--- a/src/desktop-style.cpp
+++ b/src/desktop-style.cpp
-#define __SP_DESKTOP_STYLE_C__
-
/** \file
* Desktop style management
*
* Authors:
* bulia byak
* verbalshadow
+ * Jon A. Cruz <jon@joncruz.org>
+ * Abhishek Sharma
*
* Copyright (C) 2004, 2006 authors
*
#include "xml/repr.h"
#include "libnrtype/font-style-to-pos.h"
#include "sp-path.h"
+#include "event-context.h"
#include "desktop-style.h"
#include "svg/svg-icc-color.h"
-#include "svg/svg-device-color.h"
#include "box3d-side.h"
/**
|| SP_IS_FLOWDIV(o)
|| SP_IS_FLOWPARA(o)
|| SP_IS_TEXTPATH(o))
- && !SP_OBJECT_REPR(o)->attribute("style"))
+ && !o->getAttribute("style"))
&&
!(SP_IS_FLOWREGION(o) ||
SP_IS_FLOWREGIONEXCLUDE(o) ||
}
}
- sp_repr_css_change(SP_OBJECT_REPR(o), css_set, "style");
+ o->changeCSS(css_set,"style");
sp_repr_css_attr_unref(css_set);
}
if (SP_IS_USE(o))
return;
- for (SPObject *child = sp_object_first_child(SP_OBJECT(o)) ; child != NULL ; child = SP_OBJECT_NEXT(child) ) {
+ for ( SPObject *child = o->firstChild() ; child ; child = child->getNext() ) {
if (sp_repr_css_property(css, "opacity", NULL) != NULL) {
// Unset properties which are accumulating and thus should not be set recursively.
// For example, setting opacity 0.5 on a group recursively would result in the visible opacity of 0.25 for an item in the group.
@@ -196,6 +196,10 @@ sp_desktop_set_style(SPDesktop *desktop, SPCSSAttr *css, bool change, bool write
// 3. If nobody has intercepted the signal, apply the style to the selection
if (!intercepted) {
+ // If we have an event context, update its cursor (TODO: it could be neater to do this with the signal sent above, but what if the signal gets intercepted?)
+ if (desktop->event_context) {
+ sp_event_context_update_cursor(desktop->event_context);
+ }
// Remove text attributes if not text...
// Do this once in case a zillion objects are selected.
if (!SP_IS_ITEM (l->data))
continue;
- Geom::Matrix i2d = (SP_ITEM(l->data))->i2d_affine ();
+ Geom::Matrix i2d = SP_ITEM(l->data)->i2d_affine();
SPObject *object = SP_OBJECT(l->data);
return avgwidth / (g_slist_length ((GSList *) objects) - n_notstroked);
}
+static bool vectorsClose( std::vector<double> const &lhs, std::vector<double> const &rhs )
+{
+ static double epsilon = 1e-6;
+ bool isClose = false;
+ if ( lhs.size() == rhs.size() ) {
+ isClose = true;
+ for ( size_t i = 0; (i < lhs.size()) && isClose; ++i ) {
+ isClose = fabs(lhs[i] - rhs[i]) < epsilon;
+ }
+ }
+ return isClose;
+}
+
+
/**
* Write to style_res the average fill or stroke of list of objects, if applicable.
*/
@@ -452,7 +470,6 @@ objects_query_fillstroke (GSList *objects, SPStyle *style_res, bool const isfill
paint_res->set = TRUE;
SVGICCColor* iccColor = 0;
- SVGDeviceColor* devColor = 0;
bool iccSeen = false;
gfloat c[4];
@@ -536,11 +553,15 @@ objects_query_fillstroke (GSList *objects, SPStyle *style_res, bool const isfill
iccColor = paint->value.color.icc;
iccSeen = true;
} else {
- if (same_color && (prev[0] != d[0] || prev[1] != d[1] || prev[2] != d[2]))
+ if (same_color && (prev[0] != d[0] || prev[1] != d[1] || prev[2] != d[2])) {
same_color = false;
- if ( iccSeen ) {
- if(paint->value.color.icc) {
- // TODO fix this
+ iccColor = 0;
+ }
+ if ( iccSeen && iccColor ) {
+ if ( !paint->value.color.icc
+ || (iccColor->colorProfile != paint->value.color.icc->colorProfile)
+ || !vectorsClose(iccColor->colors, paint->value.color.icc->colors) ) {
+ same_color = false;
iccColor = 0;
}
}
@@ -552,22 +573,6 @@ objects_query_fillstroke (GSList *objects, SPStyle *style_res, bool const isfill
c[2] += d[2];
c[3] += SP_SCALE24_TO_FLOAT (isfill? style->fill_opacity.value : style->stroke_opacity.value);
- // average device color
- unsigned int it;
- if (i==objects /*if this is the first object in the GList*/
- && paint->value.color.device){
- devColor = new SVGDeviceColor(*paint->value.color.device);
- for (it=0; it < paint->value.color.device->colors.size(); it++){
- devColor->colors[it] = 0;
- }
- }
-
- if (devColor && paint->value.color.device && paint->value.color.device->type == devColor->type){
- for (it=0; it < paint->value.color.device->colors.size(); it++){
- devColor->colors[it] += paint->value.color.device->colors[it];
- }
- }
-
num ++;
}
@@ -607,14 +612,6 @@ objects_query_fillstroke (GSList *objects, SPStyle *style_res, bool const isfill
paint_res->value.color.icc = tmp;
}
- // divide and store the device-color
- if (devColor){
- for (unsigned int it=0; it < devColor->colors.size(); it++){
- devColor->colors[it] /= num;
- }
- paint_res->value.color.device = devColor;
- }
-
if (num > 1) {
if (same_color)
return QUERY_STYLE_MULTIPLE_SAME;
if (!style) continue;
if ( style->stroke.isNone() && !(
- style->marker[SP_MARKER_LOC].set || // stroke width affects markers, so if there's no stroke but only markers then we should
- style->marker[SP_MARKER_LOC_START].set || // still calculate the stroke width
- style->marker[SP_MARKER_LOC_MID].set ||
- style->marker[SP_MARKER_LOC_END].set))
- {
+ style->marker[SP_MARKER_LOC].set || // stroke width affects markers, so if there's no stroke but only markers then we should
+ style->marker[SP_MARKER_LOC_START].set || // still calculate the stroke width
+ style->marker[SP_MARKER_LOC_MID].set ||
+ style->marker[SP_MARKER_LOC_END].set))
+ {
continue;
}
noneSet &= style->stroke.isNone();
- Geom::Matrix i2d = SP_ITEM(obj)->i2d_affine ();
+ Geom::Matrix i2d = SP_ITEM(obj)->i2d_affine();
double sw = style->stroke_width.computed * i2d.descrim();
if (prev_sw != -1 && fabs(sw - prev_sw) > 1e-3)
for (GSList const *i = objects; i != NULL; i = i->next) {
SPObject *obj = SP_OBJECT (i->data);
- // std::cout << " " << SP_OBJECT_ID (i->data) << std::endl;
+ // std::cout << " " << reinterpret_cast<SPObject*>(i->data)->getId() << std::endl;
if (!SP_IS_TEXT(obj) && !SP_IS_FLOWTEXT(obj)
&& !SP_IS_TSPAN(obj) && !SP_IS_TREF(obj) && !SP_IS_TEXTPATH(obj)
- && !SP_IS_FLOWDIV(obj) && !SP_IS_FLOWPARA(obj) && !SP_IS_FLOWTSPAN(obj))
+ && !SP_IS_FLOWDIV(obj) && !SP_IS_FLOWPARA(obj) && !SP_IS_FLOWTSPAN(obj)) {
continue;
+ }
SPStyle *style = SP_OBJECT_STYLE (obj);
if (!style) continue;
for (GSList const *i = objects; i != NULL; i = i->next) {
SPObject *obj = SP_OBJECT (i->data);
- // std::cout << " " << SP_OBJECT_ID (i->data) << std::endl;
+ // std::cout << " " << reinterpret_cast<SPObject*>(i->data)->getId() << std::endl;
if (!SP_IS_TEXT(obj) && !SP_IS_FLOWTEXT(obj)
&& !SP_IS_TSPAN(obj) && !SP_IS_TREF(obj) && !SP_IS_TEXTPATH(obj)
- && !SP_IS_FLOWDIV(obj) && !SP_IS_FLOWPARA(obj) && !SP_IS_FLOWTSPAN(obj))
+ && !SP_IS_FLOWDIV(obj) && !SP_IS_FLOWPARA(obj) && !SP_IS_FLOWTSPAN(obj)) {
continue;
+ }
SPStyle *style = SP_OBJECT_STYLE (obj);
if (!style) continue;
if (!style) continue;
if (!SP_IS_ITEM(obj)) continue;
- Geom::Matrix i2d = SP_ITEM(obj)->i2d_affine ();
+ Geom::Matrix i2d = SP_ITEM(obj)->i2d_affine();
items ++;
// otherwise, do querying and averaging over selection
if (desktop->selection != NULL) {
- return sp_desktop_query_style_from_list ((GSList *) desktop->selection->itemList(), style, property);
+ return sp_desktop_query_style_from_list ((GSList *) desktop->selection->itemList(), style, property);
}
return QUERY_STYLE_NOTHING;