sp-text.cpp revision 22a9a47e44268c2dec20781e6c0470f360442c32
/*
* SVG <text> and <tspan> implementation
*
* Author:
* Lauris Kaplinski <lauris@kaplinski.com>
* bulia byak <buliabyak@users.sf.net>
* Jon A. Cruz <jon@joncruz.org>
* Abhishek Sharma
*
* Copyright (C) 1999-2002 Lauris Kaplinski
* Copyright (C) 2000-2001 Ximian, Inc.
*
* Released under GNU GPL, read the file 'COPYING' for more information
*/
/*
* fixme:
*
* These subcomponents should not be items, or alternately
* we have to invent set of flags to mark, whether standard
* attributes are applicable to given item (I even like this
* idea somewhat - Lauris)
*
*/
#include <2geom/affine.h>
#include <libnrtype/FontFactory.h>
#include <libnrtype/font-instance.h>
#include <glibmm/i18n.h>
#include "svg/svg.h"
#include "svg/stringstream.h"
#include "display/drawing-text.h"
#include "attributes.h"
#include "document.h"
#include "preferences.h"
#include "desktop.h"
#include "sp-namedview.h"
#include "style.h"
#include "inkscape.h"
#include "xml/quote.h"
#include "xml/repr.h"
#include "mod360.h"
#include "sp-title.h"
#include "sp-desc.h"
#include "sp-text.h"
#include "sp-textpath.h"
#include "sp-tref.h"
#include "sp-tspan.h"
#include "text-editing.h"
// For SVG 2 text flow
#include "livarot/Path.h"
#include "livarot/Shape.h"
#include "sp-shape.h"
#include "display/curve.h"
/*#####################################################
# SPTEXT
#####################################################*/
SPText::SPText() : SPItem() {
}
SPText::~SPText() {
}
void SPText::build(SPDocument *doc, Inkscape::XML::Node *repr) {
this->readAttr( "x" );
this->readAttr( "y" );
this->readAttr( "dx" );
this->readAttr( "dy" );
this->readAttr( "rotate" );
// textLength and friends
this->readAttr( "textLength" );
this->readAttr( "lengthAdjust" );
// SVG 2 Auto wrapped text
this->readAttr( "width" );
this->readAttr( "height" );
SPItem::build(doc, repr);
this->readAttr( "sodipodi:linespacing" ); // has to happen after the styles are read
}
void SPText::release() {
SPItem::release();
}
void SPText::set(unsigned int key, const gchar* value) {
//std::cout << "SPText::set: " << sp_attribute_name( key ) << ": " << (value?value:"Null") << std::endl;
if (this->attributes.readSingleAttribute(key, value)) {
this->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG);
} else {
switch (key) {
case SP_ATTR_SODIPODI_LINESPACING:
// convert deprecated tag to css
if (value) {
this->style->line_height.set = TRUE;
this->style->line_height.inherit = FALSE;
this->style->line_height.normal = FALSE;
this->style->line_height.unit = SP_CSS_UNIT_PERCENT;
this->style->line_height.value = this->style->line_height.computed = sp_svg_read_percentage (value, 1.0);
}
this->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG | SP_TEXT_LAYOUT_MODIFIED_FLAG);
break;
case SP_ATTR_WIDTH:
if (!this->width.read(value) || this->width.value < 0.0) {
this->width.unset();
}
this->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG);
break;
case SP_ATTR_HEIGHT:
if (!this->height.read(value) || this->height.value < 0.0) {
this->height.unset();
}
this->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG);
break;
default:
SPItem::set(key, value);
break;
}
}
}
void SPText::child_added(Inkscape::XML::Node *rch, Inkscape::XML::Node *ref) {
SPItem::child_added(rch, ref);
this->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG | SP_TEXT_CONTENT_MODIFIED_FLAG | SP_TEXT_LAYOUT_MODIFIED_FLAG);
}
void SPText::remove_child(Inkscape::XML::Node *rch) {
SPItem::remove_child(rch);
this->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG | SP_TEXT_CONTENT_MODIFIED_FLAG | SP_TEXT_LAYOUT_MODIFIED_FLAG);
}
void SPText::update(SPCtx *ctx, guint flags) {
unsigned childflags = (flags & SP_OBJECT_MODIFIED_CASCADE);
if (flags & SP_OBJECT_MODIFIED_FLAG) {
childflags |= SP_OBJECT_PARENT_MODIFIED_FLAG;
}
// Create temporary list of children
GSList *l = NULL;
for (SPObject *child = this->firstChild() ; child ; child = child->getNext() ) {
sp_object_ref(child, this);
l = g_slist_prepend (l, child);
}
l = g_slist_reverse (l);
while (l) {
SPObject *child = reinterpret_cast<SPObject*>(l->data); // We just built this list, so cast is safe.
l = g_slist_remove (l, child);
if (childflags || (child->uflags & (SP_OBJECT_MODIFIED_FLAG | SP_OBJECT_CHILD_MODIFIED_FLAG))) {
/* fixme: Do we need transform? */
child->updateDisplay(ctx, childflags);
}
sp_object_unref(child, this);
}
// update ourselves after updating children
SPItem::update(ctx, flags);
if (flags & ( SP_OBJECT_STYLE_MODIFIED_FLAG |
SP_OBJECT_CHILD_MODIFIED_FLAG |
SP_TEXT_LAYOUT_MODIFIED_FLAG ) )
{
/* fixme: It is not nice to have it here, but otherwise children content changes does not work */
/* fixme: Even now it may not work, as we are delayed */
/* fixme: So check modification flag everywhere immediate state is used */
this->rebuildLayout();
Geom::OptRect paintbox = this->geometricBounds();
for (SPItemView* v = this->display; v != NULL; v = v->next) {
Inkscape::DrawingGroup *g = dynamic_cast<Inkscape::DrawingGroup *>(v->arenaitem);
this->_clearFlow(g);
g->setStyle(this->style, this->parent->style);
// pass the bbox of the this this as paintbox (used for paintserver fills)
this->layout.show(g, paintbox);
}
}
}
void SPText::modified(guint flags) {
// SPItem::onModified(flags);
guint cflags = (flags & SP_OBJECT_MODIFIED_CASCADE);
if (flags & SP_OBJECT_MODIFIED_FLAG) {
cflags |= SP_OBJECT_PARENT_MODIFIED_FLAG;
}
// FIXME: all that we need to do here is to call setStyle, to set the changed
// style, but there's no easy way to access the drawing glyphs or texts corresponding to a
// text this. Therefore we do here the same as in _update, that is, destroy all items
// and create new ones. This is probably quite wasteful.
if (flags & ( SP_OBJECT_STYLE_MODIFIED_FLAG )) {
Geom::OptRect paintbox = this->geometricBounds();
for (SPItemView* v = this->display; v != NULL; v = v->next) {
Inkscape::DrawingGroup *g = dynamic_cast<Inkscape::DrawingGroup *>(v->arenaitem);
this->_clearFlow(g);
g->setStyle(this->style, this->parent->style);
this->layout.show(g, paintbox);
}
}
// Create temporary list of children
GSList *l = NULL;
for (SPObject *child = this->firstChild() ; child ; child = child->getNext() ) {
sp_object_ref(child, this);
l = g_slist_prepend (l, child);
}
l = g_slist_reverse (l);
while (l) {
SPObject *child = reinterpret_cast<SPObject*>(l->data); // We just built this list, so cast is safe.
l = g_slist_remove (l, child);
if (cflags || (child->mflags & (SP_OBJECT_MODIFIED_FLAG | SP_OBJECT_CHILD_MODIFIED_FLAG))) {
child->emitModified(cflags);
}
sp_object_unref(child, this);
}
}
Inkscape::XML::Node *SPText::write(Inkscape::XML::Document *xml_doc, Inkscape::XML::Node *repr, guint flags) {
if (flags & SP_OBJECT_WRITE_BUILD) {
if (!repr) {
repr = xml_doc->createElement("svg:text");
}
GSList *l = NULL;
for (SPObject *child = this->firstChild() ; child ; child = child->getNext() ) {
if (SP_IS_TITLE(child) || SP_IS_DESC(child)) {
continue;
}
Inkscape::XML::Node *crepr = NULL;
if (SP_IS_STRING(child)) {
crepr = xml_doc->createTextNode(SP_STRING(child)->string.c_str());
} else {
crepr = child->updateRepr(xml_doc, NULL, flags);
}
if (crepr) {
l = g_slist_prepend (l, crepr);
}
}
while (l) {
repr->addChild((Inkscape::XML::Node *) l->data, NULL);
Inkscape::GC::release((Inkscape::XML::Node *) l->data);
l = g_slist_remove (l, l->data);
}
} else {
for (SPObject *child = this->firstChild() ; child ; child = child->getNext() ) {
if (SP_IS_TITLE(child) || SP_IS_DESC(child)) {
continue;
}
if (SP_IS_STRING(child)) {
child->getRepr()->setContent(SP_STRING(child)->string.c_str());
} else {
child->updateRepr(flags);
}
}
}
this->attributes.writeTo(repr);
this->rebuildLayout(); // copied from update(), see LP Bug 1339305
// deprecated attribute, but keep it around for backwards compatibility
if (this->style->line_height.set && !this->style->line_height.inherit && !this->style->line_height.normal && this->style->line_height.unit == SP_CSS_UNIT_PERCENT) {
Inkscape::SVGOStringStream os;
os << (this->style->line_height.value * 100.0) << "%";
this->getRepr()->setAttribute("sodipodi:linespacing", os.str().c_str());
} else {
this->getRepr()->setAttribute("sodipodi:linespacing", NULL);
}
// SVG 2 Auto-wrapped text
if( this->width.computed > 0.0 ) {
sp_repr_set_svg_double(repr, "width", this->width.computed);
}
if( this->height.computed > 0.0 ) {
sp_repr_set_svg_double(repr, "height", this->height.computed);
}
SPItem::write(xml_doc, repr, flags);
return repr;
}
Geom::OptRect SPText::bbox(Geom::Affine const &transform, SPItem::BBoxType type) const {
Geom::OptRect bbox = SP_TEXT(this)->layout.bounds(transform);
// FIXME this code is incorrect
if (bbox && type == SPItem::VISUAL_BBOX && !this->style->stroke.isNone()) {
double scale = transform.descrim();
bbox->expandBy(0.5 * this->style->stroke_width.computed * scale);
}
return bbox;
}
Inkscape::DrawingItem* SPText::show(Inkscape::Drawing &drawing, unsigned /*key*/, unsigned /*flags*/) {
Inkscape::DrawingGroup *flowed = new Inkscape::DrawingGroup(drawing);
flowed->setPickChildren(false);
flowed->setStyle(this->style, this->parent->style);
// pass the bbox of the text object as paintbox (used for paintserver fills)
this->layout.show(flowed, this->geometricBounds());
return flowed;
}
void SPText::hide(unsigned int key) {
for (SPItemView* v = this->display; v != NULL; v = v->next) {
if (v->key == key) {
Inkscape::DrawingGroup *g = dynamic_cast<Inkscape::DrawingGroup *>(v->arenaitem);
this->_clearFlow(g);
}
}
}
const char* SPText::displayName() const {
return _("Text");
}
gchar* SPText::description() const {
SPStyle *style = this->style;
char *n = xml_quote_strdup( style->font_family.value );
Inkscape::Util::Quantity q = Inkscape::Util::Quantity(style->font_size.computed, "px");
GString *xs = g_string_new(q.string(SP_ACTIVE_DESKTOP->getNamedView()->display_units).c_str());
char const *trunc = "";
Inkscape::Text::Layout const *layout = te_get_layout((SPItem *) this);
if (layout && layout->inputTruncated()) {
trunc = _(" [truncated]");
}
char *ret = ( SP_IS_TEXT_TEXTPATH(this)
? g_strdup_printf(_("on path%s (%s, %s)"), trunc, n, xs->str)
: g_strdup_printf(_("%s (%s, %s)"), trunc, n, xs->str) );
return ret;
}
void SPText::snappoints(std::vector<Inkscape::SnapCandidatePoint> &p, Inkscape::SnapPreferences const *snapprefs) const {
if (snapprefs->isTargetSnappable(Inkscape::SNAPTARGET_TEXT_BASELINE)) {
// Choose a point on the baseline for snapping from or to, with the horizontal position
// of this point depending on the text alignment (left vs. right)
Inkscape::Text::Layout const *layout = te_get_layout(this);
if (layout != NULL && layout->outputExists()) {
boost::optional<Geom::Point> pt = layout->baselineAnchorPoint();
if (pt) {
p.push_back(Inkscape::SnapCandidatePoint((*pt) * this->i2dt_affine(), Inkscape::SNAPSOURCE_TEXT_ANCHOR, Inkscape::SNAPTARGET_TEXT_ANCHOR));
}
}
}
}
Geom::Affine SPText::set_transform(Geom::Affine const &xform) {
// we cannot optimize textpath because changing its fontsize will break its match to the path
if (SP_IS_TEXT_TEXTPATH (this)) {
if (!this->_optimizeTextpathText) {
return xform;
} else {
this->_optimizeTextpathText = false;
}
}
// we cannot optimize text with textLength because it may show different size than specified
if (this->attributes.getTextLength()->_set)
return xform;
/* This function takes care of scaling & translation only, we return whatever parts we can't
handle. */
// TODO: pjrm tried to use fontsize_expansion(xform) here and it works for text in that font size
// is scaled more intuitively when scaling non-uniformly; however this necessitated using
// fontsize_expansion instead of expansion in other places too, where it was not appropriate
// (e.g. it broke stroke width on copy/pasting of style from horizontally stretched to vertically
// stretched shape). Using fontsize_expansion only here broke setting the style via font
// dialog. This needs to be investigated further.
double const ex = xform.descrim();
if (ex == 0) {
return xform;
}
Geom::Affine ret(Geom::Affine(xform).withoutTranslation());
ret[0] /= ex;
ret[1] /= ex;
ret[2] /= ex;
ret[3] /= ex;
// Adjust x/y, dx/dy
this->_adjustCoordsRecursive (this, xform * ret.inverse(), ex);
// Adjust font size
this->_adjustFontsizeRecursive (this, ex);
// Adjust stroke width
this->adjust_stroke_width_recursive (ex);
// Adjust pattern fill
this->adjust_pattern(xform * ret.inverse());
// Adjust gradient fill
this->adjust_gradient(xform * ret.inverse());
this->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG | SP_TEXT_LAYOUT_MODIFIED_FLAG);
return ret;
}
void SPText::print(SPPrintContext *ctx) {
Geom::OptRect pbox, bbox, dbox;
pbox = this->geometricBounds();
bbox = this->desktopVisualBounds();
dbox = Geom::Rect::from_xywh(Geom::Point(0,0), this->document->getDimensions());
Geom::Affine const ctm (this->i2dt_affine());
this->layout.print(ctx,pbox,dbox,bbox,ctm);
}
/*
* Member functions
*/
unsigned SPText::_buildLayoutInput(SPObject *root, Inkscape::Text::Layout::OptionalTextTagAttrs const &parent_optional_attrs, unsigned parent_attrs_offset, bool in_textpath)
{
unsigned length = 0;
int child_attrs_offset = 0;
Inkscape::Text::Layout::OptionalTextTagAttrs optional_attrs;
// Test SVG 2 text in shape implementation
// To do: follow SPItem clip_ref/mask_ref code
if (style->shape_inside.set ) {
// Extract out id
Glib::ustring shape_url = style->shape_inside.value;
if ( shape_url.compare(0,5,"url(#") != 0 || shape_url.compare(shape_url.size()-1,1,")") != 0 ){
std::cerr << "SPText::_buildLayoutInput(): Invalid shape-inside value: " << shape_url << std::endl;
} else {
shape_url.erase(0,5);
shape_url.erase(shape_url.size()-1,1);
// std::cout << "SPText::_buildLayoutInput(): shape-inside: " << shape_url << std::endl;
SPShape *shape = dynamic_cast<SPShape *>(document->getObjectById( shape_url ));
if ( shape ) {
// This code adapted from sp-flowregion.cpp: GetDest()
if (!(shape->_curve)) {
shape->set_shape();
}
SPCurve *curve = shape->getCurve();
if ( curve ) {
Path *temp = new Path;
Path *padded = new Path;
temp->LoadPathVector( curve->get_pathvector(), shape->transform, true );
if( style->shape_padding.set ) {
// std::cout << " padding: " << style->shape_padding.computed << std::endl;
temp->OutsideOutline ( padded, style->shape_padding.computed, join_round, butt_straight, 20.0 );
} else {
// std::cout << " no padding" << std::endl;
padded->Copy( temp );
}
padded->Convert( 0.25 ); // Convert to polyline
Shape* sh = new Shape;
padded->Fill( sh, 0 );
// for( unsigned i = 0; i < temp->pts.size(); ++i ) {
// std::cout << " ........ " << temp->pts[i].p << std::endl;
// }
// std::cout << " ...... shape: " << sh->numberOfPoints() << std::endl;
Shape *uncross = new Shape;
uncross->ConvertToShape( sh );
layout.appendWrapShape( uncross );
delete temp;
delete padded;
delete sh;
// delete uncross;
} else {
std::cerr << "SPText::_buildLayoutInput(): Failed to get curve." << std::endl;
}
} else {
std::cerr << "SPText::_buildLayoutInput(): Failed to find shape." << std::endl;
}
}
}
if (SP_IS_TEXT(root)) {
SP_TEXT(root)->attributes.mergeInto(&optional_attrs, parent_optional_attrs, parent_attrs_offset, true, true);
if (SP_TEXT(root)->attributes.getTextLength()->_set) { // set textLength on the entire layout, see note in TNG-Layout.h
layout.textLength._set = true;
layout.textLength.value = SP_TEXT(root)->attributes.getTextLength()->value;
layout.textLength.computed = SP_TEXT(root)->attributes.getTextLength()->computed;
layout.textLength.unit = SP_TEXT(root)->attributes.getTextLength()->unit;
layout.lengthAdjust = (Inkscape::Text::Layout::LengthAdjust) SP_TEXT(root)->attributes.getLengthAdjust();
}
}
else if (SP_IS_TSPAN(root)) {
SPTSpan *tspan = SP_TSPAN(root);
// x, y attributes are stripped from some tspans marked with role="line" as we do our own line layout.
// This should be checked carefully, as it can undo line layout in imported SVG files.
bool use_xy = !in_textpath && (tspan->role == SP_TSPAN_ROLE_UNSPECIFIED || !tspan->attributes.singleXYCoordinates());
tspan->attributes.mergeInto(&optional_attrs, parent_optional_attrs, parent_attrs_offset, use_xy, true);
}
else if (SP_IS_TREF(root)) {
SP_TREF(root)->attributes.mergeInto(&optional_attrs, parent_optional_attrs, parent_attrs_offset, true, true);
}
else if (SP_IS_TEXTPATH(root)) {
in_textpath = true;
SP_TEXTPATH(root)->attributes.mergeInto(&optional_attrs, parent_optional_attrs, parent_attrs_offset, false, true);
optional_attrs.x.clear();
optional_attrs.y.clear();
}
else {
optional_attrs = parent_optional_attrs;
child_attrs_offset = parent_attrs_offset;
}
if (SP_IS_TSPAN(root)) {
if (SP_TSPAN(root)->role != SP_TSPAN_ROLE_UNSPECIFIED) {
// we need to allow the first line not to have role=line, but still set the source_cookie to the right value
SPObject *prev_object = root->getPrev();
if (prev_object && SP_IS_TSPAN(prev_object)) {
if (!layout.inputExists()) {
layout.appendText("", prev_object->style, prev_object, &optional_attrs);
}
layout.appendControlCode(Inkscape::Text::Layout::PARAGRAPH_BREAK, prev_object);
}
if (!root->hasChildren()) {
layout.appendText("", root->style, root, &optional_attrs);
}
length++; // interpreting line breaks as a character for the purposes of x/y/etc attributes
// is a liberal interpretation of the svg spec, but a strict reading would mean
// that if the first line is empty the second line would take its place at the
// start position. Very confusing.
child_attrs_offset--;
}
}
for (SPObject *child = root->firstChild() ; child ; child = child->getNext() ) {
SPString *str = dynamic_cast<SPString *>(child);
if (str) {
Glib::ustring const &string = str->string;
// std::cout << " Appending: " << string << std::endl;
layout.appendText(string, root->style, child, &optional_attrs, child_attrs_offset + length);
length += string.length();
} else if (!sp_repr_is_meta_element(child->getRepr())) {
/* ^^^^ XML Tree being directly used here while it shouldn't be.*/
length += _buildLayoutInput(child, optional_attrs, child_attrs_offset + length, in_textpath);
}
}
return length;
}
void SPText::rebuildLayout()
{
layout.clear();
Inkscape::Text::Layout::OptionalTextTagAttrs optional_attrs;
_buildLayoutInput(this, optional_attrs, 0, false);
layout.calculateFlow();
for (SPObject *child = firstChild() ; child ; child = child->getNext() ) {
if (SP_IS_TEXTPATH(child)) {
SPTextPath const *textpath = SP_TEXTPATH(child);
if (textpath->originalPath != NULL) {
//g_print("%s", layout.dumpAsText().c_str());
layout.fitToPathAlign(textpath->startOffset, *textpath->originalPath);
}
}
}
//g_print("%s", layout.dumpAsText().c_str());
// set the x,y attributes on role:line spans
for (SPObject *child = firstChild() ; child ; child = child->getNext() ) {
if (SP_IS_TSPAN(child)) {
SPTSpan *tspan = SP_TSPAN(child);
if ( (tspan->role != SP_TSPAN_ROLE_UNSPECIFIED)
&& tspan->attributes.singleXYCoordinates() ) {
Inkscape::Text::Layout::iterator iter = layout.sourceToIterator(tspan);
Geom::Point anchor_point = layout.chunkAnchorPoint(iter);
tspan->attributes.setFirstXY(anchor_point);
}
}
}
}
void SPText::_adjustFontsizeRecursive(SPItem *item, double ex, bool is_root)
{
SPStyle *style = item->style;
if (style && !Geom::are_near(ex, 1.0)) {
if (!style->font_size.set && is_root) {
style->font_size.set = 1;
}
style->font_size.type = SP_FONT_SIZE_LENGTH;
style->font_size.computed *= ex;
style->letter_spacing.computed *= ex;
style->word_spacing.computed *= ex;
item->updateRepr();
}
for (SPObject *o = item->children; o != NULL; o = o->next) {
if (SP_IS_ITEM(o))
_adjustFontsizeRecursive(SP_ITEM(o), ex, false);
}
}
void SPText::_adjustCoordsRecursive(SPItem *item, Geom::Affine const &m, double ex, bool is_root)
{
if (SP_IS_TSPAN(item))
SP_TSPAN(item)->attributes.transform(m, ex, ex, is_root);
// it doesn't matter if we change the x,y for role=line spans because we'll just overwrite them anyway
else if (SP_IS_TEXT(item))
SP_TEXT(item)->attributes.transform(m, ex, ex, is_root);
else if (SP_IS_TEXTPATH(item))
SP_TEXTPATH(item)->attributes.transform(m, ex, ex, is_root);
else if (SP_IS_TREF(item)) {
SP_TREF(item)->attributes.transform(m, ex, ex, is_root);
}
for (SPObject *o = item->children; o != NULL; o = o->next) {
if (SP_IS_ITEM(o))
_adjustCoordsRecursive(SP_ITEM(o), m, ex, false);
}
}
void SPText::_clearFlow(Inkscape::DrawingGroup *in_arena)
{
in_arena->clearChildren();
}
/*
* TextTagAttributes implementation
*/
void TextTagAttributes::readFrom(Inkscape::XML::Node const *node)
{
readSingleAttribute(SP_ATTR_X, node->attribute("x"));
readSingleAttribute(SP_ATTR_Y, node->attribute("y"));
readSingleAttribute(SP_ATTR_DX, node->attribute("dx"));
readSingleAttribute(SP_ATTR_DY, node->attribute("dy"));
readSingleAttribute(SP_ATTR_ROTATE, node->attribute("rotate"));
readSingleAttribute(SP_ATTR_TEXTLENGTH, node->attribute("textLength"));
readSingleAttribute(SP_ATTR_LENGTHADJUST, node->attribute("lengthAdjust"));
}
bool TextTagAttributes::readSingleAttribute(unsigned key, gchar const *value)
{
std::vector<SVGLength> *attr_vector;
switch (key) {
case SP_ATTR_X: attr_vector = &attributes.x; break;
case SP_ATTR_Y: attr_vector = &attributes.y; break;
case SP_ATTR_DX: attr_vector = &attributes.dx; break;
case SP_ATTR_DY: attr_vector = &attributes.dy; break;
case SP_ATTR_ROTATE: attr_vector = &attributes.rotate; break;
case SP_ATTR_TEXTLENGTH:
attributes.textLength.readOrUnset(value);
return true;
break;
case SP_ATTR_LENGTHADJUST:
attributes.lengthAdjust = (value && !strcmp(value, "spacingAndGlyphs")?
Inkscape::Text::Layout::LENGTHADJUST_SPACINGANDGLYPHS :
Inkscape::Text::Layout::LENGTHADJUST_SPACING); // default is "spacing"
return true;
break;
default: return false;
}
// FIXME: sp_svg_length_list_read() amalgamates repeated separators. This prevents unset values.
*attr_vector = sp_svg_length_list_read(value);
return true;
}
void TextTagAttributes::writeTo(Inkscape::XML::Node *node) const
{
writeSingleAttributeVector(node, "x", attributes.x);
writeSingleAttributeVector(node, "y", attributes.y);
writeSingleAttributeVector(node, "dx", attributes.dx);
writeSingleAttributeVector(node, "dy", attributes.dy);
writeSingleAttributeVector(node, "rotate", attributes.rotate);
writeSingleAttributeLength(node, "textLength", attributes.textLength);
if (attributes.textLength._set) {
if (attributes.lengthAdjust == Inkscape::Text::Layout::LENGTHADJUST_SPACING) {
node->setAttribute("lengthAdjust", "spacing");
} else if (attributes.lengthAdjust == Inkscape::Text::Layout::LENGTHADJUST_SPACINGANDGLYPHS) {
node->setAttribute("lengthAdjust", "spacingAndGlyphs");
}
}
}
void TextTagAttributes::writeSingleAttributeLength(Inkscape::XML::Node *node, gchar const *key, const SVGLength &length)
{
if (length._set) {
gchar single_value_string[32];
g_ascii_formatd(single_value_string, sizeof (single_value_string), "%.8g", length.computed);
node->setAttribute(key, single_value_string);
} else
node->setAttribute(key, NULL);
}
void TextTagAttributes::writeSingleAttributeVector(Inkscape::XML::Node *node, gchar const *key, std::vector<SVGLength> const &attr_vector)
{
if (attr_vector.empty())
node->setAttribute(key, NULL);
else {
Glib::ustring string;
gchar single_value_string[32];
// FIXME: this has no concept of unset values because sp_svg_length_list_read() can't read them back in
for (std::vector<SVGLength>::const_iterator it = attr_vector.begin() ; it != attr_vector.end() ; ++it) {
g_ascii_formatd(single_value_string, sizeof (single_value_string), "%.8g", it->computed);
if (!string.empty()) string += ' ';
string += single_value_string;
}
node->setAttribute(key, string.c_str());
}
}
bool TextTagAttributes::singleXYCoordinates() const
{
return attributes.x.size() <= 1 && attributes.y.size() <= 1;
}
bool TextTagAttributes::anyAttributesSet() const
{
return !attributes.x.empty() || !attributes.y.empty() || !attributes.dx.empty() || !attributes.dy.empty() || !attributes.rotate.empty();
}
Geom::Point TextTagAttributes::firstXY() const
{
Geom::Point point;
if (attributes.x.empty()) point[Geom::X] = 0.0;
else point[Geom::X] = attributes.x[0].computed;
if (attributes.y.empty()) point[Geom::Y] = 0.0;
else point[Geom::Y] = attributes.y[0].computed;
return point;
}
void TextTagAttributes::setFirstXY(Geom::Point &point)
{
SVGLength zero_length;
zero_length = 0.0;
if (attributes.x.empty())
attributes.x.resize(1, zero_length);
if (attributes.y.empty())
attributes.y.resize(1, zero_length);
attributes.x[0].computed = point[Geom::X];
attributes.y[0].computed = point[Geom::Y];
}
void TextTagAttributes::mergeInto(Inkscape::Text::Layout::OptionalTextTagAttrs *output, Inkscape::Text::Layout::OptionalTextTagAttrs const &parent_attrs, unsigned parent_attrs_offset, bool copy_xy, bool copy_dxdyrotate) const
{
mergeSingleAttribute(&output->x, parent_attrs.x, parent_attrs_offset, copy_xy ? &attributes.x : NULL);
mergeSingleAttribute(&output->y, parent_attrs.y, parent_attrs_offset, copy_xy ? &attributes.y : NULL);
mergeSingleAttribute(&output->dx, parent_attrs.dx, parent_attrs_offset, copy_dxdyrotate ? &attributes.dx : NULL);
mergeSingleAttribute(&output->dy, parent_attrs.dy, parent_attrs_offset, copy_dxdyrotate ? &attributes.dy : NULL);
mergeSingleAttribute(&output->rotate, parent_attrs.rotate, parent_attrs_offset, copy_dxdyrotate ? &attributes.rotate : NULL);
if (attributes.textLength._set) { // only from current node, this is not inherited from parent
output->textLength.value = attributes.textLength.value;
output->textLength.computed = attributes.textLength.computed;
output->textLength.unit = attributes.textLength.unit;
output->textLength._set = attributes.textLength._set;
output->lengthAdjust = attributes.lengthAdjust;
}
}
void TextTagAttributes::mergeSingleAttribute(std::vector<SVGLength> *output_list, std::vector<SVGLength> const &parent_list, unsigned parent_offset, std::vector<SVGLength> const *overlay_list)
{
output_list->clear();
if (overlay_list == NULL) {
if (parent_list.size() > parent_offset)
{
output_list->reserve(parent_list.size() - parent_offset);
std::copy(parent_list.begin() + parent_offset, parent_list.end(), std::back_inserter(*output_list));
}
} else {
output_list->reserve(std::max((int)parent_list.size() - (int)parent_offset, (int)overlay_list->size()));
unsigned overlay_offset = 0;
while (parent_offset < parent_list.size() || overlay_offset < overlay_list->size()) {
SVGLength const *this_item;
if (overlay_offset < overlay_list->size()) {
this_item = &(*overlay_list)[overlay_offset];
overlay_offset++;
parent_offset++;
} else {
this_item = &parent_list[parent_offset];
parent_offset++;
}
output_list->push_back(*this_item);
}
}
}
void TextTagAttributes::erase(unsigned start_index, unsigned n)
{
if (n == 0) return;
if (!singleXYCoordinates()) {
eraseSingleAttribute(&attributes.x, start_index, n);
eraseSingleAttribute(&attributes.y, start_index, n);
}
eraseSingleAttribute(&attributes.dx, start_index, n);
eraseSingleAttribute(&attributes.dy, start_index, n);
eraseSingleAttribute(&attributes.rotate, start_index, n);
}
void TextTagAttributes::eraseSingleAttribute(std::vector<SVGLength> *attr_vector, unsigned start_index, unsigned n)
{
if (attr_vector->size() <= start_index) return;
if (attr_vector->size() <= start_index + n)
attr_vector->erase(attr_vector->begin() + start_index, attr_vector->end());
else
attr_vector->erase(attr_vector->begin() + start_index, attr_vector->begin() + start_index + n);
}
void TextTagAttributes::insert(unsigned start_index, unsigned n)
{
if (n == 0) return;
if (!singleXYCoordinates()) {
insertSingleAttribute(&attributes.x, start_index, n, true);
insertSingleAttribute(&attributes.y, start_index, n, true);
}
insertSingleAttribute(&attributes.dx, start_index, n, false);
insertSingleAttribute(&attributes.dy, start_index, n, false);
insertSingleAttribute(&attributes.rotate, start_index, n, false);
}
void TextTagAttributes::insertSingleAttribute(std::vector<SVGLength> *attr_vector, unsigned start_index, unsigned n, bool is_xy)
{
if (attr_vector->size() <= start_index) return;
SVGLength zero_length;
zero_length = 0.0;
attr_vector->insert(attr_vector->begin() + start_index, n, zero_length);
if (is_xy) {
double begin = start_index == 0 ? (*attr_vector)[start_index + n].computed : (*attr_vector)[start_index - 1].computed;
double diff = ((*attr_vector)[start_index + n].computed - begin) / n; // n tested for nonzero in insert()
for (unsigned i = 0 ; i < n ; i++)
(*attr_vector)[start_index + i] = begin + diff * i;
}
}
void TextTagAttributes::split(unsigned index, TextTagAttributes *second)
{
if (!singleXYCoordinates()) {
splitSingleAttribute(&attributes.x, index, &second->attributes.x, false);
splitSingleAttribute(&attributes.y, index, &second->attributes.y, false);
}
splitSingleAttribute(&attributes.dx, index, &second->attributes.dx, true);
splitSingleAttribute(&attributes.dy, index, &second->attributes.dy, true);
splitSingleAttribute(&attributes.rotate, index, &second->attributes.rotate, true);
}
void TextTagAttributes::splitSingleAttribute(std::vector<SVGLength> *first_vector, unsigned index, std::vector<SVGLength> *second_vector, bool trimZeros)
{
second_vector->clear();
if (first_vector->size() <= index) return;
second_vector->resize(first_vector->size() - index);
std::copy(first_vector->begin() + index, first_vector->end(), second_vector->begin());
first_vector->resize(index);
if (trimZeros)
while (!first_vector->empty() && (!first_vector->back()._set || first_vector->back().value == 0.0))
first_vector->resize(first_vector->size() - 1);
}
void TextTagAttributes::join(TextTagAttributes const &first, TextTagAttributes const &second, unsigned second_index)
{
if (second.singleXYCoordinates()) {
attributes.x = first.attributes.x;
attributes.y = first.attributes.y;
} else {
joinSingleAttribute(&attributes.x, first.attributes.x, second.attributes.x, second_index);
joinSingleAttribute(&attributes.y, first.attributes.y, second.attributes.y, second_index);
}
joinSingleAttribute(&attributes.dx, first.attributes.dx, second.attributes.dx, second_index);
joinSingleAttribute(&attributes.dy, first.attributes.dy, second.attributes.dy, second_index);
joinSingleAttribute(&attributes.rotate, first.attributes.rotate, second.attributes.rotate, second_index);
}
void TextTagAttributes::joinSingleAttribute(std::vector<SVGLength> *dest_vector, std::vector<SVGLength> const &first_vector, std::vector<SVGLength> const &second_vector, unsigned second_index)
{
if (second_vector.empty())
*dest_vector = first_vector;
else {
dest_vector->resize(second_index + second_vector.size());
if (first_vector.size() < second_index) {
std::copy(first_vector.begin(), first_vector.end(), dest_vector->begin());
SVGLength zero_length;
zero_length = 0.0;
std::fill(dest_vector->begin() + first_vector.size(), dest_vector->begin() + second_index, zero_length);
} else
std::copy(first_vector.begin(), first_vector.begin() + second_index, dest_vector->begin());
std::copy(second_vector.begin(), second_vector.end(), dest_vector->begin() + second_index);
}
}
void TextTagAttributes::transform(Geom::Affine const &matrix, double scale_x, double scale_y, bool extend_zero_length)
{
SVGLength zero_length;
zero_length = 0.0;
/* edge testcases for this code:
1) moving text elements whose position is done entirely with transform="...", no x,y attributes
2) unflowing multi-line flowtext then moving it (it has x but not y)
*/
unsigned points_count = std::max(attributes.x.size(), attributes.y.size());
if (extend_zero_length && points_count < 1)
points_count = 1;
for (unsigned i = 0 ; i < points_count ; i++) {
Geom::Point point;
if (i < attributes.x.size()) point[Geom::X] = attributes.x[i].computed;
else point[Geom::X] = 0.0;
if (i < attributes.y.size()) point[Geom::Y] = attributes.y[i].computed;
else point[Geom::Y] = 0.0;
point *= matrix;
if (i < attributes.x.size())
attributes.x[i] = point[Geom::X];
else if (point[Geom::X] != 0.0 && extend_zero_length) {
attributes.x.resize(i + 1, zero_length);
attributes.x[i] = point[Geom::X];
}
if (i < attributes.y.size())
attributes.y[i] = point[Geom::Y];
else if (point[Geom::Y] != 0.0 && extend_zero_length) {
attributes.y.resize(i + 1, zero_length);
attributes.y[i] = point[Geom::Y];
}
}
for (std::vector<SVGLength>::iterator it = attributes.dx.begin() ; it != attributes.dx.end() ; ++it)
*it = it->computed * scale_x;
for (std::vector<SVGLength>::iterator it = attributes.dy.begin() ; it != attributes.dy.end() ; ++it)
*it = it->computed * scale_y;
}
double TextTagAttributes::getDx(unsigned index)
{
if( attributes.dx.empty()) {
return 0.0;
}
if( index < attributes.dx.size() ) {
return attributes.dx[index].computed;
} else {
return 0.0; // attributes.dx.back().computed;
}
}
double TextTagAttributes::getDy(unsigned index)
{
if( attributes.dy.empty() ) {
return 0.0;
}
if( index < attributes.dy.size() ) {
return attributes.dy[index].computed;
} else {
return 0.0; // attributes.dy.back().computed;
}
}
void TextTagAttributes::addToDx(unsigned index, double delta)
{
SVGLength zero_length;
zero_length = 0.0;
if (attributes.dx.size() < index + 1) attributes.dx.resize(index + 1, zero_length);
attributes.dx[index] = attributes.dx[index].computed + delta;
}
void TextTagAttributes::addToDy(unsigned index, double delta)
{
SVGLength zero_length;
zero_length = 0.0;
if (attributes.dy.size() < index + 1) attributes.dy.resize(index + 1, zero_length);
attributes.dy[index] = attributes.dy[index].computed + delta;
}
void TextTagAttributes::addToDxDy(unsigned index, Geom::Point const &adjust)
{
SVGLength zero_length;
zero_length = 0.0;
if (adjust[Geom::X] != 0.0) {
if (attributes.dx.size() < index + 1) attributes.dx.resize(index + 1, zero_length);
attributes.dx[index] = attributes.dx[index].computed + adjust[Geom::X];
}
if (adjust[Geom::Y] != 0.0) {
if (attributes.dy.size() < index + 1) attributes.dy.resize(index + 1, zero_length);
attributes.dy[index] = attributes.dy[index].computed + adjust[Geom::Y];
}
}
double TextTagAttributes::getRotate(unsigned index)
{
if( attributes.rotate.empty() ) {
return 0.0;
}
if( index < attributes.rotate.size() ) {
return attributes.rotate[index].computed;
} else {
return attributes.rotate.back().computed;
}
}
void TextTagAttributes::addToRotate(unsigned index, double delta)
{
SVGLength zero_length;
zero_length = 0.0;
if (attributes.rotate.size() < index + 2) {
if (attributes.rotate.empty())
attributes.rotate.resize(index + 2, zero_length);
else
attributes.rotate.resize(index + 2, attributes.rotate.back());
}
attributes.rotate[index] = mod360(attributes.rotate[index].computed + delta);
}
void TextTagAttributes::setRotate(unsigned index, double angle)
{
SVGLength zero_length;
zero_length = 0.0;
if (attributes.rotate.size() < index + 2) {
if (attributes.rotate.empty())
attributes.rotate.resize(index + 2, zero_length);
else
attributes.rotate.resize(index + 2, attributes.rotate.back());
}
attributes.rotate[index] = mod360(angle);
}
/*
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 :