measure-tool.cpp revision 050b43711c09cfc60c8e66e3957e01cadc7fff02
/*
* Our nice measuring tool
*
* Authors:
* Felipe Correa da Silva Sanches <juca@members.fsf.org>
* Jon A. Cruz <jon@joncruz.org>
*
* Copyright (C) 2011 Authors
*
* Released under GNU GPL, read the file 'COPYING' for more information
*/
#include <gdk/gdkkeysyms.h>
#include <boost/none_t.hpp>
#include "util/units.h"
#include "macros.h"
#include "rubberband.h"
#include "display/curve.h"
#include "text-editing.h"
#include "display/sp-ctrlline.h"
#include "display/sodipodi-ctrl.h"
#include "display/sp-canvas-item.h"
#include "display/sp-canvas-util.h"
#include "desktop.h"
#include "svg/svg.h"
#include "document.h"
#include "pixmaps/cursor-measure.xpm"
#include "preferences.h"
#include "inkscape.h"
#include "knot.h"
#include "ui/tools/measure-tool.h"
#include "ui/tools/freehand-base.h"
#include "display/canvas-text.h"
#include "path-chemistry.h"
#include "2geom/line.h"
#include <2geom/path-intersection.h>
#include <2geom/pathvector.h>
#include <2geom/crossing.h>
#include <2geom/angle.h>
#include "snap.h"
#include "sp-namedview.h"
#include "sp-shape.h"
#include "sp-text.h"
#include "sp-flowtext.h"
#include "sp-defs.h"
#include "enums.h"
#include "ui/control-manager.h"
#include "knot-enums.h"
#include <glibmm/i18n.h>
using Inkscape::ControlManager;
using Inkscape::CTLINE_SECONDARY;
using Inkscape::Util::unit_table;
#define MT_KNOT_COLOR_NORMAL 0xffffff00
#define MT_KNOT_COLOR_MOUSEOVER 0xff000000
namespace Inkscape {
namespace UI {
namespace Tools {
std::vector<Inkscape::Display::TemporaryItem*> measure_tmp_items;
const std::string& MeasureTool::getPrefsPath() {
return MeasureTool::prefsPath;
}
const std::string MeasureTool::prefsPath = "/tools/measure";
namespace
{
gint const DIMENSION_OFFSET = 35;
/**
* Simple class to use for removing label overlap.
*/
class LabelPlacement {
public:
double lengthVal;
double offset;
Geom::Point start;
Geom::Point end;
};
bool SortLabelPlacement(LabelPlacement const &first, LabelPlacement const &second)
{
if (first.end[Geom::Y] == second.end[Geom::Y]) {
return first.end[Geom::X] < second.end[Geom::X];
} else {
return first.end[Geom::Y] < second.end[Geom::Y];
}
}
void repositionOverlappingLabels(std::vector<LabelPlacement> &placements, SPDesktop *desktop, Geom::Point const &normal, double fontsize)
{
std::sort(placements.begin(), placements.end(), SortLabelPlacement);
double border = 3;
Geom::Rect box;
{
Geom::Point tmp(fontsize * 8 + (border * 2), fontsize + (border * 2));
tmp = desktop->w2d(tmp);
box = Geom::Rect(-tmp[Geom::X] / 2, -tmp[Geom::Y] / 2, tmp[Geom::X] / 2, tmp[Geom::Y] / 2);
}
// Using index since vector may be re-ordered as we go.
// Starting at one, since the first item can't overlap itself
for (size_t i = 1; i < placements.size(); i++) {
LabelPlacement &place = placements[i];
bool changed = false;
do {
Geom::Rect current(box + place.end);
changed = false;
bool overlaps = false;
for (size_t j = i; (j > 0) && !overlaps; --j) {
LabelPlacement &otherPlace = placements[j - 1];
Geom::Rect target(box + otherPlace.end);
if (current.intersects(target)) {
overlaps = true;
}
}
if (overlaps) {
place.offset += (fontsize + border);
place.end = place.start - desktop->w2d(normal * place.offset);
changed = true;
}
} while (changed);
std::sort(placements.begin(), placements.begin() + i + 1, SortLabelPlacement);
}
}
/**
* Calculates where to place the anchor for the display text and arc.
*
* @param desktop the desktop that is being used.
* @param angle the angle to be displaying.
* @param baseAngle the angle of the initial baseline.
* @param startPoint the point that is the vertex of the selected angle.
* @param endPoint the point that is the end the user is manipulating for measurement.
* @param fontsize the size to display the text label at.
*/
Geom::Point calcAngleDisplayAnchor(SPDesktop *desktop, double angle, double baseAngle,
Geom::Point const &startPoint, Geom::Point const &endPoint,
double fontsize)
{
// Time for the trick work of figuring out where things should go, and how.
double lengthVal = (endPoint - startPoint).length();
double effective = baseAngle + (angle / 2);
Geom::Point where(lengthVal, 0);
where *= Geom::Affine(Geom::Rotate(effective)) * Geom::Affine(Geom::Translate(startPoint));
// When the angle is tight, the label would end up under the cursor and/or lines. Bump it
double scaledFontsize = std::abs(fontsize * desktop->w2d(Geom::Point(0, 1.0))[Geom::Y]);
if (std::abs((where - endPoint).length()) < scaledFontsize) {
where[Geom::Y] += scaledFontsize * 2;
}
// We now have the ideal position, but need to see if it will fit/work.
Geom::Rect visibleArea = desktop->get_display_area();
// Bring it in to "title safe" for the anchor point
Geom::Point textBox = desktop->w2d(Geom::Point(fontsize * 3, fontsize / 2));
textBox[Geom::Y] = std::abs(textBox[Geom::Y]);
visibleArea = Geom::Rect(visibleArea.min()[Geom::X] + textBox[Geom::X],
visibleArea.min()[Geom::Y] + textBox[Geom::Y],
visibleArea.max()[Geom::X] - textBox[Geom::X],
visibleArea.max()[Geom::Y] - textBox[Geom::Y]);
where[Geom::X] = std::min(where[Geom::X], visibleArea.max()[Geom::X]);
where[Geom::X] = std::max(where[Geom::X], visibleArea.min()[Geom::X]);
where[Geom::Y] = std::min(where[Geom::Y], visibleArea.max()[Geom::Y]);
where[Geom::Y] = std::max(where[Geom::Y], visibleArea.min()[Geom::Y]);
return where;
}
/**
* Given an angle, the arc center and edge point, draw an arc segment centered around that edge point.
*
* @param desktop the desktop that is being used.
* @param center the center point for the arc.
* @param end the point that ends at the edge of the arc segment.
* @param anchor the anchor point for displaying the text label.
* @param angle the angle of the arc segment to draw.
*/
void createAngleDisplayCurve(SPDesktop *desktop, Geom::Point const &center, Geom::Point const &end, Geom::Point const &anchor, double angle)
{
// Given that we have a point on the arc's edge and the angle of the arc, we need to get the two endpoints.
double textLen = std::abs((anchor - center).length());
double sideLen = std::abs((end - center).length());
if (sideLen > 0.0) {
double factor = std::min(1.0, textLen / sideLen);
// arc start
Geom::Point p1 = end * (Geom::Affine(Geom::Translate(-center))
* Geom::Affine(Geom::Scale(factor))
* Geom::Affine(Geom::Translate(center)));
// arc end
Geom::Point p4 = p1 * (Geom::Affine(Geom::Translate(-center))
* Geom::Affine(Geom::Rotate(-angle))
* Geom::Affine(Geom::Translate(center)));
// from Riskus
double xc = center[Geom::X];
double yc = center[Geom::Y];
double ax = p1[Geom::X] - xc;
double ay = p1[Geom::Y] - yc;
double bx = p4[Geom::X] - xc;
double by = p4[Geom::Y] - yc;
double q1 = (ax * ax) + (ay * ay);
double q2 = q1 + (ax * bx) + (ay * by);
double k2 = (4.0 / 3.0) * (std::sqrt(2 * q1 * q2) - q2) / ((ax * by) - (ay * bx));
Geom::Point p2(xc + ax - (k2 * ay),
yc + ay + (k2 * ax));
Geom::Point p3(xc + bx + (k2 * by),
yc + by - (k2 * bx));
SPCtrlCurve *curve = ControlManager::getManager().createControlCurve(desktop->getTempGroup(), p1, p2, p3, p4, CTLINE_SECONDARY);
measure_tmp_items.push_back(desktop->add_temporary_canvasitem(SP_CANVAS_ITEM(curve), 0, true));
}
}
} // namespace
static Geom::Point start_p = Geom::Point();
static Geom::Point end_p = Geom::Point();
MeasureTool::MeasureTool()
: ToolBase(cursor_measure_xpm, 4, 4)
, grabbed(NULL)
{
SPDesktop *desktop = SP_ACTIVE_DESKTOP;
// create the knot
this->knot_start = new SPKnot(desktop, N_("Measure start"));
this->knot_start->setMode(SP_KNOT_MODE_XOR);
this->knot_start->setFill(MT_KNOT_COLOR_NORMAL, MT_KNOT_COLOR_MOUSEOVER, MT_KNOT_COLOR_MOUSEOVER);
this->knot_start->setStroke(0x0000007f, 0x0000007f, 0x0000007f);
this->knot_start->setShape(SP_KNOT_SHAPE_CIRCLE);
this->knot_start->updateCtrl();
this->knot_end = new SPKnot(desktop, N_("Measure end"));
this->knot_end->setMode(SP_KNOT_MODE_XOR);
this->knot_end->setFill(MT_KNOT_COLOR_NORMAL, MT_KNOT_COLOR_MOUSEOVER, MT_KNOT_COLOR_MOUSEOVER);
this->knot_end->setStroke(0x0000007f, 0x0000007f, 0x0000007f);
this->knot_end->setShape(SP_KNOT_SHAPE_CIRCLE);
this->knot_end->updateCtrl();
if(end_p != Geom::Point()){
this->knot_start->setPosition(start_p, SP_KNOT_STATE_NORMAL);
this->knot_start->show();
this->knot_end->setPosition(end_p, SP_KNOT_STATE_NORMAL);
this->knot_end->show();
this->showCanvasItems();
}
this->_knot_start_moved_connection = this->knot_start->moved_signal.connect(sigc::mem_fun(*this, &MeasureTool::knotStartMovedHandler));
this->_knot_start_ungrabbed_connection = this->knot_start->ungrabbed_signal.connect(sigc::mem_fun(*this, &MeasureTool::knotUngrabbedHandler));
this->_knot_end_moved_connection = this->knot_end->moved_signal.connect(sigc::mem_fun(*this, &MeasureTool::knotEndMovedHandler));
this->_knot_end_ungrabbed_connection = this->knot_end->ungrabbed_signal.connect(sigc::mem_fun(*this, &MeasureTool::knotUngrabbedHandler));
}
MeasureTool::~MeasureTool() {
this->_knot_start_moved_connection.disconnect();
this->_knot_start_ungrabbed_connection.disconnect();
this->_knot_end_moved_connection.disconnect();
this->_knot_end_ungrabbed_connection.disconnect();
/* unref should call destroy */
knot_unref(this->knot_start);
knot_unref(this->knot_end);
for (size_t idx = 0; idx < measure_tmp_items.size(); ++idx) {
desktop->remove_temporary_canvasitem(measure_tmp_items[idx]);
}
measure_tmp_items.clear();
}
void MeasureTool::reverseKnots(){
Geom::Point start = start_p;
Geom::Point end = end_p;
this->knot_start->setPosition(end, SP_KNOT_STATE_NORMAL);
this->knot_start->show();
this->knot_end->setPosition(start, SP_KNOT_STATE_NORMAL);
this->knot_end->show();
this->showCanvasItems(end, start);
}
void MeasureTool::knotStartMovedHandler(SPKnot */*knot*/, Geom::Point const &ppointer, guint state){
if (!(state & GDK_SHIFT_MASK)) {
SnapManager &m = desktop->namedview->snap_manager;
m.setup(desktop);
Inkscape::SnapCandidatePoint scp(this->knot_start->position(), Inkscape::SNAPSOURCE_OTHER_HANDLE);
scp.addOrigin(this->knot_end->position());
Inkscape::SnappedPoint sp = m.freeSnap(scp);
if(start_p != sp.getPoint()){
start_p = sp.getPoint();
this->knot_start->setPosition(start_p, SP_KNOT_STATE_MOUSEOVER);
}
m.unSetup();
}
showCanvasItems(start_p, this->knot_end->position());
}
void MeasureTool::knotEndMovedHandler(SPKnot */*knot*/, Geom::Point const &ppointer, guint state){
if (!(state & GDK_SHIFT_MASK)) {
SnapManager &m = desktop->namedview->snap_manager;
m.setup(desktop);
Inkscape::SnapCandidatePoint scp(this->knot_end->position(), Inkscape::SNAPSOURCE_OTHER_HANDLE);
scp.addOrigin(this->knot_start->position());
Inkscape::SnappedPoint sp = m.freeSnap(scp);
if(end_p != sp.getPoint()){
end_p = sp.getPoint();
this->knot_end->setPosition(end_p, SP_KNOT_STATE_MOUSEOVER);
}
m.unSetup();
}
showCanvasItems(this->knot_start->position(), end_p);
}
void MeasureTool::knotUngrabbedHandler(SPKnot */*knot*/, unsigned int state){
showCanvasItems(this->knot_start->position(), end_p);
}
void MeasureTool::finish() {
this->enableGrDrag(false);
if (this->grabbed) {
sp_canvas_item_ungrab(this->grabbed, GDK_CURRENT_TIME);
this->grabbed = NULL;
}
ToolBase::finish();
}
//void MeasureTool::setup() {
// ToolBase* ec = this;
//
//// if (SP_EVENT_CONTEXT_CLASS(sp_measure_context_parent_class)->setup) {
//// SP_EVENT_CONTEXT_CLASS(sp_measure_context_parent_class)->setup(ec);
//// }
// ToolBase::setup();
//}
//gint MeasureTool::item_handler(SPItem* item, GdkEvent* event) {
// gint ret = FALSE;
//
//// if (SP_EVENT_CONTEXT_CLASS(sp_measure_context_parent_class)->item_handler) {
//// ret = SP_EVENT_CONTEXT_CLASS(sp_measure_context_parent_class)->item_handler(event_context, item, event);
//// }
// ret = ToolBase::item_handler(item, event);
//
// return ret;
//}
static void calculate_intersections(SPDesktop * /*desktop*/, SPItem* item, Geom::PathVector const &lineseg, SPCurve *curve, std::vector<double> &intersections)
{
curve->transform(item->i2doc_affine());
// Find all intersections of the control-line with this shape
Geom::CrossingSet cs = Geom::crossings(lineseg, curve->get_pathvector());
Geom::delete_duplicates(cs[0]);
// Reconstruct and store the points of intersection
for (Geom::Crossings::const_iterator m = cs[0].begin(); m != cs[0].end(); ++m) {
#if 0
//TODO: consider only visible intersections
Geom::Point intersection = lineseg[0].pointAt((*m).ta);
double eps = 0.0001;
SPDocument* doc = desktop->getDocument();
if (((*m).ta > eps &&
item == doc->getItemAtPoint(desktop->dkey, lineseg[0].pointAt((*m).ta - eps), false, NULL)) ||
((*m).ta + eps < 1 &&
item == doc->getItemAtPoint(desktop->dkey, lineseg[0].pointAt((*m).ta + eps), false, NULL)) ) {
intersections.push_back((*m).ta);
}
#else
intersections.push_back((*m).ta);
#endif
}
}
bool MeasureTool::root_handler(GdkEvent* event) {
gint ret = FALSE;
switch (event->type) {
case GDK_BUTTON_PRESS: {
this->knot_start->hide();
this->knot_end->hide();
Geom::Point const button_w(event->button.x, event->button.y);
explicitBase = boost::none;
last_end = boost::none;
start_point = desktop->w2d(button_w);
if (event->button.button == 1 && !this->space_panning) {
// save drag origin
start_point = desktop->w2d(Geom::Point(event->button.x, event->button.y));
within_tolerance = true;
ret = TRUE;
}
SnapManager &m = desktop->namedview->snap_manager;
m.setup(desktop);
m.freeSnapReturnByRef(start_point, Inkscape::SNAPSOURCE_OTHER_HANDLE);
m.unSetup();
sp_canvas_item_grab(SP_CANVAS_ITEM(desktop->acetate),
GDK_KEY_PRESS_MASK | GDK_KEY_RELEASE_MASK | GDK_BUTTON_RELEASE_MASK | GDK_POINTER_MOTION_MASK | GDK_POINTER_MOTION_HINT_MASK | GDK_BUTTON_PRESS_MASK,
NULL, event->button.time);
this->grabbed = SP_CANVAS_ITEM(desktop->acetate);
break;
}
case GDK_KEY_PRESS: {
if ((event->key.keyval == GDK_KEY_Shift_L) || (event->key.keyval == GDK_KEY_Shift_R)) {
if (last_end) {
explicitBase = last_end;
}
}
break;
}
case GDK_MOTION_NOTIFY: {
if (!(event->motion.state & GDK_BUTTON1_MASK) && !(event->motion.state & GDK_SHIFT_MASK)) {
Geom::Point const motion_w(event->motion.x, event->motion.y);
Geom::Point const motion_dt(desktop->w2d(motion_w));
SnapManager &m = desktop->namedview->snap_manager;
m.setup(desktop);
Inkscape::SnapCandidatePoint scp(motion_dt, Inkscape::SNAPSOURCE_OTHER_HANDLE);
scp.addOrigin(start_point);
m.preSnap(scp);
m.unSetup();
} else {
ret = TRUE;
Inkscape::Preferences *prefs = Inkscape::Preferences::get();
tolerance = prefs->getIntLimited("/options/dragtolerance/value", 0, 0, 100);
Geom::Point const motion_w(event->motion.x, event->motion.y);
if ( within_tolerance){
if ( Geom::LInfty( motion_w - start_point ) < tolerance) {
return FALSE; // Do not drag if we're within tolerance from origin.
}
}
// Once the user has moved farther than tolerance from the original location
// (indicating they intend to move the object, not click), then always process the
// motion notify coordinates as given (no snapping back to origin)
within_tolerance = false;
if(event->motion.time == 0 || !last_end || Geom::LInfty( motion_w - *last_end ) > (tolerance/2)){
Geom::Point const motion_w(event->motion.x, event->motion.y);
Geom::Point const motion_dt(desktop->w2d(motion_w));
Geom::Point end_point = motion_dt;
if (event->motion.state & GDK_CONTROL_MASK) {
spdc_endpoint_snap_rotation(this, end_point, start_point, event->motion.state);
} else if (!(event->motion.state & GDK_SHIFT_MASK)) {
SnapManager &m = desktop->namedview->snap_manager;
m.setup(desktop);
Inkscape::SnapCandidatePoint scp(end_point, Inkscape::SNAPSOURCE_OTHER_HANDLE);
scp.addOrigin(start_point);
Inkscape::SnappedPoint sp = m.freeSnap(scp);
end_point = sp.getPoint();
m.unSetup();
}
showCanvasItems(start_point, end_point);
last_end = motion_w ;
}
gobble_motion_events(GDK_BUTTON1_MASK);
}
break;
}
case GDK_BUTTON_RELEASE: {
this->knot_start->setPosition(start_point, SP_KNOT_STATE_NORMAL);
this->knot_start->show();
if(last_end){
Geom::Point end_point = desktop->w2d(*last_end);
if (event->button.state & GDK_CONTROL_MASK) {
spdc_endpoint_snap_rotation(this, end_point, start_point, event->motion.state);
} else if (!(event->button.state & GDK_SHIFT_MASK)) {
SnapManager &m = desktop->namedview->snap_manager;
m.setup(desktop);
Inkscape::SnapCandidatePoint scp(end_point, Inkscape::SNAPSOURCE_OTHER_HANDLE);
scp.addOrigin(start_point);
Inkscape::SnappedPoint sp = m.freeSnap(scp);
end_point = sp.getPoint();
m.unSetup();
}
this->knot_end->setPosition(end_point, SP_KNOT_STATE_NORMAL);
this->knot_end->show();
}
if (this->grabbed) {
sp_canvas_item_ungrab(this->grabbed, event->button.time);
this->grabbed = NULL;
}
sp_event_context_discard_delayed_snap_event(this);
break;
}
default:
break;
}
if (!ret) {
ret = ToolBase::root_handler(event);
}
return ret;
}
void MeasureTool::setMarkers(){
SPDesktop *desktop = this->desktop;
SPDocument *doc = desktop->getDocument();
SPObject *arrowStart = doc->getObjectById("Arrow2Sstart");
SPObject *arrowEnd = doc->getObjectById("Arrow2Send");
if (!arrowStart) {
setMarker(true);
}
if(!arrowEnd){
setMarker(false);
}
}
void MeasureTool::setMarker(bool isStart){
SPDesktop *desktop = this->desktop;
SPDocument *doc = desktop->getDocument();
SPDefs *defs = doc->getDefs();
Inkscape::XML::Node *repr;
Inkscape::XML::Document *xml_doc = doc->getReprDoc();
repr = xml_doc->createElement("svg:marker");
if(isStart){
repr->setAttribute("id", "Arrow2Sstart");
} else {
repr->setAttribute("id", "Arrow2Send");
}
repr->setAttribute("inkscape:isstock", "true");
if(isStart){
repr->setAttribute("inkscape:stockid", "Arrow2Sstart");
} else {
repr->setAttribute("inkscape:stockid", "Arrow2Send");
}
repr->setAttribute("orient", "auto");
repr->setAttribute("refX", "0.0");
repr->setAttribute("refY", "0.0");
repr->setAttribute("style", "overflow:visible;");
SPItem *item = SP_ITEM(defs->appendChildRepr(repr));
Inkscape::GC::release(repr);
item->updateRepr();
Inkscape::XML::Node *repr2;
repr2 = xml_doc->createElement("svg:path");
repr2->setAttribute("d", "M 8.7185878,4.0337352 L -2.2072895,0.016013256 L 8.7185884,-4.0017078 C 6.9730900,-1.6296469 6.9831476,1.6157441 8.7185878,4.0337352 z");
if(isStart){
repr2->setAttribute("id", "Arrow2SstartPath");
} else {
repr2->setAttribute("id", "Arrow2SendPath");
}
repr2->setAttribute("style", "fill-rule:evenodd;stroke-width:0.625;stroke-linejoin:round;stroke:#000000;stroke-opacity:1;fill:#000000;fill-opacity:1");
if(isStart){
repr2->setAttribute("transform", "scale(0.3) translate(-2.3,0)");
} else {
repr2->setAttribute("transform", "scale(0.3) rotate(180) translate(-2.3,0)");
}
SPItem *item2 = SP_ITEM(item->appendChildRepr(repr2));
Inkscape::GC::release(repr2);
item2->updateRepr();
}
void MeasureTool::toMarkDimension(){
setMarkers();
Geom::PathVector c;
Geom::Path p;
p.start(start_p);
p.appendNew<Geom::LineSegment>(end_p);
c.push_back(p);
SPDesktop *desktop = this->desktop;
SPDocument *doc = desktop->getDocument();
Inkscape::XML::Document *xml_doc = doc->getReprDoc();
if (c.size() == 1) {
Inkscape::XML::Node *repr;
repr = xml_doc->createElement("svg:path");
gchar const *str = sp_svg_write_path(c);
gchar const *style_str = "fill:none;fill-rule:evenodd;stroke:#000000;stroke-width:1;stroke-linecap:butt;stroke-linejoin:miter;stroke-miterlimit:4;stroke-dasharray:none;stroke-opacity:1;marker-start:url(#Arrow2Sstart);marker-end:url(#Arrow2Send)";
g_assert( str != NULL );
repr->setAttribute("d", str);
repr->setAttribute("style", style_str);
// Attach repr
SPItem *item = SP_ITEM(desktop->currentLayer()->appendChildRepr(repr));
Inkscape::GC::release(repr);
item->updateRepr();
}
// Flush pending updates
doc->ensureUpToDate();
reset();
}
void MeasureTool::reset(){
this->knot_start->hide();
this->knot_end->hide();
for (size_t idx = 0; idx < measure_tmp_items.size(); ++idx) {
desktop->remove_temporary_canvasitem(measure_tmp_items[idx]);
}
measure_tmp_items.clear();
}
void MeasureTool::showCanvasItems(){
showCanvasItems(start_p, end_p);
}
void MeasureTool::showCanvasItems(Geom::Point start_point, Geom::Point end_point){
SPDesktop *desktop = SP_ACTIVE_DESKTOP;
start_p = start_point;
end_p = end_point;
//clear previous temporary canvas items, we'll draw new ones
for (size_t idx = 0; idx < measure_tmp_items.size(); ++idx) {
desktop->remove_temporary_canvasitem(measure_tmp_items[idx]);
}
measure_tmp_items.clear();
Inkscape::Preferences *prefs = Inkscape::Preferences::get();
bool show_in_between = prefs->getBool("/tools/measure/show_in_between");
bool all_layers = prefs->getBool("/tools/measure/all_layers");
Geom::PathVector lineseg;
Geom::Path p;
p.start(desktop->dt2doc(start_point));
p.appendNew<Geom::LineSegment>(desktop->dt2doc(end_point));
lineseg.push_back(p);
double deltax = end_point[Geom::X] - start_point[Geom::X];
double deltay = end_point[Geom::Y] - start_point[Geom::Y];
double angle = atan2(deltay, deltax);
double baseAngle = 0;
if (explicitBase) {
double deltax2 = explicitBase.get()[Geom::X] - start_point[Geom::X];
double deltay2 = explicitBase.get()[Geom::Y] - start_point[Geom::Y];
baseAngle = atan2(deltay2, deltax2);
angle -= baseAngle;
if (angle < -M_PI) {
angle += 2 * M_PI;
} else if (angle > M_PI) {
angle -= 2 * M_PI;
}
}
std::vector<SPItem*> items;
Inkscape::Rubberband *r = Inkscape::Rubberband::get(desktop);
r->setMode(RUBBERBAND_MODE_TOUCHPATH);
if(!show_in_between){
r->start(desktop,start_point);
r->move(end_point);
items = desktop->getDocument()->getItemsAtPoints(desktop->dkey, r->getPoints(), all_layers, 2);
r->stop();
r->setMode(RUBBERBAND_MODE_TOUCHPATH);
r->start(desktop,end_point);
r->move(start_point);
std::vector<SPItem*> items_reverse = desktop->getDocument()->getItemsAtPoints(desktop->dkey, r->getPoints(), all_layers, 2);
r->stop();
if(items_reverse.size() == 2 && items_reverse[1] != items[0] && items_reverse[1] != items[1]){
items.push_back(items_reverse[1]);
}
if(items_reverse.size() >= 1 && items_reverse[0] != items[1]){
items.push_back(items_reverse[0]);
}
} else {
r->start(desktop,start_point);
r->move(end_point);
items = desktop->getDocument()->getItemsAtPoints(desktop->dkey, r->getPoints(), all_layers);
r->stop();
}
std::vector<double> intersection_times;
for (std::vector<SPItem*>::const_iterator i=items.begin();i!=items.end();i++) {
SPItem *item = *i;
if (SP_IS_SHAPE(item)) {
calculate_intersections(desktop, item, lineseg, SP_SHAPE(item)->getCurve(), intersection_times);
} else {
if (SP_IS_TEXT(item) || SP_IS_FLOWTEXT(item)) {
Inkscape::Text::Layout::iterator iter = te_get_layout(item)->begin();
do {
Inkscape::Text::Layout::iterator iter_next = iter;
iter_next.nextGlyph(); // iter_next is one glyph ahead from iter
if (iter == iter_next) {
break;
}
// get path from iter to iter_next:
SPCurve *curve = te_get_layout(item)->convertToCurves(iter, iter_next);
iter = iter_next; // shift to next glyph
if (!curve) {
continue; // error converting this glyph
}
if (curve->is_empty()) { // whitespace glyph?
curve->unref();
continue;
}
curve->transform(item->i2doc_affine());
calculate_intersections(desktop, item, lineseg, curve, intersection_times);
if (iter == te_get_layout(item)->end()) {
break;
}
} while (true);
}
}
}
Glib::ustring unit_name = prefs->getString("/tools/measure/unit");
if (!unit_name.compare("")) {
unit_name = "px";
}
double fontsize = prefs->getInt("/tools/measure/fontsize");
// Normal will be used for lines and text
Geom::Point windowNormal = Geom::unit_vector(Geom::rot90(desktop->d2w(end_point - start_point)));
Geom::Point normal = desktop->w2d(windowNormal);
std::vector<Geom::Point> intersections;
std::sort(intersection_times.begin(), intersection_times.end());
for (std::vector<double>::iterator iter_t = intersection_times.begin(); iter_t != intersection_times.end(); iter_t++) {
if(show_in_between){
intersections.push_back(lineseg[0].pointAt(*iter_t));
}
}
if(!show_in_between && intersection_times.size() > 1){
intersections.push_back(lineseg[0].pointAt(intersection_times[0]));
intersections.push_back(lineseg[0].pointAt(intersection_times[intersection_times.size()-1]));
}
if (!prefs->getBool("/tools/measure/ignore_1st_and_last", true)) {
intersections.insert(intersections.begin(),lineseg[0].pointAt(0));
intersections.push_back(lineseg[0].pointAt(1));
}
std::vector<LabelPlacement> placements;
for (size_t idx = 1; idx < intersections.size(); ++idx) {
LabelPlacement placement;
placement.lengthVal = (intersections[idx] - intersections[idx - 1]).length();
placement.lengthVal = Inkscape::Util::Quantity::convert(placement.lengthVal, "px", unit_name);
placement.offset = DIMENSION_OFFSET;
placement.start = desktop->doc2dt( (intersections[idx - 1] + intersections[idx]) / 2 );
placement.end = placement.start - (normal * placement.offset);
placements.push_back(placement);
}
// Adjust positions
repositionOverlappingLabels(placements, desktop, windowNormal, fontsize);
for (std::vector<LabelPlacement>::iterator it = placements.begin(); it != placements.end(); ++it)
{
LabelPlacement &place = *it;
// TODO cleanup memory, Glib::ustring, etc.:
gchar *measure_str = g_strdup_printf("%.2f %s", place.lengthVal, unit_name.c_str());
SPCanvasText *canvas_tooltip = sp_canvastext_new(desktop->getTempGroup(),
desktop,
place.end,
measure_str);
sp_canvastext_set_fontsize(canvas_tooltip, fontsize);
canvas_tooltip->rgba = 0xffffffff;
canvas_tooltip->rgba_background = 0x0000007f;
canvas_tooltip->outline = false;
canvas_tooltip->background = true;
canvas_tooltip->anchor_position = TEXT_ANCHOR_CENTER;
measure_tmp_items.push_back(desktop->add_temporary_canvasitem(canvas_tooltip, 0));
g_free(measure_str);
}
Geom::Point angleDisplayPt = calcAngleDisplayAnchor(desktop, angle, baseAngle,
start_point, end_point,
fontsize);
{
// TODO cleanup memory, Glib::ustring, etc.:
gchar *angle_str = g_strdup_printf("%.2f °", angle * 180/M_PI);
SPCanvasText *canvas_tooltip = sp_canvastext_new(desktop->getTempGroup(),
desktop,
angleDisplayPt,
angle_str);
sp_canvastext_set_fontsize(canvas_tooltip, fontsize);
canvas_tooltip->rgba = 0xffffffff;
canvas_tooltip->rgba_background = 0x337f337f;
canvas_tooltip->outline = false;
canvas_tooltip->background = true;
canvas_tooltip->anchor_position = TEXT_ANCHOR_CENTER;
measure_tmp_items.push_back(desktop->add_temporary_canvasitem(canvas_tooltip, 0));
g_free(angle_str);
}
{
double totallengthval = (end_point - start_point).length();
totallengthval = Inkscape::Util::Quantity::convert(totallengthval, "px", unit_name);
// TODO cleanup memory, Glib::ustring, etc.:
gchar *totallength_str = g_strdup_printf("%.2f %s", totallengthval, unit_name.c_str());
SPCanvasText *canvas_tooltip = sp_canvastext_new(desktop->getTempGroup(),
desktop,
end_point + desktop->w2d(Geom::Point(3*fontsize, -fontsize)),
totallength_str);
sp_canvastext_set_fontsize(canvas_tooltip, fontsize);
canvas_tooltip->rgba = 0xffffffff;
canvas_tooltip->rgba_background = 0x3333337f;
canvas_tooltip->outline = false;
canvas_tooltip->background = true;
canvas_tooltip->anchor_position = TEXT_ANCHOR_LEFT;
measure_tmp_items.push_back(desktop->add_temporary_canvasitem(canvas_tooltip, 0));
g_free(totallength_str);
}
if (intersections.size() > 2) {
double totallengthval = (intersections[intersections.size()-1] - intersections[0]).length();
totallengthval = Inkscape::Util::Quantity::convert(totallengthval, "px", unit_name);
// TODO cleanup memory, Glib::ustring, etc.:
gchar *total_str = g_strdup_printf("%.2f %s", totallengthval, unit_name.c_str());
SPCanvasText *canvas_tooltip = sp_canvastext_new(desktop->getTempGroup(),
desktop,
desktop->doc2dt((intersections[0] + intersections[intersections.size()-1])/2) + normal * 60,
total_str);
sp_canvastext_set_fontsize(canvas_tooltip, fontsize);
canvas_tooltip->rgba = 0xffffffff;
canvas_tooltip->rgba_background = 0x33337f7f;
canvas_tooltip->outline = false;
canvas_tooltip->background = true;
canvas_tooltip->anchor_position = TEXT_ANCHOR_CENTER;
measure_tmp_items.push_back(desktop->add_temporary_canvasitem(canvas_tooltip, 0));
g_free(total_str);
}
// Now that text has been added, we can add lines and controls so that they go underneath
for (size_t idx = 0; idx < intersections.size(); ++idx) {
// Display the intersection indicator (i.e. the cross)
SPCanvasItem * canvasitem = sp_canvas_item_new(desktop->getTempGroup(),
SP_TYPE_CTRL,
"anchor", SP_ANCHOR_CENTER,
"size", 8.0,
"stroked", TRUE,
"stroke_color", 0xff0000ff,
"mode", SP_KNOT_MODE_XOR,
"shape", SP_KNOT_SHAPE_CROSS,
NULL );
SP_CTRL(canvasitem)->moveto(desktop->doc2dt(intersections[idx]));
measure_tmp_items.push_back(desktop->add_temporary_canvasitem(canvasitem, 0));
}
// Since adding goes to the bottom, do all lines last.
// draw main control line
{
SPCtrlLine *control_line = ControlManager::getManager().createControlLine(desktop->getTempGroup(),
start_point,
end_point);
measure_tmp_items.push_back(desktop->add_temporary_canvasitem(control_line, 0));
if ((end_point[Geom::X] != start_point[Geom::X]) && (end_point[Geom::Y] != start_point[Geom::Y])) {
double length = std::abs((end_point - start_point).length());
Geom::Point anchorEnd = start_point;
anchorEnd[Geom::X] += length;
if (explicitBase) {
anchorEnd *= (Geom::Affine(Geom::Translate(-start_point))
* Geom::Affine(Geom::Rotate(baseAngle))
* Geom::Affine(Geom::Translate(start_point)));
}
SPCtrlLine *control_line = ControlManager::getManager().createControlLine(desktop->getTempGroup(),
start_point,
anchorEnd,
CTLINE_SECONDARY);
measure_tmp_items.push_back(desktop->add_temporary_canvasitem(control_line, 0));
createAngleDisplayCurve(desktop, start_point, end_point, angleDisplayPt, angle);
}
}
if (intersections.size() > 2) {
ControlManager &mgr = ControlManager::getManager();
SPCtrlLine *control_line = 0;
control_line = mgr.createControlLine(desktop->getTempGroup(),
desktop->doc2dt(intersections[0]) + normal * 60,
desktop->doc2dt(intersections[intersections.size() - 1]) + normal * 60);
measure_tmp_items.push_back(desktop->add_temporary_canvasitem(control_line, 0));
control_line = mgr.createControlLine(desktop->getTempGroup(),
desktop->doc2dt(intersections[0]),
desktop->doc2dt(intersections[0]) + normal * 60);
measure_tmp_items.push_back(desktop->add_temporary_canvasitem(control_line, 0));
control_line = mgr.createControlLine(desktop->getTempGroup(),
desktop->doc2dt(intersections[intersections.size() - 1]),
desktop->doc2dt(intersections[intersections.size() - 1]) + normal * 60);
measure_tmp_items.push_back(desktop->add_temporary_canvasitem(control_line, 0));
}
// call-out lines
for (std::vector<LabelPlacement>::iterator it = placements.begin(); it != placements.end(); ++it)
{
LabelPlacement &place = *it;
ControlManager &mgr = ControlManager::getManager();
SPCtrlLine *control_line = mgr.createControlLine(desktop->getTempGroup(),
place.start,
place.end,
CTLINE_SECONDARY);
measure_tmp_items.push_back(desktop->add_temporary_canvasitem(control_line, 0));
}
{
for (size_t idx = 1; idx < intersections.size(); ++idx) {
Geom::Point measure_text_pos = (intersections[idx - 1] + intersections[idx]) / 2;
ControlManager &mgr = ControlManager::getManager();
SPCtrlLine *control_line = mgr.createControlLine(desktop->getTempGroup(),
desktop->doc2dt(measure_text_pos),
desktop->doc2dt(measure_text_pos) - (normal * DIMENSION_OFFSET),
CTLINE_SECONDARY);
measure_tmp_items.push_back(desktop->add_temporary_canvasitem(control_line, 0));
}
}
// Initial point
{
SPCanvasItem * canvasitem = sp_canvas_item_new(desktop->getTempGroup(),
SP_TYPE_CTRL,
"anchor", SP_ANCHOR_CENTER,
"size", 8.0,
"stroked", TRUE,
"stroke_color", 0xff0000ff,
"mode", SP_KNOT_MODE_XOR,
"shape", SP_KNOT_SHAPE_CROSS,
NULL );
SP_CTRL(canvasitem)->moveto(start_point);
measure_tmp_items.push_back(desktop->add_temporary_canvasitem(canvasitem, 0));
}
}
}
}
}
/*
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 :