From: dvlierop2 Date: Sun, 2 Dec 2007 15:19:29 +0000 (+0000) Subject: only snap to non-smooth nodes, 2nd try. Hopefully this one is more robust X-Git-Url: https://git.tokkee.org/?a=commitdiff_plain;h=b667c7b99740e4ee3f10590337946725b02be885;p=inkscape.git only snap to non-smooth nodes, 2nd try. Hopefully this one is more robust --- diff --git a/src/sp-shape.cpp b/src/sp-shape.cpp index 7029af194..99b4977b9 100644 --- a/src/sp-shape.cpp +++ b/src/sp-shape.cpp @@ -46,6 +46,8 @@ #include "bad-uri-exception.h" #include "xml/repr.h" +#include "nodepath.cpp" // for triangle_area() + #define noSHAPE_VERBOSE static void sp_shape_class_init (SPShapeClass *klass); @@ -1099,9 +1101,6 @@ sp_shape_set_curve_insync (SPShape *shape, SPCurve *curve, unsigned int owner) /** * Return all nodes in a path that are to be considered for snapping - * - * If the attribute "sodipodi:nodetypes" has been set, then this will be used - * to discard any node on a smooth part of the path, i.e. only cusps will be returned */ static void sp_shape_snappoints(SPItem const *item, SnapPointsIter p) { @@ -1115,29 +1114,43 @@ static void sp_shape_snappoints(SPItem const *item, SnapPointsIter p) NR::Matrix const i2d (sp_item_i2d_affine (item)); - /* Use the end points of each segment of the path */ - NArtBpath const *bp = SP_CURVE_BPATH(shape->curve); - - gchar const *nodetypes = item->repr->attribute("sodipodi:nodetypes"); - int nodetype_index = 0; - - bool nodetypes_out_of_date = (!nodetypes) || (strlen(nodetypes) != (size_t)(shape->curve->end)); - // nodetypes might still be empty, e.g. for pure SVG files - // or it might not have been updated yet - - if (bp->code == NR_MOVETO) { // Indicates the start of a closed subpath, see nr-path-code.h - bp++; //The first point of a closed path is coincident with the end point. Skip the first point as we need only one - nodetype_index++; + NArtBpath const *b = SP_CURVE_BPATH(shape->curve); + g_assert((b->code == NR_MOVETO) || (b->code == NR_MOVETO_OPEN)); + + // Consider the first point in the path + NR::Point pos = b->c(3) * i2d; + if (b->code == NR_MOVETO_OPEN) { // Indicates the start of a open subpath, see nr-path-code.h + *p = pos; + // If at the other hand we're looking at a closed subpath, then we can + // skip this first point because it's coincident with the last point. } - - while (bp->code != NR_END) { - if (nodetypes_out_of_date || nodetypes[nodetype_index] == 'c') { - // if nodetypes is out of date then return any node for snapping - // otherwise only return cusps (i.e . non-smooth nodes) - *p = bp->c(3) * i2d; + b++; + + // Cycle through the subsequent nodes in the path + while (b->code != NR_END) { + pos = b->c(3) * i2d; // this is the current node + + g_assert(b->code == NR_LINETO || b->code == NR_CURVETO); + g_assert(b[1].code == NR_LINETO || b[1].code == NR_CURVETO || b[1].code == NR_END); + + if (b->code == NR_LINETO || b[1].code == NR_LINETO || b[1].code == NR_END) { + // end points of a line segment are always considered for snapping + *p = pos; + } else { + NR::Point ppos, npos; + ppos = b->c(2) * i2d; // backward handle + npos = b[1].c(1) * i2d; // forward handle + + // Determine whether a node is at a smooth part of the path, by + // calculating a measure for the collinearity of the handles + bool c1 = fabs (triangle_area (pos, ppos, npos)) < 1; // points are (almost) collinear + bool c2 = NR::L2(pos - ppos) < 1e-6 || NR::L2(pos - npos) < 1e-6; // endnode, or a node with a retracted handle + if (!(c1 & !c2)) { + *p = pos; // only return non-smooth nodes ("cusps") + } } - bp++; - nodetype_index++; + + b++; } }