/** * Coords. * * Licensed under the MIT License * */ // Dependencies: // 1) jquery.js // 2) math.js // 3) browser.js // 4) svgutils.js // 5) units.js // 6) svgtransformlist.js var svgedit = svgedit || {}; (function() { if (!svgedit.coords) { svgedit.coords = {}; } // this is how we map paths to our preferred relative segment types var pathMap = [0, 'z', 'M', 'm', 'L', 'l', 'C', 'c', 'Q', 'q', 'A', 'a', 'H', 'h', 'V', 'v', 'S', 's', 'T', 't']; var editorContext_ = null; svgedit.coords.init = function(editorContext) { editorContext_ = editorContext; }; // Function: remapElement // Applies coordinate changes to an element based on the given matrix // // Parameters: // selected - DOM element to be changed // changes - Object with changes to be remapped // m - Matrix object to use for remapping coordinates svgedit.coords.remapElement = function(selected, changes, m) { var remap = function(x, y) { return svgedit.math.transformPoint(x, y, m); }, scalew = function(w) { return m.a * w; }, scaleh = function(h) { return m.d * h; }, doSnapping = editorContext_.getGridSnapping() && selected.parentNode.parentNode.localName === 'svg', finishUp = function() { if (doSnapping) for (var o in changes) changes[o] = svgedit.utilities.snapToGrid(changes[o]); svgedit.utilities.assignAttributes(selected, changes, 1000, true); }, box = svgedit.utilities.getBBox(selected); for (var i = 0; i < 2; i++) { var type = i === 0 ? 'fill' : 'stroke'; var attrVal = selected.getAttribute(type); if (attrVal && attrVal.indexOf('url(') === 0) { if (m.a < 0 || m.d < 0) { var grad = svgedit.utilities.getRefElem(attrVal); var newgrad = grad.cloneNode(true); if (m.a < 0) { // flip x var x1 = newgrad.getAttribute('x1'); var x2 = newgrad.getAttribute('x2'); newgrad.setAttribute('x1', -(x1 - 1)); newgrad.setAttribute('x2', -(x2 - 1)); } if (m.d < 0) { // flip y var y1 = newgrad.getAttribute('y1'); var y2 = newgrad.getAttribute('y2'); newgrad.setAttribute('y1', -(y1 - 1)); newgrad.setAttribute('y2', -(y2 - 1)); } newgrad.id = editorContext_.getDrawing().getNextId(); svgedit.utilities.findDefs().appendChild(newgrad); selected.setAttribute(type, 'url(#' + newgrad.id + ')'); } // Not really working :( // if (selected.tagName === 'path') { // reorientGrads(selected, m); // } } } var elName = selected.tagName; if (elName === 'g' || elName === 'text' || elName == 'tspan' || elName === 'use') { // if it was a translate, then just update x,y if (m.a == 1 && m.b == 0 && m.c == 0 && m.d == 1 && (m.e != 0 || m.f != 0) ) { // [T][M] = [M][T'] // therefore [T'] = [M_inv][T][M] var existing = svgedit.math.transformListToTransform(selected).matrix, t_new = svgedit.math.matrixMultiply(existing.inverse(), m, existing); changes.x = parseFloat(changes.x) + t_new.e; changes.y = parseFloat(changes.y) + t_new.f; } else { // we just absorb all matrices into the element and don't do any remapping var chlist = svgedit.transformlist.getTransformList(selected); var mt = svgroot.createSVGTransform(); mt.setMatrix(svgedit.math.matrixMultiply(svgedit.math.transformListToTransform(chlist).matrix, m)); chlist.clear(); chlist.appendItem(mt); } } // now we have a set of changes and an applied reduced transform list // we apply the changes directly to the DOM switch (elName) { case 'foreignObject': case 'rect': case 'image': // Allow images to be inverted (give them matrix when flipped) if (elName === 'image' && (m.a < 0 || m.d < 0)) { // Convert to matrix var chlist = svgedit.transformlist.getTransformList(selected); var mt = svgroot.createSVGTransform(); mt.setMatrix(svgedit.math.matrixMultiply(svgedit.math.transformListToTransform(chlist).matrix, m)); chlist.clear(); chlist.appendItem(mt); } else { var pt1 = remap(changes.x, changes.y); changes.width = scalew(changes.width); changes.height = scaleh(changes.height); changes.x = pt1.x + Math.min(0, changes.width); changes.y = pt1.y + Math.min(0, changes.height); changes.width = Math.abs(changes.width); changes.height = Math.abs(changes.height); } finishUp(); break; case 'ellipse': var c = remap(changes.cx, changes.cy); changes.cx = c.x; changes.cy = c.y; changes.rx = scalew(changes.rx); changes.ry = scaleh(changes.ry); changes.rx = Math.abs(changes.rx); changes.ry = Math.abs(changes.ry); finishUp(); break; case 'circle': var c = remap(changes.cx,changes.cy); changes.cx = c.x; changes.cy = c.y; // take the minimum of the new selected box's dimensions for the new circle radius var tbox = svgedit.math.transformBox(box.x, box.y, box.width, box.height, m); var w = tbox.tr.x - tbox.tl.x, h = tbox.bl.y - tbox.tl.y; changes.r = Math.min(w/2, h/2); if (changes.r) changes.r = Math.abs(changes.r); finishUp(); break; case 'line': var pt1 = remap(changes.x1, changes.y1), pt2 = remap(changes.x2, changes.y2); changes.x1 = pt1.x; changes.y1 = pt1.y; changes.x2 = pt2.x; changes.y2 = pt2.y; // deliberately fall through here case 'text': case 'tspan': case 'use': finishUp(); break; case 'g': var gsvg = $(selected).data('gsvg'); if (gsvg) { svgedit.utilities.assignAttributes(gsvg, changes, 1000, true); } break; case 'polyline': case 'polygon': var len = changes.points.length; for (var i = 0; i < len; ++i) { var pt = changes.points[i]; pt = remap(pt.x, pt.y); changes.points[i].x = pt.x; changes.points[i].y = pt.y; } var len = changes.points.length; var pstr = ''; for (var i = 0; i < len; ++i) { var pt = changes.points[i]; pstr += pt.x + ',' + pt.y + ' '; } selected.setAttribute('points', pstr); break; case 'path': var segList = selected.pathSegList; var len = segList.numberOfItems; changes.d = new Array(len); for (var i = 0; i < len; ++i) { var seg = segList.getItem(i); changes.d[i] = { type: seg.pathSegType, x: seg.x, y: seg.y, x1: seg.x1, y1: seg.y1, x2: seg.x2, y2: seg.y2, r1: seg.r1, r2: seg.r2, angle: seg.angle, largeArcFlag: seg.largeArcFlag, sweepFlag: seg.sweepFlag }; } var len = changes.d.length, firstseg = changes.d[0], currentpt = remap(firstseg.x, firstseg.y); changes.d[0].x = currentpt.x; changes.d[0].y = currentpt.y; for (var i = 1; i < len; ++i) { var seg = changes.d[i]; var type = seg.type; // if absolute or first segment, we want to remap x, y, x1, y1, x2, y2 // if relative, we want to scalew, scaleh if (type % 2 == 0) { // absolute var thisx = (seg.x != undefined) ? seg.x : currentpt.x, // for V commands thisy = (seg.y != undefined) ? seg.y : currentpt.y, // for H commands pt = remap(thisx,thisy), pt1 = remap(seg.x1, seg.y1), pt2 = remap(seg.x2, seg.y2); seg.x = pt.x; seg.y = pt.y; seg.x1 = pt1.x; seg.y1 = pt1.y; seg.x2 = pt2.x; seg.y2 = pt2.y; seg.r1 = scalew(seg.r1), seg.r2 = scaleh(seg.r2); } else { // relative seg.x = scalew(seg.x); seg.y = scaleh(seg.y); seg.x1 = scalew(seg.x1); seg.y1 = scaleh(seg.y1); seg.x2 = scalew(seg.x2); seg.y2 = scaleh(seg.y2); seg.r1 = scalew(seg.r1), seg.r2 = scaleh(seg.r2); } } // for each segment var dstr = ''; var len = changes.d.length; for (var i = 0; i < len; ++i) { var seg = changes.d[i]; var type = seg.type; dstr += pathMap[type]; switch (type) { case 13: // relative horizontal line (h) case 12: // absolute horizontal line (H) dstr += seg.x + ' '; break; case 15: // relative vertical line (v) case 14: // absolute vertical line (V) dstr += seg.y + ' '; break; case 3: // relative move (m) case 5: // relative line (l) case 19: // relative smooth quad (t) case 2: // absolute move (M) case 4: // absolute line (L) case 18: // absolute smooth quad (T) dstr += seg.x + ',' + seg.y + ' '; break; case 7: // relative cubic (c) case 6: // absolute cubic (C) dstr += seg.x1 + ',' + seg.y1 + ' ' + seg.x2 + ',' + seg.y2 + ' ' + seg.x + ',' + seg.y + ' '; break; case 9: // relative quad (q) case 8: // absolute quad (Q) dstr += seg.x1 + ',' + seg.y1 + ' ' + seg.x + ',' + seg.y + ' '; break; case 11: // relative elliptical arc (a) case 10: // absolute elliptical arc (A) dstr += seg.r1 + ',' + seg.r2 + ' ' + seg.angle + ' ' + (+seg.largeArcFlag) + ' ' + (+seg.sweepFlag) + ' ' + seg.x + ',' + seg.y + ' '; break; case 17: // relative smooth cubic (s) case 16: // absolute smooth cubic (S) dstr += seg.x2 + ',' + seg.y2 + ' ' + seg.x + ',' + seg.y + ' '; break; } } selected.setAttribute('d', dstr); break; } }; })();