function Node_Path(_x, _y, _group = noone) : Node(_x, _y, _group) constructor { name = "Path"; previewable = false; w = 96; inputs[| 0] = nodeValue("Path progress", self, JUNCTION_CONNECT.input, VALUE_TYPE.float, 0) .setDisplay(VALUE_DISPLAY.slider, [0, 1, 0.01]); inputs[| 1] = nodeValue("Loop", self, JUNCTION_CONNECT.input, VALUE_TYPE.boolean, false) .rejectArray(); inputs[| 2] = nodeValue("Progress mode", self, JUNCTION_CONNECT.input, VALUE_TYPE.integer, 0) .setDisplay(VALUE_DISPLAY.enum_scroll, ["Entire line", "Segment"]) .rejectArray(); inputs[| 3] = nodeValue("Round anchor", self, JUNCTION_CONNECT.input, VALUE_TYPE.boolean, false) .rejectArray(); input_display_list = [ ["Path", false], 0, 2, 1, 3, ["Anchors", false], ]; input_fix_len = ds_list_size(inputs); input_display_list_len = array_length(input_display_list); function createAnchor(_x, _y, _dxx = 0, _dxy = 0, _dyx = 0, _dyy = 0) { var index = ds_list_size(inputs); inputs[| index] = nodeValue("Anchor", self, JUNCTION_CONNECT.input, VALUE_TYPE.float, [ _x, _y, _dxx, _dxy, _dyx, _dyy ]) .setDisplay(VALUE_DISPLAY.vector); array_push(input_display_list, index); return inputs[| index]; } outputs[| 0] = nodeValue("Position out", self, JUNCTION_CONNECT.output, VALUE_TYPE.float, [ 0, 0 ]) .setDisplay(VALUE_DISPLAY.vector); outputs[| 1] = nodeValue("Path data", self, JUNCTION_CONNECT.output, VALUE_TYPE.pathnode, self); outputs[| 2] = nodeValue("Anchors", self, JUNCTION_CONNECT.output, VALUE_TYPE.float, []); tool_pathDrawer = new NodeTool( "Draw path", THEME.path_tools_draw ) .addSetting("Smoothness", VALUE_TYPE.float, function(val) { tool_pathDrawer.attribute.thres = val; }, "thres", 4) .addSetting("Replace", VALUE_TYPE.boolean, function() { tool_pathDrawer.attribute.create = !tool_pathDrawer.attribute.create; }, "create", true); tools = [ new NodeTool( "Transform", THEME.path_tools_transform ), new NodeTool( "Anchor add / remove (+ Shift)", THEME.path_tools_add ), new NodeTool( "Edit Control point", THEME.path_tools_anchor ), tool_pathDrawer, new NodeTool( "Rectangle path", THEME.path_tools_rectangle ), new NodeTool( "Circle path", THEME.path_tools_circle ), ]; anchors = []; lengths = []; lengthAccs = []; boundary = []; lengthTotal = 0; drag_point = -1; drag_points = []; drag_type = 0; drag_point_mx = 0; drag_point_my = 0; drag_point_sx = 0; drag_point_sy = 0; transform_type = 0; transform_minx = 0; transform_miny = 0; transform_maxx = 0; transform_maxy = 0; transform_mx = 0; transform_my = 0; static onValueUpdate = function(index = 0) { if(index == 2) { var type = inputs[| 2].getValue(); if(type == 0) inputs[| 0].setDisplay(VALUE_DISPLAY.slider, [0, 1, 0.01]); else if(type == 1) inputs[| 0].setDisplay(VALUE_DISPLAY._default); } } static drawOverlay = function(active, _x, _y, _s, _mx, _my, _snx, _sny) { var sample = PREF_MAP[? "path_resolution"]; var loop = inputs[| 1].getValue(); var ansize = ds_list_size(inputs) - input_fix_len; if(transform_type > 0) { var dx = _mx - transform_mx; var dy = _my - transform_my; var _transform_minx = transform_minx; var _transform_miny = transform_miny; var _transform_maxx = transform_maxx; var _transform_maxy = transform_maxy; if(transform_type == 1) { transform_minx += dx / _s; transform_miny += dy / _s; } else if(transform_type == 2) { transform_maxx += dx / _s; transform_miny += dy / _s; } else if(transform_type == 3) { transform_minx += dx / _s; transform_maxy += dy / _s; } else if(transform_type == 4) { transform_maxx += dx / _s; transform_maxy += dy / _s; } else if(transform_type == 5) { for( var i = input_fix_len; i < ds_list_size(inputs); i++ ) { var p = inputs[| i].getValue(); p[0] += dx / _s; p[1] += dy / _s; inputs[| i].setValue(p); } } if(transform_type != 5) { for( var i = input_fix_len; i < ds_list_size(inputs); i++ ) { var p = inputs[| i].getValue(); p[0] = transform_minx + (p[0] - _transform_minx) / (_transform_maxx - _transform_minx) * (transform_maxx - transform_minx); p[1] = transform_miny + (p[1] - _transform_miny) / (_transform_maxy - _transform_miny) * (transform_maxy - transform_miny); inputs[| i].setValue(p); } } transform_mx = _mx; transform_my = _my; if(mouse_release(mb_left)) { transform_type = 0; UPDATE |= RENDER_TYPE.full; } } else if(drag_point > -1) { var dx = value_snap(drag_point_sx + (_mx - drag_point_mx) / _s, _snx); var dy = value_snap(drag_point_sy + (_my - drag_point_my) / _s, _sny); if(drag_type < 2) { var inp = inputs[| input_fix_len + drag_point]; var anc = inp.getValue(); if(drag_type == 0) { anc[0] = dx; anc[1] = dy; if(key_mod_press(CTRL)) { anc[0] = round(anc[0]); anc[1] = round(anc[1]); } } else if(drag_type == 1) { anc[2] = dx - anc[0]; anc[3] = dy - anc[1]; anc[4] = -anc[2]; anc[5] = -anc[3]; if(key_mod_press(CTRL)) { anc[2] = round(anc[2]); anc[3] = round(anc[3]); anc[4] = round(anc[4]); anc[5] = round(anc[5]); } } else if(drag_type == -1) { anc[4] = dx - anc[0]; anc[5] = dy - anc[1]; anc[2] = -anc[4]; anc[3] = -anc[5]; if(key_mod_press(CTRL)) { anc[2] = round(anc[2]); anc[3] = round(anc[3]); anc[4] = round(anc[4]); anc[5] = round(anc[5]); } } inp.setValue(anc); } else if(drag_type == 2) { var ox, oy, nx, ny; var pxx = (_mx - _x) / _s; var pxy = (_my - _y) / _s; draw_set_color(COLORS._main_accent); for( var i = 0; i < array_length(drag_points); i++ ) { var _p = drag_points[i]; nx = _x + _p[0] * _s; ny = _y + _p[1] * _s; if(i) draw_line(ox, oy, nx, ny); ox = nx; oy = ny; } if(point_distance(drag_point_mx, drag_point_my, pxx, pxy) > 4 / _s) { array_push(drag_points, [ pxx, pxy ]); drag_point_mx = pxx; drag_point_my = pxy; } if(mouse_release(mb_left)) { var amo = array_length(drag_points); var _p = 0; var points = []; var thres = tool_pathDrawer.attribute.thres; var replace = tool_pathDrawer.attribute.create; var asize = ds_list_size(inputs) - input_fix_len; for( var i = 0; i < amo; i++ ) { var pT = drag_points[i]; if(i == 0 || i == amo - 1) { array_push(points, i); continue; } var maxT = 0; var pF = drag_points[_p]; for( var j = _p; j < i; j++ ) { var pP = drag_points[j]; maxT = max(maxT, distance_to_line(pP[0], pP[1], pF[0], pF[1], pT[0], pT[1])); } if(maxT >= thres) { array_push(points, i); _p = i; } } var amo = array_length(points); if(!replace) amo = min(amo, asize); var i = 0; var anc = []; for( i = 0; i < amo; i++ ) { var ind = replace? i : clamp(i / amo * array_length(points), 0, array_length(points) - 1); var _ind = points[ind]; var _p = drag_points[_ind]; var dxx = 0; var dxy = 0; var dyx = 0; var dyy = 0; if(i > 0 && i < amo - 1) { var _p0 = drag_points[points[i - 1]]; var _p1 = drag_points[points[i + 1]]; var d0 = point_direction(_p0[0], _p0[1], _p[0], _p[1]); var d1 = point_direction(_p[0], _p[1], _p1[0], _p1[1]); var dd = d0 + angle_difference(d1, d0) / 2; var ds0 = point_distance(_p0[0], _p0[1], _p[0], _p[1]); var ds1 = point_distance(_p[0], _p[1], _p1[0], _p1[1]); dxx = lengthdir_x(ds0 / 3, dd + 180); dxy = lengthdir_y(ds0 / 3, dd + 180); dyx = lengthdir_x(ds1 / 3, dd); dyy = lengthdir_y(ds1 / 3, dd); } anc = [_p[0], _p[1], dxx, dxy, dyx, dyy]; if(input_fix_len + i >= ds_list_size(inputs)) createAnchor(_p[0], _p[1], dxx, dxy, dyx, dyy); else inputs[| input_fix_len + i].setValue(anc); } if(!replace) { for(; i < asize; i++ ) { inputs[| input_fix_len + i].setValue(anc); } } } } else if(drag_type == 3) { var minx = min((_mx - _x) / _s, (drag_point_mx - _x) / _s); var maxx = max((_mx - _x) / _s, (drag_point_mx - _x) / _s); var miny = min((_my - _y) / _s, (drag_point_my - _y) / _s); var maxy = max((_my - _y) / _s, (drag_point_my - _y) / _s); minx = value_snap(minx, _snx); maxx = value_snap(maxx, _snx); miny = value_snap(miny, _sny); maxy = value_snap(maxy, _sny); if(key_mod_press(SHIFT)) { var n = max(maxx - minx, maxy - miny); maxx = minx + n; maxy = miny + n; } var a = []; for( var i = 0; i < 4; i++ ) a[i] = inputs[| input_fix_len + i].getValue(); a[0][0] = minx; a[0][1] = miny; a[1][0] = maxx; a[1][1] = miny; a[2][0] = maxx; a[2][1] = maxy; a[3][0] = minx; a[3][1] = maxy; for( var i = 0; i < 4; i++ ) inputs[| input_fix_len + i].setValue(a[i]); } else if(drag_type == 4) { var minx = min((_mx - _x) / _s, (drag_point_mx - _x) / _s); var maxx = max((_mx - _x) / _s, (drag_point_mx - _x) / _s); var miny = min((_my - _y) / _s, (drag_point_my - _y) / _s); var maxy = max((_my - _y) / _s, (drag_point_my - _y) / _s); minx = value_snap(minx, _snx); maxx = value_snap(maxx, _snx); miny = value_snap(miny, _sny); maxy = value_snap(maxy, _sny); if(key_mod_press(SHIFT)) { var n = max(maxx - minx, maxy - miny); maxx = minx + n; maxy = miny + n; } var a = []; for( var i = 0; i < 4; i++ ) a[i] = inputs[| input_fix_len + i].getValue(); a[0][0] = (minx + maxx) / 2; a[0][1] = miny; a[0][2] = -(maxx - minx) * 0.27614; a[0][3] = 0; a[0][4] = (maxx - minx) * 0.27614; a[0][5] = 0; a[1][0] = maxx; a[1][1] = (miny + maxy) / 2; a[1][2] = 0; a[1][3] = -(maxy - miny) * 0.27614; a[1][4] = 0; a[1][5] = (maxy - miny) * 0.27614; a[2][0] = (minx + maxx) / 2; a[2][1] = maxy; a[2][2] = (maxx - minx) * 0.27614; a[2][3] = 0; a[2][4] = -(maxx - minx) * 0.27614; a[2][5] = 0; a[3][0] = minx; a[3][1] = (miny + maxy) / 2; a[3][2] = 0; a[3][3] = (maxy - miny) * 0.27614; a[3][4] = 0; a[3][5] = -(maxy - miny) * 0.27614; for( var i = 0; i < 4; i++ ) inputs[| input_fix_len + i].setValue(a[i]); } if(mouse_release(mb_left)) { drag_point = -1; UPDATE |= RENDER_TYPE.full; } } var line_hover = -1; var points = []; var _a0, _a1; var minx = 99999, miny = 99999; var maxx = 0 , maxy = 0; for(var i = loop? 0 : 1; i < ansize; i++) { if(i) { _a0 = inputs[| input_fix_len + i - 1].getValue(); _a1 = inputs[| input_fix_len + i].getValue(); } else { _a0 = inputs[| input_fix_len + ansize - 1].getValue(); _a1 = inputs[| input_fix_len + 0].getValue(); } var _ox = 0, _oy = 0, _nx = 0, _ny = 0, p = 0, pnt = []; for(var j = 0; j < sample; j++) { if(array_length(_a0) < 6) continue; p = eval_bezier(j / (sample - 1), _a0[0], _a0[1], _a1[0], _a1[1], _a0[0] + _a0[4], _a0[1] + _a0[5], _a1[0] + _a1[2], _a1[1] + _a1[3]); _nx = _x + p[0] * _s; _ny = _y + p[1] * _s; minx = min(minx, _nx); miny = min(miny, _ny); maxx = max(maxx, _nx); maxy = max(maxy, _ny); array_push(pnt, [ _nx, _ny ]); if(j && (key_mod_press(CTRL) || isUsingTool(1)) && distance_to_line(_mx, _my, _ox, _oy, _nx, _ny) < 4) line_hover = i; _ox = _nx; _oy = _ny; } array_push(points, pnt); } draw_set_color(isUsingTool(0)? c_white : COLORS._main_accent); var ind = 0; for(var i = loop? 0 : 1; i < ansize; i++) { for(var j = 0; j < sample; j++) { _nx = points[ind][j][0]; _ny = points[ind][j][1]; if(j) draw_line_width(_ox, _oy, _nx, _ny, 1 + 2 * (line_hover == i)); _ox = _nx; _oy = _ny; } ind++; } var anchor_hover = -1; var hover_type = 0; if(!isUsingTool(0)) for(var i = 0; i < ansize; i++) { var _a = inputs[| input_fix_len + i].getValue(); var xx = _x + _a[0] * _s; var yy = _y + _a[1] * _s; var cont = false; var _ax0 = 0, _ay0 = 0; var _ax1 = 0, _ay1 = 0; if(array_length(_a) < 6) continue; if(_a[2] != 0 || _a[3] != 0 || _a[4] != 0 || _a[5] != 0) { _ax0 = _x + (_a[0] + _a[2]) * _s; _ay0 = _y + (_a[1] + _a[3]) * _s; _ax1 = _x + (_a[0] + _a[4]) * _s; _ay1 = _y + (_a[1] + _a[5]) * _s; cont = true; draw_set_color(COLORS.node_path_overlay_control_line); draw_line(_ax0, _ay0, xx, yy); draw_line(_ax1, _ay1, xx, yy); draw_sprite_ui_uniform(THEME.anchor_selector, 2, _ax0, _ay0); draw_sprite_ui_uniform(THEME.anchor_selector, 2, _ax1, _ay1); } draw_sprite_ui_uniform(THEME.anchor_selector, 0, xx, yy); if(drag_point == i) { draw_sprite_ui_uniform(THEME.anchor_selector, 1, xx, yy); } else if(point_in_circle(_mx, _my, xx, yy, 8)) { draw_sprite_ui_uniform(THEME.anchor_selector, 1, xx, yy); anchor_hover = i; hover_type = 0; } else if(cont && point_in_circle(_mx, _my, _ax0, _ay0, 8)) { draw_sprite_ui_uniform(THEME.anchor_selector, 0, _ax0, _ay0); anchor_hover = i; hover_type = 1; } else if(cont && point_in_circle(_mx, _my, _ax1, _ay1, 8)) { draw_sprite_ui_uniform(THEME.anchor_selector, 0, _ax1, _ay1); anchor_hover = i; hover_type = -1; } } if(isUsingTool(0)) { var hov = 0; if(point_in_circle(_mx, _my, minx, miny, 8)) hov = 1; else if(point_in_circle(_mx, _my, maxx, miny, 8)) hov = 2; else if(point_in_circle(_mx, _my, minx, maxy, 8)) hov = 3; else if(point_in_circle(_mx, _my, maxx, maxy, 8)) hov = 4; else if(point_in_rectangle(_mx, _my, minx, miny, maxx, maxy)) hov = 5; draw_set_color(COLORS._main_accent); draw_rectangle_border(minx, miny, maxx, maxy, 1 + (hov == 5)); draw_sprite_ui_uniform(THEME.anchor_selector, hov == 1, minx, miny); draw_sprite_ui_uniform(THEME.anchor_selector, hov == 2, maxx, miny); draw_sprite_ui_uniform(THEME.anchor_selector, hov == 3, minx, maxy); draw_sprite_ui_uniform(THEME.anchor_selector, hov == 4, maxx, maxy); if(hov && mouse_press(mb_left, active)) { transform_type = hov; transform_minx = (minx - _x) / _s; transform_maxx = (maxx - _x) / _s; transform_miny = (miny - _y) / _s; transform_maxy = (maxy - _y) / _s; transform_mx = _mx; transform_my = _my; } } else if(isUsingTool(3)) { draw_sprite_ui_uniform(THEME.path_tools_draw, 0, _mx + 16, _my + 16); if(mouse_press(mb_left, active)) { var replace = tool_pathDrawer.attribute.create; if(replace) { while(ds_list_size(inputs) > input_fix_len) ds_list_delete(inputs, input_fix_len); array_resize(input_display_list, input_display_list_len); } drag_point = 0; drag_type = 2; drag_points = [ [ (_mx - _x) / _s, (_my - _y) / _s ] ]; drag_point_mx = (_mx - _x) / _s; drag_point_my = (_my - _y) / _s; } } else if(isUsingTool(4) || isUsingTool(5)) { draw_sprite_ui_uniform(THEME.cursor_path_add, 0, _mx + 16, _my + 16); if(mouse_press(mb_left, active)) { while(ds_list_size(inputs) > input_fix_len) ds_list_delete(inputs, input_fix_len); array_resize(input_display_list, input_display_list_len); drag_point = 0; drag_type = isUsingTool(4)? 3 : 4; drag_point_mx = _mx; drag_point_my = _my; inputs[| 1].setValue(true); repeat(4) createAnchor(value_snap((_mx - _x) / _s, _snx), value_snap((_my - _y) / _s, _sny)); } } else if(anchor_hover != -1) { var _a = inputs[| input_fix_len + anchor_hover].getValue(); if(isUsingTool(2)) { draw_sprite_ui_uniform(THEME.cursor_path_anchor, 0, _mx + 16, _my + 16); if(mouse_press(mb_left, active)) { if(_a[2] != 0 || _a[3] != 0 || _a[4] != 0 || _a[5] != 0) { _a[2] = 0; _a[3] = 0; _a[4] = 0; _a[5] = 0; inputs[| input_fix_len + anchor_hover].setValue(_a); } else { _a[2] = -8; _a[3] = 0; _a[4] = 8; _a[5] = 0; drag_point = anchor_hover; drag_type = 1; drag_point_mx = _mx; drag_point_my = _my; drag_point_sx = _a[0]; drag_point_sy = _a[1]; } } } else if(key_mod_press(SHIFT)) { draw_sprite_ui_uniform(THEME.cursor_path_remove, 0, _mx + 16, _my + 16); if(mouse_press(mb_left, active)) { ds_list_delete(inputs, input_fix_len + anchor_hover); array_remove(input_display_list, input_fix_len + anchor_hover); doUpdate(); } } else { draw_sprite_ui_uniform(THEME.cursor_path_move, 0, _mx + 16, _my + 16); if(mouse_press(mb_left, active)) { drag_point = anchor_hover; drag_type = hover_type; drag_point_mx = _mx; drag_point_my = _my; drag_point_sx = _a[0]; drag_point_sy = _a[1]; if(hover_type == 1) { drag_point_sx = _a[0] + _a[2]; drag_point_sy = _a[1] + _a[3]; } else if(hover_type == -1) { drag_point_sx = _a[0] + _a[4]; drag_point_sy = _a[1] + _a[5]; } } } } else if(key_mod_press(CTRL) || isUsingTool(1)) { draw_sprite_ui_uniform(THEME.cursor_path_add, 0, _mx + 16, _my + 16); if(mouse_press(mb_left, active)) { var anc = createAnchor(value_snap((_mx - _x) / _s, _snx), value_snap((_my - _y) / _s, _sny)); if(line_hover == -1) { drag_point = ds_list_size(inputs) - input_fix_len - 1; } else { ds_list_remove(inputs, anc); ds_list_insert(inputs, input_fix_len + line_hover, anc); drag_point = line_hover; } drag_type = -1; drag_point_mx = _mx; drag_point_my = _my; drag_point_sx = (_mx - _x) / _s; drag_point_sy = (_my - _y) / _s; UPDATE |= RENDER_TYPE.full; } } } static updateLength = function() { boundary = new BoundingBox(); lengthTotal = 0; var loop = inputs[| 1].getValue(); var rond = inputs[| 3].getValue(); var ansize = ds_list_size(inputs) - input_fix_len; if(ansize < 2) { lengths = []; anchors = []; return; } var sample = PREF_MAP[? "path_resolution"]; var con = loop? ansize : ansize - 1; lengths = []; lengthAccs = []; array_resize(anchors, ansize); for(var i = 0; i < con; i++) { var index_0 = input_fix_len + i; var index_1 = input_fix_len + i + 1; if(index_1 >= ds_list_size(inputs)) index_1 = input_fix_len; var _a0 = inputs[| index_0].getValue(); var _a1 = inputs[| index_1].getValue(); anchors[i + 0] = _a0; anchors[i + 1] = _a1; if(rond) { _a0[0] = round(_a0[0]); _a0[1] = round(_a0[1]); _a1[0] = round(_a1[0]); _a1[1] = round(_a1[1]); } var l = 0, _ox = 0, _oy = 0, _nx = 0, _ny = 0, p = 0; for(var j = 0; j < sample; j++) { p = eval_bezier(j / sample, _a0[0], _a0[1], _a1[0], _a1[1], _a0[0] + _a0[4], _a0[1] + _a0[5], _a1[0] + _a1[2], _a1[1] + _a1[3]); _nx = p[0]; _ny = p[1]; boundary.addPoint(_nx, _ny); if(j) l += point_distance(_nx, _ny, _ox, _oy); _ox = _nx; _oy = _ny; } lengths[i] = l; lengthTotal += l; lengthAccs[i] = lengthTotal; } } static getLineCount = function() { return 1; } static getSegmentCount = function() { return array_length(lengths); } static getBoundary = function() { return boundary; } static getLength = function() { return lengthTotal; } static getSegmentLength = function() { return lengths; } static getAccuLength = function() { return lengthAccs; } static getPointDistance = function(_dist) { var loop = inputs[| 1].getValue(); var rond = inputs[| 3].getValue(); var ansize = array_length(lengths); var amo = ds_list_size(inputs) - input_fix_len; if(ansize == 0) return new Point(); var _a0, _a1; for(var i = 0; i < ansize; i++) { _a0 = anchors[safe_mod(i + 0, amo)]; _a1 = anchors[safe_mod(i + 1, amo)]; if(rond) { _a0[0] = round(_a0[0]); _a0[1] = round(_a0[1]); _a1[0] = round(_a1[0]); _a1[1] = round(_a1[1]); } if(_dist > lengths[i]) { _dist -= lengths[i]; continue; } var _t = _dist / lengths[i]; if(!is_array(_a0) || !is_array(_a1)) return new Point(); var _p = eval_bezier(_t, _a0[0], _a0[1], _a1[0], _a1[1], _a0[0] + _a0[4], _a0[1] + _a0[5], _a1[0] + _a1[2], _a1[1] + _a1[3]); return new Point(_p); } return new Point(); } static getPointRatio = function(_rat) { var pix = frac(_rat) * lengthTotal; return getPointDistance(pix); } static getPointSegment = function(_rat) { var loop = inputs[| 1].getValue(); var rond = inputs[| 3].getValue(); var ansize = array_length(lengths); var amo = ds_list_size(inputs) - input_fix_len; if(amo < 1) return new Point(0, 0); if(_rat < 0) { var _p0 = inputs[| input_fix_len].getValue(); if(rond) return new Point(round(_p0[0]), round(_p0[1])); return new Point(_p0[0], _p0[1]); } _rat = safe_mod(_rat, ansize); var _i0 = clamp(floor(_rat), 0, amo - 1); var _t = frac(_rat); var _i1 = _i0 + 1; if(_i1 >= amo) { if(!loop) { var _p1 = inputs[| ds_list_size(inputs) - 1].getValue() if(rond) return new Point(round(_p1[0]), round(_p1[1])); return new Point(_p1[0], _p1[1]); } _i1 = 0; } var _a0 = inputs[| input_fix_len + _i0].getValue(); var _a1 = inputs[| input_fix_len + _i1].getValue(); if(rond) { _a0[0] = round(_a0[0]); _a0[1] = round(_a0[1]); _a1[0] = round(_a1[0]); _a1[1] = round(_a1[1]); } var p = eval_bezier(_t, _a0[0], _a0[1], _a1[0], _a1[1], _a0[0] + _a0[4], _a0[1] + _a0[5], _a1[0] + _a1[2], _a1[1] + _a1[3]); return new Point(p[0], p[1]); } static update = function(frame = ANIMATOR.current_frame) { updateLength(); var _rat = inputs[| 0].getValue(); var _typ = inputs[| 2].getValue(); var anchors = []; for(var i = input_fix_len; i < ds_list_size(inputs); i++) array_push(anchors, inputs[| i].getValue()); outputs[| 2].setValue(anchors); if(is_array(_rat)) { var _out = array_create(array_length(_rat)); for( var i = 0; i < array_length(_rat); i++ ) { if(_typ == 0) _out[i] = getPointRatio(_rat[i]); else if(_typ == 1) _out[i] = getPointSegment(_rat[i]); } outputs[| 0].setValue(_out); } else { var _out = [0, 0]; if(_typ == 0) _out = getPointRatio(_rat); else if(_typ == 1) _out = getPointSegment(_rat); outputs[| 0].setValue(_out.toArray()); } } static onDrawNode = function(xx, yy, _mx, _my, _s, _hover, _focus) { var bbox = drawGetBbox(xx, yy, _s); draw_sprite_fit(THEME.node_draw_path, 0, bbox.xc, bbox.yc, bbox.w, bbox.h); } static postDeserialize = function() { var _inputs = load_map[? "inputs"]; if(LOADING_VERSION < 1380 && !CLONING) ds_list_insert(_inputs, 3, noone); for(var i = input_fix_len; i < ds_list_size(_inputs); i++) createAnchor(0, 0); } }