function Node_Scatter(_x, _y, _group = noone) : Node_Processor(_x, _y, _group) constructor { name = "Scatter"; dimension_index = 1; inputs[| 0] = nodeValue("Surface in", self, JUNCTION_CONNECT.input, VALUE_TYPE.surface, noone); inputs[| 1] = nodeValue("Dimension", self, JUNCTION_CONNECT.input, VALUE_TYPE.integer, DEF_SURF ) .setDisplay(VALUE_DISPLAY.vector); inputs[| 2] = nodeValue("Amount", self, JUNCTION_CONNECT.input, VALUE_TYPE.integer, 8); inputs[| 3] = nodeValue("Scale", self, JUNCTION_CONNECT.input, VALUE_TYPE.float, [ 1, 1, 1, 1 ] ) .setDisplay(VALUE_DISPLAY.vector_range, { linked : true }); inputs[| 4] = nodeValue("Angle", self, JUNCTION_CONNECT.input, VALUE_TYPE.integer, [ 0, 0, 0, 0, 0 ] ) .setDisplay(VALUE_DISPLAY.rotation_random); onSurfaceSize = function() { return getInputData(1, DEF_SURF); }; inputs[| 5] = nodeValue("Area", self, JUNCTION_CONNECT.input, VALUE_TYPE.integer, [ DEF_SURF_W / 2, DEF_SURF_H / 2, DEF_SURF_W / 2, DEF_SURF_H / 2, AREA_SHAPE.rectangle ]) .setDisplay(VALUE_DISPLAY.area, { onSurfaceSize }); inputs[| 6] = nodeValue("Distribution", self, JUNCTION_CONNECT.input, VALUE_TYPE.integer, 0) .setDisplay(VALUE_DISPLAY.enum_scroll, [ "Area", "Border", "Map", "Direct Data", "Path", "Full image + Tile" ]); inputs[| 7] = nodeValue("Point at center", self, JUNCTION_CONNECT.input, VALUE_TYPE.boolean, false, "Rotate each copy to face the spawn center."); inputs[| 8] = nodeValue("Uniform scaling", self, JUNCTION_CONNECT.input, VALUE_TYPE.boolean, true); inputs[| 9] = nodeValue("Scatter", self, JUNCTION_CONNECT.input, VALUE_TYPE.integer, 1) .setDisplay(VALUE_DISPLAY.enum_button, [ "Uniform", "Random" ]); inputs[| 10] = nodeValue("Seed", self, JUNCTION_CONNECT.input, VALUE_TYPE.float, irandom(9999999)); inputs[| 11] = nodeValue("Random blend", self, JUNCTION_CONNECT.input, VALUE_TYPE.gradient, new gradientObject(c_white) ); inputs[| 12] = nodeValue("Alpha", self, JUNCTION_CONNECT.input, VALUE_TYPE.float, [ 1, 1 ]) .setDisplay(VALUE_DISPLAY.slider_range); inputs[| 13] = nodeValue("Distribution map", self, JUNCTION_CONNECT.input, VALUE_TYPE.surface, 0); inputs[| 14] = nodeValue("Distribution data", self, JUNCTION_CONNECT.input, VALUE_TYPE.float, []) .setDisplay(VALUE_DISPLAY.vector); inputs[| 14].array_depth = 1; inputs[| 15] = nodeValue("Array", self, JUNCTION_CONNECT.input, VALUE_TYPE.integer, 0, @"What to do when input array of surface. - Spread: Create Array of output each scattering single surface. - Mixed: Create single output scattering multiple images.") .setDisplay(VALUE_DISPLAY.enum_scroll, [ "Spread output", "Mixed" ]); inputs[| 16] = nodeValue("Multiply alpha", self, JUNCTION_CONNECT.input, VALUE_TYPE.boolean, true); inputs[| 17] = nodeValue("Use value", self, JUNCTION_CONNECT.input, VALUE_TYPE.text, [ "Scale" ], "Apply the third value in each data point (if exist) on given properties.") .setDisplay(VALUE_DISPLAY.text_array, { data: [ "Scale", "Rotation", "Color" ] }); inputs[| 18] = nodeValue("Blend mode", self, JUNCTION_CONNECT.input, VALUE_TYPE.integer, 0) .setDisplay(VALUE_DISPLAY.enum_scroll, [ "Normal", "Add" ]); inputs[| 19] = nodeValue("Path", self, JUNCTION_CONNECT.input, VALUE_TYPE.pathnode, noone); inputs[| 20] = nodeValue("Rotate along path", self, JUNCTION_CONNECT.input, VALUE_TYPE.boolean, true); inputs[| 21] = nodeValue("Path Shift", self, JUNCTION_CONNECT.input, VALUE_TYPE.float, 0) .setDisplay(VALUE_DISPLAY.slider); inputs[| 22] = nodeValue("Scatter Distance", self, JUNCTION_CONNECT.input, VALUE_TYPE.float, 0); outputs[| 0] = nodeValue("Surface out", self, JUNCTION_CONNECT.output, VALUE_TYPE.surface, noone); outputs[| 1] = nodeValue("Atlas data", self, JUNCTION_CONNECT.output, VALUE_TYPE.surface, []) .rejectArrayProcess(); input_display_list = [ ["Output", true], 0, 1, 15, 10, ["Scatter", false], 5, 6, 13, 14, 17, 9, 2, ["Path", false], 19, 20, 21, 22, ["Transform", false], 3, 8, 7, 4, ["Render", false], 18, 11, 12, 16, ]; attribute_surface_depth(); scatter_data = []; static drawOverlay = function(active, _x, _y, _s, _mx, _my, _snx, _sny) { #region if(process_amount > 1) return; var _distType = current_data[6]; if(_distType < 3) inputs[| 5].drawOverlay(active, _x, _y, _s, _mx, _my, _snx, _sny); } #endregion static onValueUpdate = function(index) { #region if(index == 15) { var _arr = getInputData(15); inputs[| 0].array_depth = _arr; update(); } } #endregion static step = function() { #region var _dis = getInputData(6); var _arr = getInputData(15); inputs[| 0].array_depth = _arr; inputs[| 13].setVisible(_dis == 2, _dis == 2); inputs[| 14].setVisible(_dis == 3, _dis == 3); inputs[| 17].setVisible(_dis == 3); inputs[| 9].setVisible(_dis != 2); inputs[| 19].setVisible(_dis == 4, _dis == 4); inputs[| 20].setVisible(_dis == 4); inputs[| 21].setVisible(_dis == 4); inputs[| 22].setVisible(_dis == 4); } #endregion static processData = function(_outSurf, _data, _output_index, _array_index) { #region if(_output_index == 1) return scatter_data; if(_output_index == 0 && _array_index == 0) scatter_data = []; var _inSurf = _data[0]; if(_inSurf == 0) return; var _dim = _data[1]; var _amount = _data[2]; var _scale = _data[3]; var _rota = _data[4]; var _area = _data[5]; var _dist = _data[ 6]; var _distMap = _data[13]; var _distData = _data[14]; var _scat = _data[ 9]; var _pint = _data[7]; var _unis = _data[8]; var seed = _data[10]; var color = _data[11]; var alpha = _data[12]; var mulpA = _data[16]; var useV = _data[17]; var blend = _data[18]; var path = _data[19]; var pathRot = _data[20]; var pathShf = _data[21]; var pathDis = _data[22]; var _in_w, _in_h; var vSca = array_exists(useV, "Scale"); var vRot = array_exists(useV, "Rotation"); var vCol = array_exists(useV, "Color"); var _posDist = []; if(_dist == 2 && is_surface(_distMap)) _posDist = get_points_from_dist(_distMap, _amount, seed); surface_set_target(_outSurf); DRAW_CLEAR switch(blend) { case 0 : if(mulpA) BLEND_ALPHA_MULP; else BLEND_ALPHA; break; case 1 : BLEND_ADD; break; } var _pathProgress = 0; var _sed = seed; var res_index = 0, bg = 0; for(var i = 0; i < _amount; i++) { var sp = noone, _x = 0, _y = 0; var _v = noone; if(_dist < 2) { sp = area_get_random_point(_area, _dist, _scat, i, _amount, _sed); _sed += 20; _x = sp[0]; _y = sp[1]; } else if(_dist == 2) { sp = array_safe_get(_posDist, i); if(!is_array(sp)) continue; _x = _area[0] + _area[2] * (sp[0] * 2 - 1.); _y = _area[1] + _area[3] * (sp[1] * 2 - 1.); } else if(_dist == 3) { sp = array_safe_get(_distData, i); if(!is_array(sp)) continue; _x = array_safe_get(sp, 0); _y = array_safe_get(sp, 1); _v = array_safe_get(sp, 2, noone); } else if(_dist == 4) { if(path != noone && struct_has(path, "getPointRatio")) { _pathProgress = _scat? random_seed(1, _sed) : i / max(1, _amount); _sed++; _pathProgress = frac((_pathProgress + pathShf) * 0.9999); var pp = path.getPointRatio(_pathProgress); _x = pp.x + random_range_seed(-pathDis, pathDis, _sed); _sed++; _y = pp.y + random_range_seed(-pathDis, pathDis, _sed); _sed++; } } else if(_dist == 5) { _x = random_range_seed(0, _dim[0], _sed); _sed++; _y = random_range_seed(0, _dim[1], _sed); _sed++; //print(string(_x) + ", " + string(_y)); } var posS = _dist < 4? seed + _y * _dim[0] + _x : seed + i * 100; var _scx = random_range_seed(_scale[0], _scale[1], posS); posS++; var _scy = random_range_seed(_scale[2], _scale[3], posS); posS++; if(_unis) _scy = _scx; if(vSca && _v != noone) { _scx *= _v; _scy *= _v; } var _r = (_pint? point_direction(_area[0], _area[1], _x, _y) : 0) + angle_random_eval(_rota, posS); posS++; if(vRot && _v != noone) _r *= _v; if(_dist == 4 && path != noone && pathRot) { var p0 = path.getPointRatio(clamp(_pathProgress - 0.001, 0, 0.9999)); var p1 = path.getPointRatio(clamp(_pathProgress + 0.001, 0, 0.9999)); var dirr = point_direction(p0.x, p0.y, p1.x, p1.y); _r += dirr; } var surf = _inSurf; var ind = 0; if(is_array(_inSurf)) { if(array_length(_inSurf) == 0) break; ind = irandom_seed(array_length(_inSurf) - 1, posS); surf = _inSurf[ind]; posS++; } var sw = surface_get_width_safe(surf); var sh = surface_get_height_safe(surf); if(_dist != AREA_DISTRIBUTION.area || _scat != AREA_SCATTER.uniform) { var p = point_rotate(-sw / 2 * _scx, -sh * _scy / 2, 0, 0, _r); _x += p[0]; _y += p[1]; } var grSamp = random_seed(1, posS); posS++; if(vCol && _v != noone) grSamp *= _v; var clr = color.eval(grSamp); var alp = random_range_seed(alpha[0], alpha[1], posS); posS++; array_push(scatter_data, new SurfaceAtlas(surf, _x, _y, _r, _scx, _scy, clr, alp)); draw_surface_ext_safe(surf, _x, _y, _scx, _scy, _r, clr, alp); if(_dist == 5) { var _sw = surface_get_width_safe(surf) * _scx; var _sh = surface_get_height_safe(surf) * _scy; if(_x < _sw) draw_surface_ext_safe(surf, _dim[0] + _x, _y, _scx, _scy, _r, clr, alp); if(_y < _sh) draw_surface_ext_safe(surf, _x, _dim[1] + _y, _scx, _scy, _r, clr, alp); if(_x < _sw && _y < _sh) draw_surface_ext_safe(surf, _dim[0] + _x, _dim[1] + _y, _scx, _scy, _r, clr, alp); if(_x > _dim[0] - _sw) draw_surface_ext_safe(surf, _x - _dim[0], _y, _scx, _scy, _r, clr, alp); if(_y > _dim[1] - _sh) draw_surface_ext_safe(surf, _x, _y - _dim[1], _scx, _scy, _r, clr, alp); if(_x > _dim[0] - _sw || _y > _dim[1] - _sh) draw_surface_ext_safe(surf, _x - _dim[0], _y - _dim[1], _scx, _scy, _r, clr, alp); } } BLEND_NORMAL; surface_reset_target(); return _outSurf; } #endregion static doApplyDeserialize = function() { #region var _arr = getInputData(15); inputs[| 0].array_depth = _arr; doUpdate(); } #endregion }