mirror of
https://github.com/Ttanasart-pt/Pixel-Composer.git
synced 2024-11-10 20:45:35 +01:00
180 lines
5.3 KiB
Plaintext
180 lines
5.3 KiB
Plaintext
function Node_Path_Plot(_x, _y, _group = noone) : Node(_x, _y, _group) constructor {
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name = "Plot Path";
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previewable = false;
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w = 96;
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inputs[| 0] = nodeValue("Output scale", self, JUNCTION_CONNECT.input, VALUE_TYPE.float, [ 8, 8 ])
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.setDisplay(VALUE_DISPLAY.vector);
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inputs[| 1] = nodeValue("Coordinate", self, JUNCTION_CONNECT.input, VALUE_TYPE.integer, 0)
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.setDisplay(VALUE_DISPLAY.enum_scroll, [ "Cartesian", "Polar" ]);
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eq_type_car = [ "x function", "y function", "parametric" ];
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eq_type_pol = [ "r function", "O function", "parametric" ];
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inputs[| 2] = nodeValue("Equation type", self, JUNCTION_CONNECT.input, VALUE_TYPE.integer, 0)
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.setDisplay(VALUE_DISPLAY.enum_scroll, eq_type_car);
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inputs[| 3] = nodeValue("0 function", self, JUNCTION_CONNECT.input, VALUE_TYPE.text, "");
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inputs[| 4] = nodeValue("1 function", self, JUNCTION_CONNECT.input, VALUE_TYPE.text, "");
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inputs[| 5] = nodeValue("Origin", self, JUNCTION_CONNECT.input, VALUE_TYPE.float, [ DEF_SURF_W / 2, DEF_SURF_H / 2 ] )
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.setDisplay(VALUE_DISPLAY.vector);
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inputs[| 6] = nodeValue("Range", self, JUNCTION_CONNECT.input, VALUE_TYPE.float, [ 0, 1 ])
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.setDisplay(VALUE_DISPLAY.slider_range, [ -1, 1, 0.01 ]);
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inputs[| 7] = nodeValue("Input scale", self, JUNCTION_CONNECT.input, VALUE_TYPE.float, [ 1, 1 ])
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.setDisplay(VALUE_DISPLAY.vector);
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inputs[| 8] = nodeValue("Input shift", self, JUNCTION_CONNECT.input, VALUE_TYPE.float, [ 0, 0 ])
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.setDisplay(VALUE_DISPLAY.vector);
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outputs[| 0] = nodeValue("Path", self, JUNCTION_CONNECT.output, VALUE_TYPE.pathnode, self);
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input_display_list = [
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[ "Variable", false ], 5, 7, 8, 0,
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[ "Equation", false ], 1, 2, 3, 4, 6,
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]
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boundary = new BoundingBox( 0, 0, 1, 1 );
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static getLineCount = function() { return 1; }
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static getSegmentCount = function() { return 0; }
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static getBoundary = function() { return boundary; }
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static drawOverlay = function(active, _x, _y, _s, _mx, _my, _snx, _sny) {
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inputs[| 5].drawOverlay(active, _x, _y, _s, _mx, _my, _snx, _sny);
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}
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static getPointRatio = function(_rat, ind = 0) {
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var _sca = inputs[| 0].getValue();
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var _coor = inputs[| 1].getValue();
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var _eqa = inputs[| 2].getValue();
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var _eq0 = inputs[| 3].getValue();
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var _eq1 = inputs[| 4].getValue();
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var _orig = inputs[| 5].getValue();
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var _ran = inputs[| 6].getValue();
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var _iran = inputs[| 7].getValue();
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var _shf = inputs[| 8].getValue();
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_rat = _ran[0] + (_rat * (_ran[1] - _ran[0]));
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var _p = new Point();
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switch(_coor) {
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case 0 :
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switch(_eqa) {
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case 0 :
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_p.x = _rat * _iran[0] + _shf[0];
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_p.y = evaluateFunction(_eq0, { x: _rat * _iran[0] + _shf[0] });
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break;
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case 1 :
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_p.x = evaluateFunction(_eq0, { y: _rat * _iran[1] + _shf[1] });
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_p.y = _rat * _iran[1] + _shf[1];
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break;
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case 2 :
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_p.x = evaluateFunction(_eq0, { t: _rat * _iran[0] + _shf[0] });
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_p.y = evaluateFunction(_eq1, { t: _rat * _iran[1] + _shf[1] });
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break;
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}
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break;
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case 1 :
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var _a = new Point();
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switch(_eqa) {
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case 0 :
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_a.x = _rat * _iran[0] + _shf[0];
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_a.y = evaluateFunction(_eq0, { r: _rat * _iran[0] + _shf[0] });
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break;
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case 1 :
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_a.x = evaluateFunction(_eq0, { O: _rat * _iran[1] + _shf[1] });
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_a.y = _rat * _iran[1] + _shf[1];
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break;
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case 2 :
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_a.x = evaluateFunction(_eq0, { t: _rat * _iran[0] + _shf[0] });
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_a.y = evaluateFunction(_eq1, { t: _rat * _iran[1] + _shf[1] });
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break;
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}
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_p.x = cos(_a.y) * _a.x;
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_p.y = -sin(_a.y) * _a.x;
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break;
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}
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_p.x = _p.x * _sca[0] + _orig[0];
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_p.y = -_p.y * _sca[1] + _orig[1];
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return _p;
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}
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function step() {
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var _coor = inputs[| 1].getValue();
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var _eqa = inputs[| 2].getValue();
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inputs[| 2].editWidget.data_list = _coor? eq_type_pol : eq_type_car;
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inputs[| 2].display_data = _coor? eq_type_pol : eq_type_car;
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switch(_coor) {
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case 0 :
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switch(_eqa) {
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case 0 :
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inputs[| 3].name = "f(x) = ";
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inputs[| 4].setVisible(false);
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inputs[| 6].name = "x range";
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break;
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case 1 :
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inputs[| 3].name = "f(y) = ";
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inputs[| 4].setVisible(false);
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inputs[| 6].name = "y range";
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break;
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case 2 :
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inputs[| 3].name = "x(t) = ";
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inputs[| 4].name = "y(t) = ";
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inputs[| 4].setVisible(true);
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inputs[| 6].name = "t range";
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break;
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}
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break;
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case 1 :
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switch(_eqa) {
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case 0 :
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inputs[| 3].name = "f(r) = ";
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inputs[| 4].setVisible(false);
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inputs[| 6].name = "r range";
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break;
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case 1 :
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inputs[| 3].name = "f(O) = ";
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inputs[| 4].setVisible(false);
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inputs[| 6].name = "O range";
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break;
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case 2 :
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inputs[| 3].name = "r(t) = ";
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inputs[| 4].name = "O(t) = ";
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inputs[| 4].setVisible(true);
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inputs[| 6].name = "t range";
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break;
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}
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break;
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}
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}
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function updateBoundary() {
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boundary = new BoundingBox( 0, 0, 1, 1 );
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var sample = 64;
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for( var i = 0; i <= sample; i++ ) {
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var p = getPointRatio(i / sample);
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boundary.addPoint(p.x, p.y);
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}
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}
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function update() {
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updateBoundary();
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outputs[| 0].setValue(self);
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}
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static onDrawNode = function(xx, yy, _mx, _my, _s, _hover, _focus) {
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var bbox = drawGetBbox(xx, yy, _s);
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draw_sprite_fit(s_node_path_trim, 0, bbox.xc, bbox.yc, bbox.w, bbox.h);
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}
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} |