enum AREA_SHAPE { rectangle, elipse } enum AREA_MODE { area, padding, two_point, } enum AREA_INDEX { center_x, center_y, half_w, half_h, shape } #macro DEF_AREA [ DEF_SURF_W / 2, DEF_SURF_H / 2, DEF_SURF_W / 2, DEF_SURF_H / 2, AREA_SHAPE.rectangle, AREA_MODE.area ] #macro DEF_AREA_REF [ 0.5, 0.5, 0.5, 0.5, AREA_SHAPE.rectangle, AREA_MODE.area ] #macro AREA_ARRAY_LENGTH 6 function nodeValue_Area(_name, _node, _value, _data = {}) { return new __NodeValue_Area(_name, _node, _value, _data); } function __NodeValue_Area(_name, _node, _value, _data = {}) : NodeValue(_name, _node, CONNECT_TYPE.input, VALUE_TYPE.float, _value, "") constructor { setDisplay(VALUE_DISPLAY.area, _data); def_length = AREA_ARRAY_LENGTH; /////============== GET ============= static valueProcess = function(val, nodeFrom, applyUnit = true, arrIndex = 0) { val = array_verify(val, AREA_ARRAY_LENGTH); if(!is_undefined(nodeFrom) && struct_has(nodeFrom.display_data, "onSurfaceSize")) { var surf = nodeFrom.display_data.onSurfaceSize(); var dispType = array_safe_get_fast(val, 5, AREA_MODE.area); switch(dispType) { case AREA_MODE.area : break; case AREA_MODE.padding : var ww = unit.mode == VALUE_UNIT.reference? 1 : surf[0]; var hh = unit.mode == VALUE_UNIT.reference? 1 : surf[1]; var cx = (ww - val[0] + val[2]) / 2 var cy = (val[1] + hh - val[3]) / 2; var sw = abs((ww - val[0]) - val[2]) / 2; var sh = abs(val[1] - (hh - val[3])) / 2; val = [cx, cy, sw, sh, val[4], val[5]]; break; case AREA_MODE.two_point : var cx = (val[0] + val[2]) / 2 var cy = (val[1] + val[3]) / 2; var sw = abs(val[0] - val[2]) / 2; var sh = abs(val[1] - val[3]) / 2; val = [cx, cy, sw, sh, val[4], val[5]]; break; } } return applyUnit? unit.apply(val, arrIndex) : val; } static getValue = function(_time = CURRENT_FRAME, applyUnit = true, arrIndex = 0, useCache = false, log = false) { //// Get value getValueRecursive(self.__curr_get_val, _time); var val = __curr_get_val[0]; var nod = __curr_get_val[1]; return valueProcess(val, nod, applyUnit, arrIndex); } static __getAnimValue = function(_time = CURRENT_FRAME) { if(!is_anim) { if(sep_axis) return array_create_ext(AREA_ARRAY_LENGTH, function(i) /*=>*/ {return animators[i].processType(animators[i].values[0].value)}); return array_empty(animator.values)? 0 : animator.processType(animator.values[0].value); } if(sep_axis) { __temp_time = _time; return array_create_ext(AREA_ARRAY_LENGTH, function(i) /*=>*/ {return animators[i].getValue(__temp_time)}); } return animator.getValue(_time); } }