/// <summary> /// Displays items vertically in a legend. /// </summary> protected void _positionLegendItems(Y_.Array items, Y_.DataType_.Number maxWidth, Y_.DataType_.Number maxHeight, Y_.DataType_.Number totalWidth, Y_.DataType_.Number totalHeight, Y_.DataType_.Number padding, Y_.DataType_.Number horizontalGap, Y_.DataType_.Number verticalGap, object hAlign, object vAlign){}
/// <summary> /// Applies a schema to an array of data, returning a normalized object /// with results in the `results` property. The `meta` property of the /// response object is present for consistency, but is assigned an empty /// object. If the input data is absent or not an array, an `error` /// property will be added. /// The input array is expected to contain objects, arrays, or strings. /// If _schema_ is not specified or _schema.resultFields_ is not an array, /// `response.results` will be assigned the input array unchanged. /// When a _schema_ is specified, the following will occur: /// If the input array contains strings, they will be copied as-is into the /// `response.results` array. /// If the input array contains arrays, `response.results` will contain an /// array of objects with key:value pairs assuming the fields in /// _schema.resultFields_ are ordered in accordance with the data array /// values. /// If the input array contains objects, the identified /// _schema.resultFields_ will be used to extract a value from those /// objects for the output result. /// _schema.resultFields_ field identifiers are objects with the following properties: /// * `key` : <strong>(required)</strong> The locator name (String) /// * `parser`: A function or the name of a function on `Y.Parsers` used /// to convert the input value into a normalized type. Parser /// functions are passed the value as input and are expected to /// return a value. /// If no value parsing is needed, you can use strings as identifiers /// instead of objects (see example below). /// </summary> public object apply(Y_.Array data){return null;}
/// <summary> /// AOP method, invoked after the host's _uiScrollTo method, /// to position and resize the scroll bars /// </summary> protected void _update(Y_.DataType_.Number x, Y_.DataType_.Number y, Y_.DataType_.Number duration, object easing){}
/// <summary> /// Draws a line segment using the current line style from the current drawing position to the specified x and y coordinates. /// </summary> public void lineTo(Y_.DataType_.Number point1, Y_.DataType_.Number point2){}
/// <summary> /// Draws a quadratic bezier curve. /// </summary> public void quadraticCurveTo(Y_.DataType_.Number cpx, Y_.DataType_.Number cpy, Y_.DataType_.Number x, Y_.DataType_.Number y){}
/// <summary> /// Draws a circle. Used internally by `CanvasCircle` class. /// </summary> protected void drawCircle(Y_.DataType_.Number x, Y_.DataType_.Number y, Y_.DataType_.Number r){}
/// <summary> /// Draws an ellipse. /// </summary> protected void drawEllipse(Y_.DataType_.Number x, Y_.DataType_.Number y, Y_.DataType_.Number w, Y_.DataType_.Number h){}
/// <summary> /// Converts a radian value to a degree. /// </summary> public Y_.DataType_.Number rad2deg(Y_.DataType_.Number rad){return null;}
/// <summary> /// Multiplies a matrix by a numeric value. /// </summary> public Y_.Array scalarMultiply(Y_.Array matrix, Y_.DataType_.Number multiplier){return null;}
public NodeList slice(Y_.DataType_.Number begin, Y_.DataType_.Number end){return null;}
public NodeList splice(Y_.DataType_.Number index, Y_.DataType_.Number howMany){return null;}
/// <summary> /// Retrieves the Node instance at the given index. /// </summary> public Node item(Y_.DataType_.Number index){return null;}
/// <summary> /// Returns the starting y-coordinate for a column of legend items. /// </summary> protected Y_.DataType_.Number getStartPoint(Y_.DataType_.Number h, Y_.DataType_.Number totalHeight, object align, object padding){return null;}
/// <summary> /// Creates column and total height arrays used for displaying multiple columns of /// legend items based on the items, available height and verticalGap for the legend. /// </summary> protected void _setColumnArrays(Y_.Array items, Y_.DataType_.Number limit, Y_.DataType_.Number verticalGap){}
/// <summary> /// Returns a matrix of minors based on a matrix, column index and row index. /// </summary> public Y_.Array getMinors(Y_.Array matrix, Y_.DataType_.Number columnIndex, Y_.DataType_.Number rowIndex){return null;}
/// <summary> /// Returns the sign of value /// </summary> public Y_.DataType_.Number sign(Y_.DataType_.Number val){return null;}
/// <summary> /// Draws a bezier curve. /// </summary> public void curveTo(Y_.DataType_.Number cp1x, Y_.DataType_.Number cp1y, Y_.DataType_.Number cp2x, Y_.DataType_.Number cp2y, Y_.DataType_.Number x, Y_.DataType_.Number y){}
/// <summary> /// Starts the upload of the files specified in the first argument, using an automated queue. /// </summary> public void uploadThese(Y_.Array files, object url, object postVars){}
/// <summary> /// Draws a diamond. /// </summary> protected void drawDiamond(Y_.DataType_.Number x, Y_.DataType_.Number y, Y_.DataType_.Number width, Y_.DataType_.Number height){}
/// <summary> /// Multiplies a vector and a matrix /// </summary> public Y_.Array vectorMatrixProduct(Y_.Array vector, Y_.Array matrix){return null;}
/// <summary> /// Draws a rectangle with rounded corners. /// </summary> public void drawRect(Y_.DataType_.Number x, Y_.DataType_.Number y, Y_.DataType_.Number w, Y_.DataType_.Number h, Y_.DataType_.Number ew, Y_.DataType_.Number eh){}
/// <summary> /// Compares to arrays or transform functions to ensure both contain the same functions in the same /// order. /// </summary> public object compareTransformSequence(Y_.Array list1, Y_.Array list2){return null;}
/// <summary> /// Moves the current drawing position to specified x and y coordinates. /// </summary> public void moveTo(Y_.DataType_.Number x, Y_.DataType_.Number y){}
/// <summary> /// Breaks up a 2d transform matrix into a series of transform operations. /// </summary> public Y_.Array decompose(Y_.Array _3x3){return null;}
/// <summary> /// Schema-parsed list of results from full data /// </summary> protected object _parseResults(Y_.Array fields, Y_.Array array_in, object data_out){return null;}
/// <summary> /// Converts a degree value to a radian. /// </summary> public Y_.DataType_.Number deg2rad(Y_.DataType_.Number deg){return null;}
/// <summary> /// Applies a schema to an array of data, returning a normalized object /// with results in the `results` property. The `meta` property of the /// response object is present for consistency, but is assigned an empty /// object. If the input data is absent or not an array, an `error` /// property will be added. /// The input array is expected to contain objects, arrays, or strings. /// If _schema_ is not specified or _schema.resultFields_ is not an array, /// `response.results` will be assigned the input array unchanged. /// When a _schema_ is specified, the following will occur: /// If the input array contains strings, they will be copied as-is into the /// `response.results` array. /// If the input array contains arrays, `response.results` will contain an /// array of objects with key:value pairs assuming the fields in /// _schema.resultFields_ are ordered in accordance with the data array /// values. /// If the input array contains objects, the identified /// _schema.resultFields_ will be used to extract a value from those /// objects for the output result. /// _schema.resultFields_ field identifiers are objects with the following properties: /// * `key` : <strong>(required)</strong> The locator name (String) /// * `parser`: A function or the name of a function on `Y.Parsers` used /// to convert the input value into a normalized type. Parser /// functions are passed the value as input and are expected to /// return a value. /// If no value parsing is needed, you can use strings as identifiers /// instead of objects (see example below). /// </summary> public object apply(object schema, Y_.Array data){return null;}
/// <summary> /// Returns the determinant of a given matrix. /// / \ /// | matrix[0][0] matrix[1][0] matrix[2][0] | /// | matrix[0][1] matrix[1][1] matrix[2][1] | /// | matrix[0][2] matrix[1][2] matrix[2][2] | /// | matrix[0][3] matrix[1][3] matrix[2][3] | /// \ / /// </summary> public Y_.DataType_.Number getDeterminant(Y_.Array matrix){return null;}
/// <summary> /// This method will gather the area for all potential targets and see which has the hightest covered area and return it. /// </summary> public object getBestMatch(Y_.Array drops, object all){return null;}
/// <summary> /// A utility method that normalizes a given date by converting it to the 1st /// day of the month the date is in, with the time set to noon. /// </summary> protected Y_.DataType_.Date _normalizeDate(Y_.DataType_.Date oDate){return null;}