/// <summary> /// Arrange a sequence of elements in a single line. /// </summary> /// <param name="lineStart"> /// Index of the first element in the sequence to arrange. /// </param> /// <param name="lineEnd"> /// Index of the last element in the sequence to arrange. /// </param> /// <param name="directDelta"> /// Optional fixed growth in the primary direction. /// </param> /// <param name="indirectOffset"> /// Offset of the line in the indirect direction. /// </param> /// <param name="indirectGrowth"> /// Shared indirect growth of the elements on this line. /// </param> private void ArrangeLine(int lineStart, int lineEnd, double? directDelta, double indirectOffset, double indirectGrowth) { double directOffset = 0.0; Orientation o = Orientation; bool isHorizontal = o == Orientation.Horizontal; UIElementCollection children = Children; for (int index = lineStart; index < lineEnd; index++) { // Get the size of the element UIElement element = children[index]; OrientedSize elementSize = new OrientedSize(o, element.DesiredSize.Width, element.DesiredSize.Height); // Determine if we should use the element's desired size or the // fixed item width or height double directGrowth = directDelta != null ? directDelta.Value : elementSize.Direct; // Arrange the element Rect bounds = isHorizontal ? new Rect(directOffset, indirectOffset, directGrowth, indirectGrowth) : new Rect(indirectOffset, directOffset, indirectGrowth, directGrowth); element.Arrange(bounds); directOffset += directGrowth; } }
protected override Size MeasureOverride(Size constraint) { // Variables tracking the size of the current line, the total size // measured so far, and the maximum size available to fill. Note // that the line might represent a row or a column depending on the // orientation. Orientation o = Orientation; OrientedSize lineSize = new OrientedSize(o); OrientedSize totalSize = new OrientedSize(o); OrientedSize maximumSize = new OrientedSize(o, constraint.Width, constraint.Height); // Determine the constraints for individual items double itemWidth = ItemWidth; double itemHeight = ItemHeight; bool hasFixedWidth = !itemWidth.IsNaN(); bool hasFixedHeight = !itemHeight.IsNaN(); Size itemSize = new Size( hasFixedWidth ? itemWidth : constraint.Width, hasFixedHeight ? itemHeight : constraint.Height); // Measure each of the Children foreach (UIElement element in Children) { // Determine the size of the element element.Measure(itemSize); OrientedSize elementSize = new OrientedSize( o, hasFixedWidth ? itemWidth : element.DesiredSize.Width, hasFixedHeight ? itemHeight : element.DesiredSize.Height); // If this element falls of the edge of the line if (DoubleHelper.IsGreaterThan(lineSize.Direct + elementSize.Direct, maximumSize.Direct)) { // Update the total size with the direct and indirect growth // for the current line totalSize.Direct = Math.Max(lineSize.Direct, totalSize.Direct); totalSize.Indirect += lineSize.Indirect; // Move the element to a new line lineSize = elementSize; // If the current element is larger than the maximum size, // place it on a line by itself if (DoubleHelper.IsGreaterThan(elementSize.Direct, maximumSize.Direct)) { // Update the total size for the line occupied by this // single element totalSize.Direct = Math.Max(elementSize.Direct, totalSize.Direct); totalSize.Indirect += elementSize.Indirect; // Move to a new line lineSize = new OrientedSize(o); } } else { // Otherwise just add the element to the end of the line lineSize.Direct += elementSize.Direct; lineSize.Indirect = Math.Max(lineSize.Indirect, elementSize.Indirect); } } // Update the total size with the elements on the last line totalSize.Direct = Math.Max(lineSize.Direct, totalSize.Direct); totalSize.Indirect += lineSize.Indirect; // Return the total size required as an un-oriented quantity return new Size(totalSize.Width, totalSize.Height); }
/// <summary> /// Arranges and sizes the /// <see cref="T:System.Windows.Controls.WrapPanel" /> control and its /// child elements. /// </summary> /// <param name="finalSize"> /// The area within the parent that the /// <see cref="T:System.Windows.Controls.WrapPanel" /> should use /// arrange itself and its children. /// </param> /// <returns> /// The actual size used by the /// <see cref="T:System.Windows.Controls.WrapPanel" />. /// </returns> protected override Size ArrangeOverride(Size finalSize) { // Variables tracking the size of the current line, and the maximum // size available to fill. Note that the line might represent a row // or a column depending on the orientation. Orientation o = Orientation; OrientedSize lineSize = new OrientedSize(o); OrientedSize maximumSize = new OrientedSize(o, finalSize.Width, finalSize.Height); // Determine the constraints for individual items double itemWidth = ItemWidth; double itemHeight = ItemHeight; bool hasFixedWidth = !itemWidth.IsNaN(); bool hasFixedHeight = !itemHeight.IsNaN(); double indirectOffset = 0; double?directDelta = (o == Orientation.Horizontal) ? (hasFixedWidth ? (double?)itemWidth : null) : (hasFixedHeight ? (double?)itemHeight : null); // Measure each of the Children. We will process the elements one // line at a time, just like during measure, but we will wait until // we've completed an entire line of elements before arranging them. // The lineStart and lineEnd variables track the size of the // currently arranged line. UIElementCollection children = Children; int count = children.Count; int lineStart = 0; for (int lineEnd = 0; lineEnd < count; lineEnd++) { UIElement element = children[lineEnd]; // Get the size of the element OrientedSize elementSize = new OrientedSize( o, hasFixedWidth ? itemWidth : element.DesiredSize.Width, hasFixedHeight ? itemHeight : element.DesiredSize.Height); // If this element falls of the edge of the line if (DoubleHelper.IsGreaterThan(lineSize.Direct + elementSize.Direct, maximumSize.Direct)) { // Then we just completed a line and we should arrange it ArrangeLine(lineStart, lineEnd, directDelta, indirectOffset, lineSize.Indirect); // Move the current element to a new line indirectOffset += lineSize.Indirect; lineSize = elementSize; // If the current element is larger than the maximum size if (DoubleHelper.IsGreaterThan(elementSize.Direct, maximumSize.Direct)) { // Arrange the element as a single line ArrangeLine(lineEnd, ++lineEnd, directDelta, indirectOffset, elementSize.Indirect); // Move to a new line indirectOffset += lineSize.Indirect; lineSize = new OrientedSize(o); } // Advance the start index to a new line after arranging lineStart = lineEnd; } else { // Otherwise just add the element to the end of the line lineSize.Direct += elementSize.Direct; lineSize.Indirect = Math.Max(lineSize.Indirect, elementSize.Indirect); } } // Arrange any elements on the last line if (lineStart < count) { ArrangeLine(lineStart, count, directDelta, indirectOffset, lineSize.Indirect); } return(finalSize); }
/// <summary> /// Arranges and sizes the /// <see cref="T:System.Windows.Controls.WrapPanel" /> control and its /// child elements. /// </summary> /// <param name="finalSize"> /// The area within the parent that the /// <see cref="T:System.Windows.Controls.WrapPanel" /> should use /// arrange itself and its children. /// </param> /// <returns> /// The actual size used by the /// <see cref="T:System.Windows.Controls.WrapPanel" />. /// </returns> protected override Size ArrangeOverride(Size finalSize) { // Variables tracking the size of the current line, and the maximum // size available to fill. Note that the line might represent a row // or a column depending on the orientation. Orientation o = Orientation; OrientedSize lineSize = new OrientedSize(o); OrientedSize maximumSize = new OrientedSize(o, finalSize.Width, finalSize.Height); // Determine the constraints for individual items double itemWidth = ItemWidth; double itemHeight = ItemHeight; bool hasFixedWidth = !itemWidth.IsNaN(); bool hasFixedHeight = !itemHeight.IsNaN(); double indirectOffset = 0; double? directDelta = (o == Orientation.Horizontal) ? (hasFixedWidth ? (double?)itemWidth : null) : (hasFixedHeight ? (double?)itemHeight : null); // Measure each of the Children. We will process the elements one // line at a time, just like during measure, but we will wait until // we've completed an entire line of elements before arranging them. // The lineStart and lineEnd variables track the size of the // currently arranged line. UIElementCollection children = Children; int count = children.Count; int lineStart = 0; for (int lineEnd = 0; lineEnd < count; lineEnd++) { UIElement element = children[lineEnd]; // Get the size of the element OrientedSize elementSize = new OrientedSize( o, hasFixedWidth ? itemWidth : element.DesiredSize.Width, hasFixedHeight ? itemHeight : element.DesiredSize.Height); // If this element falls of the edge of the line if (DoubleHelper.IsGreaterThan(lineSize.Direct + elementSize.Direct, maximumSize.Direct)) { // Then we just completed a line and we should arrange it ArrangeLine(lineStart, lineEnd, directDelta, indirectOffset, lineSize.Indirect); // Move the current element to a new line indirectOffset += lineSize.Indirect; lineSize = elementSize; // If the current element is larger than the maximum size if (DoubleHelper.IsGreaterThan(elementSize.Direct, maximumSize.Direct)) { // Arrange the element as a single line ArrangeLine(lineEnd, ++lineEnd, directDelta, indirectOffset, elementSize.Indirect); // Move to a new line indirectOffset += lineSize.Indirect; lineSize = new OrientedSize(o); } // Advance the start index to a new line after arranging lineStart = lineEnd; } else { // Otherwise just add the element to the end of the line lineSize.Direct += elementSize.Direct; lineSize.Indirect = Math.Max(lineSize.Indirect, elementSize.Indirect); } } // Arrange any elements on the last line if (lineStart < count) { ArrangeLine(lineStart, count, directDelta, indirectOffset, lineSize.Indirect); } return finalSize; }
protected override Size MeasureOverride(Size constraint) { // Variables tracking the size of the current line, the total size // measured so far, and the maximum size available to fill. Note // that the line might represent a row or a column depending on the // orientation. Orientation o = Orientation; OrientedSize lineSize = new OrientedSize(o); OrientedSize totalSize = new OrientedSize(o); OrientedSize maximumSize = new OrientedSize(o, constraint.Width, constraint.Height); // Determine the constraints for individual items double itemWidth = ItemWidth; double itemHeight = ItemHeight; bool hasFixedWidth = !itemWidth.IsNaN(); bool hasFixedHeight = !itemHeight.IsNaN(); Size itemSize = new Size( hasFixedWidth ? itemWidth : constraint.Width, hasFixedHeight ? itemHeight : constraint.Height); // Measure each of the Children foreach (UIElement element in Children) { // Determine the size of the element element.Measure(itemSize); OrientedSize elementSize = new OrientedSize( o, hasFixedWidth ? itemWidth : element.DesiredSize.Width, hasFixedHeight ? itemHeight : element.DesiredSize.Height); // If this element falls of the edge of the line if (DoubleHelper.IsGreaterThan(lineSize.Direct + elementSize.Direct, maximumSize.Direct)) { // Update the total size with the direct and indirect growth // for the current line totalSize.Direct = Math.Max(lineSize.Direct, totalSize.Direct); totalSize.Indirect += lineSize.Indirect; // Move the element to a new line lineSize = elementSize; // If the current element is larger than the maximum size, // place it on a line by itself if (DoubleHelper.IsGreaterThan(elementSize.Direct, maximumSize.Direct)) { // Update the total size for the line occupied by this // single element totalSize.Direct = Math.Max(elementSize.Direct, totalSize.Direct); totalSize.Indirect += elementSize.Indirect; // Move to a new line lineSize = new OrientedSize(o); } } else { // Otherwise just add the element to the end of the line lineSize.Direct += elementSize.Direct; lineSize.Indirect = Math.Max(lineSize.Indirect, elementSize.Indirect); } } // Update the total size with the elements on the last line totalSize.Direct = Math.Max(lineSize.Direct, totalSize.Direct); totalSize.Indirect += lineSize.Indirect; // Return the total size required as an un-oriented quantity return(new Size(totalSize.Width, totalSize.Height)); }