/*! * Ext JS Library 3.3.0 * Copyright(c) 2006-2010 Ext JS, Inc. * licensing@extjs.com * http://www.extjs.com/license */ /** * @class Ext.grid.PivotAxis * @extends Ext.Component *PivotAxis is a class that supports a {@link Ext.grid.PivotGrid}. Each PivotGrid contains two PivotAxis instances - the left * axis and the top axis. Each PivotAxis defines an ordered set of dimensions, each of which should correspond to a field in a * Store's Record (see {@link Ext.grid.PivotGrid} documentation for further explanation).
*Developers should have little interaction with the PivotAxis instances directly as most of their management is performed by * the PivotGrid. An exception is the dynamic reconfiguration of axes at run time - to achieve this we use PivotAxis's * {@link #setDimensions} function and refresh the grid:
* This clears the previous dimensions on the axis and redraws the grid with the new dimensions. */ Ext.grid.PivotAxis = Ext.extend(Ext.Component, { /** * @cfg {String} orientation One of 'vertical' or 'horizontal'. Defaults to horizontal */ orientation: 'horizontal', /** * @cfg {Number} defaultHeaderWidth The width to render each row header that does not have a width specified via {@link #getRowGroupHeaders}. Defaults to 80. */ defaultHeaderWidth: 80, /** * @private * @cfg {Number} paddingWidth The amount of padding used by each cell. * TODO: From 4.x onwards this can be removed as it won't be needed. For now it is used to account for the differences between * the content box and border box measurement models */ paddingWidth: 7, /** * Updates the dimensions used by this axis * @param {Array} dimensions The new dimensions */ setDimensions: function(dimensions) { this.dimensions = dimensions; }, /** * @private * Builds the html table that contains the dimensions for this axis. This branches internally between vertical * and horizontal orientations because the table structure is slightly different in each case */ onRender: function(ct, position) { var rows = this.orientation == 'horizontal' ? this.renderHorizontalRows() : this.renderVerticalRows(); this.el = Ext.DomHelper.overwrite(ct.dom, {tag: 'table', cn: rows}, true); }, /** * @private * Specialised renderer for horizontal oriented axes * @return {Object} The HTML Domspec for a horizontal oriented axis */ renderHorizontalRows: function() { var headers = this.buildHeaders(), rowCount = headers.length, rows = [], cells, cols, colCount, i, j; for (i = 0; i < rowCount; i++) { cells = []; cols = headers[i].items; colCount = cols.length; for (j = 0; j < colCount; j++) { cells.push({ tag: 'td', html: cols[j].header, colspan: cols[j].span }); } rows[i] = { tag: 'tr', cn: cells }; } return rows; }, /** * @private * Specialised renderer for vertical oriented axes * @return {Object} The HTML Domspec for a vertical oriented axis */ renderVerticalRows: function() { var headers = this.buildHeaders(), colCount = headers.length, rowCells = [], rows = [], rowCount, col, row, colWidth, i, j; for (i = 0; i < colCount; i++) { col = headers[i]; colWidth = col.width || 80; rowCount = col.items.length; for (j = 0; j < rowCount; j++) { row = col.items[j]; rowCells[row.start] = rowCells[row.start] || []; rowCells[row.start].push({ tag : 'td', html : row.header, rowspan: row.span, width : Ext.isBorderBox ? colWidth : colWidth - this.paddingWidth }); } } rowCount = rowCells.length; for (i = 0; i < rowCount; i++) { rows[i] = { tag: 'tr', cn : rowCells[i] }; } return rows; }, /** * @private * Returns the set of all unique tuples based on the bound store and dimension definitions. * Internally we construct a new, temporary store to make use of the multi-sort capabilities of Store. In * 4.x this functionality should have been moved to MixedCollection so this step should not be needed. * @return {Array} All unique tuples */ getTuples: function() { var newStore = new Ext.data.Store({}); newStore.data = this.store.data.clone(); newStore.fields = this.store.fields; var sorters = [], dimensions = this.dimensions, length = dimensions.length, i; for (i = 0; i < length; i++) { sorters.push({ field : dimensions[i].dataIndex, direction: dimensions[i].direction || 'ASC' }); } newStore.sort(sorters); var records = newStore.data.items, hashes = [], tuples = [], recData, hash, info, data, key; length = records.length; for (i = 0; i < length; i++) { info = this.getRecordInfo(records[i]); data = info.data; hash = ""; for (key in data) { hash += data[key] + '---'; } if (hashes.indexOf(hash) == -1) { hashes.push(hash); tuples.push(info); } } newStore.destroy(); return tuples; }, /** * @private */ getRecordInfo: function(record) { var dimensions = this.dimensions, length = dimensions.length, data = {}, dimension, dataIndex, i; //get an object containing just the data we are interested in based on the configured dimensions for (i = 0; i < length; i++) { dimension = dimensions[i]; dataIndex = dimension.dataIndex; data[dataIndex] = record.get(dataIndex); } //creates a specialised matcher function for a given tuple. The returned function will return //true if the record passed to it matches the dataIndex values of each dimension in this axis var createMatcherFunction = function(data) { return function(record) { for (var dataIndex in data) { if (record.get(dataIndex) != data[dataIndex]) { return false; } } return true; }; }; return { data: data, matcher: createMatcherFunction(data) }; }, /** * @private * Uses the calculated set of tuples to build an array of headers that can be rendered into a table using rowspan or * colspan. Basically this takes the set of tuples and spans any cells that run into one another, so if we had dimensions * of Person and Product and several tuples containing different Products for the same Person, those Products would be * spanned. * @return {Array} The headers */ buildHeaders: function() { var tuples = this.getTuples(), rowCount = tuples.length, dimensions = this.dimensions, colCount = dimensions.length, headers = [], tuple, rows, currentHeader, previousHeader, span, start, isLast, changed, i, j; for (i = 0; i < colCount; i++) { dimension = dimensions[i]; rows = []; span = 0; start = 0; for (j = 0; j < rowCount; j++) { tuple = tuples[j]; isLast = j == (rowCount - 1); currentHeader = tuple.data[dimension.dataIndex]; /* * 'changed' indicates that we need to create a new cell. This should be true whenever the cell * above (previousHeader) is different from this cell, or when the cell on the previous dimension * changed (e.g. if the current dimension is Product and the previous was Person, we need to start * a new cell if Product is the same but Person changed, so we check the previous dimension and tuple) */ changed = previousHeader != undefined && previousHeader != currentHeader; if (i > 0 && j > 0) { changed = changed || tuple.data[dimensions[i-1].dataIndex] != tuples[j-1].data[dimensions[i-1].dataIndex]; } if (changed) { rows.push({ header: previousHeader, span : span, start : start }); start += span; span = 0; } if (isLast) { rows.push({ header: currentHeader, span : span + 1, start : start }); start += span; span = 0; } previousHeader = currentHeader; span++; } headers.push({ items: rows, width: dimension.width || this.defaultHeaderWidth }); previousHeader = undefined; } return headers; } });var pivotGrid = new Ext.grid.PivotGrid({ //some PivotGrid config here }); //change the left axis dimensions pivotGrid.leftAxis.setDimensions([ { dataIndex: 'person', direction: 'DESC', width : 100 }, { dataIndex: 'product', direction: 'ASC', width : 80 } ]); pivotGrid.view.refresh(true);