import CLASS from './class'; import { c3_chart_internal_fn } from './core'; import { isValue, isFunction, isUndefined, isDefined } from './util'; c3_chart_internal_fn.initLine = function () { var $$ = this; $$.main.select('.' + CLASS.chart).append("g") .attr("class", CLASS.chartLines); }; c3_chart_internal_fn.updateTargetsForLine = function (targets) { var $$ = this, config = $$.config, mainLineUpdate, mainLineEnter, classChartLine = $$.classChartLine.bind($$), classLines = $$.classLines.bind($$), classAreas = $$.classAreas.bind($$), classCircles = $$.classCircles.bind($$), classFocus = $$.classFocus.bind($$); mainLineUpdate = $$.main.select('.' + CLASS.chartLines).selectAll('.' + CLASS.chartLine) .data(targets) .attr('class', function (d) { return classChartLine(d) + classFocus(d); }); mainLineEnter = mainLineUpdate.enter().append('g') .attr('class', classChartLine) .style('opacity', 0) .style("pointer-events", "none"); // Lines for each data mainLineEnter.append('g') .attr("class", classLines); // Areas mainLineEnter.append('g') .attr('class', classAreas); // Circles for each data point on lines mainLineEnter.append('g') .attr("class", function (d) { return $$.generateClass(CLASS.selectedCircles, d.id); }); mainLineEnter.append('g') .attr("class", classCircles) .style("cursor", function (d) { return config.data_selection_isselectable(d) ? "pointer" : null; }); // Update date for selected circles targets.forEach(function (t) { $$.main.selectAll('.' + CLASS.selectedCircles + $$.getTargetSelectorSuffix(t.id)).selectAll('.' + CLASS.selectedCircle).each(function (d) { d.value = t.values[d.index].value; }); }); // MEMO: can not keep same color... //mainLineUpdate.exit().remove(); }; c3_chart_internal_fn.updateLine = function (durationForExit) { var $$ = this; $$.mainLine = $$.main.selectAll('.' + CLASS.lines).selectAll('.' + CLASS.line) .data($$.lineData.bind($$)); $$.mainLine.enter().append('path') .attr('class', $$.classLine.bind($$)) .style("stroke", $$.color); $$.mainLine .style("opacity", $$.initialOpacity.bind($$)) .style('shape-rendering', function (d) { return $$.isStepType(d) ? 'crispEdges' : ''; }) .attr('transform', null); $$.mainLine.exit().transition().duration(durationForExit) .style('opacity', 0) .remove(); }; c3_chart_internal_fn.redrawLine = function (drawLine, withTransition) { return [ (withTransition ? this.mainLine.transition(Math.random().toString()) : this.mainLine) .attr("d", drawLine) .style("stroke", this.color) .style("opacity", 1) ]; }; c3_chart_internal_fn.generateDrawLine = function (lineIndices, isSub) { var $$ = this, config = $$.config, line = $$.d3.svg.line(), getPoints = $$.generateGetLinePoints(lineIndices, isSub), yScaleGetter = isSub ? $$.getSubYScale : $$.getYScale, xValue = function (d) { return (isSub ? $$.subxx : $$.xx).call($$, d); }, yValue = function (d, i) { return config.data_groups.length > 0 ? getPoints(d, i)[0][1] : yScaleGetter.call($$, d.id)(d.value); }; line = config.axis_rotated ? line.x(yValue).y(xValue) : line.x(xValue).y(yValue); if (!config.line_connectNull) { line = line.defined(function (d) { return d.value != null; }); } return function (d) { var values = config.line_connectNull ? $$.filterRemoveNull(d.values) : d.values, x = isSub ? $$.x : $$.subX, y = yScaleGetter.call($$, d.id), x0 = 0, y0 = 0, path; if ($$.isLineType(d)) { if (config.data_regions[d.id]) { path = $$.lineWithRegions(values, x, y, config.data_regions[d.id]); } else { if ($$.isStepType(d)) { values = $$.convertValuesToStep(values); } path = line.interpolate($$.getInterpolate(d))(values); } } else { if (values[0]) { x0 = x(values[0].x); y0 = y(values[0].value); } path = config.axis_rotated ? "M " + y0 + " " + x0 : "M " + x0 + " " + y0; } return path ? path : "M 0 0"; }; }; c3_chart_internal_fn.generateGetLinePoints = function (lineIndices, isSub) { // partial duplication of generateGetBarPoints var $$ = this, config = $$.config, lineTargetsNum = lineIndices.__max__ + 1, x = $$.getShapeX(0, lineTargetsNum, lineIndices, !!isSub), y = $$.getShapeY(!!isSub), lineOffset = $$.getShapeOffset($$.isLineType, lineIndices, !!isSub), yScale = isSub ? $$.getSubYScale : $$.getYScale; return function (d, i) { var y0 = yScale.call($$, d.id)(0), offset = lineOffset(d, i) || y0, // offset is for stacked area chart posX = x(d), posY = y(d); // fix posY not to overflow opposite quadrant if (config.axis_rotated) { if ((0 < d.value && posY < y0) || (d.value < 0 && y0 < posY)) { posY = y0; } } // 1 point that marks the line position return [ [posX, posY - (y0 - offset)], [posX, posY - (y0 - offset)], // needed for compatibility [posX, posY - (y0 - offset)], // needed for compatibility [posX, posY - (y0 - offset)] // needed for compatibility ]; }; }; c3_chart_internal_fn.lineWithRegions = function (d, x, y, _regions) { var $$ = this, config = $$.config, prev = -1, i, j, s = "M", sWithRegion, xp, yp, dx, dy, dd, diff, diffx2, xOffset = $$.isCategorized() ? 0.5 : 0, xValue, yValue, regions = []; function isWithinRegions(x, regions) { var i; for (i = 0; i < regions.length; i++) { if (regions[i].start < x && x <= regions[i].end) { return true; } } return false; } // Check start/end of regions if (isDefined(_regions)) { for (i = 0; i < _regions.length; i++) { regions[i] = {}; if (isUndefined(_regions[i].start)) { regions[i].start = d[0].x; } else { regions[i].start = $$.isTimeSeries() ? $$.parseDate(_regions[i].start) : _regions[i].start; } if (isUndefined(_regions[i].end)) { regions[i].end = d[d.length - 1].x; } else { regions[i].end = $$.isTimeSeries() ? $$.parseDate(_regions[i].end) : _regions[i].end; } } } // Set scales xValue = config.axis_rotated ? function (d) { return y(d.value); } : function (d) { return x(d.x); }; yValue = config.axis_rotated ? function (d) { return x(d.x); } : function (d) { return y(d.value); }; // Define svg generator function for region function generateM(points) { return 'M' + points[0][0] + ' ' + points[0][1] + ' ' + points[1][0] + ' ' + points[1][1]; } if ($$.isTimeSeries()) { sWithRegion = function (d0, d1, j, diff) { var x0 = d0.x.getTime(), x_diff = d1.x - d0.x, xv0 = new Date(x0 + x_diff * j), xv1 = new Date(x0 + x_diff * (j + diff)), points; if (config.axis_rotated) { points = [[y(yp(j)), x(xv0)], [y(yp(j + diff)), x(xv1)]]; } else { points = [[x(xv0), y(yp(j))], [x(xv1), y(yp(j + diff))]]; } return generateM(points); }; } else { sWithRegion = function (d0, d1, j, diff) { var points; if (config.axis_rotated) { points = [[y(yp(j), true), x(xp(j))], [y(yp(j + diff), true), x(xp(j + diff))]]; } else { points = [[x(xp(j), true), y(yp(j))], [x(xp(j + diff), true), y(yp(j + diff))]]; } return generateM(points); }; } // Generate for (i = 0; i < d.length; i++) { // Draw as normal if (isUndefined(regions) || ! isWithinRegions(d[i].x, regions)) { s += " " + xValue(d[i]) + " " + yValue(d[i]); } // Draw with region // TODO: Fix for horizotal charts else { xp = $$.getScale(d[i - 1].x + xOffset, d[i].x + xOffset, $$.isTimeSeries()); yp = $$.getScale(d[i - 1].value, d[i].value); dx = x(d[i].x) - x(d[i - 1].x); dy = y(d[i].value) - y(d[i - 1].value); dd = Math.sqrt(Math.pow(dx, 2) + Math.pow(dy, 2)); diff = 2 / dd; diffx2 = diff * 2; for (j = diff; j <= 1; j += diffx2) { s += sWithRegion(d[i - 1], d[i], j, diff); } } prev = d[i].x; } return s; }; c3_chart_internal_fn.updateArea = function (durationForExit) { var $$ = this, d3 = $$.d3; $$.mainArea = $$.main.selectAll('.' + CLASS.areas).selectAll('.' + CLASS.area) .data($$.lineData.bind($$)); $$.mainArea.enter().append('path') .attr("class", $$.classArea.bind($$)) .style("fill", $$.color) .style("opacity", function () { $$.orgAreaOpacity = +d3.select(this).style('opacity'); return 0; }); $$.mainArea .style("opacity", $$.orgAreaOpacity); $$.mainArea.exit().transition().duration(durationForExit) .style('opacity', 0) .remove(); }; c3_chart_internal_fn.redrawArea = function (drawArea, withTransition) { return [ (withTransition ? this.mainArea.transition(Math.random().toString()) : this.mainArea) .attr("d", drawArea) .style("fill", this.color) .style("opacity", this.orgAreaOpacity) ]; }; c3_chart_internal_fn.generateDrawArea = function (areaIndices, isSub) { var $$ = this, config = $$.config, area = $$.d3.svg.area(), getPoints = $$.generateGetAreaPoints(areaIndices, isSub), yScaleGetter = isSub ? $$.getSubYScale : $$.getYScale, xValue = function (d) { return (isSub ? $$.subxx : $$.xx).call($$, d); }, value0 = function (d, i) { return config.data_groups.length > 0 ? getPoints(d, i)[0][1] : yScaleGetter.call($$, d.id)($$.getAreaBaseValue(d.id)); }, value1 = function (d, i) { return config.data_groups.length > 0 ? getPoints(d, i)[1][1] : yScaleGetter.call($$, d.id)(d.value); }; area = config.axis_rotated ? area.x0(value0).x1(value1).y(xValue) : area.x(xValue).y0(config.area_above ? 0 : value0).y1(value1); if (!config.line_connectNull) { area = area.defined(function (d) { return d.value !== null; }); } return function (d) { var values = config.line_connectNull ? $$.filterRemoveNull(d.values) : d.values, x0 = 0, y0 = 0, path; if ($$.isAreaType(d)) { if ($$.isStepType(d)) { values = $$.convertValuesToStep(values); } path = area.interpolate($$.getInterpolate(d))(values); } else { if (values[0]) { x0 = $$.x(values[0].x); y0 = $$.getYScale(d.id)(values[0].value); } path = config.axis_rotated ? "M " + y0 + " " + x0 : "M " + x0 + " " + y0; } return path ? path : "M 0 0"; }; }; c3_chart_internal_fn.getAreaBaseValue = function () { return 0; }; c3_chart_internal_fn.generateGetAreaPoints = function (areaIndices, isSub) { // partial duplication of generateGetBarPoints var $$ = this, config = $$.config, areaTargetsNum = areaIndices.__max__ + 1, x = $$.getShapeX(0, areaTargetsNum, areaIndices, !!isSub), y = $$.getShapeY(!!isSub), areaOffset = $$.getShapeOffset($$.isAreaType, areaIndices, !!isSub), yScale = isSub ? $$.getSubYScale : $$.getYScale; return function (d, i) { var y0 = yScale.call($$, d.id)(0), offset = areaOffset(d, i) || y0, // offset is for stacked area chart posX = x(d), posY = y(d); // fix posY not to overflow opposite quadrant if (config.axis_rotated) { if ((0 < d.value && posY < y0) || (d.value < 0 && y0 < posY)) { posY = y0; } } // 1 point that marks the area position return [ [posX, offset], [posX, posY - (y0 - offset)], [posX, posY - (y0 - offset)], // needed for compatibility [posX, offset] // needed for compatibility ]; }; }; c3_chart_internal_fn.updateCircle = function () { var $$ = this; $$.mainCircle = $$.main.selectAll('.' + CLASS.circles).selectAll('.' + CLASS.circle) .data($$.lineOrScatterData.bind($$)); $$.mainCircle.enter().append("circle") .attr("class", $$.classCircle.bind($$)) .attr("r", $$.pointR.bind($$)) .style("fill", $$.color); $$.mainCircle .style("opacity", $$.initialOpacityForCircle.bind($$)); $$.mainCircle.exit().remove(); }; c3_chart_internal_fn.redrawCircle = function (cx, cy, withTransition) { var selectedCircles = this.main.selectAll('.' + CLASS.selectedCircle); return [ (withTransition ? this.mainCircle.transition(Math.random().toString()) : this.mainCircle) .style('opacity', this.opacityForCircle.bind(this)) .style("fill", this.color) .attr("cx", cx) .attr("cy", cy), (withTransition ? selectedCircles.transition(Math.random().toString()) : selectedCircles) .attr("cx", cx) .attr("cy", cy) ]; }; c3_chart_internal_fn.circleX = function (d) { return d.x || d.x === 0 ? this.x(d.x) : null; }; c3_chart_internal_fn.updateCircleY = function () { var $$ = this, lineIndices, getPoints; if ($$.config.data_groups.length > 0) { lineIndices = $$.getShapeIndices($$.isLineType), getPoints = $$.generateGetLinePoints(lineIndices); $$.circleY = function (d, i) { return getPoints(d, i)[0][1]; }; } else { $$.circleY = function (d) { return $$.getYScale(d.id)(d.value); }; } }; c3_chart_internal_fn.getCircles = function (i, id) { var $$ = this; return (id ? $$.main.selectAll('.' + CLASS.circles + $$.getTargetSelectorSuffix(id)) : $$.main).selectAll('.' + CLASS.circle + (isValue(i) ? '-' + i : '')); }; c3_chart_internal_fn.expandCircles = function (i, id, reset) { var $$ = this, r = $$.pointExpandedR.bind($$); if (reset) { $$.unexpandCircles(); } $$.getCircles(i, id) .classed(CLASS.EXPANDED, true) .attr('r', r); }; c3_chart_internal_fn.unexpandCircles = function (i) { var $$ = this, r = $$.pointR.bind($$); $$.getCircles(i) .filter(function () { return $$.d3.select(this).classed(CLASS.EXPANDED); }) .classed(CLASS.EXPANDED, false) .attr('r', r); }; c3_chart_internal_fn.pointR = function (d) { var $$ = this, config = $$.config; return $$.isStepType(d) ? 0 : (isFunction(config.point_r) ? config.point_r(d) : config.point_r); }; c3_chart_internal_fn.pointExpandedR = function (d) { var $$ = this, config = $$.config; return config.point_focus_expand_enabled ? (config.point_focus_expand_r ? config.point_focus_expand_r : $$.pointR(d) * 1.75) : $$.pointR(d); }; c3_chart_internal_fn.pointSelectR = function (d) { var $$ = this, config = $$.config; return isFunction(config.point_select_r) ? config.point_select_r(d) : ((config.point_select_r) ? config.point_select_r : $$.pointR(d) * 4); }; c3_chart_internal_fn.isWithinCircle = function (that, r) { var d3 = this.d3, mouse = d3.mouse(that), d3_this = d3.select(that), cx = +d3_this.attr("cx"), cy = +d3_this.attr("cy"); return Math.sqrt(Math.pow(cx - mouse[0], 2) + Math.pow(cy - mouse[1], 2)) < r; }; c3_chart_internal_fn.isWithinStep = function (that, y) { return Math.abs(y - this.d3.mouse(that)[1]) < 30; };