I was going to provide a screenshot of my core plot graph for reference but I'm not allowed to yet (new user) so I can email it upon request.
I have a set of data points, with x values of 1 to ~150, and y values of ~300 to ~450. What I would like to do is plot these points, with a clean grid overlay, zooming in on the y Axis (graph y axis should start from y min, rather than 0, and go to y max), while still retaining a visible x-axis for referencing purposes.
I'm fairly close to achieving what I want, but I'm still struggling with a few things.
First of all, I would like a label on the y axis at the intersection between the y axis and x axis, and at the top of the y axis, in order to give the user a point of reference.
To achieve this, I've started by playing around with major tick intervals, as well as running a few operations on my data set to determine max and mins. However, when I then attempted to zoom in (i.e. focus on the range between y-min and y max), the x axis was no longer visible.
To fix this, after some searching across the net I came across:
axisSet.xAxis.axisConstraints = [CPTConstraints constraintWithLowerOffset:0];
While this seems to force the x-Axis to appear, it also seems to be throwing my graph off a bit... there are only 3 minor ticks between my first y-axis major tick, and the origin, and no y-Axis label on the origin.
Does anyone know how to achieve this offset, while forcing the origin to be the first major tick, and display labels for the y-Axis at both the origin and y-Max?
As a side question, does anyone know how to display the x-Axis labels as ints rather than floats (looking to cut off the decimal)?
I'll throw my source code for what I've achieved so far below.
Source Code for initialize plot:
[self setDataMaxAndMins]; // Create a graph object which we will use to host just one scatter plot. CGRect frame = [self.hostingView bounds]; self.graph = [[CPTXYGraph alloc] initWithFrame:frame]; // Add some padding to the graph, with more at the bottom for axis labels. self.graph.plotAreaFrame.paddingTop = 50.0f; self.graph.plotAreaFrame.paddingRight = 50.0f; self.graph.plotAreaFrame.paddingBottom = 100.0f; self.graph.plotAreaFrame.paddingLeft = 120.0f; // Tie the graph we've created with the hosting view. self.hostingView.hostedGraph = self.graph; self.hostingView.backgroundColor = [UIColor blackColor]; // Create a line style that we will apply to the axis CPTMutableLineStyle *axisStyle = [CPTMutableLineStyle lineStyle]; axisStyle.lineColor = [CPTColor grayColor]; axisStyle.lineWidth = 2.0f; CPTColor * customGray = [CPTColor colorWithComponentRed:0.6f green: 0.6f blue: 0.6f alpha: 1.0f]; CPTMutableLineStyle *gridStyle = [CPTMutableLineStyle lineStyle]; gridStyle.lineColor = customGray; gridStyle.lineWidth = 2.0f; //Create plot symbol style CPTMutableLineStyle * plotStyle = [CPTMutableLineStyle lineStyle]; plotStyle.lineColor = [CPTColor whiteColor]; plotStyle.lineWidth = 2.0f; // Create a text style that we will use for the axis labels. CPTMutableTextStyle *textStyle = [CPTMutableTextStyle textStyle]; textStyle.fontName = @"Helvetica"; textStyle.fontSize = 20; textStyle.color = [CPTColor whiteColor]; // Create the plot symbol we're going to use. CPTPlotSymbol *plotSymbol = [CPTPlotSymbol ellipsePlotSymbol]; plotSymbol.lineStyle = plotStyle; plotSymbol.size = CGSizeMake(3.0, 3.0); //plotSymbol. // Setup some floats that represent the min/max values on our axis. float xAxisMin = xMin; float xAxisMax = xMax + 5; float yAxisMin = yMin; float yAxisMax = yMax + 5; // We modify the graph's plot space to setup the axis' min / max values. CPTXYPlotSpace *plotSpace = (CPTXYPlotSpace *)self.graph.defaultPlotSpace; plotSpace.xRange = [CPTPlotRange plotRangeWithLocation:CPTDecimalFromFloat(xAxisMin) length:CPTDecimalFromFloat(xAxisMax - xAxisMin)]; plotSpace.yRange = [CPTPlotRange plotRangeWithLocation:CPTDecimalFromFloat(yAxisMin) length:CPTDecimalFromFloat(yAxisMax - yAxisMin)]; // Modify the graph's axis with a label, line style, etc. CPTXYAxisSet *axisSet = (CPTXYAxisSet *)self.graph.axisSet; axisSet.xAxis.title = xAxisTitle; axisSet.xAxis.titleTextStyle = textStyle; axisSet.xAxis.titleOffset = 50.0f; axisSet.xAxis.axisLineStyle = axisStyle; axisSet.xAxis.majorTickLineStyle = axisStyle; axisSet.xAxis.minorTickLineStyle = axisStyle; axisSet.xAxis.labelTextStyle = textStyle; axisSet.xAxis.labelOffset = 3.0f; axisSet.xAxis.majorIntervalLength = CPTDecimalFromFloat((xAxisMax - xAxisMin) / 4);//CPTDecimalFromFloat(25.0f); axisSet.xAxis.minorTicksPerInterval = 4; axisSet.xAxis.minorTickLength = 5.0f; axisSet.xAxis.majorTickLength = 7.0f; axisSet.yAxis.title = [yAxisTitle stringByAppendingString: @" ($M)"]; axisSet.yAxis.titleTextStyle = textStyle; axisSet.yAxis.titleOffset = 80.0f; axisSet.yAxis.axisLineStyle = axisStyle; axisSet.yAxis.majorTickLineStyle = axisStyle; axisSet.yAxis.minorTickLineStyle = axisStyle; axisSet.yAxis.labelTextStyle = textStyle; axisSet.yAxis.labelOffset = 3.0f; axisSet.yAxis.majorIntervalLength = CPTDecimalFromFloat((yAxisMax - yAxisMin) / 4); axisSet.yAxis.minorTicksPerInterval = 4; axisSet.yAxis.minorTickLength = 5.0f; axisSet.yAxis.majorTickLength = 7.0f; CPTColor * customLighterBlue = [CPTColor colorWithComponentRed:0.0f green: 0.0f blue: 0.4f alpha: 1.0f]; CPTColor * customDarkBlue = [CPTColor colorWithComponentRed:0.0f green: 0.0f blue: 0.3f alpha: 1.0f]; axisSet.xAxis.alternatingBandFills = [NSArray arrayWithObjects:customLighterBlue, customDarkBlue, nil]; axisSet.xAxis.majorGridLineStyle = gridStyle; axisSet.yAxis.majorGridLineStyle = gridStyle; axisSet.xAxis.axisConstraints = [CPTConstraints constraintWithLowerOffset:0]; // Add a plot to our graph and axis. We give it an identifier so that we // could add multiple plots (data lines) to the same graph if necessary. CPTScatterPlot *plot = [[CPTScatterPlot alloc] init]; plot.dataSource = self; plot.identifier = @"mainplot"; plot.dataLineStyle = nil; plot.plotSymbol = plotSymbol; [self.graph addPlot:plot]; //[_graph.defaultPlotSpace scaleToFitPlots:[_graph allPlots]];