if args.plot: plot = PlotLib() plot.set_plot_dimensions(args.plot_width, args.plot_height) if args.y_tics_step is not None: plot.set_y_tics_step(args.y_tics_step) elif args.normalize is not None: plot.set_y_tics_step(0.1) plot.set_ceiling(args.ceiling) legend = [name for name in set_order if name not in args.ignore] if args.no_legend: legend = [] plot.set_legend_shift(args.legend_x_shift, args.legend_y_shift) if args.plot_line: xtics = range(0, (len(workload_order)/args.x_tics_step)*args.x_tics_step + args.x_tics_step - 1,\ args.x_tics_step) lines = [[(i,val) for i,val in enumerate(kv.values(name, key_order = \ workload_order))] for name in set_order if name not in args.ignore] plot.continuous_lines(lines, legend, value_base = args.value_base, \ xtics = xtics, x_padding = args.x_padding, use_markers = 0) else: plot.column_stacked_bars(workload_order, [kv.values(name, key_order = \ workload_order) for name in set_order if name not in args.ignore],\ legend, value_base = args.value_base) if args.title is not None:
bfxtics = [0.18, 0.36, 0.73, 1.47, 2.94, 5.88] bfxlabel = 'Percentage Overhead of Bloom Filter vs Cache Size' bfylabel = '\% Weighted Speedup Improvement over LRU' bflegend = ['1-Core', '2-Core', '4-Core'] bfystep = 3 bfplotname = 'bf-size' ################################# plot = PlotLib() legend = eflegend plot.set_y_tics_step(efystep) plot.set_y_tics_shift(0) plot.set_legend_shift(-50,-10) plot.set_plot_dimensions(150,80) plot.set_scale(0.5) plot.set_y_tics_font_size("scriptsize") plot.set_x_tics_font_size("scriptsize") plot.set_y_label_font_size("small") plot.set_x_label_font_size("small") plot.set_ceiling(0.8) plot.xlabel(efxlabel, yshift = -10, fontsize = "small", options = "[scale=0.8]") plot.ylabel(efylabel, xshift = -2, fontsize = "small", options = "[scale=0.8]") plot.continuous_lines(efdata, legend = legend, xtics = eaffrac, use_markers = 2, x_padding = 5) #plot.column_stacked_bars(workload_order, [kv.values(name, key_order = workload_order) for name in mechanisms], legend)
bfxtics = [0.18, 0.36, 0.73, 1.47, 2.94, 5.88] bfxlabel = 'Percentage Overhead of Bloom Filter vs Cache Size' bfylabel = '\% Weighted Speedup Improvement over LRU' bflegend = ['1-Core', '2-Core', '4-Core'] bfystep = 3 bfplotname = 'bf-size' ################################# plot = PlotLib() legend = eflegend plot.set_y_tics_step(efystep) plot.set_y_tics_shift(0) plot.set_legend_shift(-50, -10) plot.set_plot_dimensions(150, 80) plot.set_scale(0.5) plot.set_y_tics_font_size("scriptsize") plot.set_x_tics_font_size("scriptsize") plot.set_y_label_font_size("small") plot.set_x_label_font_size("small") plot.set_ceiling(0.8) plot.xlabel(efxlabel, yshift=-10, fontsize="small", options="[scale=0.8]") plot.ylabel(efylabel, xshift=-2, fontsize="small", options="[scale=0.8]") plot.continuous_lines(efdata, legend=legend, xtics=eaffrac, use_markers=2,
if args.plot: plot = PlotLib() plot.set_plot_dimensions(args.plot_width, args.plot_height) if args.y_tics_step is not None: plot.set_y_tics_step(args.y_tics_step) elif args.normalize is not None: plot.set_y_tics_step(0.1) plot.set_ceiling(args.ceiling) legend = [name for name in set_order if name not in args.ignore] if args.no_legend: legend = [] plot.set_legend_shift(args.legend_x_shift, args.legend_y_shift) if args.plot_line: xtics = range(0, (len(workload_order)/args.x_tics_step)*args.x_tics_step + args.x_tics_step - 1,\ args.x_tics_step) lines = [[(i,val) for i,val in enumerate(kv.values(name, key_order = \ workload_order))] for name in set_order if name not in args.ignore] plot.continuous_lines(lines, legend, value_base = args.value_base, \ xtics = xtics, x_padding = args.x_padding, use_markers = 0) else: plot.column_stacked_bars(workload_order, [kv.values(name, key_order = \ workload_order) for name in set_order if name not in args.ignore],\ legend, value_base = args.value_base)