+ /* Sum */
+ accumulated[0] = counters[0];
+ for (x = 1; x < x_max; x++)
+ accumulated[x] = counters[x] + accumulated[x - 1];
+
+ /* Calculate ratios */
+ for (x = 0; x < x_max; x++)
+ {
+ double height = ((double) counters[x]) / ((double) max);
+ double ratio_this = ((double) accumulated[x]) / ((double) ctx->history_received);
+ double ratio_prev = 0.0;
+ size_t index;
+ int color = 0;
+
+ index = (size_t) (height * ((double) symbols_num));
+ if (index >= symbols_num)
+ index = symbols_num - 1;
+
+ if (x > 0)
+ ratio_prev = ((double) accumulated[x - 1]) / ((double) ctx->history_received);
+
+ if (has_colors () == TRUE)
+ {
+ if ((ratio_this <= threshold_green)
+ || ((ratio_prev < threshold_green)
+ && (ratio_this > threshold_green)))
+ color = OPING_GREEN;
+ else if ((ratio_this <= threshold_yellow)
+ || ((ratio_prev < threshold_yellow)
+ && (ratio_this > threshold_yellow)))
+ color = OPING_YELLOW;
+ else
+ color = OPING_RED;
+
+ wattron (ctx->window, COLOR_PAIR(color));
+ }
+
+ if (counters[x] == 0)
+ mvwaddch (ctx->window, /* y = */ 3, /* x = */ x + 2, ' ');
+ else if (has_utf8 ())
+ mvwprintw (ctx->window, /* y = */ 3, /* x = */ x + 2,
+ hist_symbols_utf8[index]);
+ else
+ mvwaddch (ctx->window, /* y = */ 3, /* x = */ x + 2,
+ hist_symbols_acs[index] | A_ALTCHARSET);
+
+ if (has_colors () == TRUE)
+ wattroff (ctx->window, COLOR_PAIR(color));
+
+ }