#ifndef Stats_DEFINED #define Stats_DEFINED #include "SkString.h" #include "SkTSort.h" #ifdef SK_BUILD_FOR_WIN static const char* kBars[] = { ".", "o", "O" }; #else static const char* kBars[] = { "▁", "▂", "▃", "▄", "▅", "▆", "▇", "█" }; #endif struct Stats { Stats(const double samples[], int n) { min = samples[0]; max = samples[0]; for (int i = 0; i < n; i++) { if (samples[i] < min) { min = samples[i]; } if (samples[i] > max) { max = samples[i]; } } double sum = 0.0; for (int i = 0 ; i < n; i++) { sum += samples[i]; } mean = sum / n; double err = 0.0; for (int i = 0 ; i < n; i++) { err += (samples[i] - mean) * (samples[i] - mean); } var = err / (n-1); SkAutoTMalloc<double> sorted(n); memcpy(sorted.get(), samples, n * sizeof(double)); SkTQSort(sorted.get(), sorted.get() + n - 1); median = sorted[n/2]; // Normalize samples to [min, max] in as many quanta as we have distinct bars to print. for (int i = 0; i < n; i++) { if (min == max) { // All samples are the same value. Don't divide by zero. plot.append(kBars[0]); continue; } double s = samples[i]; s -= min; s /= (max - min); s *= (SK_ARRAY_COUNT(kBars) - 1); const size_t bar = (size_t)(s + 0.5); SK_ALWAYSBREAK(bar < SK_ARRAY_COUNT(kBars)); plot.append(kBars[bar]); } } double min; double max; double mean; // Estimate of population mean. double var; // Estimate of population variance. double median; SkString plot; // A single-line bar chart (_not_ histogram) of the samples. }; #endif//Stats_DEFINED