clang/test/Analysis/runtime-regression.c - rust-lang/llvm-project - Git at Google

 // RUN: %clang_analyze_cc1 %s \
 // RUN:   -analyzer-checker=core,alpha.security.ArrayBoundV2 \
 // RUN:   -analyzer-checker=debug.ExprInspection \
 // RUN:   -triple x86_64-unknown-linux-gnu \
 // RUN:   -verify

 // This test is here to check if there is no significant run-time regression
 // related to the assume machinery. The analysis should finish in less than 10
 // seconds.

 // expected-no-diagnostics

 typedef unsigned char uint8_t;
 typedef unsigned short uint16_t;
 typedef unsigned long uint64_t;

 int filter_slice_word(int sat_linesize, int sigma, int radius, uint64_t *sat,
                       uint64_t *square_sat, int width, int height,
                       int src_linesize, int dst_linesize, const uint16_t *src,
                       uint16_t *dst, int jobnr, int nb_jobs) {
   const int starty = height * jobnr / nb_jobs;
   const int endy = height * (jobnr + 1) / nb_jobs;

   for (int y = starty; y < endy; y++) {

     int lower_y = y - radius < 0 ? 0 : y - radius;
     int higher_y = y + radius + 1 > height ? height : y + radius + 1;
     int dist_y = higher_y - lower_y;

     for (int x = 0; x < width; x++) {

       int lower_x = x - radius < 0 ? 0 : x - radius;
       int higher_x = x + radius + 1 > width ? width : x + radius + 1;
       int count = dist_y * (higher_x - lower_x);

       // The below hunk caused significant regression in run-time.
 #if 1
       uint64_t sum = sat[higher_y * sat_linesize + higher_x] -
                      sat[higher_y * sat_linesize + lower_x] -
                      sat[lower_y * sat_linesize + higher_x] +
                      sat[lower_y * sat_linesize + lower_x];
       uint64_t square_sum = square_sat[higher_y * sat_linesize + higher_x] -
                             square_sat[higher_y * sat_linesize + lower_x] -
                             square_sat[lower_y * sat_linesize + higher_x] +
                             square_sat[lower_y * sat_linesize + lower_x];
       uint64_t mean = sum / count;
       uint64_t var = (square_sum - sum * sum / count) / count;
       dst[y * dst_linesize + x] =
           (sigma * mean + var * src[y * src_linesize + x]) / (sigma + var);
 #endif

     }
   }
   return 0;
 }
	// RUN: %clang_analyze_cc1 %s \
	// RUN: -analyzer-checker=core,alpha.security.ArrayBoundV2 \
	// RUN: -analyzer-checker=debug.ExprInspection \
	// RUN: -triple x86_64-unknown-linux-gnu \
	// RUN: -verify

	// This test is here to check if there is no significant run-time regression
	// related to the assume machinery. The analysis should finish in less than 10
	// seconds.

	// expected-no-diagnostics

	typedef unsigned char uint8_t;
	typedef unsigned short uint16_t;
	typedef unsigned long uint64_t;

	int filter_slice_word(int sat_linesize, int sigma, int radius, uint64_t *sat,
	uint64_t *square_sat, int width, int height,
	int src_linesize, int dst_linesize, const uint16_t *src,
	uint16_t *dst, int jobnr, int nb_jobs) {
	const int starty = height * jobnr / nb_jobs;
	const int endy = height * (jobnr + 1) / nb_jobs;

	for (int y = starty; y < endy; y++) {

	int lower_y = y - radius < 0 ? 0 : y - radius;
	int higher_y = y + radius + 1 > height ? height : y + radius + 1;
	int dist_y = higher_y - lower_y;

	for (int x = 0; x < width; x++) {

	int lower_x = x - radius < 0 ? 0 : x - radius;
	int higher_x = x + radius + 1 > width ? width : x + radius + 1;
	int count = dist_y * (higher_x - lower_x);

	// The below hunk caused significant regression in run-time.
	#if 1
	uint64_t sum = sat[higher_y * sat_linesize + higher_x] -
	sat[higher_y * sat_linesize + lower_x] -
	sat[lower_y * sat_linesize + higher_x] +
	sat[lower_y * sat_linesize + lower_x];
	uint64_t square_sum = square_sat[higher_y * sat_linesize + higher_x] -
	square_sat[higher_y * sat_linesize + lower_x] -
	square_sat[lower_y * sat_linesize + higher_x] +
	square_sat[lower_y * sat_linesize + lower_x];
	uint64_t mean = sum / count;
	uint64_t var = (square_sum - sum * sum / count) / count;
	dst[y * dst_linesize + x] =
	(sigma * mean + var * src[y * src_linesize + x]) / (sigma + var);
	#endif

	}
	}
	return 0;
	}