gcc/testsuite/gcc.dg/pr42250.c - gcc - Git at Google

 /* { dg-do compile } */
 /* { dg-options "-O2" } */

 extern double log10 (double __x);
 extern double ceil (double __x);
 extern double floor (double __x);
 extern void free (void *__ptr);
 extern void *my_malloc (unsigned int);
 extern int num_rr_nodes;
 static float get_cblock_trans (int *num_inputs_to_cblock,
 			       int max_inputs_to_cblock,
 			       float trans_cblock_to_lblock_buf,
 			       float trans_sram_bit);
 static float trans_per_mux (int num_inputs, float trans_sram_bit);
 void
 count_routing_transistors (int num_switch, float R_minW_nmos,
 			   float R_minW_pmos)
 {
   int *num_inputs_to_cblock;
   int iswitch, i, j, iseg, max_inputs_to_cblock;
   float input_cblock_trans;
   const float trans_sram_bit = 6.;
   float trans_cblock_to_lblock_buf;
   input_cblock_trans =
     get_cblock_trans (num_inputs_to_cblock, max_inputs_to_cblock,
 		      trans_cblock_to_lblock_buf, trans_sram_bit);
 }

 static float
 get_cblock_trans (int *num_inputs_to_cblock, int max_inputs_to_cblock,
 		  float trans_cblock_to_lblock_buf, float trans_sram_bit)
 {
   float *trans_per_cblock;
   float trans_count;
   int i, num_inputs;

   trans_per_cblock =
     (float *) my_malloc ((max_inputs_to_cblock + 1) * sizeof (float));
   for (i = 1; i <= max_inputs_to_cblock; i++)
     trans_per_cblock[i] =
       trans_per_mux (i, trans_sram_bit) + trans_cblock_to_lblock_buf;
   for (i = 0; i < num_rr_nodes; i++)
     {
       num_inputs = num_inputs_to_cblock[i];
       trans_count += trans_per_cblock[num_inputs];
     }
   free (trans_per_cblock);
   return (trans_count);
 }

 static float
 trans_per_mux (int num_inputs, float trans_sram_bit)
 {
   int nlevels, ilevel, current_inps;
   float ntrans = 0;

   if (num_inputs <= 1)
     return (0);
   nlevels = ceil (log10 (num_inputs) / log10 (2.) - 0.00001);
   current_inps = num_inputs;
   for (ilevel = 1; ilevel <= nlevels; ilevel++)
     {
       ntrans += 2 * floor (current_inps / 2.);
       current_inps = ceil (current_inps / 2.);
     }
   ntrans += trans_sram_bit * nlevels;
   return (ntrans);
 }
	/* { dg-do compile } */
	/* { dg-options "-O2" } */

	extern double log10 (double __x);
	extern double ceil (double __x);
	extern double floor (double __x);
	extern void free (void *__ptr);
	extern void *my_malloc (unsigned int);
	extern int num_rr_nodes;
	static float get_cblock_trans (int *num_inputs_to_cblock,
	int max_inputs_to_cblock,
	float trans_cblock_to_lblock_buf,
	float trans_sram_bit);
	static float trans_per_mux (int num_inputs, float trans_sram_bit);
	void
	count_routing_transistors (int num_switch, float R_minW_nmos,
	float R_minW_pmos)
	{
	int *num_inputs_to_cblock;
	int iswitch, i, j, iseg, max_inputs_to_cblock;
	float input_cblock_trans;
	const float trans_sram_bit = 6.;
	float trans_cblock_to_lblock_buf;
	input_cblock_trans =
	get_cblock_trans (num_inputs_to_cblock, max_inputs_to_cblock,
	trans_cblock_to_lblock_buf, trans_sram_bit);
	}

	static float
	get_cblock_trans (int *num_inputs_to_cblock, int max_inputs_to_cblock,
	float trans_cblock_to_lblock_buf, float trans_sram_bit)
	{
	float *trans_per_cblock;
	float trans_count;
	int i, num_inputs;

	trans_per_cblock =
	(float ) my_malloc ((max_inputs_to_cblock + 1) sizeof (float));
	for (i = 1; i <= max_inputs_to_cblock; i++)
	trans_per_cblock[i] =
	trans_per_mux (i, trans_sram_bit) + trans_cblock_to_lblock_buf;
	for (i = 0; i < num_rr_nodes; i++)
	{
	num_inputs = num_inputs_to_cblock[i];
	trans_count += trans_per_cblock[num_inputs];
	}
	free (trans_per_cblock);
	return (trans_count);
	}

	static float
	trans_per_mux (int num_inputs, float trans_sram_bit)
	{
	int nlevels, ilevel, current_inps;
	float ntrans = 0;

	if (num_inputs <= 1)
	return (0);
	nlevels = ceil (log10 (num_inputs) / log10 (2.) - 0.00001);
	current_inps = num_inputs;
	for (ilevel = 1; ilevel <= nlevels; ilevel++)
	{
	ntrans += 2 * floor (current_inps / 2.);
	current_inps = ceil (current_inps / 2.);
	}
	ntrans += trans_sram_bit * nlevels;
	return (ntrans);
	}