MultiSource/Benchmarks/Olden/power/main.c - third_party/llvm-test-suite - Git at Google

 /* For copyright information, see olden_v1.0/COPYRIGHT */

 /* main.c
  *
  * By:  Martin C. Carlisle
  * 6/16/94
  *
  * main routine for the Power Pricing problem
  * adapted from code by:  Steve Lumetta, Sherry Li, and Ismail Khalil
  * University of California at Berkeley
  *
  */

 #include "power.h"
 #include <stdio.h>

 /* Domain of thetaR->P map is 0.65 to 1.00 [index*0.01+0.65] */
 double map_P[36] =
 {8752.218091048, 8446.106670416, 8107.990680283,
  7776.191574285, 7455.920518777, 7146.602181352,
  6847.709026813, 6558.734204024, 6279.213382291,
  6008.702199986, 5746.786181029, 5493.078256495,
  5247.206333097, 5008.828069358, 4777.615815166,
  4553.258735900, 4335.470002316, 4123.971545694,
  3918.501939675, 3718.817618538, 3524.683625800,
  3335.876573044, 3152.188635673, 2973.421417103,
  2799.382330486, 2629.892542617, 2464.782829705,
  2303.889031418, 2147.054385395, 1994.132771399,
  1844.985347313, 1699.475053321, 1557.474019598,
  1418.860479043, 1283.520126656, 1151.338004216};

 #define      MIN_THETA_R       0.65
 #define      PER_INDEX_R       0.01
 #define      MAX_THETA_R       0.995

 /* Domain of thetaI->Q map is 0.130 to 0.200 [index*0.002+0.130] */
 double map_Q[36] =
 {1768.846590190, 1706.229490046, 1637.253873079,
  1569.637451623, 1504.419525242, 1441.477913810,
  1380.700660446, 1321.980440476, 1265.218982201,
  1210.322424636, 1157.203306183, 1105.780028163,
  1055.974296746, 1007.714103979, 960.930643875,
  915.558722782, 871.538200178, 828.810882006,
  787.322098340, 747.020941334, 707.858376214,
  669.787829741, 632.765987756, 596.751545633,
  561.704466609, 527.587580585, 494.365739051,
  462.004890691, 430.472546686, 399.738429196,
  369.773787595, 340.550287137, 312.041496095,
  284.222260660, 257.068973074, 230.557938283};

 #define      MIN_THETA_I       0.13
 #define      PER_INDEX_I       0.002
 #define      MAX_THETA_I       0.199

 int main(int argc,char *argv[])
 {
   Root r;
   int i,finished=0;
   double d_theta_R,d_theta_I;

   printf("Past initialization\n");

   /* initial pass */
   r = build_tree();
   printf("Built tree\n");
   Compute_Tree(r);
   printf("COMPUTED TREE\n");
   r->last.P = r->D.P;
   r->last.Q = r->D.Q;
   r->last_theta_R = r->theta_R;
   r->last_theta_I = r->theta_I;
   r->theta_R = 0.7;
   r->theta_I = 0.14;

   while (!finished) {
     Compute_Tree(r);
     printf("TR=%4.2f, TI=%4.2f, P0=%4.2f, Q0=%4.2f\n",
            r->theta_R,r->theta_I,r->D.P,r->D.Q);
     if (fabs(r->D.P/10000.0 - r->theta_R) < ROOT_EPSILON &&
         fabs(r->D.Q/10000.0 - r->theta_I) < ROOT_EPSILON) {
       finished = 1;
     } else {
       i = (int)((r->theta_R - MIN_THETA_R) / PER_INDEX_R);
       if (i<0) i=0;
       if (i>35) i=35;
       d_theta_R = -(r->theta_R - r->D.P/10000.0) /
         (1 - (map_P[i+1] - map_P[i]) / (PER_INDEX_R * 10000.0));

       i = (int)((r->theta_I - MIN_THETA_I) / PER_INDEX_I);
       if (i<0) i=0;
       if (i>35) i=35;
       d_theta_I = -(r->theta_I - r->D.Q/10000.0) /
         (1 - (map_Q[i+1] - map_Q[i]) / (PER_INDEX_I * 10000.0));

       printf("D TR-%4.2f, TI=%4.2f\n", d_theta_R,d_theta_I);
       r->last.P = r->D.P;
       r->last.Q = r->D.Q;
       r->last_theta_R = r->theta_R;
       r->last_theta_I = r->theta_I;
       r->theta_R = r->theta_R + d_theta_R;
       r->theta_I = r->theta_I + d_theta_I;
     }
   } /* while */

   return 0;
 }
	/* For copyright information, see olden_v1.0/COPYRIGHT */

	/* main.c
	*
	* By: Martin C. Carlisle
	* 6/16/94
	*
	* main routine for the Power Pricing problem
	* adapted from code by: Steve Lumetta, Sherry Li, and Ismail Khalil
	* University of California at Berkeley
	*
	*/

	#include "power.h"
	#include <stdio.h>

	/* Domain of thetaR->P map is 0.65 to 1.00 [index0.01+0.65] /
	double map_P[36] =
	{8752.218091048, 8446.106670416, 8107.990680283,
	7776.191574285, 7455.920518777, 7146.602181352,
	6847.709026813, 6558.734204024, 6279.213382291,
	6008.702199986, 5746.786181029, 5493.078256495,
	5247.206333097, 5008.828069358, 4777.615815166,
	4553.258735900, 4335.470002316, 4123.971545694,
	3918.501939675, 3718.817618538, 3524.683625800,
	3335.876573044, 3152.188635673, 2973.421417103,
	2799.382330486, 2629.892542617, 2464.782829705,
	2303.889031418, 2147.054385395, 1994.132771399,
	1844.985347313, 1699.475053321, 1557.474019598,
	1418.860479043, 1283.520126656, 1151.338004216};

	#define MIN_THETA_R 0.65
	#define PER_INDEX_R 0.01
	#define MAX_THETA_R 0.995

	/* Domain of thetaI->Q map is 0.130 to 0.200 [index0.002+0.130] /
	double map_Q[36] =
	{1768.846590190, 1706.229490046, 1637.253873079,
	1569.637451623, 1504.419525242, 1441.477913810,
	1380.700660446, 1321.980440476, 1265.218982201,
	1210.322424636, 1157.203306183, 1105.780028163,
	1055.974296746, 1007.714103979, 960.930643875,
	915.558722782, 871.538200178, 828.810882006,
	787.322098340, 747.020941334, 707.858376214,
	669.787829741, 632.765987756, 596.751545633,
	561.704466609, 527.587580585, 494.365739051,
	462.004890691, 430.472546686, 399.738429196,
	369.773787595, 340.550287137, 312.041496095,
	284.222260660, 257.068973074, 230.557938283};

	#define MIN_THETA_I 0.13
	#define PER_INDEX_I 0.002
	#define MAX_THETA_I 0.199

	int main(int argc,char *argv[])
	{
	Root r;
	int i,finished=0;
	double d_theta_R,d_theta_I;

	printf("Past initialization\n");

	/* initial pass */
	r = build_tree();
	printf("Built tree\n");
	Compute_Tree(r);
	printf("COMPUTED TREE\n");
	r->last.P = r->D.P;
	r->last.Q = r->D.Q;
	r->last_theta_R = r->theta_R;
	r->last_theta_I = r->theta_I;
	r->theta_R = 0.7;
	r->theta_I = 0.14;

	while (!finished) {
	Compute_Tree(r);
	printf("TR=%4.2f, TI=%4.2f, P0=%4.2f, Q0=%4.2f\n",
	r->theta_R,r->theta_I,r->D.P,r->D.Q);
	if (fabs(r->D.P/10000.0 - r->theta_R) < ROOT_EPSILON &&
	fabs(r->D.Q/10000.0 - r->theta_I) < ROOT_EPSILON) {
	finished = 1;
	} else {
	i = (int)((r->theta_R - MIN_THETA_R) / PER_INDEX_R);
	if (i<0) i=0;
	if (i>35) i=35;
	d_theta_R = -(r->theta_R - r->D.P/10000.0) /
	(1 - (map_P[i+1] - map_P[i]) / (PER_INDEX_R * 10000.0));

	i = (int)((r->theta_I - MIN_THETA_I) / PER_INDEX_I);
	if (i<0) i=0;
	if (i>35) i=35;
	d_theta_I = -(r->theta_I - r->D.Q/10000.0) /
	(1 - (map_Q[i+1] - map_Q[i]) / (PER_INDEX_I * 10000.0));

	printf("D TR-%4.2f, TI=%4.2f\n", d_theta_R,d_theta_I);
	r->last.P = r->D.P;
	r->last.Q = r->D.Q;
	r->last_theta_R = r->theta_R;
	r->last_theta_I = r->theta_I;
	r->theta_R = r->theta_R + d_theta_R;
	r->theta_I = r->theta_I + d_theta_I;
	}
	} /* while */

	return 0;
	}