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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [gcc/] [testsuite/] [gcc.dg/] [pr36584.c] - Blame information for rev 701

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/* { dg-do run } */
/* { dg-options "-O2 -lm" } */
/* { dg-options "-O2 -msse2 -mfpmath=sse" { target { { i?86-*-* x86_64-*-* } && ia32 } } } */
/* { dg-require-effective-target sse2_runtime { target { { i?86-*-* x86_64-*-* } && ia32 } } } */
 
extern double fabs (double);
extern void abort (void);
 
const int MAX_ITERATIONS = 50;
const double SMALL_ENOUGH = 1.0e-10;
const double RELERROR = 1.0e-12;
 
typedef struct p
{
  int ord;
  double coef[7];
}
polynomial;
 
static double
polyeval (double x, int n, double *Coeffs)
{
  register int i;
  double val;
 
  val = Coeffs[n];
  for (i = n - 1; i >= 0; i--)
    val = val * x + Coeffs[i];
 
  return (val);
}
 
static int
regula_falsa (int order, double *coef, double a, double b, double *val)
{
  int its;
  double fa, fb, x, fx, lfx;
 
  fa = polyeval (a, order, coef);
  fb = polyeval (b, order, coef);
 
  if (fa * fb > 0.0)
    return 0;
 
  if (fabs (fa) < SMALL_ENOUGH)
    {
      *val = a;
      return 1;
    }
 
  if (fabs (fb) < SMALL_ENOUGH)
    {
      *val = b;
      return 1;
    }
 
  lfx = fa;
 
  for (its = 0; its < MAX_ITERATIONS; its++)
    {
      x = (fb * a - fa * b) / (fb - fa);
      fx = polyeval (x, order, coef);
      if (fabs (x) > RELERROR)
        {
          if (fabs (fx / x) < RELERROR)
            {
              *val = x;
              return 1;
            }
        }
      else
        {
          if (fabs (fx) < RELERROR)
            {
              *val = x;
              return 1;
            }
        }
 
      if (fa < 0)
        {
          if (fx < 0)
            {
              a = x;
              fa = fx;
              if ((lfx * fx) > 0)
                fb /= 2;
            }
          else
            {
              b = x;
              fb = fx;
              if ((lfx * fx) > 0)
                fa /= 2;
            }
        }
      else
        {
          if (fx < 0)
            {
              b = x;
              fb = fx;
              if ((lfx * fx) > 0)
                fa /= 2;
            }
          else
            {
              a = x;
              fa = fx;
              if ((lfx * fx) > 0)
                fb /= 2;
            }
        }
 
      if (fabs (b - a) < RELERROR)
        {
          *val = x;
          return 1;
        }
 
      lfx = fx;
    }
 
  return 0;
}
 
static int
numchanges (int np, polynomial * sseq, double a)
{
  int changes;
  double f, lf;
  polynomial *s;
  changes = 0;
 
  lf = polyeval (a, sseq[0].ord, sseq[0].coef);
 
  for (s = sseq + 1; s <= sseq + np; s++)
    {
      f = polyeval (a, s->ord, s->coef);
      if (lf == 0.0 || lf * f < 0)
        changes++;
 
      lf = f;
    }
 
  return changes;
}
 
int
sbisect (int np, polynomial * sseq, double min_value, double max_value,
         int atmin, int atmax, double *roots)
{
  double mid;
  int n1, n2, its, atmid;
 
  if ((atmin - atmax) == 1)
    {
      if (regula_falsa (sseq->ord, sseq->coef, min_value, max_value, roots))
        return 1;
      else
        {
          for (its = 0; its < MAX_ITERATIONS; its++)
            {
              mid = (min_value + max_value) / 2;
              atmid = numchanges (np, sseq, mid);
              if ((atmid < atmax) || (atmid > atmin))
                return 0;
 
              if (fabs (mid) > RELERROR)
                {
                  if (fabs ((max_value - min_value) / mid) < RELERROR)
                    {
                      roots[0] = mid;
                      return 1;
                    }
                }
              else
                {
                  if (fabs (max_value - min_value) < RELERROR)
                    {
                      roots[0] = mid;
                      return 1;
                    }
                }
 
              if ((atmin - atmid) == 0)
                min_value = mid;
              else
                max_value = mid;
            }
 
          roots[0] = mid;
          return 1;
        }
    }
 
  for (its = 0; its < MAX_ITERATIONS; its++)
    {
      mid = (min_value + max_value) / 2;
      atmid = numchanges (np, sseq, mid);
      if ((atmid < atmax) || (atmid > atmin))
        return 0;
 
      if (fabs (mid) > RELERROR)
        {
          if (fabs ((max_value - min_value) / mid) < RELERROR)
            {
              roots[0] = mid;
              return 1;
            }
        }
      else
        {
          if (fabs (max_value - min_value) < RELERROR)
            {
              roots[0] = mid;
              return 1;
            }
        }
 
      n1 = atmin - atmid;
      n2 = atmid - atmax;
 
      if ((n1 != 0) && (n2 != 0))
        {
          n1 = sbisect (np, sseq, min_value, mid, atmin, atmid, roots);
          n2 = sbisect (np, sseq, mid, max_value, atmid, atmax, &roots[n1]);
 
          return (n1 + n2);
        }
 
      if (n1 == 0)
        min_value = mid;
      else
        max_value = mid;
    }
 
  roots[0] = mid;
  return 1;
}
 
int
main ()
{
  polynomial sseq[7] = {
    {6, {0.15735259075109281, -5.1185263411378736, 1.8516070705868664,
         7.348009172322695, -2.2152395279161343, -2.7543325329350692, 1.0}},
    {5, {-0.8530877235229789, 0.61720235686228875, 3.6740045861613475,
         -1.4768263519440896, -2.2952771107792245, 1.0}},
    {4, {0.13072124257049417, 2.2220687798791126, -1.6299431586726509,
         -1.6718404582408546, 1.0}},
    {3, {0.86776597575462633, -2.1051099695282511, -0.49008580100694688,
         1.0}},
    {2, {-11.117984175064155, 10.89886635045883, 1.0}},
    {1, {0.94453099602191237, -1.0}},
    {0, {-0.068471716890574186}}
  };
 
  double roots[7];
  int nroots;
 
  nroots = sbisect (6, sseq, 0.0, 10000000.0, 5, 1, roots);
  if (nroots != 4)
    abort ();
 
  return 0;
}

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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [gcc/] [testsuite/] [gcc.dg/] [pr36584.c] - Blame information for rev 701

Line No.	Rev	Author	Line
1	689	jeremybenn	`/* { dg-do run } */`
2			`/* { dg-options "-O2 -lm" } */`
3			`/* { dg-options "-O2 -msse2 -mfpmath=sse" { target { { i?86-- x86_64-- } && ia32 } } } */`
4			`/* { dg-require-effective-target sse2_runtime { target { { i?86-- x86_64-- } && ia32 } } } */`
5
6			`extern double fabs (double);`
7			`extern void abort (void);`
8
9			`const int MAX_ITERATIONS = 50;`
10			`const double SMALL_ENOUGH = 1.0e-10;`
11			`const double RELERROR = 1.0e-12;`
12
13			`typedef struct p`
14			`{`
15			`int ord;`
16			`double coef[7];`
17			`}`
18			`polynomial;`
19
20			`static double`
21			`polyeval (double x, int n, double *Coeffs)`
22			`{`
23			`register int i;`
24			`double val;`
25
26			`val = Coeffs[n];`
27			`for (i = n - 1; i >= 0; i--)`
28			`val = val * x + Coeffs[i];`
29
30			`return (val);`
31			`}`
32
33			`static int`
34			`regula_falsa (int order, double coef, double a, double b, double val)`
35			`{`
36			`int its;`
37			`double fa, fb, x, fx, lfx;`
38
39			`fa = polyeval (a, order, coef);`
40			`fb = polyeval (b, order, coef);`
41
42			`if (fa * fb > 0.0)`
43			`return 0;`
44
45			`if (fabs (fa) < SMALL_ENOUGH)`
46			`{`
47			`*val = a;`
48			`return 1;`
49			`}`
50
51			`if (fabs (fb) < SMALL_ENOUGH)`
52			`{`
53			`*val = b;`
54			`return 1;`
55			`}`
56
57			`lfx = fa;`
58
59			`for (its = 0; its < MAX_ITERATIONS; its++)`
60			`{`
61			`x = (fb * a - fa * b) / (fb - fa);`
62			`fx = polyeval (x, order, coef);`
63			`if (fabs (x) > RELERROR)`
64			`{`
65			`if (fabs (fx / x) < RELERROR)`
66			`{`
67			`*val = x;`
68			`return 1;`
69			`}`
70			`}`
71			`else`
72			`{`
73			`if (fabs (fx) < RELERROR)`
74			`{`
75			`*val = x;`
76			`return 1;`
77			`}`
78			`}`
79
80			`if (fa < 0)`
81			`{`
82			`if (fx < 0)`
83			`{`
84			`a = x;`
85			`fa = fx;`
86			`if ((lfx * fx) > 0)`
87			`fb /= 2;`
88			`}`
89			`else`
90			`{`
91			`b = x;`
92			`fb = fx;`
93			`if ((lfx * fx) > 0)`
94			`fa /= 2;`
95			`}`
96			`}`
97			`else`
98			`{`
99			`if (fx < 0)`
100			`{`
101			`b = x;`
102			`fb = fx;`
103			`if ((lfx * fx) > 0)`
104			`fa /= 2;`
105			`}`
106			`else`
107			`{`
108			`a = x;`
109			`fa = fx;`
110			`if ((lfx * fx) > 0)`
111			`fb /= 2;`
112			`}`
113			`}`
114
115			`if (fabs (b - a) < RELERROR)`
116			`{`
117			`*val = x;`
118			`return 1;`
119			`}`
120
121			`lfx = fx;`
122			`}`
123
124			`return 0;`
125			`}`
126
127			`static int`
128			`numchanges (int np, polynomial * sseq, double a)`
129			`{`
130			`int changes;`
131			`double f, lf;`
132			`polynomial *s;`
133			`changes = 0;`
134
135			`lf = polyeval (a, sseq[0].ord, sseq[0].coef);`
136
137			`for (s = sseq + 1; s <= sseq + np; s++)`
138			`{`
139			`f = polyeval (a, s->ord, s->coef);`
140			`if (lf == 0.0 \|\| lf * f < 0)`
141			`changes++;`
142
143			`lf = f;`
144			`}`
145
146			`return changes;`
147			`}`
148
149			`int`
150			`sbisect (int np, polynomial * sseq, double min_value, double max_value,`
151			`int atmin, int atmax, double *roots)`
152			`{`
153			`double mid;`
154			`int n1, n2, its, atmid;`
155
156			`if ((atmin - atmax) == 1)`
157			`{`
158			`if (regula_falsa (sseq->ord, sseq->coef, min_value, max_value, roots))`
159			`return 1;`
160			`else`
161			`{`
162			`for (its = 0; its < MAX_ITERATIONS; its++)`
163			`{`
164			`mid = (min_value + max_value) / 2;`
165			`atmid = numchanges (np, sseq, mid);`
166			`if ((atmid < atmax) \|\| (atmid > atmin))`
167			`return 0;`
168
169			`if (fabs (mid) > RELERROR)`
170			`{`
171			`if (fabs ((max_value - min_value) / mid) < RELERROR)`
172			`{`
173			`roots[0] = mid;`
174			`return 1;`
175			`}`
176			`}`
177			`else`
178			`{`
179			`if (fabs (max_value - min_value) < RELERROR)`
180			`{`
181			`roots[0] = mid;`
182			`return 1;`
183			`}`
184			`}`
185
186			`if ((atmin - atmid) == 0)`
187			`min_value = mid;`
188			`else`
189			`max_value = mid;`
190			`}`
191
192			`roots[0] = mid;`
193			`return 1;`
194			`}`
195			`}`
196
197			`for (its = 0; its < MAX_ITERATIONS; its++)`
198			`{`
199			`mid = (min_value + max_value) / 2;`
200			`atmid = numchanges (np, sseq, mid);`
201			`if ((atmid < atmax) \|\| (atmid > atmin))`
202			`return 0;`
203
204			`if (fabs (mid) > RELERROR)`
205			`{`
206			`if (fabs ((max_value - min_value) / mid) < RELERROR)`
207			`{`
208			`roots[0] = mid;`
209			`return 1;`
210			`}`
211			`}`
212			`else`
213			`{`
214			`if (fabs (max_value - min_value) < RELERROR)`
215			`{`
216			`roots[0] = mid;`
217			`return 1;`
218			`}`
219			`}`
220
221			`n1 = atmin - atmid;`
222			`n2 = atmid - atmax;`
223
224			`if ((n1 != 0) && (n2 != 0))`
225			`{`
226			`n1 = sbisect (np, sseq, min_value, mid, atmin, atmid, roots);`
227			`n2 = sbisect (np, sseq, mid, max_value, atmid, atmax, &roots[n1]);`
228
229			`return (n1 + n2);`
230			`}`
231
232			`if (n1 == 0)`
233			`min_value = mid;`
234			`else`
235			`max_value = mid;`
236			`}`
237
238			`roots[0] = mid;`
239			`return 1;`
240			`}`
241
242			`int`
243			`main ()`
244			`{`
245			`polynomial sseq[7] = {`
246			`{6, {0.15735259075109281, -5.1185263411378736, 1.8516070705868664,`
247			`7.348009172322695, -2.2152395279161343, -2.7543325329350692, 1.0}},`
248			`{5, {-0.8530877235229789, 0.61720235686228875, 3.6740045861613475,`
249			`-1.4768263519440896, -2.2952771107792245, 1.0}},`
250			`{4, {0.13072124257049417, 2.2220687798791126, -1.6299431586726509,`
251			`-1.6718404582408546, 1.0}},`
252			`{3, {0.86776597575462633, -2.1051099695282511, -0.49008580100694688,`
253			`1.0}},`
254			`{2, {-11.117984175064155, 10.89886635045883, 1.0}},`
255			`{1, {0.94453099602191237, -1.0}},`
256			`{0, {-0.068471716890574186}}`
257			`};`
258
259			`double roots[7];`
260			`int nroots;`
261
262			`nroots = sbisect (6, sseq, 0.0, 10000000.0, 5, 1, roots);`
263			`if (nroots != 4)`
264			`abort ();`
265
266			`return 0;`
267			`}`