trunk/dp/dp.c

#include<stdio.h>
#include<math.h>
#include<stdlib.h>
#define max_sites 15000
#define MYSEED 8973247

int nsites, xlat, ylat;
double beta;
double theta[max_sites], x[max_sites], y[max_sites], z[max_sites], phi[max_sites], mu[max_sites];
double domsizex, domsizey;
double magx, magy, magz, magmag, kz, ktheta, strength, z0, theta0;
double en,dtheta,deltaz,deltaphi;
int attemp, nacc;


int main()
{
  void getmag();
  double eneri(double xi, double yi, double zi, double phii, double thetai, int i, int jb);
  double toterg();
  void adjust();
  void mcmove();
  void store(FILE *outFile);
  
  double twopi, nnd, myran, kb;
  double ent;
  int icycl, ncycl, imove, nmoves, nsamp;
  int nx, ny, which, i, j;
  
  FILE *outFile;
  outFile=fopen("dp_file","w");
  
  srand48(MYSEED);
  
  // These two parameters set the size of the system:

  nnd = 7.0;
  ny = 100;

  // we want the domains to be roughly square:

  nx = (int) ((double)ny / sqrt(3.0));


  // periodic box boundaries:

  domsizex = sqrt(3.0) * nx * nnd;
  domsizey = ny * nnd;

  strength = 10.0;
  ncycl = 1e7;
  nmoves = 100;
  nsamp = 1e4;
  twopi = 2.0 * M_PI;
  dtheta = 0.1;
  kb = 0.0019872198;
  beta = 1.0 / (kb * 300.0);
  z0 = 0.0;
  deltaz = 0.1;
  deltaphi = 0.1;
  kz = kb;
  ktheta = kb;
  theta0 = M_PI / 2.0;
    
  which = 0; 
  xlat = 0;

  for(i=0; i < nx; i++) {

    xlat = xlat + 2;
    ylat = 0;
    
    for(j=0; j<ny; j++) {     
      
      which = which + 1;
      x[which] = i * sqrt(3.0) * nnd;
      y[which] = j * nnd;
      myran = drand48();
      phi[which] = myran * twopi;
      myran = drand48();
      theta[which] = acos(2.0*myran-1.0);
      myran = drand48();
      z[which]=z0 + (2.0*myran-1.0)*deltaz;
      mu[which] = strength;
      
      which = which + 1;

      printf("%d\n", which);

      x[which] = nnd* sqrt(3.0) * (2.0*i + 1.0) / 2.0;
      y[which] = nnd* ( 2.0*j+1.0 ) / 2.0;
      myran = drand48();
      phi[which] = myran * twopi;
      myran = drand48();
      theta[which] = acos(2.0*myran-1.0);
      myran = drand48();
      z[which] = z0 + (2.0*myran-1.0) * deltaz;
      mu[which] = strength;
      ylat = ylat + 2;
    }
  }

  nsites= which;
  
  en=toterg();
  printf("\nthe initial energy is : \t%f\n\n",en);
  
  attemp = 0;
  nacc = 0;
  
  adjust();

  for(icycl=1;icycl<=ncycl;icycl++)
        {
                for(imove=1;imove<=nmoves;imove++)
                {
                        mcmove();
                }

                if((icycl%nsamp) == 0)
                {
                        store(outFile);
                        getmag();
                        printf("mag=%f\t%f\t%f\t%f\n", magx, magy, magz, magmag);
                }

                if( (icycl%(ncycl/5))==0 )
                {
                        printf("\n=====> Done\t%d\tout of\t%d\n", icycl, ncycl);
                        adjust();
                }
        }

        if(ncycl!=0)
        {
                if(attemp!=0)
                {
                        printf("Number of att. to disl. a part. :%d\nsuccess: %d(=%f%)\n\n", attemp, nacc, 100*(double)(nacc)/(double)(attemp));
                }
                ent=toterg();
                if(fabs(ent-en)>1e-6) printf("\n###### PROBLEMS ENERGY ###############\n");
                printf("\nTotal energy end of simulation : %f\nrunning energy : %f\ndifference : %f\n\n", ent, en, ent-en);
        }
        fclose(outFile);
        return 0;
}

double toterg()
{
        double eneri(double, double, double, double, double, int, int);  
        
        double xi, yi, zi, phii, thetai, eni;
        int i, jb;
        double ener=0.0;
        for(i=1;i<=nsites;i++)
        {
                xi = x[i];
                yi = y[i];
                zi = z[i];
                phii = phi[i];
                thetai = theta[i];
                jb = i;
                eni=eneri(xi, yi, zi, phii, thetai, i, jb);
                ener = ener + eni;
        }
        return ener;

}

void getmag( )
{
        double  thetai, phii;
        int i;

        magx = 0.0;
        magy = 0.0;
        magz = 0.0;

        for(i=1;i<=nsites;i++)
        {
                phii = phi[i];
                thetai = theta[i];
                magx = magx + mu[i] * cos(phii) * sin(thetai);
                magy = magy + mu[i] * sin(phii) * sin(thetai);
                magz = magz + mu[i] * cos(thetai);
        }

        magx = magx / (double)(nsites);
        magy = magy / (double)(nsites);
        magz = magz / (double)(nsites);
        magmag = sqrt (magx*magx+magy*magy+magz*magz);
}

double eneri(double xi, double yi, double zi, double phii, double thetai, int i, int jb)
{

        double uxi, uyi, uzi, dx, dy, dz, r, r2, r3, r5, uxj, uyj, uzj, rcut;
        double udotu, rdotui, rdotuj, vij, pre, vint;
        double eni;
        int j;

        pre = 14.38362;

        rcut = 30.0;

        eni = 0.0;
        uxi = mu[i] * cos(phii) * sin(thetai);
        uyi = mu[i] * sin(phii) * sin(thetai);
        uzi = mu[i] * cos(thetai);

        for(j=jb;j<=nsites;j++)
        {
                if(j!=i)
                {
                  dx = x[j]-xi;                 
                  if(fabs(dx)>(domsizex/2.0)) dx = dx - domsizex*copysign(1.0,dx)*(double)(int)(fabs(dx /domsizex)+0.5);
                  dy = y[j]-yi;
                  if(fabs(dy)>(domsizey/2.0)) dy = dy - domsizey*copysign(1.0,dy)*(double)(int)(fabs(dy /domsizey)+0.5);
                  dz = z[j]-zi;
                  
                  r2 = dx*dx+dy*dy+dz*dz;
                  r = sqrt(r2);
                  if(r<rcut)
                    {
                      r3 = r2*r;
                      r5 = r2*r3;
                      
                      uxj = mu[j]*cos(phi[j]) * sin(theta[j]);
                      uyj = mu[j]*sin(phi[j]) * sin(theta[j]);
                      uzj = mu[j] * cos(theta[j]);
                      udotu = uxi*uxj + uyi*uyj + uzi*uzj;
                      rdotui = dx*uxi + dy*uyi + dz*uzi;
                      rdotuj = dx*uxj + dy*uyj + dz*uzj;
                      
                      vij = pre*(udotu/r3 - 3.0*rdotui*rdotuj/r5);
                      eni = eni + vij;
                    }
                }
        }
        vint = 0.5 * kz * (zi-z0) * (zi-z0) + 0.5 * ktheta * (thetai-theta0) * (thetai-theta0);
        eni = eni + vint;
        return eni;
}

void adjust()
{
        static int attempp, naccp;
        double dzo, dphio, dthetao, frac;

        if((attemp==0)||(attempp>=attemp))
        {
                naccp = nacc;
                attempp = attemp;
        }
        else
        {
                frac = (double)(nacc-naccp)/(double)(attemp-attempp);
                dthetao = dtheta;
                dzo = deltaz;
                dphio = deltaphi;
                dtheta = dtheta * fabs(frac/0.5);
                deltaz = deltaz * fabs(frac/0.5);
                deltaphi = deltaphi * fabs(frac/0.5);

                if((dtheta/dthetao)>1.5) dtheta = dthetao*1.5;
                if((dtheta/dthetao)<0.5) dtheta = dthetao*0.5;
                if((deltaz/dzo)>1.5) deltaz = dzo * 1.5;
                if((deltaz/dzo)<0.5) deltaz = dzo * 0.5;
                if((deltaphi/dphio)>1.5) deltaphi = dphio * 1.5;
                if((deltaphi/dphio)<0.5) deltaphi = dphio * 0.5;
                printf("Max. displ. set to :%f\t%f\t%f\t(old :%f\t%f\t%f)\nFrac. acc.:%f\nattempts:%d\nsucces:%d\n\n", deltaz, deltaphi, dtheta, dzo, dphio, dthetao, frac, attemp-attempp, nacc - naccp);
                naccp = nacc;
                attempp=attemp;
        }
        
}

void mcmove()
{
        int o;
        double eno, zn, phin, thetan, enn, myran;
        int jb;

        attemp = attemp + 1;
        jb = 1;
        myran = drand48();
        o = (int)(nsites*myran) + 1;
        eno=eneri(x[o], y[o], z[o], phi[o], theta[o], o, jb);
        myran = drand48();
        zn = z[o] + (2.0*myran-1.0) * deltaz;
        myran = drand48();
        phin = phi[o] + (2.0*myran-1.0) * deltaphi;
        myran = drand48();
        thetan = theta[o] + (2.0*myran-1.0)*dtheta;
        enn=eneri(x[o], y[o], zn, phin, thetan, o, jb);
        myran = drand48();
        if(myran<=(exp(-beta*(enn-eno))))
        {
                nacc = nacc + 1;
                en = en + (enn-eno);
                z[o] = zn;
                phi[o] = phin;
                theta[o] = thetan;
        }
}


void store(FILE* outFile)
{
        double uxi, uyi, uzi;
        int i;
        
        fprintf(outFile,"%d\n",nsites);
        fprintf(outFile,"%d\t%d\n",xlat, ylat);
        
        for(i=1;i<=nsites;i++)
        {
                uxi = cos(phi[i])*sin(theta[i]);
                uyi = sin(phi[i])*sin(theta[i]);
                uzi = cos(theta[i]);
                fprintf(outFile,"%s\t%f\t%f\t%f\t%f\t%f\t%f\t%f\n","Ar",x[i],y[i],z[i],phi[i],uxi,uyi,uzi);
        }

}
Revision:	587
Committed:	Thu Jul 10 15:42:41 2003 UTC (20 years, 11 months ago) by xsun
Content type:	text/plain
File size:	7027 byte(s)
Log Message:	* empty log message *
#	Content
1	#include<stdio.h>
2	#include<math.h>
3	#include<stdlib.h>
4	#define max_sites 15000
5	#define MYSEED 8973247
6
7	int nsites, xlat, ylat;
8	double beta;
9	double theta[max_sites], x[max_sites], y[max_sites], z[max_sites], phi[max_sites], mu[max_sites];
10	double domsizex, domsizey;
11	double magx, magy, magz, magmag, kz, ktheta, strength, z0, theta0;
12	double en,dtheta,deltaz,deltaphi;
13	int attemp, nacc;
14
15
16	int main()
17	{
18	void getmag();
19	double eneri(double xi, double yi, double zi, double phii, double thetai, int i, int jb);
20	double toterg();
21	void adjust();
22	void mcmove();
23	void store(FILE *outFile);
24
25	double twopi, nnd, myran, kb;
26	double ent;
27	int icycl, ncycl, imove, nmoves, nsamp;
28	int nx, ny, which, i, j;
29
30	FILE *outFile;
31	outFile=fopen("dp_file","w");
32
33	srand48(MYSEED);
34
35	// These two parameters set the size of the system:
36
37	nnd = 7.0;
38	ny = 100;
39
40	// we want the domains to be roughly square:
41
42	nx = (int) ((double)ny / sqrt(3.0));
43
44
45	// periodic box boundaries:
46
47	domsizex = sqrt(3.0) * nx * nnd;
48	domsizey = ny * nnd;
49
50	strength = 10.0;
51	ncycl = 1e7;
52	nmoves = 100;
53	nsamp = 1e4;
54	twopi = 2.0 * M_PI;
55	dtheta = 0.1;
56	kb = 0.0019872198;
57	beta = 1.0 / (kb * 300.0);
58	z0 = 0.0;
59	deltaz = 0.1;
60	deltaphi = 0.1;
61	kz = kb;
62	ktheta = kb;
63	theta0 = M_PI / 2.0;
64
65	which = 0;
66	xlat = 0;
67
68	for(i=0; i < nx; i++) {
69
70	xlat = xlat + 2;
71	ylat = 0;
72
73	for(j=0; j<ny; j++) {
74
75	which = which + 1;
76	x[which] = i * sqrt(3.0) * nnd;
77	y[which] = j * nnd;
78	myran = drand48();
79	phi[which] = myran * twopi;
80	myran = drand48();
81	theta[which] = acos(2.0*myran-1.0);
82	myran = drand48();
83	z[which]=z0 + (2.0myran-1.0)deltaz;
84	mu[which] = strength;
85
86	which = which + 1;
87
88	printf("%d\n", which);
89
90	x[which] = nnd* sqrt(3.0) * (2.0*i + 1.0) / 2.0;
91	y[which] = nnd* ( 2.0*j+1.0 ) / 2.0;
92	myran = drand48();
93	phi[which] = myran * twopi;
94	myran = drand48();
95	theta[which] = acos(2.0*myran-1.0);
96	myran = drand48();
97	z[which] = z0 + (2.0myran-1.0) deltaz;
98	mu[which] = strength;
99	ylat = ylat + 2;
100	}
101	}
102
103	nsites= which;
104
105	en=toterg();
106	printf("\nthe initial energy is : \t%f\n\n",en);
107
108	attemp = 0;
109	nacc = 0;
110
111	adjust();
112
113	for(icycl=1;icycl<=ncycl;icycl++)
114	{
115	for(imove=1;imove<=nmoves;imove++)
116	{
117	mcmove();
118	}
119
120	if((icycl%nsamp) == 0)
121	{
122	store(outFile);
123	getmag();
124	printf("mag=%f\t%f\t%f\t%f\n", magx, magy, magz, magmag);
125	}
126
127	if( (icycl%(ncycl/5))==0 )
128	{
129	printf("\n=====> Done\t%d\tout of\t%d\n", icycl, ncycl);
130	adjust();
131	}
132	}
133
134	if(ncycl!=0)
135	{
136	if(attemp!=0)
137	{
138	printf("Number of att. to disl. a part. :%d\nsuccess: %d(=%f%)\n\n", attemp, nacc, 100*(double)(nacc)/(double)(attemp));
139	}
140	ent=toterg();
141	if(fabs(ent-en)>1e-6) printf("\n###### PROBLEMS ENERGY ###############\n");
142	printf("\nTotal energy end of simulation : %f\nrunning energy : %f\ndifference : %f\n\n", ent, en, ent-en);
143	}
144	fclose(outFile);
145	return 0;
146	}
147
148	double toterg()
149	{
150	double eneri(double, double, double, double, double, int, int);
151
152	double xi, yi, zi, phii, thetai, eni;
153	int i, jb;
154	double ener=0.0;
155	for(i=1;i<=nsites;i++)
156	{
157	xi = x[i];
158	yi = y[i];
159	zi = z[i];
160	phii = phi[i];
161	thetai = theta[i];
162	jb = i;
163	eni=eneri(xi, yi, zi, phii, thetai, i, jb);
164	ener = ener + eni;
165	}
166	return ener;
167
168	}
169
170	void getmag( )
171	{
172	double thetai, phii;
173	int i;
174
175	magx = 0.0;
176	magy = 0.0;
177	magz = 0.0;
178
179	for(i=1;i<=nsites;i++)
180	{
181	phii = phi[i];
182	thetai = theta[i];
183	magx = magx + mu[i] * cos(phii) * sin(thetai);
184	magy = magy + mu[i] * sin(phii) * sin(thetai);
185	magz = magz + mu[i] * cos(thetai);
186	}
187
188	magx = magx / (double)(nsites);
189	magy = magy / (double)(nsites);
190	magz = magz / (double)(nsites);
191	magmag = sqrt (magxmagx+magymagy+magz*magz);
192	}
193
194	double eneri(double xi, double yi, double zi, double phii, double thetai, int i, int jb)
195	{
196
197	double uxi, uyi, uzi, dx, dy, dz, r, r2, r3, r5, uxj, uyj, uzj, rcut;
198	double udotu, rdotui, rdotuj, vij, pre, vint;
199	double eni;
200	int j;
201
202	pre = 14.38362;
203
204	rcut = 30.0;
205
206	eni = 0.0;
207	uxi = mu[i] * cos(phii) * sin(thetai);
208	uyi = mu[i] * sin(phii) * sin(thetai);
209	uzi = mu[i] * cos(thetai);
210
211	for(j=jb;j<=nsites;j++)
212	{
213	if(j!=i)
214	{
215	dx = x[j]-xi;
216	if(fabs(dx)>(domsizex/2.0)) dx = dx - domsizexcopysign(1.0,dx)(double)(int)(fabs(dx /domsizex)+0.5);
217	dy = y[j]-yi;
218	if(fabs(dy)>(domsizey/2.0)) dy = dy - domsizeycopysign(1.0,dy)(double)(int)(fabs(dy /domsizey)+0.5);
219	dz = z[j]-zi;
220
221	r2 = dxdx+dydy+dz*dz;
222	r = sqrt(r2);
223	if(r<rcut)
224	{
225	r3 = r2*r;
226	r5 = r2*r3;
227
228	uxj = mu[j]cos(phi[j]) sin(theta[j]);
229	uyj = mu[j]sin(phi[j]) sin(theta[j]);
230	uzj = mu[j] * cos(theta[j]);
231	udotu = uxiuxj + uyiuyj + uzi*uzj;
232	rdotui = dxuxi + dyuyi + dz*uzi;
233	rdotuj = dxuxj + dyuyj + dz*uzj;
234
235	vij = pre(udotu/r3 - 3.0rdotui*rdotuj/r5);
236	eni = eni + vij;
237	}
238	}
239	}
240	vint = 0.5 * kz * (zi-z0) * (zi-z0) + 0.5 * ktheta * (thetai-theta0) * (thetai-theta0);
241	eni = eni + vint;
242	return eni;
243	}
244
245	void adjust()
246	{
247	static int attempp, naccp;
248	double dzo, dphio, dthetao, frac;
249
250	if((attemp==0)\|\|(attempp>=attemp))
251	{
252	naccp = nacc;
253	attempp = attemp;
254	}
255	else
256	{
257	frac = (double)(nacc-naccp)/(double)(attemp-attempp);
258	dthetao = dtheta;
259	dzo = deltaz;
260	dphio = deltaphi;
261	dtheta = dtheta * fabs(frac/0.5);
262	deltaz = deltaz * fabs(frac/0.5);
263	deltaphi = deltaphi * fabs(frac/0.5);
264
265	if((dtheta/dthetao)>1.5) dtheta = dthetao*1.5;
266	if((dtheta/dthetao)<0.5) dtheta = dthetao*0.5;
267	if((deltaz/dzo)>1.5) deltaz = dzo * 1.5;
268	if((deltaz/dzo)<0.5) deltaz = dzo * 0.5;
269	if((deltaphi/dphio)>1.5) deltaphi = dphio * 1.5;
270	if((deltaphi/dphio)<0.5) deltaphi = dphio * 0.5;
271	printf("Max. displ. set to :%f\t%f\t%f\t(old :%f\t%f\t%f)\nFrac. acc.:%f\nattempts:%d\nsucces:%d\n\n", deltaz, deltaphi, dtheta, dzo, dphio, dthetao, frac, attemp-attempp, nacc - naccp);
272	naccp = nacc;
273	attempp=attemp;
274	}
275
276	}
277
278	void mcmove()
279	{
280	int o;
281	double eno, zn, phin, thetan, enn, myran;
282	int jb;
283
284	attemp = attemp + 1;
285	jb = 1;
286	myran = drand48();
287	o = (int)(nsites*myran) + 1;
288	eno=eneri(x[o], y[o], z[o], phi[o], theta[o], o, jb);
289	myran = drand48();
290	zn = z[o] + (2.0myran-1.0) deltaz;
291	myran = drand48();
292	phin = phi[o] + (2.0myran-1.0) deltaphi;
293	myran = drand48();
294	thetan = theta[o] + (2.0myran-1.0)dtheta;
295	enn=eneri(x[o], y[o], zn, phin, thetan, o, jb);
296	myran = drand48();
297	if(myran<=(exp(-beta*(enn-eno))))
298	{
299	nacc = nacc + 1;
300	en = en + (enn-eno);
301	z[o] = zn;
302	phi[o] = phin;
303	theta[o] = thetan;
304	}
305	}
306
307
308	void store(FILE* outFile)
309	{
310	double uxi, uyi, uzi;
311	int i;
312
313	fprintf(outFile,"%d\n",nsites);
314	fprintf(outFile,"%d\t%d\n",xlat, ylat);
315
316	for(i=1;i<=nsites;i++)
317	{
318	uxi = cos(phi[i])*sin(theta[i]);
319	uyi = sin(phi[i])*sin(theta[i]);
320	uzi = cos(theta[i]);
321	fprintf(outFile,"%s\t%f\t%f\t%f\t%f\t%f\t%f\t%f\n","Ar",x[i],y[i],z[i],phi[i],uxi,uyi,uzi);
322	}
323
324	}