version 1.10, 2013/03/07 03:00:43 |
version 1.28, 2016/02/13 02:19:00 |
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/* |
/* |
$OpenXM: OpenXM/src/hgm/mh/src/wmain.c,v 1.9 2013/03/05 05:26:07 takayama Exp $ |
$OpenXM: OpenXM/src/hgm/mh/src/wmain.c,v 1.27 2016/02/04 06:56:05 takayama Exp $ |
License: LGPL |
License: LGPL |
*/ |
*/ |
#include <stdio.h> |
#include <stdio.h> |
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#include <math.h> |
#include <math.h> |
#include <string.h> |
#include <string.h> |
#include "sfile.h" |
#include "sfile.h" |
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#include "mh.h" |
#define SMAX 4096 |
#define SMAX 4096 |
#define inci(i) { i++; if (i >= argc) { fprintf(stderr,"Option argument is not given.\n"); return(NULL); }} |
#define inci(i) { i++; if (i >= argc) { oxprintfe("Option argument is not given.\n"); return(NULL); }} |
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#define VSTRING "%!version2.0" |
int MH_deallocate=0; |
int MH_deallocate=0; |
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/* |
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changelog |
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2016.02.13 code-n.c and code-n-2f1.c are linked together. New idata format. |
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2016.02.04 MH_Ef_type exponential or scalar factor |
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2016.02.01 C_2F1 |
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2014.03.15 --strategy 1 is default. A new parser in setParam() |
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*/ |
extern char *MH_Gfname; |
extern char *MH_Gfname; |
extern char *MH_Dfname; |
extern char *MH_Dfname; |
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Line 30 int MH_Dp; /* Data sampling period */ |
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Line 39 int MH_Dp; /* Data sampling period */ |
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static double Xng=0.0; /* the last point */ |
static double Xng=0.0; /* the last point */ |
int MH_RawName = 0; |
int MH_RawName = 0; |
static int Testrank=0; |
static int Testrank=0; |
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/* If MH_success is set to 1, then strategy, MH_abserr, MH_relerr seem to |
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be properly set. |
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*/ |
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int MH_success=0; |
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/* |
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Estimation of the maximal coeff of A in y'=Ay. |
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This might be too rough estimate. |
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*/ |
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double MH_coeff_max; |
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/* |
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Estimation of h by MH_coeff_max; |
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*/ |
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double MH_estimated_start_step; |
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int MH_P_pFq=1; |
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int MH_Q_pFq=1; |
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double *MH_A_pFq=NULL; |
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double *MH_B_pFq=NULL; |
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int MH_Ef_type=1; |
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MH_RF mh_rf=NULL; /* function pointer to mh_rf */ |
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extern int MH_Verbose; |
extern int MH_Verbose; |
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extern int MH_strategy; |
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extern double MH_abserr; |
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extern double MH_relerr; |
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extern int MH_P95; /* 95 % points */ |
extern int MH_P95; /* 95 % points */ |
int mh_gopen_file(void); |
int mh_gopen_file(void); |
Line 39 static int setParamDefault(void); |
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Line 72 static int setParamDefault(void); |
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static int setParam(char *fname); |
static int setParam(char *fname); |
static int showParam(void); |
static int showParam(void); |
static int next(struct SFILE *fp,char *s, char *msg); |
static int next(struct SFILE *fp,char *s, char *msg); |
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static double estimateHg(int m, double beta[],double x0); |
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/* #define DEBUG */ |
/* #define DEBUG */ |
#ifdef DEBUG |
#ifdef DEBUG |
char *MH_Dfname; char *MH_Gfname; double MH_Hg; |
char *MH_Dfname; char *MH_Gfname; double MH_Hg; |
Line 53 void mh_freeWorkArea(void) { |
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Line 88 void mh_freeWorkArea(void) { |
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mh_main(0,NULL); |
mh_main(0,NULL); |
setParam(NULL); |
setParam(NULL); |
mh_rkmain(0.0, NULL, 0.0); |
mh_rkmain(0.0, NULL, 0.0); |
mh_rf(0.0, NULL, 0, NULL, 0); |
if (mh_rf) (*mh_rf)(0.0, NULL, 0, NULL, 0); |
MH_deallocate=0; /* switch to the normal mode. */ |
MH_deallocate=0; /* switch to the normal mode. */ |
} |
} |
static int mypower(int x,int n) { |
static int mypower(int x,int n) { |
Line 63 static int mypower(int x,int n) { |
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Line 98 static int mypower(int x,int n) { |
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return(a); |
return(a); |
} |
} |
#ifdef STANDALONE2 |
#ifdef STANDALONE2 |
main(int argc,char *argv[]) { |
int main(int argc,char *argv[]) { |
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int strategy=STRATEGY_DEFAULT; |
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double err[2]={-1.0,-1.0}; |
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int i; |
mh_exit(MH_RESET_EXIT); /* standalone mode */ |
mh_exit(MH_RESET_EXIT); /* standalone mode */ |
/* mh_main(argc,argv); |
/* mh_main(argc,argv); |
mh_freeWorkArea(); */ |
mh_freeWorkArea(); */ |
mh_main(argc,argv); |
mh_main(argc,argv); |
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/* showParam(); */ |
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return(0); |
} |
} |
#endif |
#endif |
struct MH_RESULT *mh_main(int argc,char *argv[]) { |
struct MH_RESULT *mh_main(int argc,char *argv[]) { |
static double *y0; |
static double *y0=NULL; |
double x0,xn; |
double x0,xn; |
double ef; |
double ef; |
int i,rank; |
int i,rank; |
struct MH_RESULT *rp=NULL; |
struct MH_RESULT *rp=NULL; |
extern int MH_deallocate; |
extern int MH_deallocate; |
extern int MH_byFile; |
extern int MH_byFile; |
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extern double Ef; |
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Ef = 1; |
MH_byFile=1; |
MH_byFile=1; |
if (MH_deallocate) { if (y0) mh_free(y0); return(rp); } |
if (MH_deallocate) { if (y0) mh_free(y0); return(rp); } |
setParam(NULL); MH_Gfname = MH_Dfname = NULL; MH_Verbose=1; |
setParam(NULL); MH_Gfname = MH_Dfname = NULL; MH_Verbose=1; |
Line 113 struct MH_RESULT *mh_main(int argc,char *argv[]) { |
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Line 155 struct MH_RESULT *mh_main(int argc,char *argv[]) { |
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MH_Verbose=1; |
MH_Verbose=1; |
}else if (strcmp(argv[i],"--bystring")==0) { |
}else if (strcmp(argv[i],"--bystring")==0) { |
MH_byFile = 0; |
MH_byFile = 0; |
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}else if (strcmp(argv[i],"--strategy")==0) { |
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i++; sscanf(argv[i],"%d",&MH_strategy); |
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}else if (strcmp(argv[i],"--abserr")==0) { |
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i++; sscanf(argv[i],"%lg",&MH_abserr); |
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}else if (strcmp(argv[i],"--relerr")==0) { |
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i++; sscanf(argv[i],"%lg",&MH_relerr); |
}else { |
}else { |
fprintf(stderr,"Unknown option %s\n",argv[i]); |
oxprintfe("Unknown option %s\n",argv[i]); |
mh_usage(); |
mh_usage(); |
return(rp); |
return(rp); |
} |
} |
} |
} |
if (MH_Verbose) showParam(); |
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x0 = MH_X0g; |
x0 = MH_X0g; |
xn = Xng; |
xn = Xng; |
ef = Ef; |
ef = Ef; |
Line 127 struct MH_RESULT *mh_main(int argc,char *argv[]) { |
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Line 174 struct MH_RESULT *mh_main(int argc,char *argv[]) { |
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y0 = (double *) mh_malloc(sizeof(double)*rank); |
y0 = (double *) mh_malloc(sizeof(double)*rank); |
for (i=0; i<rank; i++) y0[i] = ef*Iv[i]; |
for (i=0; i<rank; i++) y0[i] = ef*Iv[i]; |
mh_gopen_file(); |
mh_gopen_file(); |
if (MH_Verbose) {for (i=0; i<rank; i++) printf("%lf\n",y0[i]); } |
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rp = (struct MH_RESULT*) mh_malloc(sizeof(struct MH_RESULT)); |
rp = (struct MH_RESULT*) mh_malloc(sizeof(struct MH_RESULT)); |
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if (MH_strategy) { |
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if (MH_abserr > SIGDIGIT_DEFAULT*myabs(y0[0])) { |
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MH_success = 0; |
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oxprintfe("%%%%Warning, abserr seems not to be small enough, abserr=%lg, y[0]=%lg\n",MH_abserr,y0[0]); |
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}else{ |
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MH_success = 1; |
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} |
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}else{ |
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MH_success = 0; |
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} |
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MH_estimated_start_step = estimateHg(MH_Mg,MH_Beta,MH_X0g); |
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if (MH_Verbose) showParam(); |
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if (MH_Verbose) {for (i=0; i<rank; i++) oxprintf("%lf\n",y0[i]); } |
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*rp=mh_rkmain(x0,y0,xn); |
*rp=mh_rkmain(x0,y0,xn); |
return(rp); |
return(rp); |
} |
} |
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int mh_usage() { |
int mh_usage() { |
fprintf(stderr,"Usages:\n"); |
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fprintf(stderr,"w-m [--idata input_data_file --gnuplotf gnuplot_file_name\n"); |
#include "usage-w-n.h" |
fprintf(stderr," --dataf output_data_file --raw --xmax xmax --test m --step h]\n"); |
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fprintf(stderr,"[ --95 --verbose] \n"); |
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fprintf(stderr,"--raw does not add data parameters to the output_data_file.\n"); |
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fprintf(stderr,"\nThe command w-m [options] evaluates Pr({y | y<xmax}), which is the cumulative distribution function of the largest root of the m by m Wishart matrix with n degrees of freedom and the covariantce matrix sigma.\n"); |
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fprintf(stderr,"All the eigenvalues of sigma must be simple.\n"); |
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fprintf(stderr,"Parameters are specified by the input_data_file.\n"); |
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fprintf(stderr,"The format of the input_data_file.\n"); |
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fprintf(stderr," MH_Mg: m, MH_Beta: beta=sigma^(-1)/2 (diagonized), MH_Ng: n, Iv: initial values at MH_X0g*MH_Beta (see our paper how to order them), \n"); |
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fprintf(stderr," Ef: a scalar factor to the initial value. It may set to 1.\n"); |
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fprintf(stderr," MH_Hg: h (step size), MH_X0g: starting value of x, Xng: terminating value of x\n"); |
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fprintf(stderr," MH_Dp: output data is stored in every MH_Dp steps when output_data_file is specified.\n"); |
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fprintf(stderr," --95: output the 95%% point. --verbose: verbose mode.\n"); |
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fprintf(stderr," The line started with %% is a comment line.\n"); |
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fprintf(stderr," An example format of the input_data_file can be obtained by executing w-2 with no option.\n"); |
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fprintf(stderr,"\nExamples:\n"); |
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fprintf(stderr,"[1] ./w-2 \n"); |
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fprintf(stderr,"[2] ./w-2 --xmax 20\n"); |
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fprintf(stderr,"[3] ./w-6 --test 6\n"); |
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fprintf(stderr," A test run of w-6.\n"); |
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fprintf(stderr," The number m and mm must agree for ./w-m --test mm.\n"); |
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fprintf(stderr,"[4] ./w-5 --idata tmp-inm-m5* --gnuplot tmp-graph\n"); |
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fprintf(stderr," tmp-inm-m5* is a sample input data distributed with this file.\n"); |
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fprintf(stderr," tmp-graph-gp.txt is an input file of the gnuplot\n"); |
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fprintf(stderr," It can be executed with the load command in the gnuplot.\n"); |
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fprintf(stderr," tmp-graph is the table of x and the values of Pr({y | y<x}).\n"); |
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} |
} |
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static int setParamTest() { |
static int setParamTest() { |
Line 181 static int setParamTest() { |
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Line 218 static int setParamTest() { |
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MH_X0g = 0.3; |
MH_X0g = 0.3; |
MH_Hg = 0.001; |
MH_Hg = 0.001; |
MH_Dp = 1; |
MH_Dp = 1; |
Xng = 10.0; |
Xng = 10.0; return(0); |
} |
} |
static int setParamDefault() { |
static int setParamDefault() { |
int rank; |
int rank; |
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double a[1]; |
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double b[1]; |
MH_M=MH_Mg = 2 ; |
MH_M=MH_Mg = 2 ; |
MH_RANK=rank = mypower(2,MH_Mg); |
MH_RANK=rank = mypower(2,MH_Mg); |
MH_Beta = (double *)mh_malloc(sizeof(double)*MH_Mg); |
MH_Beta = (double *)mh_malloc(sizeof(double)*MH_Mg); |
MH_Beta[0] = 1.0; MH_Beta[1] = 2.0; |
MH_Beta[0] = 1.0; MH_Beta[1] = 2.0; |
MH_Ng = (double *)mh_malloc(sizeof(double)); *MH_Ng = 3.0; |
MH_Ng = (double *)mh_malloc(sizeof(double)); *MH_Ng = 3.0; |
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a[0] = (MH_M+1.0)/2.0; |
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b[0] = a[0]+(*MH_Ng)/2.0; |
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mh_setA(a,1); mh_setB(b,1); |
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mh_rf = & mh_rf_ef_type_1; |
Iv = (double *)mh_malloc(sizeof(double)*rank); |
Iv = (double *)mh_malloc(sizeof(double)*rank); |
Iv[0] = 1.58693; |
Iv[0] = 1.58693; |
Iv[1] = 0.811369; |
Iv[1] = 0.811369; |
Line 199 static int setParamDefault() { |
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Line 242 static int setParamDefault() { |
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MH_X0g = 0.3; |
MH_X0g = 0.3; |
MH_Hg = 0.001; |
MH_Hg = 0.001; |
MH_Dp = 1; |
MH_Dp = 1; |
Xng = 10.0; |
Xng = 10.0; return(0); |
} |
} |
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static int next(struct SFILE *sfp,char *s,char *msg) { |
static int next_old1(struct SFILE *sfp,char *s,char *msg) { |
s[0] = '%'; |
s[0] = '%'; |
while (s[0] == '%') { |
while (s[0] == '%') { |
if (!mh_fgets(s,SMAX,sfp)) { |
if (!mh_fgets(s,SMAX,sfp)) { |
fprintf(stderr,"Data format error at %s\n",msg); |
oxprintfe("Data format error at %s\n",msg); |
mh_exit(-1); |
mh_exit(-1); |
} |
} |
if (s[0] != '%') return(0); |
if (s[0] != '%') return(0); |
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} return(0); |
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} |
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static int next(struct SFILE *sfp,char *s,char *msg) { |
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static int check=1; |
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char *ng="%%Ng="; |
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// int i; |
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s[0] = '%'; |
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while ((s[0] == '%') || (s[0] == '#')) { |
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if (!mh_fgets(s,SMAX,sfp)) { |
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oxprintfe("Data format error at %s\n",msg); |
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oxprintfe("Is it version 2.0 format? If so, add\n%s\nat the top.\n",VSTRING); |
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mh_exit(-1); |
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} |
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if ((s[0] == '%') && (s[1] == '%')) continue; |
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if (s[0] == '#') continue; |
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if (strncmp(s,VSTRING,strlen(VSTRING)) == 0) { |
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return(2); |
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} |
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if (check && (strncmp(msg,ng,4)==0)) { |
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if (strncmp(s,ng,5) != 0) { |
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oxprintfe("Warning, there is no %%Ng= at the border of Beta's and Ng, s=%s\n",s); |
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} |
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/* check=0; */ |
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} |
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if (s[0] != '%') return(0); |
} |
} |
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return(0); |
} |
} |
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static int setParam(char *fname) { |
static int setParam(char *fname) { |
int rank; |
int rank; |
char s[SMAX]; |
char s[SMAX]; |
struct SFILE *fp; |
struct SFILE *fp; |
int i; |
int i; |
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int version; |
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double a[1]; double b[1]; /* for old inputs */ |
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struct mh_token tk; |
extern int MH_deallocate; |
extern int MH_deallocate; |
extern int MH_byFile; |
extern int MH_byFile; |
if (MH_deallocate) { |
if (MH_deallocate) { |
if (MH_Beta) mh_free(MH_Beta); |
if (MH_Beta) {mh_free(MH_Beta); MH_Beta=NULL;} |
if (MH_Ng) mh_free(MH_Ng); |
if (MH_Ng) {mh_free(MH_Ng); MH_Ng=NULL;} |
if (Iv) mh_free(Iv); |
if (Iv) {mh_free(Iv); Iv = NULL;} |
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if (MH_A_pFq) {mh_free(MH_A_pFq); MH_A_pFq=NULL; MH_P_pFq = 0;} |
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if (MH_B_pFq) {mh_free(MH_B_pFq); MH_B_pFq=NULL; MH_Q_pFq = 0;} |
return(0); |
return(0); |
} |
} |
if (fname == NULL) return(setParamDefault()); |
if (fname == NULL) return(setParamDefault()); |
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if ((fp=mh_fopen(fname,"r",MH_byFile)) == NULL) { |
if ((fp=mh_fopen(fname,"r",MH_byFile)) == NULL) { |
fprintf(stderr,"File %s is not found.\n",fname); |
oxprintfe("File %s is not found.\n",fname); |
mh_exit(-1); |
mh_exit(-1); |
} |
} |
next(fp,s,"MH_Mg(m)"); |
/* set default initial values */ |
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MH_Mg=MH_M=-1; /* number of variables */ |
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MH_Ng=(double *) mh_malloc(sizeof(double)); *MH_Ng=-1; /* *Ng is the degree of freedom 1F1 */ |
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MH_X0g=0.1; /* evaluation point */ |
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Ef=1.0; /* exponential factor */ |
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MH_Ef_type=1; |
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MH_Hg=0.01; /* step size for RK */ |
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MH_Dp = 1; /* sampling rate */ |
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Xng = 10.0; /* terminal point for RK */ |
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/* Parser for the old style (version <2.0) input */ |
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version=next(fp,s,"Mg(m)"); |
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if (version == 2) goto mh_myparse; |
sscanf(s,"%d",&MH_Mg); MH_M=MH_Mg; |
sscanf(s,"%d",&MH_Mg); MH_M=MH_Mg; |
MH_RANK=rank = mypower(2,MH_Mg); |
MH_RANK=rank = mypower(2,MH_Mg); |
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Line 241 static int setParam(char *fname) { |
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Line 328 static int setParam(char *fname) { |
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sscanf(s,"%lf",&(MH_Beta[i])); |
sscanf(s,"%lf",&(MH_Beta[i])); |
} |
} |
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MH_Ng = (double *)mh_malloc(sizeof(double)); |
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next(fp,s,"MH_Ng(freedom parameter n)"); |
next(fp,s,"MH_Ng(freedom parameter n)"); |
sscanf(s,"%lf",MH_Ng); |
sscanf(s,"%lf",MH_Ng); |
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/* for old style input only for 1F1 ef_type==1. */ |
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MH_P_pFq = 1; MH_Q_pFq = 1; |
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a[0] = (MH_M+1.0)/2.0; |
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b[0] = a[0]+(*MH_Ng)/2.0; |
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mh_setA(a,1); mh_setB(b,1); |
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mh_rf = & mh_rf_ef_type_1; |
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next(fp,s,"MH_X0g(initial point)"); |
next(fp,s,"MH_X0g(initial point)"); |
sscanf(s,"%lf",&MH_X0g); |
sscanf(s,"%lf",&MH_X0g); |
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Line 265 static int setParam(char *fname) { |
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Line 358 static int setParam(char *fname) { |
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next(fp,s,"Xng (the last point, cf. --xmax)"); |
next(fp,s,"Xng (the last point, cf. --xmax)"); |
sscanf(s,"%lf",&Xng); |
sscanf(s,"%lf",&Xng); |
mh_fclose(fp); |
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/* Reading the optional parameters */ |
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mh_myparse: |
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while ((tk = mh_getoken(s,SMAX-1,fp)).type != MH_TOKEN_EOF) { |
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/* expect ID */ |
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if (tk.type != MH_TOKEN_ID) { |
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oxprintfe("Syntax error at %s\n",s); mh_exit(-1); |
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} |
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if ((strcmp(s,"abserr")==0) || (strcmp(s,"abserror")==0)) { |
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if (mh_getoken(s,SMAX-1,fp).type != MH_TOKEN_EQ) { |
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oxprintfe("Syntax error at %s\n",s); mh_exit(-1); |
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} |
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if ((tk=mh_getoken(s,SMAX-1,fp)).type != MH_TOKEN_DOUBLE) { |
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oxprintfe("Syntax error at %s\n",s); mh_exit(-1); |
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} |
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MH_abserr = tk.dval; |
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continue; |
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} |
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if ((strcmp(s,"relerr")==0) || (strcmp(s,"relerror")==0)) { |
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if (mh_getoken(s,SMAX-1,fp).type != MH_TOKEN_EQ) { |
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oxprintfe("Syntax error at %s\n",s); mh_exit(-1); |
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} |
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if ((tk=mh_getoken(s,SMAX-1,fp)).type != MH_TOKEN_DOUBLE) { |
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oxprintfe("Syntax error at %s\n",s); mh_exit(-1); |
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} |
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MH_relerr = tk.dval; |
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continue; |
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} |
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if (strcmp(s,"strategy")==0) { |
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if (mh_getoken(s,SMAX-1,fp).type != MH_TOKEN_EQ) { |
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oxprintfe("Syntax error at %s\n",s); mh_exit(-1); |
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} |
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if ((tk=mh_getoken(s,SMAX-1,fp)).type != MH_TOKEN_INT) { |
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oxprintfe("Syntax error at %s\n",s); mh_exit(-1); |
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} |
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MH_strategy = tk.ival; |
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continue; |
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} |
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// Format: #p_pFq=2 1.5 3.2 override by new input format. |
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if (strcmp(s,"p_pFq")==0) { |
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if (mh_getoken(s,SMAX-1,fp).type != MH_TOKEN_EQ) { |
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oxprintfe("Syntax error at %s\n",s); mh_exit(-1); |
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} |
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if ((tk=mh_getoken(s,SMAX-1,fp)).type != MH_TOKEN_INT) { |
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oxprintfe("Syntax error at %s\n",s); mh_exit(-1); |
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} |
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MH_P_pFq = tk.ival; |
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mh_setA(NULL,tk.ival); /* allocate mem */ |
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for (i=0; i<MH_P_pFq; i++) { |
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if ((tk=mh_getoken(s,SMAX-1,fp)).type == MH_TOKEN_DOUBLE) { |
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MH_A_pFq[i] = tk.dval; |
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}else if (tk.type == MH_TOKEN_INT) { |
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MH_A_pFq[i] = tk.ival; |
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}else{ |
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oxprintfe("Syntax error at %s\n",s); mh_exit(-1); |
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} |
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} |
|
continue; |
|
} |
|
if (strcmp(s,"q_pFq")==0) { |
|
if (mh_getoken(s,SMAX-1,fp).type != MH_TOKEN_EQ) { |
|
oxprintfe("Syntax error at %s\n",s); mh_exit(-1); |
|
} |
|
if ((tk=mh_getoken(s,SMAX-1,fp)).type != MH_TOKEN_INT) { |
|
oxprintfe("Syntax error at %s\n",s); mh_exit(-1); |
|
} |
|
MH_Q_pFq = tk.ival; |
|
mh_setB(NULL,tk.ival); /* allocate mem */ |
|
for (i=0; i<MH_Q_pFq; i++) { |
|
if ((tk=mh_getoken(s,SMAX-1,fp)).type == MH_TOKEN_DOUBLE) { |
|
MH_B_pFq[i] = tk.dval; |
|
}else if (tk.type == MH_TOKEN_INT) { |
|
MH_B_pFq[i] = tk.ival; |
|
}else{ |
|
oxprintfe("Syntax error at %s\n",s); mh_exit(-1); |
|
} |
|
} |
|
continue; |
|
} |
|
if (strcmp(s,"ef_type")==0) { |
|
if (mh_getoken(s,SMAX-1,fp).type != MH_TOKEN_EQ) { |
|
oxprintfe("Syntax error at %s\n",s); mh_exit(-1); |
|
} |
|
if ((tk=mh_getoken(s,SMAX-1,fp)).type != MH_TOKEN_INT) { |
|
oxprintfe("Syntax error at %s\n",s); mh_exit(-1); |
|
} |
|
MH_Ef_type = tk.ival; |
|
continue; |
|
} |
|
|
|
if (strcmp(s,"Mg")==0) { |
|
if (mh_getoken(s,SMAX-1,fp).type != MH_TOKEN_EQ) { |
|
oxprintfe("Syntax error at %s\n",s); mh_exit(-1); |
|
} |
|
if ((tk=mh_getoken(s,SMAX-1,fp)).type != MH_TOKEN_INT) { |
|
oxprintfe("Syntax error at %s\n",s); mh_exit(-1); |
|
} |
|
MH_Mg = tk.ival; MH_M = MH_Mg; |
|
MH_RANK = rank = mypower(2,MH_Mg); |
|
continue; |
|
} |
|
if (strcmp(s,"Beta")==0) { |
|
if (mh_getoken(s,SMAX-1,fp).type != MH_TOKEN_EQ) { |
|
oxprintfe("Syntax error at %s\n",s); mh_exit(-1); |
|
} |
|
if (MH_Mg <= 0) { |
|
oxprintfe("Mg should be set before reading Beta.\n"); mh_exit(-1); |
|
} |
|
MH_Beta = (double *)mh_malloc(sizeof(double)*MH_Mg); |
|
for (i=0; i<MH_Mg; i++) { |
|
if ((tk=mh_getoken(s,SMAX-1,fp)).type == MH_TOKEN_DOUBLE) { |
|
MH_Beta[i] = tk.dval; |
|
}else if (tk.type == MH_TOKEN_INT) { |
|
MH_Beta[i] = tk.ival; |
|
}else { |
|
oxprintfe("Syntax error at %s\n",s); mh_exit(-1); |
|
} |
|
} |
|
Iv = (double *)mh_malloc(sizeof(double)*rank); |
|
for (i=0; i<rank; i++) { |
|
Iv[i] = 0.0; |
|
} |
|
continue; |
|
} |
|
if (strcmp(s,"Ng")==0) { |
|
if (mh_getoken(s,SMAX-1,fp).type != MH_TOKEN_EQ) { |
|
oxprintfe("Syntax error at %s\n",s); mh_exit(-1); |
|
} |
|
|
|
if ((tk=mh_getoken(s,SMAX-1,fp)).type== MH_TOKEN_DOUBLE) { |
|
*MH_Ng = tk.dval; |
|
}else if (tk.type == MH_TOKEN_INT) { |
|
*MH_Ng = tk.ival; |
|
}else{ |
|
oxprintfe("Syntax error at %s\n",s); mh_exit(-1); |
|
} |
|
continue; |
|
} |
|
if (strcmp(s,"X0g")==0) { |
|
if (mh_getoken(s,SMAX-1,fp).type != MH_TOKEN_EQ) { |
|
oxprintfe("Syntax error at %s\n",s); mh_exit(-1); |
|
} |
|
if ((tk=mh_getoken(s,SMAX-1,fp)).type == MH_TOKEN_DOUBLE) { |
|
MH_X0g = tk.dval; |
|
}else if (tk.type == MH_TOKEN_INT) { |
|
MH_X0g = tk.ival; |
|
}else{ |
|
oxprintfe("Syntax error at %s\n",s); mh_exit(-1); |
|
} |
|
continue; |
|
} |
|
if (strcmp(s,"Iv")==0) { |
|
if (mh_getoken(s,SMAX-1,fp).type != MH_TOKEN_EQ) { |
|
oxprintfe("Syntax error at %s\n",s); mh_exit(-1); |
|
} |
|
for (i=0; i<rank; i++) { |
|
if ((tk=mh_getoken(s,SMAX-1,fp)).type == MH_TOKEN_DOUBLE) { |
|
Iv[i] = tk.dval; |
|
}else if (tk.type == MH_TOKEN_INT) { |
|
Iv[i] = tk.ival; |
|
}else{ |
|
oxprintfe("Syntax error at %s\n",s); mh_exit(-1); |
|
} |
|
} |
|
continue; |
|
} |
|
if (strcmp(s,"Ef")==0) { |
|
if (mh_getoken(s,SMAX-1,fp).type != MH_TOKEN_EQ) { |
|
oxprintfe("Syntax error at %s\n",s); mh_exit(-1); |
|
} |
|
if ((tk=mh_getoken(s,SMAX-1,fp)).type == MH_TOKEN_DOUBLE) { |
|
Ef = tk.dval; |
|
}else if (tk.type == MH_TOKEN_INT) { |
|
Ef = tk.ival; |
|
}else{ |
|
oxprintfe("Syntax error at %s\n",s); mh_exit(-1); |
|
} |
|
continue; |
|
} |
|
if (strcmp(s,"Hg")==0) { |
|
if (mh_getoken(s,SMAX-1,fp).type != MH_TOKEN_EQ) { |
|
oxprintfe("Syntax error at %s\n",s); mh_exit(-1); |
|
} |
|
if ((tk=mh_getoken(s,SMAX-1,fp)).type == MH_TOKEN_DOUBLE) { |
|
MH_Hg = tk.dval; |
|
}else if (tk.type == MH_TOKEN_INT) { |
|
MH_Hg = tk.ival; |
|
}else{ |
|
oxprintfe("Syntax error at %s\n",s); mh_exit(-1); |
|
} |
|
continue; |
|
} |
|
if (strcmp(s,"Dp")==0) { |
|
if (mh_getoken(s,SMAX-1,fp).type != MH_TOKEN_EQ) { |
|
oxprintfe("Syntax error at %s\n",s); mh_exit(-1); |
|
} |
|
if ((tk=mh_getoken(s,SMAX-1,fp)).type != MH_TOKEN_INT) { |
|
oxprintfe("Syntax error at %s\n",s); mh_exit(-1); |
|
} |
|
MH_Dp = tk.dval; |
|
continue; |
|
} |
|
if (strcmp(s,"Xng")==0) { |
|
if (mh_getoken(s,SMAX-1,fp).type != MH_TOKEN_EQ) { |
|
oxprintfe("Syntax error at %s\n",s); mh_exit(-1); |
|
} |
|
if ((tk=mh_getoken(s,SMAX-1,fp)).type == MH_TOKEN_DOUBLE) { |
|
Xng = tk.dval; |
|
}else if (tk.type == MH_TOKEN_INT) { |
|
Xng = tk.ival; |
|
}else{ |
|
oxprintfe("Syntax error at %s\n",s); mh_exit(-1); |
|
} |
|
continue; |
|
} |
|
|
|
oxprintfe("Unknown ID for wmain.c (old...) at %s.\n",s); mh_exit(-1); |
|
} |
|
if (MH_Ef_type == 1) { |
|
mh_rf = &mh_rf_ef_type_1; |
|
}else if (MH_Ef_type == 2) { |
|
mh_rf = &mh_rf_ef_type_2; |
|
}else{ |
|
oxprintfe("Ef_type = %d is not implemented.\n",MH_Ef_type); mh_exit(-1); |
|
} |
|
if ((MH_M < 0) || (MH_A_pFq==NULL)) { |
|
oxprintfe("MH_M and p_pFq, q_pFq are compulsory parameters.\n"); mh_exit(-1); |
|
} |
|
|
|
mh_fclose(fp); return(0); |
} |
} |
|
|
int showParam() { |
static int showParam() { |
int rank,i; |
int rank,i; |
|
extern int MH_strategy; |
|
extern double MH_abserr; |
|
extern double MH_relerr; |
rank = mypower(2,MH_Mg); |
rank = mypower(2,MH_Mg); |
printf("%%MH_Mg=\n%d\n",MH_Mg); |
oxprintf("%%MH_Mg=\n%d\n",MH_Mg); |
for (i=0; i<MH_Mg; i++) { |
for (i=0; i<MH_Mg; i++) { |
printf("%%MH_Beta[%d]=\n%lf\n",i,MH_Beta[i]); |
oxprintf("%%MH_Beta[%d]=\n%lf\n",i,MH_Beta[i]); |
} |
} |
printf("%%MH_Ng=\n%lf\n",*MH_Ng); |
oxprintf("%%MH_Ng=\n%lf\n",*MH_Ng); |
printf("%%MH_X0g=\n%lf\n",MH_X0g); |
oxprintf("%%MH_X0g=\n%lf\n",MH_X0g); |
for (i=0; i<rank; i++) { |
for (i=0; i<rank; i++) { |
printf("%%Iv[%d]=\n%lg\n",i,Iv[i]); |
oxprintf("%%Iv[%d]=\n%lg\n",i,Iv[i]); |
} |
} |
printf("%%Ef=\n%lf\n",Ef); |
oxprintf("%%Ef=\n%lf\n",Ef); |
printf("%%MH_Hg=\n%lf\n",MH_Hg); |
oxprintf("%%MH_Hg=\n%lf\n",MH_Hg); |
printf("%%MH_Dp=\n%d\n",MH_Dp); |
oxprintf("%%MH_Dp=\n%d\n",MH_Dp); |
printf("%%Xng=\n%lf\n",Xng); |
oxprintf("%%Xng=\n%lf\n",Xng); |
|
oxprintf("%%strategy=%d\n",MH_strategy); |
|
oxprintf("%%abserr=%lg, %%relerr=%lg\n",MH_abserr,MH_relerr); |
|
oxprintf("#MH_success=%d\n",MH_success); |
|
oxprintf("#MH_coeff_max=%lg\n",MH_coeff_max); |
|
oxprintf("#MH_estimated_start_step=%lg\n",MH_estimated_start_step); |
|
oxprintf("%%ef_type=%d\n",MH_Ef_type); |
|
oxprintf("%%q_pFq=%d, ",MH_P_pFq); |
|
for (i=0; i<MH_P_pFq; i++) { |
|
if (i != MH_P_pFq-1) oxprintf(" %lg,",MH_A_pFq[i]); |
|
else oxprintf(" %lg\n",MH_A_pFq[i]); |
|
} |
|
oxprintf("%%q_pFq=%d, ",MH_Q_pFq); |
|
for (i=0; i<MH_Q_pFq; i++) { |
|
if (i != MH_Q_pFq-1) oxprintf(" %lg,",MH_B_pFq[i]); |
|
else oxprintf(" %lg\n",MH_B_pFq[i]); |
|
} |
|
return(0); |
} |
} |
|
|
|
static double estimateHg(int m, double beta[],double x0) { |
|
int i,j; |
|
double dmin; |
|
double cmax; |
|
double h; |
|
/* mynote on 2014.03.15 */ |
|
if (m>1) dmin = myabs(beta[1]-beta[0]); |
|
else dmin=myabs(beta[0]); |
|
for (i=0; i<m; i++) { |
|
for (j=i+1; j<m; j++) { |
|
if (myabs(beta[i]-beta[j]) < dmin) dmin = myabs(beta[i]-beta[j]); |
|
} |
|
} |
|
dmin = dmin*x0*2; |
|
cmax = 1.0; |
|
for (i=0; i<m; i++) cmax = cmax*dmin; |
|
cmax = 1.0/cmax; |
|
MH_coeff_max=cmax; |
|
h = exp(log(MH_abserr/cmax)/5.0); |
|
MH_estimated_start_step = h; |
|
return h; |
|
} |
|
|
|
void mh_setA(double a[],int alen) { |
|
int i; |
|
if (alen < 0) { |
|
if (MH_A_pFq != NULL) mh_free(MH_A_pFq); |
|
MH_A_pFq=NULL; MH_P_pFq=-1; |
|
return; |
|
} |
|
if (alen == 0) { |
|
MH_P_pFq=0; return; |
|
} |
|
MH_P_pFq=alen; |
|
MH_A_pFq = (double *)mh_malloc(MH_P_pFq*sizeof(double)); |
|
if (a != NULL) { |
|
for (i=0; i<alen; i++) MH_A_pFq[i] = a[i]; |
|
}else{ |
|
for (i=0; i<alen; i++) MH_A_pFq[i] = 0.0; |
|
} |
|
return; |
|
} |
|
void mh_setB(double b[],int blen) { |
|
int i; |
|
if (blen < 0) { |
|
if (MH_B_pFq != NULL) mh_free(MH_B_pFq); |
|
MH_B_pFq=NULL; MH_Q_pFq=-1; |
|
return; |
|
} |
|
if (blen == 0) { |
|
MH_Q_pFq=0; return; |
|
} |
|
MH_Q_pFq=blen; |
|
MH_B_pFq = (double *)mh_malloc(MH_Q_pFq*sizeof(double)); |
|
if (b != NULL) { |
|
for (i=0; i<blen; i++) MH_B_pFq[i] = b[i]; |
|
}else{ |
|
for (i=0; i<blen; i++) MH_B_pFq[i] = 0.0; |
|
} |
|
return; |
|
} |