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auto_nox.h
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auto_nox.h
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#ifndef _auto_nox_h_
#define _auto_nox_h_
#include <stdio.h>
#include "xpplim.h"
#include "autlim.h"
#define MAX_AUT_PER 10
typedef struct {
int irot;
int nrot[1000];
double torper;
} ROTCHK;
typedef struct {
int exist;
int ntst,nmx,npr;
double ds,dsmax,dsmin,rl0,rl1,a0,a1;
double xmin,xmax,ymin,ymax;
double lastx,lasty;
int wid,hgt,x0,y0,st_wid;
int nfpar,nbc;
int ips,irs,ilp,isp,isw,itp;
int plot,var;
int icp1,icp2,icp3,icp4,icp5;
int nper;
char hinttxt[256];
double period[MAX_AUT_PER];
int uzrpar[MAX_AUT_PER];
double epsl,epsu,epss;
int ncol;
}BIFUR;
typedef struct {
int iad;
int mxbf;
int iid;
int itmx;
int itnw;
int nwtn;
int iads;
} ADVAUTO;
typedef struct {
int package;
int ibr,ntot,itp,lab;
double norm,uhi[NAUTO],ulo[NAUTO],u0[NAUTO],ubar[NAUTO];
double par[20],per,torper;
int index,nfpar,icp1,icp2,icp3,icp4,icp5;
int flag;
} GRABPT;
typedef struct diagram {
int package;
int ibr,ntot,itp,lab,calc;
double norm,*uhi,*ulo,*u0,*ubar,*evr,*evi;
double par[20],per,torper;
int index,nfpar;
int icp1,icp2,icp3,icp4,icp5,flag2;
struct diagram *prev;
struct diagram *next;
} DIAGRAM;
typedef struct {
int plot,var,icp1,icp2,icp3,icp4,icp5;
double xmin,ymin,xmax,ymax;
} AUTOAX;
void colset(int type);
void pscolset2(int flag2);
void colset2(int flag2);
void get_auto_str(char *xlabel, char *ylabel);
void draw_ps_axes(void);
void draw_svg_axes(void);
void draw_bif_axes(void);
int IXVal(double x);
int IYVal(double y);
int chk_auto_bnds(int ix, int iy);
void renamef(char *old, char *new);
void copyf(char *old, char *new);
void appendf(char *old, char *new);
void deletef(char *old);
void close_auto(int flag);
void open_auto(int flag);
void do_auto(int iold, int isave, int itp);
void set_auto(void);
int auto_name_to_index(char *s);
int auto_par_to_name(int index, char *s);
void auto_per_par(void);
void auto_params(void);
void auto_num_par(void);
void auto_plot_par(void);
void auto_fit(void);
void auto_default(void);
void auto_zoom_in(int i1, int j1, int i2, int j2);
void auto_zoom_out(int i1, int j1, int i2, int j2);
void auto_xy_plot(double *x, double *y1, double *y2, double par1, double par2, double per, double *uhigh, double *ulow, double *ubar, double a);
int plot_point(int flag2, int icp1, int icp2);
void add_ps_point(double *par, double per, double *uhigh, double *ulow, double *ubar, double a, int type, int flag, int lab, int npar, int icp1, int icp2, int flag2, double *evr, double *evi);
void auto_line(double x1i, double y1i, double x2i, double y2i);
void add_point(double *par, double per, double *uhigh, double *ulow, double *ubar, double a, int type, int flag, int lab, int npar, int icp1, int icp2, int flag2,int icp3, int icp4, double *evr, double *evi);
void get_bif_sym(char *at, int itp);
void info_header(int flag2, int icp1, int icp2);
void new_info(int ibr, int pt, char *ty, int lab, double *par, double norm, double u0, double per, int flag2, int icp1, int icp2);
void traverse_out(DIAGRAM *d, int *ix, int *iy, int dodraw);
void do_auto_win(void);
void load_last_plot(int flag);
void keep_last_plot(int flag);
void init_auto_win(void);
void plot_stab(double *evr, double *evi, int n);
int yes_reset_auto(void);
int reset_auto(void);
void auto_grab(void);
void auto_start_diff_ss(void);
void auto_start_at_bvp(void);
void auto_start_at_per(void);
void find_best_homo_shift(int n);
void get_start_period(double *p);
void get_start_orbit(double *u, double t, double p, int n);
void get_shifted_orbit(double *u, double t, double p, int n);
void auto_new_ss(void);
void auto_new_discrete(void);
void auto_extend_ss(void);
void auto_start_choice(void);
void torus_choice(void);
void per_doub_choice(void);
void periodic_choice(void);
void hopf_choice(void);
void auto_new_per(void);
void auto_start_at_homoclinic(void);
int get_homo_info(int flg,int *nun,int *nst,double *ul, double *ur);
void auto_extend_homoclinic(void);
void auto_extend_bvp(void);
void auto_switch_per(void);
void auto_switch_bvp(void);
void auto_switch_ss(void);
void auto_2p_limit(int ips);
void auto_twopar_double(void);
void auto_torus(void);
void auto_2p_branch(int ips);
void auto_branch_choice(int ibr, int ips);
void auto_homo_choice(int itp);
void auto_2p_fixper(void);
void auto_2p_hopf(void);
void auto_period_double(void);
void auto_err(char *s);
void auto_run(void);
void load_auto_orbit(void);
void load_auto_orbitx(int ibr,int flag, int lab, double per);
void save_auto(void);
void save_auto_numerics(FILE *fp);
void load_auto_numerics(FILE *fp);
void save_auto_graph(FILE *fp);
void load_auto_graph(FILE *fp);
void save_q_file(FILE *fp);
void make_q_file(FILE *fp);
int noinfo(char *s);
void load_auto(void);
int move_to_label(int mylab, int *nrow, int *ndim, FILE *fp);
void get_a_row(double *u, double *t, int n, FILE *fp);
void auto_file(void);
int check_plot_type(int flag2,int icp1, int icp2);
#endif