OpenXM_contrib2/asir2000/plot/calc.c - diff

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Diff for /OpenXM_contrib2/asir2000/plot/calc.c between version 1.9 and 1.13

version 1.9, 2013/12/19 06:04:09

version 1.13, 2017/09/04 01:57:53

Line 45

* DEVELOPER SHALL HAVE NO LIABILITY IN CONNECTION WITH THE USE,

* PERFORMANCE OR NON-PERFORMANCE OF THE SOFTWARE.

* $OpenXM: OpenXM_contrib2/asir2000/plot/calc.c,v 1.8 2011/08/10 04:51:58 saito Exp $

* $OpenXM: OpenXM_contrib2/asir2000/plot/calc.c,v 1.12 2017/08/31 04:21:48 noro Exp $

#include "ca.h"

#include "parse.h"

Line 60

#endif

void calc(double **tab,struct canvas *can,int nox){

//memory_plot,MODE_IFPLOTD,MODE_INEQND,MODE_INEQNANDD,MODE_INEQNORD

//memory_plot,IFPLOTD,INEQND,INEQNANDD,INEQNORD

//MODE_INEQNXORD,conplotmainD

//INEQNXORD,conplotmainD

double x,y,xstep,ystep;

int ix,iy;

Real r,rx,ry;

Obj fr,g,t,s;

if(!nox)initmarker(can,"Evaluating...");

MKReal(1.0,r); mulr(CO,(Obj)can->formula,(Obj)r,&fr);

todouble((Obj)can->formula,&fr);

xstep=(can->xmax-can->xmin)/can->width;

ystep=(can->ymax-can->ymin)/can->height;

MKReal(1.0,rx); MKReal(1.0,ry); // dummy real

Line 93 void calc(double **tab,struct canvas *can,int nox){

}

void calcq(double **tab,struct canvas *can,int nox){

//MODE_IFPLOTQ,MODE_INEQNQ,MODE_INEQNANDQ,MODE_INEQNORQ,MODE_INEQNXORQ

//IFPLOTQ,INEQNQ,INEQNANDQ,INEQNORQ,INEQNXORQ

//plotoverD

Q dx,dy,xstep,ystep,q1,w,h,c;

P g,g1,f1,f2,x,y;

Line 101 void calcq(double **tab,struct canvas *can,int nox){

Obj fr,gm,t,s;

Real r,rx,ry;

MKReal(1.0,r); mulr(CO,(Obj)can->formula,(Obj)r,&fr);

todouble((Obj)can->formula,&fr);

MKReal(1.0,rx); MKReal(1.0,ry); // dummy real

BDY(rx)=can->xmin;

substr(CO,0,fr,can->vx,can->xmin?(Obj)rx:0,&t); devalr(CO,t,&gm);

Line 131 void calcq(double **tab,struct canvas *can,int nox){

}

void calcb(double **tab,struct canvas *can,int nox){

//MODE_IFPLOTB,MODE_INEQNB,MODE_INEQNANDB,MODE_INEQNORB,MODE_INEQNXORB

//IFPLOTB,INEQNB,INEQNANDB,INEQNORB,INEQNXORB

Q dx,dy,xstep,ystep,q1,w,h,c;

P g,g1,f1,f2,x,y,t,s;

int ix,iy,*a,*pa;

Line 139 void calcb(double **tab,struct canvas *can,int nox){

Obj fr,gm,tm,sm;

Real r,rx,ry;

MKReal(1.0,r); mulr(CO,(Obj)can->formula,(Obj)r,&fr);

todouble((Obj)can->formula,&fr);

MKReal(1.0,rx); MKReal(1.0,ry); // dummy real

BDY(rx)=can->xmin;

substr(CO,0,fr,can->vx,can->xmin?(Obj)rx:0,&tm); devalr(CO,tm,&gm);

Line 373 void usubstqp(P p,Q r,Q *v){

}

Num tobf(Num,int);

void plotcalcbf(struct canvas *can){

Obj fr,s,t;

Num xmin,xmax,ymin,ymax,xstep;

Num u,v,ha,dx,dy,x;

Num *tab;

Real r;

Q w,h1;

int ix;

POINT *pa;

double rr;

Q prec;

NODE arg;

STOQ(can->prec,prec); arg = mknode(1,prec); Psetprec(arg,&t);

evalr(CO,(Obj)can->formula,can->prec,&fr);

MKReal(can->xmin,r); xmin = tobf((Num)r,can->prec);

MKReal(can->xmax,r); xmax = tobf((Num)r,can->prec);

MKReal(can->ymin,r); ymin = tobf((Num)r,can->prec);

MKReal(can->ymax,r); ymax = tobf((Num)r,can->prec);

STOQ(can->width,w);

subbf(xmax,xmin,&dx); divbf(dx,(Num)w,&xstep);

tab=(Num *)MALLOC(can->width*sizeof(Num));

for(ix=0,x=xmin;ix<can->width;ix++){

substr(CO,0,fr,can->vx,(Obj)x,(Obj *)&s);

evalr(CO,(Obj)s,can->prec,&t);

if(t&&(OID(t)!=O_N))

error("plotcalcbf : invalid evaluation");

tab[ix]=(Num)t;

addbf(x,xstep,&u); x = u;

}

if(!cmpbf(ymax,ymin)){

for(ymax=ymin=tab[0],ix=1;ix<can->width;ix++){

if(cmpbf(tab[ix],ymax)>0)ymax=tab[ix];

if(cmpbf(tab[ix],ymin)<0)ymin=tab[ix];

}

can->ymax=ToReal(ymax);can->ymin=ToReal(ymin);

}

subbf(ymax,ymin,&dy);

can->pa=(struct pa *)MALLOC(sizeof(struct pa));

can->pa[0].length=can->width;

can->pa[0].pos=pa=(POINT *)MALLOC(can->width*sizeof(POINT));

STOQ(can->height-1,h1);

for(ix=0;ix<can->width;ix++){

XC(pa[ix])=ix;

subbf(ymax,tab[ix],&u); divbf(u,dy,&v); mulbf(v,(Num)h1,&u);

rr = ToReal(u);

if(rr>MAXSHORT)YC(pa[ix])=MAXSHORT;

else if(rr<-MAXSHORT)YC(pa[ix])=-MAXSHORT;

else YC(pa[ix])=(long)rr;

}

void plotcalc(struct canvas *can){

//plot,memory_plot,plotover,plot_resize

double x,xmin,xstep,ymax,ymin,dy,*tab,usubstrp();

Line 381 void plotcalc(struct canvas *can){

Line 435 void plotcalc(struct canvas *can){

Obj fr,t,s;

POINT *pa;

MKReal(1.0,r); mulr(CO,(Obj)can->formula,(Obj)r,&fr);

if ( can->prec ) {

plotcalcbf(can);

return;

}

todouble((Obj)can->formula,&fr);

w=can->width;h=can->height;

xmin=can->xmin;xstep=(can->xmax-can->xmin)/w;

tab=(double *)ALLOCA(w*sizeof(double));

Line 418 void plotcalc(struct canvas *can){

Line 476 void plotcalc(struct canvas *can){

}

void polarplotcalc(struct canvas *can){

void polarcalc(struct canvas *can){

//polarplotNG

double xmax,xmin,ymax,ymin,dx,dy,pmin,pstep,tr,p,*tabx,*taby;

double xmax,xmin,ymax,ymin,dx,dy,pmin,pstep,tr,p, *tabx,*taby;

double usubstrp();

int i,nstep,w,h;

POINT *pa;

Real r;

Obj fr,t,s;

MKReal(1.0,r); mulr(CO,(Obj)can->formula,(Obj)r,&fr);

todouble((Obj)can->formula,&fr);

w=can->width; h=can->height; nstep=can->nzstep;

pmin=can->zmin; pstep=(can->zmax-can->zmin)/nstep;

tabx=(double *)ALLOCA(nstep*sizeof(double));

taby=(double *)ALLOCA(nstep*sizeof(double));

MKReal(1,r); // dummy real number

for(i=0,p=pmin;i<nstep;i++,p+= pstep){

// full substitution

BDY(r)=p;

substr(CO,0,fr,can->vx,p?(Obj)r:0,&s);

devalr(CO,(Obj)s,&t);

if(t&&(OID(t)!=O_N||NID((Num)t)!=N_R))

error("polarplotcalc : invalid evaluation");

error("polarcalc : invalid evaluation");

tr=ToReal((Num)t);

tabx[i]=tr*cos(p);

taby[i]=tr*sin(p);

Line 465 void polarplotcalc(struct canvas *can){

Line 523 void polarplotcalc(struct canvas *can){

}

void polarcalcNG(struct canvas *can){

//polarplotNG

double xmax,xmin,ymax,ymin,dx,dy,pmin,pstep,tr,p, *tabx,*taby;

double usubstrp();

int i,ix,iy,nstep,w,h;

POINT *pa;

Real r;

Obj fr,t,s;

todouble((Obj)can->formula,&fr);

w=can->width; h=can->height; nstep=can->nzstep;

pmin=can->zmin; pstep=(can->zmax-can->zmin)/nstep;

tabx=(double *)ALLOCA(nstep*sizeof(double));

taby=(double *)ALLOCA(nstep*sizeof(double));

MKReal(1,r); // dummy real number

for(i=0,p=pmin;i<nstep;i++,p+= pstep){

// full substitution

BDY(r)=p;

substr(CO,0,fr,can->vx,p?(Obj)r:0,&s);

devalr(CO,(Obj)s,&t);

if(t&&(OID(t)!=O_N||NID((Num)t)!=N_R))

error("polarcalc : invalid evaluation");

tr=ToReal((Num)t);

tabx[i]=tr*cos(p);

taby[i]=tr*sin(p);

if(i==0){

xmax=xmin=tabx[0];

ymax=ymin=taby[0];

} else {

if(tabx[i]>xmax)xmax=tabx[i];

if(tabx[i]<xmin)xmin=tabx[i];

if(taby[i]>ymax)ymax=taby[i];

if(taby[i]<ymin)ymin=taby[i];

}

can->xmax=xmax;can->xmin=xmin;

can->ymax=ymax;can->ymin=ymin;

dx=xmax-xmin;

dy=ymax-ymin;

can->pa=(struct pa *)MALLOC(sizeof(struct pa));

can->pa[0].length=nstep;

can->pa[0].pos=pa=(POINT *)MALLOC(w*sizeof(POINT));

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

XC(pa[i])=(w-1)*(tabx[i]-xmin)/dx;

YC(pa[i])=(h-1)*(ymax-taby[i])/dy;

}

void ineqncalc(double **tab,struct canvas *can,int nox){

double x,y,xmin,ymin,xstep,ystep;

Line 474 void ineqncalc(double **tab,struct canvas *can,int nox

Line 581 void ineqncalc(double **tab,struct canvas *can,int nox

V vx,vy;

if(!nox) initmarker(can,"Evaluating...");

MKReal(1.0,r); mulr(CO,(Obj)can->formula,(Obj)r,&fr);

todouble((Obj)can->formula,&fr);

vx=can->vx;vy=can->vy;

w=can->width;h=can->height;

xmin=can->xmin;xstep=(can->xmax-can->xmin)/w;

Line 497 void ineqncalc(double **tab,struct canvas *can,int nox

Line 604 void ineqncalc(double **tab,struct canvas *can,int nox

#if defined(INTERVAL)

void itvcalc(double **mask, struct canvas *can, int nox){

//MODE_ITVIFPLOT

//ITVIFPLOT

double x,y,xstep,ystep,dx,dy,wx,wy;

int idv,ix,iy,idx,idy;

Itv ity,itx,ddx,ddy;

Line 506 void itvcalc(double **mask, struct canvas *can, int no

Line 613 void itvcalc(double **mask, struct canvas *can, int no

Obj fr,g,t,s;

idv=can->division;

MKReal(1.0,r); mulr(CO,(Obj)can->formula,(Obj)r,&fr);

todouble((Obj)can->formula,&fr);

vx=can->vx; vy=can->vy;

xstep=(can->xmax-can->xmin)/can->width;

ystep=(can->ymax-can->ymin)/can->height;

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