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Add graph, plot

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rsc 2004-04-14 19:54:10 +00:00
parent 6e18e03e63
commit 4314729dde
44 changed files with 2307 additions and 0 deletions
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5
CHANGES
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@ -1,3 +1,8 @@
April 14, 2004
add plot, graph at the request of Taj Khattra.
April 8, 2004
speed up ls

708
src/cmd/graph/graph.c Normal file
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#include <u.h>
#include <libc.h>
#include <stdio.h>
#include "iplot.h"
#define INF 1.e+37
#define F .25
struct xy {
int xlbf; /*flag:explicit lower bound*/
int xubf; /*flag:explicit upper bound*/
int xqf; /*flag:explicit quantum*/
double (*xf)(double); /*transform function, e.g. log*/
float xa,xb; /*scaling coefficients*/
float xlb,xub; /*lower and upper bound*/
float xquant; /*quantum*/
float xoff; /*screen offset fraction*/
float xsize; /*screen fraction*/
int xbot,xtop; /*screen coords of border*/
float xmult; /*scaling constant*/
} xd,yd;
struct val {
float xv;
float yv;
int lblptr;
} *xx;
char *labels;
int labelsiz;
int tick = 50;
int top = 4000;
int bot = 200;
float absbot;
int n;
int erasf = 1;
int gridf = 2;
int symbf = 0;
int absf = 0;
int transf;
int equf;
int brkf;
int ovlay = 1;
float dx;
char *plotsymb;
#define BSIZ 80
char labbuf[BSIZ];
char titlebuf[BSIZ];
char *modes[] = {
"disconnected",
"solid",
"dotted",
"dotdashed",
"shortdashed",
"longdashed"
};
int mode = 1;
double ident(double x){
return(x);
}
struct z {
float lb,ub,mult,quant;
};
void init(struct xy *);
void setopt(int, char *[]);
void readin(void);
void transpose(void);
void getlim(struct xy *, struct val *);
void equilibrate(struct xy *, struct xy *);
void scale(struct xy *);
void limread(struct xy *, int *, char ***);
int numb(float *, int *, char ***);
int copystring(int);
struct z setloglim(int, int, float, float);
struct z setlinlim(int, int, float, float);
void axes(void);
int setmark(int *, struct xy *);
void submark(int *, int *, float, struct xy *);
void plot(void);
int getfloat(float *);
int getstring(void);
void title(void);
void badarg(void);
int conv(float, struct xy *, int *);
int symbol(int, int, int);
void axlab(char, struct xy *, char *);
void main(int argc,char *argv[]){
openpl();
range(0,0,4096,4096);
init(&xd);
init(&yd);
xd.xsize = yd.xsize = 1.;
xx = (struct val *)malloc((unsigned)sizeof(struct val));
labels = malloc(1);
labels[labelsiz++] = 0;
setopt(argc,argv);
if(erasf)
erase();
readin();
transpose();
getlim(&xd,(struct val *)&xx->xv);
getlim(&yd,(struct val *)&xx->yv);
if(equf) {
equilibrate(&xd,&yd);
equilibrate(&yd,&xd);
}
scale(&xd);
scale(&yd);
axes();
title();
plot();
closepl();
exits(0);
}
void init(struct xy *p){
p->xf = ident;
p->xmult = 1;
}
void setopt(int argc, char *argv[]){
char *p1, *p2;
float temp;
xd.xlb = yd.xlb = INF;
xd.xub = yd.xub = -INF;
while(--argc > 0) {
argv++;
again: switch(argv[0][0]) {
case '-':
argv[0]++;
goto again;
case 'l': /* label for plot */
p1 = titlebuf;
if (argc>=2) {
argv++;
argc--;
p2 = argv[0];
while (*p1++ = *p2++);
}
break;
case 'd': /*disconnected,obsolete option*/
case 'm': /*line mode*/
mode = 0;
if(!numb(&temp,&argc,&argv))
break;
if(temp>=sizeof(modes)/sizeof(*modes))
mode = 1;
else if(temp>=-1)
mode = temp;
break;
case 'o':
if(numb(&temp,&argc,&argv) && temp>=1)
ovlay = temp;
break;
case 'a': /*automatic abscissas*/
absf = 1;
dx = 1;
if(!numb(&dx,&argc,&argv))
break;
if(numb(&absbot,&argc,&argv))
absf = 2;
break;
case 's': /*save screen, overlay plot*/
erasf = 0;
break;
case 'g': /*grid style 0 none, 1 ticks, 2 full*/
gridf = 0;
if(!numb(&temp,&argc,&argv))
temp = argv[0][1]-'0'; /*for caompatibility*/
if(temp>=0&&temp<=2)
gridf = temp;
break;
case 'c': /*character(s) for plotting*/
if(argc >= 2) {
symbf = 1;
plotsymb = argv[1];
argv++;
argc--;
}
break;
case 't': /*transpose*/
transf = 1;
break;
case 'e': /*equal scales*/
equf = 1;
break;
case 'b': /*breaks*/
brkf = 1;
break;
case 'x': /*x limits */
limread(&xd,&argc,&argv);
break;
case 'y':
limread(&yd,&argc,&argv);
break;
case 'h': /*set height of plot */
if(!numb(&yd.xsize, &argc,&argv))
badarg();
break;
case 'w': /*set width of plot */
if(!numb(&xd.xsize, &argc, &argv))
badarg();
break;
case 'r': /* set offset to right */
if(!numb(&xd.xoff, &argc, &argv))
badarg();
break;
case 'u': /*set offset up the screen*/
if(!numb(&yd.xoff,&argc,&argv))
badarg();
break;
default:
badarg();
}
}
}
void limread(struct xy *p, int *argcp, char ***argvp){
if(*argcp>1 && (*argvp)[1][0]=='l') {
(*argcp)--;
(*argvp)++;
p->xf = log10;
}
if(!numb(&p->xlb,argcp,argvp))
return;
p->xlbf = 1;
if(!numb(&p->xub,argcp,argvp))
return;
p->xubf = 1;
if(!numb(&p->xquant,argcp,argvp))
return;
p->xqf = 1;
}
int
isdigit(char c){
return '0'<=c && c<='9';
}
int
numb(float *np, int *argcp, char ***argvp){
char c;
if(*argcp <= 1)
return(0);
while((c=(*argvp)[1][0]) == '+')
(*argvp)[1]++;
if(!(isdigit(c) || c=='-'&&(*argvp)[1][1]<'A' || c=='.'))
return(0);
*np = atof((*argvp)[1]);
(*argcp)--;
(*argvp)++;
return(1);
}
void readin(void){
int i, t;
struct val *temp;
if(absf==1) {
if(xd.xlbf)
absbot = xd.xlb;
else if(xd.xf==log10)
absbot = 1;
}
for(;;) {
temp = (struct val *)realloc((char*)xx,
(unsigned)(n+ovlay)*sizeof(struct val));
if(temp==0)
return;
xx = temp;
if(absf)
xx[n].xv = n*dx/ovlay + absbot;
else
if(!getfloat(&xx[n].xv))
return;
t = 0; /* silence compiler */
for(i=0;i<ovlay;i++) {
xx[n+i].xv = xx[n].xv;
if(!getfloat(&xx[n+i].yv))
return;
xx[n+i].lblptr = -1;
t = getstring();
if(t>0)
xx[n+i].lblptr = copystring(t);
if(t<0 && i+1<ovlay)
return;
}
n += ovlay;
if(t<0)
return;
}
}
void transpose(void){
int i;
float f;
struct xy t;
if(!transf)
return;
t = xd; xd = yd; yd = t;
for(i= 0;i<n;i++) {
f = xx[i].xv; xx[i].xv = xx[i].yv; xx[i].yv = f;
}
}
int copystring(int k){
char *temp;
int i;
int q;
temp = realloc(labels,(unsigned)(labelsiz+1+k));
if(temp==0)
return(0);
labels = temp;
q = labelsiz;
for(i=0;i<=k;i++)
labels[labelsiz++] = labbuf[i];
return(q);
}
float modceil(float f, float t){
t = fabs(t);
return(ceil(f/t)*t);
}
float
modfloor(float f, float t){
t = fabs(t);
return(floor(f/t)*t);
}
void getlim(struct xy *p, struct val *v){
int i;
i = 0;
do {
if(!p->xlbf && p->xlb>v[i].xv)
p->xlb = v[i].xv;
if(!p->xubf && p->xub<v[i].xv)
p->xub = v[i].xv;
i++;
} while(i < n);
}
void setlim(struct xy *p){
float t,delta,sign;
struct z z;
int mark[50];
float lb,ub;
int lbf,ubf;
lb = p->xlb;
ub = p->xub;
delta = ub-lb;
if(p->xqf) {
if(delta*p->xquant <=0 )
badarg();
return;
}
sign = 1;
lbf = p->xlbf;
ubf = p->xubf;
if(delta < 0) {
sign = -1;
t = lb;
lb = ub;
ub = t;
t = lbf;
lbf = ubf;
ubf = t;
}
else if(delta == 0) {
if(ub > 0) {
ub = 2*ub;
lb = 0;
}
else
if(lb < 0) {
lb = 2*lb;
ub = 0;
}
else {
ub = 1;
lb = -1;
}
}
if(p->xf==log10 && lb>0 && ub>lb) {
z = setloglim(lbf,ubf,lb,ub);
p->xlb = z.lb;
p->xub = z.ub;
p->xmult *= z.mult;
p->xquant = z.quant;
if(setmark(mark,p)<2) {
p->xqf = lbf = ubf = 1;
lb = z.lb; ub = z.ub;
} else
return;
}
z = setlinlim(lbf,ubf,lb,ub);
if(sign > 0) {
p->xlb = z.lb;
p->xub = z.ub;
} else {
p->xlb = z.ub;
p->xub = z.lb;
}
p->xmult *= z.mult;
p->xquant = sign*z.quant;
}
struct z
setloglim(int lbf, int ubf, float lb, float ub){
float r,s,t;
struct z z;
for(s=1; lb*s<1; s*=10) ;
lb *= s;
ub *= s;
for(r=1; 10*r<=lb; r*=10) ;
for(t=1; t<ub; t*=10) ;
z.lb = !lbf ? r : lb;
z.ub = !ubf ? t : ub;
if(ub/lb<100) {
if(!lbf) {
if(lb >= 5*z.lb)
z.lb *= 5;
else if(lb >= 2*z.lb)
z.lb *= 2;
}
if(!ubf) {
if(ub*5 <= z.ub)
z.ub /= 5;
else if(ub*2 <= z.ub)
z.ub /= 2;
}
}
z.mult = s;
z.quant = r;
return(z);
}
struct z
setlinlim(int lbf, int ubf, float xlb, float xub){
struct z z;
float r,s,delta;
float ub,lb;
loop:
ub = xub;
lb = xlb;
delta = ub - lb;
/*scale up by s, a power of 10, so range (delta) exceeds 1*/
/*find power of 10 quantum, r, such that delta/10<=r<delta*/
r = s = 1;
while(delta*s < 10)
s *= 10;
delta *= s;
while(10*r < delta)
r *= 10;
lb *= s;
ub *= s;
/*set r=(1,2,5)*10**n so that 3-5 quanta cover range*/
if(r>=delta/2)
r /= 2;
else if(r<delta/5)
r *= 2;
z.ub = ubf? ub: modceil(ub,r);
z.lb = lbf? lb: modfloor(lb,r);
if(!lbf && z.lb<=r && z.lb>0) {
xlb = 0;
goto loop;
}
else if(!ubf && z.ub>=-r && z.ub<0) {
xub = 0;
goto loop;
}
z.quant = r;
z.mult = s;
return(z);
}
void scale(struct xy *p){
float edge;
setlim(p);
edge = top-bot;
p->xa = p->xsize*edge/((*p->xf)(p->xub) - (*p->xf)(p->xlb));
p->xbot = bot + edge*p->xoff;
p->xtop = p->xbot + (top-bot)*p->xsize;
p->xb = p->xbot - (*p->xf)(p->xlb)*p->xa + .5;
}
void equilibrate(struct xy *p, struct xy *q){
if(p->xlbf|| /* needn't test xubf; it implies xlbf*/
q->xubf&&q->xlb>q->xub)
return;
if(p->xlb>q->xlb) {
p->xlb = q->xlb;
p->xlbf = q->xlbf;
}
if(p->xub<q->xub) {
p->xub = q->xub;
p->xubf = q->xubf;
}
}
void axes(void){
int i;
int mark[50];
int xn, yn;
if(gridf==0)
return;
line(xd.xbot,yd.xbot,xd.xtop,yd.xbot);
vec(xd.xtop,yd.xtop);
vec(xd.xbot,yd.xtop);
vec(xd.xbot,yd.xbot);
xn = setmark(mark,&xd);
for(i=0; i<xn; i++) {
if(gridf==2)
line(mark[i],yd.xbot,mark[i],yd.xtop);
if(gridf==1) {
line(mark[i],yd.xbot,mark[i],yd.xbot+tick);
line(mark[i],yd.xtop-tick,mark[i],yd.xtop);
}
}
yn = setmark(mark,&yd);
for(i=0; i<yn; i++) {
if(gridf==2)
line(xd.xbot,mark[i],xd.xtop,mark[i]);
if(gridf==1) {
line(xd.xbot,mark[i],xd.xbot+tick,mark[i]);
line(xd.xtop-tick,mark[i],xd.xtop,mark[i]);
}
}
}
int
setmark(int *xmark, struct xy *p){
int xn = 0;
float x,xl,xu;
float q;
if(p->xf==log10&&!p->xqf) {
for(x=p->xquant; x<p->xub; x*=10) {
submark(xmark,&xn,x,p);
if(p->xub/p->xlb<=100) {
submark(xmark,&xn,2*x,p);
submark(xmark,&xn,5*x,p);
}
}
} else {
xn = 0;
q = p->xquant;
if(q>0) {
xl = modceil(p->xlb+q/6,q);
xu = modfloor(p->xub-q/6,q)+q/2;
} else {
xl = modceil(p->xub-q/6,q);
xu = modfloor(p->xlb+q/6,q)-q/2;
}
for(x=xl; x<=xu; x+=fabs(p->xquant))
xmark[xn++] = (*p->xf)(x)*p->xa + p->xb;
}
return(xn);
}
void submark(int *xmark, int *pxn, float x, struct xy *p){
if(1.001*p->xlb < x && .999*p->xub > x)
xmark[(*pxn)++] = log10(x)*p->xa + p->xb;
}
void plot(void){
int ix,iy;
int i,j;
int conn;
for(j=0;j<ovlay;j++) {
switch(mode) {
case -1:
pen(modes[j%(sizeof modes/sizeof *modes-1)+1]);
break;
case 0:
break;
default:
pen(modes[mode]);
}
conn = 0;
for(i=j; i<n; i+=ovlay) {
if(!conv(xx[i].xv,&xd,&ix) ||
!conv(xx[i].yv,&yd,&iy)) {
conn = 0;
continue;
}
if(mode!=0) {
if(conn != 0)
vec(ix,iy);
else
move(ix,iy);
conn = 1;
}
conn &= symbol(ix,iy,xx[i].lblptr);
}
}
pen(modes[1]);
}
int
conv(float xv, struct xy *p, int *ip){
long ix;
ix = p->xa*(*p->xf)(xv*p->xmult) + p->xb;
if(ix<p->xbot || ix>p->xtop)
return(0);
*ip = ix;
return(1);
}
int
getfloat(float *p){
int i;
i = scanf("%f",p);
return(i==1);
}
int
getstring(void){
int i;
char junk[20];
i = scanf("%1s",labbuf);
if(i==-1)
return(-1);
switch(*labbuf) {
default:
if(!isdigit(*labbuf)) {
ungetc(*labbuf,stdin);
i = scanf("%s",labbuf);
break;
}
case '.':
case '+':
case '-':
ungetc(*labbuf,stdin);
return(0);
case '"':
i = scanf("%[^\"\n]",labbuf);
scanf("%[\"]",junk);
break;
}
if(i==-1)
return(-1);
return(strlen(labbuf));
}
int
symbol(int ix, int iy, int k){
if(symbf==0&&k<0) {
if(mode==0)
point(ix,iy);
return(1);
}
else {
move(ix,iy);
text(k>=0?labels+k:plotsymb);
move(ix,iy);
return(!brkf|k<0);
}
}
void title(void){
char buf[BSIZ+100];
buf[0] = ' ';
buf[1] = ' ';
buf[2] = ' ';
strcpy(buf+3,titlebuf);
if(erasf&&gridf) {
axlab('x',&xd,buf);
strcat(buf,",");
axlab('y',&yd,buf);
}
move(xd.xbot,yd.xbot-60);
text(buf);
}
void axlab(char c, struct xy *p, char *b){
char *dir;
dir = p->xlb<p->xub? "<=": ">=";
sprintf(b+strlen(b), " %g %s %c%s %s %g", p->xlb/p->xmult,
dir, c, p->xf==log10?" (log)":"", dir, p->xub/p->xmult);
}
void badarg(void){
fprintf(stderr,"graph: error in arguments\n");
closepl();
exits("bad arg");
}

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src/cmd/graph/iplot.h Normal file
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#define arc(_x,_y,_X,_Y,_u,_v,_r) printf("a %d %d %d %d %d %d %d\n",_x,_y,_X,_Y,_u,_v,_r)
#define box(_x,_y,_X,_Y) printf("bo %d %d %d %d\n", _x,_y,_X,_Y)
#define bspline(_num,_ff) {printf("bs {\n"); putnum(_num,_ff); printf("}\n");}
#define call(_sname,_x) printf("ca %s %d\n", _sname,_x)
#define cfill(_s) printf("cf %s\n", _s)
#define circle(_x,_y,_r) printf("ci %d %d %d\n", _x,_y,_r)
#define closepl() printf("cl\n")
#define color(_s) printf("co %s\n", _s)
#define cspline(_num,_ff) {printf("cs {\n"); putnum(_num,_ff); printf("}\n");}
#define pdefine(_sname, _str) printf("de %s {\n%s\n",_sname, _str)
#define dspline(_num,_ff) {printf("ds {\n");putnum(_num,_ff);printf("}\n");}
#define erase() printf("e\n")
#define ffill(_s) printf("ff %s\n", _s)
#define fill(_num,_ff) {printf("fi {\n"); putnum(_num,_ff); printf("}\n");}
#define fpoly(_s) printf("fp %s\n", _s)
#define frame(_x,_y,_X,_Y) printf("fr %g %g %g %g\n", _x,_y,_X,_Y)
#define fspline(_s) printf("fs %s\n", _s)
#define grade(_x) printf("g %d\n", _x)
#define idle()
#define line(_x1,_y1,_x2,_y2) printf("li %d %d %d %d\n", _x1,_y1,_x2,_y2)
#define lspline(_num,_ff) {printf("ls {\n"); putnum(_num,_ff); printf("}\n");}
#define move(_x, _y) printf("m %d %d\n", _x, _y)
#define openpl() printf("o\n")
#define parabola(_x,_y,_X,_Y,_u,_v) printf("\npa %d %d %d %d %d %d\n", _x,_y,_X,_Y,_u,_v)
#define pen(_s) printf("pe %s\n", _s)
#define point(_x,_y) printf("poi %d %d\n", _x,_y)
#define poly(_num,_ff) {printf("pol {\n"); putnum(_num,_ff); printf("}\n");}
#define ppause() printf("pp\n")
#define range(_x,_y,_X,_Y) printf("ra %d %d %d %d\n", _x,_y,_X,_Y)
#define restore() printf("re\n")
#define rmove(_x,_y) printf("rm %d %d\n", _x,_y)
#define rvec(_x,_y) printf("rv %d %d\n", _x,_y)
#define save() printf( "sa\n")
#define sbox(_x,_y,_X,_Y) printf("sb %d %d %d %d\n", _x,_y,_X,_Y)
#define spline(_num,_ff) {printf("sp {\n"); putnum(_num,_ff); printf("}\n");}
#define text(_s) {if(*(_s) == ' ')printf("t \"%s\"\n",_s); else printf("t %s\n", _s); }
#define vec(_x,_y) printf("v %d %d\n", _x,_y)
void putnum(int [], double *[]);
char *whoami(void);

9
src/cmd/graph/mkfile Normal file
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PLAN9=../../..
<$PLAN9/src/mkhdr
TARG=graph
OFILES=graph.$O\
subr.$O\
whoami.$O\
<$PLAN9/src/mkone

19
src/cmd/graph/subr.c Normal file
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#include <u.h>
#include <libc.h>
#include <stdio.h>
#include "iplot.h"
void putnum(int num[], double *ff[]){
double **fp, *xp;
int *np, n,i;
np = num;
fp = ff;
while( (n = *np++)){
xp = *fp++;
printf("{ ");
for(i=0; i<n;i++){
printf("%g %g ",*xp, *(xp+1));
if(i&1)printf("\n");
}
printf("}\n");
}
}

5
src/cmd/graph/whoami.c Normal file
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#include "iplot.h"
char *
whoami(void){
return("general");
}

8
src/cmd/plot/libplot/box.c Normal file
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#include "mplot.h"
void box(double x0, double y0, double x1, double y1){
move(x0, y0);
vec(x0, y1);
vec(x1, y1);
vec(x1, y0);
vec(x0, y0);
}

5
src/cmd/plot/libplot/cfill.c Normal file
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#include "mplot.h"
void cfill(char *s){
int k=bcolor(s);
if(k>=0) e1->backgr=k;
}

12
src/cmd/plot/libplot/circ.c Normal file
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#include "mplot.h"
void circ(double xc, double yc, double r){
Point p;
int rad;
p.x=SCX(xc);
p.y=SCY(yc);
if (r < 0)
rad=SCR(-r);
else
rad=SCR(r);
ellipse(screen, p, rad, rad, 0, getcolor(e1->foregr), ZP);
}

4
src/cmd/plot/libplot/closepl.c Normal file
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#include "mplot.h"
void closepl(void){
m_finish();
}

4
src/cmd/plot/libplot/color.c Normal file
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#include "mplot.h"
void color(char *s){
e1->foregr=bcolor(s);
}

12
src/cmd/plot/libplot/disk.c Normal file
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#include "mplot.h"
void plotdisc(double xc, double yc, double r){
Point p;
int rad;
p.x=SCX(xc);
p.y=SCY(yc);
if (r < 0)
rad=SCR(-r);
else
rad=SCR(r);
fillellipse(screen, p, rad, rad, getcolor(e1->foregr), ZP);
}

4
src/cmd/plot/libplot/doublebuffer.c Normal file
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#include "mplot.h"
void doublebuffer(void){
m_dblbuf();
}

6
src/cmd/plot/libplot/dpoint.c Normal file
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#include "mplot.h"
void dpoint(double x, double y){
draw(screen, Rect(SCX(x), SCY(y), SCX(x)+1, SCY(y)+1), getcolor(e1->foregr),
nil, ZP);
move(x, y);
}

5
src/cmd/plot/libplot/erase.c Normal file
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#include "mplot.h"
void erase(void){
m_swapbuf();
m_clrwin(clipminx, clipminy, clipmaxx, clipmaxy, e1->backgr);
}

167
src/cmd/plot/libplot/fill.c Normal file
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/*
* fill -- polygon tiler
* Updating the edgelist from scanline to scanline could be quicker if no
* edges cross: we can just merge the incoming edges. If the scan-line
* filling routine were a parameter, we could do textured
* polygons, polyblt, and other such stuff.
*/
#include "mplot.h"
typedef enum{
Odd=1,
Nonzero=~0
}Windrule;
typedef struct edge Edge;
struct edge{
Point p; /* point of crossing current scan-line */
int maxy; /* scan line at which to discard edge */
int dx; /* x increment if x fraction<1 */
int dx1; /* x increment if x fraction>=1 */
int x; /* x fraction, scaled by den */
int num; /* x fraction increment for unit y change, scaled by den */
int den; /* x fraction increment for unit x change, scaled by num */
int dwind; /* increment of winding number on passing this edge */
Edge *next; /* next edge on current scanline */
Edge *prev; /* previous edge on current scanline */
};
static void insert(Edge *ep, Edge **yp){
while(*yp && (*yp)->p.x<ep->p.x) yp=&(*yp)->next;
ep->next=*yp;
*yp=ep;
if(ep->next){
ep->prev=ep->next->prev;
ep->next->prev=ep;
if(ep->prev)
ep->prev->next=ep;
}
else
ep->prev=0;
}
static void polygon(int cnt[], double *pts[], Windrule w, int v){
Edge *edges, *ep, *nextep, **ylist, **eylist, **yp;
Point p, q, p0, p1, p10;
int i, dy, nbig, y, left, right, wind, nwind, nvert;
int *cntp;
double **ptsp, *xp;
nvert=0;
for(cntp=cnt;*cntp;cntp++) nvert+=*cntp;
edges=(Edge *)malloc(nvert*sizeof(Edge));
if(edges==0){
NoSpace:
fprintf(stderr, "polygon: no space\n");
exits("malloc failed");
}
ylist=(Edge **)malloc(Dy(screen->r)*sizeof(Edge *));
if(ylist==0) goto NoSpace;
eylist=ylist+Dy(screen->r);
for(yp=ylist;yp!=eylist;yp++) *yp=0;
ep=edges;
for(cntp=cnt,ptsp=pts;*cntp;cntp++,ptsp++){
p.x=SCX((*ptsp)[*cntp*2-2]);
p.y=SCY((*ptsp)[*cntp*2-1]);
nvert=*cntp;
for(xp=*ptsp,i=0;i!=nvert;xp+=2,i++){
q=p;
p.x=SCX(xp[0]);
p.y=SCY(xp[1]);
if(p.y==q.y) continue;
if(p.y<q.y){
p0=p;
p1=q;
ep->dwind=1;
}
else{
p0=q;
p1=p;
ep->dwind=-1;
}
if(p1.y<=screen->r.min.y) continue;
if(p0.y>=screen->r.max.y) continue;
ep->p=p0;
if(p1.y>screen->r.max.y)
ep->maxy=screen->r.max.y;
else
ep->maxy=p1.y;
p10=subpt(p1, p0);
if(p10.x>=0){
ep->dx=p10.x/p10.y;
ep->dx1=ep->dx+1;
}
else{
p10.x=-p10.x;
ep->dx=-(p10.x/p10.y); /* this nonsense rounds toward zero */
ep->dx1=ep->dx-1;
}
ep->x=0;
ep->num=p10.x%p10.y;
ep->den=p10.y;
if(ep->p.y<screen->r.min.y){
dy=screen->r.min.y-ep->p.y;
ep->x+=dy*ep->num;
nbig=ep->x/ep->den;
ep->p.x+=ep->dx1*nbig+ep->dx*(dy-nbig);
ep->x%=ep->den;
ep->p.y=screen->r.min.y;
}
insert(ep, ylist+(ep->p.y-screen->r.min.y));
ep++;
}
}
left = 0;
for(yp=ylist,y=screen->r.min.y;yp!=eylist;yp++,y++){
wind=0;
for(ep=*yp;ep;ep=nextep){
nwind=wind+ep->dwind;
if(nwind&w){ /* inside */
if(!(wind&w)){
left=ep->p.x;
if(left<screen->r.min.x) left=screen->r.min.x;
}
}
else if(wind&w){
right=ep->p.x;
if(right>=screen->r.max.x) right=screen->r.max.x;
#define BART_BUG_FIXED /* what goes on here?? -rob */
#ifdef BART_BUG_FIXED
if(right>left)
line(screen, Pt(left, y), Pt(right, y), Endsquare, Endsquare, 0, getcolor(v), ZP);
#else
if(right>left){
switch(v){
default:
segment(&screen, Pt(left, y), Pt(right, y),
~0, D&~S);
segment(&screen, Pt(left, y), Pt(right, y),
v, f);
break;
case 0:
segment(&screen, Pt(left, y), Pt(right, y),
~0, D&~S);
break;
case 3:
segment(&screen, Pt(left, y), Pt(right, y),
v, f);
break;
}
}
#endif
}
wind=nwind;
nextep=ep->next;
if(++ep->p.y!=ep->maxy){
ep->x+=ep->num;
if(ep->x>=ep->den){
ep->x-=ep->den;
ep->p.x+=ep->dx1;
}
else
ep->p.x+=ep->dx;
insert(ep, yp+1);
}
}
}
free((char *)edges);
free((char *)ylist);
}
void fill(int num[], double *ff[]){
polygon(num, ff, Odd, e1->foregr);
}

16
src/cmd/plot/libplot/frame.c Normal file
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#include "mplot.h"
void frame(double xs, double ys, double xf, double yf){
register double osidex, osidey;
osidex = e1->sidex;
osidey = e1->sidey;
e1->left = e0->left + xs * e0->sidex;
e1->bottom = e0->bottom + ys * e0->sidey;
e1->sidex = (xf-xs)*e0->sidex;
e1->sidey = (yf-ys)*e0->sidey;
e1->scalex *= (e1->sidex / osidex);
e1->scaley *= (e1->sidey / osidey);
e1->quantum=e0->quantum/sqrt(e1->scalex*e1->scalex +
e1->scaley*e1->scaley);
if(e1->quantum < .01)
e1->quantum = .01;
}

4
src/cmd/plot/libplot/grade.c Normal file
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#include "mplot.h"
void grade(double x){
e1->grade = x;
}

5
src/cmd/plot/libplot/line.c Normal file
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#include "mplot.h"
void plotline(double x0, double y0, double x1, double y1){
move(x0, y0);
vec(x1, y1);
}

141
src/cmd/plot/libplot/machdep.c Normal file
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#include "mplot.h"
Image *offscreen;
/*
* Clear the window from x0, y0 to x1, y1 (inclusive) to color c
*/
void m_clrwin(int x0, int y0, int x1, int y1, int c){
draw(offscreen, Rect(x0, y0, x1+1, y1+1), getcolor(c), nil, ZP);
}
/*
* Draw text between pointers p and q with first character centered at x, y.
* Use color c. Centered if cen is non-zero, right-justified if right is non-zero.
* Returns the y coordinate for any following line of text.
*/
int m_text(int x, int y, char *p, char *q, int c, int cen, int right){
Point tsize;
USED(c);
tsize=stringsize(font, p);
if(cen) x -= tsize.x/2;
else if(right) x -= tsize.x;
stringn(offscreen, Pt(x, y-tsize.y/2), getcolor(c), ZP, font, p, q-p);
return y+tsize.y;
}
/*
* Draw the vector from x0, y0 to x1, y1 in color c.
* Clipped by caller
*/
void m_vector(int x0, int y0, int x1, int y1, int c){
line(offscreen, Pt(x0, y0), Pt(x1, y1), Endsquare, Endsquare, 0, getcolor(c), ZP);
}
char *scanint(char *s, int *n){
while(*s<'0' || '9'<*s){
if(*s=='\0'){
fprint(2, "plot: bad -Wxmin,ymin,xmax,ymax\n");
exits("bad arg");
}
s++;
}
*n=0;
while('0'<=*s && *s<='9'){
*n=*n*10+*s-'0';
s++;
}
return s;
}
char *rdenv(char *name){
char *v;
int fd, size;
fd=open(name, OREAD);
if(fd<0) return 0;
size=seek(fd, 0, 2);
v=malloc(size+1);
if(v==0){
fprint(2, "Can't malloc: %r\n");
exits("no mem");
}
seek(fd, 0, 0);
read(fd, v, size);
v[size]=0;
close(fd);
return v;
}
/*
* Startup initialization
*/
void m_initialize(char *s){
static int first=1;
int dx, dy;
USED(s);
if(first){
initdraw(0,0,"plot");
einit(Emouse);
clipminx=mapminx=screen->r.min.x+4;
clipminy=mapminy=screen->r.min.y+4;
clipmaxx=mapmaxx=screen->r.max.x-5;
clipmaxy=mapmaxy=screen->r.max.y-5;
dx=clipmaxx-clipminx;
dy=clipmaxy-clipminy;
if(dx>dy){
mapminx+=(dx-dy)/2;
mapmaxx=mapminx+dy;
}
else{
mapminy+=(dy-dx)/2;
mapmaxy=mapminy+dx;
}
first=0;
offscreen = screen;
}
}
/*
* Clean up when finished
*/
void m_finish(void){
m_swapbuf();
}
void m_swapbuf(void){
if(offscreen!=screen)
draw(screen, offscreen->r, offscreen, nil, offscreen->r.min);
flushimage(display, 1);
}
void m_dblbuf(void){
if(offscreen==screen){
offscreen=allocimage(display, insetrect(screen->r, 4), screen->chan, 0, -1);
if(offscreen==0){
fprintf(stderr, "Can't double buffer\n");
offscreen=screen;
}
}
}
/* Assume colormap entry because
* Use cache to avoid repeated allocation.
*/
struct{
int v;
Image *i;
}icache[32];
Image*
getcolor(int v)
{
Image *i;
int j;
for(j=0; j<nelem(icache); j++)
if(icache[j].v==v && icache[j].i!=nil)
return icache[j].i;
i = allocimage(display, Rect(0, 0, 1, 1), RGB24, 1, v);
if(i == nil){
fprint(2, "plot: can't allocate image for color: %r\n");
exits("allocimage");
}
for(j=0; j<nelem(icache); j++)
if(icache[j].i == nil){
icache[j].v = v;
icache[j].i = i;
break;
}
return i;
}

42
src/cmd/plot/libplot/mkfile Normal file
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PLAN9=../../../..
<$PLAN9/src/mkhdr
LIB=../libplot.a
OFILES=box.$O\
cfill.$O\
circ.$O\
closepl.$O\
color.$O\
disk.$O\
doublebuffer.$O\
dpoint.$O\
erase.$O\
fill.$O\
frame.$O\
grade.$O\
line.$O\
machdep.$O\
move.$O\
openpl.$O\
parabola.$O\
pen.$O\
poly.$O\
ppause.$O\
pprompt.$O\
range.$O\
rarc.$O\
restore.$O\
rmove.$O\
rvec.$O\
save.$O\
sbox.$O\
spline.$O\
subr.$O\
text.$O\
vec.$O\
whoami.$O\
HFILES=mplot.h\
<$PLAN9/src/mklib

5
src/cmd/plot/libplot/move.c Normal file
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#include "mplot.h"
void move(double xx, double yy){
e1->copyx = xx;
e1->copyy = yy;
}

47
src/cmd/plot/libplot/mplot.h Normal file
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#include <u.h>
#include <libc.h>
#include <stdio.h>
#include <draw.h>
#include <event.h>
#define SCX(A) ((((A) - e1->xmin)*e1->scalex + e1->left)+.5)
#define SCY(A) ((((A) - e1->ymin)*e1->scaley + e1->bottom)+.5)
#define SCR(A) ((A)*e1->scalex+.5)
#define unorm(y) (double)(e1->sidey - y)
#define BIGINT 0x3FFFFFFF /* a large, but valid, int */
extern struct penvir {
double left, bottom;
double xmin, ymin;
double scalex, scaley;
double sidex, sidey;
double copyx, copyy;
double quantum;
double grade;
int pgap;
double pslant;
int pmode, foregr, backgr;
} *e0, *e1, *esave;
#define RADIAN 57.3 /* radians per degree */
struct seg {
int x, y, X, Y;
char stat;
};
/*
* display parameters
*/
int clipminx, clipminy, clipmaxx, clipmaxy; /* clipping rectangle */
int mapminx, mapminy, mapmaxx, mapmaxy; /* centered square */
/*
* Prototypes
*/
#include "../plot.h"
void m_clrwin(int, int, int, int, int);
void m_finish(void);
void m_initialize(char *);
int m_text(int, int, char *, char *, int, int, int);
void m_vector(int, int, int, int, int);
void m_swapbuf(void);
void m_dblbuf(void);
int bcolor(char *);
void sscpy(struct penvir *, struct penvir *);
Image *getcolor(int);

12
src/cmd/plot/libplot/openpl.c Normal file
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#include "mplot.h"
void openpl(char *s){
m_initialize(s);
e0->left=mapminx;
e0->bottom=mapmaxy;
e0->sidex=mapmaxx-mapminx;
e0->sidey=mapminy-mapmaxy;
e0->scalex=e0->sidex;
e0->scaley=e0->sidey;
sscpy(e0, e1);
move(0., 0.);
}

32
src/cmd/plot/libplot/parabola.c Normal file
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#include "mplot.h"
void parabola(double x0, double y0, double x1, double y1, double xb, double yb){
register double x, y, t;
double c0x, c0y, c1x, c1y;
double dt, d2, d1;
d1 = sqrt((xb - x0) * (xb - x0) + (yb - y0) * (yb - y0));
d2 = sqrt((xb - x1) * (xb - x1) + (yb - y1) * (yb - y1));
if (d1 <= e1->quantum || d2 <= e1->quantum) {
plotline(x0, y0, x1, y1);
return;
}
c0x = x0 + x1 - 2. * xb;
c1x = 2. * (xb - x0);
c0y = y0 + y1 - 2. * yb;
c1y = 2. * (yb - y0);
move(x0, y0);
dt = e1->quantum / d1;
dt /= e1->grade;
for (t = dt; t < 0.5; t += dt) {
x = (c0x * t + c1x) * t + x0;
y = (c0y * t + c1y) * t + y0;
vec(x, y);
}
dt = e1->quantum / d2;
dt /= e1->grade;
for (; t < 1.0; t += dt) {
x = (c0x * t + c1x) * t + x0;
y = (c0y * t + c1y) * t + y0;
vec(x, y);
}
vec(x1, y1);
}

6
src/cmd/plot/libplot/pen.c Normal file
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#include "mplot.h"
void pen(char *s){
/* BUG: NO OP */
USED(s);
/* was this error: color(s); */
}

17
src/cmd/plot/libplot/poly.c Normal file
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#include "mplot.h"
void plotpoly(int num[], double *ff[]){
double *xp, *yp, **fp;
int i, *n;
n = num;
fp = ff;
while((i = *n++)){
xp = *fp++;
yp = xp+1;
move(*xp, *yp);
while(--i){
xp += 2;
yp += 2;
vec(*xp, *yp);
}
}
}

7
src/cmd/plot/libplot/ppause.c Normal file
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#include "mplot.h"
void ppause(void){
char aa[4];
fflush(stdout);
read(0, aa, 4);
erase();
}

5
src/cmd/plot/libplot/pprompt.c Normal file
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#include "mplot.h"
void
pprompt(void){
fprintf(stderr, ":");
}

11
src/cmd/plot/libplot/range.c Normal file
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#include "mplot.h"
void range(double x0, double y0, double x1, double y1){
e1->xmin = x0;
e1->ymin = y0;
e1->scalex = e1->sidex / (x1 - x0 );
e1->scaley = e1->sidey / (y1 - y0 );
e1->quantum=e0->quantum/sqrt(e1->scalex*e1->scalex +
e1->scaley*e1->scaley);
if(e1->quantum < .01)
e1->quantum = .01;
}

44
src/cmd/plot/libplot/rarc.c Normal file
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#include "mplot.h"
/* arc plotting routine */
/* from x1,y1 to x2,y2 */
/* with center xc,yc and radius rr */
/* integrates difference equation */
/* negative rr draws counterclockwise */
#define PI4 0.7854
void rarc(double x1, double y1, double x2, double y2, double xc, double yc, double rr){
register double dx, dy, a, b;
double ph, dph, rd, xnext;
register int n;
dx = x1 - xc;
dy = y1 - yc;
rd = sqrt(dx * dx + dy * dy);
if (rd / e1->quantum < 1.0) {
move(xc, yc);
vec(xc, yc);
return;
}
dph = acos(1.0 - (e1->quantum / rd));
if (dph > PI4)
dph = PI4;
ph=atan2((y2-yc),(x2 - xc)) - atan2(dy, dx);
if (ph < 0)
ph += 6.2832;
if (rr < 0)
ph = 6.2832 - ph;
if (ph < dph)
plotline(x1, y1, x2, y2);
else {
n = ph / dph;
a = cos(dph);
b = sin(dph);
if (rr < 0)
b = -b;
move(x1, y1);
while ((n--) >= 0) {
xnext = dx * a - dy * b;
dy = dx * b + dy * a;
dx = xnext;
vec(dx + xc, dy + yc);
}
}
}

5
src/cmd/plot/libplot/restore.c Normal file
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#include "mplot.h"
void restore(void){
e1--;
move(e1->copyx, e1->copyy);
}

6
src/cmd/plot/libplot/rmove.c Normal file
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#include "mplot.h"
void rmove(double xx, double yy){
e1->copyx += xx;
e1->copyy += yy;
move(e1->copyx, e1->copyy);
}

6
src/cmd/plot/libplot/rvec.c Normal file
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#include "mplot.h"
void rvec(double xx, double yy){
e1->copyx += xx;
e1->copyy += yy;
vec(e1->copyx, e1->copyy);
}

5
src/cmd/plot/libplot/save.c Normal file
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#include "mplot.h"
void save(void){
sscpy(e1, e1 + 1);
e1++;
}

13
src/cmd/plot/libplot/sbox.c Normal file
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#include "mplot.h"
void sbox(double xx0, double yy0, double xx1, double yy1){
int x0=SCX(xx0), y0=SCY(yy0), x1=SCX(xx1), y1=SCY(yy1);
int t;
if(x1<x0){ t=x0; x0=x1; x1=t; }
if(y1<y0){ t=y0; y0=y1; y1=t; }
if(x0<clipminx) x0=clipminx;
if(y0<clipminy) y0=clipminy;
if(x1>clipmaxx) x1=clipmaxx;
if(y1>clipmaxy) y1=clipmaxy;
if(x1<x0 || y1<y0) return;
m_clrwin(x0, y0, x1, y1, e1->backgr);
}

51
src/cmd/plot/libplot/spline.c Normal file
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/*
Produce spline (uniform knots, second order)
from guiding points
*/
#include "mplot.h"
void splin(int mode, int num[], double *ff[]){
int i, *np, n;
double xa, ya, xc, yc, *xp, *yp, *xp0, *yp0, *xpe, *ype;
double **fp;
np = num;
fp = ff;
while((n = *np++)){
xp = *fp++;
yp = xp + 1;
xp0 = xp;
yp0 = yp;
xpe = xp0 + 2 * (n - 1);
ype = yp0 + 2 * (n - 1);
if (n < 3) {
plotline(*xp, *yp, *(xp + 2), *(yp + 2));
continue;
}
if (mode == 4) { /*closed curve*/
xa = 0.5 * (*xpe + *(xpe - 2));
xc = 0.5 * (*xpe + *xp0);
ya = 0.5 * (*ype + *(ype - 2));
yc = 0.5 * (*ype + *yp0);
parabola(xa, ya, xc, yc, *xpe, *ype);
xa = 0.5 * (*xpe + *xp0);
xc = 0.5 * (*(xp0 + 2) + *xp0);
ya = 0.5 * (*ype + *yp0);
yc = 0.5 * (*(yp0 + 2) + *yp0);
parabola(xa, ya, xc, yc, *xp0, *yp0);
}
else { /*open curve with multiple endpoints*/
if (mode % 2) /*odd mode makes first point double*/
plotline(*xp0,*yp0,0.5*(*xp0+*(xp0+2)),0.5*(*yp0+*(yp0+2)));
}
xp += 2;
yp += 2;
for (i = 1; i < (n - 1); i++, xp += 2, yp += 2) {
xa = 0.5 * (*(xp - 2) + *xp);
xc = 0.5 * ( *xp + *(xp + 2));
ya = 0.5 * (*(yp - 2) + *yp);
yc = 0.5 * ( *yp + *(yp + 2));
parabola(xa, ya, xc, yc, *xp, *yp);
}
if(mode >= 2 && mode != 4)
plotline(0.5*(*(xpe-2)+*xpe),0.5*(*(ype-2)+*ype),*xpe,*ype);
}
}

79
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#include "mplot.h"
#define pSMALL 0.5
struct penvir E[9] = {
{ 0., 1024., 0., 0., 1., -1.,1024., -1024., 0., 0., pSMALL, 1., 1, 0.,1, DBlack, DWhite},
{ 0., 1024., 0., 0., 1., -1.,1024., -1024., 0., 0., pSMALL, 1., 1, 0.,1, DBlack, DWhite},
{ 0., 1024., 0., 0., 1., -1.,1024., -1024., 0., 0., pSMALL, 1., 1, 0.,1, DBlack, DWhite},
{ 0., 1024., 0., 0., 1., -1.,1024., -1024., 0., 0., pSMALL, 1., 1, 0.,1, DBlack, DWhite},
{ 0., 1024., 0., 0., 1., -1.,1024., -1024., 0., 0., pSMALL, 1., 1, 0.,1, DBlack, DWhite},
{ 0., 1024., 0., 0., 1., -1.,1024., -1024., 0., 0., pSMALL, 1., 1, 0.,1, DBlack, DWhite},
{ 0., 1024., 0., 0., 1., -1.,1024., -1024., 0., 0., pSMALL, 1., 1, 0.,1, DBlack, DWhite},
{ 0., 1024., 0., 0., 1., -1.,1024., -1024., 0., 0., pSMALL, 1., 1, 0.,1, DBlack, DWhite}
};
struct penvir *e0 = E, *e1 = &E[1], *esave;
bcolor(char *s){
int c;
while (*s != NULL) {
switch (*s) {
case '0': case '1': case '2': case '3': case '4':
case '5': case '6': case '7': case '8': case '9':
c=0;
while('0'<=*s && *s<='9')
c=c*10+*s++-'0';
if(c < 0)
return DBlack;
return cmap2rgba(c);
case 'k': case 'z': /* zero was old name for kblack */
return(DBlack);
case 'r':
print("RED");
return(DRed);
case 'g':
return(DGreen);
case 'b':
return(DBlue);
case 'm':
return(DMagenta);
case 'y':
return(DYellow);
case 'c':
return(DCyan);
case 'w':
return(DWhite);
case 'R':
return(atoi(s + 1));
case 'G':
e1->pgap = atof(s + 1);
return(-1);
case 'A':
e1->pslant = (180. - atof(s + 1)) / RADIAN;
return(-1);
}
while (*++s != NULL)
if (*s == '/') {
s++;
break;
}
}
return DBlack;
}
void sscpy(struct penvir *a, struct penvir *b){ /* copy 'a' onto 'b' */
b->left = a->left;
b->bottom = a->bottom;
b->xmin = a->xmin;
b->ymin = a->ymin;
b->scalex = a->scalex;
b->scaley = a->scaley;
b->sidex = a->sidex;
b->sidey = a->sidey;
b->copyx = a->copyx;
b->copyy = a->copyy;
b->quantum = a->quantum;
b->grade = a->grade;
b->pmode = a->pmode;
b->foregr = a->foregr;
b->backgr = a->backgr;
}
void idle(void){}
void ptype(char *s){USED(s);}

39
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/*
t string Place the string so that its first character is
centered on the current point (default). If
string begins with `\C' (`\R'), it is centered
(right-adjusted) on the current point. A
backslash at the beginning of the string may be
escaped with another backslash.
*/
#include "mplot.h"
void text(char *s){
register int kx, ky;
int centered, right, more;
char *ss;
ss=s;
for(;;){
centered=right=more=0;
if(*ss=='\\'){
ss++;
switch(*ss){
case 'C': centered++; ss++; break;
case 'R': right++; ss++; break;
case 'L': ss++; break;
case 'n': --ss; break;
}
}
for(s=ss;*ss!='\0';ss++)
if(ss[0]=='\\' && ss[1]=='n'){
more++;
break;
}
kx = SCX(e1->copyx);
ky = SCY(e1->copyy);
ky=m_text(kx, ky, s, ss, e1->foregr, centered, right);
if(!more)break;
e1->copyy = ( (double)(ky) - e1->bottom)/e1->scaley + e1->ymin + .5;
move(e1->copyx, e1->copyy);
ss+=2;
}
}

26
src/cmd/plot/libplot/vec.c Normal file
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#include "mplot.h"
#define code(x, y) ((x<clipminx?1:x>clipmaxx?2:0)|(y<clipminy?4:y>clipmaxy?8:0))
void vec(double xx, double yy){
int x0, y0, x1, y1, c0, c1, c, tx, ty;
double t;
t=SCX(e1->copyx); if(fabs(t)>BIGINT) return; x0=t;
t=SCY(e1->copyy); if(fabs(t)>BIGINT) return; y0=t;
t=SCX(xx); if(fabs(t)>BIGINT) return; x1=t;
t=SCY(yy); if(fabs(t)>BIGINT) return; y1=t;
e1->copyx=xx;
e1->copyy=yy;
/* clipping -- what a concept */
c0=code(x0, y0);
c1=code(x1, y1);
while(c0|c1){
if(c0&c1) return;
c=c0?c0:c1;
if(c&1) ty=y0+(y1-y0)*(clipminx-x0)/(x1-x0), tx=clipminx;
else if(c&2) ty=y0+(y1-y0)*(clipmaxx-x0)/(x1-x0), tx=clipmaxx;
else if(c&4) tx=x0+(x1-x0)*(clipminy-y0)/(y1-y0), ty=clipminy;
else tx=x0+(x1-x0)*(clipmaxy-y0)/(y1-y0), ty=clipmaxy;
if(c==c0) x0=tx, y0=ty, c0=code(x0, y0);
else x1=tx, y1=ty, c1=code(x1, y1);
}
m_vector(x0, y0, x1, y1, e1->foregr);
}

4
src/cmd/plot/libplot/whoami.c Normal file
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#include "mplot.h"
char *whoami(void){
return("ramtek");
}

27
src/cmd/plot/mkfile Normal file
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PLAN9=../../..
<$PLAN9/src/mkhdr
TARG=plot
OFILES=plot.$O\
HFILES=plot.h\
LIB=libplot.a
SHORTLIB=frame draw bio 9
LDFLAGS=$LDFLAGS -L$X11/lib -lX11
<$PLAN9/src/mkone
$LIB:
cd libplot
mk install
clean:V:
rm -f *.[$OS] [$OS].out y.tab.? y.debug y.output $TARG libplot.a
cd libplot
mk clean
nuke:V:
mk clean
rm -f libplot.a[$OS]

605
src/cmd/plot/plot.c Normal file
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#include <u.h>
#include <libc.h>
#include <bio.h>
#include "plot.h"
#include <draw.h>
#include <event.h>
#include <ctype.h>
void define(char*);
void call(char*);
void include(char*);
int process(Biobuf*);
int server(void);
enum{
ARC,
BOX,
CALL,
CFILL,
CIRC,
CLOSEPL,
COLOR,
CSPLINE,
DEFINE,
DISK,
DSPLINE,
ERASE,
FILL,
FRAME,
FSPLINE,
GRADE,
IDLE,
INCLUDE,
LINE,
LSPLINE,
MOVE,
OPENPL,
PARABOLA,
PEN,
PAUSE,
POINT,
POLY,
RANGE,
RESTORE,
RMOVE,
RVEC,
SAVE,
SBOX,
SPLINE,
TEXT,
VEC,
LAST
};
struct pcall {
char *cc;
int numc;
} plots[] = {
/*ARC*/ "a", 1,
/*BOX*/ "bo", 2,
/*CALL*/ "ca", 2,
/*CFILL*/ "cf", 2,
/*CIRC*/ "ci", 2,
/*CLOSEPL*/ "cl", 2,
/*COLOR*/ "co", 2,
/*CSPLINE*/ "cs", 2,
/*DEFINE*/ "de", 2,
/*DISK*/ "di", 2,
/*DSPLINE*/ "ds", 2,
/*ERASE*/ "e", 1,
/*FILL*/ "fi", 2,
/*FRAME*/ "fr", 2,
/*FSPLINE*/ "fs", 2,
/*GRADE*/ "g", 1,
/*IDLE*/ "id", 2,
/*INCLUDE*/ "in", 2,
/*LINE*/ "li", 2,
/*LSPLINE*/ "ls", 2,
/*MOVE*/ "m", 1,
/*OPENPL*/ "o", 1,
/*PARABOLA*/ "par", 3,
/*PEN*/ "pe", 2,
/*PAUSE*/ "pau", 3,
/*POINT*/ "poi", 3,
/*POLY*/ "pol", 3,
/*RANGE*/ "ra", 2,
/*RESTORE*/ "re", 2,
/*RMOVE*/ "rm", 2,
/*RVEC*/ "rv", 2,
/*SAVE*/ "sa", 2,
/*SBOX*/ "sb", 2,
/*SPLINE*/ "sp", 2,
/*TEXT*/ "t", 1,
/*VEC*/ "v", 1,
/*LAST*/ 0, 0,
};
struct pcall *pplots; /* last command read */
#define MAXL 16
struct fcall {
char *name;
char *stash;
} flibr[MAXL]; /* define strings */
struct fcall *fptr = flibr;
#define NFSTACK 50
struct fstack{
int peekc;
int lineno;
char *corebuf;
Biobuf *fd;
double scale;
}fstack[NFSTACK]; /* stack of open input files & defines */
struct fstack *fsp=fstack;
#define NARGSTR 8192
char argstr[NARGSTR+1]; /* string arguments */
#define NX 8192
double x[NX]; /* numeric arguments */
#define NPTS 256
int cnt[NPTS]; /* control-polygon vertex counts */
double *pts[NPTS]; /* control-polygon vertex pointers */
void eresized(int new){
if(new && getwindow(display, Refnone) < 0){
fprint(2, "Can't reattach to window: %r\n");
exits("resize");
}
}
char *items[]={
"exit",
0
};
Menu menu={items};
void
main(int arc, char *arv[]){
char *ap;
Biobuf *bp;
int fd;
int i;
int dflag;
char *oflag;
Mouse m;
bp = 0;
fd = dup(0, -1); /* because openpl will close 0! */
dflag=0;
oflag="";
for(i=1;i!=arc;i++) if(arv[i][0]=='-') switch(arv[i][1]){
case 'd': dflag=1; break;
case 'o': oflag=arv[i]+2; break;
case 's': fd=server(); break;
}
openpl(oflag);
if(dflag) doublebuffer();
for (; arc > 1; arc--, arv++) {
if (arv[1][0] == '-') {
ap = arv[1];
ap++;
switch (*ap) {
default:
fprint(2, "%s not allowed as argument\n", ap);
exits("usage");
case 'T': break;
case 'D': break;
case 'd': break;
case 'o': break;
case 'W': break;
case 's': break;
case 'e': erase(); break;
case 'C': closepl(); break;
case 'w': ppause(); break;
case 'c': color(ap+1); break;
case 'f': cfill(ap+1); break;
case 'p': pen(ap+1); break;
case 'g': grade(atof(ap+1)); break;
}
}
else if ((bp = Bopen(arv[1], OREAD)) == 0) {
perror(arv[1]);
fprint(2, "Cannot find file %s\n", arv[1]);
}
else if(process(bp)) Bterm(fsp->fd);
else break;
}
if (bp == 0){
bp = malloc(sizeof *bp);
Binit(bp, fd, OREAD);
process(bp);
}
closepl();
for(;;){
m=emouse();
if(m.buttons&4 && emenuhit(3, &m, &menu)==0) exits(0);
}
}
int nextc(void){
int c;
Rune r;
for(;;){
if(fsp->peekc!=Beof){
c=fsp->peekc;
fsp->peekc=Beof;
return c;
}
if(fsp->fd)
c=Bgetrune(fsp->fd);
else if(*fsp->corebuf){
fsp->corebuf+=chartorune(&r, fsp->corebuf);
c=r;
}else
c=Beof;
if(c!=Beof || fsp==fstack) break;
if(fsp->fd) Bterm(fsp->fd);
--fsp;
}
if(c=='\n') fsp->lineno++;
return c;
}
/*
* Read a string into argstr -- ignores leading spaces
* and an optional leading quote-mark
*/
void
strarg(void){
int c;
Rune r;
int quote=0;
char *s=argstr;
do
c=nextc();
while(c==' ' || c=='\t');
if(c=='\'' || c=='"'){
quote=c;
c=nextc();
}
r = 0;
while(c!='\n' && c!=Beof){
r=c;
s+=runetochar(s, &r);
c=nextc();
}
if(quote && s!=argstr && r==quote) --s;
*s='\0';
}
/*
* Read a floating point number into argstr
*/
int
numstring(void){
int ndp=0;
int ndig=0;
char *s=argstr;
int c=nextc();
if(c=='+' || c=='-'){
*s++=c;
c=nextc();
}
while(isdigit(c) || c=='.'){
if(s!=&argstr[NARGSTR]) *s++=c;
if(c=='.') ndp++;
else ndig++;
c=nextc();
}
if(ndp>1 || ndig==0){
fsp->peekc=c;
return 0;
}
if(c=='e' || c=='E'){
if(s!=&argstr[NARGSTR]) *s++=c;
c=nextc();
if(c=='+' || c=='-'){
if(s!=&argstr[NARGSTR]) *s++=c;
c=nextc();
}
if(!isdigit(c)){
fsp->peekc=c;
return 0;
}
while(isdigit(c)){
if(s!=&argstr[NARGSTR]) *s++=c;
c=nextc();
}
}
fsp->peekc=c;
*s='\0';
return 1;
}
/*
* Read n numeric arguments, storing them in
* x[0], ..., x[n-1]
*/
void
numargs(int n){
int i, c;
for(i=0;i!=n;i++){
do{
c=nextc();
}while(strchr(" \t\n", c) || c!='.' && c!='+' && c!='-' && ispunct(c));
fsp->peekc=c;
if(!numstring()){
fprint(2, "line %d: number expected\n", fsp->lineno);
exits("input error");
}
x[i]=atof(argstr)*fsp->scale;
}
}
/*
* Read a list of lists of control vertices, storing points in x[.],
* pointers in pts[.] and counts in cnt[.]
*/
void
polyarg(void){
int nleft, l, r, c;
double **ptsp=pts, *xp=x;
int *cntp=cnt;
do{
c=nextc();
}while(c==' ' || c=='\t');
if(c=='{'){
l='{';
r='}';
}
else{
l=r='\n';
fsp->peekc=c;
}
nleft=1;
*cntp=0;
*ptsp=xp;
for(;;){
c=nextc();
if(c==r){
if(*cntp){
if(*cntp&1){
fprint(2, "line %d: phase error\n",
fsp->lineno);
exits("bad input");
}
*cntp/=2;
if(ptsp==&pts[NPTS]){
fprint(2, "line %d: out of polygons\n",
fsp->lineno);
exits("exceeded limit");
}
*++ptsp=xp;
*++cntp=0;
}
if(--nleft==0) return;
}
else switch(c){
case Beof: return;
case ' ': break;
case '\t': break;
case '\n': break;
case '.': case '+': case '-':
case '0': case '1': case '2': case '3': case '4':
case '5': case '6': case '7': case '8': case '9':
fsp->peekc=c;
if(!numstring()){
fprint(2, "line %d: expected number\n", fsp->lineno);
exits("bad input");
}
if(xp==&x[NX]){
fprint(2, "line %d: out of space\n", fsp->lineno);
exits("exceeded limit");
}
*xp++=atof(argstr);
++*cntp;
break;
default:
if(c==l) nleft++;
else if(!ispunct(c)){
fsp->peekc=c;
return;
}
}
}
}
int
process(Biobuf *fd){
char *s;
int c;
fsp=fstack;
fsp->fd=fd;
fsp->corebuf=0;
fsp->peekc=Beof;
fsp->lineno=1;
fsp->scale=1.;
for(;;){
do
c=nextc();
while(c==' ' || c=='\t');
if(c==':'){
do
c=nextc();
while(c!='\n' && c!=Beof);
if(c==Beof) break;
continue;
}
while(c=='.'){
c=nextc();
if(isdigit(c)){
if(fsp->fd) Bungetc(fsp->fd);
else --fsp->corebuf;
c='.';
break;
}
}
if(c==Beof) break;
if(c=='\n') continue;
if(isalpha(c)){
s=argstr;
do{
if(isupper(c)) c=tolower(c);
if(s!=&argstr[NARGSTR]) *s++=c;
c=nextc();
}while(isalpha(c));
fsp->peekc=c;
*s='\0';
for(pplots=plots;pplots->cc;pplots++)
if(strncmp(argstr, pplots->cc, pplots->numc)==0)
break;
if(pplots->cc==0){
fprint(2, "line %d, %s unknown\n", fsp->lineno,
argstr);
exits("bad command");
}
}
else{
fsp->peekc=c;
}
if(!pplots){
fprint(2, "line %d, no command!\n", fsp->lineno);
exits("no command");
}
switch(pplots-plots){
case ARC: numargs(7); rarc(x[0],x[1],x[2],x[3],x[4],x[5],x[6]); break;
case BOX: numargs(4); box(x[0], x[1], x[2], x[3]); break;
case CALL: strarg(); call(argstr); pplots=0; break;
case CFILL: strarg(); cfill(argstr); pplots=0; break;
case CIRC: numargs(3); circ(x[0], x[1], x[2]); break;
case CLOSEPL: strarg(); closepl(); pplots=0; break;
case COLOR: strarg(); color(argstr); pplots=0; break;
case CSPLINE: polyarg(); splin(4, cnt, pts); break;
case DEFINE: strarg(); define(argstr); pplots=0; break;
case DISK: numargs(3); plotdisc(x[0], x[1], x[2]); break;
case DSPLINE: polyarg(); splin(3, cnt, pts); break;
case ERASE: strarg(); erase(); pplots=0; break;
case FILL: polyarg(); fill(cnt, pts); break;
case FRAME: numargs(4); frame(x[0], x[1], x[2], x[3]); break;
case FSPLINE: polyarg(); splin(1, cnt, pts); break;
case GRADE: numargs(1); grade(x[0]); break;
case IDLE: strarg(); idle(); pplots=0; break;
case INCLUDE: strarg(); include(argstr); pplots=0; break;
case LINE: numargs(4); plotline(x[0], x[1], x[2], x[3]); break;
case LSPLINE: polyarg(); splin(2, cnt, pts); break;
case MOVE: numargs(2); move(x[0], x[1]); break;
case OPENPL: strarg(); openpl(argstr); pplots=0; break;
case PARABOLA: numargs(6); parabola(x[0],x[1],x[2],x[3],x[4],x[5]); break;
case PAUSE: strarg(); ppause(); pplots=0; break;
case PEN: strarg(); pen(argstr); pplots=0; break;
case POINT: numargs(2); dpoint(x[0], x[1]); break;
case POLY: polyarg(); plotpoly(cnt, pts); break;
case RANGE: numargs(4); range(x[0], x[1], x[2], x[3]); break;
case RESTORE: strarg(); restore(); pplots=0; break;
case RMOVE: numargs(2); rmove(x[0], x[1]); break;
case RVEC: numargs(2); rvec(x[0], x[1]); break;
case SAVE: strarg(); save(); pplots=0; break;
case SBOX: numargs(4); sbox(x[0], x[1], x[2], x[3]); break;
case SPLINE: polyarg(); splin(0, cnt, pts); break;
case TEXT: strarg(); text(argstr); pplots=0; break;
case VEC: numargs(2); vec(x[0], x[1]); break;
default:
fprint(2, "plot: missing case %ld\n", pplots-plots);
exits("internal error");
}
}
return 1;
}
char *names = 0;
char *enames = 0;
char *bstash = 0;
char *estash = 0;
unsigned size = 1024;
char *nstash = 0;
void define(char *a){
char *ap;
short i, j;
int curly = 0;
ap = a;
while(isalpha(*ap))ap++;
if(ap == a){
fprint(2,"no name with define\n");
exits("define");
}
i = ap - a;
if(names+i+1 > enames){
names = malloc((unsigned)512);
enames = names + 512;
}
fptr->name = names;
strncpy(names, a,i);
names += i;
*names++ = '\0';
if(!bstash){
bstash = nstash = malloc(size);
estash = bstash + size;
}
fptr->stash = nstash;
while(*ap != '{')
if(*ap == '\n'){
if((ap=Brdline(fsp->fd, '\n'))==0){
fprint(2,"unexpected end of file\n");
exits("eof");
}
}
else ap++;
while((j=Bgetc(fsp->fd))!= Beof){
if(j == '{')curly++;
else if(j == '}'){
if(curly == 0)break;
else curly--;
}
*nstash++ = j;
if(nstash == estash){
free(bstash);
size += 1024;
bstash = realloc(bstash,size);
estash = bstash+size;
}
}
*nstash++ = '\0';
if(fptr++ >= &flibr[MAXL]){
fprint(2,"Too many objects\n");
exits("too many objects");
}
}
void call(char *a){
char *ap;
struct fcall *f;
char sav;
double SC;
ap = a;
while(isalpha(*ap))ap++;
sav = *ap;
*ap = '\0';
for(f=flibr;f<fptr;f++){
if (!(strcmp(a, f->name)))
break;
}
if(f == fptr){
fprint(2, "object %s not defined\n",a);
exits("undefined");
}
*ap = sav;
while (isspace(*ap) || *ap == ',')
ap++;
if (*ap != '\0')
SC = atof(ap);
else SC = 1.;
if(++fsp==&fstack[NFSTACK]){
fprint(2, "input stack overflow\n");
exits("blew stack");
}
fsp->peekc=Beof;
fsp->lineno=1;
fsp->corebuf=f->stash;
fsp->fd=0;
fsp->scale=fsp[-1].scale*SC;
}
void include(char *a){
Biobuf *fd;
fd=Bopen(a, OREAD);
if(fd==0){
perror(a);
exits("can't include");
}
if(++fsp==&fstack[NFSTACK]){
fprint(2, "input stack overflow\n");
exits("blew stack");
}
fsp->peekc=Beof;
fsp->lineno=1;
fsp->corebuf=0;
fsp->fd=fd;
}
/*
* Doesn't work. Why?
*/
int server(void){
int fd, p[2];
char buf[32];
pipe(p);
fd = create("/srv/plot", 1, 0666);
sprint(buf, "%d", p[1]);
write(fd, buf, strlen(buf));
close(fd);
close(p[1]);
return p[0];
}

35
src/cmd/plot/plot.h Normal file
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@ -0,0 +1,35 @@
/*
* Prototypes for libplot functions.
*/
void rarc(double, double, double, double, double, double, double);
void box(double, double, double, double);
void cfill(char *);
void circ(double, double, double);
void closepl(void);
void color(char *);
void plotdisc(double, double, double);
void dpoint(double, double);
void erase(void);
void fill(int [], double *[]);
void frame(double, double, double, double);
void grade(double);
void idle(void);
void plotline(double, double, double, double);
void move(double, double);
void openpl(char *);
void parabola(double, double, double, double, double, double);
void pen(char *);
void plotpoly(int [], double *[]);
void ppause(void);
void ptype(char *);
void range(double, double, double, double);
void restore(void);
void rmove(double, double);
void rvec(double, double);
void sbox(double, double, double, double);
void splin(int, int [], double *[]);
void text(char *);
void vec(double, double);
void save(void);
char *whoami(void);
void doublebuffer(void);