ref: f881d4f67254359ef348376e092c779993f57ed6
dir: /sys/src/cmd/pic/pltroff.c/
#include <stdio.h> #include <math.h> #include <string.h> #include "pic.h" extern int dbg; #define abs(n) (n >= 0 ? n : -(n)) #define max(x,y) ((x)>(y) ? (x) : (y)) char *textshift = "\\v'.2m'"; /* move text this far down */ /* scaling stuff defined by s command as X0,Y0 to X1,Y1 */ /* output dimensions set by -l,-w options to 0,0 to hmax, vmax */ /* default output is 6x6 inches */ double xscale; double yscale; double hpos = 0; /* current horizontal position in output coordinate system */ double vpos = 0; /* current vertical position; 0 is top of page */ double htrue = 0; /* where we really are */ double vtrue = 0; double X0, Y0; /* left bottom of input */ double X1, Y1; /* right top of input */ double hmax; /* right end of output */ double vmax; /* top of output (down is positive) */ extern double deltx; extern double delty; extern double xmin, ymin, xmax, ymax; double xconv(double), yconv(double), xsc(double), ysc(double); void space(double, double, double, double); void hgoto(double), vgoto(double), hmot(double), vmot(double); void move(double, double), movehv(double, double); void cont(double, double); void openpl(char *s) /* initialize device; s is residue of .PS invocation line */ { double maxw, maxh, ratio = 1; double odeltx = deltx, odelty = delty; hpos = vpos = 0; maxw = getfval("maxpswid"); maxh = getfval("maxpsht"); if (deltx > maxw) { /* shrink horizontal */ ratio = maxw / deltx; deltx *= ratio; delty *= ratio; } if (delty > maxh) { /* shrink vertical */ ratio = maxh / delty; deltx *= ratio; delty *= ratio; } if (ratio != 1) { fprintf(stderr, "pic: %g X %g picture shrunk to", odeltx, odelty); fprintf(stderr, " %g X %g\n", deltx, delty); } space(xmin, ymin, xmax, ymax); printf("... %g %g %g %g\n", xmin, ymin, xmax, ymax); printf("... %.3fi %.3fi %.3fi %.3fi\n", xconv(xmin), yconv(ymin), xconv(xmax), yconv(ymax)); printf(".nr 00 \\n(.u\n"); printf(".nf\n"); printf(".PS %.3fi %.3fi %s", yconv(ymin), xconv(xmax), s); /* assumes \n comes as part of s */ } void space(double x0, double y0, double x1, double y1) /* set limits of page */ { X0 = x0; Y0 = y0; X1 = x1; Y1 = y1; xscale = deltx == 0.0 ? 1.0 : deltx / (X1-X0); yscale = delty == 0.0 ? 1.0 : delty / (Y1-Y0); } double xconv(double x) /* convert x from external to internal form */ { return (x-X0) * xscale; } double xsc(double x) /* convert x from external to internal form, scaling only */ { return (x) * xscale; } double yconv(double y) /* convert y from external to internal form */ { return (Y1-y) * yscale; } double ysc(double y) /* convert y from external to internal form, scaling only */ { return (y) * yscale; } void closepl(char *PEline) /* clean up after finished */ { movehv(0.0, 0.0); /* get back to where we started */ if (strchr(PEline, 'F') == NULL) { printf(".sp 1+%.3fi\n", yconv(ymin)); } printf("%s\n", PEline); printf(".if \\n(00 .fi\n"); } void move(double x, double y) /* go to position x, y in external coords */ { hgoto(xconv(x)); vgoto(yconv(y)); } void movehv(double h, double v) /* go to internal position h, v */ { hgoto(h); vgoto(v); } void hmot(double n) /* generate n units of horizontal motion */ { hpos += n; } void vmot(double n) /* generate n units of vertical motion */ { vpos += n; } void hgoto(double n) { hpos = n; } void vgoto(double n) { vpos = n; } double fabs(double x) { return x < 0 ? -x : x; } void hvflush(void) /* get to proper point for output */ { if (fabs(hpos-htrue) >= 0.0005) { printf("\\h'%.3fi'", hpos - htrue); htrue = hpos; } if (fabs(vpos-vtrue) >= 0.0005) { printf("\\v'%.3fi'", vpos - vtrue); vtrue = vpos; } } void flyback(void) /* return to upper left corner (entry point) */ { printf(".sp -1\n"); htrue = vtrue = 0; } void printlf(int n, char *f) { if (f) printf(".lf %d %s\n", n, f); else printf(".lf %d\n", n); } void troff(char *s) /* output troff right here */ { printf("%s\n", s); } void label(char *s, int t, int nh) /* text s of type t nh half-lines up */ { int q; char *p; if (!s) return; hvflush(); dprintf("label: %s %o %d\n", s, t, nh); printf("%s", textshift); /* shift down and left */ if (t & ABOVE) nh++; else if (t & BELOW) nh--; if (nh) printf("\\v'%du*\\n(.vu/2u'", -nh); /* just in case the text contains a quote: */ q = 0; for (p = s; *p; p++) if (*p == '\'') { q = 1; break; } t &= ~(ABOVE|BELOW); if (t & LJUST) { printf("%s", s); } else if (t & RJUST) { if (q) printf("\\h\\(ts-\\w\\(ts%s\\(tsu\\(ts%s", s, s); else printf("\\h'-\\w'%s'u'%s", s, s); } else { /* CENTER */ if (q) printf("\\h\\(ts-\\w\\(ts%s\\(tsu/2u\\(ts%s", s, s); else printf("\\h'-\\w'%s'u/2u'%s", s, s); } printf("\n"); flyback(); } void line(double x0, double y0, double x1, double y1) /* draw line from x0,y0 to x1,y1 */ { move(x0, y0); cont(x1, y1); } void arrow(double x0, double y0, double x1, double y1, double w, double h, double ang, int nhead) /* draw arrow (without shaft) */ { double alpha, rot, drot, hyp; double dx, dy; int i; rot = atan2(w / 2, h); hyp = sqrt(w/2 * w/2 + h * h); alpha = atan2(y1-y0, x1-x0) + ang; if (nhead < 2) nhead = 2; dprintf("rot=%g, hyp=%g, alpha=%g\n", rot, hyp, alpha); for (i = nhead-1; i >= 0; i--) { drot = 2 * rot / (double) (nhead-1) * (double) i; dx = hyp * cos(alpha + PI - rot + drot); dy = hyp * sin(alpha + PI - rot + drot); dprintf("dx,dy = %g,%g\n", dx, dy); line(x1+dx, y1+dy, x1, y1); } } double lastgray = 0; void fillstart(double v) /* this works only for postscript, obviously. */ { /* uses drechsler's dpost conventions... */ hvflush(); printf("\\X'BeginObject %g setgray'\n", v); lastgray = v; flyback(); } void fillend(int vis, int fill) { hvflush(); printf("\\X'EndObject gsave eofill grestore %g setgray %s'\n", !vis ? lastgray : 0.0, vis ? "stroke" : ""); /* for dashed: [50] 0 setdash just before stroke. */ lastgray = 0; flyback(); } void box(double x0, double y0, double x1, double y1) { move(x0, y0); cont(x0, y1); cont(x1, y1); cont(x1, y0); cont(x0, y0); } void cont(double x, double y) /* continue line from here to x,y */ { double h1, v1; double dh, dv; h1 = xconv(x); v1 = yconv(y); dh = h1 - hpos; dv = v1 - vpos; hvflush(); printf("\\D'l%.3fi %.3fi'\n", dh, dv); flyback(); /* expensive */ hpos = h1; vpos = v1; } void circle(double x, double y, double r) { move(x-r, y); hvflush(); printf("\\D'c%.3fi'\n", xsc(2 * r)); flyback(); } void spline(double x, double y, double n, ofloat *p, int dashed, double ddval) { int i; double dx, dy; double xerr, yerr; move(x, y); hvflush(); xerr = yerr = 0.0; printf("\\D'~"); for (i = 0; i < 2 * n; i += 2) { dx = xsc(xerr += p[i]); xerr -= dx/xscale; dy = ysc(yerr += p[i+1]); yerr -= dy/yscale; printf(" %.3fi %.3fi", dx, -dy); /* WATCH SIGN */ } printf("'\n"); flyback(); } void ellipse(double x, double y, double r1, double r2) { double ir1, ir2; move(x-r1, y); hvflush(); ir1 = xsc(r1); ir2 = ysc(r2); printf("\\D'e%.3fi %.3fi'\n", 2 * ir1, 2 * abs(ir2)); flyback(); } void arc(double x, double y, double x0, double y0, double x1, double y1) /* draw arc with center x,y */ { move(x0, y0); hvflush(); printf("\\D'a%.3fi %.3fi %.3fi %.3fi'\n", xsc(x-x0), -ysc(y-y0), xsc(x1-x), -ysc(y1-y)); /* WATCH SIGNS */ flyback(); } void dot(void) { hvflush(); /* what character to draw here depends on what's available. */ /* on the 202, l. is good but small. */ /* in general, use a smaller, shifted period and hope */ printf("\\&\\f1\\h'-.1m'\\v'.03m'\\s-3.\\s+3\\fP\n"); flyback(); }