void
text_term(void)
{
free(text_n);
text_n = NULL;
text_n_alloced = 0;
savetext(NULL,NULL);
}
int search(strings s[], const char * const k, const char * const line)
{ int i = 0;
do if(strcmp(s[i].name, k) == 0) {
savetext(s, i, line);
return 1;
} while(s[++i].name);
return 0;
}
void main()
{
Stocks s[SIZE];
load(s, SIZE);
sort(s, SIZE);
calc(s, SIZE);
print(s, SIZE);
savetext(s, SIZE);
gettextfile(s, SIZE);
printf("\n\n=============================after the text file has been retrieved==========================================\n\n");
print(s, SIZE);
savebinary(s, SIZE);
getbinaryfile(s, SIZE);
printf("\n ===================================after the binary file has been retrived ==============================================\n");
print(s, SIZE);
system("PAUSE");
}
void
miscattrs(Attr *ap, struct objattr *obat) {
float *fp;
int n;
switch (ap->a_type) {
case FONT:
reset_font((double)ap->a_val.f);
break;
case SIZE:
reset_size(ap->a_sub, (double)ap->a_val.f);
break;
case SPACE:
reset_space(ap->a_sub, (double)ap->a_val.f);
break;
case TEXTATTR:
if (ap->a_val.p != NULL)
savetext(ap->a_sub, ap->a_val.p);
else
/* These type values should be propagated back to other strings */
/* Maybe by calling reset_type, to be added to textgen.c */
text[ntext-1].t_type = ap->a_sub;
/* ??? can this ever happen */
/* except after a previous */
/* text in the same object? */
break;
case NOEDGE:
obat->a_flags &= ~EDGED;
break;
case LAYER:
obat->a_layer = ap->a_val.f;
break;
case LWEIGHT:
obat->a_weight = ap->a_val.f;
break;
case LCOLOR:
obat->a_lcolor = ap->a_val.f;
break;
case PCOLOR:
obat->a_flags |= FILLED;
if (ap->a_sub != DEFAULT)
obat->a_pcolor = ap->a_val.f;
break;
case TCOLOR:
obat->a_tcolor = ap->a_val.f;
break;
case DOT:
case DASH:
n = ap->a_type == DOT ? 3 : 2;
if ((fp = (float *)malloc(n * sizeof(float))) == NULL) {
yyerror("out of space in miscattrs");
break;
}
*fp = --n;
fp[n] = (ap->a_sub == DEFAULT ? getfval("dashwid")
: ap->a_val.f);
if (n == 2)
fp[1] = -1; /* fill in later, from weight */
ap->a_val.a = fp;
/* and fall through to the general case */
case DASHPAT:
obat->a_flags |= DOTDASH;
obat->a_dashpat.a = ap->a_val.a;
break;
case HEIGHT:
obat->a_ht = ap->a_val.f;
break;
case WIDTH:
obat->a_wid = ap->a_val.f;
break;
case RADIUS:
obat->a_rad = ap->a_val.f;
break;
case DIAMETER:
obat->a_rad = ap->a_val.f / 2;
break;
}
}
obj *linegen(int type)
{
static double prevdx = HT;
static double prevdy = 0;
static double prevw = HT10;
static double prevh = HT5;
int i, j, some, head, ddtype, invis, chop;
double ddval, chop1, chop2, x0, y0, x1, y1;
double sin(), cos(), atan2(), theta;
double defx, defy;
obj *p, *ppos;
static int xtab[] = { 1, 0, -1, 0 }; /* R=0, U=1, L=2, D=3 */
static int ytab[] = { 0, 1, 0, -1 };
double dx[500], dy[500];
int ndxy;
double nx, ny;
Attr *ap;
nx = curx;
ny = cury;
defx = getfval("linewid");
defy = getfval("lineht");
prevh = getfval("arrowht");
prevw = getfval("arrowwid");
dx[0] = dy[0] = ndxy = some = head = invis = 0;
chop = chop1 = chop2 = 0;
ddtype = ddval = 0;
for (i = 0; i < nattr; i++) {
ap = &attr[i];
switch (ap->a_type) {
case TEXTATTR:
savetext(ap->a_sub, ap->a_val.p);
break;
case HEAD:
head += ap->a_val.i;
break;
case INVIS:
invis = INVIS;
break;
case CHOP:
if (chop++ == 0)
chop1 = chop2 = ap->a_val.f;
else
chop2 = ap->a_val.f;
break;
case DOT:
case DASH:
ddtype = ap->a_type==DOT ? DOTBIT : DASHBIT;
if (ap->a_sub == DEFAULT)
ddval = getfval("dashwid");
else
ddval = ap->a_val.f;
break;
case SAME:
dx[ndxy] = prevdx;
dy[ndxy] = prevdy;
some++;
break;
case LEFT:
dx[ndxy] -= (ap->a_sub==DEFAULT) ? defx : ap->a_val.f;
some++;
hvmode = L_DIR;
break;
case RIGHT:
dx[ndxy] += (ap->a_sub==DEFAULT) ? defx : ap->a_val.f;
some++;
hvmode = R_DIR;
break;
case UP:
dy[ndxy] += (ap->a_sub==DEFAULT) ? defy : ap->a_val.f;
some++;
hvmode = U_DIR;
break;
case DOWN:
dy[ndxy] -= (ap->a_sub==DEFAULT) ? defy : ap->a_val.f;
some++;
hvmode = D_DIR;
break;
case HEIGHT: /* length of arrowhead */
prevh = ap->a_val.f;
break;
case WIDTH: /* width of arrowhead */
prevw = ap->a_val.f;
break;
case TO:
if (some) {
nx += dx[ndxy];
ny += dy[ndxy];
ndxy++;
dx[ndxy] = dy[ndxy] = some = 0;
}
ppos = attr[i].a_val.o;
dx[ndxy] = ppos->o_x - nx;
dy[ndxy] = ppos->o_y - ny;
some++;
break;
case BY:
if (some) {
nx += dx[ndxy];
ny += dy[ndxy];
ndxy++;
dx[ndxy] = dy[ndxy] = some = 0;
}
ppos = ap->a_val.o;
dx[ndxy] = ppos->o_x;
dy[ndxy] = ppos->o_y;
some++;
break;
case THEN: /* turn off any previous accumulation */
if (some) {
nx += dx[ndxy];
ny += dy[ndxy];
ndxy++;
dx[ndxy] = dy[ndxy] = some = 0;
}
break;
case FROM:
case AT:
ppos = ap->a_val.o;
nx = curx = ppos->o_x;
ny = cury = ppos->o_y;
break;
}
}
if (some) {
nx += dx[ndxy];
ny += dy[ndxy];
ndxy++;
defx = dx[ndxy-1];
defy = dy[ndxy-1];
} else {
defx *= xtab[hvmode];
defy *= ytab[hvmode];
dx[ndxy] = defx;
dy[ndxy] = defy;
ndxy++;
nx += defx;
ny += defy;
}
prevdx = defx;
prevdy = defy;
if (chop) {
if (chop == 1 && chop1 == 0) /* just said "chop", so use default */
chop1 = chop2 = getfval("circlerad");
theta = atan2(dy[0], dx[0]);
x0 = chop1 * cos(theta);
y0 = chop1 * sin(theta);
curx += x0;
cury += y0;
dx[0] -= x0;
dy[0] -= y0;
theta = atan2(dy[ndxy-1], dx[ndxy-1]);
x1 = chop2 * cos(theta);
y1 = chop2 * sin(theta);
nx -= x1;
ny -= y1;
dx[ndxy-1] -= x1;
dy[ndxy-1] -= y1;
dprintf("chopping %g %g %g %g; cur=%g,%g end=%g,%g\n",
x0, y0, x1, y1, curx, cury, nx, ny);
}
p = makenode(type, 5 + 2 * ndxy);
curx = p->o_val[0] = nx;
cury = p->o_val[1] = ny;
if (head || type == ARROW) {
p->o_nhead = getfval("arrowhead");
p->o_val[2] = prevw;
p->o_val[3] = prevh;
if (head == 0)
head = HEAD2; /* default arrow head */
}
p->o_attr = head | invis | ddtype;
p->o_val[4] = ndxy;
nx = p->o_x;
ny = p->o_y;
for (i = 0, j = 5; i < ndxy; i++, j += 2) {
p->o_val[j] = dx[i];
p->o_val[j+1] = dy[i];
if (type == LINE || type == ARROW)
extreme(nx += dx[i], ny += dy[i]);
else if (type == SPLINE && i < ndxy-1) {
/* to compute approx extreme of spline at p,
* compute midway between p-1 and p+1,
* then go 3/4 from there to p */
double ex, ey, xi, yi, xi1, yi1;
xi = nx + dx[i]; yi = ny + dy[i]; /* p */
xi1 = xi + dx[i+1]; yi1 = yi + dy[i+1]; /* p+1 */
ex = (nx+xi1)/2; ey = (ny+yi1)/2; /* midway */
ex += 0.75*(xi-ex); ey += 0.75*(yi-ey);
extreme(ex, ey);
nx = xi; ny = yi;
}
}
p->o_ddval = ddval;
if (dbg) {
printf("S or L from %g %g to %g %g with %d elements:\n", p->o_x, p->o_y, curx, cury, ndxy);
for (i = 0, j = 5; i < ndxy; i++, j += 2)
printf("%g %g\n", p->o_val[j], p->o_val[j+1]);
}
extreme(p->o_x, p->o_y);
extreme(curx, cury);
return(p);
}
obj*
blockgen(obj *p, obj *q) /* handles [...] */
{
int i, invis, at, with;
double ddval, h, w, xwith, ywith;
double x0, y0, x1, y1, cx, cy;
obj *ppos;
Attr *ap;
invis = at = 0;
with = xwith = ywith = 0;
ddval = 0;
w = p->o_val[2] - p->o_val[0];
h = p->o_val[3] - p->o_val[1];
cx = (p->o_val[2] + p->o_val[0]) / 2; /* geom ctr of [] wrt local orogin */
cy = (p->o_val[3] + p->o_val[1]) / 2;
dprintf("cx,cy=%g,%g\n", cx, cy);
for (i = 0; i < nattr; i++) {
ap = &attr[i];
switch (ap->a_type) {
case HEIGHT:
h = ap->a_val.f;
break;
case WIDTH:
w = ap->a_val.f;
break;
case WITH:
with = ap->a_val.i; /* corner */
break;
case PLACE: /* actually with position ... */
ppos = ap->a_val.o;
xwith = cx - ppos->o_x;
ywith = cy - ppos->o_y;
with = PLACE;
break;
case AT:
case FROM:
ppos = ap->a_val.o;
curx = ppos->o_x;
cury = ppos->o_y;
at++;
break;
case INVIS:
invis = INVIS;
break;
case TEXTATTR:
savetext(ap->a_sub, ap->a_val.p);
break;
}
}
if (with) {
switch (with) {
case NORTH: ywith = -h / 2; break;
case SOUTH: ywith = h / 2; break;
case EAST: xwith = -w / 2; break;
case WEST: xwith = w / 2; break;
case NE: xwith = -w / 2; ywith = -h / 2; break;
case SE: xwith = -w / 2; ywith = h / 2; break;
case NW: xwith = w / 2; ywith = -h / 2; break;
case SW: xwith = w / 2; ywith = h / 2; break;
}
curx += xwith;
cury += ywith;
}
if (!at) {
if (isright(hvmode))
curx += w / 2;
else if (isleft(hvmode))
curx -= w / 2;
else if (isup(hvmode))
cury += h / 2;
else
cury -= h / 2;
}
x0 = curx - w / 2;
y0 = cury - h / 2;
x1 = curx + w / 2;
y1 = cury + h / 2;
extreme(x0, y0);
extreme(x1, y1);
p->o_x = curx;
p->o_y = cury;
p->o_nt1 = ntext1;
p->o_nt2 = ntext;
ntext1 = ntext;
p->o_val[0] = w;
p->o_val[1] = h;
p->o_val[2] = cx;
p->o_val[3] = cy;
p->o_val[5] = q->o_nobj - 1; /* last item in [...] */
p->o_ddval = ddval;
p->o_attr = invis;
dprintf("[] %g %g %g %g at %g %g, h=%g, w=%g\n", x0, y0, x1, y1, curx, cury, h, w);
if (isright(hvmode))
curx = x1;
else if (isleft(hvmode))
curx = x0;
else if (isup(hvmode))
cury = y1;
else
cury = y0;
for (i = 0; i <= 5; i++)
q->o_val[i] = p->o_val[i];
stack[nstack+1].p_symtab = NULL; /* so won't be found again */
blockadj(p); /* fix up coords for enclosed blocks */
return(p);
}
obj *circgen(type)
{
static float rad[2] = { HT2, WID2 };
static float rad2[2] = { HT2, HT2 };
static float x0, y0, x1, y1, x2, y2;
int i, at, t, invis, ddtype, with;
float xwith, ywith;
float r, r2, ddval;
obj *p, *ppos;
Attr *ap;
at = invis = ddtype = 0;
with = xwith = ywith = 0;
t = (type == CIRCLE) ? 0 : 1;
if (type == CIRCLE)
r = r2 = getfval("circlerad");
else if (type == ELLIPSE) {
r = getfval("ellipsewid") / 2;
r2 = getfval("ellipseht") / 2;
}
for (i = 0; i < nattr; i++) {
ap = &attr[i];
switch (ap->a_type) {
case TEXTATTR:
savetext(ap->a_sub, ap->a_val.p);
break;
case RADIUS:
r = ap->a_val.f;
break;
case DIAMETER:
case WIDTH:
r = ap->a_val.f / 2;
break;
case HEIGHT:
r2 = ap->a_val.f / 2;
break;
case SAME:
r = rad[t];
r2 = rad2[t];
break;
case WITH:
with = ap->a_val.i;
break;
case AT:
ppos = ap->a_val.o;
curx = ppos->o_x;
cury = ppos->o_y;
at++;
break;
case INVIS:
invis = INVIS;
break;
case DOT:
case DASH:
ddtype = ap->a_type==DOT ? DOTBIT : DASHBIT;
if (ap->a_sub == DEFAULT)
ddval = getfval("dashwid");
else
ddval = ap->a_val.f;
break;
}
}
if (type == CIRCLE)
r2 = r; /* probably superfluous */
if (with) {
switch (with) {
case NORTH: ywith = -r2; break;
case SOUTH: ywith = r2; break;
case EAST: xwith = -r; break;
case WEST: xwith = r; break;
case NE: xwith = -r * 0.707; ywith = -r2 * 0.707; break;
case SE: xwith = -r * 0.707; ywith = r2 * 0.707; break;
case NW: xwith = r * 0.707; ywith = -r2 * 0.707; break;
case SW: xwith = r * 0.707; ywith = r2 * 0.707; break;
}
curx += xwith;
cury += ywith;
}
if (!at) {
if (isright(hvmode))
curx += r;
else if (isleft(hvmode))
curx -= r;
else if (isup(hvmode))
cury += r2;
else
cury -= r2;
}
p = makenode(type, 2);
p->o_val[0] = rad[t] = r;
p->o_val[1] = rad2[t] = r2;
if (r <= 0 || r2 <= 0) {
yyerror("%s has invalid radius %g\n", (type==CIRCLE) ? "circle" : "ellipse", r<r2 ? r : r2);
}
p->o_attr = invis | ddtype;
extreme(curx+r, cury+r2);
extreme(curx-r, cury-r2);
if (type == CIRCLE)
dprintf("C %g %g %g\n", curx, cury, r);
if (type == ELLIPSE)
dprintf("E %g %g %g %g\n", curx, cury, r, r2);
if (isright(hvmode))
curx += r;
else if (isleft(hvmode))
curx -= r;
else if (isup(hvmode))
cury += r2;
else
cury -= r2;
return(p);
}
obj *troffgen(char *s) /* save away a string of troff commands */
{
savetext(CENTER, s); /* use the existing text mechanism */
return makenode(TROFF, 0);
}
obj *textgen(void)
{
int i, sub, nstr, at, with, hset, invis;
double xwith, ywith, h, w, x0, y0, x1, y1;
obj *p, *ppos;
Attr *ap;
at = with = nstr = hset = invis = 0;
h = getfval("textht");
w = getfval("textwid");
for (i = 0; i < nattr; i++) {
ap = &attr[i];
switch (ap->a_type) {
case HEIGHT:
h = ap->a_val.f;
hset++;
break;
case WIDTH:
w = ap->a_val.f;
break;
case WITH:
with = ap->a_val.i;
break;
case INVIS:
invis = INVIS;
break;
case AT:
ppos = ap->a_val.o;
curx = ppos->o_x;
cury = ppos->o_y;
at++;
break;
case TEXTATTR:
sub = ap->a_sub;
if (ap->a_val.p == NULL) /* an isolated modifier */
text[ntext-1].t_type = sub;
else {
savetext(sub, ap->a_val.p);
nstr++;
}
break;
}
}
if (hset == 0) /* no explicit ht cmd */
h *= nstr;
if (with) {
xwith = ywith = 0.0;
switch (with) {
case NORTH: ywith = -h / 2; break;
case SOUTH: ywith = h / 2; break;
case EAST: xwith = -w / 2; break;
case WEST: xwith = w / 2; break;
case NE: xwith = -w / 2; ywith = -h / 2; break;
case SE: xwith = -w / 2; ywith = h / 2; break;
case NW: xwith = w / 2; ywith = -h / 2; break;
case SW: xwith = w / 2; ywith = h / 2; break;
}
curx += xwith;
cury += ywith;
}
if (!at) {
if (isright(hvmode))
curx += w / 2;
else if (isleft(hvmode))
curx -= w / 2;
else if (isup(hvmode))
cury += h / 2;
else
cury -= h / 2;
}
x0 = curx - w / 2;
y0 = cury - h / 2;
x1 = curx + w / 2;
y1 = cury + h / 2;
extreme(x0, y0);
extreme(x1, y1);
dprintf("Text h %g w %g at %g,%g\n", h, w, curx, cury);
p = makenode(TEXT, 2);
p->o_attr = invis;
p->o_val[0] = w;
p->o_val[1] = h;
if (isright(hvmode))
curx = x1;
else if (isleft(hvmode))
curx = x0;
else if (isup(hvmode))
cury = y1;
else
cury = y0;
return(p);
}
obj*
movegen(void)
{
static double prevdx, prevdy;
int i, some;
double defx, defy, dx, dy;
obj *p;
obj *ppos;
static int xtab[] = { 1, 0, -1, 0 }; /* R=0, U=1, L=2, D=3 */
static int ytab[] = { 0, 1, 0, -1 };
Attr *ap;
defx = getfval("movewid");
defy = getfval("moveht");
dx = dy = some = 0;
for (i = 0; i < nattr; i++) {
ap = &attr[i];
switch (ap->a_type) {
case TEXTATTR:
savetext(ap->a_sub, ap->a_val.p);
break;
case SAME:
dx = prevdx;
dy = prevdy;
some++;
break;
case LEFT:
dx -= (ap->a_sub==DEFAULT) ? defx : ap->a_val.f;
some++;
hvmode = L_DIR;
break;
case RIGHT:
dx += (ap->a_sub==DEFAULT) ? defx : ap->a_val.f;
some++;
hvmode = R_DIR;
break;
case UP:
dy += (ap->a_sub==DEFAULT) ? defy : ap->a_val.f;
some++;
hvmode = U_DIR;
break;
case DOWN:
dy -= (ap->a_sub==DEFAULT) ? defy : ap->a_val.f;
some++;
hvmode = D_DIR;
break;
case TO:
ppos = ap->a_val.o;
dx = ppos->o_x - curx;
dy = ppos->o_y - cury;
some++;
break;
case BY:
ppos = ap->a_val.o;
dx = ppos->o_x;
dy = ppos->o_y;
some++;
break;
case FROM:
case AT:
ppos = ap->a_val.o;
curx = ppos->o_x;
cury = ppos->o_y;
break;
}
}
if (some) {
defx = dx;
defy = dy;
} else {
defx *= xtab[hvmode];
defy *= ytab[hvmode];
}
prevdx = defx;
prevdy = defy;
extreme(curx, cury);
curx += defx;
cury += defy;
extreme(curx, cury);
p = makenode(MOVE, 0);
dprintf("M %g %g\n", curx, cury);
return(p);
}
obj *arcgen(type) /* handles circular and (eventually) elliptical arcs */
{
static float prevw = HT10;
static float prevh = HT5;
static float prevrad = HT2;
static int dtox[2][4] ={ 1, -1, -1, 1, 1, 1, -1, -1 };
static int dtoy[2][4] ={ 1, 1, -1, -1, -1, 1, 1, -1 };
static int dctrx[2][4] ={ 0, -1, 0, 1, 0, 1, 0, -1 };
static int dctry[2][4] ={ 1, 0, -1, 0, -1, 0, 1, 0 };
static int nexthv[2][4] ={ U_DIR, L_DIR, D_DIR, R_DIR, D_DIR, R_DIR, U_DIR, L_DIR };
float dx2, dy2, ht, phi, r, d, ddval;
int i, head, to, at, cw, invis, ddtype;
obj *p, *ppos;
float fromx, fromy, tox, toy;
Attr *ap;
prevrad = getfval("arcrad");
prevh = getfval("arrowht");
prevw = getfval("arrowwid");
fromx = curx;
fromy = cury;
head = to = at = cw = invis = ddtype = 0;
for (i = 0; i < nattr; i++) {
ap = &attr[i];
switch (ap->a_type) {
case TEXTATTR:
savetext(ap->a_sub, ap->a_val.p);
break;
case HEAD:
head += ap->a_val.i;
break;
case INVIS:
invis = INVIS;
break;
case DOT:
case DASH:
ddtype = ap->a_type==DOT ? DOTBIT : DASHBIT;
if (ap->a_sub == DEFAULT)
ddval = getfval("dashwid");
else
ddval = ap->a_val.f;
break;
case HEIGHT: /* length of arrowhead */
prevh = ap->a_val.f;
break;
case WIDTH: /* width of arrowhead */
prevw = ap->a_val.f;
break;
case RADIUS:
prevrad = ap->a_val.f;
break;
case DIAMETER:
prevrad = ap->a_val.f / 2;
break;
case CW:
cw = 1;
break;
case FROM: /* start point of arc */
ppos = ap->a_val.o;
fromx = ppos->o_x;
fromy = ppos->o_y;
break;
case TO: /* end point of arc */
ppos = ap->a_val.o;
tox = ppos->o_x;
toy = ppos->o_y;
to++;
break;
case AT: /* center of arc */
ppos = ap->a_val.o;
curx = ppos->o_x;
cury = ppos->o_y;
at = 1;
break;
case UP:
hvmode = U_DIR;
break;
case DOWN:
hvmode = D_DIR;
break;
case RIGHT:
hvmode = R_DIR;
break;
case LEFT:
hvmode = L_DIR;
break;
}
}
if (!at && !to) { /* the defaults are mostly OK */
curx = fromx + prevrad * dctrx[cw][hvmode];
cury = fromy + prevrad * dctry[cw][hvmode];
tox = fromx + prevrad * dtox[cw][hvmode];
toy = fromy + prevrad * dtoy[cw][hvmode];
hvmode = nexthv[cw][hvmode];
}
else if (!at) {
dx2 = (tox - fromx) / 2;
dy2 = (toy - fromy) / 2;
phi = atan2(dy2, dx2) + (cw ? -PI/2 : PI/2);
if (prevrad <= 0.0)
prevrad = dx2*dx2+dy2*dy2;
for (r=prevrad; (d = r*r - (dx2*dx2+dy2*dy2)) <= 0.0; r *= 2)
; /* this kludge gets around too-small radii */
prevrad = r;
ht = sqrt(d);
curx = fromx + dx2 + ht * cos(phi);
cury = fromy + dy2 + ht * sin(phi);
dprintf("dx2,dy2=%g,%g, phi=%g, r,ht=%g,%g\n",
dx2, dy2, phi, r, ht);
}
else if (at && !to) { /* do we have all the cases??? */
tox = fromx + prevrad * dtox[cw][hvmode];
toy = fromy + prevrad * dtoy[cw][hvmode];
hvmode = nexthv[cw][hvmode];
}
if (cw) { /* interchange roles of from-to and heads */
float temp;
temp = fromx; fromx = tox; tox = temp;
temp = fromy; fromy = toy; toy = temp;
if (head == HEAD1)
head = HEAD2;
else if (head == HEAD2)
head = HEAD1;
}
p = makenode(type, 7);
arc_extreme(fromx, fromy, tox, toy, curx, cury);
p->o_val[0] = fromx;
p->o_val[1] = fromy;
p->o_val[2] = tox;
p->o_val[3] = toy;
if (cw) {
curx = fromx;
cury = fromy;
} else {
curx = tox;
cury = toy;
}
p->o_val[4] = prevw;
p->o_val[5] = prevh;
p->o_val[6] = prevrad;
p->o_attr = head | (cw ? CW_ARC : 0) | invis | ddtype;
if (head)
p->o_nhead = getfval("arrowhead");
dprintf("arc rad %g at %g %g from %g %g to %g %g head %g %g\n",
prevrad, p->o_x, p->o_y,
p->o_val[0], p->o_val[1], p->o_val[2], p->o_val[3], p->o_val[4], p->o_val[5]);
return(p);
}
obj *boxgen(void)
{
static double prevh = HT;
static double prevw = WID; /* golden mean, sort of */
int i, at, battr, with;
double ddval, fillval, xwith, ywith;
double h, w, x0, y0, x1, y1;
obj *p, *ppos;
Attr *ap;
h = getfval("boxht");
w = getfval("boxwid");
at = battr = with = 0;
ddval = fillval = xwith = ywith = 0;
for (i = 0; i < nattr; i++) {
ap = &attr[i];
switch (ap->a_type) {
case HEIGHT:
h = ap->a_val.f;
break;
case WIDTH:
w = ap->a_val.f;
break;
case SAME:
h = prevh;
w = prevw;
break;
case WITH:
with = ap->a_val.i; /* corner */
break;
case AT:
ppos = ap->a_val.o;
curx = ppos->o_x;
cury = ppos->o_y;
at++;
break;
case INVIS:
battr |= INVIS;
break;
case NOEDGE:
battr |= NOEDGEBIT;
break;
case DOT:
case DASH:
battr |= ap->a_type==DOT ? DOTBIT : DASHBIT;
if (ap->a_sub == DEFAULT)
ddval = getfval("dashwid");
else
ddval = ap->a_val.f;
break;
case FILL:
battr |= FILLBIT;
if (ap->a_sub == DEFAULT)
fillval = getfval("fillval");
else
fillval = ap->a_val.f;
break;
case TEXTATTR:
savetext(ap->a_sub, ap->a_val.p);
break;
}
}
if (with) {
switch (with) {
case NORTH: ywith = -h / 2; break;
case SOUTH: ywith = h / 2; break;
case EAST: xwith = -w / 2; break;
case WEST: xwith = w / 2; break;
case NE: xwith = -w / 2; ywith = -h / 2; break;
case SE: xwith = -w / 2; ywith = h / 2; break;
case NW: xwith = w / 2; ywith = -h / 2; break;
case SW: xwith = w / 2; ywith = h / 2; break;
}
curx += xwith;
cury += ywith;
}
if (!at) {
if (isright(hvmode))
curx += w / 2;
else if (isleft(hvmode))
curx -= w / 2;
else if (isup(hvmode))
cury += h / 2;
else
cury -= h / 2;
}
x0 = curx - w / 2;
y0 = cury - h / 2;
x1 = curx + w / 2;
y1 = cury + h / 2;
extreme(x0, y0);
extreme(x1, y1);
p = makenode(BOX, 2);
p->o_val[0] = w;
p->o_val[1] = h;
p->o_attr = battr;
p->o_ddval = ddval;
p->o_fillval = fillval;
dprintf("B %g %g %g %g at %g %g, h=%g, w=%g\n", x0, y0, x1, y1, curx, cury, h, w);
if (isright(hvmode))
curx = x1;
else if (isleft(hvmode))
curx = x0;
else if (isup(hvmode))
cury = y1;
else
cury = y0;
prevh = h;
prevw = w;
return(p);
}
int loadFile(char *fnam)
{ unsigned long linenr;
char *p;
FILE *fin;
join(fnam, fEXT);
if((fin = fopen(fnam, "rt")) == NULL
&& (fin = fopen(temp, "rt")) == NULL) {
pxerror("opening ", fnam);
return 33;
}
printf("CRITSTRS: load file %s\n", fnam);
linenr = 0;
while (fgets(temp, sizeof(temp), fin)) {
++linenr;
p = strchr(temp, '\0');
if(p[-1] != '\n') {
fprintf(stderr, "Line %lu too long\n", linenr);
return 41;
}
/* Cut trailing control characters */
while (--p >= temp && (iscntrl(*p) || isspace(*p)));
p[1] = '\0';
switch (*temp) {
case ';': case '#': case '\0': /* comment line */
break;
case 'S': /* possible help line */
if(isdigit(temp[1])) /* help line */
break;
default: /* line */
if((p = strchr(temp, ':')) == NULL) {
fprintf(stderr, "Syntax error in line %lu\n", linenr);
return 42;
}
*p = '\0';
if(isdigit(*temp)) { /* error string */
char *q = temp;
int nr = 0;
do nr = nr * 10 + *q - '0';
while(isdigit(*++q));
if(*q) {
fprintf(stderr, "Invalid number in line %lu\n", linenr);
return 44;
}
if(nr < 0 || nr > 255 - STR_ERROR) {
fprintf(stderr, "String number too large in line %lu\n"
, linenr);
return 45;
}
savetext(strg, STR_ERROR + nr, p + 1);
} else {
strupr(temp);
if(!search(strg, temp, p + 1)
&& !search(special, temp, p + 1)) {
fprintf(stderr, "Unknown string name in line %lu\n"
, linenr);
return 43;
}
}
}
}
if(ferror(fin)) {
pxerror("reading ", fnam);
return 34;
}
fclose(fin);
return 0;
}
