/* >>>>>>>>>> EX13_1 <<<<<<<<<< */
void ex13_1 (void)
{ setpag ("da4l");
disini ();
pagera ();
hwfont ();
frame (3);
axspos (400, 1850);
axslen (2400, 1400);
name ("Longitude", "x");
name ("Latitude", "y");
titlin ("World Coastlines and Lakes", 3);
labels ("map", "xy");
grafmp (-180.f, 180.f, -180.f, 90.f, -90.f, 90.f, -90.f, 30.f);
gridmp (1, 1);
color ("green");
world ();
color ("fore");
height (50);
title ();
disfin ();
}
/* >>>>>>>>>> EXA_9 <<<<<<<<<< */
void exa_9 (void)
{ int nl, nx, ny, i;
static int ivec[20] = { 0,1111,1311,1421,1531,1701,1911,3111,3311,3421,
3531,3703,4221,4302,4413,4522,4701,5312,5502,5703};
static char *ctit = "Vectors", cnum[5];
disini ();
color ("cyan");
pagera ();
hwfont ();
height (60);
nl = nlmess (ctit);
nx = (2970 - nl) / 2;
messag (ctit, nx, 200);
height (50);
nx = 300;
ny = 400;
for (i = 0; i < 20; i++)
{ if (i == 10)
{ nx += 2970 / 2;
ny = 400;
}
sprintf (cnum, "%d", ivec[i]);
nl = nlmess (cnum);
messag (cnum, nx - nl, ny - 25);
vector (nx + 100, ny, nx + 1000, ny, ivec[i]);
ny += 160;
}
disfin ();
}
/* >>>>>>>>>> EX13_2 <<<<<<<<<< */
void ex13_2 (void)
{ int nya, i;
static char *cproj[3] = {"Sanson", "Winkel", "Hammer"};
char ctit[61];
setpag ("da4p");
disini ();
hwfont ();
pagera ();
height (40);
axslen (1600, 750);
nya = 3850;
for (i = 0; i < 3; i++)
{ nya = nya - 950;
axspos (250, nya);
projct (cproj[i]);
noclip ();
grafmp (-180.f, 180.f, -180.f, 30.f, -90.f, 90.f, -90.f, 15.f);
sprintf (ctit, "%s%s", "Elliptical Projection of ", cproj[i]);
titlin (ctit, 4);
title ();
color ("green");
world ();
color ("fore");
gridmp (1, 1);
endgrf ();
}
disfin ();
}
/* >>>>>>>>>> EX13_3 <<<<<<<<<< */
void ex13_3 (void)
{ int nl, nx, i;
static int nxa[4] = {200, 1150, 200, 1150},
nya[4] = {1600, 1600, 2700, 2700};
static float xpol[4] = {0.f, 0.f, 0.f, 0.f},
ypol[4] = {0.f, 45.f, 90.f, -45.f};
static char *ctit = "Azimuthal Lambert Projections";
setpag ("da4p");
disini ();
hwfont ();
pagera ();
height (50);
nl = nlmess (ctit);
nx = (2250 - nl) / 2;
messag (ctit, nx, 300);
axslen (900, 900);
projct ("lambert");
for(i = 0; i < 4; i++)
{ axspos (nxa[i], nya[i]);
mappol (xpol[i], ypol[i]);
grafmp (-180.f, 180.f, -180.f, 30.f, -90.f, 90.f, -90.f, 30.f);
color ("green");
world ();
color ("fore");
gridmp (1, 1);
endgrf ();
}
disfin ();
}
/* >>>>>>>>>> EXA12_2 <<<<<<<<<< */
void exa12_2 (void)
{ float p = 3.14159f, step;
setpag ("da4p");
disini ();
pagera ();
hwfont ();
axspos (200, 2400);
axslen (1800, 1800);
intax ();
titlin ("Surface Plot of the Parametric Function", 2);
titlin ("[COS(t)+(3+COS(u)), SIN(t)*(3+COS(u)), SIN(u)]", 4);
name ("X-axis", "x");
name ("Y-axis", "y");
name ("Z-axis", "z");
vkytit (-300);
zscale (-1.f, 1.f);
graf3d (-4.f, 4.f, -4.f, 1.f, -4.f, 4.f, -4.f, 1.f,
-3.f, 3.f, -3.f, 1.f);
height (40);
title ();
surmsh ("on");
step = (float) (2 * 3.14159 / 30.);
surfcp (zfun, 0.f, 2 * p, step, 0.f, 2 * p, step);
disfin ();
}
/* >>>>>>>>>> EXA_13 <<<<<<<<<< */
void exa_13()
{ int n = 7, i;
static char
*clr[7] = {"fore", "red", "yello", "cyan", "oran", "green", "blue"},
*cont[7] = {"anta", "afri", "sout" , "aust", "nort", "eura", "lake"};
disini ();
hwfont ();
setvlt ("small");
pagera ();
projct ("hammer");
noclip ();
grafmp (-180.f, 180.f, -180.f, 30.f, -90.f, 90.f, -90.f, 30.f);
shdpat (16L);
for (i = 0; i < n; i++)
{ color (clr[i]);
shdmap (cont[i]);
sendbf ();
}
color ("fore");
gridmp (1, 1);
disfin ();
}
/* >>>>>>>>>> EXA_10 <<<<<<<<<< */
void exa_10 (void)
{ int i;
char cbuf[40], cstr[4];
for (i = 0; i < 18; i++)
xray[i] = 1.f;
setpag ("da4p");
disini ();
setvlt ("small");
pagera ();
hwfont ();
axspos (250, 2700);
axslen (1600, 2200);
titlin ("Shading Patterns (PIEGRF)", 3);
height (50);
legini (cbuf, 18, 2);
for (i = 0; i < 18; i++)
{ sprintf (cstr, "%d", i);
leglin (cbuf, cstr, i + 1);
}
chnpie ("both");
labels ("none", "pie");
piegrf (cbuf, 1, xray, 18);
title ();
disfin ();
}
/* >>>>>>>>>> EXA_6 <<<<<<<<<< */
void exa_6 (void)
{ int i, ny, nx;
static float x[2] = {3.f, 9.f}, y[2];
static char *ctyp[8] = {"SOLID", "DOT", "DASH", "CHNDSH",
"CHNDOT", "DASHM", "DOTL", "DASHL"};
setpag ("da4p");
disini ();
setvlt ("small");
pagera ();
center ();
chncrv ("both");
hwfont ();
name ("X-axis", "x");
name ("Y-axis", "y");
titlin ("Demonstration of Curve", 1);
titlin ("Line Styles", 3);
graf (0.f, 10.f, 0.f, 2.f, 0.f, 10.f, 0.f, 2.f);
title ();
for (i = 1; i <= 8; i++)
{ y[0] = 9.5f - i;
y[1] = 9.5f - i;
ny = nyposn (y[0]);
nx = nxposn (1.0f);
messag (ctyp[i-1], nx, ny - 20);
curve (x, y, 2);
}
disfin ();
}
/* >>>>>>>>>> EXA12_1 <<<<<<<<<< */
void exa12_1 (void)
{ int n = 50 ,i, j;
static int ixp[4] = {200, 1999, 1999, 200},
iyp[4] = {2600, 2600, 801, 801};
double fpi = 3.1415927 / 180., step, x, y;
step = 360. / (n - 1);
for (i = 0; i < n; i++)
{ x = i * step;
for (j = 0; j < n; j++)
{ y = j * step;
zmat[i][j] = (float) (2 * sin (x * fpi) * sin (y * fpi));
}
}
setpag ("da4p");
disini ();
pagera ();
hwfont ();
axspos (200, 2600);
axslen (1800, 1800);
name ("X-axis", "x");
name ("Y-axis", "y");
name ("Z-axis", "z");
titlin ("Surface Plot (SURMAT)", 2);
titlin ("F(X,Y) = 2*SIN(X)*SIN(Y)", 4);
graf3d (0.f, 360.f, 0.f, 90.f, 0.f, 360.f, 0.f, 90.f,
-3.f, 3.f, -3.f, 1.f);
height (50);
title ();
shlsur ();
color ("green");
surmat ((float *) zmat, n, n, 1, 1);
color ("fore");
grfini (-1.f, -1.f, -1.f, 1.f, -1.f, -1.f, 1.f, 1.f, -1.f);
nograf ();
graf (0.f, 360.f, 0.f, 90.f, 0.f, 360.f, 0.f, 90.f);
dashl ();
grid (1,1);
grffin ();
grfini (-1.f, -1.f, -1.f, -1.f, 1.f, -1.f, -1.f, 1.f, 1.f);
graf (0.f, 360.f, 0.f, 90.f, -3.f, 3.f, -3.f, 1.f);
grid (1, 1);
grffin ();
grfini (-1.f, 1.f, -1.f, 1.f, 1.f, -1.f, 1.f, 1.f, 1.f);
shdpat (7L);
solid ();
areaf (ixp, iyp, 4);
grffin ();
disfin ();
}
/* >>>>>>>>>> EX6_1 <<<<<<<<<< */
void ex6_1 (void)
{ int ny = 1100, nl;
static char *ctit = "Instruction Alphabet",
*ct1 =
"{m2}C{m4}(x) = {m3p}v{m4}e{e}-t{r}t{e}x-1{r}dt{gdh0.4f-1}0{u1.4m3f3}l",
*ct2 =
"lim{gdhc}x{m3cd1.1}a{c}l{rm} (1 + {puh} 1 {rvgd0.5h} x {r}){u1.2h}x{r} = e",
*ct0 =
"Character{h0.5} height{rz-30} incli{z30}nation {zw0.5} ratio {wk} fixed width",
*ct3 = "Underscoring{l} {p}twice{j} vectors {pa8v}";
setpag ("da4l");
disini ();
pagera ();
hwfont ();
color ("cyan");
height (50);
nl = nlmess (ctit);
messag (ctit, (2970 - nl) / 2, 250);
height (36);
messag ("1.)", 300, 450);
messag (ct0, 500, 450);
height (50);
smxalf ("inst", "{", "}", 1);
messag (ct0, 500, 550);
reset ("smxa");
height (36);
messag ("2.)", 300, 750);
messag (ct3, 500, 750);
height (50);
smxalf ("inst", "{", "}", 1);
messag (ct3, 500, 850);
reset ("smxalf");
height (36);
messag ("3.)", 300, ny);
messag (ct1, 500, ny);
smxalf ("inst", "{", "}", 1);
height (80);
messag (ct1, 900, ny + 150);
height (36);
reset ("smxa");
messag ("4.)", 300, ny + 450);
messag (ct2, 500, ny + 450);
height (80);
smxalf ("inst", "{", "}", 1);
messag (ct2, 900, ny + 600);
disfin ();
}
/* >>>>>>>>>> EX14_1 <<<<<<<<<< */
void ex14_1 (void)
{ int n = 50, i, j;
double fpi = 3.14159 / 180., step, x, y;
float zlev;
step = 360. / (n - 1);
for (i = 0; i < n; i++)
{ xray[i] = (float) (i * step);
yray[i] = (float) (i * step);
}
for (i = 0; i < n; i++)
{ for (j = 0; j < n; j++)
{ x = xray[i] * fpi;
y = yray[j] * fpi;
zmat[i][j] = (float) (2 * sin (x) * sin (y));
}
}
setpag ("da4p");
disini ();
complx ();
pagera ();
titlin ("Contour Plot", 1);
titlin ("F(X,Y) = 2 * SIN(X) * SIN(Y)", 3);
name ("X-axis", "x");
name ("Y-axis", "y");
intax ();
axspos (450, 2670);
graf (0.f, 360.f, 0.f, 90.f, 0.f, 360.f, 0.f, 90.f);
height (30);
for (i = 0; i < 9; i++)
{ zlev = (float) (-2. + i * 0.5);
setclr ((i + 1) * 25);
if (i == 4)
labels ("none", "contur");
else
labels ("float", "contur");
contur (xray, n, yray, n, (float *) zmat, zlev);
}
height (50);
color ("fore");
title ();
disfin ();
}
int main ()
{ int n = 100, i, ic;
double fpi = 3.1415926 / 180.0, step, x;
float xray[100], y1ray[100], y2ray[100];
step = 360. / (n - 1);
for (i = 0; i < n; i++)
{ xray[i] = (float) (i * step);
x = xray[i] * fpi;
y1ray[i] = (float) sin (x);
y2ray[i] = (float) cos (x);
}
metafl ("cons");
scrmod ("revers");
disini ();
pagera ();
complx ();
axspos (450, 1800);
axslen (2200, 1200);
name ("X-axis", "x");
name ("Y-axis", "y");
labdig (-1, "x");
ticks (9, "x");
ticks (10, "y");
titlin ("Demonstration of CURVE", 1);
titlin ("SIN(X), COS(X)", 3);
ic = intrgb (0.95,0.95,0.95);
axsbgd (ic);
graf (0.0, 360.0, 0.0, 90.0, -1.0, 1.0, -1.0, 0.5);
setrgb (0.7, 0.7, 0.7);
grid (1, 1);
color ("fore");
height (50);
title ();
color ("red");
curve (xray, y1ray, n);
color ("green");
curve (xray, y2ray, n);
disfin ();
return 0;
}
/* >>>>>>>>>> EXA_7 <<<<<<<<<< */
void exa_7 (void)
{ int n = 100, i, nx, ny;
double fpi = 3.1415926/180., step, x;
char cbuf[20];
step = 360. / (n - 1);
for (i = 0; i < n; i++)
{ xray[i] = (float) (i * step);
x=xray[i] * fpi;
y1ray[i] = (float) sin (x);
y2ray[i] = (float) cos (x);
}
disini ();
hwfont ();
pagera ();
axspos (450, 1800);
axslen (2200, 1200);
name ("X-axis", "x");
name ("Y-axis", "y");
labdig (-1, "x");
ticks (10, "xy");
titlin ("Demonstration of Curve", 1);
titlin ("Legend", 3);
graf (0.f, 360.f, 0.f, 90.f, -1.f, 1.f, -1.f, 0.5f);
title ();
xaxgit ();
chncrv ("both");
curve (xray, y1ray, n);
curve (xray, y2ray, n);
legini (cbuf, 2, 7);
nx = nxposn (190.f);
ny = nyposn (0.75f);
legpos (nx, ny);
leglin (cbuf, "sin (x)", 1);
leglin (cbuf, "cos (x)", 2);
legtit ("Legend");
legend (cbuf, 3);
disfin ();
}
/* >>>>>>>>>> EXA_2 <<<<<<<<<< */
void exa_2 (void)
{ int n = 300, m = 10, i;
double f = 3.1415926 / 180., step, a;
float x2[10], y2[10];
step = 360. / (n - 1);
for (i = 0; i < n; i++)
{ a = i * step * f;
yray[i] = (float) a;
xray[i] = (float) sin (5 * a);
}
for (i = 0; i < m; i++)
{ x2[i] = i + 1;
y2[i] = i + 1;
}
setpag ("da4p");
disini ();
pagera ();
hwfont ();
axspos (450,1800);
titlin ("Polar Plots", 2);
ticks (3, "Y");
axends ("NOENDS", "X");
labdig (-1, "Y");
axslen (1000, 1000);
axsorg (1050, 900);
grafp (1.f ,0.f, 0.2f, 0.f, 30.f);
curve (xray, yray, n);
htitle (50);
title ();
endgrf ();
labdig (-1, "X");
axsorg (1050, 2250);
labtyp ("VERT", "Y");
grafp (10.f, 0.f, 2.f, 0.f, 30.f);
barwth (-5.f);
polcrv ("FBARS");
curve (x2, y2, m);
disfin ();
}
/* >>>>>>>>>> EXA_12 <<<<<<<<<< */
void exa_12 (void)
{ int i, nxp, nyp;
float xp, yp;
static float xc[9] = {-22.f,18.f,37.5f,0.f,2.5f,12.5f,23.5f,-3.75f,14.25f},
yc[9] = {64.f,59.6f,56.f,51.5f,48.5f,42.f,38.f,40.3f,50.1f};
static char *cstr[9] = {"REYKJAVIK", "STOCKHOLM", "MOSKAU", "LONDON",
"PARIS", "ROM", "ATHEN", "MADRID", "PRAG"};
disini ();
pagera ();
hwfont ();
axspos (500, 1850);
axslen (2200, 1400);
labdig (-1, "xy");
ticks (1, "xy");
name ("Longitude", "x");
name ("Latitude", "y");
titlin ("Map Plot", 3);
incmrk (-1);
labels ("map", "xy");
projct ("lambert");
frame (3);
grafmp (-40.f, 60.f, -40.f, 20.f, 35.f, 70.f, 40.f, 10.f);
color ("green");
world ();
color ("fore");
curvmp (xc, yc, 9);
for (i = 0; i < 9; i++)
{ pos2pt (xc[i], yc[i], &xp, &yp);
nxp = (int) (xp + 30);
nyp = (int) yp;
messag (cstr[i], nxp, nyp);
}
gridmp (1, 1);
height (50);
title ();
disfin ();
}
/* >>>>>>>>>> EXA_4 <<<<<<<<<< */
void exa_4 (void)
{ int nya, i;
static char ctit[] = "Logarithmic Scaling", cstr[60],
*clab[3] = {"LOG", "FLOAT", "ELOG"};
setpag ("da4p");
disini ();
pagera ();
hwfont ();
axslen (1400, 500);
name ("X-axis", "x");
name ("Y-axis", "y");
axsscl ("log", "xy");
titlin (ctit, 2);
for (i = 1; i <= 3; i++)
{ nya = 2650 - (i - 1) * 800;
labdig (-1, "xy");
if (i == 2)
{ labdig (1, "y");
name (" ", "x");
}
axspos (500, nya);
color ("yellow");
strcpy (cstr, "Labels: ");
strcat (cstr, clab[i-1]);
messag (cstr,600,nya-400);
color ("fore");
labels (clab[i-1],"xy");
graf (0.f, 3.f, 0.f, 1.f, -1.f, 2.f, -1.f, 1.f);
if (i == 3)
{ height (50);
title ();
}
endgrf ();
}
disfin ();
}
/* >>>>>>>>>> EXA_5 <<<<<<<<<< */
void exa_5 (void)
{ int nya = 2700, i, nx, ny;
static float
x[] = { 0.0f, 1.0f, 3.0f, 4.5f, 6.0f, 8.0f, 9.0f, 11.0f, 12.0f,
12.5f, 13.0f, 15.0f, 16.0f, 17.0f, 19.0f, 20.0f},
y[] = { 2.0f, 4.0f, 4.5f, 3.0f, 1.0f, 7.0f, 2.0f, 3.0f, 5.0f,
2.0f, 2.5f, 2.0f, 4.0f, 6.0f, 5.5f, 4.0f};
static char
*cpol[6] = {"SPLINE", "STEM", "BARS", "STAIRS", "STEP", "LINEAR"},
*ctit = "Interpolation Methods";
setpag ("da4p");
disini ();
hwfont ();
pagera ();
incmrk (1);
hsymbl (25);
titlin (ctit, 1);
axslen (1500, 350);
setgrf ("line", "line", "line", "line");
for (i = 0; i < 6; i++)
{ axspos (350, nya - i * 350);
polcrv (cpol[i]);
marker (0);
graf (0.f, 20.f, 0.f, 5.f, 0.f, 10.f, 0.f, 5.f);
nx = nxposn (1.f);
ny = nyposn (8.f);
color ("yellow");
messag (cpol[i], nx, ny);
curve (x, y, 16);
color ("fore");
if (i == 5)
{ height (50);
title ();
}
endgrf ();
}
disfin ();
}
/* >>>>>>>>>> EX10_2 <<<<<<<<<< */
void ex10_2 (void)
{ int nya = 2800, i;
static char *ctit = "Pie Charts (PIEGRF)", cbuf[41];
static float xdray[5] = {1.f, 2.5f, 2.f, 2.7f, 1.8f};
setpag ("da4p");
disini ();
pagera ();
hwfont ();
axslen (1600, 1000);
titlin (ctit, 2);
chnpie ("both");
legini (cbuf, 5, 8);
leglin (cbuf, "FIRST", 1);
leglin (cbuf, "SECOND", 2);
leglin (cbuf, "THIRD", 3);
leglin (cbuf, "FOURTH", 4);
leglin (cbuf, "FIFTH", 5);
patcyc (1, 7L);
patcyc (2, 4L);
patcyc (3, 13L);
patcyc (4, 3L);
patcyc (5, 5L);
for (i = 0; i < 2; i++)
{ axspos (250,nya - i * 1200);
if (i == 1)
{ labels ("data", "pie");
labpos ("external", "pie");
}
piegrf (cbuf, 1, xdray, 5);
if (i == 1)
{ height (50);
title ();
}
endgrf ();
}
disfin ();
}
/* >>>>>>>>>> EXA_14 <<<<<<<<<< */
void exa_14 (void)
{ int ncol = 0, ny, i, j, nx, nb = 100, nh = 80, nl, ip, id_lis, ilis;
float xcol;
char *cvlt;
static char clis[] =
{"SMALL|RAINBOW|SPECTRUM|TEMPERATURE|GREY|RRAIN|RGREY|VGA"};
swgpop ("NOQUIT");
swgpop ("NOHELP");
ip = wgini ("vert");
ilis = 2;
wglab (ip, "Colour Table:");
id_lis = wglis (ip, clis, ilis);
wgok (ip);
wgfin ();
ilis = gwglis (id_lis);
cvlt = itmstr (clis, ilis);
disini ();
setvlt (cvlt);
pagera ();
height (30);
for (i = 1; i <= 13; i++)
{ ny = i * 150;
nx = -50;
for (j = 1; j <= 20; j++)
{ nx += 145;
if (ncol <= 255)
{ point (nx, ny, nb, nh, ncol);
xcol = (float) ncol;
nl = nlnumb (xcol, -1);
color ("fore");
number (xcol, -1, nx - nl / 2, ny + 50);
ncol++;
}
}
}
disfin ();
}
/* >>>>>>>>>> EXA_8 <<<<<<<<<< */
void exa_8 (void)
{ int ixp[4], iyp[4], nl, nx, nx0 = 335, ny0 = 350, ny, i, j, ii, k, iclr;
static int ix[4] = {0, 300, 300, 0},
iy[4] = {0, 0, 400, 400};
static char *ctit = "Shading Patterns (AREAF)", cstr[3];
disini ();
setvlt ("small");
pagera ();
hwfont ();
height (50);
nl = nlmess (ctit);
nx = (2970 - nl) / 2;
messag (ctit, nx, 200);
iclr = 0;
for (i = 0; i < 3; i++)
{ ny = ny0 + i * 600;
for (j = 0; j < 6; j++)
{ nx = nx0 + j * 400;
ii = i * 6 + j;
shdpat ((long) ii);
sprintf (cstr, "%d", ii);
iclr = iclr % 8;
iclr++;
setclr (iclr);
for (k = 0; k < 4; k++)
{ ixp[k] = ix[k] + nx;
iyp[k] = iy[k] + ny;
}
areaf (ixp, iyp, 4);
nl = nlmess (cstr);
nx += (300 - nl) / 2;
messag (cstr, nx, ny + 460);
}
}
disfin ();
}
/* >>>>>>>>>> EX11_1 <<<<<<<<<< */
void ex11_1 (void)
{ int n = 50, i, j;
double fpi = 3.1415927 / 180., step, x, y;
char *cdev;
step = 360. / (n - 1);
for (i = 0; i < n; i++)
{ x = i * step;
for (j = 0; j < n; j++)
{ y = j * step;
zmat[i][j] = (float) (2 * sin (x * fpi) * sin (y * fpi));
}
}
disini ();
pagera ();
cdev = getmfl ();
hwfont ();
titlin ("3-D Colour Plot of the Function", 2);
titlin ("F(X,Y) = 2 * SIN(X) * SIN(Y)", 4);
name ("X-axis", "x");
name ("Y-axis", "y");
name ("Z-axis", "z");
intax ();
autres (n, n);
axspos (300, 1850);
ax3len (2200, 1400, 1400);
graf3 (0.f, 360.f, 0.f, 90.f, 0.f, 360.f, 0.f, 90.f,
-2.f, 2.f, -2.f, 1.f);
crvmat((float *) zmat, n, n, 1, 1);
height (50);
if (strcmp (cdev, "POST") == 0)
psfont ("palatino-bolditalic");
title ();
disfin ();
}
/* >>>>>>>>>> EXA_1 <<<<<<<<<< */
void exa_1 (void)
{ int n = 100, i;
double fpi = 3.1415926 / 180., step, x;
step = 360. / (n-1);
for (i = 0; i < n; i++)
{ xray[i] = (float) (i * step);
x = xray[i] * fpi;
y1ray[i] = (float) sin (x);
y2ray[i] = (float) cos (x);
}
disini ();
pagera ();
hwfont ();
axspos (450, 1800);
axslen (2200, 1200);
name ("X-axis", "x");
name ("Y-axis", "y");
labdig (-1, "x");
ticks (10, "xy");
titlin ("Demonstration of CURVE", 1);
titlin ("SIN(X), COS(X)", 3);
graf (0.f, 360.f, 0.f, 90.f, -1.f, 1.f, -1.f, 0.5f);
title ();
color ("red");
curve (xray, y1ray, n);
color ("green");
curve (xray, y2ray, n);
color ("fore");
dash ();
xaxgit ();
disfin ();
}
/* >>>>>>>>>> EX14_2 <<<<<<<<<< */
void ex14_2 (void)
{ int n = 50, i, j;
float zlev[12];
double step, x, y;
step = 1.6 / (n - 1);
for (i = 0; i < n; i++)
{ x = 0.0 + i * step;
xray[i] = (float) x;
for (j = 0; j < n; j++)
{ y = 0.0 + j * step;
yray[j] = (float) y;
zmat[i][j] = (float) ((x * x - 1.) * (x * x - 1.) +
(y * y - 1.) * (y * y - 1.));
}
}
setpag ("da4p");
disini ();
pagera ();
hwfont ();
mixalf ();
titlin ("Shaded Contour Plot", 1);
titlin ("F(X,Y) = (X[2$ - 1)[2$ + (Y[2$ - 1)[2$", 3);
name ("X-axis", "x");
name ("Y-axis", "y");
shdmod ("poly", "contur");
axspos (450, 2670);
graf (0.0f, 1.6f, 0.0f, 0.2f, 0.0f, 1.6f, 0.0f, 0.2f);
for (i = 1; i <= 12; i++)
zlev[12-i] = (float) (0.1 + (i - 1) * 0.1);
conshd (xray, n, yray, n, (float *) zmat, zlev, 12);
height (50);
title ();
disfin ();
}
/* >>>>>>>>>> EX10_3 <<<<<<<<<< */
void ex10_3 (void)
{ char cbuf[80];
float x[5] = {2., 4., 6., 8., 10.},
y1[5] = {0., 0., 0., 0., 0.},
y2[5] = {3.2, 1.5, 2.0, 1.0, 3.0};
int ic1ray[5] = {50, 150, 100, 200, 175},
ic2ray[5] = {50, 150, 100, 200, 175};
setpag ("da4p");
disini ();
pagera ();
hwfont ();
titlin ("3-D Bar Graph / 3-D Pie Chart", 2);
htitle (40);
shdpat (16L);
axslen (1500, 1000);
axspos (300, 1400);
barwth (0.5);
bartyp ("3dvert");
labels ("second", "bars");
labpos ("outside", "bars");
graf (0., 12., 0., 2., 0., 5., 0., 1.);
title ();
color ("red");
bars (x, y1, y2, 5);
endgrf ();
shdpat (16L);
labels ("data", "pie");
chnpie ("none");
pieclr (ic1ray, ic2ray, 5);
pietyp ("3d");
axspos (300, 2700);
piegrf (cbuf, 0, y2, 5);
disfin ();
}
/* >>>>>>>>>> EX13_4 <<<<<<<<<< */
void ex13_4 (void)
{ int n = 32, inray[32], icray[32], i;
long ipray[32];
for (i = 0; i < 32; i++)
{ inray[i] = i + 1;
ipray[i] = 0;
icray[i] = 1;
}
setpag ("da4p");
disini ();
setvlt ("small");
pagera ();
hwfont ();
intax ();
ticks (1, "xy");
frame (3);
axslen (1600, 2200);
axspos (400, 2700);
name ("Longitude", "x");
name ("Latitude", "y");
titlin ("Conformal Conic Projection", 3);
labels ("map", "xy");
projct ("conf");
grafmp (-10.f, 30.f, -10.f, 5.f, 35.f, 70.f, 35.f, 5.f);
gridmp (1, 1);
shdeur (inray, ipray, icray, n);
height (50);
title ();
disfin ();
}
/* >>>>>>>>>> EXA_11 <<<<<<<<<< */
void exa_11 (void)
{ int n = 50 ,i, j;
double fpi=3.1415927 / 180., step, x, y;
step = 360. / (n - 1);
for (i = 0; i < n; i++)
{ x = i * step;
for (j = 0; j < n; j++)
{ y = j * step;
zmat[i][j] = (float) (2 * sin (x * fpi) * sin (y * fpi));
}
}
setpag ("da4p");
disini ();
pagera ();
hwfont ();
axspos (200, 2600);
axslen (1800, 1800);
name ("X-axis", "x");
name ("Y-axis", "y");
name ("Z-axis", "z");
titlin ("Surface Plot (SURMAT)", 2);
titlin ("F(X,Y) = 2*SIN(X)*SIN(Y)", 4);
view3d (-5.f, -5.f, 4.f, "abs");
graf3d (0.f, 360.f, 0.f, 90.f, 0.f, 360.f, 0.f, 90.f,
-3.f, 3.f, -3.f, 1.f);
height (50);
title ();
color ("green");
surmat ((float *) zmat, 50, 50, 1, 1);
disfin ();
}
/* >>>>>>>>>> EXA_3 <<<<<<<<<< */
void exa_3 (void)
{ int nl, ny, i, nxp = 0;
static char ctit[] = "Symbols", cstr[3];
setpag ("da4p");
disini ();
pagera ();
color ("yellow");
hwfont ();
height (60);
nl = nlmess (ctit);
messag (ctit, (2100 - nl) / 2, 200);
height (50);
hsymbl (120);
ny = 150;
for (i = 0; i < 24; i++)
{ if ((i % 4) == 0)
{ ny += 400;
nxp = 550;
}
else
{ nxp += 350;
}
sprintf (cstr, "%d", i);
nl = nlmess (cstr) / 2;
messag (cstr, nxp - nl, ny + 150);
symbol (i, nxp, ny);
}
disfin ();
}
int main ( int argc, char *argv[] )
/******************************************************************************/
/*
Purpose:
CIRCLE_INOUT uses DISLIN to draw points in and out of a circle.
Licensing:
This code is distributed under the GNU LGPL license.
Modified:
01 May 2011
Author:
John Burkardt
Reference:
Helmut Michels,
The Data Plotting Software DISLIN - version 10.4,
Shaker Media GmbH, January 2010,
ISBN13: 978-3-86858-517-9.
*/
{
int i;
int j;
int m;
int n_circle = 100;
int n_in;
int n_out;
int pat;
float pi = 3.14159265;
float r;
float s;
float t;
float *x;
float *xy_in;
float *xy_out;
float *y;
printf ( "\n" );
printf ( "CIRCLE_INOUT:\n" );
printf ( " C version\n" );
printf ( " Use DISLIN routines to make a scatterplot.\n" );
/*
Read the data.
*/
r4mat_header_read ( "circle_in.txt", &m, &n_in );
xy_in = r4mat_data_read ( "circle_in.txt", m, n_in );
r4mat_header_read ( "circle_out.txt", &m, &n_out );
xy_out = r4mat_data_read ( "circle_out.txt", m, n_out );
/*
Specify the format of the output file.
*/
metafl ( "png" );
/*
Indicate that new data overwrites old data.
*/
filmod ( "delete" );
/*
Specify the name of the output graphics file.
*/
setfil ( "circle_inout.png" );
/*
Choose the page size and orientation.
'USA' is 2160 plot units wide and 2790 plot units high.
'P' requests PROFILE rather than LANDSCAPE orientation.
*/
setpag ( "usap" );
/*
For PNG output, use reverse the default black background to white.
*/
scrmod ( "reverse" );
/*
Open DISLIN.
*/
disini ( );
/*
Plot a border around the page.
*/
pagera ( );
/*
Use the COMPLEX font.
*/
complx ( );
/*
Set the axis origin 230 plot units to the right, and 2560 plot units DOWN.
*/
axspos ( 230, 2560 );
/*
Define the X and Y sizes of the axis system in plot units.
*/
axslen ( 1700, 1700 );
/*
Label the X and Y axes.
*/
name ( "<--- X --->", "X" );
name ( "<--- Y --->", "Y" );
/*
Relate the physical coordinates to the axes.
*/
graf ( 0.0, 1.0, 0.0, 0.1, 0.0, 1.0, 0.0, 0.1 );
/*
Define axis system titles.
*/
titlin ( "Random points inside/outside the unit circle", 1 );
/*
Draw the title.
*/
title ( );
/*
Add a grid, with one grid line for every tick mark in the X and Y axes.
*/
grid ( 1, 1 );
/*
Select the shading pattern.
*/
pat = 16;
shdpat ( pat );
/*
Set the color to blue.
*/
color ( "blue" );
/*
At every data point, draw a circle of radius 0.01.
*/
for ( i = 0; i < n_in; i++ )
{
rlcirc ( xy_in[0+i*2], xy_in[1+i*2], 0.01 );
}
/*
Set the color to red.
*/
color ( "red" );
/*
At every data point, draw a circle of radius 0.01.
*/
for ( i = 0; i < n_out; i++ )
{
rlcirc ( xy_out[0+i*2], xy_out[1+i*2], 0.01 );
}
/*
Draw a red circle.
*/
x = ( float * ) malloc ( n_circle * sizeof ( float ) );
y = ( float * ) malloc ( n_circle * sizeof ( float ) );
for ( i = 0; i < n_circle; i++ )
{
t = pi * ( float ) ( i ) / ( float ) ( n_circle - 1 );
x[i] = cos ( t );
y[i] = sin ( t );
}
thkcrv ( 10 );
curve ( x, y, n_circle );
/*
End this plot.
*/
endgrf ( );
/*
Free memory.
*/
free ( x );
free ( xy_in );
free ( xy_out );
free ( y );
/*
Close DISLIN.
*/
disfin ( );
/*
Terminate.
*/
printf ( "\n" );
printf ( "CIRCLE_INOUT:\n" );
printf ( " Normal end of execution.\n" );
return 0;
}
int main ( int argc, char *argv[] )
/******************************************************************************/
/*
Purpose:
MAIN demonstrates the use of bar graphs.
Modified:
09 April 2011
Reference:
Helmut Michels,
The Data Plotting Software DISLIN - version 10.4,
Shaker Media GmbH, January 2010,
ISBN13: 978-3-86858-517-9.
*/
{
static char cbuf[25];
static char *ctit = "Bar Graphs (BARS)";
int i;
int nya = 2700;
static float x[9] = { 1.0, 2.0, 3.0, 4.0, 5.0, 6.0, 7.0, 8.0, 9.0 };
static float y[9] = { 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0 };
static float y1[9] = { 1.0, 1.5, 2.5, 1.3, 2.0, 1.2, 0.7, 1.4, 1.1 };
static float y2[9] = { 2.0, 2.7, 3.5, 2.1, 3.2, 1.9, 2.0, 2.3, 1.8 };
static float y3[9] = { 4.0, 3.5, 4.5, 3.7, 4.0, 2.9, 3.0, 3.2, 2.6 };
printf ( "\n" );
printf ( "DISLIN_EX05:\n" );
printf ( " C version:\n" );
printf ( " Demonstrate the display of data in bar graphs.\n" );
/*
Specify the format of the output file.
*/
metafl ( "png" );
/*
Specify that if a file already exists of the given name,
the new data should overwrite the old.
*/
filmod ( "delete" );
/*
Specify the name of the output graphics file.
*/
setfil ( "dislin_ex05.png" );
/*
Choose the page size and orientation.
*/
setpag ( "usap" );
/*
For PNG output, reverse the default black background to white.
*/
scrmod ( "reverse" );
/*
Open DISLIN.
*/
disini ( );
/*
Plot a border around the page.
*/
pagera ( );
/*
Use the COMPLEX font.
*/
complx ( );
ticks ( 1, "x" );
intax ( );
axslen ( 1600, 700 );
titlin ( ctit, 3 );
legini ( cbuf, 3, 8 );
leglin ( cbuf, "FIRST", 1 );
leglin ( cbuf, "SECOND", 2 );
leglin ( cbuf, "THIRD", 3 );
legtit ( " " );
shdpat ( 5L );
for ( i = 1; i <= 3; i++ )
{
if ( 1 < i )
{
labels ( "none", "x" );
}
axspos ( 300, nya-(i-1)*800 );
graf ( 0.0, 10.0, 0.0, 1.0, 0.0, 5.0, 0.0, 1.0 );
if ( i == 1 )
{
bargrp ( 3, 0.15 );
color ( "red" );
bars ( x, y, y1, 9 );
color ( "green" );
bars ( x, y, y2, 9 );
color ( "blue" );
bars ( x, y, y3, 9 );
color ( "fore" );
reset ( "bargrp" );
}
else if ( i == 2 )
{
height ( 30 );
labels ( "delta", "bars" );
labpos ( "center", "bars" );
color ( "red" );
bars ( x, y, y1, 9 );
color ( "green" );
bars ( x, y1, y2, 9 );
color ( "blue" );
bars ( x, y2, y3, 9 );
color ( "fore" );
reset ( "height" );
}
else if ( i == 3 )
{
labels ( "second", "bars" );
labpos ( "outside", "bars" );
color ( "red" );
bars ( x, y, y1, 9 );
color ( "fore" );
}
if ( i < 3 )
{
legend ( cbuf, 7 );
}
else
{
height ( 50 );
title ( );
}
endgrf ( );
}
/*
Close DISLIN.
*/
disfin ( );
/*
Terminate.
*/
printf ( "\n" );
printf ( "DISLIN_EX05:\n" );
printf ( " Normal end of execution.\n" );
return 0;
}
int main ( int argc, char *argv[] )
/******************************************************************************/
/*
Purpose:
ORBITAL uses DISLIN to display a contour plot of Z(X,Y) data.
Licensing:
This code is distributed under the GNU LGPL license.
Modified:
20 May 2011
Author:
John Burkardt
Reference:
Helmut Michels,
The Data Plotting Software DISLIN - version 10.4,
Shaker Media GmbH, January 2010,
ISBN13: 978-3-86858-517-9.
*/
{
int i;
int j;
int k;
int level;
int level_num;
float level_value;
int m;
int n;
int nn;
float *x;
float xmax;
float xmin;
float *xyz;
float *y;
float ymax;
float ymin;
float *z;
float zmax;
float zmin;
printf ( "\n" );
printf ( "ORBITAL:\n" );
printf ( " C version:\n" );
printf ( " Use DISLIN to make a contour plot of Z(X,Y) data.\n" );
/*
Read the data.
*/
r4mat_header_read ( "orbital.txt", &m, &nn );
xyz = r4mat_data_read ( "orbital.txt", m, nn );
/*
Split the data.
The contouring routine expects that data is along fixed X and Y coordinates,
and so the X and Y data is to be given as vectors, not arrays.
*/
n = 101;
x = ( float * ) malloc ( n * sizeof ( float ) );
y = ( float * ) malloc ( n * sizeof ( float ) );
z = ( float * ) malloc ( n * n * sizeof ( float ) );
k = 0;
for ( i = 0; i < n; i++ )
{
x[i] = xyz[0+k*3];
k = k + 1;
}
xmin = r4vec_min ( n, x );
xmax = r4vec_max ( n, x );
k = 0;
for ( i = 0; i < n; i++ )
{
y[i] = xyz[1+k*3];
k = k + n;
}
ymin = r4vec_min ( n, y );
ymax = r4vec_max ( n, y );
/*
Z is a table.
The first dimension should contain values for constant Y.
*/
k = 0;
for ( i = 0; i < n; i++ )
{
for ( j = 0; j < n; j++ )
{
z[i+j*n] = xyz[2+k*3];
k = k + 1;
}
}
zmax = r4mat_max ( n, n, z );
zmin = r4mat_min ( n, n, z );
/*
Specify the format of the output file.
*/
metafl ( "png" );
/*
Indicate that new data overwrites old data.
*/
filmod ( "delete" );
/*
Specify the name of the output graphics file.
*/
setfil ( "orbital.png" );
/*
Choose the page size and orientation.
'USA' is 2160 plot units wide and 2790 plot units high.
'P' requests PORTRAIT orientation.
*/
setpag ( "usap" );
/*
For PNG output, reverse the default black background to white.
*/
scrmod ( "reverse" );
/*
Open DISLIN.
*/
disini ( );
/*
Plot a border around the page.
*/
pagera ( );
/*
Use the SIMPLX font.
*/
simplx ( );
/*
Set the axis origin in plot units to the right, and plot units DOWN.
*/
axspos ( 230, 2500 );
/*
Define the X and Y sizes of the axis system in plot units.
*/
axslen ( 1700, 1700 );
/*
Label the X and Y axes.
*/
name ( "X axis", "X" );
name ( "Y axis", "Y" );
/*
Relate the physical coordinates to the axes, and specify tick marks.
*/
graf ( xmin, xmax, xmin, 1.0, ymin, ymax, ymin, 1.0 );
/*
BEGIN LEVEL 2 COMMANDS.
*/
/*
Define the title.
*/
titlin ( "Orbital contour plot", 1 );
title ( );
/*
Set color to "blue".
*/
color ( "blue" );
/*
Draw the contour plot.
*/
level_num = 10;
for ( level = 1; level <= level_num; level++ )
{
level_value = ( ( float ) ( level_num + 1 - level ) * zmin
+ ( float ) ( level ) * zmax )
/ ( float ) ( level_num + 1 );
contur ( x, n, y, n, z, level_value );
}
/*
End this graph.
*/
endgrf ( );
/*
RETURN FROM LEVEL 2 TO LEVEL 1.
*/
/*
Close DISLIN.
*/
disfin ( );
/*
Free memory.
*/
free ( x );
free ( xyz );
free ( y );
free ( z );
/*
Terminate.
*/
printf ( "\n" );
printf ( "ORBITAL:\n" );
printf ( " Normal end of execution.\n" );
return 0;
}