OpenXM_contrib2/asir2000/lib/glib - diff

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Diff for /OpenXM_contrib2/asir2000/lib/glib between version 1.6 and 1.11

version 1.6, 2002/07/14 07:10:01

version 1.11, 2002/09/10 06:18:46

Line 1

/* $OpenXM: OpenXM_contrib2/asir2000/lib/glib,v 1.5 2002/07/14 03:57:24 takayama Exp $ */

/* $OpenXM: OpenXM_contrib2/asir2000/lib/glib,v 1.10 2002/08/08 08:56:31 takayama Exp $ */

/* $Id$ */

/* BUG: this library has not yet been adapted to the new automatic launcher

of ox_plot. 2002, Aug, 4. Do not load glib more than twice.

/* #define CLIP 1 */

/* #define DEBUG 1 */

Line 24 def roots(F) {

Line 27 def roots(F) {

/* ---------------------------------------------- */

def ox_get_errors(P) {

def glib_ox_get_errors(P) {

ox_push_cmd(P,276);

return(ox_pop_cmo(P));

}

Line 41 Glib_canvas_x = 400$

Line 44 Glib_canvas_x = 400$

Glib_canvas_y = 400$

Glib_xmin=0$ Glib_xmax=Glib_canvas_x$

Glib_ymin=0$ Glib_ymax=Glib_canvas_y$

Glib_math_coordinate=0$

#define START_SERVER \

extern Glib_server_started, Glib_process$ \

if (type(Glib_server_started) == 0) { \

Line 58 def open_Canvas(P,S) {

Line 62 def open_Canvas(P,S) {

open_canvas(P,S);

R = ox_pop_cmo(P);

if (ox_get_errors(P) == []) {

if (glib_ox_get_errors(P) == []) {

R = ox_pop_cmo(P);

}else{

debug;

Line 67 def open_Canvas(P,S) {

Line 71 def open_Canvas(P,S) {

return(R);

}

/*&usage begin: glib_open()

It starts the ox_plot server and opens a canvas.

The canvas size is set to {Glib_canvas_x} X {Glib_canvas_y}

(the default value is 400).

This function is automatically called when the user calls glib

functions.

end: */

def glib_open() {

extern Glib_canvas_x, Glib_canvas_y,

Glib_process, Glib_canvas;

Line 98 def glib_check_strict() {

Line 110 def glib_check_strict() {

if (Glib_canvas < 0) {

glib_open();

}

E = ox_get_errors(Glib_process);

E = glib_ox_get_errors(Glib_process);

if (E != []) {

ox_pops(Glib_process,200);

print(E);

Line 119 def glib_clear() {

Line 131 def glib_clear() {

/*&usage begin: glib_window(Xmin,Ymin,Xmax,Ymax)

It generates a window with the left top corner [{Xmin},{Ymin}] and

the right bottom corner [{Xmax},{Ymax}].

If the global variable {Glib_math_coordinate} is set to 1, mathematical

coordinate system will be employed, i.e., the left top

corner will have the coordinate [{Xmin},{Ymax}].

example: glib_window(-1,-1,10,10);

end: */

def glib_window(Xmin,Ymin,Xmax,Ymax) {

Line 153 def glib_check_arg(X,Y) {

Line 168 def glib_check_arg(X,Y) {

end: */

def glib_putpixel(X,Y) {

extern Glib_process, Glib_canvas,

Glib_xoffset, Glib_yoffset, Glib_xmag, Glib_ymag, Glib_ps;

Glib_xoffset, Glib_yoffset, Glib_xmag, Glib_ymag, Glib_ps,

Glib_math_coordinate, Glib_canvas_y;

if (Glib_canvas < 0) glib_open();

glib_check();

glib_check_arg(X,Y);

C = getopt(color);

Pos = [glib_floor(Glib_xmag*(X+Glib_xoffset)),

if (Glib_math_coordinate) {

glib_floor(Glib_ymag*(Y+Glib_yoffset))];

Pos = [glib_floor(Glib_xmag*(X+Glib_xoffset)),

Glib_canvas_y-glib_floor(Glib_ymag*(Y+Glib_yoffset))];

Pos2= [glib_floor(Glib_xmag*(X+Glib_xoffset)),

glib_floor(Glib_ymag*(Y+Glib_yoffset))];

}else{

Pos = [glib_floor(Glib_xmag*(X+Glib_xoffset)),

glib_floor(Glib_ymag*(Y+Glib_yoffset))];

Pos2= [glib_floor(Glib_xmag*(X+Glib_xoffset)),

Glib_canvas_y-glib_floor(Glib_ymag*(Y+Glib_yoffset))];

}

if ( type(C) != -1 ) {

draw_obj(Glib_process,Glib_canvas,Pos,C);

if (Glib_ps) glib_history(["putpixel",Pos,C]);

if (Glib_ps) glib_history(["putpixel",Pos2,C]);

}else{

draw_obj(Glib_process,Glib_canvas,Pos);

if (Glib_ps) glib_history(["putpixel",Pos,0]);

if (Glib_ps) glib_history(["putpixel",Pos2,0]);

}

/*&usage begin: glib_line(X0,Y0,X1,Y1|color)

It draw the line [{X0},{Y0}]-- [{X1},{Y1}]with {color}

It draws the line [{X0},{Y0}]-- [{X1},{Y1}] with {color}

example: glib_line(0,0,5,3/2 | color=0xff00ff);

end: */

def glib_line(X0,Y0,X1,Y1) {

Line 188 def glib_clip_line(X0,Y0,X1,Y1,Color) {

Line 213 def glib_clip_line(X0,Y0,X1,Y1,Color) {

/* X0, Y0, X1, Y1 should be integers.

Coordinates are already translated. */

extern Glib_process, Glib_canvas, Glib_canvas_x, Glib_canvas_y,

Glib_ps;

Glib_ps, Glib_math_coordinate;

if (Glib_canvas < 0) glib_open();

if (Glib_ps) {

Line 230 if (Glib_ps) {

Line 255 if (Glib_ps) {

}

glib_check();

Pos = [glib_floor(X0),glib_floor(Y0),glib_floor(X1),glib_floor(Y1)];

if (Glib_math_coordinate) {

Pos = [glib_floor(X0),Glib_canvas_y-glib_floor(Y0),

glib_floor(X1),Glib_canvas_y-glib_floor(Y1)];

Pos2= [glib_floor(X0),glib_floor(Y0),glib_floor(X1),glib_floor(Y1)];

}else{

Pos = [glib_floor(X0),glib_floor(Y0),glib_floor(X1),glib_floor(Y1)];

Pos2 = [glib_floor(X0),Glib_canvas_y-glib_floor(Y0),

glib_floor(X1),Glib_canvas_y-glib_floor(Y1)];

}

if ( type(Color) != -1 ) {

draw_obj(Glib_process,Glib_canvas,Pos,Color);

if (Glib_ps) glib_history(["line",Pos,Color]);

if (Glib_ps) glib_history(["line",Pos2,Color]);

}else{

draw_obj(Glib_process,Glib_canvas,Pos);

if (Glib_ps) glib_history(["line",Pos,0]);

if (Glib_ps) glib_history(["line",Pos2,0]);

}

Line 287 def glib_clip1_y(X0,Y0,X1,Y1,Clip) {

Line 320 def glib_clip1_y(X0,Y0,X1,Y1,Clip) {

end: */

def glib_print(X,Y,Text) {

extern Glib_process, Glib_canvas,

Glib_xoffset, Glib_yoffset, Glib_xmag, Glib_ymag, Glib_ps;

Glib_xoffset, Glib_yoffset, Glib_xmag, Glib_ymag, Glib_ps,

Glib_math_coordinate, Glib_canvas_y;

if (Glib_canvas < 0) glib_open();

glib_check();

glib_check_arg(X,Y);

if (type(Text) != 7) error("glib_print(X,Y,Text): Text must be a string.");

C = getopt(color);

Pos = [glib_floor(Glib_xmag*(X+Glib_xoffset)),

if (Glib_math_coordinate) {

glib_floor(Glib_ymag*(Y+Glib_yoffset))];

Pos = [glib_floor(Glib_xmag*(X+Glib_xoffset)),

Glib_canvas_y-glib_floor(Glib_ymag*(Y+Glib_yoffset))];

Pos2= [glib_floor(Glib_xmag*(X+Glib_xoffset)),

glib_floor(Glib_ymag*(Y+Glib_yoffset))];

}else{

Pos = [glib_floor(Glib_xmag*(X+Glib_xoffset)),

glib_floor(Glib_ymag*(Y+Glib_yoffset))];

Pos2= [glib_floor(Glib_xmag*(X+Glib_xoffset)),

Glib_canvas_y-glib_floor(Glib_ymag*(Y+Glib_yoffset))];

}

if ( type(C) != -1 ) {

draw_string(Glib_process,Glib_canvas,Pos,Text,C);

if (Glib_ps) glib_history(["print",Pos,Text,C]);

if (Glib_ps) glib_history(["print",Pos2,Text,C]);

}else{

draw_string(Glib_process,Glib_canvas,Pos,Text);

if (Glib_ps) glib_history(["print",Pos,Text,0]);

if (Glib_ps) glib_history(["print",Pos2,Text,0]);

}

def glib_history(L) {

extern Glib_h, Glib_canvas_x, Glib_canvas_y;

extern Glib_h, Glib_canvas_x, Glib_canvas_y,

Glib_math_coodinate;

if (L[0] == "putpixel" || L[0] == "print") {

if (L[1][0] <= Glib_canvas_x && L[1][0] >= 0) {

if (L[1][1] <= Glib_canvas_x && L[1][1] >= 0)

Line 320 def glib_history(L) {

Line 364 def glib_history(L) {

/*&usage begin: glib_tops()

If Glib_ps is set to 1,

it returns a postscript program to draw the picture on the canvas.

ref: print_output

end: */

def glib_tops() {

extern Glib_h;

Line 375 def glib_ps(L) {

Line 420 def glib_ps(L) {

return PS;

}

/*&usage begin: glib_plot(F)

It plots an object {F} on the glib canvas.

example: glib_plot([[0,1],[0.1,0.9],[0.2,0.7],[0.3,0.5],[0.4,0.8]]);

example: glib_plot(tan(x));

end: */

/* bug, xmin, xmax, color should be optional variables. */

def glib_plot(F) {

Opt = getopt();

taka_glib_plot(F,Opt);

}

end$

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