diff options
-rw-r--r-- | hackvr.c | 97 | ||||
-rwxr-xr-x | map2globe.py | 2 |
2 files changed, 67 insertions, 32 deletions
@@ -28,9 +28,9 @@ int fps=0; //if I don't do hiliting I only need to calculate that upon click. #define WALK_SPEED 1 -#define SPLIT_SCREEN 2 +#define SPLIT_SCREEN 1 #define CAMERA_SEPARATION 4 -#define RED_AND_BLUE 1 +#define RED_AND_BLUE 0 #define SHAPES 16386 #define MAX_SIDES 8 @@ -334,7 +334,7 @@ c3_t rotate_c3_zr(c3_t p1,c3_t p2,real zr) {//rotate x and y around camera based void rotate_shape_yr(struct c3_shape *s) {//changes input value! int i=0; - for(i=0;i<s->len;i++) s->p[0]=rotate_c3_yr(s->p[0],camera.p,camera.yr); + for(i=0;i<s->len+(s->len==1);i++) s->p[0]=rotate_c3_yr(s->p[0],camera.p,camera.yr); } c2_t c3_to_c2(c3_t p3) { //DO NOT DRAW STUFF IN HERE @@ -344,8 +344,8 @@ c2_t c3_to_c2(c3_t p3) { //DO NOT DRAW STUFF IN HERE // c3_t tmp3; c3_t final; //these rotations need to be about the previous axis after the axis itself has been rotated. - final=rotate_c3_yr(p3,camera.p,d2r(camera.yr));//rotate everything around the camera's location. -// final=rotate_c3_yr(p3,(c3_t){0,0,0},d2r(camera.yr));//rotate everything around the center no matter what. +// final=rotate_c3_yr(p3,camera.p,d2r(camera.yr));//rotate everything around the camera's location. + final=rotate_c3_yr(p3,(c3_t){0,0,0},d2r(camera.yr));//rotate everything around the center no matter what. // tmp2=rotate_c3_xr(tmp1,camera.p,d2r(camera.xr)); // final=rotate_c3_zr(tmp2,camera.p,d2r(camera.zr)); real delta_x=(camera.p.x - final.x); @@ -393,15 +393,12 @@ real shitdist(struct c3_shape s,c3_t p) { real total; s_=s; rotate_shape_yr(&s_); - for(i=0;i<s_.len;i++) { + for(i=0;i<s_.len+(s_.len==1);i++) { total+=shitdist2(s_.p[i],camera.p); } - return (total) / 3.0l; + return (total) / (real)(s_.len+(s_.len==1)); } -//^ subdivision algorithm for display purposes only. -//black out the rest of the triangle first? -//sounds alright to me... void HatchLines(c2_t p1,c2_t p2,c2_t p3,int density) { real i=0; @@ -425,6 +422,10 @@ void HatchLines(c2_t p1,c2_t p2,c2_t p3,int density) { HatchLines(p1,p3,p2,d); }*/ +//^ subdivision algorithm for display purposes only. +//black out the rest of the triangle first? +//sounds alright to me... + void draw_cs_text(cs_t p,char *text) { char t[256]; int direction,ascent,descent; @@ -456,33 +457,64 @@ cs_t *c3s_to_css(c3_t *p3,int len) { void draw_c3_shape(struct c3_shape s) { // char line[1024]; int i=0; - XPoint p[s.len]; + int w,h; + XPoint p[s.len+(s.len==1)]; cs_t tmp; + for(i=0;i<s.len+(s.len==1);i++) { + tmp=c3_to_cs(s.p[i]); + p[i]=(XPoint){tmp.x,tmp.y}; + } + if(global.draw3d == 1) { // wireframe + switch(s.len) { + case 1: + w=max(p[0].x,p[1].x)-min(p[0].x,p[1].x); + h=max(p[0].y,p[1].y)-min(p[0].y,p[1].y); + p[0].x-=h; + p[0].y-=h; + XDrawArc(global.dpy,global.backbuffer,global.backgc,p[0].x,p[0].y,h*2,h*2,0,360*64); + break; + case 2: + XDrawLine(global.dpy,global.backbuffer,global.backgc,p[0].x,p[0].y,p[1].x,p[1].y); + break; + default: + for(i=0;i<s.len;i++) { + XDrawLines(global.dpy,global.backbuffer,global.backgc,p,s.len,CoordModeOrigin); + } + break; + } + } if(global.draw3d == 2) { //draw it filled in - for(i=0;i<s.len;i++) { - tmp=c3_to_cs(s.p[i]); - p[i]=(XPoint){tmp.x,tmp.y}; + switch(s.len) { + case 1: + w=max(p[0].x,p[1].x)-min(p[0].x,p[1].x); + h=max(p[0].y,p[1].y)-min(p[0].y,p[1].y); + p[0].x-=h; + p[0].y-=h; + XFillArc(global.dpy,global.backbuffer,global.backgc,p[0].x,p[0].y,h*2,h*2,0,360*64); + break; + case 2: + XDrawLine(global.dpy,global.backbuffer,global.backgc,p[0].x,p[0].y,p[1].x,p[1].y); + break; + default: + XFillPolygon(global.dpy,global.backbuffer,global.backgc,p,s.len,Convex,CoordModeOrigin); + break; } - XFillPolygon(global.dpy,global.backbuffer,global.backgc,p,s.len,Convex,CoordModeOrigin); } - if(global.draw3d == 3) { //hashed - XSetForeground(global.dpy, global.backgc, global.colors[0].pixel); +// if(global.draw3d == 3) { //hashed +// XSetForeground(global.dpy, global.backgc, global.colors[0].pixel); //XDrawFilledShape(c3_to_cs(t.p1),c3_to_cs(t.p2),c3_to_cs(t.p3));//clear out this triangle. - XSetForeground(global.dpy, global.backgc, global.green.pixel); +// XSetForeground(global.dpy, global.backgc, global.green.pixel); //upgrade me! DrawHatchedTriangle(t,10 - (shitdist(t,camera.p) / 10));//how to get density? - } - for(i=0;i<s.len;i++) { - draw_c3_line(s.p[i],s.p[(i+1)%s.len]); - } - if(global.debug) { -/* snprintf(line,sizeof(line)-1,"(%Lf,%Lf,%Lf)",t.p1.x,t.p1.y,t.p1.z); +// } +/* if(global.debug) { + snprintf(line,sizeof(line)-1,"(%Lf,%Lf,%Lf)",t.p1.x,t.p1.y,t.p1.z); draw_c3_text(t.p1,line); snprintf(line,sizeof(line)-1,"(%Lf,%Lf,%Lf)",t.p2.x,t.p2.y,t.p2.z); draw_c3_text(t.p2,line); snprintf(line,sizeof(line)-1,"(%Lf,%Lf,%Lf)",t.p3.x,t.p3.y,t.p3.z); draw_c3_text(t.p3,line); */ - } +// } } typedef struct { @@ -557,7 +589,7 @@ void draw_screen(Display *dpy,Window w,GC gc) { oldfps=fps; fps=0; } - XSetForeground(global.dpy, global.backgc, global.green.pixel); + //XSetForeground(global.dpy, global.backgc, global.green.pixel); if(global.debug) { snprintf(coords,sizeof(coords)-1,"debug: %s minimap: %d 3d: %d fps: %d shapes: %d",global.debug?"on":"off",global.drawminimap,global.draw3d,oldfps,global.shapes); XTextExtents(font,coords,strlen(coords),&direction,&ascent,&descent,&overall); @@ -640,15 +672,16 @@ void draw_screen(Display *dpy,Window w,GC gc) { // draw_c3_triangle(*(zs[i].t)); } else { if(!strcmp(global.selected_object,zs[i].s->id)) { - XSetForeground(global.dpy,global.backgc,global.green.pixel); + //XSetForeground(global.dpy,global.backgc,global.green.pixel); } else { if(global.greyscale) { if(zs[i].d > 0) { - if(zs[i].d < 10) { + if(zs[i].d < 100) { colori=zs[i].d; } } - XSetForeground(global.dpy,global.backgc,global.colors[(int)(100.0-(colori * 10.0))].pixel); + colori=(int)(zs[i].d)%100; + XSetForeground(global.dpy,global.backgc,global.colors[(int)(100.0-(colori))].pixel);//picking the color here only works if... } } } @@ -907,7 +940,7 @@ int load_stdin() { global.shape[i]=malloc(sizeof(struct c3_shape)); global.shape[i]->id=strdup(id); global.shape[i]->len=strtold(a[2],0); - for(j=0;j < global.shape[i]->len;j++) { + for(j=0;j < global.shape[i]->len+(global.shape[i]->len==1);j++) { global.shape[i]->p[j].x=strtold(a[(j*3)+3],0);//second arg is just for a return value. set to 0 if you don't want it. global.shape[i]->p[j].y=strtold(a[(j*3)+4],0); global.shape[i]->p[j].z=strtold(a[(j*3)+5],0); @@ -923,7 +956,7 @@ int load_stdin() { if(!strcmp(command,"scaleup")) {//should this scale separately so it can be a deform too? for(i=0;global.shape[i];i++) { if(!strcmp(global.shape[i]->id,id)) { - for(j=0;j < global.shape[i]->len;j++) { + for(j=0;j < global.shape[i]->len+(global.shape[i]->len==1);j++) { global.shape[i]->p[j].x*=strtold(a[2],0); global.shape[i]->p[j].y*=strtold(a[2],0); global.shape[i]->p[j].z*=strtold(a[2],0); @@ -937,7 +970,7 @@ int load_stdin() { if(len > 4) { for(i=0;global.shape[i];i++) { if(!strcmp(global.shape[i]->id,id)) { - for(j=0;j < global.shape[i]->len;j++) { + for(j=0;j < global.shape[i]->len+(global.shape[i]->len==1);j++) { global.shape[i]->p[j].x+=strtold(a[2],0); global.shape[i]->p[j].y+=strtold(a[3],0); global.shape[i]->p[j].z+=strtold(a[4],0); diff --git a/map2globe.py b/map2globe.py index 52ab416..8e58752 100755 --- a/map2globe.py +++ b/map2globe.py @@ -16,6 +16,8 @@ z="0" # / 90 * math.pi #they need to be in the range 0 to 2pi? +print("globe addshape 1 0 0 0 1 -1 0") + while(1): #print (plat,plon,lat,lon) try: |