void readtemphumi() { int a=0,b=0,c=0,d=0,e=0; int tempreture=0; int humidity=0; rst=1; cs=0; delay(8); a=getonechar(); b=getonechar(); c=getonechar(); d=getonechar(); e=getonechar(); // delay(240); cs=1; tempreture=a; tempreture<<=8; tempreture+=b; tempreture-=400; humidity=c; humidity<<=8; humidity+=d; printf(" %d %d ",tempreture,humidity); }
int main(int argc, char **argv) { float lm, hm; int ID; float x1, y1, x2, y2; char ch; char filename[1024]; int enhanceid = -1; int sectionmode = LON; int histmode = DEP; float binw = 10.0; reset(&mainset); load(&mainset); rangeadjust(&control, &mainset, NULL, NULL, NULL, NULL); ID = cpgopen("/xwindow"); resizemax(0.85); cpgask(0); /* * This a bug-fix for the gmt command that outputs the borders wrapped. */ int i; for(i=0; i < nborders; i++) if (borders[i][0] != -999 && borders[i][0] > 180) borders[i][0] = borders[i][0] - 360.0; lm = hm = -1.0; while (ch != 'Q') { if (control.printout) { lerchar("Entre com o nome do arquivo", filename, 1000); if (strlen(filename) == 0) { strcpy(message, "Nome invalido."); alert(ERROR); control.printout = 0; } else { if (strlen(filename) < 3 || strncasecmp( &filename[strlen(filename)-3], ".ps", 3) != 0) { sprintf(filename,"%s.ps/cps",filename); } else { sprintf(filename,"%s/cps",filename); } cpgopen(filename); cpgask(0); } } plot(&control, &mainset); if (control.printout == 0 && enhanceid != -1) { enhanceid = enhance(&control, &mainset, enhanceid); } if (mainset.region) { plotsection(&mainset, &control, sectionmode); plothistogram(&mainset, binw, histmode, lm, hm); } if (control.printout) { cpgclos(); cpgslct(ID); control.printout = 0; filename[strlen(filename) - 4] = '\0'; sprintf(message, "Print Out saved to file %s", filename); alert(INFO); continue; } // Restore default map position cpgsvp(0.07, 0.93, 0.35, 0.9); cpgswin(control.xmin, control.xmax, control.ymin, control.ymax); ch = getonechar(&x1, &y1, 0); switch(ch) { case('='): { control.printout = 1; break; } case('R'): { reset(&mainset); load(&mainset); break; } case('B'): { binw = lerfloat("Entre com o valor da largura do bin?"); break; } case('A'): { enhanceid = findpt(&mainset, x1, y1); break; } case('2'): { control.hasplates = (control.hasplates == 1) ? 0 : 1; break; } case('1'): { control.hascontinents++; if (control.hascontinents > 2) control.hascontinents = 0; break; } case ('W'): { control.xmax = 180; control.xmin = -180; control.ymax = 90; control.ymin = -90; break; } case('0'): { mainset.lon1 = -180; mainset.lon2 = 180; mainset.lat1 = -90; mainset.lat2 = 90; load(&mainset); mainset.region = 0; break; } case ('L'): { sectionmode = (sectionmode == LAT) ? LON : LAT; break; } case ('H'): { histmode = (histmode == MAG) ? DEP : MAG; binw = (histmode == MAG) ? 0.1 : 10.0; break; } case ('S'): { x2 = x1; y2 = y1; getonechar(&x2, &y2, 1); order(&x1,&x2); order(&y1,&y2); mainset.lon1 = x1; mainset.lon2 = x2; mainset.lat1 = y1; mainset.lat2 = y2; load(&mainset); mainset.region = 1; break; } case('X'): { // ZOOM x2 = x1; y2 = y1; getonechar(&x2, &y2, 1); order(&x1,&x2); order(&y1,&y2); rangeadjust(&control, &mainset, &x1, &x2, &y1, &y2); break; } case('C'): { // Color mode control.colormode ++; if (control.colormode>COLORMAG) control.colormode = COLORNONE; break; } case('N'): { /* Ano */ int y1, y2; y1 = lerint("Entre com ano inicial?"); y2 = lerint("Entre com ano final?"); orderint(&y1,&y2); mainset.y1 = y1; mainset.y2 = y2; load(&mainset); break; } case('M'): { /* Magnitude */ float m1, m2; m1 = lerfloat("Entre com a Magnitude Inicial?"); m2 = lerfloat("Entre com a Magnitude Final?"); order(&m1,&m2); mainset.m1 = m1; mainset.m2 = m2; load(&mainset); break; } case('J'): { /* Ajuste */ lm = lerfloat("Entre com o menor valor de mag. para ajuste."); hm = lerfloat("Entre com o maior valor de mag. para ajuste."); if (lm == hm) { lm = hm = -1; } break; } case('P'): { /* Profundidade */ float d1, d2; d1 = lerfloat("Entre com a Profundidade Minima?"); d2 = lerfloat("Entre com a Profundidade Maxima?"); order(&d1,&d2); mainset.d1 = d1; mainset.d2 = d2; load(&mainset); break; } } } cpgclos(); }