meridians = 30.0 parallels = 30.0 # nnx = int( (urlon - lllon)/ dlon) nny = int( (urlat - lllat)/ dlat) #*************************************** mnum_min = 1.0 #*************************************** diyear = {"his": iyear_his, "fut": iyear_fut} deyear = {"his": eyear_his, "fut": eyear_fut} #*************************************** (imon, emon) = ctrack_para.ret_im_em(season) #*************************************** dexpr = {"his": "historical", "fut": "rcp85", "dif": "dif"} #*************************************** lera = ["fut", "his"] lvar = ["num", "sp", "mnum"] ldifvar = ["drnum", "drtotnum", "dmp"] #*************************************** # class #----------------------------- dpgradrange = ctrack_para.ret_dpgradrange() cmin = dpgradrange[0][0] lclass = dpgradrange.keys() nclass = len(lclass) -1 #***************************************
miss_int = -9999 crad = 1000.0*1000.0 thdura = 24 thorog = 1500.0 iz500 = 3 xth = 90.0 dnumname = {} dspname = {} dsp2name = {} dswname = {} dsw2name = {} dmpgradname = {} #---------------------- [iy, ey] = ctrack_para.ret_iy_ey(expr) [im, em] = ctrack_para.ret_im_em(season) dpgradrange = ctrack_para.ret_dpgradrange() cmin = dpgradrange[0][0] #********************** # omega bin #---------------------- dlwbin = ctrack_para.ret_dlwbin() nwbin = len(dlwbin.keys()) for i in dlwbin.keys(): abin = array(dlwbin[i])*100.0/60.0/60.0/24.0 dlwbin[i] = abin #---------------------- lclass = dpgradrange.keys() nclass = len(lclass) -1 #********************** dendh = {"6hr":18}