# source("moninit") library("RCALI") # Cubature: Example of the user guide: # deactive for M1mac precision mismatch #param=list(input=2,verbose=FALSE,output=1,poly=c(66,66), # method="cub", maxpts= rep(1.0e+8,2), # reler= c(1.0e-4, 1.0e-3), # dz=c(0,21), dp=c(100,0), tz=c(0,1)) #start.run <- Sys.time() #califlopp(file="data", #c(fpollen,fseed), param=param) #end.run <- Sys.time() #duration <- end.run - start.run # print(duration) # Grid: Example of the user guide:(too long) # param=list(input=1, delim=" ", poly=c(66,66), # dz=c(0,21), dp=c(100,0), tz=c(0,1), method="grid", # step=c(0.25, 0.25), nr=20) # start.run <- Sys.time() # califlopp(file="data",c(1,2), param=param) # end.run <- Sys.time() # duration <- end.run - start.run # print(duration) # Grid: Example of the Example chapter of the manual: (too long) #param=list(input=1, delim=" ", method="grid", # poly=list(c(1,1),c(14,14),c(11,12),c(56,57),c(4,4)), nr=5, # step=c(1,1)) #start.run <- Sys.time() # califlopp(file="data", dispf=1,param=param) #end.run <- Sys.time() #duration <- end.run - start.run # print(duration) # Idem with R dispersion function: (too long) # param=list(input=1, delim=" ", method="grid", # poly=list(c(1,1),c(14,14),c(11,12),c(56,57),c(4,4)), nr=5, # step=c(1,1), dz=0, dp=100, tz=0) # start.run <- Sys.time() # califlopp(file="data", dispf=fpollen,param=param) # end.run <- Sys.time() # duration <- end.run - start.run # print(duration)