R Under development (unstable) (2024-02-07 r85873 ucrt) -- "Unsuffered Consequences" Copyright (C) 2024 The R Foundation for Statistical Computing Platform: x86_64-w64-mingw32/x64 R is free software and comes with ABSOLUTELY NO WARRANTY. You are welcome to redistribute it under certain conditions. Type 'license()' or 'licence()' for distribution details. R is a collaborative project with many contributors. Type 'contributors()' for more information and 'citation()' on how to cite R or R packages in publications. Type 'demo()' for some demos, 'help()' for on-line help, or 'help.start()' for an HTML browser interface to help. Type 'q()' to quit R. > # source("moninit") > library("RCALI") > > > # Cubature: Example of the user guide: > 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) Number of polygons: 100 ------------------- Parameters: ----------- verbose: 0 output: 1 scale: 10 maximal dispersion distances for each function: 0 21 minimal dispersion distances for each function: 100 0 (the dispersion is calculated between centroids, for distances beyond these values) method:cubature function 1: relative precision = 0.0001, absolute precision = 0.001 maximal number of evaluations points fixed to 100000000 function 2: relative precision = 0.001, absolute precision = 0.001 maximal number of evaluations points fixed to 100000000 mode of triangulation: 0 1 Polygons 66 (66), 66 (66) ------------------- Integrated flow for function 1: mean: 8.47219 mean/area1: 0.529512 mean/area2: 0.529512 absolute error: 0.000999598 relative error: 0.000117986 confidence interval: [8.47119, 8.47319] nb. evaluations: 576682 Integrated flow for function 2: mean: 12.3758 mean/area1: 0.773489 mean/area2: 0.773489 absolute error: 0.00198936 relative error: 0.000160746 confidence interval: [12.3738, 12.3778] nb. evaluations: 1480 area1: 16 area2: 16 > 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) > > > proc.time() user system elapsed 3.50 0.37 3.85