# This library is free software; you can redistribute it and/or # modify it under the terms of the GNU Library General Public # License as published by the Free Software Foundation; either # version 2 of the License, or (at your option) any later version. # # This library is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU Library General Public License for more details. # # You should have received a copy of the GNU Library General # Public License along with this library; if not, write to the # Free Foundation, Inc., 59 Temple Place, Suite 330, Boston, # MA 02111-1307 USA # Copyrights (C) # for this R-port: # 1999 - 2007, Diethelm Wuertz, GPL # Diethelm Wuertz # info@rmetrics.org # www.rmetrics.org # for the code accessed (or partly included) from other R-ports: # see R's copyright and license files # for the code accessed (or partly included) from contributed R-ports # and other sources # see Rmetrics's copyright file ################################################################################ # FUNCTION: EXTREME VALUE COPULAE RANDOM VARIATES: # revCopula Generates extreme value copula random variates # revSlider isplays interactively plots of random variates # FUNCTION: EXTREME VALUE COPULAE PROBABILIY: # pevCopula Computes extreme value copula probability # pevSlider Displays interactively plots of probability # FUNCTION: EXTREME VALUE COPULAE DENSITY: # devCopula Computes extreme value copula density # devSlider Displays interactively plots of density ################################################################################ test.revCopula = function() { # Arguments: # revCopula(n, param = NULL, type = evList()) # Random Variates - Check all Types: for (type in evList()) { R = revCopula(n = 5, param = NULL, type = type) cat("\n") print(type) print(R) } # Tawn Copula: revCopula(n = 5, param = NULL, type = "tawn") # Return Value: return() } # ------------------------------------------------------------------------------ test.revSlider = function() { # Arguments: # revSlider(B = 10) # Try Slider() # revSlider() # CHECK !!! NA # Return Value: return() } ################################################################################ test.pevCopula = function() { # Arguments: # pevCopula(u = 0.5, v = u, param = NULL, type = evList(), # output = c("vector", "list"), alternative = FALSE) # Random Variates - Check all Types: for (type in evList()) { R = pevCopula(u = grid2d(), param = NULL, type = type, output = "list") cat("\n") print(type) print(R) } # Tawn Copula: revCopula(n = 5, param = NULL, type = "tawn") # Return Value: return() } # ------------------------------------------------------------------------------ test.pevSlider = function() { # Arguments: # pevSlider(type = c("persp", "contour"), B = 10) # Try Perspective Slider: # pevSlider("persp") NA # Try Contour Slider: # pevSlider("contour") NA # Return Value: return() } ################################################################################ test.devCopula = function() { # Arguments: # devCopula(u = 0.5, v = u, param = NULL, type = evList(), # output = c("vector", "list"), alternative = FALSE) # Random Variates - Check all Types: for (type in evList()) { R = devCopula(u = grid2d(), param = NULL, type = type, output = "list") cat("\n") print(type) print(R) } # CHECK Border !!!! # Tawn Copula: revCopula(n = 5, param = NULL, type = "tawn") # Return Value: return() } # ------------------------------------------------------------------------------ test.devSlider = function() { # Arguments: # devSlider(type = c("persp", "contour"), B = 10) # Try Perspective Slider: # devSlider("persp") NA # Try Contour Slider: # devSlider("contour") NA # Return Value: return() } ################################################################################