[valse.git] / pkg / R / main.R

#' runValse
#'
#' Main function
#'
#' @param X matrix of covariates (of size n*p)
#' @param Y matrix of responses (of size n*m)
#' @param procedure among 'LassoMLE' or 'LassoRank'
#' @param selecMod method to select a model among 'DDSE', 'DJump', 'BIC' or 'AIC'
#' @param gamma integer for the power in the penaly, by default = 1
#' @param mini integer, minimum number of iterations in the EM algorithm, by default = 10
#' @param maxi integer, maximum number of iterations in the EM algorithm, by default = 100
#' @param eps real, threshold to say the EM algorithm converges, by default = 1e-4
#' @param kmin integer, minimum number of clusters, by default = 2
#' @param kmax integer, maximum number of clusters, by default = 10
#' @param rank.min integer, minimum rank in the low rank procedure, by default = 1
#' @param rank.max integer, maximum rank in the low rank procedure, by default = 5
#' @param ncores_outer Number of cores for the outer loop on k
#' @param ncores_inner Number of cores for the inner loop on lambda
#' @param thresh real, threshold to say a variable is relevant, by default = 1e-8
#' @param grid_lambda, a vector with regularization parameters if known, by default numeric(0)
#' @param size_coll_mod (Maximum) size of a collection of models
#' @param fast TRUE to use compiled C code, FALSE for R code only
#' @param verbose TRUE to show some execution traces
#' @param plot TRUE to plot the selected models after run
#'
#' @return
#' The selected model if enough data are available to estimate it,
#' or a list of models otherwise.
#'
#' @examples
#' n = 50; m = 10; p = 5
#' beta = array(0, dim=c(p,m,2))
#' beta[,,1] = 1
#' beta[,,2] = 2
#' data = generateXY(n, c(0.4,0.6), rep(0,p), beta, diag(0.5, p), diag(0.5, m))
#' X = data$X
#' Y = data$Y
#' res = runValse(X, Y)
#' X <- matrix(runif(100), nrow=50)
#' Y <- matrix(runif(100), nrow=50)
#' res = runValse(X, Y)
#'
#' @export
runValse <- function(X, Y, procedure = "LassoMLE", selecMod = "DDSE", gamma = 1, mini = 10,
  maxi = 50, eps = 1e-04, kmin = 2, kmax = 3, rank.min = 1, rank.max = 5, ncores_outer = 1,
  ncores_inner = 1, thresh = 1e-08, grid_lambda = numeric(0), size_coll_mod = 10,
  fast = TRUE, verbose = FALSE, plot = TRUE)
{
  n <- nrow(X)
  p <- ncol(X)
  m <- ncol(Y)

  if (verbose)
    print("main loop: over all k and all lambda")

  if (ncores_outer > 1) {
    cl <- parallel::makeCluster(ncores_outer, outfile = "")
    parallel::clusterExport(cl = cl, envir = environment(), varlist = c("X",
      "Y", "procedure", "selecMod", "gamma", "mini", "maxi", "eps", "kmin",
      "kmax", "rank.min", "rank.max", "ncores_outer", "ncores_inner", "thresh",
      "size_coll_mod", "verbose", "p", "m"))
  }

  # Compute models with k components
  computeModels <- function(k)
  {
    if (ncores_outer > 1)
      require("valse") #nodes start with an empty environment

    if (verbose)
      print(paste("Parameters initialization for k =", k))
    # smallEM initializes parameters by k-means and regression model in each
    # component, doing this 20 times, and keeping the values maximizing the
    # likelihood after 10 iterations of the EM algorithm.
    P <- initSmallEM(k, X, Y, fast)
    if (length(grid_lambda) == 0)
    {
      grid_lambda <- computeGridLambda(P$phiInit, P$rhoInit, P$piInit, P$gamInit,
                                       X, Y, gamma, mini, maxi, eps, fast)
    }
    if (length(grid_lambda) > size_coll_mod)
      grid_lambda <- grid_lambda[seq(1, length(grid_lambda), length.out = size_coll_mod)]

    if (verbose)
      print("Compute relevant parameters")
    # select variables according to each regularization parameter from the grid:
    # S$selected corresponding to selected variables
    S <- selectVariables(P$phiInit, P$rhoInit, P$piInit, P$gamInit, mini, maxi,
      gamma, grid_lambda, X, Y, thresh, eps, ncores_inner, fast)

    if (procedure == "LassoMLE") {
      if (verbose)
        print("run the procedure Lasso-MLE")
      # compute parameter estimations, with the Maximum Likelihood Estimator,
      # restricted on selected variables.
      models <- constructionModelesLassoMLE(P$phiInit, P$rhoInit, P$piInit,
        P$gamInit, mini, maxi, gamma, X, Y, eps, S, ncores_inner, fast, verbose)
    } else {
      if (verbose)
        print("run the procedure Lasso-Rank")
      # compute parameter estimations, with the Low Rank Estimator, restricted on
      # selected variables.
      models <- constructionModelesLassoRank(S, k, mini, maxi, X, Y, eps, rank.min,
        rank.max, ncores_inner, fast, verbose)
    }
    # warning! Some models are NULL after running selectVariables
    models <- models[sapply(models, function(cell) !is.null(cell))]
    models
  }

  # List (index k) of lists (index lambda) of models
  models_list <-
    if (ncores_outer > 1) {
      parLapply(cl, kmin:kmax, computeModels)
    } else {
      lapply(kmin:kmax, computeModels)
    }
  if (ncores_outer > 1)
    parallel::stopCluster(cl)

  if (!requireNamespace("capushe", quietly = TRUE))
  {
    warning("'capushe' not available: returning all models")
    return(models_list)
  }

  # Get summary 'tableauRecap' from models
  tableauRecap <- do.call(rbind, lapply(seq_along(models_list), function(i)
  {
    models <- models_list[[i]]
    # For a collection of models (same k, several lambda):
    LLH <- sapply(models, function(model) model$llh[1])
    k <- length(models[[1]]$pi)
    sumPen <- sapply(models, function(model) k * (dim(model$rho)[1] + sum(model$phi[,
      , 1] != 0) + 1) - 1)
    data.frame(model = paste(i, ".", seq_along(models), sep = ""), pen = sumPen/n,
      complexity = sumPen, contrast = -LLH)
  }))
  tableauRecap <- tableauRecap[which(tableauRecap[, 4] != Inf), ]
  if (verbose)
    print(tableauRecap)

  if (nrow(tableauRecap) > 10) {
    modSel <- capushe::capushe(tableauRecap, n)
    indModSel <- if (selecMod == "DDSE")
    {
      as.numeric(modSel@DDSE@model)
    } else if (selecMod == "Djump")
    {
      as.numeric(modSel@Djump@model)
    } else if (selecMod == "BIC")
    {
      modSel@BIC_capushe$model
    } else if (selecMod == "AIC")
    {
      modSel@AIC_capushe$model
    }
    listMod <- as.integer(unlist(strsplit(as.character(indModSel), "[.]")))
    modelSel <- models_list[[listMod[1]]][[listMod[2]]]
    modelSel$models <- tableauRecap

    if (plot)
      print(plot_valse(X, Y, modelSel))
    return(modelSel)
  }
  tableauRecap
}
Commit	Line	Data
	1	#' runValse
	2	#'
	3	#' Main function
	4	#'
	5	#' @param X matrix of covariates (of size n*p)
	6	#' @param Y matrix of responses (of size n*m)
	7	#' @param procedure among 'LassoMLE' or 'LassoRank'
	8	#' @param selecMod method to select a model among 'DDSE', 'DJump', 'BIC' or 'AIC'
	9	#' @param gamma integer for the power in the penaly, by default = 1
	10	#' @param mini integer, minimum number of iterations in the EM algorithm, by default = 10
	11	#' @param maxi integer, maximum number of iterations in the EM algorithm, by default = 100
	12	#' @param eps real, threshold to say the EM algorithm converges, by default = 1e-4
	13	#' @param kmin integer, minimum number of clusters, by default = 2
	14	#' @param kmax integer, maximum number of clusters, by default = 10
	15	#' @param rank.min integer, minimum rank in the low rank procedure, by default = 1
	16	#' @param rank.max integer, maximum rank in the low rank procedure, by default = 5
	17	#' @param ncores_outer Number of cores for the outer loop on k
	18	#' @param ncores_inner Number of cores for the inner loop on lambda
	19	#' @param thresh real, threshold to say a variable is relevant, by default = 1e-8
	20	#' @param grid_lambda, a vector with regularization parameters if known, by default numeric(0)
	21	#' @param size_coll_mod (Maximum) size of a collection of models
	22	#' @param fast TRUE to use compiled C code, FALSE for R code only
	23	#' @param verbose TRUE to show some execution traces
	24	#' @param plot TRUE to plot the selected models after run
	25	#'
	26	#' @return
	27	#' The selected model if enough data are available to estimate it,
	28	#' or a list of models otherwise.
	29	#'
	30	#' @examples
	31	#' n = 50; m = 10; p = 5
	32	#' beta = array(0, dim=c(p,m,2))
	33	#' beta[,,1] = 1
	34	#' beta[,,2] = 2
	35	#' data = generateXY(n, c(0.4,0.6), rep(0,p), beta, diag(0.5, p), diag(0.5, m))
	36	#' X = data$X
	37	#' Y = data$Y
	38	#' res = runValse(X, Y)
	39	#' X <- matrix(runif(100), nrow=50)
	40	#' Y <- matrix(runif(100), nrow=50)
	41	#' res = runValse(X, Y)
	42	#'
	43	#' @export
	44	runValse <- function(X, Y, procedure = "LassoMLE", selecMod = "DDSE", gamma = 1, mini = 10,
	45	maxi = 50, eps = 1e-04, kmin = 2, kmax = 3, rank.min = 1, rank.max = 5, ncores_outer = 1,
	46	ncores_inner = 1, thresh = 1e-08, grid_lambda = numeric(0), size_coll_mod = 10,
	47	fast = TRUE, verbose = FALSE, plot = TRUE)
	48	{
	49	n <- nrow(X)
	50	p <- ncol(X)
	51	m <- ncol(Y)
	52
	53	if (verbose)
	54	print("main loop: over all k and all lambda")
	55
	56	if (ncores_outer > 1) {
	57	cl <- parallel::makeCluster(ncores_outer, outfile = "")
	58	parallel::clusterExport(cl = cl, envir = environment(), varlist = c("X",
	59	"Y", "procedure", "selecMod", "gamma", "mini", "maxi", "eps", "kmin",
	60	"kmax", "rank.min", "rank.max", "ncores_outer", "ncores_inner", "thresh",
	61	"size_coll_mod", "verbose", "p", "m"))
	62	}
	63
	64	# Compute models with k components
	65	computeModels <- function(k)
	66	{
	67	if (ncores_outer > 1)
	68	require("valse") #nodes start with an empty environment
	69
	70	if (verbose)
	71	print(paste("Parameters initialization for k =", k))
	72	# smallEM initializes parameters by k-means and regression model in each
	73	# component, doing this 20 times, and keeping the values maximizing the
	74	# likelihood after 10 iterations of the EM algorithm.
	75	P <- initSmallEM(k, X, Y, fast)
	76	if (length(grid_lambda) == 0)
	77	{
	78	grid_lambda <- computeGridLambda(P$phiInit, P$rhoInit, P$piInit, P$gamInit,
	79	X, Y, gamma, mini, maxi, eps, fast)
	80	}
	81	if (length(grid_lambda) > size_coll_mod)
	82	grid_lambda <- grid_lambda[seq(1, length(grid_lambda), length.out = size_coll_mod)]
	83
	84	if (verbose)
	85	print("Compute relevant parameters")
	86	# select variables according to each regularization parameter from the grid:
	87	# S$selected corresponding to selected variables
	88	S <- selectVariables(P$phiInit, P$rhoInit, P$piInit, P$gamInit, mini, maxi,
	89	gamma, grid_lambda, X, Y, thresh, eps, ncores_inner, fast)
	90
	91	if (procedure == "LassoMLE") {
	92	if (verbose)
	93	print("run the procedure Lasso-MLE")
	94	# compute parameter estimations, with the Maximum Likelihood Estimator,
	95	# restricted on selected variables.
	96	models <- constructionModelesLassoMLE(P$phiInit, P$rhoInit, P$piInit,
	97	P$gamInit, mini, maxi, gamma, X, Y, eps, S, ncores_inner, fast, verbose)
	98	} else {
	99	if (verbose)
	100	print("run the procedure Lasso-Rank")
	101	# compute parameter estimations, with the Low Rank Estimator, restricted on
	102	# selected variables.
	103	models <- constructionModelesLassoRank(S, k, mini, maxi, X, Y, eps, rank.min,
	104	rank.max, ncores_inner, fast, verbose)
	105	}
	106	# warning! Some models are NULL after running selectVariables
	107	models <- models[sapply(models, function(cell) !is.null(cell))]
	108	models
	109	}
	110
	111	# List (index k) of lists (index lambda) of models
	112	models_list <-
	113	if (ncores_outer > 1) {
	114	parLapply(cl, kmin:kmax, computeModels)
	115	} else {
	116	lapply(kmin:kmax, computeModels)
	117	}
	118	if (ncores_outer > 1)
	119	parallel::stopCluster(cl)
	120
	121	if (!requireNamespace("capushe", quietly = TRUE))
	122	{
	123	warning("'capushe' not available: returning all models")
	124	return(models_list)
	125	}
	126
	127	# Get summary 'tableauRecap' from models
	128	tableauRecap <- do.call(rbind, lapply(seq_along(models_list), function(i)
	129	{
	130	models <- models_list[[i]]
	131	# For a collection of models (same k, several lambda):
	132	LLH <- sapply(models, function(model) model$llh[1])
	133	k <- length(models[[1]]$pi)
	134	sumPen <- sapply(models, function(model) k * (dim(model$rho)[1] + sum(model$phi[,
	135	, 1] != 0) + 1) - 1)
	136	data.frame(model = paste(i, ".", seq_along(models), sep = ""), pen = sumPen/n,
	137	complexity = sumPen, contrast = -LLH)
	138	}))
	139	tableauRecap <- tableauRecap[which(tableauRecap[, 4] != Inf), ]
	140	if (verbose)
	141	print(tableauRecap)
	142
	143	if (nrow(tableauRecap) > 10) {
	144	modSel <- capushe::capushe(tableauRecap, n)
	145	indModSel <- if (selecMod == "DDSE")
	146	{
	147	as.numeric(modSel@DDSE@model)
	148	} else if (selecMod == "Djump")
	149	{
	150	as.numeric(modSel@Djump@model)
	151	} else if (selecMod == "BIC")
	152	{
	153	modSel@BIC_capushe$model
	154	} else if (selecMod == "AIC")
	155	{
	156	modSel@AIC_capushe$model
	157	}
	158	listMod <- as.integer(unlist(strsplit(as.character(indModSel), "[.]")))
	159	modelSel <- models_list[[listMod[1]]][[listMod[2]]]
	160	modelSel$models <- tableauRecap
	161
	162	if (plot)
	163	print(plot_valse(X, Y, modelSel))
	164	return(modelSel)
	165	}
	166	tableauRecap
	167	}