From: Benjamin Auder Date: Wed, 11 Jan 2017 16:49:31 +0000 (+0100) Subject: add test folder X-Git-Url: https://git.auder.net/%7B%7B%20asset%28%27mixstore/images/assets/current/doc/config.php?a=commitdiff_plain;h=7b2720733e9aebe177c211119a9ec160c7e7117b;p=valse.git add test folder --- diff --git a/src/test/.test.EMGLLF.c.swp b/src/test/.test.EMGLLF.c.swp new file mode 100644 index 0000000..176ac00 Binary files /dev/null and b/src/test/.test.EMGLLF.c.swp differ diff --git a/src/test/.utils.c.swp b/src/test/.utils.c.swp new file mode 100644 index 0000000..61f8f0a Binary files /dev/null and b/src/test/.utils.c.swp differ diff --git a/src/test/Makefile b/src/test/Makefile new file mode 100644 index 0000000..c4931ad --- /dev/null +++ b/src/test/Makefile @@ -0,0 +1,37 @@ +CC = gcc +CFLAGS = -g -std=gnu99 -Wno-implicit-function-declaration +LDFLAGS = -Lobj/ -lvalse_core +LIB = valse_core.so +LIB_SRC = $(wildcard ../sources/*.c) +LIB_OBJ = $(LIB_SRC:.c=.o) + +all: $(LIB) test.EMGLLF test.EMGrank test.constructionModelesLassoMLE test.EMGrank test.constructionModelesLassoRank test.selectionTotale + +$(LIB): $(LIB_OBJ) + $(CC) -o $@ $^ + +test.EMGLLF: test.EMGLLF.o + $(CC) -o $@ $^ $(LDFLAGS) + +test.constructionModelesLassoMLE: test.constructionModelesLassoMLE.o + $(CC) -o $@ $^ $(LDFLAGS) + +test.EMGrank: test.EMGrank.o + $(CC) -o $@ $^ $(LDFLAGS) + +test.constructionModelesLassoRank: test.constructionModelesLassoRank.o + $(CC) -o $@ $^ $(LDFLAGS) + +test.selectionTotale: test.selectionTotale.o + $(CC) -o $@ $^ $(LDFLAGS) + +%.o: %.c + $(CC) -o $@ -c $< $(CFLAGS) + +clean: + rm -f *.o ../sources/*.o + +cclean: clean + rm -f $(LIB) $(TEST) + +.PHONY: all clean cclean diff --git a/src/test/OLD_TEST_MATLAB/TODO b/src/test/OLD_TEST_MATLAB/TODO new file mode 100644 index 0000000..d4b05cf --- /dev/null +++ b/src/test/OLD_TEST_MATLAB/TODO @@ -0,0 +1,4 @@ +1) transformer les .m en .R +2) sauvegarder les résultats + entrée/sorties à partir du code R uniquement +3) dans test.Truc.c, prendre en entrée les paramètres de data/ juste sauvegardés, + puis comparer les sorties aux sorties enregistrées diff --git a/src/test/OLD_TEST_MATLAB/basicInitParameters.m b/src/test/OLD_TEST_MATLAB/basicInitParameters.m new file mode 100644 index 0000000..50410f5 --- /dev/null +++ b/src/test/OLD_TEST_MATLAB/basicInitParameters.m @@ -0,0 +1,19 @@ +function[phiInit,rhoInit,piInit,gamInit] = basicInitParameters(n,p,m,k) + + phiInit = zeros(p,m,k); + + piInit = (1.0/k) * ones(1,k); + + rhoInit = zeros(m,m,k); + for r=1:k + rhoInit(:,:,r) = eye(m,m); + end + + gamInit = 0.1 * ones(n,k); + R = random('unid',k,n,1); + for i=1:n + gamInit(i,R(i)) = 0.9; + end + gamInit = gamInit / (sum(gamInit(1,:))); + +end diff --git a/src/test/OLD_TEST_MATLAB/checkOutput.m b/src/test/OLD_TEST_MATLAB/checkOutput.m new file mode 100644 index 0000000..c56ed0b --- /dev/null +++ b/src/test/OLD_TEST_MATLAB/checkOutput.m @@ -0,0 +1,11 @@ +function[]=checkOutput(varName, matrix, refMatrix, tol) + + fprintf('Checking %s\n',varName); + maxError = max(max(max(max(abs(matrix - refMatrix))))); + if maxError >= tol + fprintf(' Inaccuracy: max(abs(error)) = %g >= %g\n',maxError,tol); + else + fprintf(' OK\n'); + end + +end diff --git a/src/test/OLD_TEST_MATLAB/covariance.m b/src/test/OLD_TEST_MATLAB/covariance.m new file mode 100644 index 0000000..839c33c --- /dev/null +++ b/src/test/OLD_TEST_MATLAB/covariance.m @@ -0,0 +1,9 @@ +%covariance matrix for tests on synthetic data: A(i,j) = a^|i-j| +function[A] = covariance(p,a) + + A = a*ones(p,p); + for i=1:p + A(i,:) = A(i,:) .^ abs(i-(1:p)); + end + +end diff --git a/src/test/OLD_TEST_MATLAB/generateIO.m b/src/test/OLD_TEST_MATLAB/generateIO.m new file mode 100644 index 0000000..c677fd2 --- /dev/null +++ b/src/test/OLD_TEST_MATLAB/generateIO.m @@ -0,0 +1,37 @@ +%X is generated following a gaussian mixture \sum pi_r N(meanX_k, covX_r) +%Y is generated then, with Y_i ~ \sum pi_r N(Beta_r.X_i, covY_r) +function[X,Y,Z] = generateIO(meanX, covX, covY, pi, beta, n) + + [p, ~, k] = size(covX); + [m, ~, ~] = size(covY); + if exist('octave_config_info') + %Octave statistics package doesn't have gmdistribution() + X = zeros(n, p); + Z = zeros(n); + cs = cumsum(pi); + for i=1:n + %TODO: vectorize ? http://stackoverflow.com/questions/2977497/weighted-random-numbers-in-matlab + tmpRand01 = rand(); + [~,Z(i)] = min(cs - tmpRand01 >= 0); + X(i,:) = mvnrnd(meanX(Z(i),:), covX(:,:,Z(i)), 1); + end + else + gmDistX = gmdistribution(meanX, covX, pi); + [X, Z] = random(gmDistX, n); + end + + Y = zeros(n, m); + BX = zeros(n,m,k); + for i=1:n + for r=1:k + %compute beta_r . X_i + BXir = zeros(1, m); + for mm=1:m + BXir(mm) = dot(X(i,:), beta(:,mm,r)); + end + %add pi(r) * N(beta_r . X_i, covY) to Y_i + Y(i,:) = Y(i,:) + pi(r) * mvnrnd(BXir, covY(:,:,r), 1); + end + end + +end diff --git a/src/test/OLD_TEST_MATLAB/generateIOdefault.m b/src/test/OLD_TEST_MATLAB/generateIOdefault.m new file mode 100644 index 0000000..f4c3c1f --- /dev/null +++ b/src/test/OLD_TEST_MATLAB/generateIOdefault.m @@ -0,0 +1,23 @@ +%call generateIO with default parameters (random means, covariances = identity, equirepartition) +function[X,Y,Z] = generateIOdefault(n, p, m, k) + + rangeX = 100; + meanX = rangeX * (1 - 2*rand(k, p)); + covX = zeros(p,p,k); + covY = zeros(m,m,k); + for r=1:k + covX(:,:,r) = eye(p); + covY(:,:,r) = eye(m); + end + pi = (1/k) * ones(1,k); + + %initialize beta to a random number of non-zero random value + beta = zeros(p,m,k); + for j=1:p + nonZeroCount = ceil(m*rand(1)); + beta(j,1:nonZeroCount,:) = rand(nonZeroCount, k); + end + + [X,Y,Z] = generateIO(meanX, covX, covY, pi, beta, n); + +end diff --git a/src/test/OLD_TEST_MATLAB/generateRunSaveTest_EMGLLF.m b/src/test/OLD_TEST_MATLAB/generateRunSaveTest_EMGLLF.m new file mode 100644 index 0000000..bf0badf --- /dev/null +++ b/src/test/OLD_TEST_MATLAB/generateRunSaveTest_EMGLLF.m @@ -0,0 +1,47 @@ +function[] = generateRunSaveTest_EMGLLF(n, p, m, k, mini, maxi, gamma, lambda, varargin) + + %set defaults for optional inputs + optargs = {200 15 10 3 5 10 1.0 0.5}; + %replace defaults by user parameters + optargs(1:length(varargin)) = varargin; + [n, p, m, k, mini, maxi, gamma, lambda] = optargs{:}; + tau = 1e-6; + mini = int64(mini); + maxi = int64(maxi); + + %Generate phiInit,piInit,... + [phiInit,rhoInit,piInit,gamInit] = basicInitParameters(n, p, m, k); + + %Generate X and Y + [X, Y, ~] = generateIOdefault(n, p, m, k); + + %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% + + testFolder = 'data/'; + mkdir(testFolder); + delimiter = '\n'; + + %save inputs + dlmwrite(strcat(testFolder,'phiInit'), reshape(phiInit,1,[]), delimiter); + dlmwrite(strcat(testFolder,'rhoInit'), reshape(rhoInit,1,[]), delimiter); + dlmwrite(strcat(testFolder,'piInit'), piInit, delimiter); + dlmwrite(strcat(testFolder,'gamInit'), reshape(gamInit,1,[]), delimiter); + dlmwrite(strcat(testFolder,'mini'), mini, delimiter); + dlmwrite(strcat(testFolder,'maxi'), maxi, delimiter); + dlmwrite(strcat(testFolder,'gamma'), gamma, delimiter); + dlmwrite(strcat(testFolder,'lambda'), lambda, delimiter); + dlmwrite(strcat(testFolder,'X'), reshape(X,1,[]), delimiter); + dlmwrite(strcat(testFolder,'Y'), reshape(Y,1,[]), delimiter); + dlmwrite(strcat(testFolder,'tau'), tau, delimiter); + dlmwrite(strcat(testFolder,'dimensions'), [n,p,m,k], delimiter); + + [phi,rho,pi,LLF,S] = EMGLLF(phiInit,rhoInit,piInit,gamInit,mini,maxi,gamma,lambda,X,Y,tau); + + %save output + dlmwrite(strcat(testFolder,'phi'), reshape(phi,1,[]), delimiter); + dlmwrite(strcat(testFolder,'rho'), reshape(rho,1,[]), delimiter); + dlmwrite(strcat(testFolder,'pi'), pi, delimiter); + dlmwrite(strcat(testFolder,'LLF'), LLF, delimiter); + dlmwrite(strcat(testFolder,'S'), reshape(S,1,[]), delimiter); + +end diff --git a/src/test/OLD_TEST_MATLAB/generateRunSaveTest_constructionModelesLassoMLE.m b/src/test/OLD_TEST_MATLAB/generateRunSaveTest_constructionModelesLassoMLE.m new file mode 100644 index 0000000..6e48d45 --- /dev/null +++ b/src/test/OLD_TEST_MATLAB/generateRunSaveTest_constructionModelesLassoMLE.m @@ -0,0 +1,62 @@ +function[] = generateRunSaveTest_constructionModelesLassoMLE(n, p, m, k, mini, maxi, gamma, glambda, varargin) + + %set defaults for optional inputs + optargs = {200 15 10 3 5 10 1.0 [0.0,0.01,0.02,0.03,0.05,0.1,0.2,0.3,0.5,0.7,0.85,0.99]}; + %replace defaults by user parameters + optargs(1:length(varargin)) = varargin; + [n, p, m, k, mini, maxi, gamma, glambda] = optargs{:}; + tau = 1e-6; + seuil = 1e-15; + mini = int64(mini); + maxi = int64(maxi); + L = length(glambda); + + %Generate phiInit,piInit,... + [phiInit,rhoInit,piInit,gamInit] = basicInitParameters(n, p, m, k); + + %Generate X and Y + [X, Y, ~] = generateIOdefault(n, p, m, k); + + A2 = zeros(p,m+1,L,'int64'); + for i=1:L + A2(:,1,i) = 1:p; + A2(1:5,2,i) = 1:5; + end + A1 = zeros(p,m+1,L,'int64'); + for i=1:L + A1(:,1,i) = 1:p; + A1(1:5,2,i) = 1:5; + end + + %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% + + testFolder = 'data/'; + mkdir(testFolder); + delimiter = '\n'; + + %save inputs + dlmwrite(strcat(testFolder,'phiInit'), reshape(phiInit,1,[]), delimiter); + dlmwrite(strcat(testFolder,'rhoInit'), reshape(rhoInit,1,[]), delimiter); + dlmwrite(strcat(testFolder,'piInit'), piInit, delimiter); + dlmwrite(strcat(testFolder,'gamInit'), reshape(gamInit,1,[]), delimiter); + dlmwrite(strcat(testFolder,'mini'), mini, delimiter); + dlmwrite(strcat(testFolder,'maxi'), maxi, delimiter); + dlmwrite(strcat(testFolder,'gamma'), gamma, delimiter); + dlmwrite(strcat(testFolder,'glambda'), glambda, delimiter); + dlmwrite(strcat(testFolder,'X'), reshape(X,1,[]), delimiter); + dlmwrite(strcat(testFolder,'Y'), reshape(Y,1,[]), delimiter); + dlmwrite(strcat(testFolder,'seuil'), seuil, delimiter); + dlmwrite(strcat(testFolder,'tau'), tau, delimiter); + dlmwrite(strcat(testFolder,'A1'), reshape(A1,1,[]), delimiter); + dlmwrite(strcat(testFolder,'A2'), reshape(A2,1,[]), delimiter); + dlmwrite(strcat(testFolder,'dimensions'), [n,p,m,k,L], delimiter); + + [phi,rho,pi,lvraisemblance] = constructionModelesLassoMLE(phiInit,rhoInit,piInit,gamInit,mini,maxi,gamma,glambda,X,Y,seuil,tau,A1,A2); + + %save output + dlmwrite(strcat(testFolder,'phi'), reshape(phi,1,[]), delimiter); + dlmwrite(strcat(testFolder,'rho'), reshape(rho,1,[]), delimiter); + dlmwrite(strcat(testFolder,'pi'), reshape(pi,1,[]), delimiter); + dlmwrite(strcat(testFolder,'lvraisemblance'), reshape(lvraisemblance,1,[]), delimiter); + +end diff --git a/src/test/OLD_TEST_MATLAB/generateRunSaveTest_selectiontotale.m b/src/test/OLD_TEST_MATLAB/generateRunSaveTest_selectiontotale.m new file mode 100644 index 0000000..6caee15 --- /dev/null +++ b/src/test/OLD_TEST_MATLAB/generateRunSaveTest_selectiontotale.m @@ -0,0 +1,49 @@ +function[] = generateRunSaveTest_selectiontotale(n, p, m, k, mini, maxi, gamma, glambda, varargin) + + %set defaults for optional inputs + optargs = {200 15 10 3 5 10 1.0 [0.0,0.01,0.02,0.03,0.05,0.1,0.2,0.3,0.5,0.7,0.85,0.99]}; + %replace defaults by user parameters + optargs(1:length(varargin)) = varargin; + [n, p, m, k, mini, maxi, gamma, glambda] = optargs{:}; + tau = 1e-6; + seuil = 1e-15; + mini = int64(mini); + maxi = int64(maxi); + L = length(glambda); + + %Generate phiInit,piInit,... + [phiInit,rhoInit,piInit,gamInit] = basicInitParameters(n, p, m, k); + + %Generate X and Y + [X, Y, ~] = generateIOdefault(n, p, m, k); + + %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% + + testFolder = 'data/'; + mkdir(testFolder); + delimiter = '\n'; + + %save inputs + dlmwrite(strcat(testFolder,'phiInit'), reshape(phiInit,1,[]), delimiter); + dlmwrite(strcat(testFolder,'rhoInit'), reshape(rhoInit,1,[]), delimiter); + dlmwrite(strcat(testFolder,'piInit'), piInit, delimiter); + dlmwrite(strcat(testFolder,'gamInit'), reshape(gamInit,1,[]), delimiter); + dlmwrite(strcat(testFolder,'mini'), mini, delimiter); + dlmwrite(strcat(testFolder,'maxi'), maxi, delimiter); + dlmwrite(strcat(testFolder,'gamma'), gamma, delimiter); + dlmwrite(strcat(testFolder,'glambda'), glambda, delimiter); + dlmwrite(strcat(testFolder,'X'), reshape(X,1,[]), delimiter); + dlmwrite(strcat(testFolder,'Y'), reshape(Y,1,[]), delimiter); + dlmwrite(strcat(testFolder,'seuil'), seuil, delimiter); + dlmwrite(strcat(testFolder,'tau'), tau, delimiter); + dlmwrite(strcat(testFolder,'dimensions'), [n,p,m,k,L], delimiter); + + [A1,A2,Rho,Pi] = selectiontotale(phiInit,rhoInit,piInit,gamInit,mini,maxi,gamma,glambda,X,Y,seuil,tau); + + %save output + dlmwrite(strcat(testFolder,'A1'), reshape(A1,1,[]), delimiter); + dlmwrite(strcat(testFolder,'A2'), reshape(A2,1,[]), delimiter); + dlmwrite(strcat(testFolder,'Rho'), reshape(Rho,1,[]), delimiter); + dlmwrite(strcat(testFolder,'Pi'), reshape(Pi,1,[]), delimiter); + +end diff --git a/src/test/OLD_TEST_MATLAB/testConstructionModelesLassoMLE.m b/src/test/OLD_TEST_MATLAB/testConstructionModelesLassoMLE.m new file mode 100644 index 0000000..27c1208 --- /dev/null +++ b/src/test/OLD_TEST_MATLAB/testConstructionModelesLassoMLE.m @@ -0,0 +1,46 @@ +function[] = testConstructionModelesLassoMLE() + + testFolder = 'data/'; + delimiter = '\n'; + + %get dimensions + dimensions = dlmread(strcat(testFolder,'dimensions'), delimiter); + n = dimensions(1); + p = dimensions(2); + m = dimensions(3); + k = dimensions(4); + L = dimensions(5); + + %get all input arrays + phiInit = reshape(dlmread(strcat(testFolder,'phiInit'), delimiter), p, m, k); + rhoInit = reshape(dlmread(strcat(testFolder,'rhoInit'), delimiter), m, m, k); + piInit = transpose(dlmread(strcat(testFolder,'piInit'), delimiter)); + gamInit = reshape(dlmread(strcat(testFolder,'gamInit'), delimiter), n, k); + mini = int64(dlmread(strcat(testFolder,'mini'), delimiter)); + maxi = int64(dlmread(strcat(testFolder,'maxi'), delimiter)); + gamma = dlmread(strcat(testFolder,'gamma'), delimiter); + glambda = dlmread(strcat(testFolder,'glambda'), delimiter); + X = reshape(dlmread(strcat(testFolder,'X'), delimiter), n, p); + Y = reshape(dlmread(strcat(testFolder,'Y'), delimiter), n, m); + seuil = dlmread(strcat(testFolder,'seuil'), delimiter); + tau = dlmread(strcat(testFolder,'tau'), delimiter); + A1 = int64(reshape(dlmread(strcat(testFolder,'A1'), delimiter), p, m+1, L)); + A2 = int64(reshape(dlmread(strcat(testFolder,'A2'), delimiter), p, m+1, L)); + + %run constructionModelesLassoMLE.m + [phi,rho,pi,lvraisemblance] = constructionModelesLassoMLE(phiInit,rhoInit,piInit,gamInit,mini,maxi,gamma,glambda,X,Y,seuil,tau,A1,A2); + + %get all stored outputs + ref_phi = reshape(dlmread(strcat(testFolder,'phi'), delimiter), p, m, k, L); + ref_rho = reshape(dlmread(strcat(testFolder,'rho'), delimiter), m, m, k, L); + ref_pi = reshape(dlmread(strcat(testFolder,'pi'), delimiter), k, L); + ref_lvraisemblance = reshape(dlmread(strcat(testFolder,'lvraisemblance'), delimiter), L, 2); + + %check that output correspond to stored output + tol = 1e-5; + checkOutput('phi',phi,ref_phi,tol); + checkOutput('rho',rho,ref_rho,tol); + checkOutput('pi',pi,ref_pi,tol); + checkOutput('lvraisemblance',lvraisemblance,ref_lvraisemblance,tol); + +end diff --git a/src/test/OLD_TEST_MATLAB/testEMGLLF.m b/src/test/OLD_TEST_MATLAB/testEMGLLF.m new file mode 100644 index 0000000..0dd9db8 --- /dev/null +++ b/src/test/OLD_TEST_MATLAB/testEMGLLF.m @@ -0,0 +1,44 @@ +function[] = testEMGLLF() + + testFolder = 'data/'; + delimiter = '\n'; + + %get dimensions + dimensions = dlmread(strcat(testFolder,'dimensions'), delimiter); + n = dimensions(1); + p = dimensions(2); + m = dimensions(3); + k = dimensions(4); + + %get all input arrays + phiInit = reshape(dlmread(strcat(testFolder,'phiInit'), delimiter), p, m, k); + rhoInit = reshape(dlmread(strcat(testFolder,'rhoInit'), delimiter), m, m, k); + piInit = transpose(dlmread(strcat(testFolder,'piInit'), delimiter)); + gamInit = reshape(dlmread(strcat(testFolder,'gamInit'), delimiter), n, k); + mini = int64(dlmread(strcat(testFolder,'mini'), delimiter)); + maxi = int64(dlmread(strcat(testFolder,'maxi'), delimiter)); + gamma = dlmread(strcat(testFolder,'gamma'), delimiter); + lambda = dlmread(strcat(testFolder,'lambda'), delimiter); + X = reshape(dlmread(strcat(testFolder,'X'), delimiter), n, p); + Y = reshape(dlmread(strcat(testFolder,'Y'), delimiter), n, m); + tau = dlmread(strcat(testFolder,'tau'), delimiter); + + %run EMGLLF.m + [phi,rho,pi,LLF,S] = EMGLLF(phiInit,rhoInit,piInit,gamInit,mini,maxi,gamma,lambda,X,Y,tau); + + %get all stored outputs + ref_phi = reshape(dlmread(strcat(testFolder,'phi'), delimiter), p, m, k); + ref_rho = reshape(dlmread(strcat(testFolder,'rho'), delimiter), m, m, k); + ref_pi = dlmread(strcat(testFolder,'pi'), delimiter); + ref_LLF = dlmread(strcat(testFolder,'LLF'), delimiter); + ref_S = reshape(dlmread(strcat(testFolder,'S'), delimiter), p, m, k); + + %check that output correspond to stored output + tol = 1e-5; + checkOutput('phi',phi,ref_phi,tol); + checkOutput('rho',rho,ref_rho,tol); + checkOutput('pi',pi,ref_pi,tol); + checkOutput('LLF',LLF,ref_LLF,tol); + checkOutput('S',S,ref_S,tol); + +end diff --git a/src/test/OLD_TEST_MATLAB/testSelectiontotale.m b/src/test/OLD_TEST_MATLAB/testSelectiontotale.m new file mode 100644 index 0000000..996017f --- /dev/null +++ b/src/test/OLD_TEST_MATLAB/testSelectiontotale.m @@ -0,0 +1,44 @@ +function[] = testSelectiontotale() + + testFolder = 'data/'; + delimiter = '\n'; + + %get dimensions + dimensions = dlmread(strcat(testFolder,'dimensions'), delimiter); + n = dimensions(1); + p = dimensions(2); + m = dimensions(3); + k = dimensions(4); + L = dimensions(5); + + %get all input arrays + phiInit = reshape(dlmread(strcat(testFolder,'phiInit'), delimiter), p, m, k); + rhoInit = reshape(dlmread(strcat(testFolder,'rhoInit'), delimiter), m, m, k); + piInit = transpose(dlmread(strcat(testFolder,'piInit'), delimiter)); + gamInit = reshape(dlmread(strcat(testFolder,'gamInit'), delimiter), n, k); + mini = int64(dlmread(strcat(testFolder,'mini'), delimiter)); + maxi = int64(dlmread(strcat(testFolder,'maxi'), delimiter)); + gamma = dlmread(strcat(testFolder,'gamma'), delimiter); + glambda = dlmread(strcat(testFolder,'glambda'), delimiter); + X = reshape(dlmread(strcat(testFolder,'X'), delimiter), n, p); + Y = reshape(dlmread(strcat(testFolder,'Y'), delimiter), n, m); + seuil = dlmread(strcat(testFolder,'seuil'), delimiter); + tau = dlmread(strcat(testFolder,'tau'), delimiter); + + %run constructionModelesLassoMLE.m + [A1,A2,Rho,Pi] = selectiontotale(phiInit,rhoInit,piInit,gamInit,mini,maxi,gamma,glambda,X,Y,seuil,tau); + + %get all stored outputs + ref_A1 = int64(reshape(dlmread(strcat(testFolder,'A1'), delimiter), p, m+1, L)); + ref_A2 = int64(reshape(dlmread(strcat(testFolder,'A2'), delimiter), p, m+1, L)); + ref_Rho = reshape(dlmread(strcat(testFolder,'Rho'), delimiter), m, m, k, L); + ref_Pi = reshape(dlmread(strcat(testFolder,'Pi'), delimiter), k, L); + + %check that output correspond to stored output + tol = 1e-5; + checkOutput('A1',A1,ref_A1,tol); + checkOutput('A2',A2,ref_A2,tol); + checkOutput('Rho',Rho,ref_Rho,tol); + checkOutput('Pi',Pi,ref_Pi,tol); + +end diff --git a/src/test/test.ConstructionModelesLassoMLE.c b/src/test/test.ConstructionModelesLassoMLE.c new file mode 100644 index 0000000..a6c0cce --- /dev/null +++ b/src/test/test.ConstructionModelesLassoMLE.c @@ -0,0 +1,143 @@ +#include "constructionModelesLassoMLE.h" +#include "ioutils.h" + +int main(int argc, char** argv) +{ + // read dimensions + const Int nbDims = 5; + Int* dimensions = readArray_int("dimensions",&nbDims,1); + mwSize n = dimensions[0]; + mwSize p = dimensions[1]; + mwSize m = dimensions[2]; + mwSize k = dimensions[3]; + mwSize L = dimensions[4]; + free(dimensions); + mwSize lengthOne = 1; + + //////////// + // INPUTS // + //////////// + + // phiInit + const mwSize dimPhiInit[] = {p, m, k}; + Real* phiInit = readArray_real("phiInit",dimPhiInit,3); + + // rhoInit + const mwSize dimRhoInit[] = {m, m, k}; + Real* rhoInit = readArray_real("rhoInit",dimRhoInit,3); + + // piInit + Real* piInit = readArray_real("piInit",&k,1); + + // gamInit + const mwSize dimGamInit[] = {n, k}; + Real* gamInit = readArray_real("gamInit",dimGamInit,2); + + // min number of iterations + Int* pmini = readArray_int("mini",&lengthOne,1); + Int mini = *pmini; + free(pmini); + + // max number of iterations + Int* pmaxi = readArray_int("maxi",&lengthOne,1); + Int maxi = *pmaxi; + free(pmaxi); + + // gamma + Real* pgamma = readArray_real("gamma",&lengthOne,1); + Real gamma = *pgamma; + free(pgamma); + + // lambda + Real* glambda = readArray_real("glambda",&L,1); + + // X + const mwSize dimX[] = {n, p}; + Real* X = readArray_real("X",dimX,2); + + // Y + const mwSize dimY[] = {n, m}; + Real* Y = readArray_real("Y",dimY,2); + + // seuil + Real* pseuil = readArray_real("seuil",&lengthOne,1); + Real seuil = *pseuil; + free(pseuil); + + // tau + Real* ptau = readArray_real("tau",&lengthOne,1); + Real tau = *ptau; + free(ptau); + + // A1 + const mwSize dimA[] = {p, m+1, L}; + Int* A1 = readArray_int("A1",dimA,3); + + // A2 + Int* A2 = readArray_int("A2",dimA,3); + + ///////////// + // OUTPUTS // + ///////////// + + // phi + const mwSize dimPhi[] = {dimPhiInit[0], dimPhiInit[1], dimPhiInit[2], L}; + Real* phi = (Real*)malloc(dimPhi[0]*dimPhi[1]*dimPhi[2]*dimPhi[3]*sizeof(Real)); + + // rho + const mwSize dimRho[] = {dimRhoInit[0], dimRhoInit[1], dimRhoInit[2], L}; + Real* rho = (Real*)malloc(dimRho[0]*dimRho[1]*dimRho[2]*dimRho[3]*sizeof(Real)); + + // pi + const mwSize dimPi[] = {k, L}; + Real* pi = (Real*)malloc(dimPi[0]*dimPi[1]*sizeof(Real)); + + // lvraisemblance + const mwSize dimLvraisemblance[] = {L, 2}; + Real* lvraisemblance = (Real*)malloc(dimLvraisemblance[0]*dimLvraisemblance[1]*sizeof(Real)); + + ///////////////////////////////////////// + // Call to constructionModelesLassoMLE // + ///////////////////////////////////////// + + constructionModelesLassoMLE( + phiInit,rhoInit,piInit,gamInit,mini,maxi,gamma,glambda,X,Y,seuil,tau,A1,A2, + phi,rho,pi,lvraisemblance, + n,p,m,k,L); + + free(phiInit); + free(rhoInit); + free(piInit); + free(gamInit); + free(X); + free(Y); + free(A1); + free(A2); + free(glambda); + + // Compare to reference outputs + Real* ref_phi = readArray_real("phi",dimPhi,4); + compareArray_real("phi", phi, ref_phi, dimPhi[0]*dimPhi[1]*dimPhi[2]*dimPhi[3]); + free(phi); + free(ref_phi); + + // rho + Real* ref_rho = readArray_real("rho",dimRho,4); + compareArray_real("rho", rho, ref_rho, dimRho[0]*dimRho[1]*dimRho[2]*dimRho[3]); + free(rho); + free(ref_rho); + + // pi + Real* ref_pi = readArray_real("pi",dimPi,2); + compareArray_real("pi", pi, ref_pi, dimPi[0]*dimPi[1]); + free(pi); + free(ref_pi); + + // lvraisemblance + Real* ref_lvraisemblance = readArray_real("lvraisemblance",dimLvraisemblance,2); + compareArray_real("lvraisemblance", lvraisemblance, ref_lvraisemblance, dimLvraisemblance[0]*dimLvraisemblance[1]); + free(lvraisemblance); + free(ref_lvraisemblance); + + return 0; +} diff --git a/src/test/test.EMGLLF.c b/src/test/test.EMGLLF.c new file mode 100644 index 0000000..60516bc --- /dev/null +++ b/src/test/test.EMGLLF.c @@ -0,0 +1,81 @@ +#include "EMGLLF.h" +#include "ioutils.h" + +int main(int argc, char** argv) +{ + //////////// + // INPUTS // + //////////// + + Int* dimensions = readArray_int("dimensions"); + mwSize n = dimensions[0]; + mwSize p = dimensions[1]; + mwSize m = dimensions[2]; + mwSize k = dimensions[3]; + free(dimensions); + + Real* phiInit = readArray_real("phiInit"); + Real* rhoInit = readArray_real("rhoInit"); + Real* piInit = readArray_real("piInit"); + Real* gamInit = readArray_real("gamInit"); + Int mini = read_int("mini"); + Int maxi = read_int("maxi"); + Real gamma = read_real("gamma"); + Real lambda = read_real("lambda"); + Real* X = readArray_real("X"); + Real* Y = readArray_real("Y"); + Real tau = read_real("tau"); + + ///////////// + // OUTPUTS // + ///////////// + + Real* phi = (Real*)malloc(p*m*k*sizeof(Real)); + Real* rho = (Real*)malloc(m*m*k*sizeof(Real)); + Real* pi = (Real*)malloc(k*sizeof(Real)); + Real* LLF = (Real*)malloc(maxi*sizeof(Real)); + Real* S = (Real*)malloc(p*m*k*sizeof(Real)); + + //////////////////// + // Call to EMGLLF // + //////////////////// + + EMGLLF_core(phiInit,rhoInit,piInit,gamInit,mini,maxi,gamma,lambda,X,Y,tau, + phi,rho,pi,LLF,S, + n,p,m,k); + + free(phiInit); + free(rhoInit); + free(piInit); + free(gamInit); + free(X); + free(Y); + + // Compare to reference outputs + Real* ref_phi = readArray_real("phi"); + compareArray_real("phi", phi, ref_phi, p*m*k); + free(phi); + free(ref_phi); + + Real* ref_rho = readArray_real("rho"); + compareArray_real("rho", rho, ref_rho, m*m*k); + free(rho); + free(ref_rho); + + Real* ref_pi = readArray_real("pi"); + compareArray_real("pi", pi, ref_pi, k); + free(pi); + free(ref_pi); + + Real* ref_LLF = readArray_real("LLF", maxi); + compareArray_real("LLF", LLF, ref_LLF); + free(LLF); + free(ref_LLF); + + Real* ref_S = readArray_real("S"); + compareArray_real("S", S, ref_S, p*m*k); + free(S); + free(ref_S); + + return 0; +} diff --git a/src/test/test.EMGrank.c b/src/test/test.EMGrank.c new file mode 100644 index 0000000..1227738 --- /dev/null +++ b/src/test/test.EMGrank.c @@ -0,0 +1,92 @@ +#include "EMGrank.h" +#include "ioutils.h" + +int main(int argc, char** argv) +{ + // read dimensions + const Int nbDims = 4; + Int* dimensions = readArray_int("dimensions",&nbDims,1); + mwSize n = dimensions[0]; + mwSize p = dimensions[1]; + mwSize m = dimensions[2]; + mwSize k = dimensions[3]; + free(dimensions); + mwSize lengthOne = 1; + + //////////// + // INPUTS // + //////////// + + // Rho + const mwSize dimRho[] = {m, m, k}; + Real* Rho = readArray_real("Rho",dimRho,3); + + // Pi + Real* Pi = readArray_real("Pi",&k,1); + + // min number of iterations + Int* pmini = readArray_int("mini",&lengthOne,1); + Int mini = *pmini; + free(pmini); + + // max number of iterations + Int* pmaxi = readArray_int("maxi",&lengthOne,1); + Int maxi = *pmaxi; + free(pmaxi); + + // X + const mwSize dimX[] = {n, p}; + Real* X = readArray_real("X",dimX, 2); + + // Y + const mwSize dimY[] = {n, m}; + Real* Y = readArray_real("Y",dimY, 2); + + // tau + Real* ptau = readArray_real("tau",&lengthOne,1); + Real tau = *ptau; + free(ptau); + + // tau + Int* rank = readArray_int("rank",&k,1); + + ///////////// + // OUTPUTS // + ///////////// + + // phi + const mwSize dimPhi[] = {p, m, k}; + Real* phi = (Real*)malloc(dimPhi[0]*dimPhi[1]*dimPhi[2]*sizeof(Real)); + + // LLF + Real* LLF = (Real*)malloc(1*sizeof(Real)); + + ////////////////////////// + // Main call to EMGrank // + ////////////////////////// + + EMGrank(Pi,Rho,mini,maxi,X,Y,tau,rank, + phi,LLF, + n,p,m,k); + + // free input pointers + free(Rho); + free(Pi); + free(X); + free(Y); + free(rank); + + // Compare to reference outputs + Real* ref_phi = readArray_real("phi",dimPhi, 3); + compareArray_real("phi", phi, ref_phi, dimPhi[0]*dimPhi[1]*dimPhi[2]); + free(phi); + free(ref_phi); + + // LLF + Real* ref_LLF = readArray_real("LLF",&lengthOne,1); + compareArray_real("LLF", LLF, ref_LLF, 1); + free(LLF); + free(ref_LLF); + + return 0; +} diff --git a/src/test/test.constructionModelesLassoRank.c b/src/test/test.constructionModelesLassoRank.c new file mode 100644 index 0000000..2232e9e --- /dev/null +++ b/src/test/test.constructionModelesLassoRank.c @@ -0,0 +1,107 @@ +#include "constructionModelesLassoRank.h" +#include "ioutils.h" + +int main(int argc, char** argv) +{ + // read dimensions + const Int nbDims = 5; + Int* dimensions = readArray_int("dimensions",&nbDims,1); + mwSize n = dimensions[0]; + mwSize p = dimensions[1]; + mwSize m = dimensions[2]; + mwSize k = dimensions[3]; + mwSize L = dimensions[4]; + free(dimensions); + mwSize lengthOne = 1; + + //////////// + // INPUTS // + //////////// + + // piInit + const mwSize dimPi[] = {k, L}; + Real* Pi = readArray_real("Pi",dimPi,2); + + // rhoInit + const mwSize dimRho[] = {m, m, k, L}; + Real* Rho = readArray_real("Rho",dimRho,4); + + // min number of iterations + Int* pmini = readArray_int("mini",&lengthOne,1); + Int mini = *pmini; + free(pmini); + + // max number of iterations + Int* pmaxi = readArray_int("maxi",&lengthOne,1); + Int maxi = *pmaxi; + free(pmaxi); + + // X + const mwSize dimX[] = {n, p}; + Real* X = readArray_real("X",dimX,2); + + // Y + const mwSize dimY[] = {n, m}; + Real* Y = readArray_real("Y",dimY,2); + + // tau + Real* ptau = readArray_real("tau",&lengthOne,1); + Real tau = *ptau; + free(ptau); + + // A1 + const mwSize dimA[] = {p, L}; + Int* A1 = readArray_int("A1",dimA,2); + + // rangmin + Int* prangmin = readArray_int("rangmin",&lengthOne,1); + Int rangmin = *prangmin; + free(prangmin); + + // rangmax + Int* prangmax = readArray_int("rangmax",&lengthOne,1); + Int rangmax = *prangmax; + free(prangmax); + + ///////////// + // OUTPUTS // + ///////////// + + // phi + mwSize Size = (mwSize)pow(rangmax-rangmin+1, k); + const mwSize dimPhi[] = {p, m, k, L*Size}; + Real* phi = (Real*)malloc(dimPhi[0]*dimPhi[1]*dimPhi[2]*dimPhi[3]*sizeof(Real)); + + // lvraisemblance + const mwSize dimLvraisemblance[] = {L*Size, 2}; + Real* lvraisemblance = (Real*)malloc(dimLvraisemblance[0]*dimLvraisemblance[1]*sizeof(Real)); + + ////////////////////////////////////////////// + // Main call to constructionModelesLassoMLE // + ////////////////////////////////////////////// + + constructionModelesLassoRank( + Pi,Rho,mini,maxi,X,Y,tau,A1,rangmin,rangmax, + phi,lvraisemblance, + n,p,m,k,L); + + free(Rho); + free(Pi); + free(X); + free(Y); + free(A1); + + // Compare to reference outputs + Real* ref_phi = readArray_real("phi",dimPhi, 4); + compareArray_real("phi", phi, ref_phi, dimPhi[0]*dimPhi[1]*dimPhi[2]*dimPhi[3]); + free(phi); + free(ref_phi); + + // lvraisemblance + Real* ref_lvraisemblance = readArray_real("lvraisemblance",dimLvraisemblance,2); + compareArray_real("lvraisemblance", lvraisemblance, ref_lvraisemblance, dimLvraisemblance[0]*dimLvraisemblance[1]); + free(lvraisemblance); + free(ref_lvraisemblance); + + return 0; +} diff --git a/src/test/test.selectiontotale.c b/src/test/test.selectiontotale.c new file mode 100644 index 0000000..45cb461 --- /dev/null +++ b/src/test/test.selectiontotale.c @@ -0,0 +1,134 @@ +#include "selectiontotale.h" +#include "ioutils.h" + +mwSize main(mwSize argc, char** argv) +{ + // read dimensions + const Int nbDims = 5; + Int* dimensions = readArray_int("dimensions",&nbDims,1); + mwSize n = dimensions[0]; + mwSize p = dimensions[1]; + mwSize m = dimensions[2]; + mwSize k = dimensions[3]; + mwSize L = dimensions[4]; + free(dimensions); + mwSize lengthOne = 1; + + //////////// + // INPUTS // + //////////// + + // phiInit + const mwSize dimPhiInit[] = {p, m, k}; + Real* phiInit = readArray_real("phiInit",dimPhiInit,3); + + // rhoInit + const mwSize dimRhoInit[] = {m, m, k}; + Real* rhoInit = readArray_real("rhoInit",dimRhoInit,3); + + // piInit + Real* piInit = readArray_real("piInit",&k,1); + + // gamInit + const mwSize dimGamInit[] = {n, k}; + Real* gamInit = readArray_real("gamInit",dimGamInit, 2); + + // min number of iterations + Int* pmini = readArray_int("mini",&lengthOne,1); + Int mini = *pmini; + free(pmini); + + // max number of iterations + Int* pmaxi = readArray_int("maxi",&lengthOne,1); + Int maxi = *pmaxi; + free(pmaxi); + + // gamma + Real* pgamma = readArray_real("gamma",&lengthOne,1); + Real gamma = *pgamma; + free(pgamma); + + // lambda + Real* glambda = readArray_real("glambda",&L,1); + + // X + const mwSize dimX[] = {n, p}; + Real* X = readArray_real("X",dimX,2); + + // Y + const mwSize dimY[] = {n, m}; + Real* Y = readArray_real("Y",dimY,2); + + // seuil + Real* pseuil = readArray_real("seuil",&lengthOne,1); + Real seuil = *pseuil; + free(pseuil); + + // tau + Real* ptau = readArray_real("tau",&lengthOne,1); + Real tau = *ptau; + free(ptau); + + ///////////// + // OUTPUTS // + ///////////// + + // A1 + const mwSize dimA[] = {p, m+1, L}; + Int* A1 = (Int*)malloc(dimA[0]*dimA[1]*dimA[2]*sizeof(Int)); + + // A2 + Int* A2 = (Int*)malloc(dimA[0]*dimA[1]*dimA[2]*sizeof(Int)); + + // rho + const mwSize dimRho[] = {m, m, k, L}; + Real* Rho = (Real*)malloc(dimRho[0]*dimRho[1]*dimRho[2]*dimRho[3]*sizeof(Real)); + + // pi + const mwSize dimPi[] = {k, L}; + Real* Pi = (Real*)malloc(dimPi[0]*dimPi[1]*sizeof(Real)); + + ////////////////////////////////////////////// + // Main call to constructionModelesLassoMLE // + ////////////////////////////////////////////// + + selectiontotale( + phiInit,rhoInit,piInit,gamInit,mini,maxi,gamma,glambda,X,Y,seuil,tau, + A1,A2,Rho,Pi, + n,p,m,k,L); + + // free input pointers + free(phiInit); + free(rhoInit); + free(piInit); + free(gamInit); + free(glambda); + free(X); + free(Y); + + // Compare to reference outputs + Int* ref_A1 = readArray_int("A1",dimA, 3); + compareArray_int("A1", A1, ref_A1, dimA[0]*dimA[1]*dimA[2]); + free(A1); + free(ref_A1); + + // A2 + Int* ref_A2 = readArray_int("A2",dimA, 3); + compareArray_int("A2", A2, ref_A2, dimA[0]*dimA[1]*dimA[2]); + free(A2); + free(ref_A2); + + // Rho + Real* ref_Rho = readArray_real("Rho",dimRho, 4); + compareArray_real("Rho", Rho, ref_Rho, dimRho[0]*dimRho[1]*dimRho[2]*dimRho[3]); + free(Rho); + free(ref_Rho); + + // Pi + Real* ref_Pi = readArray_real("Pi",dimPi, 2); + compareArray_real("Pi", Pi, ref_Pi, dimPi[0]*dimPi[1]); + free(Pi); + free(ref_Pi); + + return 0; +} diff --git a/src/test/utils.c b/src/test/utils.c new file mode 100644 index 0000000..7cdf740 --- /dev/null +++ b/src/test/utils.c @@ -0,0 +1,81 @@ +// Check if array == refArray +void compareArray(const char* ID, const void* array, const void* refArray, int size, + int isInteger) +{ + Real EPS = 1e-5; //precision + printf("Checking %s\n",ID); + Real maxError = 0.0; + for (mwSize i=0; i= maxError) + maxError = error; + } + if (maxError >= EPS) + printf(" Inaccuracy: max(abs(error)) = %g >= %g\n",maxError,EPS); + else + printf(" OK\n"); +} + +void compareArray_real(const char* ID, const void* array, const void* refArray, int size) +{ + return compareArray(ID, array, refArray, size, 0); +} + +void compareArray_int(const char* ID, const void* array, const void* refArray, int size) +{ + return compareArray(ID, array, refArray, size, 1); +} + +// Read array by columns (as in MATLAB) and return by-rows encoding +void* readArray(const char* fileName, int isInteger) +{ + // need to prepend '../data/' (not really nice code...) + char* fullFileName = (char*)calloc(5+strlen(fileName)+1,sizeof(char)); + strcat(fullFileName, "data/"); + strcat(fullFileName, fileName); + FILE* file = fopen(fullFileName, "r"); + free(fullFileName); + + // first pass to know how many elements to allocate + // /////................... TODO + + int d = 1; + for (int i=0; i