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initCobraToolbox.m
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initCobraToolbox.m
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function initCobraToolbox(updateToolbox)
% _____ _____ _____ _____ _____ |
% / ___| / _ \ | _ \ | _ \ / ___ \ | COnstraint-Based Reconstruction and Analysis
% | | | | | | | |_| | | |_| | | |___| | | The COBRA Toolbox verson 3.1
% | | | | | | | _ { | _ / | ___ | |
% | |___ | |_| | | |_| | | | \ \ | | | | | Documentation:
% \_____| \_____/ |_____/ |_| \_\ |_| |_| | http://opencobra.github.io/cobratoolbox
% |
%
% initCobraToolbox Initialize COnstraint-Based Reconstruction and Analysis Toolbox
%
% Defines default solvers and paths, tests SBML io functionality.
% Function only needs to be called once per installation. Saves paths afer script terminates.
%
% In addition add either of the following into startup.m (generally in MATLAB_DIRECTORY/toolbox/local/startup.m)
%
% initCobraToolbox
% -or-
% changeCobraSolver('gurobi','all');
% changeCobraSolver('mosek', 'CLP');
%
% Maintained by Ronan M.T. Fleming
% define GLOBAL variables
global CBTDIR;
global SOLVERS;
global OPT_PROB_TYPES;
global CBT_LP_SOLVER;
global CBT_QP_SOLVER;
global CBT_EP_SOLVER;
global CBT_CLP_SOLVER;
global CBT_MILP_SOLVER;
global CBT_MIQP_SOLVER;
global CBT_NLP_SOLVER;
global GUROBI_PATH;
global ILOG_CPLEX_PATH;
global TOMLAB_PATH;
global MOSEK_PATH;
global WAITBAR_TYPE;
global ENV_VARS;
global gitBashVersion;
global CBT_MISSING_REQUIREMENTS_ERROR_ID;
if ~exist('updateToolbox','var')
updateToolbox = true;
end
% define a base version of gitBash that is tested
gitBashVersion = '2.13.3';
% Set the Requirements Error Message ID:
CBT_MISSING_REQUIREMENTS_ERROR_ID = 'COBRA:RequirementsNotMet';
% default waitbar is of type text
if isempty(WAITBAR_TYPE)
WAITBAR_TYPE = 1;
end
% Linux only - default save path location
defaultSavePathLocation = '~/pathdef.m';
% initialize the cell of solvers
SOLVERS = {};
% declare that the environment variables have not yet been configured
ENV_VARS.STATUS = 0;
% initialize the paths
if exist('GUROBI_PATH', 'var') ~= 1
GUROBI_PATH = '';
end
if exist('ILOG_CPLEX_PATH', 'var') ~= 1
ILOG_CPLEX_PATH = '';
end
if exist('TOMLAB_PATH', 'var') ~= 1
TOMLAB_PATH = '';
end
if exist('MOSEK_PATH', 'var') ~= 1
MOSEK_PATH = '';
end
% print header
if ~isfield(ENV_VARS, 'printLevel') || ENV_VARS.printLevel
docLink = 'http://opencobra.github.io/cobratoolbox';
if usejava('desktop')
docLink = ['<a href=\"', docLink, '\">', docLink, '</a>'];
end
c = clock;
fprintf('\n\n _____ _____ _____ _____ _____ |\n');
fprintf(' / ___| / _ \\ | _ \\ | _ \\ / ___ \\ | COnstraint-Based Reconstruction and Analysis\n');
fprintf([' | | | | | | | |_| | | |_| | | |___| | | The COBRA Toolbox - ' num2str(c(1)) '\n']);
fprintf(' | | | | | | | _ { | _ / | ___ | |\n');
fprintf(' | |___ | |_| | | |_| | | | \\ \\ | | | | | Documentation:\n');
fprintf([' \\_____| \\_____/ |_____/ |_| \\_\\ |_| |_| | ', docLink, '\n']);
fprintf(' | \n\n');
ENV_VARS.printLevel = true;
end
% retrieve the current directory
currentDir = pwd;
% define the root path of The COBRA Toolbox and change to it.
CBTDIR = fileparts(which('initCobraToolbox'));
cd(CBTDIR);
if 0
% add the external install folder
addpath(genpath([CBTDIR filesep 'external' filesep 'base' filesep 'install']));
%And the rdir directory
addpath(genpath([CBTDIR filesep 'external' filesep 'base' filesep 'utilities' filesep 'rdir']));
else
%add the entire external folder
addpath(genpath([CBTDIR filesep 'external']))
end
% add the install folder
addpath(genpath([CBTDIR filesep 'src' filesep 'base' filesep 'install']));
% check if git is installed
[installedGit, versionGit] = checkGit();
% set the depth flag if the version of git is higher than 2.10.0
depthFlag = '';
if installedGit && versionGit > 2100
depthFlag = '--depth=1';
end
% change to the root of The COBRA Tooolbox
cd(CBTDIR);
% configure a remote tracking repository
if ENV_VARS.printLevel
fprintf(' > Checking if the repository is tracked using git ... ');
end
% check if the directory is a git-tracked folder
if installedGit && exist([CBTDIR filesep '.git'], 'dir') ~= 7
% initialize the directory
[status_gitInit, result_gitInit] = system('git init');
if status_gitInit ~= 0
fprintf(result_gitInit);
error(' > This directory is not a git repository.\n');
end
% set the remote origin
[status_setOrigin, result_setOrigin] = system('git remote add origin https://github.com/opencobra/cobratoolbox.git');
if status_setOrigin ~= 0
fprintf(result_setOrigin);
error(' > The remote tracking origin could not be set.');
end
% check curl
[status_curl, result_curl] = checkCurlAndRemote();
if status_curl == 0
% set the remote origin
[status_fetch, result_fetch] = system(['git fetch origin master ' depthFlag]);
if status_fetch ~= 0
fprintf(result_fetch);
error(' > The files could not be fetched.');
end
[status_resetMixed, result_resetMixed] = system('git reset --mixed origin/master');
if status_resetMixed ~= 0
fprintf(result_resetMixed);
error(' > The remote tracking origin could not be set.');
end
end
end
if ENV_VARS.printLevel
fprintf(' Done.\n');
end
if installedGit
% temporary disable ssl verification
[status_setSSLVerify, result_setSSLVerify] = system('git config --global http.sslVerify false');
if status_setSSLVerify ~= 0
fprintf(strrep(result_setSSLVerify, '\', '\\'));
warning('Your global git configuration could not be changed.');
end
end
% check curl
[status_curl, result_curl] = checkCurlAndRemote(false);
submoduleWarning=0;
if installedGit
% check if the URL exists
if exist([CBTDIR filesep 'binary' filesep 'README.md'], 'file') && status_curl ~= 0
fprintf(' > Submodules exist but cannot be updated (remote cannot be reached).\n');
elseif status_curl == 0
if ENV_VARS.printLevel
fprintf(' > Initializing and updating submodules (this may take a while)...');
end
% Clean the test/models folder
[status, result] = system('git submodule status models');
if status == 0 && strcmp(result(1), '-')
[status, message, messageid] = rmdir([CBTDIR filesep 'test' filesep 'models'], 's');
end
%Check for changes to submodules
[status_gitSubmodule, result_gitSubmodule] = system('git submodule foreach git status');
if status_gitSubmodule==0
if contains(result_gitSubmodule,'modified') || contains(result_gitSubmodule,'Untracked files')
submoduleWarning = 1;
[status_gitSubmodule, result_gitSubmodule] = system('git submodule foreach git stash push -u');
if status_gitSubmodule==0
fprintf('\n%s\n','***Local changes to submodules have been stashed. See https://git-scm.com/docs/git-stash.')
disp(result_gitSubmodule)
end
end
end
% Update/initialize submodules
%By default your submodules repository is in a state called 'detached HEAD'.
%This means that the checked-out commit -- which is the one that the super-project (core) needs -- is not associated with a local branch name.
%[status_gitSubmodule, result_gitSubmodule] = system(['git submodule update --init --remote --no-fetch ' depthFlag]);%old
%[status_gitSubmodule, result_gitSubmodule] = system(['git submodule foreach git submodule update --init --recursive']);% 23/9/21 RF submodules point to master
[status_gitSubmoduleInit, result_gitSubmoduleInit] = system('git submodule update --init --recursive --depth 1');% 23/9/21 RF submodules point to master, don't pull in remote changes
%[status_gitSubmodule, result_gitSubmodule] = system('git submodule foreach git checkout master');
% [status_gitSubmodule, result_gitSubmodule] = system('git submodule foreach git checkout master');% 30/9/21 RF submodules point to master, don't pull in remote changes
%
if status_gitSubmoduleInit ~= 0
fprintf(strrep(result_gitSubmoduleInit, '\', '\\'));
error('The submodules could not be initialized.');
end
% 19/01/2024 FZ Get all submodule path
submoduleInfo = evalc('system(''git submodule foreach echo $path'')');
% Extract submodule paths using regular expressions
pattern = 'Entering ''(.+?)''';
matches = regexp(submoduleInfo, pattern, 'tokens');
% Extract submodule paths from the matches
submodulePaths = cellfun(@(x) x{1}, matches, 'UniformOutput', false);
if isempty(submodulePaths)
error('Failed to retrieve submodules paths.');
end
for i = 1:length(submodulePaths)
% Run Git commands using the full path
submodulePath = fullfile(CBTDIR, submodulePaths{i});
% submodules point to master, don't pull in remote changes
[status_gitSubmodule, result_gitSubmodule] = system(['git -C "', submodulePath, '" checkout master']);
% In the cases where the default branch name is main, submodule
% points to main
if status_gitSubmodule
[status_gitSubmodule, result_gitSubmodule] = system(['git -C "', submodulePath, '" checkout main']);
end
if status_gitSubmodule
error('Failed to checkout submodule: %s to its default branch.', submodulePath);
end
end
% reset each submodule
%https://github.com/bazelbuild/continuous-integration/issues/727
%[status_gitReset, result_gitReset] = system('git submodule foreach --recursive git reset --hard');
%[status_gitReset, result_gitReset] = system('git submodule foreach --recursive "git reset --hard"'); % [opencobra/cobratoolbox] Matlab installation error (#1490)
%[status_gitReset, result_gitReset] = system('git submodule foreach --recursive --git reset --hard');%old
% if status_gitReset ~= 0
% fprintf(strrep(result_gitReset, '\', '\\'));
% warning('The submodules could not be reset.');
% end
if ENV_VARS.printLevel
fprintf(' Done.\n');
end
end
% List all files in the supplied (git tracked) Directory with their absolute path name
% based on the git ls-file command. If the directory is not git controlled, the
% type is assumed to be 'all' and all files (except for .git files
% will be returned).
%get the current content of the init Folder
dirContent = getFilesInDir('type','all');
else
%warning('Git is not installed so the submodules could not be populated.%s\n','Some of the dependencies of the cobra toolbox are not satisfied.%s\n','Trying to proceed without submodules!%s\n')
fprintf('%s\n','Git not installed, proceeding without initialising submodules.')
end
% add the folders of The COBRA Toolbox
folders = {'tutorials', 'papers', 'binary', 'deprecated', 'src', 'test', '.tmp'};
if ENV_VARS.printLevel
fprintf(' > Adding all the files of The COBRA Toolbox ... ')
end
% add the root folder
addpath(CBTDIR);
% add the external folder
addpath(genpath([CBTDIR filesep 'external']));
% add specific subfolders
for k = 1:length(folders)
tmpDir = [CBTDIR, filesep, folders{k}];
if exist(tmpDir, 'dir') == 7
addpath(genpath(tmpDir));
end
end
%Adapt the mac path depending on the mac version.
if ismac
adaptMacPath()
end
% add the docs/source/notes folder
addpath(genpath([CBTDIR filesep 'docs' filesep 'source' filesep 'notes']));
% print a success message
if ENV_VARS.printLevel
fprintf(' Done.\n');
end
% Define default CB map output
if ENV_VARS.printLevel
fprintf(' > Define CB map output...');
end
for CbMapOutput = {'svg', 'matlab'}
CbMapOutputOK = changeCbMapOutput(char(CbMapOutput));
if CbMapOutputOK
break;
end
end
if CbMapOutputOK
if ENV_VARS.printLevel
fprintf(' set to %s.\n', char(CbMapOutput));
end
else
if ENV_VARS.printLevel
fprintf('FAILED.\n');
end
end
%refresh field properties in memory in case they have been updated
clear getDefinedFieldProperties
fields = getDefinedFieldProperties();
% define xml test file
xmlTestModel = 'ecoli_core_model.xml';
xmlTestFile = [getDistributedModelFolder(xmlTestModel) filesep xmlTestModel];
% save the userpath
originalUserPath = path;
% requires the solver compatibility to be re-read at each initialisation
clear isCompatible
% Check that SBML toolbox is installed and accessible
if ~exist('TranslateSBML', 'file')
if ENV_VARS.printLevel
warning('libsbml binaries not on Matlab path: COBRA Toolbox will be unable to read/write SBML files');
end
else
% Test the installation with:
try
TranslateSBML(xmlTestFile);
if ENV_VARS.printLevel
fprintf(' > TranslateSBML is installed and working properly.\n');
end
catch
if ENV_VARS.printLevel
warning(' > TranslateSBML is installed but is not working properly.');
fprintf([' > Try running\n >> TranslateSBML(\''', strrep(xmlTestFile, '\', '\\'), '\'');\n in order to debug.\n']);
end
end
end
%configuration of solver environment variables
if ENV_VARS.printLevel
fprintf(' > Configuring solver environment variables ...\n');
configEnvVars(1);
fprintf(' Done.\n');
fprintf(' > Checking available solvers and solver interfaces ...');
end
% define categories of solvers: LP, MILP, QP, MIQP, NLP
OPT_PROB_TYPES = {'LP', 'MILP', 'QP', 'MIQP', 'NLP','EP','CLP'};
%Define a set of "use first" solvers, other supported solvers will also be added to the struct.
%This allows to assign them in any order but keep the most commonly used ones on top of the struct.
SOLVERS = struct('gurobi',struct(),...
'mosek',struct(),...
'glpk',struct(),...
'matlab',struct());
% active support - supported solvers
SOLVERS.gurobi.type = {'LP', 'MILP', 'QP', 'MIQP'};
SOLVERS.mosek.type = {'LP', 'QP','EP','CLP'};
SOLVERS.glpk.type = {'LP', 'MILP'};
SOLVERS.pdco.type = {'LP', 'QP','EP'};
SOLVERS.quadMinos.type = {'LP'};
SOLVERS.dqqMinos.type = {'LP','QP'};
SOLVERS.matlab.type = {'LP', 'NLP'};
% passive support - solver interfaces
SOLVERS.qpng.type = {'QP'};
SOLVERS.tomlab_snopt.type = {'NLP'};
% legacy solvers
SOLVERS.cplex_direct.type = {'LP', 'MILP', 'QP'};
SOLVERS.ibm_cplex.type = {'LP', 'MILP', 'QP', 'MIQP'};
SOLVERS.cplexlp.type = {'LP'};
SOLVERS.tomlab_cplex.type = {'LP', 'MILP', 'QP', 'MIQP'};
%SOLVERS.gurobi_mex.type = {'LP', 'MILP', 'QP', 'MIQP'};
%SOLVERS.lindo_old.type = {'LP'};
%SOLVERS.lindo_legacy.type = {'LP'};
SOLVERS.lp_solve.type = {'LP'};
%SOLVERS.opti.type = {'LP', 'MILP', 'QP', 'MIQP', 'NLP'};
% definition of category of solvers with active support
SOLVERS.dqqMinos.categ = 'active';
SOLVERS.glpk.categ = 'active';
SOLVERS.gurobi.categ = 'active';
SOLVERS.matlab.categ = 'active';
SOLVERS.mosek.categ = 'active';
SOLVERS.pdco.categ = 'active';
SOLVERS.quadMinos.categ = 'active';
% definition of category of solvers with passive support
SOLVERS.qpng.categ = 'passive';
SOLVERS.tomlab_snopt.categ = 'passive';
% definition of category of solvers with legacy support
%SOLVERS.gurobi_mex.categ = 'legacy';
%SOLVERS.lindo_old.categ = 'legacy';
%SOLVERS.lindo_legacy.categ = 'legacy';
SOLVERS.lp_solve.categ = 'legacy';
SOLVERS.cplex_direct.categ = 'legacy';
SOLVERS.ibm_cplex.categ = 'legacy';
SOLVERS.cplexlp.categ = 'legacy';
SOLVERS.tomlab_cplex.categ = 'legacy';
%SOLVERS.opti.categ = 'legacy';
% definition of categories of solvers
supportedSolversNames = fieldnames(SOLVERS);
catSolverNames.LP = {};
catSolverNames.MILP = {};
catSolverNames.QP = {};
catSolverNames.MIQP = {};
catSolverNames.NLP = {};
catSolverNames.EP = {};
catSolverNames.CLP = {};
for i = 1:length(supportedSolversNames)
SOLVERS.(supportedSolversNames{i}).installed = false;
SOLVERS.(supportedSolversNames{i}).working = false;
types = SOLVERS.(supportedSolversNames{i}).type;
for j = 1:length(types)
catSolverNames.(types{j}){end + 1} = supportedSolversNames{i};
end
end
supportedSolversNames = setdiff(supportedSolversNames,{'cplex_direct','ibm_cplex','cplexlp','tomlab_cplex'});
% check the installation of the solver - except cplex
for i = 1:length(supportedSolversNames)
if 0 %set to 1 to debug a new solver
disp(supportedSolversNames{i})
if strcmp(supportedSolversNames{i},'quadMinos')
disp(supportedSolversNames{i})
end
end
%We will validate all solvers in init. After this, all solvers are
%checked, whether they actually work and the SOLVERS field is set.
[solverOK,solverInstalled] = changeCobraSolver(supportedSolversNames{i},SOLVERS.(supportedSolversNames{i}).type{1},0, 1);
if strcmp(supportedSolversNames{i},'gurobi') && 0%use fordebugging
disp(supportedSolversNames{i});
end
if solverOK
SOLVERS.(supportedSolversNames{i}).working = true;
end
SOLVERS.(supportedSolversNames{i}).installed = solverInstalled;
end
if ENV_VARS.printLevel
fprintf(' Done.\n');
end
% set the default solver and print out the default variables
if ENV_VARS.printLevel
fprintf(' > Setting default solvers ...');
changeCobraSolver('glpk', 'LP', 0);
changeCobraSolver('glpk', 'MILP', 0);
changeCobraSolver('glpk', 'LP', 0);
changeCobraSolver('pdco', 'QP', 0);
changeCobraSolver('mosek', 'EP', 0);
changeCobraSolver('mosek', 'CLP', 0);
changeCobraSolver('matlab', 'NLP', 0);
for k = 1:length(OPT_PROB_TYPES)
varName = horzcat(['CBT_', OPT_PROB_TYPES{k}, '_SOLVER']);
end
fprintf(' Done.\n');
end
% fill the summary table
solverTypeInstalled = zeros(length(OPT_PROB_TYPES), 1);
solverStatus = -1 * ones(length(supportedSolversNames), length(OPT_PROB_TYPES) + 1);
catList = cell(length(supportedSolversNames), 1);
for i = 1:length(supportedSolversNames)
types = SOLVERS.(supportedSolversNames{i}).type;
catList{i} = SOLVERS.(supportedSolversNames{i}).categ;
for j = 1:length(types)
if 1 %set to 1 to debug a new solver
if strcmp(supportedSolversNames{i},'mosek') && strcmp(types{j},'CLP')
pause(0.1)
end
end
k = find(ismember(OPT_PROB_TYPES, types{j}));
if SOLVERS.(supportedSolversNames{i}).installed
solverStatus(i, k + 1) = 1;
solverTypeInstalled(k) = solverTypeInstalled(k) + 1;
% set the default MIQP solver based on the solvers that are installed
if strcmp(supportedSolversNames{i},'gurobi') && strcmp(types{j},'LP')
changeCobraSolver('gurobi', 'LP', 0);
changeCobraSolver('gurobi', 'MILP', 0);
changeCobraSolver('gurobi', 'LP', 0);
changeCobraSolver('gurobi', 'QP', 0);
end
if strcmp(supportedSolversNames{i},'mosek') && strcmp(types{j},'EP')
changeCobraSolver(supportedSolversNames{i}, types{j}, 0);
end
if strcmp(supportedSolversNames{i},'mosek') && strcmp(types{j},'CLP')
changeCobraSolver(supportedSolversNames{i}, types{j}, 0);
end
else
solverStatus(i, k + 1) = 0;
end
end
end
catList{end + 1} = '----------';
catList{end + 1} = '-';
rowNames = [supportedSolversNames; '----------'; 'Total'];
solverStatus(end + 1, :) = ones(1, length(OPT_PROB_TYPES) + 1);
solverStatus(end + 1, 2:end) = solverTypeInstalled';
statusTable = {};
for k = 1:length(OPT_PROB_TYPES)
statusTable{k} = cellstr(num2str(solverStatus(:, k+1)));
for p = 1:length(solverStatus(:, k+1))
if strcmp(statusTable{k}(p), '-1')
statusTable{k}(p) = {'-'};
end
end
end
% restore the original path
path(originalUserPath);
addpath(originalUserPath);
% saves the current path
try
if ENV_VARS.printLevel
fprintf(' > Saving the MATLAB path ...');
end
if ispc || ismac
savepath;
if ENV_VARS.printLevel
fprintf(' Done.\n');
fprintf(' - The MATLAB path was saved in the default location.\n');
end
else
[~, values] = fileattrib(which('pathdef.m'));
if values.UserWrite
savepath
else
savepath(defaultSavePathLocation);
end
if ENV_VARS.printLevel
fprintf(' Done.\n');
fprintf([' - The MATLAB path was saved as ', defaultSavePathLocation, '.\n']);
end
end
catch
if ENV_VARS.printLevel
fprintf(' > The MATLAB path could not be saved.');
end
end
% print out a summary table
if ENV_VARS.printLevel
colFormat = '\t%-12s \t%-13s \t%5s \t%5s \t%5s \t%5s \t%5s \t%5s \t%5s\n';
sep = '\t------------------------------------------------------------------------------\n';
fprintf('\n > Summary of available solvers and solver interfaces\n\n');
if ispc
topLineFormat = '\t\t\t\t\tSupport %5s \t%5s \t%5s \t%5s \t%5s \t%5s \t%5s\n';
else
topLineFormat = '\t\t\tSupport \t%5s \t%5s \t%5s \t%5s \t%5s \t%5s \t%5s\n';
end
fprintf(topLineFormat, OPT_PROB_TYPES{1}, OPT_PROB_TYPES{2}, OPT_PROB_TYPES{3}, OPT_PROB_TYPES{4}, OPT_PROB_TYPES{5}, OPT_PROB_TYPES{6}, OPT_PROB_TYPES{7})
fprintf(sep);
for i = 1:length(catList)-2
fprintf(colFormat, rowNames{i}, catList{i}, statusTable{1}{i}, statusTable{2}{i}, statusTable{3}{i}, statusTable{4}{i}, statusTable{5}{i}, statusTable{6}{i}, statusTable{7}{i})
end
fprintf(sep);
fprintf(colFormat, rowNames{end}, catList{end}, statusTable{1}{end}, statusTable{2}{end}, statusTable{3}{end}, statusTable{4}{end}, statusTable{5}{end}, statusTable{6}{end}, statusTable{7}{end})
fprintf('\n + Legend: - = not applicable, 0 = solver not compatible or not installed, 1 = solver installed.\n\n\n')
end
% provide clear instructions and summary
for i = 1:length(OPT_PROB_TYPES)
if sum(solverStatus(:, i + 1) == 1) == 0
if ENV_VARS.printLevel
fprintf(' > You cannot solve %s problems. Consider installing an %s solver.\n', char(OPT_PROB_TYPES(i)), char(OPT_PROB_TYPES(i)));
end
else
if ENV_VARS.printLevel
fprintf(' > You can solve %s problems using: ', char(OPT_PROB_TYPES(i)));
end
k = 1;
for j = 1:length(catSolverNames.(OPT_PROB_TYPES{i}))
if SOLVERS.(catSolverNames.(OPT_PROB_TYPES{i}){j}).working
if k == 1
msg = '''%s'' ';
else
msg = '- ''%s'' ';
end
if ENV_VARS.printLevel
fprintf(msg, catSolverNames.(OPT_PROB_TYPES{i}){j});
end
k = k + 1;
end
end
if ENV_VARS.printLevel
fprintf('\n');
end
end
end
if ENV_VARS.printLevel
fprintf('\n');
end
% use Gurobi (if installed) as the default solver for LP, QP and MILP problems
changeCobraSolver('gurobi', 'ALL', 0);
% check if a new update exists
if installedGit && ENV_VARS.printLevel && status_curl == 0 && contains(result_curl, ' 200') && updateToolbox
updateCobraToolbox(true); % only check
else
if ~updateToolbox && ENV_VARS.printLevel
fprintf('> Checking for available updates ... skipped\n')
end
end
if installedGit
% restore global configuration by unsetting http.sslVerify
[status_setSSLVerify, result_setSSLVerify] = system('git config --global --unset http.sslVerify');
if status_setSSLVerify ~= 0
fprintf(strrep(result_setSSLVerify, '\', '\\'));
warning('Your global git configuration could not be restored.');
end
end
% set up the COBRA System path
addCOBRABinaryPathToSystemPath();
%remove /new thermo folders from path
%TODO resolve issues with new file versions
aPath = which('initVonBertalanffy');
basePath = strrep(aPath,['vonBertalanffy' filesep 'initVonBertalanffy.m'],'');
addpath(genpath(basePath))
folderPattern=[filesep 'new'];
method = 'remove';
editCobraToolboxPath(basePath,folderPattern,method)
if exist([CBTDIR filesep 'binary' filesep 'glnxa64' filesep 'lib_old'],'dir')
rmpath([CBTDIR filesep 'binary' filesep 'glnxa64' filesep 'lib_old']);
end
% change back to the current directory
cd(currentDir);
if installedGit
% cleanup at the end of the successful run
removeTempFiles(CBTDIR, dirContent);
end
if submoduleWarning
warning('Local changes have been made to submodules\n%s\n%s\n%s','Local changes have been stashed. See ***Local changes ... above for details.','Such changes should ideally be made to separate forks.', 'See, e.g., https://github.com/opencobra/COBRA.tutorials#contribute-a-new-tutorial-or-modify-an-existing-tutorial')
end
% clear all temporary variables
% Note: global variables are kept in memory - DO NOT clear all the variables!
if ENV_VARS.printLevel
clearvars
end
end
function [installed, versionGit] = checkGit()
% Checks if git is installed on the system and throws an error if not
%
% USAGE:
% versionGit = checkGit();
%
% OUTPUT:
% installed: boolean to determine whether git is installed or not
% versionGit: version of git installed
%
if 0 %try to proceed as if there is no git
installed = false;
versionGit = [];
return
end
global ENV_VARS
% set the boolean as false (not installed)
installed = false;
if ENV_VARS.printLevel
fprintf(' > Checking if git is installed ... ')
end
% check if git is properly installed
[status_gitVersion, result_gitVersion] = system('git --version');
% get index of the version string
searchStr = 'git version';
index = strfind(result_gitVersion, searchStr);
if status_gitVersion == 0 && ~isempty(index)
% determine the version of git
versionGitStr = result_gitVersion(length(searchStr)+1:end);
% replace line breaks and white spaces
versionGitStr = regexprep(versionGitStr(1:7),'\s+','');
% replace the dots in the version number
tmp = strrep(versionGitStr, '.', '');
% convert the string of the version number to a number
versionGit = str2num(tmp);
% set the boolean to true
installed = true;
if ENV_VARS.printLevel
fprintf([' Done (version: ' versionGitStr ').\n']);
end
else
if ispc
fprintf('(git is not installed, attempting to install GitBash).\n');
installGitBash();
else
fprintf(result_gitVersion);
warning(' > git is not installed.');
fprintf(' > Please follow the guidelines on how to install git: https://opencobra.github.io/cobratoolbox/docs/requirements.html.\n');
end
% set the boolean as false (not installed)
installed = false;
end
end
function [status_curl, result_curl] = checkCurlAndRemote(throwError)
% Checks if curl is installed on the system, can connect to the opencobra URL, and throws an error if not
%
% USAGE:
% status_curl = checkCurlAndRemote(throwError)
%
% INPUT:
% throwError: boolean variable that specifies if an error is thrown or a message is displayed
%
global ENV_VARS
if nargin < 1
throwError = true;
end
if ENV_VARS.printLevel
fprintf(' > Checking if curl is installed ... ')
end
origLD = getenv('LD_LIBRARY_PATH');
newLD = regexprep(getenv('LD_LIBRARY_PATH'), [matlabroot '/bin/' computer('arch') ':'], '');
% check if curl is properly installed
[status_curl, result_curl] = system('curl --version');
if status_curl == 0 && ~isempty(strfind(result_curl, 'curl')) && ~isempty(strfind(result_curl, 'http'))
if ENV_VARS.printLevel
fprintf(' Done.\n');
end
elseif ((status_curl == 127 || status_curl == 48) && isunix)
% status_curl of 48 is "An unknown option was passed in to libcurl"
% status_curl of 127 is a bash/shell error for "command not found"
% You can get either if there is mismatch between the library
% libcurl and the curl program, which happens with matlab's
% distributed libcurl. In order to avoid library mismatch we
% temporarily fchange LD_LIBRARY_PATH
setenv('LD_LIBRARY_PATH', newLD);
[status_curl, result_curl] = system('curl --version');
setenv('LD_LIBRARY_PATH', origLD);
if status_curl == 0 && ~isempty(strfind(result_curl, 'curl')) && ~isempty(strfind(result_curl, 'http'))
if ENV_VARS.printLevel
fprintf(' Done.\n');
end
else
if throwError
fprintf(result_curl);
fprintf(' > Please follow the guidelines on how to install curl: https://opencobra.github.io/cobratoolbox/docs/requirements.html.\n');
error(' > curl is not installed.');
else
if ENV_VARS.printLevel
fprintf(' (not installed).\n');
end
end
end
else
if throwError
if ispc
fprintf('(not installed).\n');
installGitBash();
else
fprintf(result_curl);
fprintf(' > Please follow the guidelines on how to install curl: https://opencobra.github.io/cobratoolbox/docs/requirements.html.\n');
error(' > curl is not installed.');
end
else
if ENV_VARS.printLevel
fprintf(' (not installed).\n');
end
end
end
if ENV_VARS.printLevel
fprintf(' > Checking if remote can be reached ... ')
end
% check if the remote repository can be reached
[status_curl, result_curl] = system('curl -s -k --head https://github.com/opencobra/cobratoolbox');
% check if the URL exists
if status_curl == 0 && ~isempty(strfind(result_curl, ' 200'))
if ENV_VARS.printLevel
fprintf(' Done.\n');
end
elseif ((status_curl == 127 || status_curl == 48) && isunix)
setenv('LD_LIBRARY_PATH', newLD);
[status_curl, result_curl] = system('curl -s -k --head https://github.com/opencobra/cobratoolbox');
setenv('LD_LIBRARY_PATH', origLD);
if status_curl == 0 && ~isempty(strfind(result_curl, ' 200'))
if ENV_VARS.printLevel
fprintf(' Done.\n');
end
else
if throwError
fprintf(result_curl);
error('The remote repository cannot be reached. Please check your internet connection.');
else
if ENV_VARS.printLevel
fprintf(' (unsuccessful - no internet connection).\n');
end
end
end
else
if throwError
fprintf(result_curl);
error('The remote repository cannot be reached. Please check your internet connection.');
else
if ENV_VARS.printLevel
fprintf(' (unsuccessful - no internet connection).\n');
end
end
end
end