MVAPACK Master Script: Difference between revisions
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=A good start= | |||
This page represents a good script to get started in MVAPACK/Octave. Copy the script below, or [http://bionmr.unl.edu/files/misc/mediawikidownloads/NMRMasterProcessing.m download this one], and save as a .m file in your favorite simple text editor. | |||
==The Script== | |||
#Get Files | |||
display('Using typical unix filename syntax (i.e. ./* or ../your/file/is/here/* or ???). This will only use directories.') | |||
filepath = input('What is the path to your data? ',"s"); | |||
F.fileglob = glob(filepath); %% Number of ? is the number of digits of the file name | |||
%% We only use directories here | |||
count = 1; | |||
sizeoffileglob = numel(F.fileglob); | |||
for i = [1:sizeoffileglob] | |||
if isfolder(F.fileglob{i}) | |||
if (fexist([F.fileglob{1}, '/ser']) || fexist([F.fileglob{1}, '/fid'])) | |||
continue; | |||
end | |||
F.dirs{count++} = F.fileglob{i}; | |||
end | |||
end | |||
checkforexistence = exist('F.dirs') | |||
if ~checkforexistence | |||
error('There is no NMR data here, seems you have the wrong filepath.') | |||
end | |||
#Extract Data | |||
%% This could be loadnmr or loaddmx - default should be loadnmr | |||
display('With "@loadnmr" and "@loaddmx" as your choices. Refer to the manual for these functions.'); | |||
loadingfunc = input('Which would you like to use? ', "s"); | |||
if loadingfunc ~= '@loadnmr' || loadingfunc ~= '@loaddmx' | |||
error('A loading function was not chosen correctly'); | |||
end | |||
[F.data, F.parms, F.t] = feval(loadingfunc, F.dirs); %% Assumes F.dirs were all run with similar parameters | |||
#Apodization, Zerofill and Fourier Transform | |||
apodizing = input('Would you like to apodize?(y,n) ', "s") | |||
if apodizing == 'y' || apodizing == 'Y' | |||
display('With "@expwindow", "@gausswindow", and "@sinewindow" being the options.(Refer to the manual)') | |||
functionhandleofapodization = input('Which function would you like to use? ',"s"); %% User choice on function handle | |||
F.data = apodize(F.data,F.parms,functionhandleofapodization); | |||
end | |||
zerofilling = input('Would you like to zerofill?(y,n) ', "s"); | |||
if zerofilling == 'y' || zerofilling == 'Y' | |||
numberofzerofills = input('How many zerofills would you like? '); %% User choice on number | |||
F.data = zerofill(F.data,F.parms,numberofzerofills); | |||
end | |||
[S.data, S.ppm] = nmrft(F.data, F.parms);%% finally do something | |||
#Phase and extract real | |||
%% phase correction method objective can be decided | |||
display('Automatic phasing will be performed, you can choose an objective function. Your options are "@simplex_minimum", "@simplex_entropy", "@simplex_whiten", or "@simplex_integral". (Refer to manual)') | |||
phaseobjective = ('Which objective do you choose? ', "s"); | |||
[S.data, S.phc0, S.phc1] = autophase(S.data, F.parms, phaseobjective); | |||
[S.data, S.phc0, S.phc1] = autophase(S.data, F.parms, phaseobjective); | |||
X.data = realnmr(S.data, F.parms); %% extract numerical data | |||
X.ppm = S.ppm; | |||
#Alignment and Referencing | |||
%% an if could be used to decide if icosshift or cosshift here** | |||
display('With "@coshift" and "@icoshift" as your options.') | |||
alignmentoption = input('Which alignment method would you like to use? ',"s"); | |||
X.data = feval(alignmentoption, X.data, X.ppm); | |||
X.data = feval(alignmentoption, X.data, X.ppm); | |||
X.data = feval(alignmentoption, X.data, X.ppm); | |||
plot(X.ppm, X.data); | |||
%% an automatic referencing method could be used instead of this (no automatic method currently available) | |||
adjust_zero = 1 | |||
zero_adjustment = 0 | |||
while adjust_zero | |||
X.ppm = refadj(X.ppm, zero_adjustment, 0.0); | |||
plot(X.ppm, X.data); | |||
adjust_input = input('Do you need to zero?(y/n) ',"s"); | |||
if adjust_input == "Y" || adjust_input == "y" | |||
adjust_zero = 1; | |||
zero_adjustment = input('How much Adjustment? '); | |||
else | |||
adjust_zero = 0; | |||
end | |||
end | |||
%% this can be selected as the manual removal method - otherwise ROI methods could be used?** | |||
remove_var = 1; | |||
while remove_var | |||
remove_input = input('Do you need to remove data?(y/n) ',"s"); | |||
if remove_input == "Y" || remove_input == "y" | |||
remove_var = 1; | |||
kmin_input = input('What is the minumum of the range? '); | |||
kmax_input = input('What is the maximum of the range? '); | |||
idxmin = findnearest(X.ppm, kmax_input); | |||
idxmax = findnearest(X.ppm, kmax_input); | |||
X.rmvar = [idxmax:idxmin]; | |||
[X.data, X.ppm] = rmvar(X.data, X.ppm, X.rmvar); | |||
plot(X.ppm, X.data); | |||
else | |||
remove_var = 0; | |||
end | |||
end | |||
%% binning can be done a number of ways we default to adaptive binning*** | |||
display('There are multiple ways of binning, this walkthrough uses binadapt.') | |||
[X.bindata, X.binppm] = binadapt(X.data, X.ppm, F.parms); | |||
%% normalization has multiple options these need to be considered *** | |||
X.bindata = histmatch(X.bindata); | |||
display('To this point, the important data is extracted and binned as "X.bindata" and can be analyzed'); | |||
Revision as of 02:12, 19 January 2022
A good start
This page represents a good script to get started in MVAPACK/Octave. Copy the script below, or download this one, and save as a .m file in your favorite simple text editor.
The Script
- Get Files
display('Using typical unix filename syntax (i.e. ./* or ../your/file/is/here/* or ???). This will only use directories.') filepath = input('What is the path to your data? ',"s"); F.fileglob = glob(filepath); %% Number of ? is the number of digits of the file name
%% We only use directories here count = 1; sizeoffileglob = numel(F.fileglob); for i = [1:sizeoffileglob]
if isfolder(F.fileglob{i})
if (fexist([F.fileglob{1}, '/ser']) || fexist([F.fileglob{1}, '/fid']))
continue;
end
F.dirs{count++} = F.fileglob{i};
end
end checkforexistence = exist('F.dirs') if ~checkforexistence
error('There is no NMR data here, seems you have the wrong filepath.')
end
- Extract Data
%% This could be loadnmr or loaddmx - default should be loadnmr display('With "@loadnmr" and "@loaddmx" as your choices. Refer to the manual for these functions.'); loadingfunc = input('Which would you like to use? ', "s"); if loadingfunc ~= '@loadnmr' || loadingfunc ~= '@loaddmx'
error('A loading function was not chosen correctly');
end [F.data, F.parms, F.t] = feval(loadingfunc, F.dirs); %% Assumes F.dirs were all run with similar parameters
- Apodization, Zerofill and Fourier Transform
apodizing = input('Would you like to apodize?(y,n) ', "s") if apodizing == 'y' || apodizing == 'Y'
display('With "@expwindow", "@gausswindow", and "@sinewindow" being the options.(Refer to the manual)')
functionhandleofapodization = input('Which function would you like to use? ',"s"); %% User choice on function handle
F.data = apodize(F.data,F.parms,functionhandleofapodization);
end
zerofilling = input('Would you like to zerofill?(y,n) ', "s"); if zerofilling == 'y' || zerofilling == 'Y'
numberofzerofills = input('How many zerofills would you like? '); %% User choice on number
F.data = zerofill(F.data,F.parms,numberofzerofills);
end [S.data, S.ppm] = nmrft(F.data, F.parms);%% finally do something
- Phase and extract real
%% phase correction method objective can be decided display('Automatic phasing will be performed, you can choose an objective function. Your options are "@simplex_minimum", "@simplex_entropy", "@simplex_whiten", or "@simplex_integral". (Refer to manual)') phaseobjective = ('Which objective do you choose? ', "s"); [S.data, S.phc0, S.phc1] = autophase(S.data, F.parms, phaseobjective); [S.data, S.phc0, S.phc1] = autophase(S.data, F.parms, phaseobjective); X.data = realnmr(S.data, F.parms); %% extract numerical data X.ppm = S.ppm;
- Alignment and Referencing
%% an if could be used to decide if icosshift or cosshift here** display('With "@coshift" and "@icoshift" as your options.') alignmentoption = input('Which alignment method would you like to use? ',"s"); X.data = feval(alignmentoption, X.data, X.ppm); X.data = feval(alignmentoption, X.data, X.ppm); X.data = feval(alignmentoption, X.data, X.ppm); plot(X.ppm, X.data);
%% an automatic referencing method could be used instead of this (no automatic method currently available) adjust_zero = 1 zero_adjustment = 0
while adjust_zero
X.ppm = refadj(X.ppm, zero_adjustment, 0.0);
plot(X.ppm, X.data);
adjust_input = input('Do you need to zero?(y/n) ',"s");
if adjust_input == "Y" || adjust_input == "y"
adjust_zero = 1;
zero_adjustment = input('How much Adjustment? ');
else
adjust_zero = 0;
end
end
%% this can be selected as the manual removal method - otherwise ROI methods could be used?**
remove_var = 1; while remove_var
remove_input = input('Do you need to remove data?(y/n) ',"s");
if remove_input == "Y" || remove_input == "y"
remove_var = 1;
kmin_input = input('What is the minumum of the range? ');
kmax_input = input('What is the maximum of the range? ');
idxmin = findnearest(X.ppm, kmax_input);
idxmax = findnearest(X.ppm, kmax_input);
X.rmvar = [idxmax:idxmin];
[X.data, X.ppm] = rmvar(X.data, X.ppm, X.rmvar);
plot(X.ppm, X.data);
else
remove_var = 0;
end
end
%% binning can be done a number of ways we default to adaptive binning*** display('There are multiple ways of binning, this walkthrough uses binadapt.') [X.bindata, X.binppm] = binadapt(X.data, X.ppm, F.parms); %% normalization has multiple options these need to be considered *** X.bindata = histmatch(X.bindata);
display('To this point, the important data is extracted and binned as "X.bindata" and can be analyzed');