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preprocessData.m
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preprocessData.m
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function [rez, DATA, uproj] = preprocessData(ops)
tic;
uproj = [];
ops.nt0 = getOr(ops, {'nt0'}, 61);
if strcmp(ops.datatype , 'openEphys')
ops = convertOpenEphysToRawBInary(ops); % convert data, only for OpenEphys
end
if ~isempty(ops.chanMap)
if ischar(ops.chanMap)
load(ops.chanMap);
try
chanMapConn = chanMap(connected>1e-6);
xc = xcoords(connected>1e-6);
yc = ycoords(connected>1e-6);
catch
chanMapConn = 1+chanNums(connected>1e-6);
xc = zeros(numel(chanMapConn), 1);
yc = [1:1:numel(chanMapConn)]';
end
ops.Nchan = getOr(ops, 'Nchan', sum(connected>1e-6));
ops.NchanTOT = getOr(ops, 'NchanTOT', numel(connected));
if exist('fs', 'var')
ops.fs = getOr(ops, 'fs', fs);
end
else
chanMap = ops.chanMap;
chanMapConn = ops.chanMap;
xc = zeros(numel(chanMapConn), 1);
yc = [1:1:numel(chanMapConn)]';
connected = true(numel(chanMap), 1);
ops.Nchan = numel(connected);
ops.NchanTOT = numel(connected);
end
else
chanMap = 1:ops.Nchan;
connected = true(numel(chanMap), 1);
chanMapConn = 1:ops.Nchan;
xc = zeros(numel(chanMapConn), 1);
yc = [1:1:numel(chanMapConn)]';
end
if exist('kcoords', 'var')
kcoords = kcoords(connected);
else
kcoords = ones(ops.Nchan, 1);
end
NchanTOT = ops.NchanTOT;
NT = ops.NT ;
rez.ops = ops;
rez.xc = xc;
rez.yc = yc;
if exist('xcoords')
rez.xcoords = xcoords;
rez.ycoords = ycoords;
else
rez.xcoords = xc;
rez.ycoords = yc;
end
rez.connected = connected;
rez.ops.chanMap = chanMap;
rez.ops.kcoords = kcoords;
d = dir(ops.fbinary);
ops.sampsToRead = floor(d.bytes/NchanTOT/2);
if ispc
dmem = memory;
memfree = dmem.MemAvailableAllArrays/8;
memallocated = min(ops.ForceMaxRAMforDat, dmem.MemAvailableAllArrays) - memfree;
memallocated = max(0, memallocated);
else
memallocated = ops.ForceMaxRAMforDat;
end
nint16s = memallocated/2;
NTbuff = NT + 4*ops.ntbuff;
Nbatch = ceil(d.bytes/2/NchanTOT /(NT-ops.ntbuff));
Nbatch_buff = floor(4/5 * nint16s/rez.ops.Nchan /(NT-ops.ntbuff)); % factor of 4/5 for storing PCs of spikes
Nbatch_buff = min(Nbatch_buff, Nbatch);
%% load data into patches, filter, compute covariance
if isfield(ops,'fslow')&&ops.fslow<ops.fs/2
[b1, a1] = butter(3, [ops.fshigh/ops.fs,ops.fslow/ops.fs]*2, 'bandpass');
else
[b1, a1] = butter(3, ops.fshigh/ops.fs*2, 'high');
end
fprintf('Time %3.0fs. Loading raw data... \n', toc);
fid = fopen(ops.fbinary, 'r');
ibatch = 0;
Nchan = rez.ops.Nchan;
if ops.GPU
CC = gpuArray.zeros( Nchan, Nchan, 'single');
else
CC = zeros( Nchan, Nchan, 'single');
end
if strcmp(ops.whitening, 'noSpikes')
if ops.GPU
nPairs = gpuArray.zeros( Nchan, Nchan, 'single');
else
nPairs = zeros( Nchan, Nchan, 'single');
end
end
if ~exist('DATA', 'var')
DATA = zeros(NT, rez.ops.Nchan, Nbatch_buff, 'int16');
end
isproc = zeros(Nbatch, 1);
while 1
ibatch = ibatch + ops.nSkipCov;
offset = max(0, 2*NchanTOT*((NT - ops.ntbuff) * (ibatch-1) - 2*ops.ntbuff));
if ibatch==1
ioffset = 0;
else
ioffset = ops.ntbuff;
end
fseek(fid, offset, 'bof');
buff = fread(fid, [NchanTOT NTbuff], '*int16');
% keyboard;
if isempty(buff)
break;
end
nsampcurr = size(buff,2);
if nsampcurr<NTbuff
buff(:, nsampcurr+1:NTbuff) = repmat(buff(:,nsampcurr), 1, NTbuff-nsampcurr);
end
if ops.GPU
dataRAW = gpuArray(buff);
else
dataRAW = buff;
end
dataRAW = dataRAW';
dataRAW = single(dataRAW);
dataRAW = dataRAW(:, chanMapConn);
datr = filter(b1, a1, dataRAW);
datr = flipud(datr);
datr = filter(b1, a1, datr);
datr = flipud(datr);
switch ops.whitening
case 'noSpikes'
smin = my_min(datr, ops.loc_range, [1 2]);
sd = std(datr, [], 1);
peaks = single(datr<smin+1e-3 & bsxfun(@lt, datr, ops.spkTh * sd));
blankout = 1+my_min(-peaks, ops.long_range, [1 2]);
smin = datr .* blankout;
CC = CC + (smin' * smin)/NT;
nPairs = nPairs + (blankout'*blankout)/NT;
otherwise
CC = CC + (datr' * datr)/NT;
end
if ibatch<=Nbatch_buff
DATA(:,:,ibatch) = gather_try(int16( datr(ioffset + (1:NT),:)));
isproc(ibatch) = 1;
end
end
CC = CC / ceil((Nbatch-1)/ops.nSkipCov);
switch ops.whitening
case 'noSpikes'
nPairs = nPairs/ibatch;
end
fclose(fid);
fprintf('Time %3.0fs. Channel-whitening filters computed. \n', toc);
switch ops.whitening
case 'diag'
CC = diag(diag(CC));
case 'noSpikes'
CC = CC ./nPairs;
end
if ops.whiteningRange<Inf
ops.whiteningRange = min(ops.whiteningRange, Nchan);
Wrot = whiteningLocal(gather_try(CC), yc, xc, ops.whiteningRange);
else
%
[E, D] = svd(CC);
D = diag(D);
eps = 1e-6;
Wrot = E * diag(1./(D + eps).^.5) * E';
end
Wrot = ops.scaleproc * Wrot;
fprintf('Time %3.0fs. Loading raw data and applying filters... \n', toc);
fid = fopen(ops.fbinary, 'r');
fidW = fopen(ops.fproc, 'w');
if strcmp(ops.initialize, 'fromData')
i0 = 0;
ixt = round(linspace(1, size(ops.wPCA,1), ops.nt0));
wPCA = ops.wPCA(ixt, 1:3);
rez.ops.wPCA = wPCA; % write wPCA back into the rez structure
uproj = zeros(1e6, size(wPCA,2) * Nchan, 'single');
end
%
for ibatch = 1:Nbatch
if isproc(ibatch) %ibatch<=Nbatch_buff
if ops.GPU
datr = single(gpuArray(DATA(:,:,ibatch)));
else
datr = single(DATA(:,:,ibatch));
end
else
offset = max(0, 2*NchanTOT*((NT - ops.ntbuff) * (ibatch-1) - 2*ops.ntbuff));
if ibatch==1
ioffset = 0;
else
ioffset = ops.ntbuff;
end
fseek(fid, offset, 'bof');
buff = fread(fid, [NchanTOT NTbuff], '*int16');
if isempty(buff)
break;
end
nsampcurr = size(buff,2);
if nsampcurr<NTbuff
buff(:, nsampcurr+1:NTbuff) = repmat(buff(:,nsampcurr), 1, NTbuff-nsampcurr);
end
if ops.GPU
dataRAW = gpuArray(buff);
else
dataRAW = buff;
end
dataRAW = dataRAW';
dataRAW = single(dataRAW);
dataRAW = dataRAW(:, chanMapConn);
datr = filter(b1, a1, dataRAW);
datr = flipud(datr);
datr = filter(b1, a1, datr);
datr = flipud(datr);
datr = datr(ioffset + (1:NT),:);
end
datr = datr * Wrot;
if ops.GPU
dataRAW = gpuArray(datr);
else
dataRAW = datr;
end
% dataRAW = datr;
dataRAW = single(dataRAW);
dataRAW = dataRAW / ops.scaleproc;
if strcmp(ops.initialize, 'fromData') %&& rem(ibatch, 10)==1
% find isolated spikes
[row, col, mu] = isolated_peaks(dataRAW, ops.loc_range, ops.long_range, ops.spkTh);
% find their PC projections
uS = get_PCproj(dataRAW, row, col, wPCA, ops.maskMaxChannels);
uS = permute(uS, [2 1 3]);
uS = reshape(uS,numel(row), Nchan * size(wPCA,2));
if i0+numel(row)>size(uproj,1)
uproj(1e6 + size(uproj,1), 1) = 0;
end
uproj(i0 + (1:numel(row)), :) = gather_try(uS);
i0 = i0 + numel(row);
end
if ibatch<=Nbatch_buff
DATA(:,:,ibatch) = gather_try(datr);
else
datcpu = gather_try(int16(datr));
fwrite(fidW, datcpu, 'int16');
end
end
if strcmp(ops.initialize, 'fromData')
uproj(i0+1:end, :) = [];
end
Wrot = gather_try(Wrot);
rez.Wrot = Wrot;
fclose(fidW);
fclose(fid);
if ops.verbose
fprintf('Time %3.2f. Whitened data written to disk... \n', toc);
fprintf('Time %3.2f. Preprocessing complete!\n', toc);
end
rez.temp.Nbatch = Nbatch;
rez.temp.Nbatch_buff = Nbatch_buff;