https://github.com/schuettepeter/l-vlPAG_ActiveAvoidance
Revision e77591414eade868e6f5459df18b6ce777d3905a authored by schuettepeter on 12 January 2022, 21:03:32 UTC, committed by GitHub on 12 January 2022, 21:03:32 UTC
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Tip revision: e77591414eade868e6f5459df18b6ce777d3905a authored by schuettepeter on 12 January 2022, 21:03:32 UTC
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Tip revision: e775914
DeepLabCut_Extract_Tracking_Info_GitHub.m
%% Convert DeepLabCut output (.h5 file) to Tracking file with angle, position, vel, accel, etc. as well as behavior categorization
clearvars -except RTPP folderzzz framesToDelete truncateTracking lastFrame hotplate_xp_CNN moving_shockgrid open_field folders folderzz jjj CO2 deleteUserDefinedZone setByParentScript miniscope other_vid fear_cond_chamber opto_xp fear_cond_chamber ...
simpleRat_xp ratClimbUp_xp hotplate_xp moving_shockgrid mouse_toyrat burrow_xp burrow_norat_xp shockgrid_xp EPM toyratClimbUp_xp
setByParentScript = 0; %select '1' if xp type chosen by parent "Workflow" script.
isHD = 0;
dontUseH5 = 0; %just use existing Tracking.mat file
% TO READ IN h5 FILE:
%Tracking smooth window width
windowWidthSmooth = 1;
truncateTracking = 0;
lastFrame = 1600000;
framesToDelete = [];
miniscope = 1;
other_vid = 0;
%select assay here:
simpleRat_xp = 1;
mouse_toyrat = 0;
burrow_xp = 0;
burrow_norat_xp = 0;
shockgrid_xp = 0;
EPM = 0;
open_field = 0;
RTPP = 0;
cropOutsideRearingConstraint = 0;
deleteUserDefinedZone = 0;
if mouse_toyrat == 1 | shockgrid_xp == 1 | fear_cond_chamber == 1 | moving_shockgrid == 1 | EPM == 1 | burrow_norat_xp == 1 | toyratClimbUp_xp == 1 | CO2 == 1 | hotplate_xp == 1 | hotplate_xp_CNN == 1 |open_field == 1 | RTPP == 1 | CO2_miniscope == 1 | cricket == 1;
mouse_only = 1; mouse_rat = 0;
elseif simpleRat_xp == 1 | burrow_xp == 1 | ratClimbUp_xp == 1
mouse_only = 0; mouse_rat = 1;
elseif artificial_prey==1
mouse_only = 0; mouse_rat = 0;
end
crop_tracking = 0;
area_occupancy = 1; %determine how much time mouse occupies user-selected area
flipRatSide = 0; %1 if threat (any threat) on left side, 0 if threat on right side
basedir = pwd;
data = [];
data_grid = [];
S = dir('*.h5'); %dir('*354000.h5');
dataAdd = h5read(S.name,'/df_with_missing/table');
dataAddMat = dataAdd.values_block_0(:,:);
data = [data, dataAddMat];
%Create video object
if exist('behav.mp4', 'file')
obj = VideoReader('behav.mp4');
vidname = 'behav.mp4';
elseif exist('behav.avi', 'file')
obj = VideoReader('behav.avi');
vidname = 'behav.avi';
elseif exist('behavCam.avi', 'file')
obj = VideoReader('behavCam.avi');
vidname = 'behavCam.avi';
elseif exist('saline.avi','file')
obj = VideoReader('saline.avi');
vidname = 'behav.avi';
elseif exist('cno.avi','file')
obj = VideoReader('cno.avi');
vidname = 'behav.avi';
elseif exist('behav.mov','file')
obj = VideoReader('behav.mov');
vidname = 'behav.mov';
else
temp = dir('*.avi'); temp = temp.name;
obj = VideoReader(temp);
vidname = temp; clearvars temp
end
if mouse_toyrat == 1
%read in toy rat location
if ~exist([basedir '/toyRat_coords.mat'], 'file')
frame = read(obj,200);
image(frame)
disp('choose location of toy rat')
toyRat_coords = ginput(1);
toyRat_coords = round(toyRat_coords);
save([basedir '/toyRat_coords'], 'toyRat_coords')
else
load([basedir, '/toyRat_coords.mat'])
end
end
%read in bounds for rearing classification
if EPM == 0 && ratClimbUp_xp == 0 && toyratClimbUp_xp == 0 && hotplate_xp_CNN == 0 && CO2_miniscope == 0 && fear_cond_chamber == 0 && open_field==0
if ~exist([basedir '/rearing_constraint.mat'], 'file') & ~exist([basedir '/bounds.mat'], 'file')
%if miniscope == 0
frame = read(obj,200);
image(frame); axis image
%elseif miniscope == 1
% frame = double(msReadFrame(obj,i,false,false,false))/255;
% image(frame); axis image
%end
disp('choose bounds for rearing classification')
rearing_constraint = ginput(2);
rearing_constraint = round(rearing_constraint);
save([basedir '/rearing_constraint'], 'rearing_constraint')
else
if exist([basedir '/rearing_constraint.mat'], 'file')
load([basedir, '/rearing_constraint.mat'])
end
if exist([basedir '/bounds.mat'], 'file')
load([basedir, '/bounds.mat'])
%rearing_constraint = Bounds.hose;
rearing_constraint = Bounds;
end
end
end
%read in bounds for elevated plus maze closed and open walls
if EPM == 1
if ~exist([basedir '/PlusArmN.mat'], 'file')
if miniscope == 0 | miniscope == 1
frame = read(obj,200);
image(frame); axis image;
end
disp('choose bounds for North Arm')
PlusArmN = ginput(2);
PlusArmN = round(PlusArmN);
save([basedir '/PlusArmN'], 'PlusArmN')
image(frame)
disp('choose bounds for East Arm')
PlusArmE = ginput(2);
PlusArmE = round(PlusArmE);
save([basedir '/PlusArmE'], 'PlusArmE')
image(frame)
disp('choose bounds for South Arm')
PlusArmS = ginput(2);
PlusArmS = round(PlusArmS);
save([basedir '/PlusArmS'], 'PlusArmS')
image(frame)
disp('choose bounds for West Arm')
PlusArmW = ginput(2);
PlusArmW = round(PlusArmW);
save([basedir '/PlusArmW'], 'PlusArmW')
else
load([basedir, '/PlusArmN.mat']); load([basedir, '/PlusArmE.mat']); load([basedir, '/PlusArmS.mat']); load([basedir, '/PlusArmW.mat']);
end
end
%read in bounds for head dips
if EPM == 1
if ~exist([basedir '/PlusArmNW.mat'], 'file')
if miniscope == 0 | miniscope == 1
frame = read(obj,200);
image(frame); axis image;
end
%if miniscope == 1
%frame = double(msReadFrame(obj,i,false,false,false))/255;
%image(frame); axis image;
%end
disp('choose bounds for North East Arm')
PlusArmNE = ginput(2);
PlusArmNE = round(PlusArmNE);
save([basedir '/PlusArmNE'], 'PlusArmNE')
image(frame)
disp('choose bounds for South East Arm')
PlusArmSE = ginput(2);
PlusArmSE = round(PlusArmSE);
save([basedir '/PlusArmSE'], 'PlusArmSE')
image(frame)
disp('choose bounds for South West Arm')
PlusArmSW = ginput(2);
PlusArmSW = round(PlusArmSW);
save([basedir '/PlusArmSW'], 'PlusArmSW')
image(frame)
disp('choose bounds for North West Arm')
PlusArmNW = ginput(2);
PlusArmNW = round(PlusArmNW);
save([basedir '/PlusArmNW'], 'PlusArmNW')
else
load([basedir, '/PlusArmNE.mat']); load([basedir, '/PlusArmNW.mat']); load([basedir, '/PlusArmSE.mat']); load([basedir, '/PlusArmSW.mat']);
end
end
if open_field == 1
if ~exist('of_center.mat', 'file')
reader = VideoReader(vidname);
frame = readFrame(reader);
image(frame)
text(20,30, 'choose open field center box (top left and bottom right corner)', 'Color', 'green')
of_center = ginput(2);
of_center = round(of_center);
save('of_center', 'of_center');
else
load('of_center.mat')
end
end
frame = read(obj,100);
image(frame); axis image;
if (burrow_xp == 1 | burrow_norat_xp == 1) & ~exist('burrow_boundary.mat', 'file')
disp('choose bounds for burrow classification')
burrow_boundary = ginput(2);
burrow_boundary = round(burrow_boundary);
save([basedir '/burrow_boundary'], 'burrow_boundary')
elseif (burrow_xp == 1 | burrow_norat_xp == 1) & exist('burrow_boundary.mat', 'file')
load([basedir, '/burrow_boundary.mat'])
elseif shockgrid_xp == 1 & ~exist('shockgrid_boundary.mat', 'file')
disp('choose bounds for shockgrid location')
shockgrid_boundary = ginput(1);
shockgrid_boundary = round(shockgrid_boundary);
save([basedir '/shockgrid_boundary'], 'shockgrid_boundary')
elseif shockgrid_xp == 1 & exist('shockgrid_boundary.mat', 'file')
load([basedir, '/shockgrid_boundary.mat'])
end
if burrow_xp == 100
%read in bounds for non-burrow corner
if ~exist([basedir '/nonburrow_boundary.mat'], 'file')
obj = VideoReader('rat.avi');
frame = read(obj,100);
image(frame)
disp('choose bounds for nonburrow corner classification')
nonburrow_boundary = ginput(2);
nonburrow_boundary = round(nonburrow_boundary);
save([basedir '/nonburrow_boundary'], 'nonburrow_boundary')
else
load([basedir, '/nonburrow_boundary.mat'])
end
end
if burrow_xp == 1 | burrow_norat_xp == 1
%calculate burrow center for distance measures
burrow_center = [(burrow_boundary(1,1) + burrow_boundary(2,1)) / 2, (burrow_boundary(1,2) + burrow_boundary(2,2)) ./ 2];
end
if EPM == 0 && ratClimbUp_xp == 0 && toyratClimbUp_xp == 0 && hotplate_xp_CNN == 0 && RTPP == 0 && hotplate_xp == 0 && CO2 == 0 && fear_cond_chamber == 0 && open_field==0
%calculate corner coordinates
corners.NW_corner = [rearing_constraint(1,1), rearing_constraint(1,2)];
corners.NE_corner = [rearing_constraint(2,1), rearing_constraint(1,2)];
corners.SW_corner = [rearing_constraint(1,1), rearing_constraint(2,2)];
corners.SE_corner = [rearing_constraint(2,1), rearing_constraint(2,2)];
end
if exist('Bounds.mat', 'file')
load('Bounds.mat')
end
% then convert to struct:
if CO2 == 0 && hotplate_xp==0
if cricket == 0 && artificial_prey==0
Tracking.mouseNose = hampel(data(1:2, :))';
Tracking.mouseLeftEar = hampel(data(4:5, :))';
Tracking.mouseRightEar = hampel(data(7:8, :))';
Tracking.mouseTailbase = hampel(data(10:11, :))';
end
if artificial_prey == 1
Tracking.artificialPrey = hampel(data(1:2, :))';
end
if cricket == 1
Tracking.mouseNose = hampel(data(4:5, :))';
Tracking.mouseLeftEar = hampel(data(7:8, :))';
Tracking.mouseRightEar = hampel(data(10:11, :))';
Tracking.mouseTailbase = hampel(data(13:14, :))';
Tracking.cricket = hampel(data(1:2, :))';
if exist('cricketInFrame')
Tracking.cricket(~cricketInFrame,:) = nan;
end
end
if mouse_rat == 1;
Tracking.ratNose = hampel(data(13:14, :))';
Tracking.ratLeftNose = hampel(data(16:17, :))';
Tracking.ratRightNose = hampel(data(19:20, :))';
Tracking.ratTailbase = hampel(data(22:23, :))';
end
% and remove frames if necessary:
Tracking.mouseNose(framesToDelete,:) = nan;
Tracking.mouseLeftEar(framesToDelete,:) = nan;
Tracking.mouseRightEar(framesToDelete,:) = nan;
Tracking.mouseTailbase(framesToDelete,:) = nan;
if mouse_rat == 1;
Tracking.ratNose(framesToDelete,:) = nan;
Tracking.ratLeftNose(framesToDelete,:) = nan;
Tracking.ratRightNose(framesToDelete,:) = nan;
Tracking.ratTailbase(framesToDelete,:) = nan;
end
% change points to nans that fall outside y bounds
if crop_tracking == 1
offset = 0;
if ratClimbUp_xp==0 & toyratClimbUp_xp==0
if exist('bounds.mat', 'file')
load('bounds.mat')
%rearing_constraint = Bounds.enclosure;
rearing_constraint = bounds;
end
end
end
end
%% and add important metrics
if CO2 == 0 && hotplate_xp==0 && artificial_prey==0
%Angle of head direction -- first find point between ears -- then find
%angle made between that point and nose
for i = 1:length(Tracking.mouseNose)
Tracking.mouseBetwEars(i,:) = (Tracking.mouseLeftEar(i,:) + Tracking.mouseRightEar(i,:)).'/2;
end
Tracking.mouse_position = Tracking.mouseBetwEars;
% center all points of mouse
temp_x = nanmean([Tracking.mouseLeftEar(:,1), Tracking.mouseRightEar(:,1), Tracking.mouseTailbase(:,1)],2);
temp_y = nanmean([Tracking.mouseLeftEar(:,2), Tracking.mouseRightEar(:,2), Tracking.mouseTailbase(:,2)],2);
Tracking.centerMouse = [temp_x, temp_y];
if mouse_rat == 1
for i = 1:length(Tracking.ratNose)
Tracking.ratBetwEars(i,:) = (Tracking.ratLeftNose(i,:) + Tracking.ratRightNose(i,:)).'/2;
end
Tracking.rat_position = Tracking.ratBetwEars;
end
for i = 1:length(Tracking.mouseNose)
Tracking.mouseAngle(i) = atan2(Tracking.mouseBetwEars(i,2) - Tracking.mouseNose(i,2), Tracking.mouseBetwEars(i,1) - Tracking.mouseNose(i,1));
end
Tracking.mouseAngle = Tracking.mouseAngle';
if mouse_rat == 1
for i = 1:length(Tracking.ratNose)
Tracking.ratAngle(i) = atan2(Tracking.ratBetwEars(i,2) - Tracking.ratNose(i,2), Tracking.ratBetwEars(i,1) - Tracking.ratNose(i,1));
end
Tracking.ratAngle = Tracking.ratAngle';
%find tracking between direction of mouse head and rat, between ears
for i = 1:length(Tracking.mouseBetwEars)
Tracking.angleMouseBetwEarsRatBetwEars(i,:) = atan2(Tracking.mouseBetwEars(i,2) - Tracking.ratBetwEars(i,2), Tracking.mouseBetwEars(i,1) - Tracking.ratBetwEars(i,1));
end
%find difference of mouse head direction and angle between mouse and rat
Tracking.angleDiffMouseHeadDirRat = abs(abs(Tracking.mouseAngle) - abs(Tracking.angleMouseBetwEarsRatBetwEars));
end
if mouse_toyrat==1
for i = 1:length(Tracking.mouse_position)
Tracking.ratAngle(i) = atan2(toyRat_coords(1,2) - toyRat_coords(1,2), toyRat_coords(1,1) - (toyRat_coords(1,1)-10));
end
Tracking.ratAngle = Tracking.ratAngle';
%find tracking between direction of mouse head and rat, between ears
for i = 1:length(Tracking.mouseBetwEars)
Tracking.angleMouseBetwEarsRatBetwEars(i,:) = atan2(Tracking.mouseBetwEars(i,2) - toyRat_coords(1,2), Tracking.mouseBetwEars(i,1) - toyRat_coords(1,1));
end
%find difference of mouse head direction and angle between mouse and rat
Tracking.angleDiffMouseHeadDirRat = abs(abs(Tracking.mouseAngle) - abs(Tracking.angleMouseBetwEarsRatBetwEars));
%find points on toy rat and make angle zero.
tempNose = Tracking.mouseNose(:,1) > toyRat_coords(1)-5 & Tracking.mouseNose(:,1) < toyRat_coords(1)+90 & ...
Tracking.mouseNose(:,2) > toyRat_coords(2)-20 & Tracking.mouseNose(:,2) < toyRat_coords(2)+20;
tempTail = Tracking.mouseTailbase(:,1) > toyRat_coords(1)-5 & Tracking.mouseTailbase(:,1) < toyRat_coords(1)+90 & ...
Tracking.mouseTailbase(:,2) > toyRat_coords(2)-20 & Tracking.mouseTailbase(:,2) < toyRat_coords(2)+20;
temp = tempNose & tempTail;
temp = find(temp);
Tracking.angleDiffMouseHeadDirRat(temp) = 0;
end
%and take cosine and sine of rat angles
Tracking.sinMouseAngle = sin(Tracking.mouseAngle);
Tracking.cosMouseAngle = cos(Tracking.mouseAngle);
if mouse_rat == 1
sinRatAngle = sin(Tracking.ratAngle)';
cosRatAngle = cos(Tracking.ratAngle)';
Tracking.sinMouseRatAngle = sin(Tracking.mouseAngle - Tracking.ratAngle)';
Tracking.cosMouseRatAngle = cos(Tracking.mouseAngle-Tracking.ratAngle)';
end
%% Positions of rat mouse and related
%mouse velocity and acceleration
w = gausswin(5); %for smoothing motion parameters
Tracking.directionalVelocity = diff(Tracking.mouseBetwEars);
Tracking.directionalVelocity = [Tracking.directionalVelocity(1,:); Tracking.directionalVelocity];
positiondiffMouse = diff(Tracking.mouseBetwEars);
positiondiffMouse = [positiondiffMouse(1,:); positiondiffMouse]; %keep same length
for i = 1:size(positiondiffMouse, 1)
Tracking.mouseVel(i) = sqrt(positiondiffMouse(i,1)^2 + positiondiffMouse(i,2)^2); %find hypotenuse
end
Tracking.mouseVel = Tracking.mouseVel';
Tracking.mouseAccel = diff(Tracking.mouseVel);
Tracking.mouseAccel = [Tracking.mouseAccel(1); Tracking.mouseAccel];
%velocity mouse tailbase
positiondiffMouseTailbase = diff(Tracking.mouseTailbase);
positiondiffMouseTailbase = [positiondiffMouseTailbase(1,:); positiondiffMouseTailbase]; %keep same length
%change in angle mouse head
Tracking.positiondiffMouseAngle = diff(Tracking.mouseAngle);
Tracking.positiondiffMouseAngle = [Tracking.positiondiffMouseAngle(1); Tracking.positiondiffMouseAngle]; %keep same length
%tailbase velocity of mouse
for i = 1:size(positiondiffMouseTailbase, 1)
Tracking.mouseTailbaseVel(i) = sqrt(positiondiffMouseTailbase(i,1)^2 + positiondiffMouseTailbase(i,2)^2); %find hypotenuse
end
Tracking.mouseTailbaseVel = Tracking.mouseTailbaseVel';
%nose velocity of mouse
positiondiffMouseNose = diff(Tracking.mouseNose);
positiondiffMouseNose = [positiondiffMouseNose(1,:); positiondiffMouseNose]; %keep same length
for i = 1:size(positiondiffMouseNose, 1)
Tracking.mouseNoseVel(i) = sqrt(positiondiffMouseNose(i,1)^2 + positiondiffMouseNose(i,2)^2); %find hypotenuse
end
Tracking.mouseNoseVel = Tracking.mouseNoseVel';
if mouse_rat == 1
%rat
positiondiffRat = filter(w,1,diff(Tracking.ratBetwEars));
positiondiffRat = [positiondiffRat(1,:); positiondiffRat]; %keep same length
for i = 1:size(positiondiffRat, 1)
Tracking.ratVel(i) = sqrt(positiondiffRat(i,1)^2 + positiondiffRat(i,2)^2); %find hypotenuse
end
Tracking.ratVel = Tracking.ratVel';
Tracking.ratAccel = diff(Tracking.ratVel);
Tracking.ratAccel = [Tracking.ratAccel(1); Tracking.ratAccel];
end
if cricket == 1
%cricket
positiondiffCricket = filter(w,1,diff(Tracking.cricket));
positiondiffCricket = [positiondiffCricket(1,:); positiondiffCricket]; %keep same length
for i = 1:size(positiondiffCricket, 1)
Tracking.cricketVel(i) = sqrt(positiondiffCricket(i,1)^2 + positiondiffCricket(i,2)^2); %find hypotenuse
end
Tracking.cricketVel = Tracking.cricketVel';
Tracking.cricketAccel = diff(Tracking.cricketVel);
Tracking.cricketAccel = [Tracking.cricketAccel(1); Tracking.cricketAccel];
end
%x coord position of mouse and rat
Tracking.mouseXPosition = Tracking.mouseBetwEars(:,1);
if mouse_rat == 1
Tracking.ratXPosition = Tracking.ratBetwEars(:,1);
end
if cricket == 1
Tracking.cricketXPosition = Tracking.cricket(:,1);
end
if mouse_rat == 1
%distance between mouse and rat at each frame
for i = 1:length(Tracking.mouseBetwEars)
temp = [Tracking.mouseBetwEars(i,1), Tracking.mouseBetwEars(i,2);Tracking.ratBetwEars(i,1), Tracking.ratBetwEars(i,2)];
Tracking.distanceMouseRat(i) = pdist(temp,'euclidean');
end
Tracking.distanceMouseRat = Tracking.distanceMouseRat';
%change in distance between mouse and rat at each frame
diffDistanceMouseRat = diff(Tracking.distanceMouseRat);
Tracking.diffDistanceMouseRat = [diffDistanceMouseRat(1); diffDistanceMouseRat];
end
if mouse_toyrat == 1 | toyratClimbUp_xp == 1 %toyRat_coords
%distance between mouse and rat at each frame
for i = 1:length(Tracking.mouseBetwEars)
temp = [Tracking.mouseBetwEars(i,1), Tracking.mouseBetwEars(i,2); toyRat_coords(1), toyRat_coords(2)];
Tracking.distanceMouseToyRat(i) = pdist(temp,'euclidean');
end
Tracking.distanceMouseToyRat = Tracking.distanceMouseToyRat';
%change in distance between mouse and rat at each frame
diffDistanceMouseToyRat = diff(Tracking.distanceMouseToyRat);
Tracking.diffDistanceMouseToyRat = [diffDistanceMouseToyRat(1); diffDistanceMouseToyRat];
end
if shockgrid_xp == 1
%distance between mouse and shockgrid boundary
for i = 1:length(Tracking.mouseBetwEars)
Tracking.distanceShockgrid(i) = abs(shockgrid_boundary(1) - Tracking.mouseBetwEars(i,1));
end
Tracking.distanceShockgrid = Tracking.distanceShockgrid';
%change in distance between mouse and shockgrid at each frame
diffDistanceShockgrid = diff(Tracking.distanceShockgrid);
Tracking.diffDistanceShockgrid = [diffDistanceShockgrid(1); diffDistanceShockgrid];
end
%distance between mouse nose and tailbase at each frame (i.e. for
%calculating stretch)
for i = 1:size(Tracking.mouseNose, 1)
Tracking.distNoseTailbase(i) = sqrt((Tracking.mouseNose(i,1) - Tracking.mouseTailbase(i,1))^2 + (Tracking.mouseNose(i,2) - Tracking.mouseTailbase(i,2))^2); %find hypotenuse
end
Tracking.distNoseTailbase = Tracking.distNoseTailbase';
%idx2delStr = find(Tracking.distNoseTailbase > 90);
%Tracking.distNoseTailbase(idx2delStr) = nan;
%and for distance from between ears to tailbase
for i = 1:size(Tracking.mouseNose, 1)
Tracking.distEarsTailbase(i) = sqrt((Tracking.mouse_position(i,1) - Tracking.mouseTailbase(i,1))^2 + (Tracking.mouse_position(i,2) - Tracking.mouseTailbase(i,2))^2); %find hypotenuse
end
Tracking.distEarsTailbase = Tracking.distEarsTailbase';
idx2delStr = find(Tracking.distEarsTailbase > 90);
Tracking.distEarsTailbase(idx2delStr) = nan;
%then calculate zscore --seems like possible cutoff for stretch is 1.8
stdDistNoseTailbase = nanstd(Tracking.distNoseTailbase);
meanDistNoseTailbase = nanmean(Tracking.distNoseTailbase);
Tracking.distNoseTailBaseZ = (Tracking.distNoseTailbase - meanDistNoseTailbase) ./ stdDistNoseTailbase;
%calculate distance form center of burrow for each frame
if burrow_xp == 1 | burrow_norat_xp == 1
for i = 1:length(Tracking.mouseBetwEars)
temp = [Tracking.mouseBetwEars(i,1), Tracking.mouseBetwEars(i,2);burrow_center(1,1), burrow_center(1,2)];
Tracking.distanceFromBurrow(i) = pdist(temp,'euclidean');
end
Tracking.distanceFromBurrow = Tracking.distanceFromBurrow';
end
%calculate distance from corners of enclosure
if burrow_xp == 1 | burrow_norat_xp == 1
for i = 1:length(Tracking.mouseBetwEars)
temp = [Tracking.mouseBetwEars(i,1), Tracking.mouseBetwEars(i,2);corners.NW_corner(1,1), corners.NW_corner(1,2)];
Tracking.distance_NW_Corner(i) = (pdist(temp,'euclidean'))';
temp = [Tracking.mouseBetwEars(i,1), Tracking.mouseBetwEars(i,2);corners.NE_corner(1,1), corners.NE_corner(1,2)];
Tracking.distance_NE_Corner(i) = (pdist(temp,'euclidean'))';
temp = [Tracking.mouseBetwEars(i,1), Tracking.mouseBetwEars(i,2);corners.SW_corner(1,1), corners.SW_corner(1,2)];
Tracking.distance_SW_Corner(i) = (pdist(temp,'euclidean'))';
temp = [Tracking.mouseBetwEars(i,1), Tracking.mouseBetwEars(i,2);corners.SE_corner(1,1), corners.SE_corner(1,2)];
Tracking.distance_SE_Corner(i) = (pdist(temp,'euclidean'))';
end
Tracking.distance_NW_Corner = Tracking.distance_NW_Corner'; Tracking.distance_NE_Corner = Tracking.distance_NE_Corner';
Tracking.distance_SW_Corner = Tracking.distance_SW_Corner'; Tracking.distance_SE_Corner = Tracking.distance_SE_Corner';
end
end
%% Automatic behavior scoring
if other_vid == 1
sampleRate = 30; %was 15 fps
elseif miniscope == 1
sampleRate = 30; %fps
end
if exist('fps', 'file')
load('fps.mat')
sampleRate = fps;
end
%% stretch -- find indices where distance from nose to tailbase is greater than threshold and tailbase stationary
if CO2 == 0 && hotplate_xp == 0 && artificial_prey==0
if EPM == 1 | RTPP == 1 | open_field==1
strThresh = 54;
strThreshEars = 51;
strMax = 120;
elseif EPM == 0 && ratClimbUp_xp == 0 && toyratClimbUp_xp == 0
strThresh = 69;
strThreshEars = 65;
strMax = 100;
if isHD==1
strThresh = 75;
strThreshEars = 70;
strMax = 130;
end
elseif ratClimbUp_xp == 1 | toyratClimbUp_xp == 1
strThresh = 106;
end
tailbaseThreshVel = 1; %was 1 -- max movement allowed for stretch tailbase
if isHD==1
tailbaseThreshVel = 2; %was 1 -- max movement allowed for stretch tailbase
end
if miniscope == 0
stretchIndices = Tracking.distNoseTailbase > strThresh & Tracking.distNoseTailbase < strMax & Tracking.mouseTailbaseVel < tailbaseThreshVel;
elseif miniscope == 1 && artificial_prey==0
stretchIndices = Tracking.distEarsTailbase > strThreshEars & Tracking.distNoseTailbase < strMax & Tracking.mouseTailbaseVel < tailbaseThreshVel;
end
windowWidth = round(sampleRate .* .75);
counts = conv(stretchIndices, ones(1, windowWidth), 'same');
stretchIndices = counts >= round(sampleRate * .5);
stretchSwitch = diff(stretchIndices);
stretchSwitchIndices = find(stretchSwitch);
jj = 1; kk = 1;
for i=1:length(stretchSwitchIndices)
if stretchSwitch(stretchSwitchIndices(i)) == 1
stretchStart(jj) = stretchSwitchIndices(i);
jj = jj+1;
elseif stretchSwitch(stretchSwitchIndices(i)) == -1
stretchEnd(kk) = stretchSwitchIndices(i);
kk = kk+1;
end
end
%remove indices if start & end points not complete bookends (acc by start or end)
if exist('stretchStart')
if stretchStart(1) > stretchEnd(1)
stretchIndices(1:stretchStart(1)) = 0;
end
if stretchStart(end) > stretchEnd(end)
stretchIndices(stretchStart(end):length(stretchIndices)) = 0;
end
%update start and end indices
clearvars stretchSwitch stretchSwitchIndices stretchStart stretchEnd;
%
stretchSwitch = diff(stretchIndices);
stretchSwitchIndices = find(stretchSwitch);
%
jj = 1; kk = 1;
for i=1:length(stretchSwitchIndices)
if stretchSwitch(stretchSwitchIndices(i)) == 1
stretchStart(jj) = stretchSwitchIndices(i);
jj = jj+1;
elseif stretchSwitch(stretchSwitchIndices(i)) == -1
stretchEnd(kk) = stretchSwitchIndices(i);
kk = kk+1;
end
end
for i = 1:length(stretchStart)
if stretchEnd(i) - stretchStart(i) < round(sampleRate .* .3) %was .5 -- set the minimum duration of stretch here
stretchIndices(stretchStart(i):stretchEnd(i)) = 0;
end
end
%make sure no stretches counted on platform
if ratClimbUp_xp == 1 | toyratClimbUp_xp == 1
for i = 1:length(stretchStart)
if Tracking.mouse_position(stretchStart(i),2) < 350 %set the lowest y value to be considered a stretch (don't count if on platform)
stretchIndices(stretchStart(i):stretchEnd(i)) = 0;
end
end
end
%update start and end indices
clearvars stretchSwitch stretchSwitchIndices stretchStart stretchEnd;
%
stretchSwitch = diff(stretchIndices);
stretchSwitchIndices = find(stretchSwitch);
%
jj = 1; kk = 1;
for i=1:length(stretchSwitchIndices)
if stretchSwitch(stretchSwitchIndices(i)) == 1
stretchStart(jj) = stretchSwitchIndices(i);
jj = jj+1;
elseif stretchSwitch(stretchSwitchIndices(i)) == -1
stretchEnd(kk) = stretchSwitchIndices(i);
kk = kk+1;
end
end
end
end
%% escape
if mouse_rat == 1 | shockgrid_xp == 1 | mouse_toyrat == 1 | ratClimbUp_xp == 1 | toyratClimbUp_xp == 1 | moving_shockgrid == 1 | cricket == 1 | artificial_prey == 1
if flipRatSide == 0 && ratClimbUp_xp == 0 && toyratClimbUp_xp == 0 && moving_shockgrid == 0
if mouse_toyrat == 1
aboveEscThreshold = Tracking.diffDistanceMouseToyRat(:,1) > 2; %pixels per frame
elseif mouse_rat == 1
aboveEscThreshold = Tracking.directionalVelocity(:,1) < -2; %pixels per frame
elseif shockgrid_xp == 1
aboveEscThreshold = Tracking.diffDistanceShockgrid(:,1) > 2 & Tracking.mouse_position(:,1) < shockgrid_boundary(1); %pixels per frame
end
end
if flipRatSide == 0 && ratClimbUp_xp == 1 | toyratClimbUp_xp == 1
if toyratClimbUp_xp == 1
aboveEscThreshold = Tracking.diffDistanceMouseToyRat(:,1) > .5 & Tracking.mouse_position(:,2) > Bounds.lowerTrack(1,2); %pixels per frame
elseif ratClimbUp_xp == 1
aboveEscThreshold = Tracking.directionalVelocity(:,1) > 2 & Tracking.mouse_position(:,2) > Bounds.lowerTrack(1,2); %pixels per frame
end
end
if flipRatSide == 1
if mouse_toyrat == 1
aboveEscThreshold = Tracking.diffDistanceMouseToyRat(:,1) > 2; %pixels per frame
elseif mouse_rat == 1
aboveEscThreshold = Tracking.directionalVelocity(:,1) > 2; %pixels per frame
elseif shockgrid_xp == 1
aboveEscThreshold = Tracking.diffDistanceShockgrid(:) > 2 & Tracking.mouse_position(:,1) > shockgrid_boundary(1); %pixels per frame
end
end
% Make a moving window to count the number of frames minimum velocity.
windowWidth = round(sampleRate .* .7); %was * 1.5
counts = conv(aboveEscThreshold, ones(1, windowWidth), 'same');
escapeIndices = counts >= round(sampleRate * .4); %was .7
escapeSwitch = diff(escapeIndices);
escapeSwitchIndices = find(escapeSwitch);
if escapeIndices(length(escapeIndices)) == 1
escapeIndices(escapeSwitchIndices(end):length(escapeIndices)) = 0;
elseif escapeIndices(1) == 1
escapeIndices(1:escapeSwitchIndices(1)) = 0;
end
jj = 1; kk = 1;
for i=1:length(escapeSwitchIndices)
if escapeSwitch(escapeSwitchIndices(i)) == 1
escapeStart(jj) = escapeSwitchIndices(i);
jj = jj+1;
elseif escapeSwitch(escapeSwitchIndices(i)) == -1
escapeEnd(kk) = escapeSwitchIndices(i);
kk = kk+1;
end
end
%remove indices if start & end points not complete bookends (acc by start or end)
if exist('escapeStart')
if escapeStart(1) > escapeEnd(1)
escapeIndices(1:escapeStart(1)) = 0;
end
if escapeStart(end) > escapeEnd(end)
escapeIndices(escapeStart(end):length(escapeIndices)) = 0;
end
% %update start and end indices
clearvars escapeSwitch escapeSwitchIndices escapeStart escapeEnd;
%
escapeSwitch = diff(escapeIndices);
escapeSwitchIndices = find(escapeSwitch);
%
jj = 1; kk = 1;
for i=1:length(escapeSwitchIndices)
if escapeSwitch(escapeSwitchIndices(i)) == 1
escapeStart(jj) = escapeSwitchIndices(i);
jj = jj+1;
elseif escapeSwitch(escapeSwitchIndices(i)) == -1
escapeEnd(kk) = escapeSwitchIndices(i);
kk = kk+1;
end
end
%adjust initial distance from rat
if mouse_rat == 1
if exist('escapeStart')
for i = 1:length(escapeStart)
if Tracking.distanceMouseRat(escapeStart(i)) > 250 %was 425
escapeIndices(escapeStart(i):escapeEnd(i)) = 0;
end
end
%delete instance if mouse doesn't escape rat by a certain amount
for i = 1:length(escapeStart)
if Tracking.distanceMouseRat(escapeEnd(i)) - Tracking.distanceMouseRat(escapeStart(i)) < 100
escapeIndices(escapeStart(i):escapeEnd(i)) = 0;
end
end
end
end
%adjust initial distance from toy rat
if mouse_toyrat == 1
if exist('escapeStart')
for i = 1:length(escapeStart)
if Tracking.distanceMouseToyRat(escapeStart(i)) > 250 %was 425
escapeIndices(escapeStart(i):escapeEnd(i)) = 0;
end
end
%delete instance if mouse doesn't escape rat by a certain amount
for i = 1:length(escapeStart)
if Tracking.distanceMouseToyRat(escapeEnd(i)) - Tracking.distanceMouseToyRat(escapeStart(i)) < 100
escapeIndices(escapeStart(i):escapeEnd(i)) = 0;
end
end
end
end
if shockgrid_xp == 1
if exist('escapeStart')
%initial minimum distance of escape
for i = 1:length(escapeStart)
if abs(Tracking.distanceShockgrid(escapeStart(i))) > 250 %was 250
escapeIndices(escapeStart(i):escapeEnd(i)) = 0;
end
end
%distance run during escape
for i = 1:length(escapeStart)
if abs(Tracking.distanceShockgrid(escapeEnd(i)) - Tracking.distanceShockgrid(escapeStart(i))) < 100
escapeIndices(escapeStart(i):escapeEnd(i)) = 0;
end
end
end
end
%adjust minimum escape duration
if length(escapeStart) > length(escapeEnd)
escapeStart = escapeStart(1:end-1)
end
for i = 1:length(escapeStart)
if escapeEnd(i) - escapeStart(i) < round(sampleRate .* .5) %set the minimum duration here
escapeIndices(escapeStart(i):escapeEnd(i)) = 0;
end
end
% %update start and end indices
clearvars escapeSwitch escapeSwitchIndices escapeStart escapeEnd;
%
escapeSwitch = diff(escapeIndices);
escapeSwitchIndices = find(escapeSwitch);
%
jj = 1; kk = 1;
for i=1:length(escapeSwitchIndices)
if escapeSwitch(escapeSwitchIndices(i)) == 1
escapeStart(jj) = escapeSwitchIndices(i);
jj = jj+1;
elseif escapeSwitch(escapeSwitchIndices(i)) == -1
escapeEnd(kk) = escapeSwitchIndices(i);
kk = kk+1;
end
end
end
end
%% approach
if mouse_rat == 1 | shockgrid_xp == 1 | mouse_toyrat == 1 | ratClimbUp_xp == 1 | toyratClimbUp_xp == 1 | moving_shockgrid == 1 | cricket == 1 | artificial_prey==1
minPixCloserApp = 100;
if isHD==1
minPixCloserApp = 300;
end
if flipRatSide == 0
appDistThresh = 200; %set minimum approach end distance to count as approach towards rat (must pass a certain threshold)
elseif flipRatSide == 1
appDistThresh = 200; %set minimum approach end distance to count as approach towards rat (must pass a certain threshold)
end
minVelApp = -2;
if flipRatSide == 0
if mouse_rat == 1 && ratClimbUp_xp == 0 && toyratClimbUp_xp == 0
aboveAppThreshold = Tracking.directionalVelocity(:,1) > 2; %pixels per frame
elseif mouse_toyrat == 1 | toyratClimbUp_xp == 1
aboveAppThreshold = Tracking.diffDistanceMouseToyRat(:,1) < -2; %pixels per frame
elseif shockgrid_xp == 1
aboveAppThreshold = Tracking.diffDistanceShockgrid(:,1) < -2 & Tracking.mouse_position(:,1) < shockgrid_boundary(1); %pixels per frame
elseif moving_shockgrid == 1
%separate rules for when shockgrid is moving and when it is stationary
aboveAppThreshold_gridMove = gridMoveIndices == 1 & abs(Tracking.mouseVel(:,1)) > 2 & (abs(Tracking.mouseNose(:,1)-Tracking.gridCenter) < abs(Tracking.mouseTailbase(:,1)-Tracking.gridCenter)); %was 5 for HD; if grid is moving, approach defined as mouse moving, and facing towards the grid.
aboveAppThreshold_gridNoMoveRight = gridMoveIndices == 0 & Tracking.diffDistMouseShockgrid > 2 & Tracking.gridCenter > 300; %was 1 for SD, 5 for HD, otherwise treat is as you would escape from stationary rat or shockgrid with low threshold
aboveAppThreshold_gridNoMoveLeft = gridMoveIndices == 0 & Tracking.diffDistMouseShockgrid < -2 & Tracking.gridCenter < 300; %was 1 for SD, 5 for HD, otherwise treat is as you would escape from stationary rat or shockgrid with low threshold
aboveAppThreshold = aboveAppThreshold_gridMove + aboveAppThreshold_gridNoMoveLeft + aboveAppThreshold_gridNoMoveRight;
if isHD==1
aboveAppThreshold_gridMove = gridMoveIndices == 1 & abs(Tracking.mouseVel(:,1)) > 5 & (abs(Tracking.mouseNose(:,1)-Tracking.gridCenter) < abs(Tracking.mouseTailbase(:,1)-Tracking.gridCenter)); %was 5 for HD; if grid is moving, approach defined as mouse moving, and facing towards the grid.
aboveAppThreshold_gridNoMoveRight = gridMoveIndices == 0 & Tracking.diffDistMouseShockgrid > 5 & Tracking.gridCenter > 500; %was 1 for SD, 5 for HD, otherwise treat is as you would escape from stationary rat or shockgrid with low threshold
aboveAppThreshold_gridNoMoveLeft = gridMoveIndices == 0 & Tracking.diffDistMouseShockgrid < -5 & Tracking.gridCenter < 500; %was 1 for SD, 5 for HD, otherwise treat is as you would escape from stationary rat or shockgrid with low threshold
aboveAppThreshold = aboveAppThreshold_gridMove + aboveAppThreshold_gridNoMoveLeft + aboveAppThreshold_gridNoMoveRight;
end
end
end
if flipRatSide == 1
if mouse_toyrat == 1
aboveAppThreshold = Tracking.diffDistanceMouseToyRat(:,1) < -2; %pixels per frame
elseif mouse_rat == 1
aboveAppThreshold = Tracking.directionalVelocity(:,1) < -2; %pixels per frame
elseif shockgrid_xp == 1
aboveAppThreshold = Tracking.diffDistanceShockgrid(:) < -2 & Tracking.mouse_position(:,1) > shockgrid_boundary(1); %pixels per frame
end
end
% Make a moving window to count the number of frames minimum velocity.
windowWidth = round(sampleRate .* 1);
counts = conv(aboveAppThreshold, ones(1, windowWidth), 'same');
approachIndices = counts >= round(sampleRate * .5); %changed this to .75 from .25
approachSwitch = diff(approachIndices);
approachSwitchIndices = find(approachSwitch);
if approachIndices(length(approachIndices)) == 1
approachIndices(approachSwitchIndices(end):length(approachIndices)) = 0;
elseif approachIndices(1) == 1
approachIndices(1:approachSwitchIndices(1)) = 0;
end
jj = 1; kk = 1;
for i=1:length(approachSwitchIndices)
if approachSwitch(approachSwitchIndices(i)) == 1
approachStart(jj) = approachSwitchIndices(i);
jj = jj+1;
elseif approachSwitch(approachSwitchIndices(i)) == -1
approachEnd(kk) = approachSwitchIndices(i);
kk = kk+1;
end
end
%remove indices if start & end points not complete bookends (acc by start or end)
if exist('approachStart')
if approachStart(1) > approachEnd(1)
approachIndices(1:approachStart(1)) = 0;
end
if approachStart(end) > approachEnd(end)
approachIndices(approachStart(end):length(approachIndices)) = 0;
end
end
clearvars approachSwitch approachSwitchIndices approachStart approachEnd;
approachSwitch = diff(approachIndices);
approachSwitchIndices = find(approachSwitch);
%
jj = 1; kk = 1;
for i=1:length(approachSwitchIndices)
if approachSwitch(approachSwitchIndices(i)) == 1
approachStart(jj) = approachSwitchIndices(i);
jj = jj+1;
elseif approachSwitch(approachSwitchIndices(i)) == -1
approachEnd(kk) = approachSwitchIndices(i);
kk = kk+1;
end
end
if exist('approachStart')
%adjust minimum duration
for i = 1:length(approachStart)
if approachEnd(i) - approachStart(i) < round(sampleRate .* .5) %set the minimum duration here -- fraction of a second
approachIndices(approachStart(i):approachEnd(i)) = 0;
end
end
% %update start and end indices
clearvars approachSwitch approachSwitchIndices approachStart approachEnd;
approachSwitch = diff(approachIndices);
approachSwitchIndices = find(approachSwitch);
%
jj = 1; kk = 1;
for i=1:length(approachSwitchIndices)
if approachSwitch(approachSwitchIndices(i)) == 1
approachStart(jj) = approachSwitchIndices(i);
jj = jj+1;
elseif approachSwitch(approachSwitchIndices(i)) == -1
approachEnd(kk) = approachSwitchIndices(i);
kk = kk+1;
end
end
end
%fix if does not meet minimum distance criterion
if mouse_rat == 1
if exist('approachEnd')
if length(approachEnd) > length(approachStart)
approachEnd = approachEnd(2:end);
end
for i = 1:length(approachEnd)
if Tracking.distanceMouseRat(approachStart(i)) - Tracking.distanceMouseRat(approachEnd(i)) < minPixCloserApp
approachIndices(approachStart(i):approachEnd(i)) = 0;
end
end
end
end
if mouse_toyrat == 1
if exist('approachEnd')
if length(approachEnd) > length(approachStart)
approachEnd = approachEnd(2:end);
end
for i = 1:length(approachEnd)
if Tracking.distanceMouseToyRat(approachStart(i)) - Tracking.distanceMouseToyRat(approachEnd(i)) < minPixCloserApp
approachIndices(approachStart(i):approachEnd(i)) = 0;
end
end
end
end
end
%% approach burrow
if burrow_xp == 1 | burrow_norat_xp == 1
minAppStartDistance = 100;
minAppEndDistance = 60;
minPixCloserApp = 40;
minVelApp = -3;
% Find indices where distance is increasing between mouse and rat above a threshold:
velocityBurrow = diff(Tracking.distanceFromBurrow);
aboveAppBurrThreshold = velocityBurrow < minVelApp; %pixels per frame
% Make a moving window to count the number of frames minimum velocity.
windowWidth = round(sampleRate .* 1.5);
counts = conv(aboveAppBurrThreshold, ones(1, windowWidth), 'same');
approachBurrIndices = counts >= round(sampleRate * .25);
approachBurrSwitch = diff(approachBurrIndices);
approachBurrSwitchIndices = find(approachBurrSwitch);
if approachBurrIndices(length(approachBurrIndices)) == 1
approachBurrIndices(approachBurrSwitchIndices(end):length(approachBurrIndices)) = 0;
elseif approachBurrIndices(1) == 1
approachBurrIndices(1:approachBurrSwitchIndices(1)) = 0;
end
jj = 1; kk = 1;
for i=1:length(approachBurrSwitchIndices)
if approachBurrSwitch(approachBurrSwitchIndices(i)) == 1
approachBurrStart(jj) = approachBurrSwitchIndices(i);
jj = jj+1;
elseif approachBurrSwitch(approachBurrSwitchIndices(i)) == -1
approachBurrEnd(kk) = approachBurrSwitchIndices(i);
kk = kk+1;
end
end
%remove indices if start & end points not complete bookends (acc by start or end)
if exist('approachBurrStart')
if approachBurrStart(1) > approachBurrEnd(1)
approachBurrIndices(1:approachBurrStart(1)) = 0;
end
if approachBurrStart(end) > approachBurrEnd(end)
approachBurrIndices(approachBurrStart(end):length(approachBurrIndices)) = 0;
end
% %update start and end indices
clearvars approachBurrSwitch approachBurrSwitchIndices approachBurrStart approachBurrEnd;
approachBurrSwitch = diff(approachBurrIndices);
approachBurrSwitchIndices = find(approachBurrSwitch);
%
jj = 1; kk = 1;
for i=1:length(approachBurrSwitchIndices)
if approachBurrSwitch(approachBurrSwitchIndices(i)) == 1
approachBurrStart(jj) = approachBurrSwitchIndices(i);
jj = jj+1;
elseif approachBurrSwitch(approachBurrSwitchIndices(i)) == -1
approachBurrEnd(kk) = approachBurrSwitchIndices(i);
kk = kk+1;
end
end
% %adjust minimum duration
for i = 1:length(approachBurrStart)
if approachBurrEnd(i) - approachBurrStart(i) < round(sampleRate .* .5) %set the minimum duration here -- fraction of a second
approachBurrIndices(approachBurrStart(i):approachBurrEnd(i)) = 0;
end
end
% remove if preceded by escape by 3 seconds
if exist('escapeStart')
for i = 1:length(approachBurrStart)
if approachBurrStart(i) > sampleRate .* 3;
if sum(escapeIndices(approachBurrStart(i) - sampleRate .* 3:approachBurrStart(i))) > 0;
approachBurrIndices(approachBurrStart(i):approachBurrEnd(i)) = 0;
end
end
end
end
% %update start and end indices
clearvars approachBurrSwitch approachBurrSwitchIndices approachBurrStart approachBurrEnd;
approachBurrSwitch = diff(approachBurrIndices);
approachBurrSwitchIndices = find(approachBurrSwitch);
%
jj = 1; kk = 1;
for i=1:length(approachBurrSwitchIndices)
if approachBurrSwitch(approachBurrSwitchIndices(i)) == 1
approachBurrStart(jj) = approachBurrSwitchIndices(i);
jj = jj+1;
elseif approachBurrSwitch(approachBurrSwitchIndices(i)) == -1
approachBurrEnd(kk) = approachBurrSwitchIndices(i);
kk = kk+1;
end
end
% %remove approaches that don't start or end within a certain distance of the
% burrow
for i = 1:length(approachBurrStart)
if Tracking.distanceFromBurrow(approachBurrEnd(i)) > minAppEndDistance %|| Tracking.distanceFromBurrow(approachBurrStart(i)) < minAppStartDistance %set the minimum duration here -- fraction of a second
approachBurrIndices(approachBurrStart(i):approachBurrEnd(i)) = 0;
end
end
%
% %update start and end indices
clearvars approachBurrSwitch approachBurrSwitchIndices approachBurrStart approachBurrEnd;
approachBurrSwitch = diff(approachBurrIndices);
approachBurrSwitchIndices = find(approachBurrSwitch);
%
jj = 1; kk = 1;
for i=1:length(approachBurrSwitchIndices)
if approachBurrSwitch(approachBurrSwitchIndices(i)) == 1
approachBurrStart(jj) = approachBurrSwitchIndices(i);
jj = jj+1;
elseif approachBurrSwitch(approachBurrSwitchIndices(i)) == -1
approachBurrEnd(kk) = approachBurrSwitchIndices(i);
kk = kk+1;
end
end
%fix if does not meet minimum distance criterion
for i = 1:length(approachBurrStart)
if Tracking.distanceFromBurrow(approachBurrStart(i)) - Tracking.distanceFromBurrow(approachBurrEnd(i)) < minPixCloserApp
approachBurrIndices(approachBurrStart(i):approachBurrEnd(i)) = 0;
end
end
% %update start and end indices
clearvars approachBurrSwitch approachBurrSwitchIndices approachBurrStart approachBurrEnd;
approachBurrSwitch = diff(approachBurrIndices);
approachBurrSwitchIndices = find(approachBurrSwitch);
%
jj = 1; kk = 1;
for i=1:length(approachBurrSwitchIndices)
if approachBurrSwitch(approachBurrSwitchIndices(i)) == 1
approachBurrStart(jj) = approachBurrSwitchIndices(i);
jj = jj+1;
elseif approachBurrSwitch(approachBurrSwitchIndices(i)) == -1
approachBurrEnd(kk) = approachBurrSwitchIndices(i);
kk = kk+1;
end
end
end
end
%% depart burrow
if burrow_xp == 1 | burrow_norat_xp == 1
maxDepStartDistance = 60; %set minimum depart start distance
minDepEndDistance = 80; %set the minimum depart end distance
minPixCloserApp = 40; %set the minimum increase in distance from rat
%appDistThresh = 175; %set minimum approach end distance to count as approach towards rat (must pass a certain threshold)
minVelDep = 2;
% Find indices where distance is increasing between mouse and rat above a threshold:
velocityBurrow = diff(Tracking.distanceFromBurrow);
aboveDepBurrThreshold = velocityBurrow > minVelDep; %pixels per frame
% Make a moving window to count the number of frames minimum velocity.
windowWidth = round(sampleRate .* 1.5);
counts = conv(aboveDepBurrThreshold, ones(1, windowWidth), 'same');
departBurrIndices = counts >= round(sampleRate * .25);
departBurrSwitch = diff(departBurrIndices);
departBurrSwitchIndices = find(departBurrSwitch);
if departBurrIndices(length(departBurrIndices)) == 1
departBurrIndices(departBurrSwitchIndices(end):length(departBurrIndices)) = 0;
elseif departBurrIndices(1) == 1
departBurrIndices(1:departBurrSwitchIndices(1)) = 0;
end
jj = 1; kk = 1;
for i=1:length(departBurrSwitchIndices)
if departBurrSwitch(departBurrSwitchIndices(i)) == 1
departBurrStart(jj) = departBurrSwitchIndices(i);
jj = jj+1;
elseif departBurrSwitch(departBurrSwitchIndices(i)) == -1
departBurrEnd(kk) = departBurrSwitchIndices(i);
kk = kk+1;
end
end
%remove indices if start & end points not complete bookends (acc by start or end)
if exist('departBurrStart')
if departBurrStart(1) > departBurrEnd(1)
departBurrIndices(1:departBurrStart(1)) = 0;
end
if departBurrStart(end) > departBurrEnd(end)
departBurrIndices(departBurrStart(end):length(departBurrIndices)) = 0;
end
%update start and end indices
clearvars departBurrSwitch departBurrSwitchIndices departBurrStart departBurrEnd;
departBurrSwitch = diff(departBurrIndices);
departBurrSwitchIndices = find(departBurrSwitch);
%
jj = 1; kk = 1;
for i=1:length(departBurrSwitchIndices)
if departBurrSwitch(departBurrSwitchIndices(i)) == 1
departBurrStart(jj) = departBurrSwitchIndices(i);
jj = jj+1;
elseif departBurrSwitch(departBurrSwitchIndices(i)) == -1
departBurrEnd(kk) = departBurrSwitchIndices(i);
kk = kk+1;
end
end
% %adjust minimum duration
for i = 1:length(departBurrStart)
if departBurrEnd(i) - departBurrStart(i) < round(sampleRate .* .25) %set the minimum duration here -- fraction of a second
departBurrIndices(departBurrStart(i):departBurrEnd(i)) = 0;
end
end
%remove departs that don't start or end within a certain distance of the burrow
for i = 1:length(departBurrStart)
if Tracking.distanceFromBurrow(departBurrEnd(i)) < minDepEndDistance | Tracking.distanceFromBurrow(departBurrStart(i)) > maxDepStartDistance %set the minimum duration here -- fraction of a second
departBurrIndices(departBurrStart(i):departBurrEnd(i)) = 0;
end
end
% %update start and end indices
clearvars departBurrSwitch departBurrSwitchIndices departBurrStart departBurrEnd;
departBurrSwitch = diff(departBurrIndices);
departBurrSwitchIndices = find(departBurrSwitch);
%
jj = 1; kk = 1;
for i=1:length(departBurrSwitchIndices)
if departBurrSwitch(departBurrSwitchIndices(i)) == 1
departBurrStart(jj) = departBurrSwitchIndices(i);
jj = jj+1;
elseif departBurrSwitch(departBurrSwitchIndices(i)) == -1
departBurrEnd(kk) = departBurrSwitchIndices(i);
kk = kk+1;
end
end
end
end
%% freeze
if artificial_prey==0
freezeMoveThresh = .2;
freezeAngleThresh = .03;
if EPM == 0 && CO2 == 0 && hotplate_xp == 0 && ratClimbUp_xp == 0 && moving_shockgrid == 0 && toyratClimbUp_xp==0
if flipRatSide == 0
withinFreezeThreshold = Tracking.mouseTailbaseVel(:) < freezeMoveThresh ...
& Tracking.mouseNoseVel(:) < freezeMoveThresh ...
& abs(Tracking.positiondiffMouseAngle(:)) < freezeAngleThresh %& ...
%Tracking.distEarsTailbase(:) < (strThreshEars-0) %& Tracking.mouseNose(:,1) > Tracking.mouseTailbase(:,1); %and must be facing towards rat if on the right and not stretching
elseif flipRatSide == 1
withinFreezeThreshold = Tracking.mouseTailbaseVel(:) < freezeMoveThresh & Tracking.mouseNoseVel(:) < freezeMoveThresh & abs(Tracking.positiondiffMouseAngle(:)) < freezeAngleThresh %& ...
%Tracking.distNoseTailbase(:) < (strThresh-0);% & Tracking.mouseNose(:,1) < Tracking.mouseTailbase(:,1); %and must be facing towards rat if on the left and not stretching
end
end
if moving_shockgrid == 1
if miniscope == 0
withinFreezeThreshold = Tracking.mouseTailbaseVel(:) < freezeMoveThresh & Tracking.mouseNoseVel(:) < freezeMoveThresh & abs(Tracking.positiondiffMouseAngle(:)) < freezeAngleThresh & Tracking.distNoseTailbase(:) < ((strThresh)-5); %and not stretching
elseif miniscope == 1
withinFreezeThreshold = Tracking.mouseTailbaseVel(:) < freezeMoveThresh & Tracking.mouseNoseVel(:) < freezeMoveThresh & abs(Tracking.positiondiffMouseAngle(:)) < freezeAngleThresh & Tracking.distEarsTailbase(:) < (strThreshEars); %and not stretching
end
end
if ratClimbUp_xp == 1 | toyratClimbUp_xp == 1
freezeMoveThresh = .4; %was .3 -- set movement maximum for freeze
freezeAngleThresh = .05; % was .05 , set angular movement max for freeze (of head)
withinFreezeThreshold = Tracking.mouseTailbaseVel(:) < freezeMoveThresh & Tracking.mouseNoseVel(:) < freezeMoveThresh & ...
Tracking.mouseNose(:,1) < Tracking.mouseTailbase(:,1) %& Tracking.distNoseTailbase(:) < (strThresh); %must be facing the rat and not stretching
end
if hotplate_xp_CNN == 1
freezeMoveThresh = .8;
%withinFreezeThreshold = Tracking.mouseVel < freezeMoveThresh & Tracking.mouse_position(1:end,2) > Bounds.lowerTrack(1,2);
withinFreezeThreshold = Tracking.mouseNoseVel < freezeMoveThresh & Tracking.mouse_position(1:end,2) > Bounds.lowerTrack(1,2);
end
if CO2 == 1 | hotplate_xp == 1
freezeMoveThresh = .8;
%withinFreezeThreshold = Tracking.mouseVel < freezeMoveThresh & Tracking.mouse_position(1:end,2) > Bounds.lowerTrack(1,2);
withinFreezeThreshold = Tracking.mouseVel < freezeMoveThresh & Tracking.mouse_position(1:end,2) > Bounds.lowerTrack(1,2);
end
if EPM == 1
withinFreezeThreshold = Tracking.mouseTailbaseVel(:) < freezeMoveThresh & Tracking.positiondiffMouseAngle(:) < freezeAngleThresh & ...
Tracking.distNoseTailbase(:) < (strThresh-2); % and must not be stretching, or even borderline stretching
end
windowWidth = round(sampleRate .* 1);
counts = conv(withinFreezeThreshold, ones(1, windowWidth), 'same');
freezeIndices = counts >= round(sampleRate .* .5);
%find freeze start and end indices
freezeSwitch = diff(freezeIndices);
freezeSwitchIndices = find(freezeSwitch);
if freezeIndices(length(freezeIndices)) == 1
freezeIndices(freezeSwitchIndices(end):length(freezeIndices)) = 0;
elseif freezeIndices(1) == 1
freezeIndices(1:freezeSwitchIndices(1)) = 0;
end
jj = 1; kk = 1;
for i=1:length(freezeSwitchIndices)
if freezeSwitch(freezeSwitchIndices(i)) == 1
freezeStart(jj) = freezeSwitchIndices(i);
jj = jj+1;
elseif freezeSwitch(freezeSwitchIndices(i)) == -1
freezeEnd(kk) = freezeSwitchIndices(i);
kk = kk+1;
end
end
if freezeIndices(length(freezeIndices)) == 1
freezeEnd(kk) = length(freezeIndices);
end
%remove indices if start & end points not complete bookends (acc by start or end)
if exist('freezeStart')
if freezeStart(1) > freezeEnd(1)
freezeIndices(1:freezeStart(1)) = 0;
end
if freezeStart(end) > freezeEnd(end)
freezeIndices(freezeStart(end):length(freezeIndices)) = 0;
end
% %update approach start and end indices
clearvars freezeSwitch freezeSwitchIndices freezeStart freezeEnd;
%
freezeSwitch = diff(freezeIndices);
freezeSwitchIndices = find(freezeSwitch);
%
jj = 1; kk = 1;
for i=1:length(freezeSwitchIndices)
if freezeSwitch(freezeSwitchIndices(i)) == 1
freezeStart(jj) = freezeSwitchIndices(i);
jj = jj+1;
elseif freezeSwitch(freezeSwitchIndices(i)) == -1
freezeEnd(kk) = freezeSwitchIndices(i);
kk = kk+1;
end
end
%adjust minimum freeze duration
if length(freezeStart) > length(freezeEnd)
freezeStart = freezeStart(1:end-1);
end
for i = 1:length(freezeStart)
if freezeEnd(i) - freezeStart(i) < round(sampleRate .* .5) %set the minimum duration here
freezeIndices(freezeStart(i):freezeEnd(i)) = 0;
end
end
%specify for climb up that freeze can't happen on the platform
if ratClimbUp_xp == 1
for i = 1:length(freezeStart)
if Tracking.mouse_position(freezeStart(i),2) < 350
freezeIndices(freezeStart(i):freezeEnd(i)) = 0;
end
end
end
%
% %update approach start and end indices
clearvars freezeSwitch freezeSwitchIndices freezeStart freezeEnd;
%
freezeSwitch = diff(freezeIndices);
freezeSwitchIndices = find(freezeSwitch);
%
jj = 1; kk = 1;
for i=1:length(freezeSwitchIndices)
if freezeSwitch(freezeSwitchIndices(i)) == 1
freezeStart(jj) = freezeSwitchIndices(i);
jj = jj+1;
elseif freezeSwitch(freezeSwitchIndices(i)) == -1
freezeEnd(kk) = freezeSwitchIndices(i);
kk = kk+1;
end
end
end
Tracking.freezeFrac = sum(freezeIndices) / length(Tracking.mouse_position);
end
%% REAR UP WALL
if EPM == 0 && ratClimbUp_xp == 0 && toyratClimbUp_xp == 0 && hotplate_xp == 0 && CO2 == 0 && RTPP == 0 && hotplate_xp_CNN == 0 && fear_cond_chamber == 0 && artificial_prey==0 && open_field==0
% Find indices where mouse nose passes beyond constraint rectangle:
rearingIndices = Tracking.mouseNose(:,1) > rearing_constraint(2,1) | Tracking.mouseNose(:,1) < rearing_constraint(1,1) | ...
Tracking.mouseNose(:,2) < rearing_constraint(1,2) | Tracking.mouseNose(:,2) > rearing_constraint(2,2);
% Make a moving window to count the number of frames minimum velocity.
windowWidth = round(sampleRate .* 1.0);
counts = conv(rearingIndices, ones(1, windowWidth), 'same');
rearingIndices = counts >= round(sampleRate * .35);
rearingSwitch = diff(rearingIndices);
rearingSwitchIndices = find(rearingSwitch);
if rearingIndices(length(rearingIndices)) == 1
rearingIndices(rearingSwitchIndices(end):length(rearingIndices)) = 0;
elseif rearingIndices(1) == 1
rearingIndices(1:rearingSwitchIndices(1)) = 0;
end
jj = 1; kk = 1;
for i=1:length(rearingSwitchIndices)
if rearingSwitch(rearingSwitchIndices(i)) == 1
rearingStart(jj) = rearingSwitchIndices(i);
jj = jj+1;
elseif rearingSwitch(rearingSwitchIndices(i)) == -1
rearingEnd(kk) = rearingSwitchIndices(i);
kk = kk+1;
end
end
%remove single indices of behavior
if sum(rearingIndices)==0
rearingIndices(find(rearingIndices==1)) = 0;
clearvars rearingStart rearingEnd
end
%remove indices if start & end points not complete bookends (acc by start or end)
if exist('rearingStart')
if rearingStart(1) > rearingEnd(1)
rearingIndices(1:rearingStart(1)) = 0;
end
if rearingStart(end) > rearingEnd(end)
rearingIndices(rearingStart(end):length(rearingIndices)) = 0;
end
% %update approach start and end indices
clearvars rearingSwitch rearingSwitchIndices rearingStart rearingEnd;
%
rearingSwitch = diff(rearingIndices);
rearingSwitchIndices = find(rearingSwitch);
%
jj = 1; kk = 1;
for i=1:length(rearingSwitchIndices)
if rearingSwitch(rearingSwitchIndices(i)) == 1
rearingStart(jj) = rearingSwitchIndices(i);
jj = jj+1;
elseif rearingSwitch(rearingSwitchIndices(i)) == -1
rearingEnd(kk) = rearingSwitchIndices(i);
kk = kk+1;
end
end
if rearingIndices(length(rearingIndices)) == 1
rearingEnd(kk) = length(rearingIndices);
end
%adjust minimum duration
if exist('rearingEnd', 'var')
for i = 1:length(rearingStart)
if rearingEnd(i) - rearingStart(i) < round(sampleRate .* .25) %set the minimum duration here
rearingIndices(rearingStart(i):rearingEnd(i)) = 0;
end
end
end
% %update approach start and end indices
clearvars rearingSwitch rearingSwitchIndices rearingStart rearingEnd;
rearingSwitch = diff(rearingIndices);
rearingSwitchIndices = find(rearingSwitch);
%
jj = 1; kk = 1;
for i=1:length(rearingSwitchIndices)
if rearingSwitch(rearingSwitchIndices(i)) == 1
rearingStart(jj) = rearingSwitchIndices(i);
jj = jj+1;
elseif rearingSwitch(rearingSwitchIndices(i)) == -1
rearingEnd(kk) = rearingSwitchIndices(i);
kk = kk+1;
end
end
end
end
%% HIDE INSIDE BURROW AND NON-BURROW
%burrow
if burrow_xp == 1 | burrow_norat_xp == 1
%count indices that are within bounding box of burrow-- mouse nose and
%tailbase
insideBurrowIndices = Tracking.mouseBetwEars(:,1) > burrow_boundary(1,1) & Tracking.mouseBetwEars(:,1) < burrow_boundary(2,1) & ...
Tracking.mouseBetwEars(:,2) > burrow_boundary(1,2) & Tracking.mouseBetwEars(:,2) < burrow_boundary(2,2)
%& Tracking.mouseTailbase(:,1) > burrow_boundary(1,1) & Tracking.mouseTailbase(:,1) < burrow_boundary(2,1) & ...
%Tracking.mouseTailbase(:,2) > burrow_boundary(1,2) & Tracking.mouseTailbase(:,2) < burrow_boundary(2,2);
% Make a moving window to count the number of frames.
windowWidth = round(sampleRate .* 1.5);
counts = conv(insideBurrowIndices, ones(1, windowWidth), 'same');
insideBurrowIndices = counts >= round(sampleRate * .5);
insideBurrowSwitch = diff(insideBurrowIndices);
insideBurrowSwitchIndices = find(insideBurrowSwitch);
if insideBurrowIndices(length(insideBurrowIndices)) == 1
insideBurrowIndices(insideBurrowSwitchIndices(end):length(insideBurrowIndices)) = 0;
elseif insideBurrowIndices(1) == 1
insideBurrowIndices(1:insideBurrowSwitchIndices(1)) = 0;
end
jj = 1; kk = 1;
for i=1:length(insideBurrowSwitchIndices)
if insideBurrowSwitch(insideBurrowSwitchIndices(i)) == 1
insideBurrowStart(jj) = insideBurrowSwitchIndices(i);
jj = jj+1;
elseif insideBurrowSwitch(insideBurrowSwitchIndices(i)) == -1
insideBurrowEnd(kk) = insideBurrowSwitchIndices(i);
kk = kk+1;
end
end
%remove indices if start & end points not complete bookends (acc by start or end)
if exist('insideBurrowStart')
if insideBurrowStart(1) > insideBurrowEnd(1)
insideBurrowIndices(1:insideBurrowStart(1)) = 0;
end
if insideBurrowStart(end) > insideBurrowEnd(end)
insideBurrowIndices(insideBurrowStart(end):length(insideBurrowIndices)) = 0;
end
% %update approach start and end indices
clearvars insideBurrowSwitch insideBurrowSwitchIndices insideBurrowStart insideBurrowEnd;
%
insideBurrowSwitch = diff(insideBurrowIndices);
insideBurrowSwitchIndices = find(insideBurrowSwitch);
%
jj = 1; kk = 1;
for i=1:length(insideBurrowSwitchIndices)
if insideBurrowSwitch(insideBurrowSwitchIndices(i)) == 1
insideBurrowStart(jj) = insideBurrowSwitchIndices(i);
jj = jj+1;
elseif insideBurrowSwitch(insideBurrowSwitchIndices(i)) == -1
insideBurrowEnd(kk) = insideBurrowSwitchIndices(i);
kk = kk+1;
end
end
if 0 == 1
%non-burrow
%count indices that are within bounding box of burrow-- mouse nose and
%tailbase
insideNonBurrowIndices = Tracking.mouseBetwEars(:,1) > nonburrow_boundary(1,1) & Tracking.mouseBetwEars(:,1) < nonburrow_boundary(2,1) & ...
Tracking.mouseBetwEars(:,2) > nonburrow_boundary(1,2) & Tracking.mouseBetwEars(:,2) < nonburrow_boundary(2,2)
%& Tracking.mouseTailbase(:,1) > burrow_boundary(1,1) & Tracking.mouseTailbase(:,1) < burrow_boundary(2,1) & ...
%Tracking.mouseTailbase(:,2) > burrow_boundary(1,2) & Tracking.mouseTailbase(:,2) < burrow_boundary(2,2);
% Make a moving window to count the number of frames.
windowWidth = round(sampleRate .* 1.5);
counts = conv(insideNonBurrowIndices, ones(1, windowWidth), 'same');
insideNonBurrowIndices = counts >= round(sampleRate * .5);
insideNonBurrowSwitch = diff(insideNonBurrowIndices);
insideNonBurrowSwitchIndices = find(insideNonBurrowSwitch);
if insideNonBurrowIndices(length(insideNonBurrowIndices)) == 1
insideNonBurrowIndices(insideNonBurrowSwitchIndices(end):length(insideNonBurrowIndices)) = 0;
elseif insideNonBurrowIndices(1) == 1
insideNonBurrowIndices(1:insideNonBurrowSwitchIndices(1)) = 0;
end
jj = 1; kk = 1;
for i=1:length(insideNonBurrowSwitchIndices)
if insideNonBurrowSwitch(insideNonBurrowSwitchIndices(i)) == 1
insideNonBurrowStart(jj) = insideNonBurrowSwitchIndices(i);
jj = jj+1;
elseif insideNonBurrowSwitch(insideNonBurrowSwitchIndices(i)) == -1
insideNonBurrowEnd(kk) = insideNonBurrowSwitchIndices(i);
kk = kk+1;
end
end
end
end
end
%% Metrics for Elevated Plus Maze
if EPM == 1
Tracking.EPMRegion = [];
load('PlusArmN.mat'); load('PlusArmS.mat'); load('PlusArmE.mat'); load('PlusArmW.mat');
% for each frame, determine the arm of occupancy
for i = 1:length(Tracking.mouse_position)
%North
if Tracking.mouse_position(i,1) > PlusArmN(1,1) && Tracking.mouse_position(i,1) < PlusArmN(2,1) && Tracking.mouse_position(i,2) > PlusArmN(1,2) && Tracking.mouse_position(i,2) < PlusArmN(2,2) && ...
Tracking.mouseTailbase(i,1) > PlusArmN(1,1) && Tracking.mouseTailbase(i,1) < PlusArmN(2,1) && Tracking.mouseTailbase(i,2) > PlusArmN(1,2) && Tracking.mouseTailbase(i,2) < PlusArmN(2,2);
Tracking.EPMRegion(i) = 1;
elseif Tracking.mouse_position(i,1) > PlusArmE(1,1) && Tracking.mouse_position(i,1) < PlusArmE(2,1) && Tracking.mouse_position(i,2) > PlusArmE(1,2) && Tracking.mouse_position(i,2) < PlusArmE(2,2) && ...
Tracking.mouseTailbase(i,1) > PlusArmE(1,1) && Tracking.mouseTailbase(i,1) < PlusArmE(2,1) && Tracking.mouseTailbase(i,2) > PlusArmE(1,2) && Tracking.mouseTailbase(i,2) < PlusArmE(2,2);
Tracking.EPMRegion(i) = 2;
elseif Tracking.mouse_position(i,1) > PlusArmS(1,1) && Tracking.mouse_position(i,1) < PlusArmS(2,1) && Tracking.mouse_position(i,2) > PlusArmS(1,2) && Tracking.mouse_position(i,2) < PlusArmS(2,2) && ...
Tracking.mouseTailbase(i,1) > PlusArmS(1,1) && Tracking.mouseTailbase(i,1) < PlusArmS(2,1) && Tracking.mouseTailbase(i,2) > PlusArmS(1,2) && Tracking.mouseTailbase(i,2) < PlusArmS(2,2);
Tracking.EPMRegion(i) = 3;
elseif Tracking.mouse_position(i,1) > PlusArmW(1,1) && Tracking.mouse_position(i,1) < PlusArmW(2,1) && Tracking.mouse_position(i,2) > PlusArmW(1,2) && Tracking.mouse_position(i,2) < PlusArmW(2,2) && ...
Tracking.mouseTailbase(i,1) > PlusArmW(1,1) && Tracking.mouseTailbase(i,1) < PlusArmW(2,1) && Tracking.mouseTailbase(i,2) > PlusArmW(1,2) && Tracking.mouseTailbase(i,2) < PlusArmW(2,2);
Tracking.EPMRegion(i) = 4;
elseif Tracking.mouse_position(i,1) > PlusArmW(2,1) && Tracking.mouse_position(i,1) < PlusArmE(1,1) && Tracking.mouse_position(i,2) > PlusArmN(2,2) && Tracking.mouse_position(i,2) < PlusArmS(2,1) && ...
Tracking.mouseTailbase(i,1) > PlusArmW(2,1) && Tracking.mouseTailbase(i,1) < PlusArmE(1,1) && Tracking.mouseTailbase(i,2) > PlusArmN(2,2) && Tracking.mouseTailbase(i,2) < PlusArmS(2,1);
Tracking.EPMRegion(i) = 5;
else Tracking.EPMRegion(i) = 10;
end
end
openArmNorthSouth = 0;
openArmEastWest = 1;
%find percent time in open and closed arms
%open arm
if openArmNorthSouth == 1
openCount = length(find(Tracking.EPMRegion == 1 | Tracking.EPMRegion == 3));
%closed arm
closedCount = length(find(Tracking.EPMRegion == 2 | Tracking.EPMRegion == 4));
%center
centerCount = length(find(Tracking.EPMRegion == 5));
%calculate closed and open arm indices
closedArmIndices = zeros(length(Tracking.mouse_position),1);
closedArmIndices(find(Tracking.EPMRegion == 2 | Tracking.EPMRegion == 4)) = 1;
openArmIndices = zeros(length(Tracking.mouse_position),1);
openArmIndices(find(Tracking.EPMRegion == 1 | Tracking.EPMRegion == 3)) = 1;
end
if openArmEastWest == 1
openCount = length(find(Tracking.EPMRegion == 2 | Tracking.EPMRegion == 4));
%closed arm
closedCount = length(find(Tracking.EPMRegion == 1 | Tracking.EPMRegion == 3));
%center
centerCount = length(find(Tracking.EPMRegion == 5));
%calculate closed and open arm indices
openArmIndices = zeros(length(Tracking.mouse_position),1);
openArmIndices(find(Tracking.EPMRegion == 2 | Tracking.EPMRegion == 4)) = 1;
closedArmIndices = zeros(length(Tracking.mouse_position),1);
closedArmIndices(find(Tracking.EPMRegion == 1 | Tracking.EPMRegion == 3)) = 1;
end
%calc percent occupancy
Tracking.PercentTimeClosedEPM = closedCount / length(Tracking.mouse_position);
Tracking.PercentTimeOpenEPM = openCount / length(Tracking.mouse_position);
Tracking.PercentTimeCenterEPM = centerCount / length(Tracking.mouse_position);
%find # entries into open arms
temp = diff(openArmIndices);
openArmEntryStart = find(temp == 1);
%to avoid tracking jitter at the boundary or dropout false positives,
%remove any entry preceded by 3 seconds by another entry
idxToDelete = zeros(1,length(openArmEntryStart));
for i = 1:length(openArmEntryStart)-1
if openArmEntryStart(i+1) - openArmEntryStart(i) < 70;
idxToDelete(i+1) = 1;
end
end
openArmEntryStart(find(idxToDelete==1)) = [];
openArmEntryEnd = find(temp == -1);
if openArmEntryEnd(1) < openArmEntryStart(1)
openArmEntryEnd(1) = [];
end
if length(idxToDelete) > length(openArmEntryEnd)
idxToDelete = idxToDelete(1:end-1);
end
openArmEntryEnd(find(idxToDelete==1)) = [];
if length(openArmEntryStart) > length(openArmEntryEnd)
openArmEntryStart(end) = [];
end
clearvars idxToDelete
temp = diff(closedArmIndices);
closedArmEntryStart = find(temp == 1);
%to avoid tracking jitter at the boundary or dropout false positives,
%remove any entry preceded by 3 seconds by another entry
idxToDelete = zeros(1,length(closedArmEntryStart));
for i = 1:length(closedArmEntryStart)-1
if closedArmEntryStart(i+1) - closedArmEntryStart(i) < 70;
idxToDelete(i+1) = 1;
end
end
closedArmEntryStart(find(idxToDelete==1)) = [];
closedArmEntryEnd = find(temp == -1);
if closedArmEntryEnd(1) < closedArmEntryStart(1)
closedArmEntryEnd(1) = [];
end
if length(idxToDelete) > length(openArmEntryEnd)
idxToDelete = idxToDelete(1:end-1);
end
closedArmEntryEnd(find(idxToDelete==1)) = [];
clearvars idxToDelete
minSamples = 15;
temp = openArmEntryEnd-openArmEntryStart;
temp = find(temp < minSamples);
openArmEntryStart(temp) = []; openArmEntryEnd(temp) = [];
end
%% Metrics for Open Field
if open_field == 1
Tracking.OF_Region = [];
load('of_center.mat');
% for each frame, determine the arm of occupancy
for i = 1:length(Tracking.mouse_position)
%Center of open field
if Tracking.mouse_position(i,1) > of_center(1,1) && Tracking.mouse_position(i,1) < of_center(2,1) && Tracking.mouse_position(i,2) > of_center(1,2) && Tracking.mouse_position(i,2) < of_center(2,2) && ...
Tracking.mouseTailbase(i,1) > of_center(1,1) && Tracking.mouseTailbase(i,1) < of_center(2,1) && Tracking.mouseTailbase(i,2) > of_center(1,2) && Tracking.mouseTailbase(i,2) < of_center(2,2);
Tracking.OF_Region(i) = 1;
else
Tracking.OF_Region(i) = 0;
end
end
Tracking.OF_Region = Tracking.OF_Region';
Tracking.OF_Region_FracTime = sum(Tracking.OF_Region) ./ length(Tracking.OF_Region);
end
%% RTPP
if RTPP == 1
load('Bounds.mat')
boundsLeftThreshold = Tracking.mouseNose(:,2) < Bounds.left(2,2) & Tracking.mouseNose(:,2) > Bounds.left(1,2) & Tracking.mouseNose(:,1) > Bounds.left(1,1) & Tracking.mouseNose(:,1) < Bounds.left(2,1) & ...
Tracking.mouseTailbase(:,2) < Bounds.left(2,2) & Tracking.mouseTailbase(:,2) > Bounds.left(1,2) & Tracking.mouseTailbase(:,1) > Bounds.left(1,1) & Tracking.mouseTailbase(:,1) < Bounds.left(2,1);
boundsRightThreshold = Tracking.mouseNose(:,2) < Bounds.right(2,2) & Tracking.mouseNose(:,2) > Bounds.right(1,2) & Tracking.mouseNose(:,1) > Bounds.right(1,1) & Tracking.mouseNose(:,1) < Bounds.right(2,1) & ...
Tracking.mouseTailbase(:,2) < Bounds.right(2,2) & Tracking.mouseTailbase(:,2) > Bounds.right(1,2) & Tracking.mouseTailbase(:,1) > Bounds.right(1,1) & Tracking.mouseTailbase(:,1) < Bounds.right(2,1);
Tracking.leftBoxSecsOcc = sum(boundsLeftThreshold)/25; %divide by framerate
Tracking.rightBoxSecsOcc = sum(boundsRightThreshold)/25;
Tracking.leftBoxFracOcc = sum(boundsLeftThreshold) ./ length(Tracking.mouse_position);
Tracking.rightBoxFracOcc = sum(boundsRightThreshold) ./ length(Tracking.mouse_position);
end
%% find head dips in EPM
if EPM == 1
Tracking.mouse_position = Tracking.mouseNose;
headDip = Tracking.mouse_position(:,1) > PlusArmNE(1,1) & Tracking.mouse_position(:,2) < PlusArmNE(2,2) | ...
Tracking.mouse_position(:,1) > PlusArmSE(1,1) & Tracking.mouse_position(:,2) > PlusArmSE(1,2) | ...
Tracking.mouse_position(:,1) < PlusArmNW(2,1) & Tracking.mouse_position(:,2) < PlusArmNW(2,2) | ...
Tracking.mouse_position(:,1) < PlusArmSW(2,1) & Tracking.mouse_position(:,2) > PlusArmSW(1,2) | ...
Tracking.mouse_position(:,2) < PlusArmNE(1,2) | ...
Tracking.mouse_position(:,2) > PlusArmSE(2,2) | ...
Tracking.mouse_position(:,1) < PlusArmNW(1,1) | ...
Tracking.mouse_position(:,1) > PlusArmNE(2,1);
%Tracking.mouse_position(:,1) > PlusArmNE(1,1) & Tracking.mouse_position(:,2) < PlusArmNE(2,2) | ...
% Make a moving window to count the number of frames minimum velocity.
windowWidth = round(sampleRate .* .4); %was * 1.5
counts = conv(headDip, ones(1, windowWidth), 'same');
headDipIndices = counts >= round(sampleRate * .3); %was .7
headDipSwitch = diff(headDipIndices);
headDipSwitchIndices = find(headDipSwitch);
if headDipIndices(length(headDipIndices)) == 1
headDipIndices(headDipSwitchIndices(end):length(headDipIndices)) = 0;
elseif headDipIndices(1) == 1
headDipIndices(1:headDipSwitchIndices(1)) = 0;
end
jj = 1; kk = 1;
for i=1:length(headDipSwitchIndices)
if headDipSwitch(headDipSwitchIndices(i)) == 1
headDipStart(jj) = headDipSwitchIndices(i);
jj = jj+1;
elseif headDipSwitch(headDipSwitchIndices(i)) == -1
headDipEnd(kk) = headDipSwitchIndices(i);
kk = kk+1;
end
end
%remove indices if start & end points not complete bookends (acc by start or end)
if exist('headDipStart')
if headDipStart(1) > headDipEnd(1)
headDipIndices(1:headDipStart(1)) = 0;
end
if headDipStart(end) > headDipEnd(end)
headDipIndices(headDipStart(end):length(headDipIndices)) = 0;
end
% %update start and end indices
clearvars headDipSwitch headDipSwitchIndices headDipStart headDipEnd;
%
headDipSwitch = diff(headDipIndices);
headDipSwitchIndices = find(headDipSwitch);
if headDipIndices(length(headDipIndices)) == 1
headDipIndices(headDipSwitchIndices(end):length(headDipIndices)) = 0;
elseif headDipIndices(1) == 1
headDipIndices(1:headDipSwitchIndices(1)) = 0;
end
jj = 1; kk = 1;
for i=1:length(headDipSwitchIndices)
if headDipSwitch(headDipSwitchIndices(i)) == 1
headDipStart(jj) = headDipSwitchIndices(i);
jj = jj+1;
elseif headDipSwitch(headDipSwitchIndices(i)) == -1
headDipEnd(kk) = headDipSwitchIndices(i);
kk = kk+1;
end
end
end
end
%% save output in current folder
clearvars -except gridCrossNumFrames idxToRight_All idxToLeft_All escapeSucc escTrialDistMouseGrid escTrialFracEnclosure escSuccTrialIndices escSuccTrialStart escSuccTrialEnd escUnsuccTrialIndices escUnsuccTrialStart escUnsuccTrialEnd rightwardsGridMove escVelMax escVelMean escapeSuccFrac escapeSucc retreatStart retreatEnd retreatIndices escapeStart_gridNoMove escapeEnd_gridNoMove escapeIndices_gridNoMove artificial_prey folderzzz folderzz framesToDelete hotplate_xp_CNN open_field opto_xp toyratClimbUp_xp hotplate_xp CO2 fear_cond_chamber ratClimbUp_xp deleteUserDefinedZone setByParentScript miniscope other_vid fear_cond_chamber ...
simpleRat_xp moving_shockgrid mouse_toyrat burrow_xp RTPP shockgrid_xp EPM session_name folders nn jj burrow_norat_xp boundsApproach boundsStart boundsEnd boundsIndices closedArmEntryStart closedArmEntryEnd closedArmExitStart closedArmIndices openArmIndices openArmEntryStart openArmEntryEnd openArmExitStart crouchsniffStart crouchsniffEnd crouchsniffIndices departBurrStart departBurrEnd departBurrIndices insideBurrowStart insideBurrowEnd insideBurrowIndices approachBurrStart approachBurrEnd approachBurrIndices vertStart vertEnd vertIndices approachIndices approachStart approachEnd freezeIndices freezeStart ...
allTimeUpHoseIndices boxStart boxEnd boxIndices headDipStart headDipEnd headDipIndices gridMoveStart gridMoveEnd moveStart moveEnd moveIndices gridMoveIndices freezeEnd climbUStart climbUEnd climbUIndices jumpStart jumpEnd jumpIndices climbHoseStart climbHoseEnd climbHoseIndices stretchIndices stretchStart stretchEnd escapeIndices escapeStart escapeEnd rearingStart rearingEnd rearingIndices Tracking insideNonBurrowEnd insideNonBurrowStart insideNonBurrowIndices sessions h
save('Tracking', 'Tracking');
clearvars Tracking
save('Behavior', '-regexp', '^(?!(artificial_prey|moving_shockgrid|open_field|folders|jjj|nn|ans|hotplate_xp_CNN|RTPP|setByParentScript|EPM|jj|i|deleteUserDefinedZone|burrow_xp|fear_cond_chamber|burrow_norat_xp|hotplate_xp|CO2|miniscope|mouse_toyrat|other_vid|ratClimbUp_xp|shockgrid_xp|simpleRat_xp|fear_cond_chamber|toyratClimbUp_xp)$).')
Computing file changes ...
