sustaining_gazes/matlab_runners/Head Pose Experiments/calcBiwiError.m

function [meanError, all_rot_preds, all_rot_gts, meanErrors, all_errors, rels_all, seq_ids] = calcBiwiError(resDir, gtDir)

seqNames = {'01','02','03','04','05','06','07','08','09', ...
    '10', '11','12','13','14','15','16','17','18','19', ...
    '20', '21','22','23','24'};

rotMeanErr = zeros(numel(seqNames),3);
rotRMS = zeros(numel(seqNames),3);
rot = cell(1,numel(seqNames));
rotg = cell(1,numel(seqNames));
rels_all = [];

seq_ids = {};

for i=1:numel(seqNames)
        
    posesGround =  load ([gtDir '/' seqNames{i} '/groundTruthPose.txt']);
   
    [frame t, rels, sc tx ty tz rx ry rz] = textread([resDir '/' seqNames{i} '.csv'], '%f, %f, %f, %f, %f, %f, %f, %f, %f, %f', 'headerlines', 1);
   
    % the reliabilities of head pose
    rels_all = cat(1, rels_all, rels);    
    
    rotg{i} = posesGround(:,[5 6 7]);
    rot{i} = [rx ry rz];  
    T = [tx ty tx];
    
    % Correct the first frame so it corresponds to (0,0,0), as slightly
    % different pose might be assumed frontal and this corrects for
    % that
    
    % Work out the correction matrix for ground truth
    rot_corr_gt = Euler2Rot(rotg{i}(1,:));
    for r_e = 1:size(rotg{i},1)
        rot_curr_gt = Euler2Rot(rotg{i}(r_e,:));
        rot_new_gt = rot_corr_gt' * rot_curr_gt;
        rotg{i}(r_e,:) = Rot2Euler(rot_new_gt);
    end
    
    % First move the orientation to camera space
    zx = sqrt(tx.^2 + tz.^2);
    eul_x = atan2(ty, zx);
    
    zy = sqrt(ty.^2 + tz.^2);
    eul_y = -atan2(tx, zy);
    for r_e = 1:size(rot{i},1)
        cam_rot = Euler2Rot([eul_x(r_e), eul_y(r_e), 0]);
        h_rot = Euler2Rot(rot{i}(r_e,:));

        c_rot = cam_rot * h_rot;
        rot{i}(r_e,:) = Rot2Euler(c_rot);
    end
    
    % Work out the correction matrix for estimates        
    rot_corr_est = Euler2Rot(rot{i}(1,:));
    for r_e = 1:size(rot{i},1)
        rot_curr_est = Euler2Rot(rot{i}(r_e,:));
        rot_new_est = rot_corr_est' * rot_curr_est;
        rot{i}(r_e,:) = Rot2Euler(rot_new_est);
    end
    
    rotg{i} = rotg{i} * 180 / pi;
    rot{i} = rot{i} * 180 / pi;  

    
    rotMeanErr(i,:) = mean(abs((rot{i}(:,:)-rotg{i}(:,:))));
    rotRMS(i,:) = sqrt(mean(((rot{i}(:,:)-rotg{i}(:,:))).^2)); 
    
    seq_ids = cat(1, seq_ids, repmat(seqNames(i), size(rot{i},1), 1));
    
end
%%
meanErrors = rotMeanErr;
allRot = cell2mat(rot');
allRotg = cell2mat(rotg');
meanError = mean(abs((allRot(:,:)-allRotg(:,:))));

all_errors = abs(allRot-allRotg);

rmsError = sqrt(mean(((allRot(:,:)-allRotg(:,:))).^2)); 
errorVariance = std(abs((allRot(:,:)-allRotg(:,:))));

all_rot_preds = allRot;
all_rot_gts = allRotg;
A number of small fixes, renamings and corrections. 2016-07-31 20:31:17 +00:00			`function [meanError, all_rot_preds, all_rot_gts, meanErrors, all_errors, rels_all, seq_ids] = calcBiwiError(resDir, gtDir)`
Master commit of OpenFace. 2016-04-28 19:40:36 +00:00
			`seqNames = {'01','02','03','04','05','06','07','08','09', ...`
			`'10', '11','12','13','14','15','16','17','18','19', ...`
			`'20', '21','22','23','24'};`

			`rotMeanErr = zeros(numel(seqNames),3);`
			`rotRMS = zeros(numel(seqNames),3);`
			`rot = cell(1,numel(seqNames));`
			`rotg = cell(1,numel(seqNames));`
			`rels_all = [];`

A number of small fixes, renamings and corrections. 2016-07-31 20:31:17 +00:00			`seq_ids = {};`

Master commit of OpenFace. 2016-04-28 19:40:36 +00:00			`for i=1:numel(seqNames)`

			`posesGround = load ([gtDir '/' seqNames{i} '/groundTruthPose.txt']);`

Some more script fixes. 2017-11-07 07:25:44 +00:00			`[frame t, rels, sc tx ty tz rx ry rz] = textread([resDir '/' seqNames{i} '.csv'], '%f, %f, %f, %f, %f, %f, %f, %f, %f, %f', 'headerlines', 1);`
Master commit of OpenFace. 2016-04-28 19:40:36 +00:00
			`% the reliabilities of head pose`
			`rels_all = cat(1, rels_all, rels);`

			`rotg{i} = posesGround(:,[5 6 7]);`
			`rot{i} = [rx ry rz];`
Simplifying head pose estimation. 2016-11-23 22:17:26 +00:00			`T = [tx ty tx];`

Master commit of OpenFace. 2016-04-28 19:40:36 +00:00			`% Correct the first frame so it corresponds to (0,0,0), as slightly`
			`% different pose might be assumed frontal and this corrects for`
			`% that`

			`% Work out the correction matrix for ground truth`
			`rot_corr_gt = Euler2Rot(rotg{i}(1,:));`
			`for r_e = 1:size(rotg{i},1)`
			`rot_curr_gt = Euler2Rot(rotg{i}(r_e,:));`
			`rot_new_gt = rot_corr_gt' * rot_curr_gt;`
			`rotg{i}(r_e,:) = Rot2Euler(rot_new_gt);`
			`end`

Simplifying head pose estimation. 2016-11-23 22:17:26 +00:00			`% First move the orientation to camera space`
			`zx = sqrt(tx.^2 + tz.^2);`
			`eul_x = atan2(ty, zx);`

			`zy = sqrt(ty.^2 + tz.^2);`
			`eul_y = -atan2(tx, zy);`
			`for r_e = 1:size(rot{i},1)`
			`cam_rot = Euler2Rot([eul_x(r_e), eul_y(r_e), 0]);`
			`h_rot = Euler2Rot(rot{i}(r_e,:));`

			`c_rot = cam_rot * h_rot;`
			`rot{i}(r_e,:) = Rot2Euler(c_rot);`
			`end`

			`% Work out the correction matrix for estimates`
Master commit of OpenFace. 2016-04-28 19:40:36 +00:00			`rot_corr_est = Euler2Rot(rot{i}(1,:));`
			`for r_e = 1:size(rot{i},1)`
			`rot_curr_est = Euler2Rot(rot{i}(r_e,:));`
			`rot_new_est = rot_corr_est' * rot_curr_est;`
			`rot{i}(r_e,:) = Rot2Euler(rot_new_est);`
			`end`

			`rotg{i} = rotg{i} * 180 / pi;`
			`rot{i} = rot{i} * 180 / pi;`


			`rotMeanErr(i,:) = mean(abs((rot{i}(:,:)-rotg{i}(:,:))));`
			`rotRMS(i,:) = sqrt(mean(((rot{i}(:,:)-rotg{i}(:,:))).^2));`
A number of small fixes, renamings and corrections. 2016-07-31 20:31:17 +00:00
			`seq_ids = cat(1, seq_ids, repmat(seqNames(i), size(rot{i},1), 1));`

Master commit of OpenFace. 2016-04-28 19:40:36 +00:00			`end`
			`%%`
			`meanErrors = rotMeanErr;`
			`allRot = cell2mat(rot');`
			`allRotg = cell2mat(rotg');`
			`meanError = mean(abs((allRot(:,:)-allRotg(:,:))));`

			`all_errors = abs(allRot-allRotg);`

			`rmsError = sqrt(mean(((allRot(:,:)-allRotg(:,:))).^2));`
			`errorVariance = std(abs((allRot(:,:)-allRotg(:,:))));`

			`all_rot_preds = allRot;`
			`all_rot_gts = allRotg;`