| % |
| % Copyright (c) 2011 The WebRTC project authors. All Rights Reserved. |
| % |
| % Use of this source code is governed by a BSD-style license |
| % that can be found in the LICENSE file in the root of the source |
| % tree. An additional intellectual property rights grant can be found |
| % in the file PATENTS. All contributing project authors may |
| % be found in the AUTHORS file in the root of the source tree. |
| % |
| |
| clear; |
| pack; |
| % |
| % Enter the path to YOUR executable and remember to define the perprocessor |
| % variable PRINT_MIPS te get the instructions printed to the screen. |
| % |
| command = '!iLBCtest.exe 30 speechAndBGnoise.pcm out1.bit out1.pcm tlm10_30ms.dat'; |
| cout=' > st.txt'; %saves to matlab variable 'st' |
| eval(strcat(command,cout)); |
| if(length(cout)>3) |
| load st.txt |
| else |
| disp('No cout file to load') |
| end |
| |
| % initialize vector to zero |
| index = find(st(1:end,1)==-1); |
| indexnonzero = find(st(1:end,1)>0); |
| frames = length(index)-indexnonzero(1)+1; |
| start = indexnonzero(1) - 1; |
| functionOrder=max(st(:,2)); |
| new=zeros(frames,functionOrder); |
| |
| for i = 1:frames, |
| for j = index(start-1+i)+1:(index(start+i)-1), |
| new(i,st(j,2)) = new(i,st(j,2)) + st(j,1); |
| end |
| end |
| |
| result=zeros(functionOrder,3); |
| for i=1:functionOrder |
| nonzeroelements = find(new(1:end,i)>0); |
| result(i,1)=i; |
| |
| % Compute each function's mean complexity |
| % result(i,2)=(sum(new(nonzeroelements,i))/(length(nonzeroelements)*0.03))/1000000; |
| |
| % Compute each function's maximum complexity in encoding |
| % and decoding respectively and then add it together: |
| % result(i,3)=(max(new(1:end,i))/0.03)/1000000; |
| result(i,3)=(max(new(1:size(new,1)/2,i))/0.03)/1000000 + (max(new(size(new,1)/2+1:end,i))/0.03)/1000000; |
| end |
| |
| result |
| |
| % Compute maximum complexity for a single frame (enc/dec separately and together) |
| maxEncComplexityInAFrame = (max(sum(new(1:size(new,1)/2,:),2))/0.03)/1000000 |
| maxDecComplexityInAFrame = (max(sum(new(size(new,1)/2+1:end,:),2))/0.03)/1000000 |
| totalComplexity = maxEncComplexityInAFrame + maxDecComplexityInAFrame |