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== Matlab Code == | == Matlab Code == | ||
| − | %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% | + | %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%<br> |
| − | % Kathleen Schremser % | + | % Kathleen Schremser %<br> |
| − | % ECE 301 % | + | % ECE 301 %<br> |
| − | % Homework 1, due Friday, September 5, 2008 % | + | % Homework 1, due Friday, September 5, 2008 %<br> |
| − | %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% | + | %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%<br> |
| + | <br> | ||
| + | % Clear the screen <br> | ||
| + | clear<br> | ||
| + | clc<br> | ||
| + | <br> | ||
| + | % Define delta as used in class<br> | ||
| + | delta = 0.00005;<br> | ||
| + | <br> | ||
| + | % Define the tempo you wish to use (Number of Quarter notes per minute)<br> | ||
| + | % Note: The time signature for this piece is taken to be 2/4<br> | ||
| + | % Also, create a blank Song array to store the completed song (to be used later)<br> | ||
| + | Tempo = 152;<br> | ||
| + | Song = [];<br> | ||
| + | <br> | ||
| + | % Define the length of each Eighth, Quarter, Dotted Quarter, Half, and Tied<br> | ||
| + | % Note (A Tied note consists of 3 Quarter notes)<br> | ||
| + | E = 1/2 * 60/Tempo;<br> | ||
| + | Q = 60/Tempo;<br> | ||
| + | DQ = 1.5 * 60/Tempo;<br> | ||
| + | H = 2 * 60/Tempo;<br> | ||
| + | T = 3/2 * 60/Tempo;<br> | ||
| + | <br> | ||
| + | % Define the frequency of each note<br> | ||
| + | % The key of Hail Purdue is D flat<br> | ||
| + | Ef = 311.13;<br> | ||
| + | F = 349.23;<br> | ||
| + | G = 392.00;<br> | ||
| + | Af = 415.30;<br> | ||
| + | Bf = 466.16;<br> | ||
| + | B = 493.88;<br> | ||
| + | C = 523.25;<br> | ||
| + | Df = 554.36;<br> | ||
| + | <br> | ||
| + | % The chorus of "Hail Purdue" consists of four strains. The four strains<br> | ||
| + | % and corresponding notes are set into arrays here:<br> | ||
| + | Strain1 = [Ef, F, G, Af, Bf, C, C, Df, Df, Df, Af, Bf, B, C] ;<br> | ||
| + | Strain2 = [C, C, Bf, Af, Bf, C, C, Bf, F, G, Af, G, F, Bf] ;<br> | ||
| + | Strain3 = [Ef, Ef, F, G, Af, Bf, C, C, C, Df, Df, Af, Bf, C] ;<br> | ||
| + | Strain4 = [F, G, Af, F, Ef, Af, C, Ef, F, C, Bf, Af, Af];<br> | ||
| + | <br> | ||
| + | % The associated length of each note is set into 3 different arrays here:<br> | ||
| + | Time1 = [H, Q, Q, DQ, E, Q, Q, Q, E, E, Q, E, E, T] ; % Used for strains 1 and 2<br> | ||
| + | Time2 = [DQ, E, Q, Q, DQ, E, Q, E, E, Q, Q, Q, Q, T]; <br> | ||
| + | Time3 = [DQ, E, Q, Q, Q, Q, Q, Q, DQ, E, DQ, E, T];<br> | ||
| + | <br> | ||
| + | % Because the song is going to have to be played a total of 3 times,<br> | ||
| + | % putting the playing part in a loop would make the code a lot shorter. We<br> | ||
| + | % can use the counter (j) to tell it to change the things we want to change<br> | ||
| + | % each time as well.<br> | ||
| − | + | for j = 1:3<br> | |
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| − | for j = 1:3 | + | |
% The second time, the tempo has to increase | % The second time, the tempo has to increase | ||
| Line 67: | Line 66: | ||
T = T/2; | T = T/2; | ||
Time1 = [H, Q, Q, DQ, E, Q, Q, Q, E, E, Q, E, E, T] ; % Used for strains 1 and 2 | Time1 = [H, Q, Q, DQ, E, Q, Q, Q, E, E, Q, E, E, T] ; % Used for strains 1 and 2 | ||
| − | Time2 = [DQ, E, Q, Q, DQ, E, Q, E, E, Q, Q, Q, Q, T]; | + | Time2 = [DQ, E, Q, Q, DQ, E, Q, E, E, Q, Q, Q, Q, T]; |
Time3 = [DQ, E, Q, Q, Q, Q, Q, Q, DQ, E, DQ, E, T]; | Time3 = [DQ, E, Q, Q, Q, Q, Q, Q, DQ, E, DQ, E, T]; | ||
end | end | ||
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% and then plays it | % and then plays it | ||
for i = 1:14 | for i = 1:14 | ||
| − | time = 0 : delta : Time1(i); | + | time = 0 : delta : Time1(i);<br> |
sound(sin(2*pi*Strain1(i)*time), 1/delta) | sound(sin(2*pi*Strain1(i)*time), 1/delta) | ||
Song = [Song, sin(2*pi*Strain1(i)*time)]; | Song = [Song, sin(2*pi*Strain1(i)*time)]; | ||
| − | end | + | end<br> |
% A quarter rest separates each strain | % A quarter rest separates each strain | ||
| Line 144: | Line 143: | ||
end | end | ||
| − | % Use the completed Song array that has been building with each additional | + | % Use the completed Song array that has been building with each additional<br> |
| − | % note and write to a .wav file | + | % note and write to a .wav file<br> |
| − | wavwrite(Song, 44100, 'Hail_Purdue.wav') | + | wavwrite(Song, 44100, 'Hail_Purdue.wav')<br> |
== Sound File == | == Sound File == | ||
| + | |||
| + | [[Media:Hail_Purdue_ECE301Fall2008mboutin.wav|here!]] | ||
Latest revision as of 17:18, 4 September 2008
Matlab Code
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Kathleen Schremser %
% ECE 301 %
% Homework 1, due Friday, September 5, 2008 %
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Clear the screen
clear
clc
% Define delta as used in class
delta = 0.00005;
% Define the tempo you wish to use (Number of Quarter notes per minute)
% Note: The time signature for this piece is taken to be 2/4
% Also, create a blank Song array to store the completed song (to be used later)
Tempo = 152;
Song = [];
% Define the length of each Eighth, Quarter, Dotted Quarter, Half, and Tied
% Note (A Tied note consists of 3 Quarter notes)
E = 1/2 * 60/Tempo;
Q = 60/Tempo;
DQ = 1.5 * 60/Tempo;
H = 2 * 60/Tempo;
T = 3/2 * 60/Tempo;
% Define the frequency of each note
% The key of Hail Purdue is D flat
Ef = 311.13;
F = 349.23;
G = 392.00;
Af = 415.30;
Bf = 466.16;
B = 493.88;
C = 523.25;
Df = 554.36;
% The chorus of "Hail Purdue" consists of four strains. The four strains
% and corresponding notes are set into arrays here:
Strain1 = [Ef, F, G, Af, Bf, C, C, Df, Df, Df, Af, Bf, B, C] ;
Strain2 = [C, C, Bf, Af, Bf, C, C, Bf, F, G, Af, G, F, Bf] ;
Strain3 = [Ef, Ef, F, G, Af, Bf, C, C, C, Df, Df, Af, Bf, C] ;
Strain4 = [F, G, Af, F, Ef, Af, C, Ef, F, C, Bf, Af, Af];
% The associated length of each note is set into 3 different arrays here:
Time1 = [H, Q, Q, DQ, E, Q, Q, Q, E, E, Q, E, E, T] ; % Used for strains 1 and 2
Time2 = [DQ, E, Q, Q, DQ, E, Q, E, E, Q, Q, Q, Q, T];
Time3 = [DQ, E, Q, Q, Q, Q, Q, Q, DQ, E, DQ, E, T];
% Because the song is going to have to be played a total of 3 times,
% putting the playing part in a loop would make the code a lot shorter. We
% can use the counter (j) to tell it to change the things we want to change
% each time as well.
for j = 1:3
% The second time, the tempo has to increase
if j == 2
E = E/2;
Q = Q/2;
DQ = DQ/2;
H = H/2;
T = T/2;
Time1 = [H, Q, Q, DQ, E, Q, Q, Q, E, E, Q, E, E, T] ; % Used for strains 1 and 2
Time2 = [DQ, E, Q, Q, DQ, E, Q, E, E, Q, Q, Q, Q, T];
Time3 = [DQ, E, Q, Q, Q, Q, Q, Q, DQ, E, DQ, E, T];
end
% Now make each note a full scale higher for the third run
if j == 3
Ef = Ef*2;
F = F*2;
G = G*2;
Af = Af*2;
Bf = Bf*2;
B = B*2;
C = C*2;
Df = Df*2;
Strain1 = [Ef, F, G, Af, Bf, C, C, Df, Df, Df, Af, Bf, B, C] ;
Strain2 = [C, C, Bf, Af, Bf, C, C, Bf, F, G, Af, G, F, Bf] ;
Strain3 = [Ef, Ef, F, G, Af, Bf, C, C, C, Df, Df, Af, Bf, C] ;
Strain4 = [F, G, Af, F, Ef, Af, C, Ef, F, C, Bf, Af, Af];
end
% For each strain, a loop creates the length of time needed for the note % and then plays it
for i = 1:14
time = 0 : delta : Time1(i);
sound(sin(2*pi*Strain1(i)*time), 1/delta)
Song = [Song, sin(2*pi*Strain1(i)*time)];
end
% A quarter rest separates each strain
Rest = ones(Q/delta, 1); sound(Rest, 1/delta) Song = [Song, Rest];
% Second strain
for i = 1:14
time = 0 : delta : Time1(i);
sound(sin(2*pi*Strain2(i)*time), 1/delta)
Song = [Song, sin(2*pi*Strain2(i)*time)];
end
% Quarter Rest
sound(Rest, 1/delta)
Song = [Song, Rest];
% Third Strain
for i = 1:14
time = 0 : delta : Time2(i);
sound(sin(2*pi*Strain3(i)*time), 1/delta)
Song = [Song, sin(2*pi*Strain3(i)*time)];
end
% Quarter Rest
sound(Rest, 1/delta) Song = [Song, Rest];
% Last Strain
for i = 1:13
time = 0 : delta : Time3(i);
sound(sin(2*pi*Strain4(i)*time), 1/delta)
Song = [Song, sin(2*pi*Strain4(i)*time)];
end
% If it's the second time, recreate the original tempo
if j == 2
E = E*2;
Q = Q*2;
DQ = DQ*2;
H = H*2;
T = T*2;
Time1 = [H, Q, Q, DQ, E, Q, Q, Q, E, E, Q, E, E, T] ; % Used for strains 1 and 2
Time2 = [DQ, E, Q, Q, DQ, E, Q, E, E, Q, Q, Q, Q, T];
Time3 = [DQ, E, Q, Q, Q, Q, Q, Q, DQ, E, DQ, E, T];
end
Song = [Song, Rest, Rest, Rest, Rest, Rest, Rest];
end
% Use the completed Song array that has been building with each additional
% note and write to a .wav file
wavwrite(Song, 44100, 'Hail_Purdue.wav')
