# extracting parameter values from one large string

I have the following string (loaded from a .txt file to a Matlab cell):

``````text = 'u1 @ t=0, K=3.1416, gamma=0.1, A=-0.1 u1 @ t=0.01, K=3.1416,
gamma=0.1, A=-0.1 u1 @ t=0.02, K=3.1416, gamma=0.1, A=-0.1 u1 @ t=0.03,
K=3.1416, gamma=0.1, A=-0.1'
``````

The whole string variable is very long (from t=0 to t=1 and for different parameter values). I want to separate them into multiple cells so that

• `A(1)='u1 @ t=0, K=3.1416, gamma=0.1, A=-0.1'`,

• `A(2)='u1 @ t=0.01, K=3.1416, gamma=0.1, A=-0.1'`,

• etc.

Or even better is to extract the variables of the parameters `t`, `K`, `gamma`, `A` and store them in an array.

How to do this in Matlab? (or in Python)

Edit:

Turns out the first few entry in my data is in the form `... t=1E-4, ... t=2E-4, ...... t=9E-4, ... t=0.001`, and some of the answers will skip the first few time steps which are in scientific notations. How to handle those numbers as well?

You can use regex.

A simple regex to get numbers is this: `'-?\d*\.?\d*'`.

To get your data, you can use this regex.

``````'u1 @ t={0}, K={0}, gamma={0}, A={0}'.format('-?\d*\.?\d*')
``````

Example:

``````>>> import re
>>> text = 'u1 @ t=0, K=3.1416, gamma=0.1, A=-0.1 u1 @ t=0.01, K=3.1416, gamma=0.1, A=-0.1 u1 @ t=0.02, K=3.1416, gamma=0.1, A=-0.1 u1 @ t=0.03, K=3.1416, gamma=0.1, A=-0.1'
>>> r = '-?\d*\.?\d*'
>>> re.findall('u1 @ t={0}, K={0}, gamma={0}, A={0}'.format(r), text)
['u1 @ t=0, K=3.1416, gamma=0.1, A=-0.1', 'u1 @ t=0.01, K=3.1416, gamma=0.1, A=-0.1', 'u1 @ t=0.02, K=3.1416, gamma=0.1, A=-0.1', 'u1 @ t=0.03, K=3.1416, gamma=0.1, A=-0.1']
``````

You can split your text with `re.split`. For instance, you can split on each space which is followed by “u1”:

``````import re
from pprint import pprint

text = 'u1 @ t=0, K=3.1416, gamma=0.1, A=-0.1 u1 @ t=0.01, K=3.1416, gamma=0.1, A=-0.1 u1 @ t=0.02, K=3.1416, gamma=0.1, A=-0.1 u1 @ t=0.03, K=3.1416, gamma=0.1, A=-0.1'

lines = re.split(r'\s+(?=u1)', text)
pprint(lines)
``````

You get:

``````['u1 @ t=0, K=3.1416, gamma=0.1, A=-0.1',
'u1 @ t=0.01, K=3.1416, gamma=0.1, A=-0.1',
'u1 @ t=0.02, K=3.1416, gamma=0.1, A=-0.1',
'u1 @ t=0.03, K=3.1416, gamma=0.1, A=-0.1']
``````

You can then parse each line of this result to extract the attributes:

``````for line in lines:
attrs = {}
for value in line[5:].split(", "):
k, v = value.split("=")
attrs[k] = float(v)
print(attrs)
``````

You get;

``````{'t': 0.0, 'K': 3.1416, 'gamma': 0.1, 'A': -0.1}
{'t': 0.01, 'K': 3.1416, 'gamma': 0.1, 'A': -0.1}
{'t': 0.02, 'K': 3.1416, 'gamma': 0.1, 'A': -0.1}
{'t': 0.03, 'K': 3.1416, 'gamma': 0.1, 'A': -0.1}
``````

Without `regex`, the variables are stored as floats in 2D array:

``````s = '''u1 @ t=0, K=3.1416, gamma=0.1, A=-0.1 u1 @ t=0.01, K=3.1416, gamma=0.1, A=-0.1 u1 @ t=0.02, K=3.1416, gamma=0.1, A=-0.1 u1 @ t=0.03, K=3.1416, gamma=0.1, A=-0.1'''

out = []
for i in s.split('u1 @'):
if not i.strip():
continue
out += [[float(v.split('=')[-1]) for v in i.split(',')]]

from pprint import pprint
pprint(out)
``````

Prints:

``````[[0.0, 3.1416, 0.1, -0.1],
[0.01, 3.1416, 0.1, -0.1],
[0.02, 3.1416, 0.1, -0.1],
[0.03, 3.1416, 0.1, -0.1]]
``````

Try this:

``````def to_cells(string):
strings = list(filter(None, string.split('u1 @ ')))
cells = {}

for cell in strings:
pairs = cell.split(',')
for pair in pairs:
k, v = pair.split('=')
k = k.strip()
v = float(v)
if k in cells:
cells[k].append(v)
else:
cells[k] = [v]

return cells
``````

You can use the function like this:

``````res = to_cells(
'u1 @ t=0, K=3.1416, gamma=0.1, A=-0.1 u1 @ t=0.01, K=3.1416, gamma=0.1, A=-0.1 u1 @ t=0.02, K=3.1416,'
' gamma=0.1, A=-0.1 u1 @ t=0.03, K=3.1416, gamma=0.1, A=-0.1'
)

for x in res:
print(x, '\t====>\t', res[x])
``````

And the output will look like:

``````t   ====>    [0.0, 0.01, 0.02, 0.03]
K   ====>    [3.1416, 3.1416, 3.1416, 3.1416]
gamma   ====>    [0.1, 0.1, 0.1, 0.1]
A   ====>    [-0.1, -0.1, -0.1, -0.1]
``````

Hope this helps :)

You've gotten a lot of Python answers, so here's a MATLAB one. You can use the function `regexp` to parse the string, then `vertcat`, `cellfun`, and `str2double` to reshape and convert the resulting cell array of strings into an N-by-4 matrix of values. Starting with this sample data (4 sets of entries in one string):

``````str = 'u1 @ t=0, K=3.1416, gamma=0.1, A=-0.1 u1 @ t=0.01, K=3.1416, gamma=0.1, A=-0.1 u1 @ t=0.02, K=3.1416, gamma=0.1, A=-0.1 u1 @ t=0.03, K=3.1416, gamma=0.1, A=-0.1';
``````

The code is just 2 lines:

``````vals = regexp(str, 'u1 @ t=([-\.\dE]+), K=([-\.\dE]+), gamma=([-\.\dE]+), A=([-\.\dE]+)', 'tokens');
vals = cellfun(@str2double, vertcat(vals{:}));
``````

And the result:

``````vals =

0   3.141600000000000   0.100000000000000  -0.100000000000000
0.010000000000000   3.141600000000000   0.100000000000000  -0.100000000000000
0.020000000000000   3.141600000000000   0.100000000000000  -0.100000000000000
0.030000000000000   3.141600000000000   0.100000000000000  -0.100000000000000
``````

Each column contains the values for `t`, `K`, `gamma`, and `A`.

• I'm a bit confused about strings vs characters vs cells in Matlab. I got an error `Brace indexing is not supported for variables of this type.` in the last line. What's the expected data type of the variables `str` and `vals` in the above codes? Commented Jul 10, 2019 at 21:45
• @Physicist: I assumed `str` was type `char` (i.e. a vector of characters), like in your examples. Then the output from `regexp` should be a cell array of cell arrays of character vectors. Commented Jul 10, 2019 at 21:47
• if the first few `t` values are in scientific notation, e.g. `t=0 ... t=1E-4 ... t=2E-4 ...... t=9E-4 ... t=0.001 ... t=0.002 ...`, how should I modify the regular expressions for `t=(...)`? Commented Jul 10, 2019 at 22:25
• @Physicist: I updated the regex pattern, so it should be able to handle scientific notation now. Commented Jul 10, 2019 at 23:10

Another Matlab, regex-based solution. Denoting the string (character vector) by `s`,

``````v = reshape(str2double(regexp([s ' '], '(?<=(t|K|gamma|A)=).+?(?=,| )', 'match')), 4, []).';
``````

``````v =
0   3.141600000000000   0.100000000000000  -0.100000000000000
0.010000000000000   3.141600000000000   0.100000000000000  -0.100000000000000
0.020000000000000   3.141600000000000   0.100000000000000  -0.100000000000000
0.030000000000000   3.141600000000000   0.100000000000000  -0.100000000000000
``````

The regular expression matches whatever is preceded by `t=`, `K=` etc and followed by either a comma or a space. A space is added at the end of the string so that the last match can be found. `str2double` converts the matched substring to a number (if possible). Then some transposing and reshaping is used to arrange the results as a matrix, where each of the 4 variables is a column.

Here is a rudimentary way to do this in MATLAB:

``````text ='u1 @ t=0, K=3.1416, gamma=0.1, A=-0.1 u1 @ t=0.01, K=3.1416, gamma=0.1, A=-0.1 u1 @ t=0.02, K=3.1416, gamma=0.1, A=-0.1 u1 @ t=0.03, K=3.1416, gamma=0.1, A=-0.1';
a=size(text);
pos1=strfind(text, 'u1'); % first position of variable
pos2=strfind(text, 'A='); % position of 'A='
pos2=pos2+5; % since after 'A=' there are five spaces until the end of the desired variable
vars=length(char); % number of new variables within 'text'
for i=1:length(pos2)
output{i}=text(pos1(i):pos2(i)); % output variable as cell with entries as new variables
end
``````

It finds the position of the first and last characters of the desired variable and removes these from 'text'. I would recommend following a similar method to extract the text for individual variable names and values. I would use the "strfind" function on the '=' sign for this.

I think this can be done more easily without regexp in MATLAB. Using string instead of char also helps.

``````result = extractAfter(text,'u1 @ ');
result = split(result, 'u1 @ ');
result = split(result, ',');
result = extractAfter(result,'=');
result = double(result);
``````

This is probably the fastest solution so far.

``````>> testFunc
Elapsed time is 0.075453 seconds. % My solution
Elapsed time is 2.820094 seconds. % Luis Mendo solution

function testFunc()

text = "u1 @ t=0, K=3.1416, gamma=0.1, A=-0.1 u1 @ t=0.01, K=3.1416, " + ...
"gamma=0.1, A=-0.1 u1 @ t=0.02, K=3.1416, gamma=0.1, A=-0.1 u1 @ t=0.03, " + ...
"K=3.1416, gamma=0.1, A=-0.1";

% My solution
tic
for i = 1:1e4
result = extractAfter(text,'u1 @ ');
result = split(result, 'u1 @ ');
result = split(result, ',');
result = extractAfter(result,'=');
result = double(result);
end
toc

% Luis Mendo solution
tic;
for i = 1:1e4
result = reshape(str2double(regexp(text + ' ', '(?<=(t|K|gamma|A)=).+?(?=,| )', 'match')), 4, [])';
end
toc
``````