Simple implementation:

```
open_brackets = '[', '{', '(', '<'
close_brackets = ']', '}', ')', '>'
depth = 0
max_depth = 0
for character in string
if open_brackets contains character
depth++
if depth > max_depth
max_depth = depth
else if close_brackets contains character
depth--
return max_depth
```

Note that that doesn't care about mis-matched brackets (e.g. it finds '[(])' acceptable).

If you did want to check for mis-matched brackets, you'd need a stack. When you encounter an open bracket, push it onto the stack. When you encounter a close bracket, pop the top bracket off the stack and make sure it's the same type as that close bracket. Something like....

```
open_brackets = '[', '{', '(', '<'
close_brackets = ']', '}', ')', '>'
max_depth = 0
stack = new stack
for character in string
if open_brackets contains character
stack.push character
if stack.count > max_depth
max_depth = stack.count
else if close_brackets contains character
desired_closing_bracket = stack.pop
if desired_closing_bracket is not the same type as character
throw exception "Mis-matched bracket. Got {character}, expected {desired_closing_bracket"
return max_depth
```

This algorithm's weakness is that it the `stack.pop`

line will probably fail with an exception if you get more closing brackets than opening brackets. It might be wise to anticipate or catch this exception, and provide a more useful error message.

Also, if you want to check there weren't more opening brackets than closing brackets, check whether the stack's empty after the loop.