Why is assignment to a list of variables inconsistent? - raku

To save 2 values from a list returned by a sub and throw the third away, one can;
(my $first, my $second) = (1, 2, 3);
print $first, "\n";
print $second, "\n";
exit 0;
and it works as expected (in both perl5 and perl6). If you want just the first however;
(my $first) = (1, 2, 3);
print $first, "\n";
exit 0;
... you get the whole list. This seems counter-intuitive - why the inconsistency?

This should be due to the single argument rule. You get the expected behaviour by adding a trailing ,:
(my $first,) = (1, 2, 3);
Note that while this works as declarations return containers, which are first-class objects that can be put in lists, you're nevertheless doing it 'wrong':
The assignments should read
my ($first, $second) = (1, 2, 3);
and
my ($first) = (1, 2, 3);
Also note that the parens on the right-hand side are superfluous as well (it's the comma that does list construction); the more idiomatic versions would be
my ($first, $second) = 1, 2, 3;
and
my ($first) = 1, 2, 3;

(my $first, ) = (1,2,3);
dd $first; # OUTPUT«Int $first = 1␤»
In your first example you assign a list (or a part thereof) to a list of containers. Your second example does exactly what you ask it for. A list of values is assigned to one container. In Perl 5, the list is constructed by the parentheses (in this case), whereby in Perl 6 the list is constructed by the comma. The latter is used in my example to get what is asked for.
I would argue that it's Perl 5 that is inconsistent as sometimes lists are constructed by commas, parentheses or brackets.
my ($first,$,$third) = (1,2,3);
dd $first, $third; # OUTPUT«Int $first = 1␤Int $third = 3␤»
You can skip one or many list elements by adding anonymous state variables. This also leads to a shortcut to your first example.
my $first,$ = 1,2,3;
dd $first; # OUTPUT«Any $first = Any␤»

Related

radio button of pyqt5 not deleted [duplicate]

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I'm iterating over a list of tuples in Python, and am attempting to remove them if they meet certain criteria.
for tup in somelist:
if determine(tup):
code_to_remove_tup
What should I use in place of code_to_remove_tup? I can't figure out how to remove the item in this fashion.
You can use a list comprehension to create a new list containing only the elements you don't want to remove:
somelist = [x for x in somelist if not determine(x)]
Or, by assigning to the slice somelist[:], you can mutate the existing list to contain only the items you want:
somelist[:] = [x for x in somelist if not determine(x)]
This approach could be useful if there are other references to somelist that need to reflect the changes.
Instead of a comprehension, you could also use itertools. In Python 2:
from itertools import ifilterfalse
somelist[:] = ifilterfalse(determine, somelist)
Or in Python 3:
from itertools import filterfalse
somelist[:] = filterfalse(determine, somelist)
The answers suggesting list comprehensions are almost correct—except that they build a completely new list and then give it the same name the old list as, they do not modify the old list in place. That's different from what you'd be doing by selective removal, as in Lennart's suggestion—it's faster, but if your list is accessed via multiple references the fact that you're just reseating one of the references and not altering the list object itself can lead to subtle, disastrous bugs.
Fortunately, it's extremely easy to get both the speed of list comprehensions AND the required semantics of in-place alteration—just code:
somelist[:] = [tup for tup in somelist if determine(tup)]
Note the subtle difference with other answers: this one is not assigning to a barename. It's assigning to a list slice that just happens to be the entire list, thereby replacing the list contents within the same Python list object, rather than just reseating one reference (from the previous list object to the new list object) like the other answers.
You need to take a copy of the list and iterate over it first, or the iteration will fail with what may be unexpected results.
For example (depends on what type of list):
for tup in somelist[:]:
etc....
An example:
>>> somelist = range(10)
>>> for x in somelist:
... somelist.remove(x)
>>> somelist
[1, 3, 5, 7, 9]
>>> somelist = range(10)
>>> for x in somelist[:]:
... somelist.remove(x)
>>> somelist
[]
for i in range(len(somelist) - 1, -1, -1):
if some_condition(somelist, i):
del somelist[i]
You need to go backwards otherwise it's a bit like sawing off the tree-branch that you are sitting on :-)
Python 2 users: replace range by xrange to avoid creating a hardcoded list
Overview of workarounds
Either:
use a linked list implementation/roll your own.
A linked list is the proper data structure to support efficient item removal, and does not force you to make space/time tradeoffs.
A CPython list is implemented with dynamic arrays as mentioned here, which is not a good data type to support removals.
There doesn't seem to be a linked list in the standard library however:
Is there a linked list predefined library in Python?
https://github.com/ajakubek/python-llist
start a new list() from scratch, and .append() back at the end as mentioned at: https://stackoverflow.com/a/1207460/895245
This time efficient, but less space efficient because it keeps an extra copy of the array around during iteration.
use del with an index as mentioned at: https://stackoverflow.com/a/1207485/895245
This is more space efficient since it dispenses the array copy, but it is less time efficient, because removal from dynamic arrays requires shifting all following items back by one, which is O(N).
Generally, if you are doing it quick and dirty and don't want to add a custom LinkedList class, you just want to go for the faster .append() option by default unless memory is a big concern.
Official Python 2 tutorial 4.2. "for Statements"
https://docs.python.org/2/tutorial/controlflow.html#for-statements
This part of the docs makes it clear that:
you need to make a copy of the iterated list to modify it
one way to do it is with the slice notation [:]
If you need to modify the sequence you are iterating over while inside the loop (for example to duplicate selected items), it is recommended that you first make a copy. Iterating over a sequence does not implicitly make a copy. The slice notation makes this especially convenient:
>>> words = ['cat', 'window', 'defenestrate']
>>> for w in words[:]: # Loop over a slice copy of the entire list.
... if len(w) > 6:
... words.insert(0, w)
...
>>> words
['defenestrate', 'cat', 'window', 'defenestrate']
Python 2 documentation 7.3. "The for statement"
https://docs.python.org/2/reference/compound_stmts.html#for
This part of the docs says once again that you have to make a copy, and gives an actual removal example:
Note: There is a subtlety when the sequence is being modified by the loop (this can only occur for mutable sequences, i.e. lists). An internal counter is used to keep track of which item is used next, and this is incremented on each iteration. When this counter has reached the length of the sequence the loop terminates. This means that if the suite deletes the current (or a previous) item from the sequence, the next item will be skipped (since it gets the index of the current item which has already been treated). Likewise, if the suite inserts an item in the sequence before the current item, the current item will be treated again the next time through the loop. This can lead to nasty bugs that can be avoided by making a temporary copy using a slice of the whole sequence, e.g.,
for x in a[:]:
if x < 0: a.remove(x)
However, I disagree with this implementation, since .remove() has to iterate the entire list to find the value.
Could Python do this better?
It seems like this particular Python API could be improved. Compare it, for instance, with:
Java ListIterator::remove which documents "This call can only be made once per call to next or previous"
C++ std::vector::erase which returns a valid interator to the element after the one removed
both of which make it crystal clear that you cannot modify a list being iterated except with the iterator itself, and gives you efficient ways to do so without copying the list.
Perhaps the underlying rationale is that Python lists are assumed to be dynamic array backed, and therefore any type of removal will be time inefficient anyways, while Java has a nicer interface hierarchy with both ArrayList and LinkedList implementations of ListIterator.
There doesn't seem to be an explicit linked list type in the Python stdlib either: Python Linked List
Your best approach for such an example would be a list comprehension
somelist = [tup for tup in somelist if determine(tup)]
In cases where you're doing something more complex than calling a determine function, I prefer constructing a new list and simply appending to it as I go. For example
newlist = []
for tup in somelist:
# lots of code here, possibly setting things up for calling determine
if determine(tup):
newlist.append(tup)
somelist = newlist
Copying the list using remove might make your code look a little cleaner, as described in one of the answers below. You should definitely not do this for extremely large lists, since this involves first copying the entire list, and also performing an O(n) remove operation for each element being removed, making this an O(n^2) algorithm.
for tup in somelist[:]:
# lots of code here, possibly setting things up for calling determine
if determine(tup):
newlist.append(tup)
For those who like functional programming:
somelist[:] = filter(lambda tup: not determine(tup), somelist)
or
from itertools import ifilterfalse
somelist[:] = list(ifilterfalse(determine, somelist))
I needed to do this with a huge list, and duplicating the list seemed expensive, especially since in my case the number of deletions would be few compared to the items that remain. I took this low-level approach.
array = [lots of stuff]
arraySize = len(array)
i = 0
while i < arraySize:
if someTest(array[i]):
del array[i]
arraySize -= 1
else:
i += 1
What I don't know is how efficient a couple of deletes are compared to copying a large list. Please comment if you have any insight.
Most of the answers here want you to create a copy of the list. I had a use case where the list was quite long (110K items) and it was smarter to keep reducing the list instead.
First of all you'll need to replace foreach loop with while loop,
i = 0
while i < len(somelist):
if determine(somelist[i]):
del somelist[i]
else:
i += 1
The value of i is not changed in the if block because you'll want to get value of the new item FROM THE SAME INDEX, once the old item is deleted.
It might be smart to also just create a new list if the current list item meets the desired criteria.
so:
for item in originalList:
if (item != badValue):
newList.append(item)
and to avoid having to re-code the entire project with the new lists name:
originalList[:] = newList
note, from Python documentation:
copy.copy(x)
Return a shallow copy of x.
copy.deepcopy(x)
Return a deep copy of x.
This answer was originally written in response to a question which has since been marked as duplicate:
Removing coordinates from list on python
There are two problems in your code:
1) When using remove(), you attempt to remove integers whereas you need to remove a tuple.
2) The for loop will skip items in your list.
Let's run through what happens when we execute your code:
>>> L1 = [(1,2), (5,6), (-1,-2), (1,-2)]
>>> for (a,b) in L1:
... if a < 0 or b < 0:
... L1.remove(a,b)
...
Traceback (most recent call last):
File "<stdin>", line 3, in <module>
TypeError: remove() takes exactly one argument (2 given)
The first problem is that you are passing both 'a' and 'b' to remove(), but remove() only accepts a single argument. So how can we get remove() to work properly with your list? We need to figure out what each element of your list is. In this case, each one is a tuple. To see this, let's access one element of the list (indexing starts at 0):
>>> L1[1]
(5, 6)
>>> type(L1[1])
<type 'tuple'>
Aha! Each element of L1 is actually a tuple. So that's what we need to be passing to remove(). Tuples in python are very easy, they're simply made by enclosing values in parentheses. "a, b" is not a tuple, but "(a, b)" is a tuple. So we modify your code and run it again:
# The remove line now includes an extra "()" to make a tuple out of "a,b"
L1.remove((a,b))
This code runs without any error, but let's look at the list it outputs:
L1 is now: [(1, 2), (5, 6), (1, -2)]
Why is (1,-2) still in your list? It turns out modifying the list while using a loop to iterate over it is a very bad idea without special care. The reason that (1, -2) remains in the list is that the locations of each item within the list changed between iterations of the for loop. Let's look at what happens if we feed the above code a longer list:
L1 = [(1,2),(5,6),(-1,-2),(1,-2),(3,4),(5,7),(-4,4),(2,1),(-3,-3),(5,-1),(0,6)]
### Outputs:
L1 is now: [(1, 2), (5, 6), (1, -2), (3, 4), (5, 7), (2, 1), (5, -1), (0, 6)]
As you can infer from that result, every time that the conditional statement evaluates to true and a list item is removed, the next iteration of the loop will skip evaluation of the next item in the list because its values are now located at different indices.
The most intuitive solution is to copy the list, then iterate over the original list and only modify the copy. You can try doing so like this:
L2 = L1
for (a,b) in L1:
if a < 0 or b < 0 :
L2.remove((a,b))
# Now, remove the original copy of L1 and replace with L2
print L2 is L1
del L1
L1 = L2; del L2
print ("L1 is now: ", L1)
However, the output will be identical to before:
'L1 is now: ', [(1, 2), (5, 6), (1, -2), (3, 4), (5, 7), (2, 1), (5, -1), (0, 6)]
This is because when we created L2, python did not actually create a new object. Instead, it merely referenced L2 to the same object as L1. We can verify this with 'is' which is different from merely "equals" (==).
>>> L2=L1
>>> L1 is L2
True
We can make a true copy using copy.copy(). Then everything works as expected:
import copy
L1 = [(1,2), (5,6),(-1,-2), (1,-2),(3,4),(5,7),(-4,4),(2,1),(-3,-3),(5,-1),(0,6)]
L2 = copy.copy(L1)
for (a,b) in L1:
if a < 0 or b < 0 :
L2.remove((a,b))
# Now, remove the original copy of L1 and replace with L2
del L1
L1 = L2; del L2
>>> L1 is now: [(1, 2), (5, 6), (3, 4), (5, 7), (2, 1), (0, 6)]
Finally, there is one cleaner solution than having to make an entirely new copy of L1. The reversed() function:
L1 = [(1,2), (5,6),(-1,-2), (1,-2),(3,4),(5,7),(-4,4),(2,1),(-3,-3),(5,-1),(0,6)]
for (a,b) in reversed(L1):
if a < 0 or b < 0 :
L1.remove((a,b))
print ("L1 is now: ", L1)
>>> L1 is now: [(1, 2), (5, 6), (3, 4), (5, 7), (2, 1), (0, 6)]
Unfortunately, I cannot adequately describe how reversed() works. It returns a 'listreverseiterator' object when a list is passed to it. For practical purposes, you can think of it as creating a reversed copy of its argument. This is the solution I recommend.
If you want to delete elements from a list while iterating, use a while-loop so you can alter the current index and end index after each deletion.
Example:
i = 0
length = len(list1)
while i < length:
if condition:
list1.remove(list1[i])
i -= 1
length -= 1
i += 1
The other answers are correct that it is usually a bad idea to delete from a list that you're iterating. Reverse iterating avoids some of the pitfalls, but it is much more difficult to follow code that does that, so usually you're better off using a list comprehension or filter.
There is, however, one case where it is safe to remove elements from a sequence that you are iterating: if you're only removing one item while you're iterating. This can be ensured using a return or a break. For example:
for i, item in enumerate(lst):
if item % 4 == 0:
foo(item)
del lst[i]
break
This is often easier to understand than a list comprehension when you're doing some operations with side effects on the first item in a list that meets some condition and then removing that item from the list immediately after.
If you want to do anything else during the iteration, it may be nice to get both the index (which guarantees you being able to reference it, for example if you have a list of dicts) and the actual list item contents.
inlist = [{'field1':10, 'field2':20}, {'field1':30, 'field2':15}]
for idx, i in enumerate(inlist):
do some stuff with i['field1']
if somecondition:
xlist.append(idx)
for i in reversed(xlist): del inlist[i]
enumerate gives you access to the item and the index at once. reversed is so that the indices that you're going to later delete don't change on you.
One possible solution, useful if you want not only remove some things, but also do something with all elements in a single loop:
alist = ['good', 'bad', 'good', 'bad', 'good']
i = 0
for x in alist[:]:
if x == 'bad':
alist.pop(i)
i -= 1
# do something cool with x or just print x
print(x)
i += 1
A for loop will be iterate through an index...
Consider you have a list,
[5, 7, 13, 29, 65, 91]
You have used a list variable called lis. And you use the same to remove...
Your variable
lis = [5, 7, 13, 29, 35, 65, 91]
0 1 2 3 4 5 6
during the 5th iteration,
Your number 35 was not a prime, so you removed it from a list.
lis.remove(y)
And then the next value (65) move on to the previous index.
lis = [5, 7, 13, 29, 65, 91]
0 1 2 3 4 5
so the 4th iteration done pointer moved onto the 5th...
That’s why your loop doesn’t cover 65 since it’s moved into the previous index.
So you shouldn't reference a list into another variable which still references the original instead of a copy.
ite = lis # Don’t do it will reference instead copy
So do a copy of the list using list[::].
Now you will give,
[5, 7, 13, 29]
The problem is you removed a value from a list during iteration and then your list index will collapse.
So you can try list comprehension instead.
Which supports all the iterable like, list, tuple, dict, string, etc.
You might want to use filter() available as the built-in.
For more details check here
You can try for-looping in reverse so for some_list you'll do something like:
list_len = len(some_list)
for i in range(list_len):
reverse_i = list_len - 1 - i
cur = some_list[reverse_i]
# some logic with cur element
if some_condition:
some_list.pop(reverse_i)
This way the index is aligned and doesn't suffer from the list updates (regardless whether you pop cur element or not).
I needed to do something similar and in my case the problem was memory - I needed to merge multiple dataset objects within a list, after doing some stuff with them, as a new object, and needed to get rid of each entry I was merging to avoid duplicating all of them and blowing up memory. In my case having the objects in a dictionary instead of a list worked fine:
```
k = range(5)
v = ['a','b','c','d','e']
d = {key:val for key,val in zip(k, v)}
print d
for i in range(5):
print d[i]
d.pop(i)
print d
```
The most effective method is list comprehension, many people show their case, of course, it is also a good way to get an iterator through filter.
Filter receives a function and a sequence. Filter applies the passed function to each element in turn, and then decides whether to retain or discard the element depending on whether the function return value is True or False.
There is an example (get the odds in the tuple):
list(filter(lambda x:x%2==1, (1, 2, 4, 5, 6, 9, 10, 15)))
# result: [1, 5, 9, 15]
Caution: You can also not handle iterators. Iterators are sometimes better than sequences.
TLDR:
I wrote a library that allows you to do this:
from fluidIter import FluidIterable
fSomeList = FluidIterable(someList)
for tup in fSomeList:
if determine(tup):
# remove 'tup' without "breaking" the iteration
fSomeList.remove(tup)
# tup has also been removed from 'someList'
# as well as 'fSomeList'
It's best to use another method if possible that doesn't require modifying your iterable while iterating over it, but for some algorithms it might not be that straight forward. And so if you are sure that you really do want the code pattern described in the original question, it is possible.
Should work on all mutable sequences not just lists.
Full answer:
Edit: The last code example in this answer gives a use case for why you might sometimes want to modify a list in place rather than use a list comprehension. The first part of the answers serves as tutorial of how an array can be modified in place.
The solution follows on from this answer (for a related question) from senderle. Which explains how the the array index is updated while iterating through a list that has been modified. The solution below is designed to correctly track the array index even if the list is modified.
Download fluidIter.py from here https://github.com/alanbacon/FluidIterator, it is just a single file so no need to install git. There is no installer so you will need to make sure that the file is in the python path your self. The code has been written for python 3 and is untested on python 2.
from fluidIter import FluidIterable
l = [0,1,2,3,4,5,6,7,8]
fluidL = FluidIterable(l)
for i in fluidL:
print('initial state of list on this iteration: ' + str(fluidL))
print('current iteration value: ' + str(i))
print('popped value: ' + str(fluidL.pop(2)))
print(' ')
print('Final List Value: ' + str(l))
This will produce the following output:
initial state of list on this iteration: [0, 1, 2, 3, 4, 5, 6, 7, 8]
current iteration value: 0
popped value: 2
initial state of list on this iteration: [0, 1, 3, 4, 5, 6, 7, 8]
current iteration value: 1
popped value: 3
initial state of list on this iteration: [0, 1, 4, 5, 6, 7, 8]
current iteration value: 4
popped value: 4
initial state of list on this iteration: [0, 1, 5, 6, 7, 8]
current iteration value: 5
popped value: 5
initial state of list on this iteration: [0, 1, 6, 7, 8]
current iteration value: 6
popped value: 6
initial state of list on this iteration: [0, 1, 7, 8]
current iteration value: 7
popped value: 7
initial state of list on this iteration: [0, 1, 8]
current iteration value: 8
popped value: 8
Final List Value: [0, 1]
Above we have used the pop method on the fluid list object. Other common iterable methods are also implemented such as del fluidL[i], .remove, .insert, .append, .extend. The list can also be modified using slices (sort and reverse methods are not implemented).
The only condition is that you must only modify the list in place, if at any point fluidL or l were reassigned to a different list object the code would not work. The original fluidL object would still be used by the for loop but would become out of scope for us to modify.
i.e.
fluidL[2] = 'a' # is OK
fluidL = [0, 1, 'a', 3, 4, 5, 6, 7, 8] # is not OK
If we want to access the current index value of the list we cannot use enumerate, as this only counts how many times the for loop has run. Instead we will use the iterator object directly.
fluidArr = FluidIterable([0,1,2,3])
# get iterator first so can query the current index
fluidArrIter = fluidArr.__iter__()
for i, v in enumerate(fluidArrIter):
print('enum: ', i)
print('current val: ', v)
print('current ind: ', fluidArrIter.currentIndex)
print(fluidArr)
fluidArr.insert(0,'a')
print(' ')
print('Final List Value: ' + str(fluidArr))
This will output the following:
enum: 0
current val: 0
current ind: 0
[0, 1, 2, 3]
enum: 1
current val: 1
current ind: 2
['a', 0, 1, 2, 3]
enum: 2
current val: 2
current ind: 4
['a', 'a', 0, 1, 2, 3]
enum: 3
current val: 3
current ind: 6
['a', 'a', 'a', 0, 1, 2, 3]
Final List Value: ['a', 'a', 'a', 'a', 0, 1, 2, 3]
The FluidIterable class just provides a wrapper for the original list object. The original object can be accessed as a property of the fluid object like so:
originalList = fluidArr.fixedIterable
More examples / tests can be found in the if __name__ is "__main__": section at the bottom of fluidIter.py. These are worth looking at because they explain what happens in various situations. Such as: Replacing a large sections of the list using a slice. Or using (and modifying) the same iterable in nested for loops.
As I stated to start with: this is a complicated solution that will hurt the readability of your code and make it more difficult to debug. Therefore other solutions such as the list comprehensions mentioned in David Raznick's answer should be considered first. That being said, I have found times where this class has been useful to me and has been easier to use than keeping track of the indices of elements that need deleting.
Edit: As mentioned in the comments, this answer does not really present a problem for which this approach provides a solution. I will try to address that here:
List comprehensions provide a way to generate a new list but these approaches tend to look at each element in isolation rather than the current state of the list as a whole.
i.e.
newList = [i for i in oldList if testFunc(i)]
But what if the result of the testFunc depends on the elements that have been added to newList already? Or the elements still in oldList that might be added next? There might still be a way to use a list comprehension but it will begin to lose it's elegance, and for me it feels easier to modify a list in place.
The code below is one example of an algorithm that suffers from the above problem. The algorithm will reduce a list so that no element is a multiple of any other element.
randInts = [70, 20, 61, 80, 54, 18, 7, 18, 55, 9]
fRandInts = FluidIterable(randInts)
fRandIntsIter = fRandInts.__iter__()
# for each value in the list (outer loop)
# test against every other value in the list (inner loop)
for i in fRandIntsIter:
print(' ')
print('outer val: ', i)
innerIntsIter = fRandInts.__iter__()
for j in innerIntsIter:
innerIndex = innerIntsIter.currentIndex
# skip the element that the outloop is currently on
# because we don't want to test a value against itself
if not innerIndex == fRandIntsIter.currentIndex:
# if the test element, j, is a multiple
# of the reference element, i, then remove 'j'
if j%i == 0:
print('remove val: ', j)
# remove element in place, without breaking the
# iteration of either loop
del fRandInts[innerIndex]
# end if multiple, then remove
# end if not the same value as outer loop
# end inner loop
# end outerloop
print('')
print('final list: ', randInts)
The output and the final reduced list are shown below
outer val: 70
outer val: 20
remove val: 80
outer val: 61
outer val: 54
outer val: 18
remove val: 54
remove val: 18
outer val: 7
remove val: 70
outer val: 55
outer val: 9
remove val: 18
final list: [20, 61, 7, 55, 9]
For anything that has the potential to be really big, I use the following.
import numpy as np
orig_list = np.array([1, 2, 3, 4, 5, 100, 8, 13])
remove_me = [100, 1]
cleaned = np.delete(orig_list, remove_me)
print(cleaned)
That should be significantly faster than anything else.
In some situations, where you're doing more than simply filtering a list one item at time, you want your iteration to change while iterating.
Here is an example where copying the list beforehand is incorrect, reverse iteration is impossible and a list comprehension is also not an option.
""" Sieve of Eratosthenes """
def generate_primes(n):
""" Generates all primes less than n. """
primes = list(range(2,n))
idx = 0
while idx < len(primes):
p = primes[idx]
for multiple in range(p+p, n, p):
try:
primes.remove(multiple)
except ValueError:
pass #EAFP
idx += 1
yield p
I can think of three approaches to solve your problem. As an example, I will create a random list of tuples somelist = [(1,2,3), (4,5,6), (3,6,6), (7,8,9), (15,0,0), (10,11,12)]. The condition that I choose is sum of elements of a tuple = 15. In the final list we will only have those tuples whose sum is not equal to 15.
What I have chosen is a randomly chosen example. Feel free to change the list of tuples and the condition that I have chosen.
Method 1.> Use the framework that you had suggested (where one fills in a code inside a for loop). I use a small code with del to delete a tuple that meets the said condition. However, this method will miss a tuple (which satisfies the said condition) if two consecutively placed tuples meet the given condition.
for tup in somelist:
if ( sum(tup)==15 ):
del somelist[somelist.index(tup)]
print somelist
>>> [(1, 2, 3), (3, 6, 6), (7, 8, 9), (10, 11, 12)]
Method 2.> Construct a new list which contains elements (tuples) where the given condition is not met (this is the same thing as removing elements of list where the given condition is met). Following is the code for that:
newlist1 = [somelist[tup] for tup in range(len(somelist)) if(sum(somelist[tup])!=15)]
print newlist1
>>>[(1, 2, 3), (7, 8, 9), (10, 11, 12)]
Method 3.> Find indices where the given condition is met, and then use remove elements (tuples) corresponding to those indices. Following is the code for that.
indices = [i for i in range(len(somelist)) if(sum(somelist[i])==15)]
newlist2 = [tup for j, tup in enumerate(somelist) if j not in indices]
print newlist2
>>>[(1, 2, 3), (7, 8, 9), (10, 11, 12)]
Method 1 and method 2 are faster than method 3. Method2 and method3 are more efficient than method1. I prefer method2. For the aforementioned example, time(method1) : time(method2) : time(method3) = 1 : 1 : 1.7
If you will use the new list later, you can simply set the elem to None, and then judge it in the later loop, like this
for i in li:
i = None
for elem in li:
if elem is None:
continue
In this way, you dont't need copy the list and it's easier to understand.

Octave: is there a way of searching items in a cell array containing scalar structure with fields and how to define the conditions

I have this array in Octave :
dwnSuccess(1,1)
ans =
{
[1,1] =
scalar structure containing the fields:
site = FRED
interval = d
aard = logDir log/
dwnGrootte = log/
time = 737861.64028
and I would like to formulate conditions to find cells containing e.g. logDir in the field 'aard'.
I don't find the correct syntax. Someone knows where to find or has an example with combinations of conditions. Thanks
Assuming that you need to keep a cell array of scalar structs (instead of a struct array which makes more sense if each struct has a defined set of fieldnames), then you need to iterate the cell array to get that field and then use logical indexing to create a new cell array with the structs of interest. Like so:
aards = cellfun (#getfield, cs, {"aard"}, "UniformOutput", false);
m = strcmp(aards, "logDir"); # this must match the whole string
filter_cs2 = cs(m);
If you are interested on finding whether a string is somewhere in that field, then it's just a bit more complex:
m = ! cellfun ("isempty", strfind (aards, "logDir"));
If I understood correctly your question, then suppose you have the following cell array:
a = cell();
a{1} = struct('a', 1, 'b', 'dwn', 'c', 2);
a{2} = struct('a', 2, 'b', 'notdwn', 'c', 3);
a{3} = struct('a', 3, 'b', 'dwn', 'c', 4);
a{4} = struct('a', 4, 'b', 'dwn', 'c', 5);
I think the easiest thing to do would be to first convert it to a struct array. You can do so easily via 'sequence generator' syntax, i.e.
s = [a{:}]; % collect all cell elements as a sequence, then wrap into an array
If you are in charge of this code, then I would instead just create a struct array instead of a cell array from the very beginning.
Once you have that, you can again use a 'sequence generator' syntax on the struct array, with an appropriate function that tests for equality. In your case, you could do something like this:
strcmp( {s.b}, 'dwn' )
% ans = 1 0 1 1
s.b accesses the field 'b' in each element of the struct array, returning it as a comma separated list. Wrapping this in braces causes this sequence to become a cell array. You then pass this resulting cell array of strings into strcmp, to compare each element with the string 'dwn'.
Depending on what you want to do next, you can use that logical array as an index to your struct array to isolate only the structs that contain that value etc.
Obviously this is a quick way of doing it, if you're comfortable with generating sequences in this way. If not, the general idea stands and you're welcome to iterate using traditional for loops etc.

What's the equivalent in Perl 6 to star expressions in Python?

In Python 3, suppose you run a course and decide at the end of the semester that you’re going to drop the first and last homework grades, and only average the rest of them:
def drop_first_last(grades):
first, *middle, last = grades
return avg(middle)
print drop_first_last([100,68,67,66,23]);
In Perl 6:
sub drop_first_last(#grades) {
my ($first, *#middle, $last) = #grades;
return avg(#middle);
}
say drop_first_last(100,68,67,66,23);
Leads to the error "Cannot put required parameter $last after variadic parameters".
So, what's the equivalent express in Perl 6 as star expressions in Python?
sub drop_first_last(Seq() \seq, $n = 1) { seq.skip($n).head(*-$n) };
say drop_first_last( 1..10 ); # (2 3 4 5 6 7 8 9)
say drop_first_last( 1..10, 2 ); # (3 4 5 6 7 8)
The way it works: convert whatever the first argument is to a Seq, then skip $n elements, and then keep all except the last $n elements.
Perl5:
sub drop_first_last { avg( #_[ 1 .. $#_-1 ] ) } #this
sub drop_first_last { shift;pop;avg#_ } #or this
Perl6:
sub drop_first_last { avg( #_[ 1 .. #_.end-1 ] ) }
Use a slice.
sub drop_first_last (#grades) {
return avg(#grades[1..*-2])
}
Workarounds such as have been shown in the rest of the answer are correct, but the short answer to your question is that there is no equivalent expression in Perl 6 to the * in Python.
This kind of arguments are called, in general, variadic, and *slurpy+ in Perl 6, because they slurp the rest of the arguments. And that's the key, the rest. There can be no argument declared after an slurpy argument in a subroutine's signature. This example below also uses a workaround:
sub avg( #grades ) {
return ([+] #grades) / +#grades;
}
sub drop_first_last($first, *#other-grades) {
return avg(#other-grades[0..*-1]);
}
my #grades = <10 4 8 9 10 8>;
say drop_first_last( |#grades );
but is first using the slurpy * in the signature to show how it works, and then, by calling it with |#grades, is flattening the array instead of binding it into an array argument. So the long answer is that there is actually an * or variadic symbol in signatures in Perl 6, and it works similarly to how it would do it in Python, but it can only be placed last in those signatures since it captures the rest of the elements of the expression.
In case the first and last values are needed for some other reason,
unflattened list structure inside slices maps across to the results
in most cases, so you can do this (you have to use a $ sigil on
$middle to prevent autoflattening):
my #grades = (1,2,3,4,5,6);
my ($first, $middle, $last) = #grades[0,(0^..^*-1),*-1];
$first.say; $middle.say; $last.say;
#1
#(2 3 4 5)
#6

How would I go about using Set or Setty to store unique arrays?

I am interested in using Set to hold arrays as follows:
my #v1 = 1, 2, 3;
my #v2 = 1, 2, 3;
my $set Set.new(#v1, #v2);
It would be nice for the Set to recognize that the two arrays are the same, as observed with the ~~ operator, but Set uses the === operator to compare most objects.
# desired outcome: set([1 2 3])
# actual outcome: set([1 2 3], [1 2 3])
I could serialize the array before adding it to the Set, use the wonderful Set magic, then de-serialize. That seems awkward.
I could make a Setty class that uses ~~ for a comparator. That seems like a great learning, but perhaps the wrong one.
Is there some more idiomatic way of doing this?
The two arrays are not considered identical because they are not value types: i.e., they can change after having been added to the Set:
my #a = 1,2,3;
my #b = 1,2,3;
my $s = Set.new(#a,#b);
dd $s; # Set $s = set([1, 2, 3],[1, 2, 3])
#a.push(4);
dd $s; # Set $s = set([1, 2, 3, 4],[1, 2, 3])
Identity of objects in Perl 6 is determined by the .WHICH method. For value types, this returns a unique representation of the values. For reference types like Arrays, it returns something that uniquely identifies the object, based on type and its object ID.
Currently, identity is implemented using the ObjAt class, but the functionality is still a bit in flux. However, as long as the .WHICH method returns something that uniquely describes what you think identifies your object, you should be able to create your own .WHICH implementation. For example:
role frozen {
method WHICH() {
ObjAt.new(self.join("\0")) # something not occurring in values
}
}
my #a = 1,2,3;
my #b = 1,2,3;
my $s = Set.new(#a but frozen,#b but frozen);
dd $s; # Set $s = set([1, 2, 3])
It is up to you to not mess with #a and #b after the Set has been created, because then you would be violating the contract that you underwrote by saying but frozen.
Hope this helps!
Perhaps a Set is not really what you are looking for, perhaps classify or categorize is.
my #v1 = 1, 2, 3;
my #v2 = 1, 2, 3;
my %classified := classify *.perl, #v1, #v2;
my %categorized := categorize *.perl, #v1, #v2;
In this particular case they both result in:
my Any %{Any} = "[1, 2, 3]" => $[[1, 2, 3], [1, 2, 3]]
my Any %{Any} creates an anonymous hash with Any for values, and Any for keys.
The difference between the two is classify always takes the result as a single value, and categorize always takes the result as a list of values, and distributes them.
Serializing and de-serializing may not be as awkward as you think, given that the .perl method will serialize it for you into something that can simply be EVAL'd later.
Assuming you are collecting your arrays in a Array of Arrays, when you add that AoA to a new Set, you can pass all the values to .perl via a map. At this point you have a set of strings.
Then later you can pass all the set elements to EVAL via another map, assign to a variable and get your values back.
my #v1 = 1, 2, 3;
my #v2 = 1, 2, 3;
my #vs = #v1, #v2;
my $set = set( #vs.map(*.perl) );
for $set.keys.map(&EVAL) -> #v {
say #v.^name; # Array
say #v.elems; # 3
say #v.join(', '); # 1, 2, 3
}
Also, given how useful sets are, there is the above sugar for creating them, rather than the full Set.new syntax, ie: my $set = set( #things );
Alternatively, you can also coerce a list to a set (provided it's not infinite) with my $set = #things.Set;

How do I use Perl to parse the output of the sqlplus command?

I have an SQL file which will give me an output like below:
10|1
10|2
10|3
11|2
11|4
.
.
.
I am using this in a Perl script like below:
my #tmp_cycledef = `sqlplus -s $connstr \#DLCycleState.sql`;
after this above statement, since #tmp_cycledef has all the output of the SQL query,
I want to show the output as:
10 1,2,3
11 2,4
How could I do this using Perl?
EDIT:
I am using the following code:
foreach my $row (#tmp_cycledef)
{
chomp $row;
my ($cycle_code,$cycle_month)= split /\s*\|\s*/, $row;
print "$cycle_code, $cycle_month\n";
$hash{$cycle_code}{$cycle_month}=1
}
foreach my $num ( sort keys %hash )
{
my $h = $hash{$num};
print join(',',sort keys %$h),"\n";
}
the fist print statement prints:
2, 1
2, 10
2, 11
2, 12
3, 1
3, 10
3, 11
but the out is always
1,10,11,12
1,10,11,12
1,10,11,12
1,10,11,12
1,10,11,12
1,10,11,12
1,10,11,12
Well, this one is actually how you might do it in perl:
# two must-have pragmas for perl development
use strict;
use warnings;
Perl allows for variables to be created as they are used, $feldman = some_function() means that you now have the variable $feldman in your local namespace. But the bad part about this is that you can type $fldman and take a long time finding out why what you thought was $feldman has no value. Turning on strictures means that your code fails to compile if it encounters an undeclared variable. You declare a variable with a my or our statement (or in older Perl code a use vars statement.
Turning on warnings just warns you when you're not getting values you expect. Often warnings tends to be too touchy, but they are generally a good thing to develop code with.
my %hash; # the base object for the data
Here, I've declared a hash variable that I creatively called %hash. The sigil (pronounced "sijil") "%" tells that it is a map of name-value pairs. This my statement declared the variable and makes it legal for the compiler. The compiler will warn me about any use of %hsh.
The next item is a foreach loop (which can be abbreviated "for"). The loop will process the list of lines in #tmp_cycledef assigning each one in turn to $row. ( my $row).
We chomp the line first, removing the end-of-line character for that platform.
We split the line on the '|' character, creating a list of strings that had been separated by a pipe.
And then we store it in a two-layered hash. Since we want to group them by at least the first number. We could do this by array, and create an array at the location in the hash like so: push #{$hash{$key}}, $val, but I typically want to collapse duplicates (not that there were any duplicates in your sample.)
Here:
foreach my $row ( #tmp_cycledef ) {
chomp $row; # removes the end-of-line character when present.
my ( $key, $val ) = split /\|/, $row;
# One of the best ways to merge lists is a presence-of idea
# with the hash holding whether the value is present
$hash{$key}{$val} = 1;
}
Once we have the data in the structure, we need to iterate both level of hash keys. You wanted to separate the "top level" numbers by lines, but you wanted the second numbers concatenated on the same line. So we print a line for each of the first numbers and join the list of strings stored for each number on the same line, delimited by commas. We also sort the list: { $a <=> $b } just takes to keys and numerically compares them. So you get a numeric order.
# If they were alpha keys our sort routine, we would just likely say sort keys %hash
foreach my $num ( sort { $a <=> $b } keys %hash ) {
my $h = $hash{$num};
print "$num ", join( ',', sort { $a <=> $b } keys %$h ), "\n";
}
As I said in the comments, sort, by default, sorts in character order so you can just say sort keys %hash.
To help you out, you really need to read some of these:
strictures
warnings
perldata
perlfunc -- especially my, foreach, chomp, split, keys, sort and join
And the data structure tutorial
Use a hash of arrays to collect all the values for a single key together, then print them out:
init hash
for each line:
parse into key|value
append value to hash[key]
for each key in hash: # you can sort it, if needed
print out key, list of values
If your input is sorted (as it is in the provided sample), you don't actually need to bother with the hash of arrays/hashes. The code is a bit longer, but doesn't require you to understand references and should run faster for large datasets:
#!/usr/bin/perl
use strict;
use warnings;
my #tmp_cycledef = <DATA>;
my $last_key;
my #values;
for (#tmp_cycledef) {
chomp;
my ($key, $val) = split '\|';
# Seed $last_key with the first key value on the first pass
$last_key = $key unless defined $last_key;
# The key has changed, so it's time to print out the values associated
# with the previous key, then reset everything for the new one
if ($key != $last_key) {
print "$last_key " . join(',', #values) . "\n";
$last_key = $key;
#values = ();
}
# Add the current value to the list of values for this key
push #values, $val;
}
# Don't forget to print out the final key when you're done!
print "$last_key " . join(',', #values) . "\n";
__DATA__
10|1
10|2
10|3
11|2
11|4