show/hide this revision's text 3 added a shuffle I had omitted

First, copy and shuffle daily to initialize master:

master = list(daily)
random.shuffle(master)

then (the interesting part!-) the alteration of master (to insert projects randomly but without order changes), and finally random.shuffle(endofday); master.extend(endofday).

As I said the alteration part is the interesting one -- what about:

def random_mix(seq_a, seq_b):
    iters = [iter(seq_a), iter(seq_b)]
    while True:
        it = random.choice(iters)
        try: yield it.next()
        except StopIteration:
            iters.remove(it)
            it = iters[0]
            for x in it: yield x

Now, the mixing step becomes just master = list(random_mix(master, projects))

Performance is not ideal (lots of random numbers generated here, we could do with fewer, for example), but fine if we're talking about a few dozens or hundreds of items for example.

This insertion randomness is not ideal -- for that, the choice between the two sequences should not be equiprobable, but rather with probability proportional to their lengths. If that's important to you, let me know with a comment and I'll edit to fix the issue, but I wanted first to offer a simpler and more understandable version!-)

Edit: thanks for the accept, let me complete the answer anyway with a different way of "random mixing preserving order" which does use the right probabilities -- it's only slightly more complicated because it cannot just call random.choice;-).

def random_mix_rp(seq_a, seq_b):
    iters = [iter(seq_a), iter(seq_b)]
    lens = [len(seq_a), len(seq_b)]
    while True:
        r = random.randrange(sum(lens))
        itindex = r < lens[0]
        it = iters[itindex]
        lens[itindex] -= 1

        try: yield it.next()
        except StopIteration:
            iters.remove(it)
            it = iters[0]
            for x in it: yield x

Of course other optimization opportunities arise here -- since we're tracking the lengths anyway, we could rely on a length having gone down to zero rather than on try/except to detect that one sequence is finished and we should just exhaust the other one, etc etc. But, I wanted to show the version closest to my original one. Here's one exploiting this idea to optimize and simplify:

def random_mix_rp1(seq_a, seq_b):
    iters = [iter(seq_a), iter(seq_b)]
    lens = [len(seq_a), len(seq_b)]
    while all(lens):
        r = random.randrange(sum(lens))
        itindex = r < lens[0]
        it = iters[itindex]
        lens[itindex] -= 1
        yield it.next()
    for it in iters:
        for x in it: yield x
show/hide this revision's text 2 added functions using the right probabilities

Edit: thanks for the accept, let me complete the answer anyway with a different way of "random mixing preserving order" which does use the right probabilities -- it's only slightly more complicated because it cannot just call random.choice;-).

def random_mix_rp(seq_a, seq_b):    iters = [iter(seq_a), iter(seq_b)]    lens = [len(seq_a), len(seq_b)]    while True:        r = random.randrange(sum(lens))        itindex = r < lens[0]        it = iters[itindex]        lens[itindex] -= 1        try: yield it.next()        except StopIteration:            iters.remove(it)            it = iters[0]            for x in it: yield x
Of course other optimization opportunities arise here -- since we're tracking the lengths anyway, we could rely on a length having gone down to zero rather than on try/except to detect that one sequence is finished and we should just exhaust the other one, etc etc. But, I wanted to show the version closest to my original one. Here's one exploiting this idea to optimize and simplify:
def random_mix_rp1(seq_a, seq_b):    iters = [iter(seq_a), iter(seq_b)]    lens = [len(seq_a), len(seq_b)]    while all(lens):        r = random.randrange(sum(lens))        itindex = r < lens[0]        it = iters[itindex]        lens[itindex] -= 1        yield it.next()    for it in iters:        for x in it: yield x
show/hide this revision's text 1

First, copy and shuffle daily to initialize master:

master = list(daily)
random.shuffle(master)

then (the interesting part!-) the alteration of master (to insert projects randomly but without order changes), and finally master.extend(endofday).

As I said the alteration part is the interesting one -- what about:

def random_mix(seq_a, seq_b):
    iters = [iter(seq_a), iter(seq_b)]
    while True:
        it = random.choice(iters)
        try: yield it.next()
        except StopIteration:
            iters.remove(it)
            it = iters[0]
            for x in it: yield x

Now, the mixing step becomes just master = list(random_mix(master, projects))

Performance is not ideal (lots of random numbers generated here, we could do with fewer, for example), but fine if we're talking about a few dozens or hundreds of items for example.

This insertion randomness is not ideal -- for that, the choice between the two sequences should not be equiprobable, but rather with probability proportional to their lengths. If that's important to you, let me know with a comment and I'll edit to fix the issue, but I wanted first to offer a simpler and more understandable version!-)