Hi,

On 2011年5月23日月曜日 at 1:52, Yusuke Endoh wrote:

You might think Array#bsearch is better. But Array#bsearch has some problems:
I think Range is better position than Array in which the bsearch method is, too.

I want this feature.

--
Kenta Murata
Sent with Sparrow

It might make sense for SortedSet (part if the stdlib), though.

Konstantin

On Jun 1, 2011, at 13:07 , Yusuke Endoh wrote:

Issue #4766 has been updated by Yusuke Endoh.

Target version changed from 1.9.3 to 1.9.x

Thank you for your time.

Once you supply the block, the ordered attribute of a range does not mean anything.

I'm not sure if I could understand this correctly. If the block handles
its parameter in terms of the ordered attribute, is there no problem?

Else, any method must work even if a supplied block ignores the context?
Array#sort violates the rule, I think.

Besides that, as the example in the document shows, Range#bsearch is more indirect than say, Array#bsearch.

Yes, for typical cases. But Array#bsearch is not enough since it cannot
be used over Float or big range.

Anyway, I'm NOT against Array#bsearch. It is a good thing. But You
rejected it. Now do you accept Array#bsearch?

Binary search is a practical matter than philosophy.
Hope my proposal to get reconsidered.

--
Yusuke Endoh mame@tsg.ne.jp

Feature #4766: Range#bsearch
http://redmine.ruby-lang.org/issues/4766

Author: Yusuke Endoh
Status: Rejected
Priority: Normal
Assignee: Yukihiro Matsumoto
Category:
Target version: 1.9.x

Hello,

I propose Range#bsearch for binary search:

ary

How is this useful? It's basically "find minimum" value, right? What difference does it make that it uses a binary search?

If binary searching is important, then why not have a #beach --which can then be used to extrapolate any variety of other methods.

How is this useful? It's basically "find minimum" value, right? What difference does it make that it uses a binary search?

If binary searching is important, then why not have a #beach --which can then be used to extrapolate any variety of other methods.

Maybe I'm not sure your point.
It finds minimum value by using binary search.
Does the name bsearch' matter? Is beach' really suitable?

I add a practical example of Range#bsearch for Float domain.
The following code obtains the interior radius between 3 circles
of radii a,b,c that are circumscribed each other, by using law of
cosines three times:

(0.0 .. [a,b,c].min).bsearch do |t|
u, v = (t+a+b)t, ab
s = Math.acos((u - v) / (u + v))
u, v = (t+b+c)t, bc
s += Math.acos((u - v) / (u + v))
u, v = (t+c+a)t, ca
s += Math.acos((u - v) / (u + v))
s <= Math::PI * 2
end

--
Yusuke Endoh mame@tsg.ne.jp

Hi, thanks for example. I may not fully understand bsearch, but basically what I mean is that if finding minimum value is the important thing, then why not call it #find_minimum ? (and what about #find_maximum ?). But if binary search is what is important than could not a #beach (b-each) be combined with a variety of uses.

to_enum(:beach).min
to_enum(:beach).max
to_enum(:beach).map

etc.

The method is not about finding the minimum, it's about binary search. It has the additional behavior of finding the minimum value at the boundary condition for the block. If multiple values match the boundary condition the minimum is chosen.

Read the example in the proposed RDoc

2011/7/17 Thomas Sawyer transfire@gmail.com:

Hi, thanks for example. I may not fully understand bsearch, but basically what I mean is that if finding minimum value is the important thing, then why not call it #find_minimum ? (and what about #find_maximum ?). But if binary search is what is important than could not a #beach (b-each) be combined with a variety of uses.

I understand you. In principle, a method name should not represent
how it does but what it does.
But in this case, the feature has a strict pre-condition: the array
must be sorted. So, the name #find_minimum is too generic.
We may call it #find_minimum_from_sorted_array or so, but I believe
#bsearch is more suitable.

--
Yusuke Endoh mame@tsg.ne.jp

@eric (Eric Anderson) So you are saying #bsearch is #beach --that the minimum value return is just an aside to have the return value be useful? But won't the min value logic interfere with trying to do anything else with bsearch, e.g. "to_enum(:bsearch).max"?

Also, the proposed documentation starts out with "Returns the minimum value", so that indicates a different main purpose.
n

No, it's not about finding any minimum value, it's about binary search:

I propose Range#bsearch for binary search

and

Returns […] by binary search

The important information in English does not necessarily come first. To make it more clear maybe it should read:

Performs a binary search using the block as criteria. If multiple items match the criteria the minimum (first) value is chosen.

You do know what a "binary search" is, right?

http://en.wikipedia.org/wiki/Binary_search

When performing a binary search you may have multiple matching values, the three 100 values from the example. For the proposed implementation the first one is chosen for consistency.

Nobody knows what the #beach method you keep talking about would be. Maybe you mean binary-search-each? That doesn't make any sense as binary search will not yield each item in the enumerator. If you think that this method will yield each item please read about binary search first.

On Jul 17, 2011, at 7:54 PM, Eric Hodel wrote:

When performing a binary search you may have multiple matching values, the three 100 values from the example. For the proposed implementation the first one is chosen for consistency.

Nobody knows what the #beach method you keep talking about would be. Maybe you mean binary-search-each? That doesn't make any sense as binary search will not yield each item in the enumerator.

I wouldn't say "nobody". I think what he's suggesting is a more flexible binary-search-each which yields all elements for which the block is true. Hear this out:

The current implementation's result is equivalent to Enumerable#min, except it requires sorted order so it can use binary search. This adds the asymptotic speedup to the #min method.

This is handy, but what if someone wanted the maximum? Or just the first element that matches?

Those are equivalent, respectively, to Enumerable#max and Enumerable#find. Personally, I think I'd usually just want to get the first one that matches, and not use extra cycles computing the minimum. There's room for choice which the current implementation lacks. Further, they can't be built based on the new method. They have to be written from scratch.

These could be implemented with a base, binary_matches method, with selection logic added on. Assume binary_matches takes a block, and returns an enumerator for all elements for which the block yields true. It can do so in O(log(n)) time. This is just a thrown together API, a better API likely exists. If you had such a method, you could implement the existing proposal (min), max, and find as such, giving all the log(n) speedup:

The current bsearch proposal renamed to bsearch_min.¶

def bsearch_min(&blk)
binary_matches(&blk).min
end

Returns the largest elt for which the block yields true¶

def bsearch_max(&blk)
binary_matches(&blk).max
end

Returns the first-discovered elt for which the block yields true¶

def bsearch_find(&blk)
binary_matches(&blk).each do |elt|
return elt if blk.call(elt)
end
end

This seems useful to me.

Michael Edgar
adgar@carboni.ca
http://carboni.ca/

On Jul 17, 2011, at 8:12 PM, Michael Edgar wrote:

Returns the first-discovered elt for which the block yields true¶

def bsearch_find(&blk)
binary_matches(&blk).each do |elt|
return elt if blk.call(elt)
end
end

Whoops, this is silly. It should be as follows:

def bsearch_find(&blk)
binary_matches(&blk).first
end

I rewrote the first two methods when I came up with the strawman binary_matches API, and forgot to rewrite the third.

Michael Edgar
adgar@carboni.ca
http://carboni.ca/

Hello,

Thank you for all your opinions!

2011/7/18 Michael Edgar adgar@carboni.ca:

This is handy, but what if someone wanted the maximum?

Please invert the condition. For example, if you want the maximum
index holding that the element is less than 7:

ary = [0, 4, 7, 10, 12]
p (0..4).bserach {|i| !(ary[i] < 7) } #=> 1

Indeed it is not so cool, but similar to Array#sort. If it is
possible only by inverting, I'm afraid if we need paticular methods
for each use case.

Or just the first element that matches?

Good question :-) Interestingly, break can be used.

ary = [0, 4, 7, 10, 12]
p (0..4).bsearch {|i| break i if ary[i] >= 4 }
#=> 1, 2, 3 or 4 (probably 2, but I don't think it might be changed
in future extension)

an enumerator for all elements for which the block yields true.

I agree that it seems neat, but it is ambiguous to me how it works
concretely. What do you expect the following code outputs?

ary = [0, 4, 7, 10, 12]
p (0..4).bsearch_matches {|i| ary[i] >= 4 }.to_a #=> ?

And, I guess binary_matches(&blk).min takes O(m) where m is the
number of results because Enumearble#min and #max find the value by
iterating all elements.

--
Yusuke Endoh mame@tsg.ne.jp

Oops,

2011/7/18 Yusuke ENDOH mame@tsg.ne.jp:

Or just the first element that matches?

Good question :-)  Interestingly, break can be used.

 ary

On Jul 18, 2011, at 1:30 AM, Yusuke ENDOH wrote:

I agree that it seems neat, but it is ambiguous to me how it works
concretely. What do you expect the following code outputs?

I see now my misunderstanding; the "minimum value" heuristic
exists not to provide additional utility, but merely to direct tie-breaking
in the binary search in a consistent manner.

My proposed bsearch_matches would clearly need to know which
direction to break ties before it commenced (perhaps a 1/0/-1
argument), which starts to limit its usefulness. While I personally
would prefer this as a base implementation for several methods to
bsearch with inverted block condition or "break" in the block,
I can't honestly say my idea would be worth it for a first implementation.

It does still irk me that the general name "bsearch" would have the
minimum-tie-breaking built-in, without that being reflected in the
name or an argument. The additional behavior may surprise users.

Michael Edgar
adgar@carboni.ca
http://carboni.ca/

Hope this can be committed at some point...

ping. status?