# The Skyline Problem‍​​

I just came across this little problem on UVA's Online Judge and thought, that it may be a good candidate for a little code-golf.

The problem:

You are to design a program to assist an architect in drawing the skyline of a city given the locations of the buildings in the city. To make the problem tractable, all buildings are rectangular in shape and they share a common bottom (the city they are built in is very flat). The city is also viewed as two-dimensional. A building is specified by an ordered triple (Li, Hi, Ri) where Li and Ri are left and right coordinates, respectively, of building i and Hi is the height of the building.

In the diagram below buildings are shown on the left with triples

``````(1,11,5), (2,6,7), (3,13,9), (12,7,16), (14,3,25), (19,18,22), (23,13,29), (24,4,28)
``````

and the skyline, shown on the right, is represented by the sequence:

``````1, 11, 3, 13, 9, 0, 12, 7, 16, 3, 19, 18, 22, 3, 23, 13, 29, 0
``````

The output should consist of the vector that describes the skyline as shown in the example above. In the skyline vector (v1, v2, v3, ... vn) , the vi such that i is an even number represent a horizontal line (height). The vi such that i is an odd number represent a vertical line (x-coordinate). The skyline vector should represent the "path" taken, for example, by a bug starting at the minimum x-coordinate and traveling horizontally and vertically over all the lines that define the skyline. Thus the last entry in the skyline vector will be a 0. The coordinates must be separated by a blank space.

If I will not count declaration of provided (test) buildings and including all spaces and tab characters, my solution, in Python, is 223 characters long.

Here is the condensed version:

``````B=[[1,11,5],[2,6,7],[3,13,9],[12,7,16],[14,3,25],[19,18,22],[23,13,29],[24,4,28]]

# Solution.

R=range
v=[0 for e in R(max([y[2] for y in B])+1)]
for b in B:
for x in R(b[0], b[2]):
if b[1]>v[x]:
v[x]=b[1]
p=1
k=0
for x in R(len(v)):
V=v[x]
if p and V==0:
continue
elif V!=k:
p=0
print "%s %s" % (str(x), str(V)),
k=V
``````

I think that I didn't made any mistake but if so - feel free to criticize me.

I don't have much reputation, so I will pay only 100 for a bounty - I am curious, if anyone could try to solve this in less than .. lets say, 80 characters. Solution posted by cobbal is 101 characters long and currently it is the best one.

I thought, that 80 characters is a sick limit for this kind of problem. cobbal, with his 46 character solution totaly amazed me - though I must admit, that I spent some time reading his explanation before I partially understood what he had written.

-

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should this be wiki? – Victor Jun 30 '09 at 21:49
This was my first year assignment to be implemented in scheme. – artificialidiot Jun 30 '09 at 22:09
I'm enjoying trying to figure out how this works. One small observation, though. The second to last line can be written: print "%s %s" % (x, V), – MatrixFrog Jul 1 '09 at 4:03
Hey! you are spoiling the whole fun of playing UVa Judge! – J-16 SDiZ Jul 3 '09 at 4:15
The data points for the two images don't match. ( They do however match the image that it goes along with. ) – Brad Gilbert Jul 8 '09 at 3:33

I'm just starting to learn J, so here goes my first attempt at golf:

103 62 49
46 characters

``````   b =: 8 3 \$ 1 11 5 2 6 7 3 13 9 12 7 16 14 3 25 19 18 22 23 13 29 24 4 28
,(,.{&s)I.s~:_1|.s=:0,~>./(1&{*{.<:[:i.{:)"1 b
1 11 3 13 9 0 12 7 16 3 19 18 22 3 23 13 29 0
``````

although I'm sure someone who actually knows the language well could shorten this by quite a bit

An explanation of the code:

```   NB. list numbers up to right bound of the building
([: i. {:) 14 3 25
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
NB. compare to left bound of building and then multiply by height
(1&{ * {. <: [: i. {:) 14 3 25
0 0 0 0 0 0 0 0 0 0 0 0 0 0 3 3 3 3 3 3 3 3 3 3 3
NB. apply to each row of b, note how shorter entries are padded with 0s
(1&{ * {. <: [: i. {:)"1 b
0 11 11 11 11  0  0  0  0 0 0 0 0 0 0 0 0 0 0  0  0  0 0  0  0  0  0  0  0
0  0  6  6  6  6  6  0  0 0 0 0 0 0 0 0 0 0 0  0  0  0 0  0  0  0  0  0  0
...
NB. collapse to find max, add a 0 to the end for rotate later, assign to s
] s =: 0 ,~ >./ (1&{ * {. <: [: i. {:)"1 b
0 11 11 13 13 13 13 13 13 0 0 0 7 7 7 7 3 3 3 18 18 18 3 13 13 13 13 13 13 0
NB. rotate s right 1 and then compare to s to find where height changes
s ~: _1 |. s
0 1 0 1 0 0 0 0 0 1 0 0 1 0 0 0 1 0 0 1 0 0 1 1 0 0 0 0 0 1
NB. find indices of all differences
I. s ~: _1 |. s
1 3 9 12 16 19 22 23 29
NB. pair each index with the height of the building there
(,. {&s) I. s ~: _1 |. s
1 11
3 13
9  0
...
NB. and finally flatten the list
, (,. {&s) I. s ~: _1 |. s
1 11 3 13 9 0 12 7 16 3 19 18 22 3 23 13 29 0
```
-
Ah, if I had seen your improvements I wouldn't have written up my answer. I didn't think of using the 0 autofill, that's pretty clever... – ephemient Jul 2 '09 at 22:09
Is there any non-esoteric language that's less readable than this? ;-) – Zifre Jul 3 '09 at 1:05
@Zifre: If there's demand, I can write a detailed explanation for this just as I did for my J solution. Once you get used to J's vocabulary, it's not too bad... the problem is that they inherited APL's "there must be a symbol for every possible action" and jammed it into ASCII. – ephemient Jul 3 '09 at 4:47
I would really like to have a detailed explanation. After I saw your first version, I downloaded J and tried to create my own version but my head hurt after two minutes ;-) – Otto Allmendinger Jul 3 '09 at 6:47
I am in awe at how short your solution is (but I haven't read the explanation yet). It's a shame that J isn't a qualified language to submit your solution in; I wonder how you would have placed on the ranking list for that problem. – Dennis Jul 3 '09 at 10:32

Python, 89 characters, also using Triptych's 5001 cheat:

``````B=[[1,11,5],[2,6,7],[3,13,9],[12,7,16],[14,3,25],[19,18,22],[23,13,29],[24,4,28]]

x=o=0
while x<5001:
n=max([H for L,H,R in B if L<=x<R]+[0])
if n-o:print x,n,
o=n;x+=1
``````

Replacing `5001` by `max(map(max,B))+1` to allow (almost) arbitrarily large cities leaves 102 characters.

Revision History:

• saved two chars as described in John Pirie's comment
• saved one char as MahlerFive suggested
-
I am in awe. Change "L<x+.5<R" to "L<=x<R" to save 2 chars? – John Pirie Jul 2 '09 at 18:53
Oh, yeah, thanks. That's a leftover from an earlier try where I had some reason for that. – balpha Jul 2 '09 at 18:56
big fan of the (n-o). And I laughed at myself for using three-space indents. Great job! – Triptych Jul 2 '09 at 19:51
use a semicolon to have o=n and x+=1 on the same line saving 1 character – MahlerFive Jul 3 '09 at 10:16
@MahlerFive: Cool. Honestly, I have never ever used a semicolon in Python before. If you had asked me whether that was legal, I wouldn't have known for sure. Thanks! – balpha Jul 3 '09 at 10:49

Python: 115 characters

Like the OP, I'm not including the declaration of the data, but I am counting whitespace.

``````D = [(1,11,5), (2,6,7), (3,13,9), (12,7,16),
(14,3,25), (19,18,22), (23,13,29), (24,4,28)]

P=[max([0]+[h for s,h,e in D if s<=x<e])for x in range(5001)]
for i,x in enumerate(P[1:]):
if x!=P[i]:print i+1,x,
``````

Note that I am using the link provided by the OP as the exact definition of the problem. For instance, I cheat a bit by assuming there is not building coordinate over 5000, and that all coordinates are positive integers. The original post is not tightly constrained enough for this to be fun, in my opinion.

edit: thanks to John Pirie for the tip about collapsing the list construction into the printing for loop. How'd I miss that?!

edit: I changed `range(1+max(zip(*D)[2]))` to `range(5001)` after deciding the use the exact definition given in the original problem. The first version would handle buildings of arbitrary positive integers (assuming it all fit into memory).

edit: Realized I was overcomplicating things. Check my revisions.

BTW - I have a hunch there's a much more elegant, and possibly shorter, way to do this. Somebody beat me!

-
Triptych, nice one...really nice. – zeroDivisible Jul 1 '09 at 4:10
i'm not so good at python... are you assuming the input to be in order that they are in the city scape or will I have to deal with that in my code? – Victor Jul 1 '09 at 5:52
I do not assume the buildings to be listed in any order. – Triptych Jul 1 '09 at 6:42
@Pirie, the link to the original problem provided by the OP does specify that all building coordinates are positive integers. I ran with that. This problem is a lot less fun if it's not tightly defined. – Triptych Jul 1 '09 at 19:37
@Triptych: right you are, thanks. As a Python student learning a ton from your solution, I hope you'll forgive me if I keep messing with it – John Pirie Jul 1 '09 at 19:51

A 176 byte WinXP .COM executable:

Base64 encoded, I used this site to encode it. Decode to a .com file. The program reads stdin until an EOF, which is a Ctrl-Z when reading from the console, and then outputs the result to stdout.

EDIT: The source code:

``````    mov bp,10
mov es,dx
mov ds,dx
xor ax,ax
xor di,di
mov cx,8000h
rep stosw
mov ah,0bh
int 21h
cmp al,255
mov si,offset l9
je l1
mov si,offset l11
l1:
call l7
mov di,cx
call l7
mov bx,cx
call l7
sub cx,di
l2:
cmp bx,[di]
jbe l3
mov [di],bx
l3:
loop l2
jmp l1
l4:
xor cx,cx
l5:
cwd
div bp
push dx
inc cx
or ax,ax
jnz l5
mov dl,bh
mov ah,2
int 21h
mov bh,44
l6:
pop dx
mov ah,2
int 21h
loop l6
ret
l7:
call si
cmp al,10
jae l7
db 0fh, 0b6h, 0c8h
l8:
call si
cmp al,10
jae ret
mov ah,0
xchg cx,ax
mul bp
jmp l8
l9:
mov ah,0bh
int 21h
cmp al,255
jne l12
mov ah,8
int 21h
l10:
sub al,48
ret
l11:
mov ah,1
int 21h
cmp al,26
jne l10
mov si,offset l12
ret
l12:
xor si,si
xor di,di
mov bh,32
l13:
lodsw
cmp ax,di
je l14
mov di,ax
lea ax,[si-2]
shr ax,1
call l4
mov ax,di
call l4
l14:
or si,si
jne l13
int 20h
``````

Compiled, as usual for me, using A86.

-
How do I know this isn't a Trojan ;-) – Jared Updike Jul 8 '09 at 22:38
Ah, my evil plan to take over ze vorld has been foiled. Time to unleash the sharks vith lasers! – Skizz Jul 9 '09 at 7:57
You got freakin' sharks with freakin' lasers on their heads... that is so cool – Matthew Whited Jul 9 '09 at 15:50

Python with 133 chars, memory and time efficient, no restrictions on data input

``````D = [(1,11,5), (2,6,7), (3,13,9), (12,7,16), (14,3,25), (19,18,22), (23,13,29), (24,4,28)]

l,T=0,zip(*D)
for x,h in map(lambda x:(x,max([y for a,y,b in D if a<=x<b]or[0])),sorted(T[0]+T[2])):
if h!=l: print x,h,
l=h
``````

explanation:

``````lambda x:(x,max([y for a,y,b in D if a<=x<b]or[0])
``````

returns the position and the height at position x.

Now loop over the sorted coordinate list compiled by `sorted(zip(*D)[0]+zip(*D)[2])` and output if the height changes.

the second version isn't as efficient as the one above and has a coordinate limit but only uses 115 chars:

``````for x in range(100):
E=[max([y for a,y,b in D if a<=(x-i)<b]+[0])for i in(0,1)]
if E[0]-E[1]:print x,E[0],
``````
-
you can chain inequality operators in python. Change "a<=x and x<b" to "a<=x<b". – Triptych Jul 2 '09 at 15:38
thanks Triptych, just noticed it – Otto Allmendinger Jul 2 '09 at 15:42
Sorry - I had to revisit my solution after you beat me! – Triptych Jul 2 '09 at 15:52

98 characters of J, tacitly defined (no variable names!):

``````,@(([:(1:,{:"1)}.~:}:)#])@((],[:>./(1&{@[*(]>:{.@[)*]<{:@[)"1)"2 0(([:<./{."1)}.[:i.@>:[:>./{:"1))
``````

In action:

```\$ jconsole
s =: ,@(([:(1:,{:"1)}.~:}:)#])@((],[:>./(1&{@[*(]>:{.@[)*]<{:@[)"1)"2 0(([:<./{."1)}.[:i.@>:[:>./{:"1))
|:b =: 8 3 \$ 1 11 5 2 6 7 3 13 9 12 7 16 14 3 25 19 18 22 23 13 29 24 4 28
1 2  3 12 14 19 23 24
11 6 13  7  3 18 13  4
5 7  9 16 25 22 29 28
s b
1 11 3 13 9 0 12 7 16 3 19 18 22 3 23 13 29 0
```

Only 86 characters with the assumption that the left-most coordinate is always 1.

``````,@(([:(1:,{:"1)}.~:}:)#])@((],[:>./(1&{@[*(]>:{.@[)*]<{:@[)"1)"2 0([:>:[:i.[:>./{:"1))
``````

Only 76 with the additional assumption that the right-most coordinate is at most 99.

``````,@(([:(1:,{:"1)}.~:}:)#])@((],[:>./(1&{@[*(]>:{.@[)*]<{:@[)"1)"2 0&(>:i.99))
``````

Borrowing some tricks from cobbal, I can get it to 68.

``````[:,@({:"1#>:@i.@#,.{."1)[:1&|.[:(,.(~:_1&|.))[:>./(1&{*{.<:[:i.{:)"1
``````

The tacit definition just can't compete with using `s=:…` to eliminate redundancy, though.

Whenever I answer a question with J, I try to take the time to explain what's going on, because I think others might enjoy a look into the workings of an alien language.

```   NB. The first, second, and last element of a vector
({. 0{b), (1 { 0{b), ({: 0{b)
1 11 5
NB. Count from 0 to (last element of vector)-1
i. {: 0{b
0 1 2 3 4
NB. Booleans: first element of vector less than or equal to (above)?
({. <: [:i.{:) 0{b
0 1 1 1 1
NB. Multiply by second element of vector
(1&{ * {.<:[:i.{:) 0{b
0 11 11 11 11
NB. Stack up results for each vector, then find maximum by column
>./ (1&{*{.<:[:i.{:) " 1 b
0 11 11 13 13 13 13 13 13 0 0 0 7 7 7 7 3 3 3 18 18 18 3 13 13 13 13 13 13
NB. Identify leaders and make table
|: (,. (~: _1 & |.)) >./(1&{*{.<:[:i.{:)"1 b
0 11 11 13 13 13 13 13 13 0 0 0 7 7 7 7 3 3 3 18 18 18 3 13 13 13 13 13 13
1  1  0  1  0  0  0  0  0 1 0 0 1 0 0 0 1 0 0  1  0  0 1  1  0  0  0  0  0
NB. Rotate left
|: 1 |. (,.(~:_1&|.))>./(1&{*{.<:[:i.{:)"1 b
11 11 13 13 13 13 13 13 0 0 0 7 7 7 7 3 3 3 18 18 18 3 13 13 13 13 13 13 0
1  0  1  0  0  0  0  0 1 0 0 1 0 0 0 1 0 0  1  0  0 1  1  0  0  0  0  0 1
NB. 1-based index and first element, when last element is true
|: ({:"1 # >: @ i. @ # ,. {."1) 1&|.(,.(~:_1&|.))>./(1&{*{.<:[:i.{:)"1 b
1  3 9 12 16 19 22 23 29
11 13 0  7  3 18  3 13  0
NB. Flatten
, ({:"1#>:@i.@#,.{."1)1&|.(,.(~:_1&|.))>./(1&{*{.<:[:i.{:)"1 b
1 11 3 13 9 0 12 7 16 3 19 18 22 3 23 13 29 0
NB. Rearrange for tacit verb
([:,@({:"1#>:@i.@#,.{."1)[:1&|.[:(,.(~:_1&|.))[:>./(1&{*{.<:[:i.{:)"1) b
1 11 3 13 9 0 12 7 16 3 19 18 22 3 23 13 29 0
```
-
like the tacit, very nice explanation too – cobbal Jul 3 '09 at 4:33

2 C# answers - way too long, but I'd love to see better?

LINQ approach (135 chars excluding array line):

``````var a=new[]{new[]{1,11,5},new[]{2,6,7},new[]{3,13,9},new[]{12,7,16},new[]{14,3,25},new[]{19,18,22},new[]{23,13,29},new[]{24,4,28}};
int l=0,y,x=-1;while(++x<5001){var b=a.Where(c=>c[0]<=x&&c[2]>x);if((y=b.Any()?b.Max(c=>c[1]):0)!=l)Console.Write(x+", "+(l=y)+", ");}
``````

Or a non-LINQ answer (179 185 chars excluding array line):

``````var a={1,11,5,2,6,7,3,13,9,12,7,16,13,3,25,19,18,22,23,13,29,24,4,28};
var b=new int[5000];int i=-1,j,z;while(++i<a.Length)for(j=a[i*3];j<a[i*3+2];j++)if((z=a[i*3+1])>b[j])b[j]=z;i=-1;z=0;while(++i<5000)if(b[i]!=z)Console.Write(i+", "+(z=b[i])+", ");
``````
-
if((y=a.Where(c=>c[0]<=x&&c[2]>x).Max(c=>(int?)c[1])??0)!=l) saves you a few characters – Jimmy Jul 6 '09 at 22:20
"Console.Write" c#'s achilles heal of golf :) You have 3 references to [x,y] in the latter solution. replacing with [x*3+y] costs 6 characters but a.GetLength(0) becomes a.Length. the first [i*3+0] can lose th plus zero though so you net save ywo characters. you can lift the definition of j to where you define z. – ShuggyCoUk Jul 18 '09 at 2:46
not sure if you allow yourself var in the non Linq version, shaves one character of the declaration of b. – ShuggyCoUk Jul 18 '09 at 2:51
Nice; feel free to hack either/both in ;-p – Marc Gravell Jul 18 '09 at 7:05

Code is condensed (few lines to code) which is good for the tournament (time is the scarcest resource), and seems correct (I don't know python, but I think I understand the code).

Your solution basically paints the city skyline in a buffer and then outputs the contents of the buffer in the required format.

The extra info you ommited from the problem is that there will be at most 5000 buildings and the horizontal positions will smaller than 10.000. That implies that memory does not seem a problem in your case (40kb for the skyline assuming 32bit architecture, plus 45kb for the building description - optional, you could paint the skyline in the read loop). The algorithm is linear in the number of buildings so it is fast.

With toughter memory constraints you could go for a one-pass algorithm, but I believe that in this case it would perform slower and be much more complex to implement (more of your time, more CPU time)

Now you should consider really reading the input in the given format and using that data for your computations instead of a prestored data array.

BTW, is python a valid language now in ACM contests?

-
it wasn't last year. – Victor Jun 30 '09 at 23:15
Valid Languages = Java, C, C++, C#. As of 2008, problems may not have a judge-written C# solution. – glasnt Jul 1 '09 at 3:02
TomatoSandwich is right - Python is not a supported language for ACM contests - I just used it, because with it, I could write condensed code. I also omitted information about test cases, because SO doesn't have means of providing them automatically, so I assumed, that algorithm written for test data will work for all data – zeroDivisible Jul 1 '09 at 4:05
The info about test data is important. If your skyline coordinates instead of ranging to 10.000 could range to 2^32-1 (max 32bit integer) then your algorithm would be flawed as it would require 2^34 bytes or 16Gb of memory to store the v variable (array from 0 to 2^32-1 of 32bit integers). The same goes for buildings, if the number was big enough you would have to refactor into a one-pass algorithm. Those are really important items to evaluate an algorithm, not only correctness but viability of the implementation. – David Rodríguez - dribeas Jul 1 '09 at 5:29
what happened with Pascal? have they dropped it? – fortran Jul 9 '09 at 9:42

# Here's a quick one in Perl

( by quick I mean less than two hours )

## Perl in only 327 characters

( excluding "` #/`" to improve highlighting )

``````use 5.010;
\$/=undef;
@s=map{[split',',\$_]}grep{\$_}split/\)\s*(?:\$|,\s*\()|^\s*\(/,<>; #/
for\$s(@s){(\$l,\$y,\$r)=@\$s;
for\$x(\$l..\$r){\$c=\$p[\$x];\$p[\$x]=\$c>\$y?\$c:\$y;}}
for(\$x=1;\$x<=@p;\$x++){\$y=\$p[\$x]||0;
if(!defined\$z){\$l=\$x;\$z=\$y;
}elsif(\$y!=\$z){push@n,[\$l,\$z,\$x-1];\$z=\$y;\$l=\$x;}}
push@n,[\$l,\$z];
say join', ',map{(\$_->[0],\$_->[1])}@n;
``````

## Original testing version 853 characters

``````#! /usr/bin/env perl
use strict;
use warnings;
use 5.010;
use YAML;
use List::Util 'max';

my \$file;
{
local \$/ = undef;
\$file = <>;
}

my @sections = map { [split ',', \$_] } grep {\$_} split m'
\)\s* (?:\$|,\s*\() |
^ \s* \(
'x, \$file;

#my \$max_x = max map{ \$_->[2] } @sections;
#say \$max_x;

my @points;
for my \$reg( @sections ){
my(\$l,\$y,\$r) = @\$reg;
for my \$x ( \$l .. \$r ){
my \$c = \$points[\$x] || 0;
\$points[\$x] = max \$c, \$y;
}
}

my @new;
my(\$l,\$last_y);
for( my \$x=1; \$x <= @points; \$x++ ){
my \$y = \$points[\$x] || 0;

# start
if( ! defined \$last_y ){
\$l = \$x;
\$last_y = \$y;
next;
}

if( \$y != \$last_y ){
push @new, [\$l,\$last_y,\$x-1];
\$last_y = \$y;
\$l = \$x;
next;
}
}
push @new, [\$l,\$last_y];

say Dump \@sections, \@points, \@new;

say join ', ', map { (\$_->[0],\$_->[1]) } @new;
``````

## Initial minified version 621 characters

( excluding "` #/`" to improve highlighting )

``````#! /usr/bin/env perl
use strict;
use warnings;
use YAML;
use 5.010;

\$/=undef;

my@s=map{[split',',\$_]}grep{\$_}split/\)\s*(?:\$|,\s*\()|^\s*\(/,<>; #/

my@p;
{
no strict; no warnings 'uninitialized';

for\$s(@s){
(\$l,\$y,\$r)=@\$s;
for\$x(\$l..\$r){
\$c=\$p[\$x];
\$p[\$x]=\$c>\$y?\$c:\$y;
}
}
}

# \$last_y => \$z
my @n;
{
no strict;

#my(\$l,\$z);
for(\$x=1;\$x<=@p;\$x++){
\$y=\$p[\$x]||0;
if(!defined\$z){
\$l=\$x;
\$z=\$y;
}elsif(\$y!=\$z){
push@n,[\$l,\$z,\$x-1];
\$z=\$y;
\$l=\$x;
}
}
push@n,[\$l,\$z];
}

say Dump \@s, \@p, \@n;

say join', ',map{(\$_->[0],\$_->[1])}@n;
``````

I used YAML to make sure I was getting the right data, and that the different versions worked the same way.

-

Assuming the input:

``````b=[(1,11,5),(2,6,7),(3,13,9),(12,7,16),(14,3,25),(19,18,22),(23,13,29),(24,4,28)]
``````

``````h x=maximum\$0:[y|(l,y,r)<-b,l<=x,x<r]
main=putStr\$unwords[show x++" "++show(h x)|x<-[1..9999],h x/=h(x-1)]
``````

String formatting seems to be where Haskell falls behind the Python solutions. Having to use an extra 5 characters to write 'main=' doesn't help either, but perhaps it shouldn't be included, the C#/Java solutions would be massive if their code had to demonstrate the complete program :)

Haskell: 76 characters (no string formatting & no main)

``````h x=maximum\$0:[y|(l,y,r)<-b,l<=x,x<r]
print[(x,h x)|x<-[1..9999],h x/=h(x-1)]
``````

Looking back at the original problem it requires that you to read the input from a file, so I thought it would be interesting to see how many characters that adds.

``````main=interact f
f i=unwords[show x++" "++show(h x)|x<-[1..9999],h x/=h(x-1)] where
h x=maximum\$0:[y|[l,y,r]<-b,l<=x,x<r]
``````

Below is what the full solution looks like with more descriptive variable names and type signatures where possible.

``````main :: IO ()
main = interact skyline

skyline :: String -> String
skyline input =

unwords [show x ++ " " ++ show (heightAt x) |
x <- [1..9999], heightAt x /= heightAt (x-1)]

where heightAt :: Int -> Int
heightAt x = maximum \$ 0 : [h | [l,h,r] <- buildings, l <= x, x < r]

buildings :: [[Int]]
buildings = map (map read . words) \$ lines input
``````
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Here's my attempt in Perl. 137 characters, of which 33 are dedicated to finding the end of the skyline.

``````@a = ([1,11,5],[2,6,7],[3,13,9],[12,7,16],[14,3,25],[19,18,22],[23,13,29],[24,4,28]);
(\$x)=sort{\$b<=>\$a}map{\$\$_[2]}@a;
for(;\$c<=\$x;\$c++){\$n=0;map{\$n=\$\$_[1]if\$c>=\$\$_[0]&&\$c<\$\$_[2]&&\$n<\$\$_[1]}@a;print"\$c \$n "if\$n!=\$h;\$h=\$n;}
``````
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It's even shorter than mine :P How long did this take you to create? – Brad Gilbert Jul 9 '09 at 22:25
About 30 minutes. – Eric Jul 10 '09 at 7:16

Rereading the UVA rules, we're not limited to a max X of 5000, but rather 5000 buildings. X and Y values up to (and including) 9999 are allowed.

Also, apparently only C, C++, C#, and Java are officially recognized languages, so I did mine up in Java. The numbers are only space separated, but commas could be put back in (at a cost of two more total chars). Totalling 153 chars (excluding the array line):

``````int[][]b=new int[][]{{1,11,5},{2,6,7},{3,13,9},{12,7,16},{14,3,25},{19,18,22},{23,13,29},{24,4,28}};
int[]y=new int[10000];int i;for(int[]o:b)for(i=o[0];i<o[2];y[i]=Math.max(y[i++],o[1]));for(i=0;i<9999;)if(y[i++]!=y[i])System.out.print(i+" "+y[i]+" ");
``````

The logic is pretty straightforward. The only things that make the flow a little wonky are variable reuse and nonstandard placement of post-increment. Generates:

``````1 11 3 13 9 0 12 7 16 3 19 18 22 3 23 13 29 0
``````
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Apart from the challenge.

Is the result set correct? At position 22 the highest point is 18 and at 23 is 13, so 3 is not the highest point.

I also tried to make a php version and it gives me a diferent final vector. It is not optimized for speed.

``````<?php
\$buildings = array(
array(1,11,5),
array(2,6,7),
array(3,13,9),
array(12,7,16),
array(14,3,25),
array(19,18,22),
array(23,13,29),
array(24,4,28)
);

\$preSkyline = array();
for( \$i = 0; \$i<= 30; \$i++){
foreach( \$buildings as \$k => \$building){
if( \$i >= \$building[0] && \$i<= \$building[2]){
\$preSkyline[\$i][\$k] = \$building[1];
} else{
\$preSkyline[\$i][\$k] = 0;
}
}
}
foreach( \$preSkyline as \$s =>\$a){
\$skyline[\$s] = max( \$a );
}
\$finalSkyline = array();
foreach( \$skyline as \$k => \$v){
if( \$v !== \$skyline[ \$k-1]){
\$finalSkyline[\$k] =  \$v;
}
}
echo "<pre>";
print_r( \$finalSkyline );
?>
``````

this returns:

``````Array
(
[0] => 11
[2] => 13
[9] => 0
[11] => 7
[16] => 3
[18] => 18
[22] => 13
[29] => 0
)
``````

which are the inflexion points and the max height.

-

ruby, 80 chars

``````B=[[1,11,5],[2,6,7],[3,13,9],[12,7,16],[14,3,25],[19,18,22],[23,13,29],[24,4,28]]
o=0;1.upto(5001){|x|y=(B.map{|b|x>=b[0]&&x<b[2]&&b[1]||0}.max);o!=(o=y)&&p(x,y)}
``````
-

C

``````int main(int arc, char **argv) {
int B[][3]={{1,11,5},{2,6,7},{3,13,9},{12,7,16},{14,3,25},{19,18,22},{23,13,29},{24,4,28}},o=0,y=0,x=0,blen=8,bs=0,b;
for (;x<9001;x++,o=y,y=0) {
for (b=bs;b<blen;b++) {
if (x >= B[b][0] && x < B[b][2] && B[b][1] > y) y=B[b][1];
if (x > B[b][2]) bs = b;
}
if (y-o) printf("%d %d ", x, y);
}
}
``````
-
``````#include <stdio.h>
#define MAX_B   5000
static unsigned max_y[MAX_B];
main() {
signed i, j;
int max_x = 0, last_new = 0, curr_ht = 0;

for (;!feof(stdin);) {
int l, h, r;
fscanf(stdin, "%d %d %d\n", &l, &h, &r);
if (r > max_x)
max_x = r;
for (i = l; i <= r; i++)
if (max_y[i] < h)
max_y[i] = h;
}
max_x += 2;
for (i = 0; i < max_x; i++) {
j = max_y[i] - last_new;
curr_ht += j;
last_new = max_y[i];
if (j > 0)
printf("%d %d ", i, curr_ht);
if (j < 0)
printf("%d %d ", i - 1, curr_ht);
}
printf("\n");
}
``````

Really straightforward C solution... 540 characters.

-

Even though this is an old post, I thought I'd share my gnu octave implementation in 137 characters:

``````function[p]=sl(b)s=zeros(max(b)(:,2),max(b(:,3)));for i=b's(1:i(2),i(1):i(3)-1)=1;end;t=sum(s);u=find(shift(t,1)~=t);p=[u;t(u)](:)';end;
``````

Pass any size matrix of triples as `b`

-