# Generating a linear, timeline-based, representation from items that consume time and items which do not, but still need space to be drawn on

This is a question about generating an image, or any other representations, for a set of parallel data. Is is not about drawing or GUI programming but calculating positions. First I'll explain a bit where I stand right now and the second image and example shows my problem.

# Current Status

exampleOne-Easy http://www.wargsang.de/text3935.png

I have one-dimensional objects but they are aligned by placing them on parallel "lines". Let's call this one-dimensional objects "events" which have a "Duration" as a unit of time. These events have a variant where nothing happens, objects with no data but a duration; A "gap"-object.

So we get a timetable with simulatanious objects consisting of events and gaps, which is pretty easy to handle as three lists of objects. The visualization is simple as well: Loop over the lists and draw each object according to its duration.

class Event():
def __init__(self, duration, displacement = 0):  #displacement is explained in the second example and the core problem of this question
self.duration = duration
self.displacement = displacement

def self.draw(self, start_coordinate):
"""draw duration * 10 pixels in black"""
#drawing code using start_coordinate to place the drawn object. see example graphic
return duration * 10

class Gap():
def __init__(self, duration, displacement = 0):
self.duration = duration
self.displacement = displacement
#no data

def self.draw(self, start_coordinate):
"""draw duration * 10 pixels in transparent"""
#drawing code using start_coordinate to place the drawn object. see example graphic
return duration * 10

row_one = [Event(1), Gap(1), Event(1), Gap(1), Event(1), Gap(1), Event(2)]
row_two = [Event(1), Gap(2), Event(1), Event(1), Gap(1), Event(1), Gap(1), ]
row_thr = [Gap(1), Event(1), Gap(1), Event(1), Gap(1), Event(3),]

timetable = [row_one, row_two, row_thr]

for row in timetable:
pixelcounter = 0 # the current position.
for item in row:
ret = item.draw(pixelcounter) #draw on the current position. Get how width the item was
pixelcounter += ret #save width for the next iteration
#instructions to move the "drawing cursor" down a few pixels so the next row does not overlap.


# The Problem

Now to the problem. There are objects which need a graphical space but have zero duration. I call this "Displacement".

exampleTwo-Problematic http://www.wargsang.de/text4120.png

Or we need objects which have duration but also have displacement. This is still not a problem when we only have a single row, but synchronizing the rows is more complex and I don't have a solution for this.

In the picture above the red blocks have zero duration and are displaced. Blue blocks have duration and are displaced, too.

Example: *Imagine a timetable for a conference with different speaker slots each hour (our duration-slots). Each row represents a different conference-room.

• The black blocks are speeches and maybe have a short topic written within them (graphically).

• Blue blocks are speeches, too, but the topic was too long to write so we need more space once.

• Red are notes like a room-number change. They don't take time of their own but relate to all items which come after them.*

The task is to find a way to calulate the pixelcounter from the function above so that it is correct for each row alone but also that displacement in one row affects all other rows and creates additional space there. The goal is that durations are fixed and aligned in each row. Any event or gap that should start on, for example, unit-count 4, should begin at the same absolute position.

This means that any zero-duration/displacement object starts at a real point in time/duration but does not consume any time/duration itself so that all subsequent items start on the very same duration until the next real duration event is included. From another point of view that also means that zero-duration items start always before the events which have duration.

In the picture we can see a rather simple case in column 2, which also means this starts the second duration slot. Eventhough there are three real events in that column that are shifted to the right because a displace item is there. Column 4 has a duration item which has displacement as well. Again, All items that start in slot 5 are shifted to the right. Colum 6 is the most interesting and my real problem, I can't find a solution here. Again, all real events in column 6 are shifted to the right and still start at the same time. But here we have a)Displacement-Objects in two rows and two b) two objects right behind each other. So it is important for the real events to know the complete displacement but also important for the second object in the third row to know that there is one more displacement item before it.

Warning: The graphical representation may suggest a table-based approach where each column has an individual width. But this is where this example ends. The real application deals with common duration of 300-10,000 per event but durations of 1 are unlikely but technically possible. So the table would have a column-width of one duration. Considering we got into the hundred thousands of complete duration (times the number of rows) this may drag down the performance.

The data of this picture would look like this. How can I draw the second image with this data? Or what needs to be changed, I am open for all suggestions.

Thank you very much for your time and interest. If you don't know a solution please don't hesitate to ask me questions or show me flaws of my concept, it will help me think as well.

row_one = [ Event(1), #1
Event(0,1), Event(1), #2
Gap(1), #3
Event(1), #4
Gap(1), #5
Event(0,1), Event(1), #6
Event(1), #7
]
row_two = [ Event(1), #1
Event(1), #2
Gap(1), #3
Event(1, 0.5), #4, 0,5 is not important. we can also simply to just ints. The important bit is that it has both values.
Event(1), #5
Event(1), #6
Event(1), #7
]
row_thr = [ Event(1), #1
Event(1), #2
Event(1), #3
Event(1), #4
Event(1), #5
Event(0,1), Event(0,1), Event(1), #6   #Please pay attention to this case.
Event(1), #7
]

• Well, first of all, are you sure you do have to have space for them? You can draw them differently, instead of time-bars having some other ways of displaying them. – Lennart Regebro Dec 9 '11 at 8:12
• Sadly, yes, I need them all on one row. – nilshi Dec 9 '11 at 11:40
• Given all the objects with a row number, a graphical width and time width: you'll need to find the graphical positions for each object, such that all rows fit graphically(no overlaps) and all same start times start at the same graphical position. Is that correct? – Ishtar Dec 9 '11 at 12:17
• @Ishtar: That is completely correct. – nilshi Dec 9 '11 at 13:10
• I'd draw each line separately, and draw each line from left to right, and I'd draw each even from the end position of the previous event, to where the current event should end. The end position of the current event would be calculated from when the event actually ends, but with a minimum width, to show events without duration. That way the spacing of the main grid is kept constant, which simplifies the problem. (Unless you use HTML and CSS where the browser can be made to space things for you). – Lennart Regebro Dec 9 '11 at 13:59

I'm not completely sure, but I think what you want is:

• displacements on different rows that have the same starting time are synchronized, i.e. have the same horizontal position (the first displacement on each row is synchronized with the first displacements on other rows)
• "real" events and gaps that have the same starting time are synchronized, and come after the displacements with the same starting time
• the width of an event depends on its duration (and possibly its displacement), but not on displacements on other rows, i.e. the ending times are not synchronized

If you want ending times to be synchronized, you'd have to explain how; but I see no obvious way.

Then you get the following solution for your original problem (capitals = events, lowercase letters = displacements, dots = gaps, space = "waiting for synchronization", numbers are starting times of events):

0 123 4  567
AbC.D .e FG
A B.CcD  EF
A BCD EfgHI


You can see that ending times are not synchronized in the following example:

0  12
AAa
Aa B
AaaB


And a larger random example:

                         11    11  1 1     1     1  1   1  22 22   2     2  22  22   33    333    3  3  3 3   3 4   44444  4   4   4  45
01 2 34   5678    9  01    23  4 5     6     7  8   9  01 23   4     5  67  89   01    234    5  6  7 8   9 0   12345  6   7   8  90
AAAA  BB   CCC  dd..  EEe   Fff..      GGGGGg           ....         ...    HHH   ....        IIii  JJJ     ...   KKK  LLLLl
abbbCCC  DDDDDdd ..      EEEEE       Fff   GGG          HHH   IIIii      JJJjj  KKKK       LLLl   Mno.  PPP    qR   SSSSSs TT   uuuVV
...  AAAAA   BBB      CC    DDDD             ...       EE FFFF          GHhhIIII       JJ.    K  Lll.m....       NNNO  ....
......     AAAA      ..    ....        BBB          CCCCCc     DDDDDd        Ee  FFFFff  G hhhIIIII         JJJ   KLLLLLll        M
.. AAA    BBBCcc  DD  EE    ..   FFF           gH   IIIIIi     J     KKk LL  MMMMM       NNNNNn           OOo   PPQQQQ  rrr...
AAAAa .   BBBBbb  CCCCC        DDDDDd            eeeFFFFF      GG       HH  .....       IIIII         JJ    K   LM.NNNNN          .
AAAaaBBB   CCCcc  DDDDDdd      EeFF          ...       GGgHHHH          III  JJJJ       KKK    llMMMm  nnnOOOO    PPPp ...        Q
AAAAA     BBBBB      CCCC      .....                DDD   EEEEE          FFFff   ....    GGGG         HHHHhh     II....     j  .  .
AAAaa..   BBBBbb  CccDDDDD       ....               EEE   .F   GgghhhII  Jj KKKK       ...    ...     LLll  ...   MMMM     N   OooP
....  Aa  ..BCCC      .....            DDD          EEEe  FFf  .....         GGGG       HIIIIIii          . JJ   ....  KKk     LL
AAAAAa  bbC.....      DDDDD            ....          eeFFFFff  GGGGG         ...    hh IIJJJ        KKK     L   MMMMMmmNNNN
..aBBB    CCCCc   .....        .....                ...   D.   E     FFFFFff   ggHHhiiiJKKKk     LLLLL       mmmNNNOP  Q   RRR
AA BbCCCC   DD    Ee FFFFFff     GGGGG                 HH IIIi       JjjK..  LLLll     MMMMmm    ....       .   NNNOOOOOoo        P
AB CCCCC    .....        ddEEEE     fffGgg   HHHHHhh      II jjKKKK         LLLL       MMMM    nn..   OO    PPPPPpp QQQQQqq
AAA  BBB   CCCC      DDdd  EE  FFF        gggHh IIIii   JJJJ         K  LLLLl    MMm   NNOOOO         .   PP    .QQQRRRRR


And now the code (sorry it's so long, look at Timetable.__init__ for the interesting part, the rest is mostly pretty printing).

from heapq import merge
from itertools import groupby, cycle, chain
from collections import defaultdict
from operator import attrgetter
from string import ascii_uppercase

# events are processed in this order:
# increasing start time, displacements (duration=0) first, and grouped by row_id
ev_sort_attrs = attrgetter("time", "duration", "row_id")

class Event:

def __init__(self, duration, displacement=0, visible=True, time=None, row_id=None):
self.duration = duration
self.displacement = displacement
self.visible = visible
self.time = time
self.row_id = row_id
self.pos = None

def draw(self, char):
return char * self.duration + char.lower() * self.displacement

def __lt__(self, other):
return ev_sort_attrs(self) < ev_sort_attrs(other)

def Gap(duration):
return Event(duration, visible=False)

class Timetable(list):
def __init__(self, *args):
""" compute positions for a list of rows of events """
list.__init__(self, *args)

# compute times for the events, and give them row_ids
for i, row in enumerate(self):
t = 0
for ev in row:
ev.time = t
t += ev.duration
ev.row_id = i

# map times to position for displacements and event
t2pos_disp = defaultdict(int) # maps times to position of synchronized start of displacements
t2pos_ev = defaultdict(int) # maps times to position of synchronized start of events and gaps

# the real work is done in the following loop
t_prev = 0
for t, g in groupby(merge(*self), key=attrgetter("time")):

# different times should have a minimum distance corresponding to their difference
t2pos_ev[t] = t2pos_disp[t] = max(t2pos_ev[t], t2pos_ev[t_prev] + t - t_prev)
t_prev = t

for (duration, row_id), g_row in groupby(g, key=attrgetter("duration", "row_id")): # process all displacements first, then the events
pos_ev = t2pos_ev[t] if duration > 0 else t2pos_disp[t] # events and displacements start at different
for ev in g_row:
ev.pos = pos_ev
pos_ev += ev.duration + ev.displacement
t2pos_ev[t + ev.duration] = max(t2pos_ev[t + ev.duration], pos_ev)

# keep our results...
self.t2pos_ev = t2pos_ev
self.t2pos_disp = t2pos_disp

@staticmethod
def str_row(row):
""" draw row, uppercase letters for real events, lower case letters for
displacements, dots for gaps"""

ev_chars = cycle(ascii_uppercase)
out = []
l = 0
for ev in row:
if ev.pos > l:
out.append(" " * (ev.pos - l))
out.append(ev.draw(next(ev_chars) if ev.visible else "."))
l = ev.pos + len(out[-1])
return "".join(out)

def __str__(self):
max_t, max_p = max(self.t2pos_ev.items())
w = len(str(max_t))
header_temp = [" " * w] * (max_p + 1)
for t, p in self.t2pos_ev.items():
header_temp[p] = "%*d" % (w, t)

rows = (self.str_row(row) for row in self)

if __name__ == "__main__":
# original example
row_one = [Event(1), Event(0,1), Event(1), Gap(1), Event(1), Gap(1), Event(0,1), Event(1), Event(1)]
row_two = [Event(1), Event(1), Gap(1), Event(1, 1), Event(1), Event(1), Event(1)]
row_thr = [Event(1), Event(1), Event(1), Event(1), Event(1), Event(0,1), Event(0,1), Event(1), Event(1)]

timetable = Timetable([row_one, row_two, row_thr])
print(timetable)

print("-" * 80)

# short example, shows ending times are not synchronized
print(Timetable([[Event(2, 1)], [Event(1, 1), Event(1)], [Event(1, 2), Event(1)]]))

print("-" * 80)

# larger random example
def random_row(l):
import random
res = []
t = 0
while t < l:
x = random.random()
if x < 0.1: res.append(Event(0, random.randint(1, 3)))
elif x < 0.8: res.append(Event(min(random.randint(1, 5), l - t), random.randint(0, 1) * random.randint(0, 2)))
else: res.append(Gap(min(random.randint(1, 5), l - t)))
t += res[-1].duration
return res

print(Timetable([random_row(50) for _ in range(15)]))


You need a function to map your time to the x coordinate. The hard part is, you sometimes need more space at a moment. This can be solved with a list of objects, saying when and how much extra space is needed.

function timeToLocation(t)
location = t * scale
for (o : extraSpaceList)
if o.when < t
location = location + o.space
return location


Whenever you try to place an object, and notice there isn't enough room (because the elements overlap), simply insert some more space at the desired moment, extraSpaceList.add({when=2s,space=4pixels}). Process all the rows one by one, and then all of them again for the final location.

This is easier if you transform your objects to have a start time and graphical size. Then there's no difference between Gap and Event.

If I understand your question ...

For each column, keep track of the maximum width of the rows' zero-duration boxes as you're doing an initial processing of each row. When you finally draw each real event, it starts at the end of the max width value for its column. (I'm assuming you're already calculating where the start of the column is.)

In your colorful graph above, processing row 1 would give you maximum zero-duration widths of (for example) [0, 10, 0, 0, 0, 10, 0]. Row 2 would not change it. Row 3 would change it to [0, 10, 0, 0, 0, 20, 0].

When you draw a real event, it will start at its column_start + column max-zero-duration-width.

I see a couple problems with your Event code as it stands: 1) there is no way to tell how much space to allocate for displacement, whether the event is zero duration or not; 2) if you have (say in row four) an event that takes 3 units and starts at 5, it will be entirely drawn in the 5 and 6 slots without ever getting to 7.

I suspect you will need to something like:

class Event(object):
def __init__(self, duration, displacement=0):
self.duration = duration
self.displacement = displacement
self.width = max(STANDARD_WIDTH, duration+displacement)