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I knew a math way was possible. This can also be extended to the dates that are stored in the same fashion:
Given an int value of 99991231:
int year = Math.DivRem(value, 10000, out value);
int month = Math.DivRem(value, 100, out value);
int day = value;
return new DateTime(year, month, day);
would yield a datetime of 12/31/9999.
".45 ACP - because shooting twice is just silly" - JSOP, 2010
- You can never have too much ammo - unless you're swimming, or on fire. - JSOP, 2010
- When you pry the gun from my cold dead hands, be careful - the barrel will be very hot. - JSOP, 2013
modified 5-Oct-17 8:53am.
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As if integer time wasn't bad enough!
We do a lot of work with a Norwegian ERP system that stores dates like that. The UI validates the day and month, but doesn't validate the year. We regularly have to correct user input like 200171005 or 2011130 .
It's also allergic to Null in the database. If a date hasn't been entered, it's stored as 0 .
Fun times.
"These people looked deep within my soul and assigned me a number based on the order in which I joined."
- Homer
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If 235959 represents 23:59:59 and the type is 'int', how would they have a two digit hour for 3 AM?
It seem reasonable that any time represented as a 6 character string without ":" delimiters, when converted to a 'int' would give the appropriate response.
So.. a time of 00:00:01, when stripped of delimiters would give 000001 and converted to an 'int' would give... 1.
So.. outside of the odd data type, what's the issue?
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The issue is that it's an absurd way to represent the time.
They're using an int data type, so the number of seconds past midnight would have made more sense, because it requires the same amount of storage space to store 1 as it does to store 1000.
This means that in order to determine "the time", I had to write a method to parse the value instead of using
TimeSpan span = TimeSpan.FromSeconds(1);
".45 ACP - because shooting twice is just silly" - JSOP, 2010
- You can never have too much ammo - unless you're swimming, or on fire. - JSOP, 2010
- When you pry the gun from my cold dead hands, be careful - the barrel will be very hot. - JSOP, 2013
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I feel your pain. I have spent a considerable amount of time trying to unravel a MySql database that someone else built. Various dates were stored as integers, decimal, string, in fact anything except the obvious DATE!
How do you know if a date value of 1216 represents 1st February 2016, 12th January 2006 or what?
Grrr!
We're philosophical about power outages here. A.C. come, A.C. go.
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It's silly, but I see the logic: it's human readable, as well as easily calculated for matches. "Number of seconds since midnight" is a better solution except for the human readable bit: when is 52642? Can you tell exactly and easily without a calculator? Or is it easier to just look at 143722 and know immediately when it is?
The silliness if you think about it is having 60 seconds to the minute, 60 minutes to the hour, 24 hours to the day - instead of using a minute that was about 50% longer than the current one, made up of 100 (slightly longer) seconds, and having 1000 new-minutes in a day.
We could call it "Stardate" and annoy rabid Trekkies.
Bad command or file name. Bad, bad command! Sit! Stay! Staaaay...
AntiTwitter: @DalekDave is now a follower!
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OriginalGriff wrote: It's silly, but I see the logic
The logic is that you don't invent yet another representation for time values...
Who felt this was necessary?
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I cannot tell you who thought it was necessary, but it is very useful for report builders. You have a stored procedure running daily and you concatenate the numeric date on the end without needing conversions:
MyReportOnFinances_20171005.csv
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OriginalGriff wrote: "Number of seconds since midnight" is a better solution except for the human readable bit:
It's a numeric value in a database - it doesn't have to be human readable as the actual time. It requires parsing to be used, especially if you want to perform math with it (the SQL required to parse this would be a mild nightmare), and almost always when you simply want to display it. I stand by my original claim that it's absurd.
".45 ACP - because shooting twice is just silly" - JSOP, 2010
- You can never have too much ammo - unless you're swimming, or on fire. - JSOP, 2010
- When you pry the gun from my cold dead hands, be careful - the barrel will be very hot. - JSOP, 2013
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Strikes me that this might be a hangover from the days when memory/disk was in short supply and storing an INT took 16 bits, compared with a 6 char string which took 48. If not directly so, then because the programmer who wrote the code had a history of working on such systems...
(First release of SQL Server was 16bit, for OS/2 in 1989 I believe)
There was a time when memory was severely constrained, not to mention thousands and thousands of times more expensive than it is now, and likewise processor/disk speed was much slower, so this kind of approach was needed.
It's only recently that we have got used to a web page running in a browser using more computing power than an entire organisation once possessed to simply display an annoying pop-up ad with sound and video.
8)
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But no of secs in a day = 86400 (17 bits if signed int, 16 bits if unsigned int)
However, 235959 needs 18 bits if signed int or 17 bits if unsigned int
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You are right, of course. I don't know how things were/are stored internally in SQL Server, but even in 16 bit stuff you could usually store 32bit INTs, which is still smaller than the 48bits needed for "235959". You could usually manipulate DWORDS (32 bits) with single machine instructions, where as to manipulate "235959" would require a whole subroutine. Hence my comment.
These days no-one thinks twice (or even once) about using a few megabytes of inefficient code to splurge something onto your browser window, but I suspect in the highly competitive world of high-end/large/NoSQL database implementations where speed is often of the essence, such apparently strange optimisations are still being used.
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Mike Winiberg wrote: You are right, of course. I don't know how things were/are stored internally in SQL Server, but even in 16 bit stuff you could usually store 32bit INTs, which is still smaller than the 48bits needed for "235959".
You would only need 48bits if you were storing as text. 2,147,483,647 can be stored in a signed 32bit INT.
Michael Martin
Australia
"I controlled my laughter and simple said "No,I am very busy,so I can't write any code for you". The moment they heard this all the smiling face turned into a sad looking face and one of them farted. So I had to leave the place as soon as possible."
- Mr.Prakash One Fine Saturday. 24/04/2004
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Reminds me of an old SNL sketch about new metric time.
100 (current duration) seconds in a metric minute.
100 metric minutes in a metric hour.
100 metric hours in a metric day.
Quote: The Metric Leisure Week will be composed of three days. Yes, only three days. Monday, Tuesday and Wednesday will become one day known as Mwensday or in decabet: Mwen. Thursday, Friday and Saturday will become Saturthurs, or in decabet: Turth. And Sunday, our traditional day of rest, will remain Sunday. Three days: Mwen, Thurth and Sunday.
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OriginalGriff wrote: The silliness if you think about it is having 60 seconds to the minute, 60 minutes to the hour, 24 hours to the day - instead of using a minute that was about 50% longer than the current one, made up of 100 (slightly longer) seconds, and having 1000 new-minutes in a day.
There is a rationale behind using 24 / 60 / 60. It's the same as the one with 360 degrees instead 100.
60 and 24 (and by extension 3600 is easier to divide than 100.
12 and 24 are easier to divide than 10 or 20, and 60 is easier to divide than 100.
You can divide 10 by 1, 2, 5, 10
You can divide 12 by 1, 2, 3, 4, 6, 12
You can divide 20 by 1, 2, 4, 5, 10, 20
You can divide 24 by 1, 2, 3, 4, 6, 8, 12, 24
You can divide 60 by 1, 2, 3, 4, 5, 6, 10, 12, 15, 20, 30, 60 without running into decimal places
You can divide 100 by 1, 2, 4, 5, 10, 20, 25, 50, 100 without running into decimal places
The most important ones of these is probably to be able to divide by 2, 3 and 4 without having a remainder.
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You would also have to rewrite every table of physical constants. If you think the confusion between Imperial and Metric units is bad, just wait until "new metric" is added.
OTOH, if the Metro supermarket chain doesn't object, perhaps we could call it that...
If you have an important point to make, don't try to be subtle or clever. Use a pile driver. Hit the point once. Then come back and hit it again. Then hit it a third time - a tremendous whack.
--Winston Churchill
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haha, At the company I work for, we have several systems that use delivery dates as primary keys/foreign keys. So we decided on using ints for this as well.
Today is the integer value 20171004
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May be they were just trying to avoid a couple of mod operations.
I am not the one who knocks. I never knock.
In fact, I hate knocking.
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If you hadn't mentioned SQL (obligatory Geek & Poke: Simply exåøaomed: SQL[^] I would have understood your worries.
Historically, databases (and Cobol ) primary belongs in the domain of administration, management and economy. You work with dollars and cents, maybe tenth of a cent as well, but that is exact. If you split a bill of $3.30 on three persons, $1.10 on each, and collect the three $3.30 for giving it to the taxi driver, he receives exactly $3.30. If you do it in the engineering style floating point numbers, the amount that the taxi driver rececives makes you associate to Pentium FDIV bug - Wikipedia[^]. Accountants are as mad at floating point inexactness as engineers are at the Intel bug!
So, at least since around 1960, developers of business software (as well as computer manufacturers making machines for executing that software) have been storing values in Binary-coded decimal[^] (BCD) format: Each binary digit takes up 4 bits. Since this gives 16 possibilities, the excess six are usually defined to represent numeric sign (+/-), currency symbol etc.
Note that conversion from ASCII to BCD digits is a simple masking (AND) operation, from BCD to ASCII setting a couple bits (OR). Most machines/libraries can handle BCD both eight bits to the digit (after simple ASCII masking) and four bits to the digit (sometimes called 'packed BCD'), for space saving.
Several CPU architectures support arithmetic operations on BCD values - although some not fully: I was working with a machine that had hardware (well, actually it was microcoded) add, subtract, and multiply of BCD. Dynamic analysis of real-life Cobol applications showed that BCD division was almost never done. The cost of implementing BCD divide in hardware was too high to justify it, so the instruction code was defined, causing an "Unimplemented instruction code" interrupt, and an interrupt handler performed the operation in software. (Very slow, but noone ever complained about that since 'nobody' ever did BCD divide.)
If your CPU does not provide BCD instructions, but you want to offer a Cobol compiler to your customers, you must implement BCD in software, for two reasons: Numeric data types are defined by the number of decimal digits, and that is exact, not "at least". If you have defined a 6-digit decimal, attempting to store a value of one million shall cause an exception. Second: You shall have an exact representation of fractional values - adding five times 20 cents shall give exactly one dollar.
I would not be suprised if those values you have come across is internally stored as BCD, being converted to binary int only because you insisted on it, requesting an int format. It is like converting BCD digits to ASCII digits - it is for presentation, not for processing. If your programming language doesn't support BCD, that binary format is what makes presentation easiest. If you need to do heavy processing, you can write the conversion to linear seconds in a single line numeric expression.
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I worked on a system where date was stored as
(year << 16) | (month << 8) | (day-of-month)
When looking at the raw data, we used hex.
07E10A05 (07E1-0A-05) would be today's date: 2017-10-05.
Sorted correctly in the indexes and was very easy to interpret for month and day.
I am sure that the implementer of the SQL field was trying to make it user friendly for display.
I guess it HAS to be interpreted based on the local system/DB time zone.
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Santa is magic, that can't be the end of him.
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Few more days before Christmas, this reminds me of your post.
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I didn't know that they had Coke way back then.
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