Units | JavaScript library for converting CSS units
kandi X-RAY | Units Summary
kandi X-RAY | Units Summary
Units is a JavaScript library for converting between angle and length units. Both are intended for use within other libraries that need to convert between acceptable CSS units when creating polyfills. Using these unit conversions allows a library to support all valid CSS units easily.
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Top functions reviewed by kandi - BETA
- Get the CSS value of an element .
- Convert value to px .
- Get a CSS style property value
- Parse CSS style value
Units Key Features
Units Examples and Code Snippets
Community Discussions
Trending Discussions on Units
QUESTION
I run sample JHM benchmark which suppose to show dead code elimination. Code is rewritten for conciseness from jhm github sample.
...ANSWER
Answered 2022-Feb-09 at 17:17Those samples depend on JDK internals.
Looks like since JDK 9 and JDK-8152907, Math.log
is no longer intrinsified into C2 intermediate representation. Instead, a direct call to a quick LIBM-backed stub is made. This is usually faster for the code that actually uses the result. Notice how measureCorrect
is faster in JDK 17 output in your case.
But for JMH samples, it limits the the compiler optimizations around the Math.log
, and dead code / folding samples do not work properly. The fix it to make samples that do not rely on JDK internals without a good reason, and instead use a custom written payload.
This is being done in JMH here:
QUESTION
Looking into UTF8 decoding performance, I noticed the performance of protobuf's UnsafeProcessor::decodeUtf8
is better than String(byte[] bytes, int offset, int length, Charset charset)
for the following non ascii string: "Quizdeltagerne spiste jordbær med flØde, mens cirkusklovnen"
.
I tried to figure out why, so I copied the relevant code in String
and replaced the array accesses with unsafe array accesses, same as UnsafeProcessor::decodeUtf8
.
Here are the JMH benchmark results:
ANSWER
Answered 2022-Jan-12 at 09:52To measure the branch you are interested in and particularly the scenario when while
loop becomes hot, I've used the following benchmark:
QUESTION
(Note! This question particularly covers the state of C++14, before the introduction of inline variables in C++17)
TLDR; Question- What constitutes odr-use of a constexpr variable used in the definition of an inline function, such that multiple definitions of the function violates [basic.def.odr]/6?
(... likely [basic.def.odr]/3; but could this silently introduce UB in a program as soon as, say, the address of such a constexpr variable is taken in the context of the inline function's definition?)
TLDR example: does a program where doMath()
defined as follows:
ANSWER
Answered 2021-Sep-08 at 16:34In the OP's example with std::max
, an ODR violation does indeed occur, and the program is ill-formed NDR. To avoid this issue, you might consider one of the following fixes:
- give the
doMath
function internal linkage, or - move the declaration of
kTwo
insidedoMath
A variable that is used by an expression is considered to be odr-used unless there is a certain kind of simple proof that the reference to the variable can be replaced by the compile-time constant value of the variable without changing the result of the expression. If such a simple proof exists, then the standard requires the compiler perform such a replacement; consequently the variable is not odr-used (in particular, it does not require a definition, and the issue described by the OP would be avoided because none of the translation units in which doMath
is defined would actually reference a definition of kTwo
). If the expression is too complicated, however, then all bets are off. The compiler might still replace the variable with its value, in which case the program may work as you expect; or the program may exhibit bugs or crash. That's the reality with IFNDR programs.
The case where the variable is immediately passed by reference to a function, with the reference binding directly, is one common case where the variable is used in a way that is too complicated and the compiler is not required to determine whether or not it may be replaced by its compile-time constant value. This is because doing so would necessarily require inspecting the definition of the function (such as std::max
in this example).
You can "help" the compiler by writing int(kTwo)
and using that as the argument to std::max
as opposed to kTwo
itself; this prevents an odr-use since the lvalue-to-rvalue conversion is now immediately applied prior to calling the function. I don't think this is a great solution (I recommend one of the two solutions that I previously mentioned) but it has its uses (GoogleTest uses this in order to avoid introducing odr-uses in statements like EXPECT_EQ(2, kTwo)
).
If you want to know more about how to understand the precise definition of odr-use, involving "potential results of an expression e...", that would be best addressed with a separate question.
QUESTION
I've got data with time (seconds) on the x axis and intensity (in relative fluorescent units, or rfu) on the y-axis. It's generated by watching fragments of DNA pass a camera - the bigger the DNA fragment the bigger the time. There are 23 fragments of known size (in DNA base pair units, bp), and therefore there should be 23 peaks. As I know the size of the DNA fragments in bp, I want to recalibrate the x-axis from time (seconds) to base pairs (bp) using a linear model.
Unfortunately there is quite a lot of noise in the data that produces spurious peaks. The only way to confidently tell the true ones from the false ones is that the false ones don't fit the expected pattern in DNA base pairs.
I've provided data from one sample at this link in a data frame called demo. Unfortunately it's too large to paste below.
https://1drv.ms/t/s!AvBi5ipmBYfrhf0v_kvWuN2foLyBgg?e=RWfdXZ
I can pick out all the peaks as follows.
...ANSWER
Answered 2022-Jan-04 at 18:39Before plotting, doing some data manipulation to pull out the maximum value for each of the 23 DNA fragment groups with base R max
function, and adding the max plot with additional geom_ layer for the max values.
Here is small reprex example that plots the max value for each group with "red".
QUESTION
I borrowed the R code from the link and produced the following graph:
Using the same idea, I tried with my data as follows:
...ANSWER
Answered 2021-Dec-27 at 22:55You can do calculations within a function for the x and y values to construct the ggplot
which extends the circle all the way round and gives labels correct heights.
I've adapted a function to work with other datasets. This takes a dataset in a tidy format, with:
- a 'year' column
- one row per 'event'
- a grouping variable (such as country)
I've used Nobel laurate data from here as an example dataset to show the function in practice. Data setup:
QUESTION
(Disclaimer: I'm not 100% sure how codatatype works, especially when not referring to terminal algebras).
Consider the "category of types", something like Hask but with whatever adjustment that fits the discussion. Within such a category, it is said that (1) the initial algebras define datatypes, and (2) terminal algebras define codatatypes.
I'm struggling to convince myself of (2).
Consider the functor T(t) = 1 + a * t
. I agree that the initial T
-algebra is well-defined and indeed defines [a]
, the list of a
. By definition, the initial T
-algebra is a type X
together with a function f :: 1+a*X -> X
, such that for any other type Y
and function g :: 1+a*Y -> Y
, there is exactly one function m :: X -> Y
such that m . f = g . T(m)
(where .
denotes the function combination operator as in Haskell). With f
interpreted as the list constructor(s), g
the initial value and the step function, and T(m)
the recursion operation, the equation essentially asserts the unique existance of the function m
given any initial value and any step function defined in g
, which necessitates an underlying well-behaved fold
together with the underlying type, the list of a
.
For example, g :: Unit + (a, Nat) -> Nat
could be () -> 0 | (_,n) -> n+1
, in which case m
defines the length function, or g
could be () -> 0 | (_,n) -> 0
, then m
defines a constant zero function. An important fact here is that, for whatever g
, m
can always be uniquely defined, just as fold
does not impose any contraint on its arguments and always produce a unique well-defined result.
This does not seem to hold for terminal algebras.
Consider the same functor T
defined above. The definition of the terminal T
-algebra is the same as the initial one, except that m
is now of type X -> Y
and the equation now becomes m . g = f . T(m)
. It is said that this should define a potentially infinite list.
I agree that this is sometimes true. For example, when g :: Unit + (Unit, Int) -> Int
is defined as () -> 0 | (_,n) -> n+1
like before, m
then behaves such that m(0) = ()
and m(n+1) = Cons () m(n)
. For non-negative n
, m(n)
should be a finite list of units. For any negative n
, m(n)
should be of infinite length. It can be verified that the equation above holds for such g
and m
.
With any of the two following modified definition of g
, however, I don't see any well-defined m
anymore.
First, when g
is again () -> 0 | (_,n) -> n+1
but is of type g :: Unit + (Bool, Int) -> Int
, m
must satisfy that m(g((b,i))) = Cons b m(g(i))
, which means that the result depends on b
. But this is impossible, because m(g((b,i)))
is really just m(i+1)
which has no mentioning of b
whatsoever, so the equation is not well-defined.
Second, when g
is again of type g :: Unit + (Unit, Int) -> Int
but is defined as the constant zero function g _ = 0
, m
must satisfy that m(g(())) = Nil
and m(g(((),i))) = Cons () m(g(i))
, which are contradictory because their left hand sides are the same, both being m(0)
, while the right hand sides are never the same.
In summary, there are T
-algebras that have no morphism into the supposed terminal T
-algebra, which implies that the terminal T
-algebra does not exist. The theoretical modeling of the codatatype Stream (or infinite list), if any, cannot be based on the nonexistant terminal algebra of the functor T(t) = 1 + a * t
.
Many thanks to any hint of any flaw in the story above.
...ANSWER
Answered 2021-Nov-26 at 19:57(2) terminal algebras define codatatypes.
This is not right, codatatypes are terminal coalgebras. For your T
functor, a coalgebra is a type x
together with f :: x -> T x
. A T
-coalgebra morphism between (x1, f1)
and (x2, f2)
is a g :: x1 -> x2
such that fmap g . f1 = f2 . g
. Using this definition, the terminal T
-algebra defines the possibly infinite lists (so-called "colists"), and the terminality is witnessed by the unfold
function:
QUESTION
The undesired functionality
In Chrome 95 there was introduced new functionality where the user can hover and click on the unit part of a css value to hotswap the unit.
The feature is part of a package solution that has been labeled "Length Authoring Tools" in the release notes, and can be seen in action and described in detail in the release notes on the official blog.
How can this feature be disabled?
Issue 1:
If a css-line in the inspector says padding: 0 10px;
then the user can click the px
-part of the line and open a selector that let's the user swap px
to other units such as rem
,vmax
or in
.
Clicking this part of the value no longer lets the user edit the entire value quickly. Most users already know what unit they desire to use beforehand, so they do not need to be helped to accidentally select pt
or vw
when working exclusively with px
everywhere else.
Issue 2:
When selecting and copying properties from the inspector there is now inserted whitespaces/new lines between the value and the unit since the unit portion seems to be considered a separate element. This makes prototyping in the devtools and copy/pasting to external documents very tedious and broken.
ANSWER
Answered 2021-Nov-18 at 14:28Updated answer 2021-11-16:
The following is mentioned in the official release notes for Chrome 96.
To disable Length Authoring Tools, navigate to this location in the DevTools and uncheck the checkbox:
Settings > Experiments > Enable CSS length authoring tools in the Styles pane.
But... The main issues regarding Length Authoring Tools have also been fully remedied in Chrome 96.
The initial incentive to disable these tools has been greatly diminished because of this.
A chevron will now appear to the right of the hovered value instead of reacting to clicks to the entire unit portion of it.
Copy paste now also works as intended.
Conclusion:
It is now possible to disable the Length Authoring Tools, but you might no longer need to.
Old answer:
You can't. (Though fixes are coming!)It is not possible to toggle this feature in the current live stable release ( Chrome 95.0.4638.69 ).
Fixes have been added to Chromium ( [1], [2], [3] ) that are slowly making their way to the stable release of Chrome.
But help is on its way...
Chrome 96 is scheduled to be released on November 16 2021 (source), or ~3 weeks after October 28 according to this official tweet. It will at least contain a revert to free text editing of css properties (source). Hopefully version 96 will address the issue completely, but if it doesn't then the next major release is scheduled for January 4 2021 (If this issue is unresolved by then somebody at Google should be fired).
As for now, Chrome Canary seems to have these fixes implemented and might be considered an alternative solution to the issue if you find the current state of Length Authoring Tools unbearable.
Please be advised that Chrome Canary can be quite unstable.
This question and answer will be edited and corrected once there are real fixes in the live stable version.
QUESTION
I have downloaded a list of all the towns and cities etc in the US from the census bureau. Here is a random sample:
...ANSWER
Answered 2021-Nov-12 at 22:48I have such a solution. And I'm surprised myself that I used two loops for
!! Incredibly, I did it. First things first.
My proposal is based on a simplification. However, the mistake you will make at short distances will be relatively small. But the time gain is huge!
Well, I propose to count the distance in Cartesian coordinates, not spherical.
So we're going to need a simple function that computes the Cartesian coordinates based on the two arguments latitude
and longitude
.
Here is our LatLong2Cart
feature.
QUESTION
Consider a program with the following two translation units:
...ANSWER
Answered 2021-Oct-26 at 07:51This program is well-formed and prints 1, as seen. Because S
is defined identically in both translation units with external linkage, it is as if there is one definition of S
([basic.def.odr]/14) and thus only one enumeration type is defined. (In practice it is mangled based on the name S
or S::x
.)
This is just the same phenomenon as static local variables and lambdas being shared among the definitions of an inline function:
QUESTION
I am working with OSM data to create vector street maps. For the roads, I use line geometry provided by OSM and add a buffer to convert the line to geometry that looks like a road.
My question is related to geometry, not OSM, so I will use basic lines for simplicity.
...ANSWER
Answered 2021-Oct-16 at 14:36You can buffer the lines and then negative buffer that result:
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