imagine | Imagine Image Manipulation Wrapper for Laravel | File Upload library
kandi X-RAY | imagine Summary
kandi X-RAY | imagine Summary
Imagine (Wrapper) Component for Laravel.
Support
Quality
Security
License
Reuse
Top functions reviewed by kandi - BETA
- Register the core container aliases .
- Get filtered options .
- Bootstrap the application .
- Handle image manipulation .
- Handle image manipulation .
- Returns default options .
- Get the facade accessor .
- Create gmagick driver .
- Create an instance of Imagick driver .
imagine Key Features
imagine Examples and Code Snippets
def decrypt_caesar_with_chi_squared(
ciphertext: str,
cipher_alphabet: list[str] | None = None,
frequencies_dict: dict[str, float] | None = None,
case_sensitive: bool = False,
) -> tuple[int, float, str]:
"""
Basic Usage
def calculate_prob(text: str) -> None:
"""
This method takes path and two dict as argument
and than calculates entropy of them.
:param dict:
:param dict:
:return: Prints
1) Entropy of information based on 1 alphabet
Community Discussions
Trending Discussions on imagine
QUESTION
I recently did a global install of create-react-app and am having an issue where sometimes, when I'm working on a project, instead of editing directly what I have rendered in , it creates this container around the entire app.
Upon further inspection it looks like it is an which is rendered in the browswer as this:
...ANSWER
Answered 2022-Jan-21 at 21:43So after MUCH research and testing, I finally figured this out and I hope it can save anyone in the same situation I was in 😊
I have found two solutions that can solve this, one with a .env
file that sometimes works, and the other solution is with css
that I want to say always will solve this issue.
In the root folder level (the same level as the .gitignore, package.json, README.md, yarn.lock, /src), create a .env
file and include the following in it:
QUESTION
Suppose that I have implemented two Python types using the C extension API and that the types are identical (same data layouts/C struct
) with the exception of their names and a few methods. Assuming that all methods respect the data layout, can you safely change the type of an object from one of these types into the other in a C function?
Notably, as of Python 3.9, there appears to be a function Py_SET_TYPE
, but the documentation is not clear as to whether/when this is safe to do. I'm interested in knowing both how to use this function safely and whether types can be safely changed prior to version 3.9.
I'm writing a Python C extension to implement a Persistent Hash Array Mapped Trie (PHAMT); in case it's useful, the source code is here (as of writing, it is at this commit). A feature I would like to add is the ability to create a Transient Hash Array Mapped Trie (THAMT) from a PHAMT. THAMTs can be created from PHAMTs in O(1)
time and can be mutated in-place efficiently. Critically, THAMTs have the exact same underlying C data-structure as PHAMTs—the only real difference between a PHAMT and a THAMT is a few methods encapsulated by their Python types. This common structure allows one to very efficiently turn a THAMT back into a PHAMT once one has finished performing a set of edits. (This pattern typically reduces the number of memory allocations when performing a large number of updates to a PHAMT).
A very convenient way to implement the conversion from THAMT to PHAMT would be to simply change the type pointers of the THAMT objects from the THAMT type to the PHAMT type. I am confident that I can write code that safely navigates this change, but I can imagine that doing so might, for example, break the Python garbage collector.
(To be clear: the motivation is just context as to how the question arose. I'm not looking for help implementing the structures described in the Motivation, I'm looking for an answer to the Question, above.)
...ANSWER
Answered 2022-Mar-02 at 01:13According to the language reference, chapter 3 "Data model" (see here):
An object’s type determines the operations that the object supports (e.g., “does it have a length?”) and also defines the possible values for objects of that type. The type() function returns an object’s type (which is an object itself). Like its identity, an object’s type is also unchangeable.[1]
which, to my mind states that the type must never change, and changing it would be illegal as it would break the language specification. The footnote however states that
[1] It is possible in some cases to change an object’s type, under certain controlled conditions. It generally isn’t a good idea though, since it can lead to some very strange behaviour if it is handled incorrectly.
I don't know of any method to change the type of an object from within python itself, so the "possible" may indeed refer to the CPython function.
As far as I can see a PyObject
is defined internally as a
QUESTION
In my JavaFX project I'm using a lot of shapes(for example 1 000 000) to represent geographic data (such as plot outlines, streets, etc.). They are stored in a group and sometimes I have to clear them (for example when I'm loading a new file with new geographic data). The problem: clearing / removing them takes a lot of time. So my idea was to remove the shapes in a separate thread which obviously doesn't work because of the JavaFX singlethread.
Here is a simplified code of what I'm trying to do:
HelloApplication.java
...ANSWER
Answered 2022-Feb-21 at 20:14The long execution time comes from the fact that each child of a Parent
registers a listener with the disabled
and treeVisible
properties of that Parent
. The way JavaFX is currently implemented, these listeners are stored in an array (i.e. a list structure). Adding the listeners is relatively low cost because the new listener is simply inserted at the end of the array, with an occasional resize of the array. However, when you remove a child from its Parent
and the listeners are removed, the array needs to be linearly searched so that the correct listener is found and removed. This happens for each removed child individually.
So, when you clear the children list of the Group
you are triggering 1,000,000 linear searches for both properties, resulting in a total of 2,000,000 linear searches. And to make things worse, the listener to be removed is either--depending on the order the children are removed--always at the end of the array, in which case there's 2,000,000 worst case linear searches, or always at the start of the array, in which case there's 2,000,000 best case linear searches, but where each individual removal results in all remaining elements having to be shifted over by one.
There are at least two solutions/workarounds:
Don't display 1,000,000 nodes. If you can, try to only display nodes for the data that can actually be seen by the user. For example, the virtualized controls such as
ListView
andTableView
only display about 1-20 cells at any given time.Don't clear the children of the
Group
. Instead, just replace the oldGroup
with a newGroup
. If needed, you can prepare the newGroup
in a background thread.Doing it that way, it took 3.5 seconds on my computer to create another
Group
with 1,000,000 children and then replace the oldGroup
with the newGroup
. However, there was still a bit of a lag spike due to all the new nodes that needed to be rendered at once.If you don't need to populate the new
Group
then you don't even need a thread. In that case, the swap took about 0.27 seconds on my computer.
QUESTION
Please forgive me if this question is dumb.
While reading about Haskell kinds, I notice a theme:
...ANSWER
Answered 2022-Feb-13 at 00:42The most basic form of the kind language contains only *
(or Type
in more modern Haskell; I suspect we'll eventually move away from *
) and ->
.
But there are more things you can build with that language than you can express by just "counting the number of *
s". It's not just the number of *
or ->
that matter, but how they are nested. For example * -> * -> *
is the kind of things that take two type arguments to produce a type, but (* -> *) -> *
is the kind of things that take a single argumemt to produce a type where that argument itself must be a thing that takes a type argument to produce a type. data ThreeStars a b = Cons a b
makes a type constructor with kind * -> * -> *
, while data AlsoThreeStars f = AlsoCons (f Integer)
makes a type constructor with kind (* -> *) -> *
.
There are several language extensions that add more features to the kind language.
PolyKinds
adds kind variables that work exactly the same way type variables work. Now we can have kinds like forall k. (* -> k) -> k
.
ConstraintKinds
makes constraints (the stuff to the left of the =>
in type signatures, like Eq a
) become ordinary type-level entities in a new kind: Constraint
. Rather than the stuff left of the =>
being special purpose syntax fairly disconnected from the rest of the language, now what is acceptable there is anything with kind Constraint
. Classes like Eq
become type constructors with kind * -> Constraint
; you apply it to a type like Eq Bool
to produce a Constraint
. The advantage is now we can use all of the language features for manipulating type-level entities to manipulate constraints (including PolyKinds
!).
DataKinds
adds the ability to create new user-defined kinds containing new type-level things, in exactly the same way that in vanilla Haskell we can create new user-defined types containing new term-level things. (Exactly the same way; the way DataKinds
actually works is that it lets you use a data
declaration as normal and then you can use the resulting type constructor at either the type or the kind level)
There are also kinds used for unboxed/unlifted types, which must not be ever mixed with "normal" Haskell types because they have a different memory layout; they can't contain thunks to implement lazy evaluation, so the runtime has to know never to try to "enter" them as a code pointer, or look for additional header bits, etc. They need to be kept separate at the kind level so that ordinary type variables of kind *
can't be instantiated with these unlifted/unboxed types (which would allow you to pass these types that need special handling to generic code that doesn't know to provide the special handling). I'm vaguely aware of this stuff but have never actually had to use it, so I won't add any more so I don't get anything wrong. (Anyone who knows what they're talking about enough to write a brief summary paragraph here, please feel free to edit the answer)
There are probably some others I'm forgetting. But certainly the kind language is richer than the OP is imagining just with the basic Haskell features, and there is much more to it once you turn on a few (quite widely used) extensions.
QUESTION
I would like to automatically generate some sort of log of all the database changes that are made via the Django shell in the production environment.
We use schema and data migration scripts to alter the production database and they are version controlled. Therefore if we introduce a bug, it's easy to track it back. But if a developer in the team changes the database via the Django shell which then introduces an issue, at the moment we can only hope that they remember what they did or/and we can find their commands in the Python shell history.
Example. Let's imagine that the following code was executed by a developer in the team via the Python shell:
...ANSWER
Answered 2022-Jan-19 at 09:20You could use django's receiver
annotation.
For example, if you want to detect any call of the save
method, you could do:
QUESTION
For the sake of example let's define a toy automaton type:
...ANSWER
Answered 2021-Dec-24 at 00:37Laziness to the rescue. We can recursively define a list of all the sub-automata, such that their transitions index into that same list:
QUESTION
I am developing a ComboBox (more for context than actual significance), and I would like to know if the "or" operator exists in Java generics. For now, the declaration looks something like that:
...ANSWER
Answered 2021-Dec-15 at 12:52There is no "or" operator for generics, and for a simple reason.
The idea of stating the type at the beginning is to allow you to use methods from that type in your implementation of the class.
When you use the "and" operator (extends A & B
), you know that whatever object is passed to you, you can access any of the A
class's methods as well as any of the B
class's method.
But what would happen if it was an "or"? Then you are passed an object that can either be a ComboBoxItem
allowing you to use ComboBoxItem
's methods, or it is just a string, which means you can't use any such methods. At compile time, you don't know which object you are passed, so there is no point in giving the type.
The "Or" is not helpful. If you are not using any method from the object, you may as well not use extends
at all.
The real question here is what you are trying to do which can apply to strings as well as combo box items but not to anything else. It smells like a design issue.
QUESTION
I asked a question yesterday about template method overloading and resolving issues using type traits. I received some excellent answers, and they led me to a solution. And that solution led me to more reading.
I landed on a page at Fluent CPP -- https://www.fluentcpp.com/2018/05/18/make-sfinae-pretty-2-hidden-beauty-sfinae/ that was interesting, and then I listened to the Stephen Dewhurst talk that Mr. Boccara references. It was all fascinating.
I'm now trying to understand a little more. In the answers yesterday, I was given this solution:
...ANSWER
Answered 2021-Dec-14 at 16:34Vocabulary
QUESTION
I understand how to define both homogeneous and heterogeneous streams in Haskell.
...ANSWER
Answered 2021-Nov-23 at 16:00This is getting exactly at the distinction between inductive and co-inductive types, which we so like to ignore in Haskell. But you can't do that on the type level, because the compiler needs to make proofs in finite time.
So, what we need is to actually express the type-level stream in co-inductive fashion:
QUESTION
Imagine a df in the following format:
...ANSWER
Answered 2021-Nov-09 at 20:04I think this algorithm does what you want, but it's not very efficient. It may provide others with a starting point for faster solutions.
Community Discussions, Code Snippets contain sources that include Stack Exchange Network
Vulnerabilities
No vulnerabilities reported
Install imagine
PHP requires the Visual C runtime (CRT). The Microsoft Visual C++ Redistributable for Visual Studio 2019 is suitable for all these PHP versions, see visualstudio.microsoft.com. You MUST download the x86 CRT for PHP x86 builds and the x64 CRT for PHP x64 builds. The CRT installer supports the /quiet and /norestart command-line switches, so you can also script it.
Support
Reuse Trending Solutions
Find, review, and download reusable Libraries, Code Snippets, Cloud APIs from over 650 million Knowledge Items
Find more librariesStay Updated
Subscribe to our newsletter for trending solutions and developer bootcamps
Share this Page