spectrum | OpenAPI Spec SDK and Converter for OpenAPI | REST library
kandi X-RAY | spectrum Summary
kandi X-RAY | spectrum Summary
[Build Status][build-status-svg]][build-status-url] [Go Report Card][goreport-svg]][goreport-url] [Docs][docs-godoc-svg]][docs-godoc-url] [LOC][loc-svg]][repo-url] [License][license-svg]][license-url]. Spectrum is a multi-purpose OpenAPI Spec SDK that includes enhanced Postman conversion. Most of the OpenAPI Spec SDK is designed to support OAS3. Some functionality for OAS2 exists.
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Top functions reviewed by kandi - BETA
- StreamSpectrumUIPage is the HTML page .
- BuildPostmanURL builds a URL from an OpenAPI specification
- MergePaths merges additional paths into specMaster
- SpecMoreModifyMulti modifies a SpecMore object
- Parse spring line to schemaRef
- Merge merges the oas3 specification into a postman collection
- ValidateFixOperationPathParameters ensures that the provided path parameters are valid
- actionsTable returns a table for the spec
- Parse springLineToSchema parses a string into oas3 schema
- ValidateFixOperationResponseTypes validates the response types
spectrum Key Features
spectrum Examples and Code Snippets
def _trace(self):
# The diagonal of the [[nested] block] circulant operator is the mean of
# the spectrum.
# Proof: For the [0,...,0] element, this follows from the IDFT formula.
# Then the result follows since all diagonal elements
def assert_hermitian_spectrum(self, name="assert_hermitian_spectrum"):
"""Returns an `Op` that asserts this operator has Hermitian spectrum.
This operator corresponds to a real-valued matrix if and only if its
spectrum is Hermitian.
def _shape(self):
s_shape = self._spectrum.shape
# Suppose spectrum.shape = [a, b, c, d]
# block_depth = 2
# Then:
# batch_shape = [a, b]
# N = c*d
# and we want to return
# [a, b, c*d, c*d]
batch_shape = s_s
Community Discussions
Trending Discussions on spectrum
QUESTION
I've read around for several days but haven't been to find a solution... I'm able to build Librosa spectrograms and extract amplitude/frequency data using the following:
...ANSWER
Answered 2021-Jun-11 at 11:34When I get your question right, you want to reconstruct the real/imaginary spectrum from your magnitude values. You will need the phase component for that, then its all simple complex number arithmetic. You should be aware that the output of an STFT is an array of complex numbers, and the amplitude is the absulute value of each number, while the phase is the angle of each number
Here´s an example of a time-domain signal transformed to magnitude/phase and back without modifying it:
QUESTION
I would like to use Python to generate different colors of noise, just like Wikipedia mentions : https://en.wikipedia.org/wiki/Colors_of_noise.
For example, White, Pink, Brownian, Blue and Violet noise. And would like to have similar spectrums just like the website.
It would be a great help if I could just adjust a few parameters to get it done. Any links or tips would be very appreciated! Thanks a lot.
...ANSWER
Answered 2021-Apr-18 at 18:51Let's use numpy to compute the noise and matplotlib to plot the results
QUESTION
My question is simple. I think I kind of understand FFT and DFT. what I dont understand is why, in Python or matlab, do we use FFT size as the number of samples? why does every sample taken in the time domain corresponds to a frequency bin in the frequency domain.
For example the Scipy's fft pack, in order to plot the spectrum of a .wav
file signal we use:
ANSWER
Answered 2021-Jun-03 at 14:02Mathematically a key property of the fourier transform is that it is linear and invertible. The latter means that if two signals have the same fourier transform they are equal, and that for any spectrum there is a signal with that spectrum.
For implementations with a finite collection of samples of a signal the first property means that the fourier tramsform can be represented by a N x M matrix where N is the number of time samples and M the number of frequency samples. The second property means that the matrix must be invertible, and so square, ie we must have M == N.
You say that time bins and frequency correspond, and that is true in the sense that there are the same number of them. However the value in each frequency bin will depend on all time values.
QUESTION
I'm working on some legacy code using R. In the code, frequencies and intensities of a periodogram are extracted and used for some downstream analysis:
...ANSWER
Answered 2021-Jun-03 at 09:11If anybody looks for a solution, I found a GitHub repo with a python version of spec.pgram, which worked like a charm for me. Unfortunately it does not contain an explicit License, so I guess the GPL license of the original implementation is applicable.
QUESTION
I would like to make an animation of TOF-MS spectrometer (time-of-flight mass spectrometry) using the 'for' statement. I am able to make a script which animates the flight of ions inside the tube. This is the script:
...ANSWER
Answered 2021-Jun-02 at 00:03You are creating axes
on each iteration of the loop with this line
QUESTION
Ok so I have been trying for days to deploy on Heroku. I can't even upgrade my account on Heroku to ask the question of how to go about this.
I have a fully functioning emulated Django project on my computer. I initially used PythonAnywhere and loved it. Until I realized Braintree is not working and I can't load php, it is too restricted. I do have a ticked with them.
So I moved to Heroku. The issue with Heroku is I can not even load it onto the site. I have it hooked to my GitHub. Now I can not load it because it refuses to built because of pyodbc will not load. I know this is shown by sql.h not found when installing PyODBC on Heroku. I am starting a new topic, because it is older. That being said I tried everything on here.
I think part of the issue is that I do not have sudo access to either one of these. I tried logging in with su account my account password but apparently we do not have that access. I tried build packs on the Heroku, but they seem to not want to work for the pyodbc library. I also was thinking of an add on on Heroku, but then I would still have change a lot of code.
Is there either a for dummies way to fix this? My sister who has been a programmer for years can't get it to work. Then me who is new can't. So we have a large spectrum experience between us. Sorry for the rant I have literally spent over 40 hours trying to get this to deploy.
...ANSWER
Answered 2021-May-31 at 20:55You need to install it with a Heroku buildpack:
https://elements.heroku.com/buildpacks/matt-bertoncello/python-pyodbc-buildpack
That’ll give you the underlying MSODBC driver for Linux you need for pyodbc and django-pyodbc.
QUESTION
This is probably an AB mistake on my part.
While reading my dataset usually some files are NOT a part of it. I want to be robust against that - to just ignore them, simply log the omission.
But I am in love with exceptions thus Spectrum read_csv( const fs:path & dataset );
throws.
I want to keep it that way because the .pdf
and other files my supervisor has embedded into the data structure should stay there.
The following implementation seems elegant. But fails at the first wrong file. A try/catch
alternative works. But is not as expressive. Can this work somehow while read_csv()
throws; those exceptions to be at most logged?
ANSWER
Answered 2021-May-30 at 00:26You need to come up with your own transform
taking a functor to call upon exception thrown. This is probably a (really) bad design though as that implementation would need to "catch everything".
You might be in love with exceptions, but this is a scenario where you do not want to use them. After all, you're expecting some file to be missing. You wouldn't write
QUESTION
from my knowledge, Power Spectral Density (PSD) should stay relatively constant with the total time sampled (or aka. N-points sampled), however I have having trouble obtaining this result.
As I know from Discrete Fourier Transform (DFT), the amplitude normalization is 1/N. (e.g Amplitude Spectrum = DFT/N). However, from various sources, the PSD is defined as (DFT * DFT-conjugate / N).
How can this be possible? It is true that the Amplitude Spectrum has a 1/N normalization constant, then shouldn't the PSD have a 1/N^2 normalization constant (since DFT is proportional to N and so is its conjugate).
More specifically, I am trying to calcuated the PSD of a continuous electric field wave using the Eq. 9 of this paper. However I can't make sense of it's constants infront of the DFT since the factors of N's cancel out leaving behind only the summation of the window function squared. I tested this result and found that the PSD does not stay relatively constant with sampling size.
In summary, I have having troubles since my PSD varies with the amount of total time of the signal sampled. Any help would be great, thanks!
...ANSWER
Answered 2021-May-27 at 03:29I've found the PSD of a time-series does increase linearly with the number of points sampled, N, however, an appropriately FITTED function (or some sort of averaging) allows the PSD to remain constant with N. One would then take the PSD at a point on this fitted function.
This is a direct result of conserving the area of a curve, AKA Plancherel's theorem.
QUESTION
I have 1024 samples and I want to cut them into 32 chunks of 32 and run FFT on each one of them and plot it via a Frequency-Amplitude spectrum, I have most of the code working just the part of applying FFT to each chunk is not working, however I am able to apply FFT to the whole samples array.
I tried doing something like that:
...ANSWER
Answered 2021-May-25 at 01:15You have the syntax slightly wrong
QUESTION
My code is designed to get data from a serial device and print its contents to a MS Forms Application. The IDE i use is Visual Studio 2019 - Community.
The device does send a variable size packet. First i have to decode the packet "header" to get crucial information for further processing which is the first packet channel as well as the packet length.
Since the packet does neither contain a line ending, nor a fixed character at the end, the functions SerialPort.ReadTo()
and SerialPort.ReadLine()
are not useful. Therefore only SerialPort.Read(buf,offset,count)
can be used
Since sending rather large packets (512bytes) does take time, I've implemented a function for calculation of a desired wait time, which is defined as (1000ms/baud-rate*(8*byte-count))+100ms
While testing, I've experienced delay, much more than the desired wait times, so implemented a measure function for different parts of the function.
In regular cases (with desired wait times) i except a log to console like this:
Load Header(+122ms) Load Data (+326ms) Transform (+3ms)
But its only like this for a few variable amount of records, usually 10, after that, the execution times are much worse:
Load Header(+972ms) Load Data (+990ms) Transform (+2ms)
Here you can see the complete function:
...ANSWER
Answered 2021-May-20 at 19:17Instead of trying to figure out how long a message will take to arrive at the port, why not just read the data in a loop until you have it all? For example, read the header and calculate the msg size. Then read that number of bytes. Ex:
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