APSCalc | Arbitrary Precision Symbolic Calculator in Java
kandi X-RAY | APSCalc Summary
kandi X-RAY | APSCalc Summary
APSCalc is a Java library. APSCalc has no bugs, it has no vulnerabilities and it has low support. However APSCalc build file is not available. You can download it from GitHub.
APSCalc: Arbitrary Precision Symbolic Calculator. I make no guarantees of compilation. This is a pre-alpha unfinished project. I also make no guarantees that this README is up to date and represents the current status of the code. Features: Symbolic manipulation Differentiation Sigma and Capital Pi notations ('sum' and 'prod') Evaluating the expression to a certain number of digits ('evalf') Full suite of trigonometric functions. Integer factorization and very quick primality testing. Arbitrary precision - Currently limited to 16 digits, but is capable of handling up to 50+ digit accuracy, and will soon be extended. Function solver - Capable of expression reduction, floating-point approximations, and advanced polynomial recognition. Exact solutions limited to polynomials of degree 3 or less. Planned to be extended soon. Expression ordering - x + y + z + a -> a+x+y+z Variable assignment: a:=2 sets variable 'a' to the value 2. Then, a^4 -> 16.
APSCalc: Arbitrary Precision Symbolic Calculator. I make no guarantees of compilation. This is a pre-alpha unfinished project. I also make no guarantees that this README is up to date and represents the current status of the code. Features: Symbolic manipulation Differentiation Sigma and Capital Pi notations ('sum' and 'prod') Evaluating the expression to a certain number of digits ('evalf') Full suite of trigonometric functions. Integer factorization and very quick primality testing. Arbitrary precision - Currently limited to 16 digits, but is capable of handling up to 50+ digit accuracy, and will soon be extended. Function solver - Capable of expression reduction, floating-point approximations, and advanced polynomial recognition. Exact solutions limited to polynomials of degree 3 or less. Planned to be extended soon. Expression ordering - x + y + z + a -> a+x+y+z Variable assignment: a:=2 sets variable 'a' to the value 2. Then, a^4 -> 16.
Support
Quality
Security
License
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Support
APSCalc has a low active ecosystem.
It has 0 star(s) with 0 fork(s). There are 2 watchers for this library.
It had no major release in the last 6 months.
APSCalc has no issues reported. There are no pull requests.
It has a neutral sentiment in the developer community.
The latest version of APSCalc is current.
Quality
APSCalc has no bugs reported.
Security
APSCalc has no vulnerabilities reported, and its dependent libraries have no vulnerabilities reported.
License
APSCalc does not have a standard license declared.
Check the repository for any license declaration and review the terms closely.
Without a license, all rights are reserved, and you cannot use the library in your applications.
Reuse
APSCalc releases are not available. You will need to build from source code and install.
APSCalc has no build file. You will be need to create the build yourself to build the component from source.
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Currently covering the most popular Java, JavaScript and Python libraries. See a Sample of APSCalc
Currently covering the most popular Java, JavaScript and Python libraries. See a Sample of APSCalc
APSCalc Key Features
No Key Features are available at this moment for APSCalc.
APSCalc Examples and Code Snippets
No Code Snippets are available at this moment for APSCalc.
Community Discussions
No Community Discussions are available at this moment for APSCalc.Refer to stack overflow page for discussions.
Community Discussions, Code Snippets contain sources that include Stack Exchange Network
Vulnerabilities
No vulnerabilities reported
Install APSCalc
You can download it from GitHub.
You can use APSCalc like any standard Java library. Please include the the jar files in your classpath. You can also use any IDE and you can run and debug the APSCalc component as you would do with any other Java program. Best practice is to use a build tool that supports dependency management such as Maven or Gradle. For Maven installation, please refer maven.apache.org. For Gradle installation, please refer gradle.org .
You can use APSCalc like any standard Java library. Please include the the jar files in your classpath. You can also use any IDE and you can run and debug the APSCalc component as you would do with any other Java program. Best practice is to use a build tool that supports dependency management such as Maven or Gradle. For Maven installation, please refer maven.apache.org. For Gradle installation, please refer gradle.org .
Support
For any new features, suggestions and bugs create an issue on GitHub.
If you have any questions check and ask questions on community page Stack Overflow .
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