Nox works seamlessly on mac based machines including iMac and macbooks. Android is an highly customizable OS and supports hundreds and thousands of games and apps and this is why it is loved by even apple lovers. If you are a mac user but want to play android games on your mac then Nox is absolutely for you. Nox for mac is free to download and you would be able to play high end android games easily on your mac.
Run your Apps on Windows and Mac PC. Here are 9 Free & best Android emulators software for Windows 10, 8.1, 8, 7 including free and paid (developers & Home). การตั้งค่า Android Emulator สำหรับชิป M1. ไปที่ Android Emulator M1 Preview repo โดย Google ซึ่งยังอยู่ในช่วงเบต้า แต่ใช้งานได้ดี แต่มีข้อยกเว้นบางประการที่.
Nox app player allows you to emulate the android experience right on your mac computer. Mac OS is not very popular for high end games and therefore you can install Nox on your Mac and enjoy high end android games without any lag.
Game controllers support
Nox supports third party controller devices including joysticks to provide amazing gaming experience.
Free
Nox for mac OS is free to download and use and will always be.
Android Gaming Experience
Play high end android games and Mac with Nox.
Regular Updates
Nox for mac is regularly updated for bug fixes and enhancing security.
Direct Download Support
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Most of the popular apps are available for direct download from inside the dashboard.
Reliable Emulator
Nox is a reliable emulator for mac os and bugs are fixed regularly to minimize crashes.
This document gives you some background on the emulator and outlines how you can start hacking and contributing to the emulator!
Just get me started with development!
Make sure to install Android Studio and the associated SDKs. Do not forget to install the official emulator and create a few android virtual devices. Next follow the instructions for the platform you would like to work on:
We use the Repo tool to manage working accross multiple branches.
About the Emulator
The Android Emulator simulates Android devices on your computer so that you can test your application on a variety of devices and Android API levels without needing to have each physical device.
The emulator provides almost all of the capabilities of a real Android device. You can simulate incoming phone calls and text messages, specify the location of the device, simulate different network speeds, simulate rotation and other hardware sensors, access the Google Play Store, and much more.
Testing your app on the emulator is in some ways faster and easier than doing so on a physical device. For example, you can transfer data faster to the emulator than to a device connected over USB.
The emulator comes with predefined configurations for various Android phone, tablet, Wear OS, and Android TV devices.
Recommended Reading
The following is a list of concepts that are important. Please read these links and any other links you can find. If you find a link that you think does a better job at explaining the concept, please add it here:
QEMU is an open source competitor to VMware Workstation, VirtualBox, HyperV. It is focused on Linux server virtualization on Linux servers. While QEMU does support booting other OS’s, we don’t use that functionality since Android is Linux.
The Android Emulator is downstream from the QEMU emulator. It adds support for booting Android devices, emulates typical Android hardware (OpenGL, GPS, GSM, Sensors) and a GUI interface. The android emulator extends qemu in various ways.
For an overview of Qemu see:
The QEMU emulator leverages technologies like hardware Hypervisors KVM (Linux) and HAXM (Windows/Mac)
The QEMU emulator supports both guest images that require full virtualization and guest images that require paravirtualization technologies like virtio
The emulator passes a device tree blob to a guest kernel to describe the guest hardware
When running a non-x86 image on an x86 host, QEMU will JIT the non-x86 code into x86 code. See this lectutre for more. The MMU (page table hardware) is emulated in software, which is unfortunately slow.
You will need to build Android kernels and system images that the emulator will run. The easiest way to obtain these is to make use of the publicly released images. You can find more details here.
Building the Emulator
The emulator uses Cmake as a meta build generator, and all the necessary compilers and toolchains are included in the repository. Make sure you have read the section above as the requirements to succesfully build vary slightly from platform to platform.
In general you can run the following script:
For incremental builds you can use ninja. For example
Contributing code
The emulator uses a coding style derived from the Chromium style. We use the repo tool to submit pathces. The usual workflow is roughly as follows:
This will create a git branch called my_awesome_feature. You can now work on your patch.
Once you have written a patch you can send it out for code review. We use gerrit for code reviews.
Use the repo tool to upload or update a CL:
- “--cbr” means “upload the current branch”,
- “--re” supplies the initial reviewers list
Add “-t” switch to use the current git branch as a review topic (topic groups CLs together and only allows them to be submitted when all got +2/+verified)
The repo tool will provide you with a url where you can find your change.
Code Reviews
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Make sure to check the CL against our coding style: coding style. Coding style isn’t frozen: just edit it in our repository and create a code review to propose a change.
Some good articles on code reviewing, especially when it comes to google:
- The CL Author’s Guide, which gives detailed guidance to developers whose CLs are undergoing review.
- How to Do a Code Review, which gives detailed guidance for code reviewers.
Below are some short notes relevant to the emulator.
Keep in mind that all of the code reviews are open source and visible to everyone!. In other words, be nice and and provide actionable constructive feedback.
C++ over C for all new code. Always.
After uploading a CL for review, author should “+1” it when they think it’s ready for reviewing. A CL without author’s “+1” is a “work in progress” and other reviewers may ignore it..
Prefer not to send a WIP CL to reviewers and only add them when it’s in a reviewable state. If you realized that you added reviewers too soon, just remove them - “x” button in the browser UI for each reviewer actually works.
Avoid large CLs. There are always exceptions, use your best judgement to improve code clarity and to help other maintainers in the future.
Split the changes into smaller isolated chunks and submit those as a single topic If you touch multiple components, that’s a good way to split the CL.
Changes into any QEMU files must be in their own CL - otherwise rebasing into the new version becomes 10x more painful.
“-2” is sticky, it remains there until the very same reviewer removes it. If you “-2”-ed someone, it’s always a good thing to communicate to them about the follow-up
Abandon the CLs you don’t need anymore
Tests: when reviewing the code, make sure there’s a test or a really good reason for its absence
Merging downstream Qemu
Merging changes from the qemu branch should be done on the emu-master-qemu branch. You will need to this on a linux machine as qemu development happens in a linux environment. Once you have obtained this branch you can add the remote qemu repository as follows:
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Now you can start merging in changes:
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Be smart, merge only a few commits at a time
Next you should try to build qemu standalone:
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Now you are ready for building, testing, and merging the next set. You could have a look at this script to automate this slightly.