C and assembly development introduction: Difference between revisions
(Update some URLs and build output)
m (moved C and assembly development introduction on Linux to C and assembly development introduction over redirect: Mostly applicable to other OS's)
Revision as of 17:40, 2 August 2015
This tutorial describes how to set up an environment and use the Ndless SDK to write native Ndless-compatible programs for the TI-Nspire on Linux.
If you are looking for a Windows tutorial, get one in the development resources of ndlessly.
This article is written for the Ndless SDK v3.6 and higher.
Setting up a development environment
Option 1 : Get the Ndless SDK Docker image
Docker is a platform to build and share applications through lightweight containers. The Ndless SDK Docker image packs the Ndless SDK and all its dependencies. This is the easiest and quickest method to get a fully functional development environment.
To install the Ndless SDK Docker image follow the instructions on hub.docker.com. If you don't have Docker, don't know much of Docker or prefer to use a standard installation, skip to Option 2.
Option 2 : Building and installing the toolchain and the SDK
- Get the latest Ndless SDK build for C, C++ and assembly development on TI-Nspire.
- You may also prefer to use the freshest in-development version of the Ndless SDK from GitHub. Just git-clone it:
- Make sure your system has the following dependencies: GCC (with c++ support), binutils, GMP (libgmp-dev), MPFR (libmpfr-dev), MPC (libmpc-dev), boost-program-options, wget. Install them with your system's package manager if not.
- Run the SDK's build_toolchain.sh script that will download and build a complete ARM toolchain compatible with Ndless, and install it <(edit the PREFIX variable at the beginning of the script to change the install location). You don't need to be root for this.
cd ndless-sdk/toolchain/ ./build_toolchain.sh
Running the script again will continue from the last successful step (not redownloading everything for instance). At the end of a successful build you should see Done!. Alternatively you can verify the build using echo $?. 0 indicates success.
- Now add the following folders to your PATH environment variable. ~/.bash_profile should be a good place for this, just add something like this to it:
- Build the SDK, only if you are using the GitHub's clone version of the SDK:
Verifying the installation
- Open a console, and run:
If everything has been set up correctly you should see something similar to:
arm-none-eabi-gcc: fatal error: no input files compilation terminated.
As a convention for the next chapters, lines starting with $ are commands you should type in a console. Other lines are the command's output.
Your first build
Ndless comes with sample programs in the samples/ directory of the Ndless SDK. We will try to build the C Hello World. Change the current directory of the console:
$ cd "<my_ndless_sdk_copy>/ndless-sdk/samples/helloworld-sdl"
Ndless programs are built with GNU Make, which is run with the command make. So let's make the program:
$ make nspire-gcc -Wall -W -marm -Os -c hello-sdl.c mkdir -p . nspire-ld hello-sdl.o -o ./helloworld-sdl.elf genzehn --input ./helloworld-sdl.elf --output ./helloworld-sdl.tns --name "helloworld-sdl" make-prg ./helloworld-sdl.tns ./helloworld-sdl.prg.tns
nspire-gcc is Ndless's wrapper for the GNU C Compiler GCC, which compiles C and assembly source files to object files (here hello.o).
nspire-ld is the wrapper for GCC, which redirects gcc with the option "-fuse-ld=gold" to use another wrapper "arm-none-eabi-ld.gold" as linker. "arm-none-eabi-ld.gold" adds some necessary libraries to the final program.
genzehn converts the executable created by "nspire-ld" to a format, which ndless supports.
make-prg adds a simple loader on top so the executable works on older versions of ndless.
Your first program
If you want to create a program from scratch:
- Create a new directory for the program
- Type in a console:
cd "<your directory path>" nspire-tools new <program>
- where <program> is your program name. This will create a Makefile to build <program>.tns
- Create a new .c file and edit your program
- Run the make command to build it