Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm starting a project with a STMicro STM32. I've done the Google searches, looking for solid compiler/debugger chains but would prefer answers with success stories.

Open Source Compilers/Linkers would be ideal, I just don't know if their STM32 toolchains are stable yet. (Both C, C++ compilers are acceptable). -- So commercial options are acceptable as well.

Do any of you have useful suggestions?

share|improve this question

10 Answers 10

up vote 8 down vote accepted

For all things ARM, I'm a fan of Rowley Associates "Crossworks for ARM".

I've used all the major toolsets, some for years, including ARM/Keil, IAR, GCC variants (actually Crossworks for ARM does use GNU, but CrossStudio's a whole lot more than just a compiler/linker). When it comes to my own personal projects, I choose Rowley. Their support is helpful, knowledgeable & speedy too.

Also Rowley provides lots of BSP code so you can get up & running quickly.

IAR is good, but it's expensive, and it doesn't offer anything that I need or would pay extra for.

In my current job I (am forced to) use the Keil tools and they're a bit cumbersome, they just seem dated. I also encountered a problem with the debugger (this was a Luminary chip, not the STM32, but I'm sure the same issue would apply.)

As you know there are other players such as Raisonance (sp?), Green Hills, Code Red, etc... I haven't used any of these, I can't say anything good or bad.

share|improve this answer

I'm using CodeSourcery G++ Lite Edition. This is "just" a GCC 4.3.3 toolchain.

http://www.codesourcery.com/sgpp/lite/arm/portal/subscription?@template=lite

In combination with Eclipse/CDT and OpenOCD this gives me all I need to develop, compile, and debug software on Cortex-M3 chips and best of all, it's all free. It might take a day or so to set up scripts that make life easier, but that's just a one time effort.

I've also had a look at Ride7 from Raisonance (also uses GCC). It's better integrated then my "homebrew" combination of applications, but it'll cost you money. As far as I know, you can also only use their JTAG interface.

share|improve this answer
    
I unloaded my mixed impressions of Ride7 in my answer "below". The version of Ride7 I have here is the last of the free releases and includes their packaging of the CodeSourcery build. I've had no problems that I can trace to GCC or CodeSourcery. –  RBerteig Aug 22 '12 at 21:56

The stm32 is a cortex-m3 which is thumb2 only. Gcc from 3.x to the present will work as they can produce thumb code. Thumb2 includes all of thumb plus a few more instructions. Unless you are using assembler you can get by with thumb for now and then, now in the near future or in the distant future make sure you have it building and optimizing for thumb2 for that little extra boost. The difference between thumb and thumb 2 is a handful of instructions which mixed properly make for a good performance boost, but you dont need it to get started. The cortex-m3 is quite happy to run original thumb code.

I had no problems developing for the cortex-m3 before gcc had thumb 2 support. Then code sourcery had support, then finally gcc natively had support. So you can roll your own gcc or use code sourcery or emdebian to get thumb2 support today. If you are worried about stability then gcc has been building thumb code for many years now and if you think about how many gameboy advances and gameboy SPs there are out there I would say that gcc building thumb is nothing to worry about.

The one gotcha is that this thing doesnt use the traditional arm vector table, gotta have the right arm document. The cortex-me vector table is easy to put in place just have to find the right web page or document. I have a few pages out there and there are others for the stellaris microcontrollers which are also cortex-m3 based. Essentially there are enough people already using the cortex-m3 with gcc that you should have no problems.

Going with the commercial compilers will sometimes produce better code, but at a price, and support will cost you as well. Keil is now ARM so if I had to pay for something and couldnt afford ARMs tools directly (I used them in the ARM7 days and they were far superior to the competition for optimized code) I would go with Keil to get at rvct. I find the Keil and IAR eval tools quite painful to use myself. gcc is easy and the support is second to none at any price, and gcc code performance has been gaining on arm for, well, years now.

share|improve this answer
    
The first paragraph of your answer could use editing: you repeated yourself twice. Did Nintendo use GCC to build the Gameboy Advance? –  David Grayson Feb 28 '10 at 21:45
    
I do not know what Nintendo provided with their SDK. –  dwelch Mar 1 '10 at 3:46

I am using IAR EWARM for almost 4 years now and I can tell that they have constantly improved over this time. IAR is expensive but the support is worth the money if you are using it in professional development under tight time schedules. I never had to wait more than 2 days for an answer and they got it right on the first try almost every time.

Another good reason is the good integration with the Segger J-Link JTAG adapter. This little, cheap JTAG is almost indestructible and has survived over-voltage several time with me. With the STM32 you get the simple profiling feature for free since it is able to connect via SWD in revision 7+. This is no precise profiling tool but a great, quick way to find performance bottlenecks.

I am using EWARM with the STM32F103RC for about a year now an don't have faced any instabilities up to now.

share|improve this answer
1  
IAR is by far the best commercial tool and worth it if you are a business and are paying engineers big bucks. Sure, the free gcc and Eclipses chains work and have 90% of the features, but those last 10% of features (especially for interactive debugging) will cost your engineers lots of billed time, and the cost of IAR will pay for itself. –  Mark Lakata Mar 22 '12 at 20:14

We've been using the Keil tools for a while now, with few problems.

In its favour, it's a relatively cheap way to get started on the STM32. You can buy a evaluation board for about £100, which includes the compiler, and is good up to 32 Kb. It also features one of the best debuggers (hardware and software) that I've ever used.

On the other hand, I found the IDE usable but lacking a lot of features you'll find elsewhere.

ST also provide a firmware library which abstracts away some of the low-level details of programming for their chip.

share|improve this answer

I've had good luck with gcc. I use the code-sourcery environment, as supplied from Anglia -- while they want you to use their IDE, I'm more comfortable using just vim.

I started with an IAR demo board, using the free size-limited IAR compiler. It was OK, produced small code, but I never grew comfortable with the IDE and compiler. I then took that board, and got the Anglia gcc stuff to work.

Then when my own board was laid out, I was off and running using make, gcc, vim, ...

IAR had some nice features, a nice small printf for example, and jtag debugger support, but I elected to go with my comfort level, and chose gcc. Even though I don't have a debugger (I suppose I could get gdb or eclipse working...), I haven't missed it -- just using printf.

If you need an IDE, then one of the commercial tools may be appropriate.

share|improve this answer

Try Atollic TrueSTUDIO/STM32, a highly professional development tool specifically targeted at STM32! Check out their webpage at: www.atollic.com

share|improve this answer

I am using eclipse indigo and the sourcery g++ compiler, it works very well for the stm32f4 discovery board, although I've not yet got debugging working, a useful tutorial for setting up can be found on tecsploit.com http://tecsploit.com/?page_id=124

It shows you how to setup a hello world blinking led

share|improve this answer

We've been using the Raisonance Ride 7 IDE along with their RLink debugger pod for a number of STM32 based projects. When we began using these tools, the toolchain was free and based on GCC (but the RLink, naturally has a price tag being a hardware device). The only limitation was that their debugger would refuse to debug code above a certain size, where the limit varied depending on the STM32 family member targeted. That limit could be removed by "upgrading" the RLink to an unlimited version. When I needed that upgrade in a hurry, it turned out to be a fully automated purchase that delivered the required license key in a text file within minutes.

Since then, Raisonance has changed their pricing model, charging for support for Ride7, and may have shifted to a different compiler entirely. I've been reluctant to change compilers mid project, and can't currently justify the price tag required to update in any case.

I've generally found their IDE to be a mixed experience. I am not a huge fan of IDEs, having spent way too many years on projects built with hand-crafted makefile and edited in a quality programmer's editor. However, the compromise of using their IDE for project settings management, building, and debugging only with most of my editing in my preferred editor has generally worked out just fine.

It also has quirks (as nearly all do) when dealing with a project managed by revision control. As usual, they do a poor job of documenting exactly which files modified by "Save Project" are actually the core project description, and which are simply autogenerated cruft that should stay out of the revision control system. There are also a couple of cases where they persist in storing fully qualified file names, which makes it more difficult than necessary to check out a parallel working environment either on a single machine or for additional developers on their own machines.

My only real complaint with their IDE is that it cannot write out a Makefile equivalent to its project description. Nor does it take any command line options to cause it to build the project. So there is no way to script a clean build of my firmware into the batch files I use to create a clean build as part of my release process.

share|improve this answer

I found this Makefile very helpful to build a complete toolchain for STM32. It automatically downloads all required components and compiles them afterwards.

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.