@rgchris The basic gist of debugging in C is: you have symbol information in your binary or not, controlled by putting "-g" on the compile line. This just means that all the generated assembly code for functions and variables is augmented with a table saying what source text names and datatypes went with those assembly bits. That way you can use something like XCode or Visual Studio to step through source vs. reading gibberish machine code.
Let's call that "symbols".
Then there is the question of whether added paranoid checks under assert() are compiled in or not. In some builds the assert()s vaporize, in others they execute code. These help you know when something is going wrong before you have some downstream bad effect or crash. Let's call this switch "asserts".
Optimization settings also come into play somewhat. The C compiler when it optimizes does all kinds of things, including reordering instructions when it is safe to do so, to get better data locality or whatever. But unfortunately, if you try to debug an optimized executable it's wacky. Some variables won't exist, because they'll vanish into registers. You'll try stepping over statements that should be sequential and it will erratically pop all over the codebase.
The safest bet is to go with -O0, for optimization zero. GCC has a setting for -Og, which is "optimize as much as you can without making debugging crazy" (clang lacks this setting).
Then in our modern world there is also address sanitizer. If you choose debug: sanitize (or debug=sanitize) on your make.r command line, you will compile in a memory checker that will give you a stack dump on bad memory accesses...even without being in a debugger.
Sanitization makes the executable much bigger and slower, because it injects all kinds of barriers around code and buffer zones around memory, to notice things going out of bounds and corrupting these otherwise-unused borders. However, it is faster than Valgrind, which has to simulate the program on a virtual processor to get the same effect.
If you compile a sanitized build, it will run more slowly but give you a good dump of information to see what routine is crashing and the stack of who (if any) freed the memory that's being dereferenced.
e.g. you should get more comprehensive info than just exit(255)
So Ren-C's debug options are: none, symbols, asserts, normal, sanitize
R3C may have been at a different naming scheme for these categories, I don't recall.
IIRC the normal implies both symbols and asserts...while sanitize implies symbols and asserts and sanitize.