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Apr
21
comment How to trace indirect precedents in Excel?
Thanks, as for b), I would need to parse every function that potentially references a cell indirectly, which is a lot of functions...
Apr
19
comment How to trace indirect precedents in Excel?
@deathApril - if I were a developer of Excel, the approach I may take may be to do this analysis on runtime in a way that recalculates the sheet and record which are the (1st generation - I'm not looking for more than that) cells that contribute to the value of a cell. Iterating through all nontrivial formula cells will reveal the dependency structure of the sheet.
Apr
18
revised How to trace indirect precedents in Excel?
deleted 2 characters in body
Apr
17
revised How to trace indirect precedents in Excel?
added 288 characters in body
Apr
17
asked How to trace indirect precedents in Excel?
Apr
15
comment How can I reference a cell from a different cell
The IF statement actually does not leave it EMPTY. Sometimes, and empty cell is required if some condition is met.
Mar
30
revised How can I manually (programmatically) place objects in my multicore project?
edited title
Mar
30
comment How to calculate a large size FFT using smaller sized FFTs?
Thanks. And what does this assumption mean? I assume your intention is that after performing the FFT_M() step I should reorganize the output of these transforms and then continue applying the passes as usual?
Mar
30
revised How to calculate a large size FFT using smaller sized FFTs?
added 396 characters in body
Mar
30
asked How to calculate a large size FFT using smaller sized FFTs?
Mar
30
accepted Why aren't fixed-point types included in C99?
Mar
27
comment Is this a GCC bug when using -falign-loops option?
@R..- remember that the optimizer's heuristics for unrolling loops are based on a somewhat arbitrary set of rules (OK, at least arbitrary w.r.t the available options). Your considerations (like, code size or registers usage) may be different and lead to faster code after all. I guess this is what I see a difference.
Mar
27
comment Why aren't fixed-point types included in C99?
At the same time, 0.16 is the standard for unsigned fractionals, where 0x8000 is 0.5, 0xffff is 0.999... etc.
Mar
27
comment Why aren't fixed-point types included in C99?
@R.. - the 1.15 is the standard representation for signed 16-bit fractionals. The leading 1 has a weight of (-1), just as the msb of a signed integer has a negative weight. Thus, 0x8000 represents the value (-1), while 0x7fff represents the value 0.999... (more or less). Similarly, 0x4000 is 0.5, 0x2000 is 0.25 and 0xc000 is -0.5.
Mar
27
comment Is this a GCC bug when using -falign-loops option?
@R.. - apparently, it is not so in the real world. This code is actually a part of a benchmark where I do vector addition. I have two functions, vecadd() with the above code and vecadd_naive() similar to your suggestion. The fact is that I had to manually unroll 16 times to get optimal performance, where more than marginally better than the naive version. This was with -O3 and (maybe redundant) -funroll-loops.
Mar
27
accepted Is this a GCC bug when using -falign-loops option?
Mar
27
comment Why aren't fixed-point types included in C99?
@R.. - the end result may be the same, but the devil is in the details: first, if the result is signed, then you may end up with 15 leading 1's. Secondly, technically, you don't shift the result to the right, you are discarding the lower half of the word to get your original numeric format.
Mar
27
comment Why aren't fixed-point types included in C99?
Gentlemen, you are both right... 8-)
Mar
27
comment Why aren't fixed-point types included in C99?
In the general sense, you could argue that it is a hack for speed, but in reality, it may be that a processor supports just these types natively - no FP in hardware, so it really maps the C code to the underlying hardware. Also FP is not always more accurate than fixed-point arithmetic. If the exponent of your intermediate results is relatively constant, then for a given word length you actually have more precision using fixed point arithmetic.
Mar
27
comment Why aren't fixed-point types included in C99?
Sorry, but I have to disagree here. It is not exactly the same as integer. See my comment to carl. You are right that there are many possible combinations, but in the realm of DSP's the two dominant are integers and fractionals (with the nuance of signed vs unsigned fractionals - 1.15 vs 0.16).