The C identifier permits looking up the table in the source. The
table name permits lookup with xdump.
Coders should know how to go from table name to C identifier. Deities
aren't all coders; we shouldn't ask them to guess table names from C
identifiers.
These are commonly timestamps (no verification implemented), or
aliases for a non-extra column (which gets verified). Commit 49780e2c
(v4.3.12) added the exception: EF_SECTOR's uid. Proof by example that
ignoring these columns is wrong. Fix: ignore only virtual columns.
To enable that, make build_ship() & friends all take the same int type
argument instead of each one its own pointer. Passing pointers
triggered "may be used uninitialized" compiler warnings (the code was
safe despite the warnings).
For drnuke_const 0.33, research level 92.4 now suffices for a tech 280
nuke. Before, you needed 93, which was inconsistent with what
version's promise "need 0.33 times the tech level in research".
This was probably neglected when the techlists feature was added in
v4.0.0, because compiled-in nukes were sorted by tech, unlike ships,
planes and land units. Customization can break that.
buy() reads the lot, prompts for input, then writes back the lot,
triggering a generation oops. Any updates made by other threads while
buy() waits for input are wiped out, triggering a seqno mismatch oops.
Since commodities are taken from the seller when he puts them on the
market, and given to the buyer when the trade executes, the wiped out
lot's seller loses his goods without compensation, the other seller
gets to keep his goods, and the buyer receives their duplicates.
This can be abused by two conspiring countries to duplicate
commodities. The seller puts them on the market (say 100 gold bars).
The buyer starts a buy command, and waits at its last prompt for the
lot to be replaced. The seller takes them off the market (possible,
since there's no bid, yet), and sells something else (say one food)
quickly enough to get the same lot number assigned. The buyer then
completes the buy command. The seller loses one food, the buyer gains
100 gold bars.
Replaces a partial fix from v4.0.1, which only caught lots gone away,
not lots replaced by new ones.
Fighters, SAMs, ABMs and anti-sats could intercept, and tactical
missiles could interdict ships or land units.
Missed when the other missions were fixed in v4.2.7.
setsector() reads the sector, prompts for input, then writes back the
sector, triggering a generation oops. Any updates made by other
threads while setsector() waits for input are wiped out, triggering a
seqno mismatch oops.
Same for setres().
They can still get split by output arriving between two reads from
input, but that's unavoidable, because the client is designed to read
and write big chunks, not lines.
give() reads the sector, prompts for input, updates the sector and
writes it back, triggering a generation oops. Any updates made by
other threads during the yield are wiped out, triggering a seqno
mismatch oops.
getstarg(), snxtitem() and snxtsct() can yield the processor, because
they call getstring(). But only for null or empty arguments. For
other arguments, we should call ef_make_stale(), to catch errors.
Problem: if a caller never passes null or empty arguments, it may rely
on these functions not yielding. We'd get false positives. In
general, we can't know whether that's the case. But we do know in the
common special case of player arguments. Call ef_make_stale() for
those.
Without ARG1, display_region_map() formats a rectangular area around
CURX,CURY, so it can use do_map(). Ugly, and duplicates some
unit_map() functionality.
Factor snxtsct_around() out of unit_map(). Inline do_map() into
display_region_map(), so we can use snxtsct_around().
Don't mess with player->condarg. Leftover from when we abused map()
here.
