The Fluke 80 series I and III are certainly nicer than the series V for electronics work when measuring current, since they default to DC current. I really wish continuity mode had a dedicated position on the range switch though. It doesn't make sense that there's a dedicated position for the diode test, but not for continuity, which is much more common to use. I'm sure it makes sense functionally in terms of meter implementation to have ohms/continuity/capacitance be shared on the same range switch position, but it's still kind of annoying that there's an entire dedicated position for diode measurements, but not continuity. At least the fluke 80 series does have two dedicated buttons to select capacitance or continuity (unlike e.g. many Brymen meters, which have a single button to toggle between resistance/continuity/diode/capacitance).
For fast ohms autoranging, my definition would be preferably under a second (maybe slightly longer, but definitely under 2 seconds) for the meter to autorange from open to shorted leads (can take another third/half second or so depending on reading rate to get the final reading after autoranging). Going from open leads to shorted leads usually involves 6-7 autorange steps....Some handheld meters do this *really* slowly (see the video I linked), and take the amount of time needed for a full reading before each autorange step. Even some bench meters, like the Fluke 45 (similar in specs to a high end handheld), take ridiculously long for ohms autoranging in the default medium reading speed. Which is unusual for Fluke, since most of their meters, even an old Fluke 73/75/77 series I/II is able to do the ohms autoranging much more quickly. I think it's an implementation detail, not waiting for a full reading to autorange to the next step if the reading will clearly be below the current range. I can't find a video of the Fluke 45 autoranging in ohms mode, but for more examples of slow autoranging meters, see the video I linked. I know some of the keysight handhelds need to switch a relay in to go between open and shorted leads, and that takes a bit of time.
Anyways I do realize some of these requirements combined together are quite specific (although to me, it seems natural that a good general purpose electronics multimeter should have fast continuity, a dedicated position on the range switch, fast autoranging, and DC current by default). My current go to handheld meters are a Fluke 29ii (which does meet all of these requirements, although the design is a bit dated/awkward having only a single button for every secondary function), and an HP 973A (which is excellent, in most ways superior to the Fluke, and meets all my requirements except continuity is basically a complete afterthought on this meter).