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12 of those have the values in the schematic, the other 4 aren't really critical.
C37 is in there.
I'd replace them with 25v or more rated caps and they should be fine.
Maybe I found the wrong scheme. But there is no C37 denomination in it.
Find L1, then look right under it.
All of those are in parallel with other Capacitors or in a circuit where measuring it will not give the correct value. In circuit measurements like that are most often never correct.
Didn't really keep track, but it's just more tedious than time consuming really. Also not my first go at figuring out a schematic from a PCB. One that did take a little awhile to do was a Square D 8010 SPR-300 programmer. It didn't work and I wanted to figure it out, so it had to all be done in a nondestructive manner. It came apart one component at a time, the component was tested and then after the PCB scans it all went back together. No SMT components in there and only 2 layer boards, but it had more than a few of them. Also not my first go at a 4 layer PCB, the one I did before this was out of a DeWalt DCB606 battery pack, which was potted on both sides, so loads more fun to be had there in that case. Getting all of the component values and making the schematic 'presentable' is what will take the most time, as you don't know what layout will work best until you have it all on there and everything connected together. The core of the schematic doesn't take ages to do if all you want is a reference for where everything is connected, but then it looks like a plate of spaghetti topped with silly string wrapped with a bow on top in comparison to when it's cleaned up. Even that one is a little busy for my liking, but it's still not 'finished' as far as I'm concerned.