Calculation of row size is much more complex than that.
Storage is typically partitioned in 8 kb data pages. There is a small fixed overhead per page, possible remainders not big enough to fit another tuple, and more importantly dead rows or a percentage initially reserved with the
More importantly, there is overhead per row (tuple). The
HeapTupleHeader of 23 bytes and alignment padding. The start of the tuple header as well as the start of tuple data are aligned at a multiple of
MAXALIGN, which is 8 bytes on a typical 64-bit machine. Some data types require alignment to the next multiple of 2, 4 or 8 bytes.
Quoting the manual on the system table
typalign is the alignment required when storing a value of this type.
It applies to storage on disk as well as most representations of the
value inside PostgreSQL. When multiple values are stored
consecutively, such as in the representation of a complete row on
disk, padding is inserted before a datum of this type so that it
begins on the specified boundary. The alignment reference is the
beginning of the first datum in the sequence.
Possible values are:
char alignment, i.e., no alignment needed.
short alignment (2 bytes on most machines).
int alignment (4 bytes on most machines).
double alignment (8 bytes on many machines, but by no means all).
Read about the basics in the manual here.
This results in 4 bytes of padding after your 3
integer columns, because the
timestamp column requires
double alignment and needs to start at the next multiple of 8 bytes.
So, one row occupies:
23 -- heaptupleheader
+ 1 -- padding or NULL bitmap
+ 12 -- 3 * integer (no alignment padding here)
+ 4 -- padding after 3rd integer
+ 8 -- timestamp
+ 0 -- no padding since tuple ends at multiple of MAXALIGN
Finally, there is an
ItemData pointer (item pointer) per tuple in the page header (as pointed out by @A.H. in the comment) that occupies 4 bytes:
+ 4 -- item pointer in page header
= 52 bytes
So we arrive at the observed 52 bytes.
pg_relation_size(tbl) / count(*) is a pessimistic estimation.
pg_relation_size(tbl) includes bloat (dead rows) and space reserved by
fillfactor, as well as overhead per data page and per table. (And we didn't even mention compression for long varlena data in TOAST tables, since it doesn't apply here.)
You can install the additional module pgstattuple and call
SELECT * FROM pgstattuple('tbl_name'); for more information on table and tuple size.