Rethink the generation rule for fmgroids.h macros.
Traditionally, the names of fmgroids.h macros for pg_proc OIDs have been constructed from the prosrc field. But sometimes the same C function underlies multiple pg_proc entries, forcing us to make an arbitrary choice of which OID to reference; the other entries are then not namable via fmgroids.h. Moreover, we could not have macros at all for pg_proc entries that aren't for C-coded functions. Instead, use the proname field, and append the proargtypes field (replacing inter-argument spaces with underscores) if proname is not unique. Special-casing unique entries such as F_OIDEQ removes the need to change a lot of code. Indeed, I can only find two places in the tree that need to be adjusted; while this changes quite a few existing entries in fmgroids.h, few of them are referenced from C code. With this patch, all entries in pg_proc.dat have macros in fmgroids.h. Discussion: https://postgr.es/m/472274.1604258384@sss.pgh.pa.us
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Tom Lane
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fd2997565c
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@ -779,7 +779,7 @@ contain_volatile_functions_not_nextval(Node *clause)
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static bool
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contain_volatile_functions_not_nextval_checker(Oid func_id, void *context)
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{
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return (func_id != F_NEXTVAL_OID &&
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return (func_id != F_NEXTVAL &&
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func_volatile(func_id) == PROVOLATILE_VOLATILE);
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}
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@ -64,22 +64,26 @@ foreach my $datfile (@ARGV)
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# Collect certain fields from pg_proc.dat.
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my @fmgr = ();
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my %proname_counts;
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foreach my $row (@{ $catalog_data{pg_proc} })
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{
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my %bki_values = %$row;
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# Select out just the rows for internal-language procedures.
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next if $bki_values{prolang} ne 'internal';
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push @fmgr,
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{
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oid => $bki_values{oid},
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name => $bki_values{proname},
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lang => $bki_values{prolang},
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strict => $bki_values{proisstrict},
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retset => $bki_values{proretset},
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nargs => $bki_values{pronargs},
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args => $bki_values{proargtypes},
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prosrc => $bki_values{prosrc},
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};
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# Count so that we can detect overloaded pronames.
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$proname_counts{ $bki_values{proname} }++;
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}
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# Emit headers for both files
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@ -122,13 +126,10 @@ print $ofh <<OFH;
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/*
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* Constant macros for the OIDs of entries in pg_proc.
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*
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* NOTE: macros are named after the prosrc value, ie the actual C name
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* of the implementing function, not the proname which may be overloaded.
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* For example, we want to be able to assign different macro names to both
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* char_text() and name_text() even though these both appear with proname
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* 'text'. If the same C function appears in more than one pg_proc entry,
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* its equivalent macro will be defined with the lowest OID among those
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* entries.
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* F_XXX macros are named after the proname field; if that is not unique,
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* we append the proargtypes field, replacing spaces with underscores.
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* For example, we have F_OIDEQ because that proname is unique, but
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* F_POW_FLOAT8_FLOAT8 (among others) because that proname is not.
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*/
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OFH
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@ -186,14 +187,20 @@ print $tfh <<TFH;
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TFH
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# Emit #define's and extern's -- only one per prosrc value
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# Emit fmgroids.h and fmgrprotos.h entries in OID order.
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my %seenit;
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foreach my $s (sort { $a->{oid} <=> $b->{oid} } @fmgr)
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{
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next if $seenit{ $s->{prosrc} };
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$seenit{ $s->{prosrc} } = 1;
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print $ofh "#define F_" . uc $s->{prosrc} . " $s->{oid}\n";
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print $pfh "extern Datum $s->{prosrc}(PG_FUNCTION_ARGS);\n";
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my $sqlname = $s->{name};
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$sqlname .= "_" . $s->{args} if ($proname_counts{ $s->{name} } > 1);
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$sqlname =~ s/\s+/_/g;
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print $ofh "#define F_" . uc $sqlname . " $s->{oid}\n";
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# We want only one extern per internal-language function
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if ($s->{lang} eq 'internal' && !$seenit{ $s->{prosrc} })
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{
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$seenit{ $s->{prosrc} } = 1;
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print $pfh "extern Datum $s->{prosrc}(PG_FUNCTION_ARGS);\n";
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}
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}
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# Create the fmgr_builtins table, collect data for fmgr_builtin_oid_index
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@ -206,22 +213,16 @@ my $last_builtin_oid = 0;
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my $fmgr_count = 0;
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foreach my $s (sort { $a->{oid} <=> $b->{oid} } @fmgr)
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{
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next if $s->{lang} ne 'internal';
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print $tfh ",\n" if ($fmgr_count > 0);
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print $tfh
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" { $s->{oid}, $s->{nargs}, $bmap{$s->{strict}}, $bmap{$s->{retset}}, \"$s->{prosrc}\", $s->{prosrc} }";
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$fmgr_builtin_oid_index[ $s->{oid} ] = $fmgr_count++;
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$last_builtin_oid = $s->{oid};
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if ($fmgr_count <= $#fmgr)
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{
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print $tfh ",\n";
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}
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else
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{
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print $tfh "\n";
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}
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}
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print $tfh "};\n";
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print $tfh "\n};\n";
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printf $tfh qq|
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const int fmgr_nbuiltins = (sizeof(fmgr_builtins) / sizeof(FmgrBuiltin));
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@ -10144,7 +10144,7 @@ get_from_clause_item(Node *jtnode, Query *query, deparse_context *context)
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RangeTblFunction *rtfunc = (RangeTblFunction *) lfirst(lc);
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if (!IsA(rtfunc->funcexpr, FuncExpr) ||
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((FuncExpr *) rtfunc->funcexpr)->funcid != F_ARRAY_UNNEST ||
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((FuncExpr *) rtfunc->funcexpr)->funcid != F_UNNEST_ANYARRAY ||
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rtfunc->funccolnames != NIL)
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{
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all_unnest = false;
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