# Array of records in HLA, error in the Art of Assembly book?

I'm currently trying to learn HLA assembler and I'm reading the Art of Assembly book. I'm stuck at the following example:

```
type
recType:
record
arrayField: dword[4,5];
// Other fields
..
endrecord;

static
aryOfRecs: recType[3,3];

// Access aryOfRecs[i,j].arrayField[k,l]:

intmul( 5, i, ebx ); // Computes index into aryOfRecs
add( j, ebx ); // as (i*5 +j)*@size( recType ).
intmul( @size( recType ), ebx );

intmul( 3, k, eax ); // Computes index into aryOfRecs
add( l, eax ); // as (k*3 + j) (*4 handled later).

mov( aryOfRecs.arrayField[ ebx + eax*4 ], eax );

```

So, first of all. recType is a record, having arrayField: dword [4,5] plus - some other, unspecified fields. Then - we've got aryOfRecs which is an array [3,3] of recType declared in a static section. That's ok.

Currently, the code multiplies ebx by @size( recType ) to compute the address of the inner array (arrayField[4,5]), which doesn't make any sense, imho.

So, the whole formula in the book for the address computation works like this:

BASE ADDRESS (aryOfRecs) + (k*3+l)*4 + ((i*5+j)* @size( recType )

I guess it should be:

So, either - Randall Hyde has made a mistake in this example (and yes, I've checked the errata on HLA page. It says nothing about this), or I'm having a brainfart since yesterday ;>

The last line is: mov( aryOfRecs.arrayField[ ebx + eax*4 ], eax );

Basically, it sums up the OFFSET(aryOfRecs) + OFFSET(arrayField) + OFFSET(ebx) + OFFSET(eax*4)

arrayField is the first field in the recType record, so I've assumed that in this particular case - the value of the offset of arrayField (in relation to recType) would be +0. It basically - maps at the beginning of the recType. So I guess it has been included only as a general rule, to cover the cases in which the order of the fields within recType record would've been different (and arrayField wouldn't be the first field in the recType). So - I've skipped the value of OFFSET(arrayField) in the two formulas, above.

And again - OFFSET(eax*4) goes with "outer" array. Multiplying eax by the size of the dword (4) - doesn't make any sense..

So, I'd expect the code to do something like this:

```
intmul( 5, i, ebx ); // Computes index into aryOfRecs arrayField
add( j, ebx ); // as (i*5 +j)*@size( recType ) as (i*5 +j)*4 or (i*5 +j)*@size(dword)
// *4 is handled later, in the last line with a scaled-index addressing,
// to save one (shl ebx by 2 or intmul ebx by 4) instruction
intmul( @size( recType ), ebx );

intmul( 3, k, eax ); // Computes index into aryOfRecs
add( l, eax ); //  as (k*3 + j)(*4 handled later) as (k*3 + l)*@size(recType)
intmul( @size( recType ), eax );

mov( aryOfRecs.arrayField[ ebx + eax*4 ], eax );
mov( aryOfRecs.arrayField[ ebx*4 + eax], eax ); //ebx*4 because @size(dword) = 4