\pageno=22 \input texline \centerline{\bf Another Book Review} \medskip \noindent {\it Desktop Publishing Skills, James Felici \& Ted Nace, 180pp, Addison-Wesley, {\sc isbn}:0 201 11537 9.} \smallskip \noindent Perhaps the title may put you off. After all, `desktop publishing' covers such a multitude of sins. But first look at the sub-title: {\it A Primer for Typesetting with Computers and Laser Printers}. This is a far more accurate description (although it might sell fewer books). Felici \& Nace are really talking about computerised typesetting, with low or medium resolution output devices. The book itself was typeset on a Linotron 202, having been prepared with MagnaType. This is a commercial (and rather expensive) typesetting program, which will run from {\sc at}-compatible micros. At the time Felici \& Nace did their book MagnaType had no preview facilities, although current versions of the software do. Since many books on dtp seem to have been done at home (possibly with potato cut-outs), this provides a welcome alternative: it is typeset quality throughout. The authors take some time before they delve into software. They provide a clear and distinct account of the vocabulary of traditional typesetting (and later we realise they also have the vocabulary of computing). At last the jargon that is so often thrown at us: `signatures', `h\&j', `letterspacing', `tracking', `quad left' and so on, is explained. Letterspacing and tracking are rather interesting, since they are features not provided by \TeX. It is interesting to speculate why. Perhaps they were not used by Monotype Modern 8A, the model used by Knuth for Computer Modern (that's {\it why} it is called {\it Modern}: in fact, {\it Modern} doesn't really imply anything recent --- the first {\it modern} typeface was Bodoni's of 1775). Letterspacing refers to a stretching out of the interletter spacing of a line to make it fit better. As far as I can see, squeezing the line does not count. This is commonly found in newspapers (and found also in Felici \& Nace): tracking is a more global concept. Again it involves the interletter spacing, but it does so universally, affecting all interletter spacing equally, everywhere. Tracking is a typographic response to the way the eye reacts to type in different sizes. As type grows in size, the eye perceives the interletter spaces growing faster than the letters themselves. To compensate, the interletter spacing should be proportionately tighter for larger sizes. I assume that the |tfm| files associated with different design sizes help to compensate for this, but of course you could introduce a more tightly tracked font by giving it its own |tfm|. You might have to alter the ligaturing too. A loosely tracked font would probably not require ligaturing at all. Of course you would not be able to alter the tracking in this way for a font with only one design size (like the \PS\ fonts). Naturally there is some discussion on letter forms. At last someone explains something about `the rhythm of vertical strokes' and `stroke frequency'. And the examples bring this out very well. They also explain why there are 72.27\,points to the inch, and not the apparently more rational 72. An America pica is defined as equalling 0.166040\,inches. Presumably this was to obtain an `exact' conversion which still gave about 72 points to the inch. 72 points to the inch gives an irrational conversion for picas to inches. Simple really. Like Richard Southall, they too distinguish {\it font} and {\it typeface}, describing a typeface as a set of characters sharing a common design that distinguishes that typeface from all other character sets, while a font is the physical source from which the typeface is generated ({\it cf\/} fountain --- a source or wellspring). A daisywheel for example can correctly be described as a font. The marks on the paper are not a font. Besides explaining the typographic side they also discuss the hardware --- especially the imaging device (not just {\it laser} printers, but {\it led}, {\it lcs}, {\it ion-deposition} and the rest). And having described the digital nature of the marking engine, they also discuss the digital nature of fonts. They describe outline and bit-mapped fonts, and bring out their relative merits. It should be clear that Felici \& Nace are not going to favour one system over another, and this allows them to look at a number of {\it page description languages} reasonably objectively. How does \TeX\ fare? Quite well. References to \TeX\ crop up a few times, and an example occurs under `Professional Composition Systems'. The example is actually from \AmSTeX, but the principles are the same. One of the achievements of Felici \& Nace is that once they have explained something, it sounds rather obvious. They make it all sound quite easy and straightforward. In the last chapter they consider the assembly of a dtp system, outlining several sets of criteria which can be used to evaluate different systems, in the light of perceived needs. This provides a set of reasonably objective criteria. In the end though, choice of an appropriate system depends to a large extent on knowing what it is you want to do. Right at the end of the book is a glossary of terms, quite useful in its own right. The index is more useable than some I have seen. I have no hesitation in recommending this book to anyone with any interest in getting more out of computerised typesetting. It is easily the best book I have yet seen on the subject, both in terms of its treatment of the subject, and in the presentation of the material. For once, form and content enhance one another. \rightline{\sl Malcolm W Clark}