summaryrefslogtreecommitdiff
path: root/usergrps/uktug/baskervi/5_2/granger.tex
blob: 90feab9794494cdf3a2f8046bb8feb9d9019823c (plain)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
300
301
302
303
304
305
306
307
308
309
310
311
312
313
314
315
316
317
318
319
320
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337
\def\psp{\vspace{6pt}}



\title{The Inside Story of Life at Wiley with SGML, \LaTeX\ and Acrobat}
\author[Geeti Granger]{Geeti Granger\\
John Wiley \& Sons Ltd, \\Baffins Lane,\\ Chichester,
W. Sussex PO19 IUD}
\begin{Article}

\section{Introduction}
As a brief introduction I should say that John Wiley \& Sons is
a scientific, technical and medical publisher. It
is an independent, American family-owned company that was established in
1807, with subsidiaries in Europe, Canada, Australia and
Singapore. The European subsidiary opened in London in 1960 and
moved to Chichester in 1967 (if folklore is to be believed this
was so that the then Managing Director could more easily pursue his
love of sailing!).

We publish books, including looseleaf and encyclopaedias, and
journals, and most recently electronic versions of some of our
printed products. In the future the electronic component of our
publishing programme is bound to include products that are only
available electronically.

\section{Setting the Scene}
Now to the topic in hand---Portable Documents: Acrobat, SGML and
\TeX. Our association with \TeX\ dates back to 1984 when we made
the significant decision to install an in-house system for text
editing and composition. It was the only software available that
wasn't proprietary, which stood a chance of coping with the
complex mathematical material we had to set.

As a company we have monitored the progress of SGML since 1985,
but have only recently used it in earnest. Our first project is
a 5000 page encyclopaedia about Inorganic Chemistry. We rarely get
the opportunity to dip our toes in the water---it's straight
in at the deep-end! Having said this, we do have a set of generic
codes that has been used for a number of years, and everyone is
well aware of the principles involved and the value of this
approach to coding data.

Adobe Acrobat was launched in June 1993. Our experience of this
software dates back a little further than this, because of our
links with Professor David Brailsford and the Electronic
Publishing Research Group at the University of Nottingham, and their
work on the CAJUN (CD-ROM Acrobat Journals Using Networks)
project, which we jointly sponsored with Chapman \& Hall.

\section{Complementary not Competitive}
The first thing to make clear is that SGML, \TeX\ and Acrobat do
not compete with each other in any way. SGML is a method of
tagging data in a system-independent way. \TeX\ is one possible
way of preparing this data for presentation on paper, while Acrobat is
software capable of delivering data electronically for viewing 
on screen, or for committing to paper.

From our point of view the fundamental requirement for:

\begin{itemize}
\item{capturing data}

\item{processing data (text and graphics)}

\item{delivering data (paper/disk/CD/Internet)}

\end{itemize}
is to remain system independent for as long as possible.

SGML, \TeX\ and Acrobat achieve this in their part of the whole
process. PostScript provides the link that completes the chain.

\section{SGML in Practice}
To describe our experience with SGML I will use the {\it Encyclopedia
of Inorganic Chemistry\/} as a case study. This encyclopaedia is an 8
volume set made up of 5000 large-format, double-column pages
(more than 3 million words). The data consists of approximately
250 articles interspersed with 750 definitions and 750 
cross-reference entries.  The text was marked-up and captured using SGML,
validated and preprocessed for typesetting. The floating
elements (all 2300 figures, 8000 equations, 2000 structures,
1100 schemes and 900 tables) were prepared electronically and
delivered as encapsulated PostScript files. Some 150 halftones,
about a third of which are colour, complete the data set!
 
Despite the complex nature of this project, or maybe because of
it, we were convinced that using SGML was the right approach. We had
to be very sure because this decision presented us with many
additional difficulties. Different considerations had to be made 
at all stages of the production process. (Manufacturing remained
untouched.)

Initially, having established the probable requirement for an
electronic version, there was the need to justify the use of
SGML because of:

\begin{itemize}
\item{the extra cost involved in data capture}

\item{the different working practices that had to be established}

\item{the project management overhead}

\item{the need to find new suppliers, and the risks that this
involved for such a large, high profile project}.

\end{itemize}

\subsection{Production Considerations}
This project had an external Managing Editor to commission and
receive contributions before it became a live project for us.
Once contributions started to arrive it very quickly became
apparent that a project management team was needed if this
project was to succeed. The initial steps had to be ones of
project analysis, determining data flow, deciding who was
responsible for what, and ensuring that a progress reporting system
was established. It certainly semed like a military operation at
times.

Having made the decision to go with SGML and to ensure that all
components were captured electronically we had to find a set of
new suppliers. None of our regular suppliers could meet our
specifications. Locating potential suppliers was the first
hurdle, and then assessing their suitability was the next.
Having done this we then had to draw them all together to
establish who did what, and who was responsible for what.
It had to be a team effort from start to finish and regular
progress meetings involving representatives of all parties was
the key to an ultimately successful project.

\subsection{Problems Encountered}
One of the first considerations was how on earth do we name the
files? To ensure portability we set ourselves the restriction of
the eight plus three DOS convention. It took some time but we
achieved it in the end so you can now identify from the file
name the type of text entry, the type of graphics and whether it
is single or double column or landscape, and its sequential
placement within its type. When you consider the number of files
involved, this was no mean feat.

Designing the DTD without all the material available is not the
best way to start, but needs must. It meant that some amendments had
to be made as the project progressed but none of them proved to be too significant.

Choosing Adobe typefaces, to avoid problems later on, meant that some
compromises had to be made. Many people feel that the Adobe version
of Times is not as elegant as some. 

Also the quality of the typesetting, hyphenation and justification,
interword spacing and overall page make-up is not as high as that
normally achieved by a dedicated chemistry typesetter.

In addition to the above, we found a bug in Adobe Illustrator!
Because the EPS files were being incorporated electronically the
accuracy of the bounding-box coordinates was crucial. To cut a
long story short they weren't accurate. We spent quite some time
establishing the cause of the problem and then had to have a
program written to resolve it.

This is not an exhaustive list but I think it will give you a
feel for the practical issues involved. Having shared
all this with you I should add that all of us involved in the
original recommendations remain convinced that it was the right
approach. In fact we are now processing two more projects in the same
way!

\section{\LaTeX\ in Practice}
We've done far too many projects in \TeX\ (many in Plain, but a
growing number in \LaTeX) to select one as a case study. What I
can do is very readily identify the production issues involved
in using this software in a commercial environment.


\subsection{Steps in the Process}
Establishing ourselves as a forward-thinking, progressive
company by developing in-house expertise has brought with it
certain pressures. In the early days, not only did we have to
learn how to use \TeX, we also had to make it achieve typesetting
standards expected of more sophisticated systems. Our colleagues
could not see why they should accept lower standards from
us---after all they were paying us (we operate a recharge system
so that it doesn't distort the project costing when compared
with externally processed projects).

Next came the requests for us to supply style files. Authors
knew we used the same software as they did, and wanted to prepare
their submission so it looked like the finished product. Some
wanted to produce camera-ready copy. In principle this would
seem a sensible idea; in fact our commissioning editors,
especially those who handle a number of CRC projects, thought it
was a brilliant idea. It would save them an immense amount of
time and hassle.

Now, preparing style files for in-house use is one thing;
preparing them for use by others is something else again. We
have to work within strict time and cost constraints, and there are
many occasions (dare I admit it?) when we have to resort to, shall we
say, less than the most sophisticated way of achieving the required
visual result!

When I have attended courses on \TeX\ and have asked about writing
style files the answer has often been along the lines of `leave
it to the professionals'. (I should say it's usually people who
make their living in this way who give this response.) This may be
fine if a) you can find and afford the professional; b) you don't
need to support the file when it is in general use. In our
experience the first is difficult to do and the second is an
impossibility. The need to support style files cannot be ignored; once they
have been provided, no matter on what pre-agreed conditions,
queries will arise. It can be very time-consuming, as often
queries are not restricted to the style file, but relate to the
sytem being used. It can also take a while to establish the
context of the query, resolve it and respond. To meet the expectation that
we will support, customise at short notice, resolve technical
issues, and communicate via e-mail (preferably responding within
the hour) can be difficult, given the level of human resource available.

Once you've got over this initial stage, the practical issues
involved in accepting \LaTeX\ submissions can be many. Delivery
is the first. Now that we have the ability to receive data
electronically our authors cannot understand why we hesitate,
and why we still insist on hard copy. Experience tells us that,
without hard copy, it is difficult to be sure we have received
the final version, and discovering this after a project has been
processed is very costly, both in time and money. Any submission
that circumvents a stage in the current administration process
may drop through a hole and end up taking more time, rather than
less, to reach publication.  Consideration is being given to
this issue, and there is no doubt that in the future electronic
delivery will be an acceptable method of submission, but in the
meantime everyone has to be patient.

Copy-editing remains a conventional process in the main,
although experiments are taking place with copy-editing on disk.
This issue is not resticted to \LaTeX\ projects, but the rate of
progress is dictated by the ability of our freelance
copy-editors to provide this service.

Once you move on to the processing stage the first thing you
have to do is find a supplier who is capable of actually
processing in this software. This is easier said than done,
because it is not considered to be cost-effective by most of our
regular suppliers. However, as a result of our persistent
requests, some can now provide this service, so we don't have to
process all such submissions in-house.

From our own experience we know that producing page proofs is not
always straightforward. Over the years we have struggled with
amending style files to achieve the correct layout and controlling
page make-up. Now that authors are submitting graphics on disk,
as well as the text, we are faced with another set of problems.
Portability of graphic formats is even more difficult to
achieve. I think the number of answers to the question `When is
a PostScript file (or EPS file) not a portable PostScript file?' must
be infinite. Even when the content of the file itself is OK,
you can still be faced with problems in achieving the required size and
position on the page.

Despite all these disadvantages our lives would not be the same
without \LaTeX, and when compared with processing in other
software it can be a real joy! Our archive of projects coded in
a form of \TeX\ will be far easier to reuse than those processed
in other software.

\section{Acrobat at Arm's Length}
Although we haven't used Acrobat on a live project in-house yet, we
have been closely involved with the development of the EPodd CD.
The CAJUN project has been running for well over a year and during
this time the complete archive of volumes 1--6 has been
converted to PDF, annotated to add PDFmarks and generally
massaged into a suitable format for delivery on CD.

As always, the work involved in such a project is more
than anticipated at the outset, but it has been an invaluable
learning exercise. Being involved in the beta-testing of the
software helps you appreciate just how much development work
is required for a new piece of software, and although it currently
has its limitations the future looks good. Version 2, which is
due for release any day now, is much improved, and it is rewarding
to see that many of the comments put forward by members of the
team have been incorporated. 

We are experimenting with small projects in-house to give us a
deeper understanding of the practical advantages and limitations
of Acrobat. It is easy to get caught up in the euphoria and hype that
accompanies the release of a new product, and to overlook the
day-to-day difficulties its rapid adoption might bring. 
Having said this, there is no doubt that it will have a place in
our publishing procedures, and may be used in the production
cycle for journal articles. Provided that the general
administration can cope with the deviation from the norm,
supplying author proofs in this way has its attractions. The fact 
that readers are now freely available and the PDF file can be
read on any of the three main platforms is a real boon.

The use of Acrobat for delivering existing print products in an
electronic form is one worth considering, especially now that it
is possible to integrate it with project-specific software and
the security issue has been addressed.

From an inter-company point of view the perceived use of Acrobat
for distributing internal documents could again have its
attractions. For this to be a real possibility it must be
recognised that the use of such procedures is not an innate
skill, and so the appropriate level of training and support
must be available if it is to be successful.

\section{Conclusion}
The comments I have made and the case study I have described may
leave you with a somewhat negative feeling. I wonder if I have
emphasised the problems and not balanced these by identifying
the plus points. To put this into context I should say that
details of the advantages of any particular approach are usually
more readily available, so I have tried to capture a more
down-to-earth view.

In reality I am very enthusiastic about the use of SGML, \TeX\
and Acrobat, but am also well aware of what their use in a
productive environment can mean. I believe, as do several of my
colleagues, that portability of documents is crucial to our
ability to deliver data efficiently in a variety of forms,
whether this be page-based, highly structured databases or
tagged ASCII files. To this end we must be flexible in our
approach, and must not be afraid of making investments now that
may not bear fruit until some time in the future. This can be a
very unnerving decision to make, and for one I am glad it isn't
ultimately mine. While I can extol the virtues of a purist's
technical approach, obtain the relevant costs and assess the
schedule implications, I do not have the entrepreneurial skills
required to know when a project is commercially viable (or worth
taking a risk on). It is at this point I take my hat off to our
commissioning editors, who have the responsibility for turning
these experiments into profit for us to reinvest in the next Big
Thing!
        
\end{Article}