summaryrefslogtreecommitdiff
path: root/usergrps/uktug/baskervi/3_1/shape.tex
blob: 88d9b21c2ac687522eb4dc38e3b2bfa573e94d23 (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
\title{Typesetting paragraphs of a specified shape}
\author[Donald Arseneau]{Donald Arseneau\\{\tt asnd@reg.triumf.ca}}
\begin{article}
\noindent ({\em Editor's note}: This description of an unusual macro
file, {\tt shapepar.sty}, is taken from the documentation;
the full style file can be
found in CTAN archives.)

\medskip

\noindent \verb|\shapepar| is a macro to typeset paragraphs of a
specified shape.  The total size is adjusted automatically so that the
entire shape is filled with text.  This is distinct from the normal
\verb|\parshape| command which specifies a shape {\em and} a size,
which may be only partially filled, or over-filled, from top to
bottom.  In a \verb|\shapepar| there can be no displayed math, and no
\verb|\vadjust| material, (including \verb|\vspace|).
\verb|\Shapepar| (capital S) is just like \verb|\shapepar| except the
paragraph is boxed so it cannot be split over two pages.  Shaping
paragraphs this way is a slow process, so this style is mainly
intended for cards, invitations etc., not for whole books!  Although
short paragraphs process much faster, only long paragraphs accurately
fill complex shapes.

These macros work for both \LaTeX\ and plain \TeX.  For \LaTeX,
specify \verb|\documentstyle[...shapepar...]|, or for either,
\verb|\input shapepar.sty|.

The command \verb|\shapepar| should be used at the beginning of a paragraph,
and it applies to the entire paragraph.  There is one parameter: a
description of the shape, <{\em shape\_spec}>.
\begin{verbatim}
  \shapepar {<shape_spec>} Text of para...
\end{verbatim} 
The syntax rules for <{\em shape\_spec}> are very
specific, and must be followed closely.  (In these rules, \verb|{ }|
mean explicit braces, \verb|[ ]| denote optional parts, \verb|< >|
surround a keyword that is defined (perhaps loosely), and \verb@|@
means ``or''; do not type \verb|[ ] < >| or \verb@|@, only \verb|{}|.)

\begin{footnotesize}
\begin{verbatim}
<shape_spec}> = {<h_center>} <lines>
<lines> = <line_spec> [\\<lines>]
\end{verbatim} 
\end{footnotesize}

That is, the shape is specified as a single number in braces, followed
by the specifications for the lines, with the lines separated by
\verb|\\|. The final paragraph will have its <{\em h\_center}>
position centered on the page.  <{\em h\_center}> is a number
(like 10.5) of arbitrary units; whatever units are used for lengths
and positions in the <{\em lines}>, they just need to be consistent.

The lines in the spec are not lines of text; nor are they the lines
that you would use to draw the shape itself.  They are horizontal
scans across the shape at irregular intervals.  Curved shapes need
many scan lines for accurate rendering while simple shapes need few.
Draw a shape on paper, then draw a series of horizontal lines across
the shape, including lines that just touch the top and the bottom of
the figure.  Each line crosses over pieces of the figure in some region.
These intersections of line and figure define a <{\em line\_spec}>.

\begin{footnotesize}
\begin{verbatim}
<line_spec> = {<v_pos>} <segment> [ other <segment>s ]
\end{verbatim}
\end{footnotesize}

The <{\em v\_pos}> is the vertical position of the line.  Each
<{\em line\_spec}> must have a position greater than or equal to
that of the previous line, and with all <{\em v\_pos}> $> -1000$.
Position is measured from top to bottom, and always moving down. Each
<{\em segment}> represents a region where text will go in the final
paragraph; it is the segment of the horizontal scan line that overlaps
the body of the figure.  There are five types of segment:

\begin{footnotesize}
\begin{verbatim}
<segment> = t{pos}{len} | b{pos} | e{pos} | s | j
\end{verbatim}
\begin{tabular}{lp{5.5cm}}
\verb|b{pos}|     &begin text at a point at horizontal position pos\\
\verb|e{pos}|     &end text at a point at horizontal position pos\\
\verb|t{pos}{len}|&make a block of text at position pos with length len\\
\verb|s|          &split text (begin whitespace)\\
\verb|j|          &join two text blocks (end a gap)\\
\end{tabular}
\end{footnotesize}

The most common type of segment is $t$ (text).  The other types are
degenerate in that they are single points rather than finite segments.
Types $s$ and $j$ have no explicit position, but they must appear between
text segments, and those texts should abut; e.g.,  \verb|t{3}{2}st{5}{4}|
(text from 3 to 5 and text from 5 to 9).

Let's jump right into a simple example, and the meanings will be
clearer.  A ``diamond'' shape can have the four vertices:

\begin{verbatim}
                   (x=1,y=0)
                       .
  +---> x
  !          (0,1) .       . (2,1)
  !
  V y                  .
                     (1,2}
\end{verbatim}

This shape can be exactly specified by just three scan lines passing
through the vertices.  The specification is:

\begin{footnotesize}
\noindent\begin{tabular}{lp{5.5cm}}
\verb|{1}%|&     {\em h\_center}: $x$ = 1\\
\verb|{0}b{1}\\%|&     text block begins at point $y$=0, $x$=1\\
\verb|{1}t{0}{2}\\%|&  this scan (at $y$=1) crosses text (len=2) starting at $x$=0\\
\verb|{2}e{1}|&        text block ends at point $y$=2, $x$=1\\
\end{tabular}
\end{footnotesize}

Other specification lines, like
\verb|{1.5}t{0.5}{1}\\%|
could be inserted, but would make no difference--the shape is
interpolated linearly between scan lines.

Every block of text must start with a $b$ specifier and end with an $e$
spec. on some line below.  Every segment specified by $t$ must have a
length greater than zero. If two blocks of text merge to form one (like
at the top of a heart shape) there should be a $j$ spec at the point of
junction.  If one block bifurcates (like at the top of a hole in a
doughnut) there should be an $s$ spec.

Thus, the first line for any valid shape description must consist
of only $b$ segment descriptors; the last line can only have $e$ type
descriptors.  Although the definition of the units is arbitrary, the
numbers should range in magnitude from \verb|~|$.1 - 100$ to avoid numeric
overflows and underflows.

If there are errors in the format of the specification,
\verb|\shapepar| might complain with the error message ``Shaped
Paragraph Error: Error in specification.  Check carefully!''  At this
point you may as well type {\tt x} or {\tt e}, as there is very little
chance that \TeX\ will continue successfully.  You might also get one
of \TeX's regular error messages, like ``Illegal unit of measure (pt
inserted).''  or `` Missing number, treated as zero.''  or you might
get no error message at all, just ridiculous formatting.  Check shape
syntax carefully against the rules and the examples before running
them through \TeX.

What to do if the figure does not start at a point--if it has a flat
top?  It can start at a single point, but have the next scan line at
the same vertical position!  A square paragraph is specified by:

\begin{footnotesize}
\begin{tabular}{ll}
\verb|{1} %|&          centerline at $x$=1 \\
\verb|    %|&          ($x$=1 is horizontally centered on page)\\
\verb|{0}b{0}\\%|&     begin at (0,0)\\
\verb|{0}t{0}{2}\\%|&  text at $y$=0, width=2\\
\verb|{2}t{0}{2}\\%|&  text at $y$=2, width=2\\
\verb|{2}e{1}%|&       end at (1,2)\\
\end{tabular}
\end{footnotesize}


Both \verb|\diamondpar| and \verb|\squarepar| are defined as
paragraphs with these shapes.

\begin{small}
\Shapepar{\diamondshape}
Sit at word processor for two hours composing title for new book.
Head for tea room at 11 0'clock where six colleagues are sitting
round walls in silence.  Reminds me of mental hospital day room but
no strait jackets, except perhaps intellectual.  Make coffee with
back to them in order to surreptitiously use someone else's milk
from fridge.  Wonder why no one ever asks me what I have been doing
in the department for the last three years.  Listen to sudden burst
of animated conversation about new Mac software, and realise that my
social isolation is due to the fact that I have an Amstrad.  

\end{small}

Now let's get more ambitious.  A heart shape must have two simultaneous
beginnings, a short stretch of separate text, ending with a join,
thereafter there is just one stretch of text leading to the final
bottom point.  This shape has many scan lines so that the smooth
flowing curves are preserved.

\begin{footnotesize}
\begin{verbatim}
\def\heartshape{%
{20}{0}b{13.32}b{26.68}%
\\{.14}t{10.12}{4.42}t{25.46}{4.42}%
\\{.7}t{9.14}{7.16}t{23.7}{7.16}%
\\{1.4}t{8.4}{9.02}t{22.58}{9.02}%
\\{2.1}t{7.82}{10.42}t{21.76}{10.42}%
\\{2.8}t{7.36}{11.58}t{21.06}{11.58}%
\\{3.5}t{6.98}{12.56}t{20.46}{12.56}%
\\{4.2}t{6.68}{13.32}jt{20}{13.32}%
\\{4.9}t{6.48}{27.04}%
\\{5.6}t{6.34}{27.32}%
\\{6.3}t{6.28}{27.44}%
\\{7}t{6.26}{27.48}%
\\{7.7}t{6.27}{27.46}%
\\{8.4}t{6.32}{27.36}%
\\{9.1}t{6.4}{27.2}%
\\{9.8}t{6.52}{26.96}%
\\{10.5}t{6.68}{26.64}%
\\{11.9}t{7.12}{25.76}%
\\{13.3}t{7.72}{24.56}%
\\{14.7}t{8.51}{22.98}%
\\{16.1}t{9.5}{21}%
\\{17.5}t{10.69}{18.62}%
\\{18.9}t{12.08}{15.84}%
\\{20.3}t{13.7}{12.6}%
\\{21.7}t{15.62}{8.76}%
\\{22.4}t{16.7}{6.6}%
\\{23.1}t{17.87}{4.26}%
\\{24.6}e{20}%
}
\end{verbatim}
\end{footnotesize}

\begin{small}
\Shapepar{\heartshape}
Sit at word processor for two hours composing title for new book.
Head for tea room at 11 0'clock where six colleagues are sitting
round walls in silence.  Reminds me of mental hospital day room but
no strait jackets, except perhaps intellectual.  Make coffee with
back to them in order to surreptitiously use someone else's milk
from fridge.  Wonder why no one ever asks me what I have been doing
in the department for the last three years.  Listen to sudden burst
of animated conversation about new Mac software, and realise that my
social isolation is due to the fact that I have an Amstrad.  

\end{small}

Look at \verb|\heartshape| and find the two $b$ specifiers at the
beginning; find the $j$ a few lines below. Notice that above the $j$
there are two segments per line, but only one below it; the text to
the left and right of the join meet at the join point: 20.  I drew
this heart freehand, and measured lengths from the sketch, so you
should be able to do better!

Text can have holes.  For example, a doughnut-shape would have a  $b$ on
the first line, followed by some lines with a single $t$,  then a line with
$t$ $s$ $t$ at the start of the hole. The hole is represented by lines with two
$t$ specs--the gap between them is the hole.  A line with  $t$ $j$ $t$ ends the
hole.  There are more lines with single $t$, and then an $e$ line to end
with.  Our final example is a nut.  Not a doughnut, but a hex-nut (for a
machine screw) --- a regular hexagon with a circular hole in the center.
The hexagon is flat on top and bottom so the specification begins and
ends like the square shape. The circle is rendered as a 24-gon, beginning
with a split ($s$) of the surrounding text and ending with a join ($j$).  If
the spacing of the scan lines looks odd, it is because the hexagon alone
would need few scans, but the circle needs many; the points on the circle
are at 15 degree intervals.

\begin{footnotesize}
\begin{verbatim}
\def\nutshape{%
{0}%
{0}b{0}\\%
{0}t{-12.5}{25}\\%
{11.65}t{-19.23}{19.23}st{0}{19.23}\\%
{11.99}t{-19.42}{16.835}t{2.59}{16.835}\\%
{12.99}t{-20}{15}t{5}{15}\\%
{14.58}t{-20.92}{13.85}t{7.07}{13.85}\\%
{16.65}t{-22.11}{13.45}t{8.66}{13.45}\\%
{19.06}t{-23.51}{13.85}t{9.66}{13.85}\\%
{21.65}t{-25}{15}t{10}{15}\\%
{24.24}t{-23.51}{13.85}t{9.66}{13.85}\\%
{26.65}t{-22.11}{13.45}t{8.66}{13.45}\\%
{28.72}t{-20.92}{13.85}t{7.07}{13.85}\\%
{30.31}t{-20}{15}t{5}{15}\\%
{31.31}t{-19.42}{16.835}t{2.59}{16.835}\\%
{31.65}t{-19.23}{19.23}jt{0}{19.23}\\%
{43.3}t{-12.5}{25}\\%
{43.3}e{0}%
}
\end{verbatim}
\end{footnotesize}

\begin{small}
\Shapepar{\nutshape}
Sit at word processor for two hours composing title for new book.
Head for tea room at 11 0'clock where six colleagues are sitting
round walls in silence.  Reminds me of mental hospital day room but
no strait jackets, except perhaps intellectual.  Make coffee with
back to them in order to surreptitiously use someone else's milk
from fridge.  Wonder why no one ever asks me what I have been doing
in the department for the last three years.  Listen to sudden burst
of animated conversation about new Mac software, and realise that my
social isolation is due to the fact that I have an Amstrad.  

\end{small}

\verb|\shapepar| cheats a bit when the horizontal gap between two bits of text
is small (like down in the notch of \verb|\heartpar|).  When the gap is less
than an inter-word space it is eliminated, and the texts are joined; when
it is somewhat larger it is expanded to give it more visibility. 

Since the processing is slow, there are some messages to say how
things are going.  These can be eliminated to save space (Put a \% at
the start of every \verb|\message| line.)  Or you can get even more
verbose messages by {\em removing} the \% that precedes many other
\verb|\message| commands.

There are also a number of parameters which can be changed to affect
the size-optimization procedure. Search for the word {\em optimize} in
the source.

\end{article}