diff options
author | Jeffrey H. Kingston <jeff@it.usyd.edu.au> | 2010-09-14 19:21:41 +0000 |
---|---|---|
committer | Jeffrey H. Kingston <jeff@it.usyd.edu.au> | 2010-09-14 19:21:41 +0000 |
commit | 71bdb35d52747e6d7d9f55df4524d57c2966be94 (patch) | |
tree | 480ee5eefccc40d5f3331cc52d66f722fd19bfb9 /doc/design/s4_0 | |
parent | b41263ea7578fa9742486135c762803b52794105 (diff) | |
download | lout-71bdb35d52747e6d7d9f55df4524d57c2966be94.tar.gz |
Lout 3.17.
git-svn-id: http://svn.savannah.nongnu.org/svn/lout/trunk@2 9365b830-b601-4143-9ba8-b4a8e2c3339c
Diffstat (limited to 'doc/design/s4_0')
-rw-r--r-- | doc/design/s4_0 | 88 |
1 files changed, 88 insertions, 0 deletions
diff --git a/doc/design/s4_0 b/doc/design/s4_0 new file mode 100644 index 0000000..5f89426 --- /dev/null +++ b/doc/design/s4_0 @@ -0,0 +1,88 @@ +@Section + @Tag { functional } + @Title { Implementation of the functional subset } +@Begin +@PP +The objects and definitions of Lout are very similar to those found in +other functional languages, and they form a natural subset of the +language. So we pause here and present an overview of the Basser Lout +object evaluation algorithm. +@PP +The problem is to take an unsized object (pure parse tree), its +environment (Section {@NumberOf defs.impl}), and its style +(Section {@NumberOf style}), and to produce a PostScript file for +rendering the object on an output device. This file is essentially a +sequence of instructions to print a given string of characters in a +given font at a given point. +@PP +Before the algorithm begins, the parse tree must be obtained, either by +parsing input or by copying from the symbol table. Afterwards the data +structure must be disposed. The algorithm proper consists of five +passes, each a recursive traversal of the structure from the root down +to the leaves and back. +@DP +@I {1. Evaluation of unsized objects.} On the way down, calculate +environments and replace non-recursive, non-receptive symbols by their +bodies (Section {@NumberOf defs.impl}); broadcast fonts to the leaves, +and paragraph breaking and spacing styles to the paragraph nodes. On the +way back up, delete @Eq { FONT }, @Eq { BREAK }, and @Eq { SPACE } nodes, +and insert @Eq { SPLIT }, @Eq { COL }, and @Eq { ROW } nodes +(Section {@NumberOf objects}). +@DP +@I {2. Width calculations and breaking.} Calculate the width of every +subobject from the bottom up. As described in Section {@NumberOf objects}, +@Eq { WIDE } nodes may trigger object breaking sub-traversals during this pass. +@DP +@I {3. Height calculations.} Calculate the height of every subobject, +from the bottom up. +@DP +@I {4. Horizontal coordinates.} Calculate the horizontal coordinate of +each subobject from the top down, and store each leaf's coordinate in +the leaf. +@DP +@I {5. Vertical coordinates and PostScript generation.} Calculate the +vertical coordinate of every subobject from the top down, and at each +leaf, retrieve the character string, font, and horizontal coordinate, +and print the PostScript instruction for rendering that leaf. +@DP +Figure {@NumberOf components} gives the amount of code required for each + +@Figure + @Tag { components } + @Caption { Major components of the Basser Lout interpreter, showing +the approximate number of lines of C code. } +@Begin +@Tab + vmargin { 0.5vx } + @Fmta { @Col @RR A ! @Col B ! @Col @RR C } + @Fmtb { @Col @RR A ! @Col B ! @Col C } +{ + @Rowa A { 1. } B { Initialization } C { 200 } + @Rowa A { 2. } B { Memory allocation, ordered dag operations } C { 400 } + @Rowa A { 3. } B { Lexical analysis, macros, file handling } C { 1,350 } + @Rowa A { 4. } B { Parsing of objects and definitions } C { 1,150 } + @Rowa A { 5. } B { Symbol table and call graph } C { 600 } + @Rowa A { 6. } B { Evaluation of pure parse trees } C { 1,650 } + @Rowa A { 7. } B { Reading, storing, and scaling of fonts } C { 600 } + @Rowa A { 8. } B { Cross references and databases } C { 1,000 } + @Rowa A { 9. } B { Width and height calculations, and breaking } C { 700 } + @Rowa A { 10. } B { @I Constrained and @I AdjustSize } C { 700 } + @Rowa A { 11. } B { Transfer of sized objects into galley tree } C { 450 } + @Rowa A { 12. } B { Galley flushing algorithm } C { 1,500 } + @Rowa A { 13. } B { Coordinate calculations and PostScript output } C { 700 } + @Rowa A { 14. } B { Debugging and error handling } C { 1,200 } + @Rowb vmargin { 0.1c } C { @Line } + @Rowa C { 12,200 } +} +@End @Figure + +pass. Symmetry between horizontal and vertical is exploited throughout +Basser Lout, and passes 2 and 3, as well as 4 and 5, are executed on +shared code. +@PP +The author can see no simple way to reduce the number of passes. The +introduction of horizontal galleys (Section {@NumberOf horizontal}) +would remove the need for the object breaking transformations within this +algorithm that are the principal obstacles in the way of the merging of +passes 2 and 3. +@End @Section |