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|
% This file is part of CWEB.
% This program by Silvio Levy and Donald E. Knuth
% is based on a program by Knuth.
% It is distributed WITHOUT ANY WARRANTY, express or implied.
% Version 4.10 --- August 2023
% Copyright (C) 1987,1990,1993,2000 Silvio Levy and Donald E. Knuth
% Permission is granted to make and distribute verbatim copies of this
% document provided that the copyright notice and this permission notice
% are preserved on all copies.
% Permission is granted to copy and distribute modified versions of this
% document under the conditions for verbatim copying, provided that the
% entire resulting derived work is given a different name and distributed
% under the terms of a permission notice identical to this one.
% Amendments to 'cweave.w' resulting in this updated version were created
% by numerous collaborators over the course of many years.
% Please send comments, suggestions, etc. to tex-k@@tug.org.
% Here is TeX material that gets inserted after \input cwebmac
\def\hang{\hangindent 3em\indent\ignorespaces}
\def\pb{$\.|\ldots\.|$} % C brackets (|...|)
\def\v{\char'174} % vertical (|) in typewriter font
\def\dleft{[\![} \def\dright{]\!]} % double brackets
\mathchardef\RA="3221 % right arrow
\mathchardef\BA="3224 % double arrow
\def\({} % ) kludge for alphabetizing certain section names
\def\TeXxstring{\\{\TEX/\_string}}
\def\skipxTeX{\\{skip\_\TEX/}}
\def\copyxTeX{\\{copy\_\TEX/}}
\def\title{CWEAVE (Version 4.10)}
\def\topofcontents{\null\vfill
\centerline{\titlefont The {\ttitlefont CWEAVE} processor}
\vskip 15pt
\centerline{(Version 4.10)}
\vfill}
\def\botofcontents{\vfill
\noindent
Copyright \copyright\ 1987, 1990, 1993, 2000 Silvio Levy and Donald E. Knuth
\bigskip\noindent
Permission is granted to make and distribute verbatim copies of this
document provided that the copyright notice and this permission notice
are preserved on all copies.
\smallskip\noindent
Permission is granted to copy and distribute modified versions of this
document under the conditions for verbatim copying, provided that the
entire resulting derived work is given a different name and distributed
under the terms of a permission notice identical to this one.
}
\pageno=\contentspagenumber \advance\pageno by 1
\let\maybe=\iftrue
@** Introduction.
This is the \.{CWEAVE} program by Silvio Levy and Donald E. Knuth,
based on \.{WEAVE} by Knuth.
We are thankful to Steve Avery,
Nelson Beebe, Hans-Hermann Bode (to whom the original \CPLUSPLUS/ adaptation
is due), Klaus Guntermann, Norman Ramsey, Tomas Rokicki, Joachim Schnitter,
Joachim Schrod, Lee Wittenberg, Saroj Mahapatra, Cesar Augusto Rorato
Crusius, and others who have contributed improvements.
The ``banner line'' defined here should be changed whenever \.{CWEAVE}
is modified.
@d banner "This is CWEAVE (Version 4.10)"
@c
@<Include files@>@/
@h
@<Common code for \.{CWEAVE} and \.{CTANGLE}@>@/
@<Typedef declarations@>@/
@<Private variables@>@/
@<Predeclaration of procedures@>
@ \.{CWEAVE} has a fairly straightforward outline. It operates in
three phases: First it inputs the source file and stores cross-reference
data, then it inputs the source once again and produces the \TEX/ output
file, finally it sorts and outputs the index.
Please read the documentation for \.{COMMON}, the set of routines common
to \.{CTANGLE} and \.{CWEAVE}, before proceeding further.
@c
int main (
int ac, /* argument count */
char **av) /* argument values */
{
argc=ac; argv=av;
program=cweave;
@<Set initial values@>@;
common_init();
@<Start \TEX/ output@>@;
if (show_banner) puts(banner); /* print a ``banner line'' */
@<Store all the reserved words@>@;
phase_one(); /* read all the user's text and store the cross-references */
phase_two(); /* read all the text again and translate it to \TEX/ form */
phase_three(); /* output the cross-reference index */
if (tracing==fully && !show_progress) new_line();
return wrap_up(); /* and exit gracefully */
}
@ The next few sections contain stuff from the file |"common.w"| that must
be included in both |"ctangle.w"| and |"cweave.w"|. It appears in
file |"common.h"|, which is also included in |"common.w"| to propagate
possible changes from this \.{COMMON} interface consistently.
@i common.h
@ \.{CWEAVE} will use the |INT_MAX| limit in section
|@<Output the code for the beginning...@>| below.
@<Incl...@>=
#include <limits.h>
@* Data structures exclusive to {\tt CWEAVE}.
As explained in \.{common.w}, the field of a |name_info| structure
that contains the |rlink| of a section name is used for a completely
different purpose in the case of identifiers. It is then called the
|ilk| of the identifier, and it is used to
distinguish between various types of identifiers, as follows:
\yskip\hang |normal| and |func_template| identifiers are part of the
\CEE/ program that will appear in italic type (or in typewriter type
if all uppercase).
\yskip\hang |custom| identifiers are part of the \CEE/ program that
will be typeset in special ways.
\yskip\hang |roman| identifiers are index entries that appear after
\.{@@\^} in the \.{CWEB} file.
\yskip\hang |wildcard| identifiers are index entries that appear after
\.{@@:} in the \.{CWEB} file.
\yskip\hang |typewriter| identifiers are index entries that appear after
\.{@@.} in the \.{CWEB} file.
\yskip\hang |alfop|, \dots, |attr|
identifiers are \CEE/ or \CPLUSPLUS/ reserved words whose |ilk|
explains how they are to be treated when \CEE/ code is being
formatted.
@d normal 0 /* ordinary identifiers have |normal| ilk */
@d roman 1 /* normal index entries have |roman| ilk */
@d wildcard 2 /* user-formatted index entries have |wildcard| ilk */
@d typewriter 3 /* `typewriter type' entries have |typewriter| ilk */
@d abnormal(a) ((a)->ilk>typewriter) /* tells if a name is special */
@d func_template 4 /* identifiers that can be followed by optional template */
@d custom 5 /* identifiers with user-given control sequence */
@d alfop 22 /* alphabetic operators like \&{and} or \&{not\_eq} */
@d else_like 26 /* \&{else} */
@d public_like 40 /* \&{public}, \&{private}, \&{protected} */
@d operator_like 41 /* \&{operator} */
@d new_like 42 /* \&{new} */
@d catch_like 43 /* \&{catch} */
@d for_like 45 /* \&{for}, \&{switch}, \&{while} */
@d do_like 46 /* \&{do} */
@d if_like 47 /* \&{if}, \&{ifdef}, \&{endif}, \&{pragma}, \dots */
@d delete_like 48 /* \&{delete} */
@d raw_ubin 49 /* `\.\&' or `\.*' when looking for \&{const} following */
@d const_like 50 /* \&{const}, \&{volatile} */
@d raw_int 51 /* \&{int}, \&{char}, \dots; also structure and class names */
@d int_like 52 /* same, when not followed by left parenthesis or \DC\ */
@d case_like 53 /* \&{case}, \&{return}, \&{goto}, \&{break}, \&{continue} */
@d sizeof_like 54 /* \&{sizeof} */
@d struct_like 55 /* \&{struct}, \&{union}, \&{enum}, \&{class} */
@d typedef_like 56 /* \&{typedef} */
@d define_like 57 /* \&{define} */
@d template_like 58 /* \&{template} */
@d alignas_like 59 /* \&{alignas} */
@d using_like 60 /* \&{using} */
@d default_like 61 /* \&{default} */
@d attr 62 /* \&{noexcept} and attributes */
@ We keep track of the current section number in |section_count|, which
is the total number of sections that have started. Sections which have
been altered by a change file entry have their |changed_section| flag
turned on during the first phase.
@<Private...@>=
static boolean change_exists; /* has any section changed? */
@ The other large memory area in \.{CWEAVE} keeps the cross-reference data.
All uses of the name |p| are recorded in a linked list beginning at
|p->xref|, which points into the |xmem| array. The elements of |xmem|
are structures consisting of an integer, |num|, and a pointer |xlink|
to another element of |xmem|. If |x=p->xref| is a pointer into |xmem|,
the value of |x->num| is either a section number where |p| is used,
or |cite_flag| plus a section number where |p| is mentioned,
or |def_flag| plus a section number where |p| is defined;
and |x->xlink| points to the next such cross-reference for |p|,
if any. This list of cross-references is in decreasing order by
section number. The next unused slot in |xmem| is |xref_ptr|.
The linked list ends at |&xmem[0]|.
The global variable |xref_switch| is set either to |def_flag| or to zero,
depending on whether the next cross-reference to an identifier is to be
underlined or not in the index. This switch is set to |def_flag| when
\.{@@!} or \.{@@d} is scanned, and it is cleared to zero when
the next identifier or index entry cross-reference has been made.
Similarly, the global variable |section_xref_switch| is either
|def_flag| or |cite_flag| or zero, depending
on whether a section name is being defined, cited or used in \CEE/ text.
@<Type...@>=
typedef struct xref_info {
sixteen_bits num; /* section number plus zero or |def_flag| */
struct xref_info *xlink; /* pointer to the previous cross-reference */
} xref_info;
typedef xref_info *xref_pointer;
@ @d max_refs 30000 /* number of cross-references; must be less than 65536 */
@<Private...@>=
static xref_info xmem[max_refs]; /* contains cross-reference information */
static xref_pointer xmem_end = xmem+max_refs-1;
static xref_pointer xref_ptr; /* the largest occupied position in |xmem| */
static sixteen_bits xref_switch,section_xref_switch; /* either zero or |def_flag| */
@ A section that is used for multi-file output (with the \.{@@(} feature)
has a special first cross-reference whose |num| field is |file_flag|.
@d file_flag (3*cite_flag)
@d def_flag (2*cite_flag)
@d cite_flag 10240 /* must be strictly larger than |max_sections| */
@d xref equiv_or_xref
@<Set init...@>=
xref_ptr=xmem; init_node(name_dir); xref_switch=section_xref_switch=0;
xmem->num=0; /* sentinel value */
@ A new cross-reference for an identifier is formed by calling |new_xref|,
which discards duplicate entries and ignores non-underlined references
to one-letter identifiers or \CEE/'s reserved words.
If the user has sent the |no_xref| flag (the \.{-x} option of the command line),
it is unnecessary to keep track of cross-references for identifiers.
If one were careful, one could probably make more changes around section
|@<Match a prod...@>| to avoid a lot of identifier looking up.
@d append_xref(c) if (xref_ptr==xmem_end) overflow("cross-reference");
else (++xref_ptr)->num=c
@d no_xref !make_xrefs
@d is_tiny(p) length(p)==1
@d unindexed(a) ((a)<res_wd_end && (a)->ilk>=custom)
/* tells if uses of a name are to be indexed */
@<Predecl...@>=
static void new_xref(name_pointer);@/
static void new_section_xref(name_pointer);@/
static void set_file_flag(name_pointer);
@ @c
static void
new_xref(
name_pointer p)
{
xref_pointer q; /* pointer to previous cross-reference */
sixteen_bits m, n; /* new and previous cross-reference value */
if (no_xref) return;
if ((unindexed(p) || is_tiny(p)) && xref_switch==0) return;
m=section_count+xref_switch; xref_switch=0; q=(xref_pointer)p->xref;
if (q != xmem) {
n=q->num;
if (n==m || n==m+def_flag) return;
else if (m==n+def_flag) {
q->num=m; return;
}
}
append_xref(m); xref_ptr->xlink=q; update_node(p);
}
@ The cross-reference lists for section names are slightly different.
Suppose that a section name is defined in sections $m_1$, \dots,
$m_k$, cited in sections $n_1$, \dots, $n_l$, and used in sections
$p_1$, \dots, $p_j$. Then its list will contain $m_1+|def_flag|$,
\dots, $m_k+|def_flag|$, $n_1+|cite_flag|$, \dots,
$n_l+|cite_flag|$, $p_1$, \dots, $p_j$, in this order.
Although this method of storage takes quadratic time with respect to
the length of the list, under foreseeable uses of \.{CWEAVE} this inefficiency
is insignificant.
@c
static void
new_section_xref(
name_pointer p)
{
xref_pointer q=(xref_pointer)p->xref;
xref_pointer r=xmem; /* pointers to previous cross-references */
if (q>r)
while (q->num>section_xref_switch) {r=q; q=q->xlink;}
if (r->num==section_count+section_xref_switch)
return; /* don't duplicate entries */
append_xref(section_count+section_xref_switch);
xref_ptr->xlink=q; section_xref_switch=0;
if (r==xmem) update_node(p);
else r->xlink=xref_ptr;
}
@ The cross-reference list for a section name may also begin with
|file_flag|. Here's how that flag gets put~in.
@c
static void
set_file_flag(
name_pointer p)
{
xref_pointer q=(xref_pointer)p->xref;
if (q->num==file_flag) return;
append_xref(file_flag);
xref_ptr->xlink = q;
update_node(p);
}
@ A third large area of memory is used for sixteen-bit `tokens', which appear
in short lists similar to the strings of characters in |byte_mem|. Token lists
are used to contain the result of \CEE/ code translated into \TEX/ form;
further details about them will be explained later. A \&{text\_pointer}
variable is an index into |tok_start|.
@<Typed...@>=
typedef sixteen_bits token;
typedef token *token_pointer;
typedef token_pointer *text_pointer;
@ The first position of |tok_mem|
that is unoccupied by replacement text is called |tok_ptr|, and the first
unused location of |tok_start| is called |text_ptr|.
Thus, we usually have |*text_ptr==tok_ptr|.
@d max_toks 30000 /* number of symbols in \CEE/ texts being parsed;
must be less than 65536 */
@d max_texts 8000 /* number of phrases in \CEE/ texts being parsed;
must be less than 10240 */
@<Private...@>=
static token tok_mem[max_toks]; /* tokens */
static token_pointer tok_mem_end = tok_mem+max_toks-1; /* end of |tok_mem| */
static token_pointer tok_ptr; /* first unused position in |tok_mem| */
static token_pointer max_tok_ptr; /* largest value of |tok_ptr| */
static token_pointer tok_start[max_texts]; /* directory into |tok_mem| */
static text_pointer tok_start_end = tok_start+max_texts-1; /* end of |tok_start| */
static text_pointer text_ptr; /* first unused position in |tok_start| */
static text_pointer max_text_ptr; /* largest value of |text_ptr| */
@ @<Set init...@>=
tok_ptr=max_tok_ptr=tok_mem+1;@/
tok_start[0]=tok_start[1]=tok_mem+1;@/
text_ptr=max_text_ptr=tok_start+1;
@ Here are the two procedures needed to complete |id_lookup|:
@c
boolean names_match(
name_pointer p, /* points to the proposed match */
const char *first, /* position of first character of string */
size_t l, /* length of identifier */
eight_bits t) /* desired |ilk| */
{
if (length(p)!=l) return false;
if (p->ilk!=t && !(t==normal && abnormal(p))) return false;
return !strncmp(first,p->byte_start,l);
}
void
init_node(
name_pointer p)
{
p->xref=(void *)xmem;
}
@ And here's a small helper function to simplify the code.
@d update_node(p) (p)->xref=(void *)xref_ptr
@ We have to get \CEE/'s and \CPLUSPLUS/'s
reserved words into the hash table, and the simplest way to do this is
to insert them every time \.{CWEAVE} is run. Fortunately there are relatively
few reserved words. (Some of these are not strictly ``reserved,'' but
are defined in header files of the ISO Standard \CEE/ Library.
An ever growing list of \CPLUSPLUS/ keywords can be found here:
\.{https://en.cppreference.com/w/cpp/keyword}.)
@^reserved words@>
@<Store all the reserved words@>=
id_lookup("alignas",NULL,alignas_like);
id_lookup("alignof",NULL,sizeof_like);
id_lookup("and",NULL,alfop);
id_lookup("and_eq",NULL,alfop);
id_lookup("asm",NULL,sizeof_like);
id_lookup("auto",NULL,int_like);
id_lookup("bitand",NULL,alfop);
id_lookup("bitor",NULL,alfop);
id_lookup("bool",NULL,raw_int);
id_lookup("break",NULL,case_like);
id_lookup("case",NULL,case_like);
id_lookup("catch",NULL,catch_like);
id_lookup("char",NULL,raw_int);
id_lookup("char8_t",NULL,raw_int);
id_lookup("char16_t",NULL,raw_int);
id_lookup("char32_t",NULL,raw_int);
id_lookup("class",NULL,struct_like);
id_lookup("clock_t",NULL,raw_int);
id_lookup("compl",NULL,alfop);
id_lookup("concept",NULL,int_like);
id_lookup("const",NULL,const_like);
id_lookup("consteval",NULL,const_like);
id_lookup("constexpr",NULL,const_like);
id_lookup("constinit",NULL,const_like);
id_lookup("const_cast",NULL,raw_int);
id_lookup("continue",NULL,case_like);
id_lookup("co_await",NULL,case_like);
id_lookup("co_return",NULL,case_like);
id_lookup("co_yield",NULL,case_like);
id_lookup("decltype",NULL,sizeof_like);
id_lookup("default",NULL,default_like);
id_lookup("define",NULL,define_like);
id_lookup("defined",NULL,sizeof_like);
id_lookup("delete",NULL,delete_like);
id_lookup("div_t",NULL,raw_int);
id_lookup("do",NULL,do_like);
id_lookup("double",NULL,raw_int);
id_lookup("dynamic_cast",NULL,raw_int);
id_lookup("elif",NULL,if_like);
id_lookup("else",NULL,else_like);
id_lookup("endif",NULL,if_like);
id_lookup("enum",NULL,struct_like);
id_lookup("error",NULL,if_like);
id_lookup("explicit",NULL,int_like);
id_lookup("export",NULL,int_like);
id_lookup("extern",NULL,int_like);
id_lookup("FILE",NULL,raw_int);
id_lookup("false",NULL,normal);
id_lookup("float",NULL,raw_int);
id_lookup("for",NULL,for_like);
id_lookup("fpos_t",NULL,raw_int);
id_lookup("friend",NULL,int_like);
id_lookup("goto",NULL,case_like);
id_lookup("if",NULL,if_like);
id_lookup("ifdef",NULL,if_like);
id_lookup("ifndef",NULL,if_like);
id_lookup("include",NULL,if_like);
id_lookup("inline",NULL,int_like);
id_lookup("int",NULL,raw_int);
id_lookup("jmp_buf",NULL,raw_int);
id_lookup("ldiv_t",NULL,raw_int);
id_lookup("line",NULL,if_like);
id_lookup("long",NULL,raw_int);
id_lookup("mutable",NULL,int_like);
id_lookup("namespace",NULL,struct_like);
id_lookup("new",NULL,new_like);
id_lookup("noexcept",NULL,attr);
id_lookup("not",NULL,alfop);
id_lookup("not_eq",NULL,alfop);
id_lookup("NULL",NULL,custom);
id_lookup("nullptr",NULL,custom);
id_lookup("offsetof",NULL,raw_int);
id_lookup("operator",NULL,operator_like);
id_lookup("or",NULL,alfop);
id_lookup("or_eq",NULL,alfop);
id_lookup("pragma",NULL,if_like);
id_lookup("private",NULL,public_like);
id_lookup("protected",NULL,public_like);
id_lookup("ptrdiff_t",NULL,raw_int);
id_lookup("public",NULL,public_like);
id_lookup("register",NULL,int_like);
id_lookup("reinterpret_cast",NULL,raw_int);
id_lookup("requires",NULL,int_like);
id_lookup("restrict",NULL,int_like);
id_lookup("return",NULL,case_like);
id_lookup("short",NULL,raw_int);
id_lookup("sig_atomic_t",NULL,raw_int);
id_lookup("signed",NULL,raw_int);
id_lookup("size_t",NULL,raw_int);
id_lookup("sizeof",NULL,sizeof_like);
id_lookup("static",NULL,int_like);
id_lookup("static_assert",NULL,sizeof_like);
id_lookup("static_cast",NULL,raw_int);
id_lookup("struct",NULL,struct_like);
id_lookup("switch",NULL,for_like);
id_lookup("template",NULL,template_like);
id_lookup("this",NULL,custom);
id_lookup("thread_local",NULL,raw_int);
id_lookup("throw",NULL,case_like);
id_lookup("time_t",NULL,raw_int);
id_lookup("true",NULL,normal);
id_lookup("try",NULL,else_like);
id_lookup("typedef",NULL,typedef_like);
id_lookup("typeid",NULL,sizeof_like);
id_lookup("typename",NULL,struct_like);
id_lookup("undef",NULL,if_like);
id_lookup("union",NULL,struct_like);
id_lookup("unsigned",NULL,raw_int);
id_lookup("using",NULL,using_like);@/
id_lookup("va_dcl",NULL,decl); /* Berkeley's variable-arg-list convention */
id_lookup("va_list",NULL,raw_int); /* ditto */
id_lookup("virtual",NULL,int_like);
id_lookup("void",NULL,raw_int);
id_lookup("volatile",NULL,const_like);
id_lookup("wchar_t",NULL,raw_int);
id_lookup("while",NULL,for_like);
id_lookup("xor",NULL,alfop);
id_lookup("xor_eq",NULL,alfop);@+ res_wd_end=name_ptr;
id_lookup("TeX",NULL,custom);
id_lookup("complex",NULL,int_like);
id_lookup("imaginary",NULL,int_like);
id_lookup("make_pair",NULL,func_template);
@* Lexical scanning.
Let us now consider the subroutines that read the \.{CWEB} source file
and break it into meaningful units. There are four such procedures:
One simply skips to the next `\.{@@\ }' or `\.{@@*}' that begins a
section; another passes over the \TEX/ text at the beginning of a
section; the third passes over the \TEX/ text in a \CEE/ comment;
and the last, which is the most interesting, gets the next token of
a \CEE/ text. They all use the pointers |limit| and |loc| into
the line of input currently being studied.
@ Control codes in \.{CWEB}, which begin with `\.{@@}', are converted
into a numeric code designed to simplify \.{CWEAVE}'s logic; for example,
larger numbers are given to the control codes that denote more significant
milestones, and the code of |new_section| should be the largest of
all. Some of these numeric control codes take the place of |char|
control codes that will not otherwise appear in the output of the
scanning routines.
@^ASCII code dependencies@>
@d ignore 00 /* control code of no interest to \.{CWEAVE} */
@d verbatim 02 /* takes the place of ASCII \.{STX} */
@d begin_short_comment 03 /* \CPLUSPLUS/ short comment */
@d begin_comment '\t' /* tab marks will not appear */
@d underline '\n' /* this code will be intercepted without confusion */
@d noop 0177 /* takes the place of ASCII \.{DEL} */
@d xref_roman 0203 /* control code for `\.{@@\^}' */
@d xref_wildcard 0204 /* control code for `\.{@@:}' */
@d xref_typewriter 0205 /* control code for `\.{@@.}' */
@d TeX_string 0206 /* control code for `\.{@@t}' */
@f TeX_string TeX
@d ord 0207 /* control code for `\.{@@'}' */
@d join 0210 /* control code for `\.{@@\&}' */
@d thin_space 0211 /* control code for `\.{@@,}' */
@d math_break 0212 /* control code for `\.{@@\v}' */
@d line_break 0213 /* control code for `\.{@@/}' */
@d big_line_break 0214 /* control code for `\.{@@\#}' */
@d no_line_break 0215 /* control code for `\.{@@+}' */
@d pseudo_semi 0216 /* control code for `\.{@@;}' */
@d macro_arg_open 0220 /* control code for `\.{@@[}' */
@d macro_arg_close 0221 /* control code for `\.{@@]}' */
@d trace 0222 /* control code for `\.{@@0}', `\.{@@1}' and `\.{@@2}' */
@d translit_code 0223 /* control code for `\.{@@l}' */
@d output_defs_code 0224 /* control code for `\.{@@h}' */
@d format_code 0225 /* control code for `\.{@@f}' and `\.{@@s}' */
@d definition 0226 /* control code for `\.{@@d}' */
@d begin_C 0227 /* control code for `\.{@@c}' */
@d section_name 0230 /* control code for `\.{@@<}' */
@d new_section 0231 /* control code for `\.{@@\ }' and `\.{@@*}' */
@ Control codes are converted to \.{CWEAVE}'s internal
representation by means of the table |ccode|.
@<Private...@>=
static eight_bits ccode[256]={ignore}; /* meaning of a char following \.{@@} */
@ @<Set ini...@>=
ccode[' ']=ccode['\t']=ccode['\n']=ccode['\v']=ccode['\r']=ccode['\f']
=ccode['*']=new_section;
ccode['@@']='@@'; /* `quoted' at sign */
ccode['=']=verbatim;
ccode['d']=ccode['D']=definition;
ccode['f']=ccode['F']=ccode['s']=ccode['S']=format_code;
ccode['c']=ccode['C']=ccode['p']=ccode['P']=begin_C;
ccode['t']=ccode['T']=TeX_string;
ccode['l']=ccode['L']=translit_code;
ccode['q']=ccode['Q']=noop;
ccode['h']=ccode['H']=output_defs_code;
ccode['&']=join; ccode['<']=ccode['(']=section_name;
ccode['!']=underline; ccode['^']=xref_roman;
ccode[':']=xref_wildcard; ccode['.']=xref_typewriter; ccode[',']=thin_space;
ccode['|']=math_break; ccode['/']=line_break; ccode['#']=big_line_break;
ccode['+']=no_line_break; ccode[';']=pseudo_semi;
ccode['[']=macro_arg_open; ccode[']']=macro_arg_close;
ccode['\'']=ord;
@<Special control codes for debugging@>@;
@ Users can write
\.{@@2}, \.{@@1}, and \.{@@0} to turn tracing |fully| on, |partly| on,
and |off|, respectively.
@<Special control codes...@>=
ccode['0']=ccode['1']=ccode['2']=trace;
@ The |skip_limbo| routine is used on the first pass to skip through
portions of the input that are not in any sections, i.e., that precede
the first section. After this procedure has been called, the value of
|input_has_ended| will tell whether or not a section has actually been found.
There's a complication that we will postpone until later: If the \.{@@s}
operation appears in limbo, we want to use it to adjust the default
interpretation of identifiers.
@<Predec...@>=
static void skip_limbo(void);@/
static eight_bits skip_TeX(void);
@ @c
static void
skip_limbo(void) {
while(true) {
if (loc>limit && get_line()==false) return;
*(limit+1)='@@';
while (*loc!='@@') loc++; /* look for `\.{@@}', then skip two chars */
if (loc++ <=limit)
switch (ccode[(eight_bits)*loc++]) {
case new_section: return;
case noop: skip_restricted(); break;
case format_code: @<Process simple format in limbo@>@;
}
}
}
@ The |skip_TeX| routine is used on the first pass to skip through
the \TEX/ code at the beginning of a section. It returns the next
control code or `\.{\v}' found in the input. A |new_section| is
assumed to exist at the very end of the file.
@f skip_TeX TeX
@c
static eight_bits
skip_TeX(void) /* skip past pure \TEX/ code */
{
while (true) {
if (loc>limit && get_line()==false) return new_section;
*(limit+1)='@@';
while (*loc!='@@' && *loc!='|') loc++;
if (*loc++ =='|') return (eight_bits)'|';
if (loc<=limit) return ccode[(eight_bits)*(loc++)];
}
}
@* Inputting the next token.
As stated above, \.{CWEAVE}'s most interesting lexical scanning routine is the
|get_next| function that inputs the next token of \CEE/ input. However,
|get_next| is not especially complicated.
The result of |get_next| is either a |char| code for some special character,
or it is a special code representing a pair of characters (e.g., `\.{!=}'),
or it is the numeric value computed by the |ccode|
table, or it is one of the following special codes:
\yskip\hang |identifier|: In this case the global variables |id_first| and
|id_loc| will have been set to the beginning and ending-plus-one locations
in the buffer, as required by the |id_lookup| routine.
\yskip\hang |string|: The string will have been copied into the array
|section_text|; |id_first| and |id_loc| are set as above (now they are
pointers into |section_text|).
\yskip\hang |constant|: The constant is copied into |section_text|, with
slight modifications; |id_first| and |id_loc| are set.
\yskip\noindent Furthermore, some of the control codes cause
|get_next| to take additional actions:
\yskip\hang |xref_roman|, |xref_wildcard|, |xref_typewriter|, |TeX_string|,
|verbatim|: The values of |id_first| and |id_loc| will have been set to
the beginning and ending-plus-one locations in the buffer.
\yskip\hang |section_name|: In this case the global variable |cur_section| will
point to the |byte_start| entry for the section name that has just been scanned.
The value of |cur_section_char| will be |'('| if the section name was
preceded by \.{@@(} instead of \.{@@<}.
\yskip\noindent If |get_next| sees `\.{@@!}'
it sets |xref_switch| to |def_flag| and goes on to the next token.
@d constant 0200 /* \CEE/ constant */
@d string 0201 /* \CEE/ string */
@d identifier 0202 /* \CEE/ identifier or reserved word */
@<Private...@>=
static name_pointer cur_section; /* name of section just scanned */
static char cur_section_char; /* the character just before that name */
@ As one might expect, |get_next| consists mostly of a big switch
that branches to the various special cases that can arise.
@c
static eight_bits
get_next(void) /* produces the next input token */
{
eight_bits c; /* the current character */
while (true) {
@<Check if we're at the end of a preprocessor command@>@;
if (loc>limit && get_line()==false) return new_section;
c=*(loc++);
if (xisdigit((int)c) || c=='.') @<Get a constant@>@;
else if (c=='\'' || c=='"'@|
|| ((c=='L' || c=='u' || c=='U')&&(*loc=='\'' || *loc=='"'))@|
|| ((c=='u' && *loc=='8')&&(*(loc+1)=='\'' || *(loc+1)=='"'))@|
|| (c=='<' && sharp_include_line==true))
@<Get a string@>@;
else if (isalpha((int)c) || isxalpha(c) || ishigh(c))
@<Get an identifier@>@;
else if (c=='@@') @<Get control code and possible section name@>@;
else if (xisspace(c)) continue; /* ignore spaces and tabs */
if (c=='#' && loc==buffer+1) @<Raise preprocessor flag@>@;
mistake: @<Compress two-symbol operator@>@;
return c;
}
}
@ @<Predecl...@>=@+static eight_bits get_next(void);
@ Because preprocessor commands do not fit in with the rest of the syntax
of \CEE/,
we have to deal with them separately. One solution is to enclose such
commands between special markers. Thus, when a \.\# is seen as the
first character of a line, |get_next| returns a special code
|left_preproc| and raises a flag |preprocessing|.
We can use the same internal code number for |left_preproc| as we do
for |ord|, since |get_next| changes |ord| into a string.
@d left_preproc ord /* begins a preprocessor command */
@d right_preproc 0217 /* ends a preprocessor command */
@<Private...@>=
static boolean preprocessing=false; /* are we scanning a preprocessor command? */
@ @<Raise prep...@>= {
preprocessing=true;
@<Check if next token is |include|@>@;
return left_preproc;
}
@ An additional complication is the freakish use of \.< and \.> to delimit
a file name in lines that start with \.{\#include}. We must treat this file
name as a string.
@<Private...@>=
static boolean sharp_include_line=false;
/* are we scanning a \#\&{include} line? */
@ @<Check if next token is |include|@>=
while (loc<=buffer_end-7 && xisspace(*loc)) loc++;
if (loc<=buffer_end-6 && strncmp(loc,"include",7)==0) sharp_include_line=true;
@ When we get to the end of a preprocessor line,
we lower the flag and send a code |right_preproc|, unless
the last character was a \.\\.
@<Check if we're at...@>=
while (loc==limit-1 && preprocessing && *loc=='\\')
if (get_line()==false) return new_section; /* still in preprocessor mode */
if (loc>=limit && preprocessing) {
preprocessing=sharp_include_line=false;
return right_preproc;
}
@ The following code assigns values to the combinations \.{++},
\.{--}, \.{->}, \.{>=}, \.{<=}, \.{==}, \.{<<}, \.{>>}, \.{!=}, %\.{||}
\.{\v\v} and~\.{\&\&}, and to the \CPLUSPLUS/
combinations \.{...}, \.{::}, \.{.*} and \.{->*}.
The compound assignment operators (e.g., \.{+=}) are
treated as separate tokens.
@<Compress tw...@>=
switch(c) {
case '/': if (*loc=='*') {@+compress(begin_comment);@+}
else if (*loc=='/') compress(begin_short_comment); break;
case '+': if (*loc=='+') compress(plus_plus); break;
case '-': if (*loc=='-') {@+compress(minus_minus);@+}
else if (*loc=='>') {
if (*(loc+1)=='*') {loc++;@+compress(minus_gt_ast);}
else compress(minus_gt);
} break;
case '.': if (*loc=='*') {@+compress(period_ast);@+}
else if (*loc=='.' && *(loc+1)=='.') {
loc++;@+compress(dot_dot_dot);
} break;
case ':': if (*loc==':') compress(colon_colon); break;
case '=': if (*loc=='=') compress(eq_eq); break;
case '>': if (*loc=='=') {@+compress(gt_eq);@+}
else if (*loc=='>') compress(gt_gt); break;
case '<': if (*loc=='=') {@+compress(lt_eq);@+}
else if (*loc=='<') compress(lt_lt); break;
case '&': if (*loc=='&') compress(and_and); break;
case '|': if (*loc=='|') compress(or_or); break;
case '!': if (*loc=='=') compress(non_eq); break;
}
@ @<Get an identifier@>= {
id_first=--loc;
do
++loc;
while (isalpha((int)*loc) || isdigit((int)*loc) @|
|| isxalpha(*loc) || ishigh(*loc));
id_loc=loc; return identifier;
}
@ Different conventions are followed by \TEX/ and \CEE/ to express octal
and hexadecimal numbers; it is reasonable to stick to each convention
within its realm. Thus the \CEE/ part of a \.{CWEB} file has octals
introduced by \.0 and hexadecimals by \.{0x}, but \.{CWEAVE} will print
with \TEX/ macros that the user can redefine to fit the context.
In order to simplify such macros, we replace some of the characters.
On output, the \.{\ } that replaces \.{'} in \CPLUSPLUS/ literals will become
``\.{\\\ }''.
Notice that in this section and the next, |id_first| and |id_loc|
are pointers into the array |section_text|, not into |buffer|.
@d gather_digits_while(t) while ((t) || *loc=='\'')
if (*loc=='\'') { /* \CPLUSPLUS/-style digit separator */
*id_loc++=' ';@+ loc++; /* insert a little white space */
@.\\\ @>
}@+else *id_loc++=*loc++
@<Get a constant@>= {
id_first=id_loc=section_text+1;
if (*(loc-1)=='.' && !xisdigit(*loc)) goto mistake; /* not a constant */
if (*(loc-1)=='0') {
if (*loc=='x' || *loc=='X') @<Get a hexadecimal constant@>@;
else if (*loc=='b' || *loc=='B') @<Get a binary constant@>@;
else if (xisdigit(*loc)) @<Get an octal constant@>@;
}
*id_loc++=*(loc-1); /* decimal constant */
gather_digits_while(xisdigit(*loc) || *loc=='.');
get_exponent:
if (*loc=='e' || *loc=='E')
*id_loc++='_';
else if (*loc=='p' || *loc=='P')
*id_loc++='%';
else
goto digit_suffix;
loc++;
if (*loc=='+' || *loc=='-') *id_loc++=*loc++;
gather_digits_while(xisdigit(*loc));
digit_suffix:
while (*loc=='u' || *loc=='U' || *loc=='l' || *loc=='L'
|| *loc=='f' || *loc=='F') {
*id_loc++='$'; *id_loc++=toupper((int)*loc); loc++;
}
return constant;
}
@ @<Get a hex...@>={
*id_loc++='^'; loc++;
gather_digits_while(xisxdigit(*loc) || *loc=='.');
goto get_exponent;
}
@ @<Get a bin...@>={
*id_loc++='\\'; loc++;
gather_digits_while(*loc=='0' || *loc=='1');
goto digit_suffix;
}
@ @<Get an oct...@>={
*id_loc++='~'; gather_digits_while(xisdigit(*loc));
goto digit_suffix;
}
@ \CEE/ strings and character constants, delimited by double and single
quotes, respectively, can contain newlines or instances of their own
delimiters if they are protected by a backslash. We follow this
convention, but do not allow the string to be longer than |longest_name|.
@<Get a string@>= {@+
char delim = c; /* what started the string */
id_first = section_text+1;
id_loc = section_text;
if (delim=='\'' && *(loc-2)=='@@') {*++id_loc='@@'; *++id_loc='@@';}
*++id_loc=delim;
if (delim=='L' || delim=='u' || delim=='U')
@<Get a wide character constant@>@;
if (delim=='<') delim='>'; /* for file names in \#\&{include} lines */
while (true) {
if (loc>=limit) {
if(*(limit-1)!='\\') {
err_print("! String didn't end"); loc=limit; break;
@.String didn't end@>
}
if(get_line()==false) {
err_print("! Input ended in middle of string"); loc=buffer; break;
@.Input ended in middle of string@>
}
}
if ((c=*loc++)==delim) {
if (++id_loc<=section_text_end) *id_loc=c;
break;
}
if (c=='\\') {
if (loc>=limit) continue;
else {
if (++id_loc<=section_text_end) {
*id_loc = '\\'; c=*loc++;
}
}
}
if (++id_loc<=section_text_end) *id_loc=c;
}
if (id_loc>=section_text_end) {
printf("%s","\n! String too long: ");
@.String too long@>
term_write(section_text+1,25);
printf("..."); mark_error();
}
id_loc++;
return string;
}
@ @<Get a wide...@>={
if (delim=='u' && *loc=='8') *++id_loc=*loc++;
delim=*loc++; *++id_loc=delim;
}
@ After an \.{@@} sign has been scanned, the next character tells us
whether there is more work to do.
@<Get control code and possible section name@>=
switch(ccode[c=*loc++]) {
case translit_code: err_print("! Use @@l in limbo only"); continue;
@.Use @@l in limbo...@>
case underline: xref_switch=def_flag; continue;
case trace: tracing=c-'0'; continue;
case section_name:
@<Scan the section name and make |cur_section| point to it@>@;
case verbatim: @<Scan a verbatim string@>@;
case ord: @<Get a string@>@;
case xref_roman: case xref_wildcard: case xref_typewriter: case noop:
case TeX_string: skip_restricted(); @=/* fall through */@>@;
default: return ccode[c];
}
@ The occurrence of a section name sets |xref_switch| to zero,
because the section name might (for example) follow \&{int}.
@<Scan the section name...@>= {
char *k=section_text; /* pointer into |section_text| */
cur_section_char=*(loc-1);
@<Put section name into |section_text|@>@;
if (k-section_text>3 && strncmp(k-2,"...",3)==0)
cur_section=section_lookup(section_text+1,k-3,true);
/* |true| indicates a prefix */
else cur_section=section_lookup(section_text+1,k,false);
xref_switch=0; return section_name;
}
@ Section names are placed into the |section_text| array with consecutive spaces,
tabs, and carriage-returns replaced by single spaces. There will be no
spaces at the beginning or the end. (We set |section_text[0]=' '| to facilitate
this, since the |section_lookup| routine uses |section_text[1]| as the first
character of the name.)
@<Set init...@>=section_text[0]=' ';
@ @<Put section name...@>=
while (true) {
if (loc>limit && get_line()==false) {
err_print("! Input ended in section name");
@.Input ended in section name@>
loc=buffer+1; break;
}
c=*loc;
@<If end of name or erroneous control code, |break|@>@;
loc++; if (k<section_text_end) k++;
if (xisspace(c)) {
c=' '; if (*(k-1)==' ') k--;
}
*k=c;
}
if (k>=section_text_end) {
printf("%s","\n! Section name too long: ");
@.Section name too long@>
term_write(section_text+1,25);
printf("..."); mark_harmless();
}
if (*k==' ' && k>section_text) k--;
@ @<If end of name...@>=
if (c=='@@') {
c=*(loc+1);
if (c=='>') {
loc+=2; break;
}
if (ccode[c]==new_section) {
err_print("! Section name didn't end"); break;
@.Section name didn't end@>
}
if (c!='@@') {
err_print("! Control codes are forbidden in section name"); break;
@.Control codes are forbidden...@>
}
*(++k)='@@'; loc++; /* now |c==*loc| again */
}
@ This function skips over a restricted context at relatively high speed.
@c
static void
skip_restricted(void)
{
id_first=loc; *(limit+1)='@@';
false_alarm:
while (*loc!='@@') loc++;
id_loc=loc;
if (loc++>limit) {
err_print("! Control text didn't end"); loc=limit;
@.Control text didn't end@>
} else {
if (*loc=='@@'&&loc<=limit) {loc++; goto false_alarm;}
if (*loc++!='>')
err_print("! Control codes are forbidden in control text");
@.Control codes are forbidden...@>
}
}
@ @<Predecl...@>=@+static void skip_restricted(void);
@ At the present point in the program we
have |*(loc-1)==verbatim|; we set |id_first| to the beginning
of the string itself, and |id_loc| to its ending-plus-one location in the
buffer. We also set |loc| to the position just after the ending delimiter.
@<Scan a verbatim string@>=
id_first=loc++; *(limit+1)='@@'; *(limit+2)='>';
while (*loc!='@@' || *(loc+1)!='>') loc++;
if (loc>=limit) err_print("! Verbatim string didn't end");
@.Verbatim string didn't end@>
id_loc=loc; loc+=2;
return verbatim;
@** Phase one processing.
We now have accumulated enough subroutines to make it possible to carry out
\.{CWEAVE}'s first pass over the source file. If everything works right,
both phase one and phase two of \.{CWEAVE} will assign the same numbers to
sections, and these numbers will agree with what \.{CTANGLE} does.
The global variable |next_control| often contains the most recent output of
|get_next|; in interesting cases, this will be the control code that
ended a section or part of a section.
@<Private...@>=
static eight_bits next_control; /* control code waiting to be acting upon */
@ The overall processing strategy in phase one has the following
straightforward outline.
@c
static void
phase_one(void) {
phase=1; reset_input(); section_count=0;
skip_limbo(); change_exists=false;
while (!input_has_ended)
@<Store cross-reference data for the current section@>@;
changed_section[section_count]=change_exists;
/* the index changes if anything does */
@<Print error messages about unused or undefined section names@>@;
}
@ @<Predecl...@>=@+static void phase_one(void);
@ @<Store cross-reference data...@>=
{
if (++section_count==max_sections) overflow("section number");
changed_section[section_count]=changing;
/* it will become |true| if any line changes */
if (*(loc-1)=='*' && show_progress) {
printf("*%d",(int)section_count);
update_terminal(); /* print a progress report */
}
@<Store cross-references in the \TEX/ part of a section@>@;
@<Store cross-references in the definition part of a section@>@;
@<Store cross-references in the \CEE/ part of a section@>@;
if (changed_section[section_count]) change_exists=true;
}
@ The |C_xref| subroutine stores references to identifiers in
\CEE/ text material beginning with the current value of |next_control|
and continuing until |next_control| is `\.\{' or `\.{\v}', or until the next
``milestone'' is passed (i.e., |next_control>=format_code|). If
|next_control>=format_code| when |C_xref| is called, nothing will happen;
but if |next_control=='|'| upon entry, the procedure assumes that this is
the `\.{\v}' preceding \CEE/ text that is to be processed.
The parameter |spec_ctrl| is used to change this behavior. In most cases
|C_xref| is called with |spec_ctrl==ignore|, which triggers the default
processing described above. If |spec_ctrl==section_name|, section names will
be gobbled. This is used when \CEE/ text in the \TEX/ part or inside comments
is parsed: It allows for section names to appear in \pb, but these
strings will not be entered into the cross reference lists since they are not
definitions of section names.
The program uses the fact that our internal code numbers satisfy
the relations |xref_roman==identifier+roman| and |xref_wildcard==identifier
+wildcard| and |xref_typewriter==identifier+typewriter|,
as well as |normal==0|.
@<Predecl...@>=
static void C_xref(eight_bits);@/
static void outer_xref(void);
@ @c
static void
C_xref( /* makes cross-references for \CEE/ identifiers */
eight_bits spec_ctrl)
{
while (next_control<format_code || next_control==spec_ctrl) {
if (next_control>=identifier && next_control<=xref_typewriter) {
if (next_control>identifier) @<Replace `\.{@@@@}' by `\.{@@}'@>@;
new_xref(id_lookup(id_first,id_loc,next_control-identifier));
}
if (next_control==section_name) {
section_xref_switch=cite_flag;
new_section_xref(cur_section);
}
next_control=get_next();
if (next_control=='|' || next_control==begin_comment ||
next_control==begin_short_comment) return;
}
}
@ The |outer_xref| subroutine is like |C_xref| except that it begins
with |next_control!='|'| and ends with |next_control>=format_code|. Thus, it
handles \CEE/ text with embedded comments.
@c
static void
outer_xref(void) /* extension of |C_xref| */
{
int bal; /* brace level in comment */
while (next_control<format_code)
if (next_control!=begin_comment && next_control!=begin_short_comment)
C_xref(ignore);
else {
boolean is_long_comment=(next_control==begin_comment);
bal=copy_comment(is_long_comment,1); next_control='|';
while (bal>0) {
C_xref(section_name); /* do not reference section names in comments */
if (next_control=='|') bal=copy_comment(is_long_comment,bal);
else bal=0; /* an error message will occur in phase two */
}
}
}
@ In the \TEX/ part of a section, cross-reference entries are made only for
the identifiers in \CEE/ texts enclosed in \pb, or for control texts
enclosed in \.{@@\^}$\,\ldots\,$\.{@@>} or \.{@@.}$\,\ldots\,$\.{@@>}
or \.{@@:}$\,\ldots\,$\.{@@>}.
@<Store cross-references in the \T...@>=
while (true) {
switch (next_control=skip_TeX()) {
case translit_code: err_print("! Use @@l in limbo only"); continue;
@.Use @@l in limbo...@>
case underline: xref_switch=def_flag; continue;
case trace: tracing=*(loc-1)-'0'; continue;
case '|': C_xref(section_name); break;
case xref_roman: case xref_wildcard: case xref_typewriter:
case noop: case section_name:
loc-=2; next_control=get_next(); /* scan to \.{@@>} */
if (next_control>=xref_roman && next_control<=xref_typewriter) {
@<Replace `\.{@@@@}' by `\.{@@}'@>@;
new_xref(id_lookup(id_first,id_loc,next_control-identifier));
}
break;
}
if (next_control>=format_code) break;
}
@ @<Replace `\.{@@@@}' by `\.{@@}'@>=
{
char *src=id_first,*dst=id_first;
while(src<id_loc){
if(*src=='@@') src++;
*dst++=*src++;
}
id_loc=dst;
while (dst<src) *dst++=' '; /* clean up in case of error message display */
}
@ During the definition and \CEE/ parts of a section, cross-references
are made for all identifiers except reserved words. However, the right
identifier in a format definition is not referenced, and the left
identifier is referenced only if it has been explicitly
underlined (preceded by \.{@@!}).
The \TEX/ code in comments is, of course, ignored, except for
\CEE/ portions enclosed in \pb; the text of a section name is skipped
entirely, even if it contains \pb\ constructions.
The variables |lhs| and |rhs| point to the respective identifiers involved
in a format definition.
@<Private...@>=
static name_pointer lhs, rhs; /* pointers to |byte_start| for format identifiers */
static name_pointer res_wd_end; /* pointer to the first nonreserved identifier */
@ When we get to the following code we have |next_control>=format_code|.
@<Store cross-references in the d...@>=
while (next_control<=definition) { /* |format_code| or |definition| */
if (next_control==definition) {
xref_switch=def_flag; /* implied \.{@@!} */
next_control=get_next();
} else @<Process a format definition@>@;
outer_xref();
}
@ Error messages for improper format definitions will be issued in phase
two. Our job in phase one is to define the |ilk| of a properly formatted
identifier, and to remove cross-references to identifiers that we now
discover should be unindexed.
@<Process a form...@>= {
next_control=get_next();
if (next_control==identifier) {
lhs=id_lookup(id_first, id_loc,normal); lhs->ilk=normal;
if (xref_switch) new_xref(lhs);
next_control=get_next();
if (next_control==identifier) {
rhs=id_lookup(id_first, id_loc,normal);
lhs->ilk=rhs->ilk;
if (unindexed(lhs)) { /* retain only underlined entries */
xref_pointer q,r=NULL;
for (q=(xref_pointer)lhs->xref;q>xmem;q=q->xlink)
if (q->num<def_flag)
if (r) r->xlink=q->xlink;
else lhs->xref=(void *)q->xlink;
else r=q;
}
next_control=get_next();
}
}
}
@ A much simpler processing of format definitions occurs when the
definition is found in limbo.
@<Process simple format in limbo@>=
if (get_next()!=identifier)
err_print("! Missing left identifier of @@s");
@.Missing left identifier...@>
else {
lhs=id_lookup(id_first,id_loc,normal);
if (get_next()!=identifier)
err_print("! Missing right identifier of @@s");
@.Missing right identifier...@>
else {
rhs=id_lookup(id_first,id_loc,normal);
lhs->ilk=rhs->ilk;
}
}
@ Finally, when the \TEX/ and definition parts have been treated, we have
|next_control>=begin_C|.
@<Store cross-references in the \CEE/...@>=
if (next_control<=section_name) { /* |begin_C| or |section_name| */
if (next_control==begin_C) section_xref_switch=0;
else {
section_xref_switch=def_flag;
if(cur_section_char=='(' && cur_section!=name_dir)
set_file_flag(cur_section);
}
do {
if (next_control==section_name && cur_section!=name_dir)
new_section_xref(cur_section);
next_control=get_next(); outer_xref();
} while ( next_control<=section_name);
}
@ After phase one has looked at everything, we want to check that each
section name was both defined and used. The variable |cur_xref| will point
to cross-references for the current section name of interest.
@<Private...@>=
static xref_pointer cur_xref; /* temporary cross-reference pointer */
static boolean an_output; /* did |file_flag| precede |cur_xref|? */
@ The following recursive procedure
walks through the tree of section names and prints out anomalies.
@^recursion@>
@c
static void
section_check(
name_pointer p) /* print anomalies in subtree |p| */
{
if (p) {
section_check(p->llink);
cur_xref=(xref_pointer)p->xref;
if ((an_output=(cur_xref->num==file_flag))==true) cur_xref=cur_xref->xlink;
if (cur_xref->num <def_flag) {
printf("%s","\n! Never defined: <");
print_section_name(p); putchar('>'); mark_harmless();
@.Never defined: <section name>@>
}
while (cur_xref->num >=cite_flag) cur_xref=cur_xref->xlink;
if (cur_xref==xmem && !an_output) {
printf("%s","\n! Never used: <");
print_section_name(p); putchar('>'); mark_harmless();
@.Never used: <section name>@>
}
section_check(p->rlink);
}
}
@ @<Predecl...@>=@+static void section_check(name_pointer);
@ @<Print error messages about un...@>=section_check(root);
@* Low-level output routines.
The \TEX/ output is supposed to appear in lines at most |line_length|
characters long, so we place it into an output buffer. During the output
process, |out_line| will hold the current line number of the line about to
be output.
@d line_length 80 /* lines of \TEX/ output have at most this many characters;
should be less than 256 */
@<Private...@>=
static char out_buf[line_length+1]; /* assembled characters */
static char *out_buf_end = out_buf+line_length; /* end of |out_buf| */
static char *out_ptr; /* last character in |out_buf| */
static int out_line; /* number of next line to be output */
@ The |flush_buffer| routine empties the buffer up to a given breakpoint,
and moves any remaining characters to the beginning of the next line.
If the |per_cent| parameter is |true|, a |'%'| is appended to the line
that is being output; in this case the breakpoint |b| should be strictly
less than |out_buf_end|. If the |per_cent| parameter is |false|,
trailing blanks are suppressed.
The characters emptied from the buffer form a new line of output;
if the |carryover| parameter is |true|, a |"%"| in that line will be
carried over to the next line (so that \TEX/ will ignore the completion
of commented-out text).
@d c_line_write(c) fflush(active_file),fwrite(out_buf+1,sizeof(char),c,active_file)
@d tex_printf(c) fprintf(active_file,"%s",c)
@d tex_putc(c) fputc(c,active_file)
@d tex_puts(c) fputs(c,active_file)
@<Predecl...@>=
static void flush_buffer(char *,boolean,boolean);@/
static void finish_line(void);
@ @c
static void
flush_buffer(
char *b, /* outputs from |out_buf+1| to |b|, where |b<=out_ptr| */
boolean per_cent,boolean carryover)
{
char *j=b; /* pointer into |out_buf| */
if (! per_cent) /* remove trailing blanks */
while (j>out_buf && *j==' ') j--;
c_line_write(j-out_buf);
if (per_cent) tex_putc('%');
tex_putc('\n'); out_line++;
if (carryover)
while (j>out_buf)
if (*j--=='%' && (j==out_buf || *j!='\\')) {
*b--='%'; break;
}
if (b<out_ptr) memcpy(out_buf+1,b+1,(size_t)(out_ptr-b));
out_ptr-=b-out_buf;
}
@ When we are copying \TEX/ source material, we retain line breaks
that occur in the input, except that an empty line is not
output when the \TEX/ source line was nonempty. For example, a line
of the \TEX/ file that contains only an index cross-reference entry
will not be copied. The |finish_line| routine is called just before
|get_line| inputs a new line, and just after a line break token has
been emitted during the output of translated \CEE/ text.
@c
static void
finish_line(void) /* do this at the end of a line */
{
char *k; /* pointer into |buffer| */
if (out_ptr>out_buf) flush_buffer(out_ptr,false,false);
else {
for (k=buffer; k<=limit; k++)
if (!(xisspace(*k))) return;
flush_buffer(out_buf,false,false);
}
}
@ In particular, the |finish_line| procedure is called near the very
beginning of phase two. We initialize the output variables in a slightly
tricky way so that the first line of the output file will be
`\.{\\input cwebmac}'.
@<Start \TEX/...@>=
out_ptr=out_buf+1; out_line=1; active_file=tex_file;
tex_printf("\\input cwebma"); *out_ptr='c';
@ When we wish to append one character |c| to the output buffer, we write
`|out(c)|'; this will cause the buffer to be emptied if it was already
full. If we want to append more than one character at once, we say
|out_str(s)|, where |s| is a string containing the characters.
A line break will occur at a space or after a single-nonletter
\TEX/ control sequence.
@d out(c) {if (out_ptr>=out_buf_end) break_out(); *(++out_ptr)=c;}
@<Predecl...@>=
static void out_str(const char *);@/
static void break_out(void);
@ @c
static void
out_str( /* output characters from |s| to end of string */
const char*s)
{
while (*s) out(*s++);
}
@ The |break_out| routine is called just before the output buffer is about
to overflow. To make this routine a little faster, we initialize position
0 of the output buffer to `\.\\'; this character isn't really output.
@<Set init...@>=
out_buf[0]='\\';
@ A long line is broken at a blank space or just before a backslash that isn't
preceded by another backslash or a \TeX\ comment marker. In the latter case, a
|'%'| is output at the break.
@c
static void
break_out(void) /* finds a way to break the output line */
{
char *k=out_ptr; /* pointer into |out_buf| */
while (true) {
if (k==out_buf) @<Print warning message, break the line, |return|@>@;
if (*k==' ') {
flush_buffer(k,false,true); return;
}
if (*(k--)=='\\' && *k!='\\' && *k!='%') { /* we've decreased |k| */
flush_buffer(k,true,true); return;
}
}
}
@ We get to this section only in the unusual case that the entire output line
consists of a string of backslashes followed by a string of nonblank
non-backslashes. In such cases it is almost always safe to break the
line by putting a |'%'| just before the last character.
@<Print warning message...@>=
{
printf("\n! Line had to be broken (output l. %d):\n",out_line);
@.Line had to be broken@>
term_write(out_buf+1, out_ptr-out_buf-1);
new_line(); mark_harmless();
flush_buffer(out_ptr-1,true,true); return;
}
@ Here is a macro that outputs a section number in decimal notation.
The number to be converted by |out_section| is known to be less than
|def_flag|, so it cannot have more than five decimal digits. If
the section is changed, we output `\.{\\*}' just after the number.
@<Predecl...@>=
static void out_section(sixteen_bits);@/
static void out_name(name_pointer,boolean);
@ @c
static void
out_section(
sixteen_bits n)
{
char s[6];
snprintf(s,6,"%d",(int)n); out_str(s);
if (changed_section[n]) out_str("\\*");
@.\\*@>
}
@ The |out_name| procedure is used to output an identifier or index
entry, enclosing it in braces.
@c
static void
out_name(
name_pointer p,
boolean quote_xalpha)
{
char *k; /* pointer into |byte_mem| */
out('{');
for (k=p->byte_start; k<(p+1)->byte_start; k++) {
if (isxalpha(*k) && quote_xalpha) out('\\');
@.\\\$@>
@.\\\_@>
out(*k);
}
out('}');
}
@* Routines that copy \TEX/ material.
During phase two, we use the subroutines |copy_limbo| and |copy_TeX| (and
|copy_comment|) in place of the analogous |skip_limbo| and |skip_TeX|
that were used in phase one.
The |copy_limbo| routine, for example, takes \TEX/ material that is not
part of any section and transcribes it almost verbatim to the output file.
The use of `\.{@@}' signs is severely restricted in such material:
`\.{@@@@}' pairs are replaced by singletons; `\.{@@l}' and `\.{@@q}' and
`\.{@@s}' are interpreted.
@<Predecl...@>=
static void copy_limbo(void);@/
static eight_bits copy_TeX(void);@/
static int copy_comment(boolean,int);
@ @c
static void
copy_limbo(void)
{
while (true) {
if (loc>limit && (finish_line(), get_line()==false)) return;
*(limit+1)='@@';
while (*loc!='@@') out(*(loc++));
if (loc++<=limit) {
switch (ccode[(eight_bits)*loc++]) {
case new_section: return;
case translit_code: out_str("\\ATL"); break;
@.\\ATL@>
case '@@': out('@@'); break;
case noop: skip_restricted(); break;
case format_code: if (get_next()==identifier) get_next();
if (loc>=limit) get_line(); /* avoid blank lines in output */
break; /* the operands of \.{@@s} are ignored on this pass */
default: err_print("! Double @@ should be used in limbo");
@.Double @@ should be used...@>
out('@@');
}
}
}
}
@ The |copy_TeX| routine processes the \TEX/ code at the beginning of a
section; for example, the words you are now reading were copied in this
way. It returns the next control code or `\.{\v}' found in the input.
We don't copy spaces or tab marks into the beginning of a line. This
makes the test for empty lines in |finish_line| work.
@f copy_TeX TeX
@c
static eight_bits
copy_TeX(void)
{
char c; /* current character being copied */
while (true) {
if (loc>limit && (finish_line(), get_line()==false)) return new_section;
*(limit+1)='@@';
while ((c=*(loc++))!='|' && c!='@@') {
out(c);
if (out_ptr==out_buf+1 && (xisspace(c))) out_ptr--;
}
if (c=='|') return '|';
if (loc<=limit) return ccode[(eight_bits)*(loc++)];
}
}
@ The |copy_comment| function issues a warning if more braces are opened than
closed, and in the case of a more serious error it supplies enough
braces to keep \TEX/ from complaining about unbalanced braces.
Instead of copying the \TEX/ material
into the output buffer, this function copies it into the token memory
(in phase two only).
The abbreviation |app_tok(t)| is used to append token |t| to the current
token list, and it also makes sure that it is possible to append at least
one further token without overflow.
@d app_tok(c) {if (tok_ptr+2>tok_mem_end) overflow("token"); *(tok_ptr++)=c;}
@c
static int copy_comment( /* copies \TeX\ code in comments */
boolean is_long_comment, /* is this a traditional \CEE/ comment? */
int bal) /* brace balance */
{
char c; /* current character being copied */
while (true) {
if (loc>limit) {
if (is_long_comment) {
if (get_line()==false) {
err_print("! Input ended in mid-comment");
@.Input ended in mid-comment@>
loc=buffer+1; goto done;
}
} else {
if (bal>1) err_print("! Missing } in comment");
@.Missing \} in comment@>
goto done;
}
}
c=*(loc++);
if (c=='|') return bal;
if (is_long_comment) @<Check for end of comment@>@;
if (phase==2) {
if (ishigh(c)) app_tok(quoted_char);
app_tok(c);
}
@<Copy special things when |c=='@@', '\\'|@>@;
if (c=='{') bal++;
else if (c=='}') {
if(bal>1) bal--;
else {err_print("! Extra } in comment");
@.Extra \} in comment@>
if (phase==2) tok_ptr--;
}
}
}
done: @<Clear |bal| and |return|@>@;
}
@ @<Check for end of comment@>=
if (c=='*' && *loc=='/') {
loc++;
if (bal>1) err_print("! Missing } in comment");
@.Missing \} in comment@>
goto done;
}
@ @<Copy special things when |c=='@@'...@>=
if (c=='@@') {
if (*(loc++)!='@@') {
err_print("! Illegal use of @@ in comment");
@.Illegal use of @@...@>
loc-=2; if (phase==2) *(tok_ptr-1)=' '; goto done;
}
} else {
if (c=='\\' && *loc!='@@') {
if (phase==2) app_tok(*(loc++))@t;@>@; else loc++;
}
}
@ We output
enough right braces to keep \TEX/ happy.
@<Clear |bal|...@>=
if (phase==2) while (bal-- >0) app_tok('}');
return 0;
@** Parsing.
The most intricate part of \.{CWEAVE} is its mechanism for converting
\CEE/-like code into \TEX/ code, and we might as well plunge into this
aspect of the program now. A ``bottom up'' approach is used to parse the
\CEE/-like material, since \.{CWEAVE} must deal with fragmentary
constructions whose overall ``part of speech'' is not known.
At the lowest level, the input is represented as a sequence of entities
that we shall call {\it scraps}, where each scrap of information consists
of two parts, its {\it category} and its {\it translation}. The category
is essentially a syntactic class, and the translation is a token list that
represents \TEX/ code. Rules of syntax and semantics tell us how to
combine adjacent scraps into larger ones, and if we are lucky an entire
\CEE/ text that starts out as hundreds of small scraps will join
together into one gigantic scrap whose translation is the desired \TEX/
code. If we are unlucky, we will be left with several scraps that don't
combine; their translations will simply be output, one by one.
The combination rules are given as context-sensitive productions that are
applied from left to right. Suppose that we are currently working on the
sequence of scraps $s_1\,s_2\ldots s_n$. We try first to find the longest
production that applies to an initial substring $s_1\,s_2\ldots\,$; but if
no such productions exist, we try to find the longest production
applicable to the next substring $s_2\,s_3\ldots\,$; and if that fails, we
try to match $s_3\,s_4\ldots\,$, etc.
A production applies if the category codes have a given pattern. For
example, one of the productions (see rule~3) is
$$\hbox{|exp| }\left\{\matrix{\hbox{|binop|}\cr\hbox{|ubinop|}}\right\}
\hbox{ |exp| }\RA\hbox{ |exp|}$$
and it means that three consecutive scraps whose respective categories are
|exp|, |binop| (or |ubinop|),
and |exp| are converted to one scrap whose category
is |exp|. The translations of the original
scraps are simply concatenated. The case of
$$\hbox{|exp| |comma| |exp| $\RA$ |exp|} \hskip4emE_1C\,\\{opt}9\,E_2$$
(rule 4) is only slightly more complicated:
Here the resulting |exp| translation
consists not only of the three original translations, but also of the
tokens |opt| and 9 between the translations of the
|comma| and the following |exp|.
In the \TEX/ file, this will specify an optional line break after the
comma, with penalty 90.
At each opportunity the longest possible production is applied. For
example, if the current sequence of scraps is |if_clause| |stmt|
|else_like| |if_like|, rule 63 is applied; but if the sequence is
|if_clause| |stmt| |else_like| followed by anything other than
|if_like|, rule 64 takes effect; and if the sequence is |if_clause|
|stmt| followed by anything other than |else_like|, rule 65 takes
effect.
Translation rules such as `$E_1C\,\\{opt}9\,E_2$' above use subscripts
to distinguish between translations of scraps whose categories have the
same initial letter; these subscripts are assigned from left to right.
@ Here is a list of the category codes that scraps can have.
(A few others, like |int_like|, have already been defined; the
|cat_name| array contains a complete list.)
@d exp 1 /* denotes an expression, including perhaps a single identifier */
@d unop 2 /* denotes a unary operator */
@d binop 3 /* denotes a binary operator */
@d ubinop 4
/* denotes an operator that can be unary or binary, depending on context */
@d cast 5 /* denotes a cast */
@d question 6 /* denotes a question mark and possibly the expressions flanking it */
@d lbrace 7 /* denotes a left brace */
@d rbrace 8 /* denotes a right brace */
@d decl_head 9 /* denotes an incomplete declaration */
@d comma 10 /* denotes a comma */
@d lpar 11 /* denotes a left parenthesis */
@d rpar 12 /* denotes a right parenthesis */
@d prelangle 13 /* denotes `$<$' before we know what it is */
@d prerangle 14 /* denotes `$>$' before we know what it is */
@d langle 15 /* denotes `$<$' when it's used as angle bracket in a template */
@d colcol 18 /* denotes `::' */
@d base 19 /* denotes a colon that introduces a base specifier */
@d decl 20 /* denotes a complete declaration */
@d struct_head 21 /* denotes the beginning of a structure specifier */
@d stmt 23 /* denotes a complete statement */
@d function 24 /* denotes a complete function */
@d fn_decl 25 /* denotes a function declarator */
@d semi 27 /* denotes a semicolon */
@d colon 28 /* denotes a colon */
@d tag 29 /* denotes a statement label */
@d if_head 30 /* denotes the beginning of a compound conditional */
@d else_head 31 /* denotes a prefix for a compound statement */
@d if_clause 32 /* pending \.{if} together with a condition */
@d lproc 35 /* begins a preprocessor command */
@d rproc 36 /* ends a preprocessor command */
@d insert 37 /* a scrap that gets combined with its neighbor */
@d section_scrap 38 /* section name */
@d dead 39 /* scrap that won't combine */
@d ftemplate 63 /* \\{make\_pair} */
@d new_exp 64 /* \&{new} and a following type identifier */
@d begin_arg 65 /* \.{@@[} */
@d end_arg 66 /* \.{@@]} */
@d lbrack 67 /* denotes a left bracket */
@d rbrack 68 /* denotes a right bracket */
@d attr_head 69 /* denotes beginning of attribute */
@<Private...@>=
static char cat_name[256][12]; /* |12==strlen("struct_head")+1| */
@ @<Set in...@>=
{int c; for (c=0;c<256;c++) strcpy(cat_name[c],"UNKNOWN");}
@.UNKNOWN@>
strcpy(cat_name[exp],"exp");
strcpy(cat_name[unop],"unop");
strcpy(cat_name[binop],"binop");
strcpy(cat_name[ubinop],"ubinop");
strcpy(cat_name[cast],"cast");
strcpy(cat_name[question],"?");
strcpy(cat_name[lbrace],"{"@q}@>);
strcpy(cat_name[rbrace],@q{@>"}");
strcpy(cat_name[decl_head],"decl_head");
strcpy(cat_name[comma],",");
strcpy(cat_name[lpar],"(");
strcpy(cat_name[rpar],")");
strcpy(cat_name[prelangle],"<");
strcpy(cat_name[prerangle],">");
strcpy(cat_name[langle],"\\<");
strcpy(cat_name[colcol],"::");
strcpy(cat_name[base],"\\:");
strcpy(cat_name[decl],"decl");
strcpy(cat_name[struct_head],"struct_head");
strcpy(cat_name[alfop],"alfop");
strcpy(cat_name[stmt],"stmt");
strcpy(cat_name[function],"function");
strcpy(cat_name[fn_decl],"fn_decl");
strcpy(cat_name[else_like],"else_like");
strcpy(cat_name[semi],";");
strcpy(cat_name[colon],":");
strcpy(cat_name[tag],"tag");
strcpy(cat_name[if_head],"if_head");
strcpy(cat_name[else_head],"else_head");
strcpy(cat_name[if_clause],"if()");
strcpy(cat_name[lproc],"#{"@q}@>);
strcpy(cat_name[rproc],@q{@>"#}");
strcpy(cat_name[insert],"insert");
strcpy(cat_name[section_scrap],"section");
strcpy(cat_name[dead],"@@d");
strcpy(cat_name[public_like],"public");
strcpy(cat_name[operator_like],"operator");
strcpy(cat_name[new_like],"new");
strcpy(cat_name[catch_like],"catch");
strcpy(cat_name[for_like],"for");
strcpy(cat_name[do_like],"do");
strcpy(cat_name[if_like],"if");
strcpy(cat_name[delete_like],"delete");
strcpy(cat_name[raw_ubin],"ubinop?");
strcpy(cat_name[const_like],"const");
strcpy(cat_name[raw_int],"raw");
strcpy(cat_name[int_like],"int");
strcpy(cat_name[case_like],"case");
strcpy(cat_name[sizeof_like],"sizeof");
strcpy(cat_name[struct_like],"struct");
strcpy(cat_name[typedef_like],"typedef");
strcpy(cat_name[define_like],"define");
strcpy(cat_name[template_like],"template");
strcpy(cat_name[ftemplate],"ftemplate");
strcpy(cat_name[new_exp],"new_exp");
strcpy(cat_name[begin_arg],"@@["@q]@>);
strcpy(cat_name[end_arg],@q[@>"@@]");
strcpy(cat_name[lbrack],"[");
strcpy(cat_name[rbrack],"]");
strcpy(cat_name[attr_head],"attr_head");
strcpy(cat_name[attr],"attr");
strcpy(cat_name[alignas_like],"alignas");
strcpy(cat_name[using_like],"using");
strcpy(cat_name[default_like],"default");
strcpy(cat_name[0],"zero");
@ This code allows \.{CWEAVE} to display its parsing steps.
@d print_cat(c) fputs(cat_name[c],stdout) /* symbolic printout of a category */
@ The token lists for translated \TEX/ output contain some special control
symbols as well as ordinary characters. These control symbols are
interpreted by \.{CWEAVE} before they are written to the output file.
\yskip\hang |break_space| denotes an optional line break or an en space;
\yskip\hang |force| denotes a line break;
\yskip\hang |big_force| denotes a line break with additional vertical space;
\yskip\hang |preproc_line| denotes that the line will be printed flush left;
\yskip\hang |opt| denotes an optional line break (with the continuation
line indented two ems with respect to the normal starting position)---this
code is followed by an integer |n|, and the break will occur with penalty
$10n$;
\yskip\hang |backup| denotes a backspace of one em;
\yskip\hang |cancel| obliterates any |break_space|, |opt|, |force|, or
|big_force| tokens that immediately precede or follow it and also cancels any
|backup| tokens that follow it;
\yskip\hang |indent| causes future lines to be indented one more em;
\yskip\hang |outdent| causes future lines to be indented one less em;
\yskip\hang |dindent| causes future lines to be indented two more ems.
\yskip\noindent All of these tokens are removed from the \TEX/ output that
comes from \CEE/ text between \pb\ signs; |break_space| and |force| and
|big_force| become single spaces in this mode. The translation of other
\CEE/ texts results in \TEX/ control sequences \.{\\1}, \.{\\2},
\.{\\3}, \.{\\4}, \.{\\5}, \.{\\6}, \.{\\7}, \.{\\8}
corresponding respectively to
|indent|, |outdent|, |opt|, |backup|, |break_space|, |force|,
|big_force| and |preproc_line|.
However, a sequence of consecutive `\.\ ', |break_space|,
|force|, and/or |big_force| tokens is first replaced by a single token
(the maximum of the given ones).
A |dindent| token becomes \.{\\1\\1}. It is equivalent to a pair of |indent|
tokens. However, if |dindent| immediately precedes |big_force|, the two tokens
are swapped, so that the indentation happens after the line break.
The token |math_rel| will be translated into
\.{\\MRL\{}, and it will get a matching \.\} later.
Other control sequences in the \TEX/ output will be
`\.{\\\\\{}$\,\ldots\,$\.\}'
surrounding identifiers, `\.{\\\&\{}$\,\ldots\,$\.\}' surrounding
reserved words, `\.{\\.\{}$\,\ldots\,$\.\}' surrounding strings,
`\.{\\C\{}$\,\ldots\,$\.\}$\,$|force|' surrounding comments, and
`\.{\\X$n$:}$\,\ldots\,$\.{\\X}' surrounding section names, where
|n| is the section number.
@d math_rel 0206
@d big_cancel 0210 /* like |cancel|, also overrides spaces */
@d cancel 0211 /* overrides |backup|, |break_space|, |force|, |big_force| */
@d indent 0212 /* one more tab (\.{\\1}) */
@d outdent 0213 /* one less tab (\.{\\2}) */
@d opt 0214 /* optional break in mid-statement (\.{\\3}) */
@d backup 0215 /* stick out one unit to the left (\.{\\4}) */
@d break_space 0216 /* optional break between statements (\.{\\5}) */
@d force 0217 /* forced break between statements (\.{\\6}) */
@d big_force 0220 /* forced break with additional space (\.{\\7}) */
@d preproc_line 0221 /* begin line without indentation (\.{\\8}) */
@^high-bit character handling@>
@d quoted_char 0222
/* introduces a character token in the range |0200|--|0377| */
@d end_translation 0223 /* special sentinel token at end of list */
@d inserted 0224 /* sentinel to mark translations of inserts */
@d qualifier 0225 /* introduces an explicit namespace qualifier */
@d dindent 0226 /* two more tabs (\.{\\1\\1}) */
@ The raw input is converted into scraps according to the following table,
which gives category codes followed by the translations.
\def\stars {\.{**}}%
The symbol `\stars' stands for `\.{\\\&\{{\rm identifier}\}}',
i.e., the identifier itself treated as a reserved word.
The right-hand column is the so-called |mathness|, which is explained
further below.
An identifier |c| of length 1 is translated as \.{\\\v c} instead of
as \.{\\\\\{c\}}. An identifier \.{CAPS} in all caps is translated as
\.{\\.\{CAPS\}} instead of as \.{\\\\\{CAPS\}}. An identifier that has
become a reserved word via |typedef| is translated with \.{\\\&} replacing
\.{\\\\} and |raw_int| replacing |exp|.
A string of length greater than 20 is broken into pieces of size at most~20
with discretionary breaks in between.
\yskip\halign{\quad#\hfil&\quad#\hfil&\quad\hfil#\hfil\cr
\.{!=}&|binop|: \.{\\I}&yes\cr
\.{<=}&|binop|: \.{\\Z}&yes\cr
\.{>=}&|binop|: \.{\\G}&yes\cr
\.{==}&|binop|: \.{\\E}&yes\cr
\.{\&\&}&|binop|: \.{\\W}&yes\cr
\.{\v\v}&|binop|: \.{\\V}&yes\cr
\.{++}&|unop|: \.{\\PP}&yes\cr
\.{--}&|unop|: \.{\\MM}&yes\cr
\.{->}&|binop|: \.{\\MG}&yes\cr
\.{>>}&|binop|: \.{\\GG}&yes\cr
\.{<<}&|binop|: \.{\\LL}&yes\cr
\.{::}&|colcol|: \.{\\DC}&maybe\cr
\.{.*}&|binop|: \.{\\PA}&yes\cr
\.{->*}&|binop|: \.{\\MGA}&yes\cr
\.{...}&|raw_int|: \.{\\,\\ldots\\,}&yes\cr
\."string\."&|exp|: \.{\\.\{}string with special characters quoted\.\}&maybe\cr
\.{@@=}string\.{@@>}&|exp|: \.{\\vb\{}string with special characters
quoted\.\}&maybe\cr
\.{@@'7'}&|exp|: \.{\\.\{@@'7'\}}&maybe\cr
\.{077} or \.{\\77}&|exp|: \.{\\T\{\\\~77\}}&maybe\cr
\.{0x7f}&|exp|: \.{\\T\{\\\^7f\}}&maybe\cr
\.{0b10111}&|exp|: \.{\\T\{\\\\10111\}}&maybe\cr
\.{77}&|exp|: \.{\\T\{77\}}&maybe\cr
\.{77L}&|exp|: \.{\\T\{77\\\$L\}}&maybe\cr
\.{0.1E5}&|exp|: \.{\\T\{0.1\\\_5\}}&maybe\cr
\.{0x10p3}&|exp|: \.{\\T\{\\\^10\}\\p\{3\}}&maybe\cr
\.{1'000'000}&|exp|: \.{\\T\{1\\\ 000\\\ 000\}}&maybe\cr
\.+&|ubinop|: \.+&yes\cr
\.-&|ubinop|: \.-&yes\cr
\.*&|raw_ubin|: \.*&yes\cr
\./&|binop|: \./&yes\cr
\.<&|prelangle|: \.{\\langle}&yes\cr
\.=&|binop|: \.{\\K}&yes\cr
\.>&|prerangle|: \.{\\rangle}&yes\cr
\..&|binop|: \..&yes\cr
\.{\v}&|binop|: \.{\\OR}&yes\cr
\.\^&|binop|: \.{\\XOR}&yes\cr
\.\%&|binop|: \.{\\MOD}&yes\cr
\.?&|question|: \.{\\?}&yes\cr
\.!&|unop|: \.{\\R}&yes\cr
\.\~&|unop|: \.{\\CM}&yes\cr
\.\&&|raw_ubin|: \.{\\AND}&yes\cr
\.(&|lpar|: \.(&maybe\cr
\.)&|rpar|: \.)&maybe\cr
\.[&|lbrack|: \.[&maybe\cr
\.]&|rbrack|: \.]&maybe\cr
\.\{&|lbrace|: \.\{&yes\cr
\.\}&|lbrace|: \.\}&yes\cr
\.,&|comma|: \.,&yes\cr
\.;&|semi|: \.;&maybe\cr
\.:&|colon|: \.:&no\cr
\.\# (within line)&|ubinop|: \.{\\\#}&yes\cr
\.\# (at beginning)&|lproc|: |force| |preproc_line| \.{\\\#}&no\cr
end of \.\# line&|rproc|: |force|&no\cr
identifier&|exp|: \.{\\\\\{}identifier with underlines and
dollar signs quoted\.\}&maybe\cr
\.{alignas}&|alignas_like|: \stars&maybe\cr
\.{alignof}&|sizeof_like|: \stars&maybe\cr
\.{and}&|alfop|: \stars&yes\cr
\.{and\_eq}&|alfop|: \stars&yes\cr
\.{asm}&|sizeof_like|: \stars&maybe\cr
\.{auto}&|int_like|: \stars&maybe\cr
\.{bitand}&|alfop|: \stars&yes\cr
\.{bitor}&|alfop|: \stars&yes\cr
\.{bool}&|raw_int|: \stars&maybe\cr
\.{break}&|case_like|: \stars&maybe\cr
\.{case}&|case_like|: \stars&maybe\cr
\.{catch}&|catch_like|: \stars&maybe\cr
\.{char}&|raw_int|: \stars&maybe\cr
\.{char8\_t}&|raw_int|: \stars&maybe\cr
\.{char16\_t}&|raw_int|: \stars&maybe\cr
\.{char32\_t}&|raw_int|: \stars&maybe\cr
\.{class}&|struct_like|: \stars&maybe\cr
\.{clock\_t}&|raw_int|: \stars&maybe\cr
\.{compl}&|alfop|: \stars&yes\cr
\.{complex}&|int_like|: \stars&yes\cr
\.{concept}&|int_like|: \stars&maybe\cr
\.{const}&|const_like|: \stars&maybe\cr
\.{consteval}&|const_like|: \stars&maybe\cr
\.{constexpr}&|const_like|: \stars&maybe\cr
\.{constinit}&|const_like|: \stars&maybe\cr
\.{const\_cast}&|raw_int|: \stars&maybe\cr
\.{continue}&|case_like|: \stars&maybe\cr
\.{co\_await}&|case_like|: \stars&maybe\cr
\.{co\_return}&|case_like|: \stars&maybe\cr
\.{co\_yield}&|case_like|: \stars&maybe\cr
\.{decltype}&|sizeof_like|: \stars&maybe\cr
\.{default}&|default_like|: \stars&maybe\cr
\.{define}&|define_like|: \stars&maybe\cr
\.{defined}&|sizeof_like|: \stars&maybe\cr
\.{delete}&|delete_like|: \stars&maybe\cr
\.{div\_t}&|raw_int|: \stars&maybe\cr
\.{do}&|do_like|: \stars&maybe\cr
\.{double}&|raw_int|: \stars&maybe\cr
\.{dynamic\_cast}&|raw_int|: \stars&maybe\cr
\.{elif}&|if_like|: \stars&maybe\cr
\.{else}&|else_like|: \stars&maybe\cr
\.{endif}&|if_like|: \stars&maybe\cr
\.{enum}&|struct_like|: \stars&maybe\cr
\.{error}&|if_like|: \stars&maybe\cr
\.{explicit}&|int_like|: \stars&maybe\cr
\.{export}&|int_like|: \stars&maybe\cr
\.{extern}&|int_like|: \stars&maybe\cr
\.{FILE}&|raw_int|: \stars&maybe\cr
\.{false}&|normal|: \stars&maybe\cr
\.{float}&|raw_int|: \stars&maybe\cr
\.{for}&|for_like|: \stars&maybe\cr
\.{fpos\_t}&|raw_int|: \stars&maybe\cr
\.{friend}&|int_like|: \stars&maybe\cr
\.{goto}&|case_like|: \stars&maybe\cr
\.{if}&|if_like|: \stars&maybe\cr
\.{ifdef}&|if_like|: \stars&maybe\cr
\.{ifndef}&|if_like|: \stars&maybe\cr
\.{imaginary}&|int_like|: \stars&maybe\cr
\.{include}&|if_like|: \stars&maybe\cr
\.{inline}&|int_like|: \stars&maybe\cr
\.{int}&|raw_int|: \stars&maybe\cr
\.{jmp\_buf}&|raw_int|: \stars&maybe\cr
\.{ldiv\_t}&|raw_int|: \stars&maybe\cr
\.{line}&|if_like|: \stars&maybe\cr
\.{long}&|raw_int|: \stars&maybe\cr
\.{make\_pair}&|ftemplate|: \.{\\\\\{make\\\_pair\}}&maybe\cr
\.{mutable}&|int_like|: \stars&maybe\cr
\.{namespace}&|struct_like|: \stars&maybe\cr
\.{new}&|new_like|: \stars&maybe\cr
\.{noexcept}&|attr|: \stars&maybe\cr
\.{not}&|alfop|: \stars&yes\cr
\.{not\_eq}&|alfop|: \stars&yes\cr
\.{NULL}&|exp|: \.{\\NULL}&yes\cr
\.{nullptr}&|exp|: \.{\\NULL}&yes\cr
\.{offsetof}&|raw_int|: \stars&maybe\cr
\.{operator}&|operator_like|: \stars&maybe\cr
\.{or}&|alfop|: \stars&yes\cr
\.{or\_eq}&|alfop|: \stars&yes\cr
\.{pragma}&|if_like|: \stars&maybe\cr
\.{private}&|public_like|: \stars&maybe\cr
\.{protected}&|public_like|: \stars&maybe\cr
\.{ptrdiff\_t}&|raw_int|: \stars&maybe\cr
\.{public}&|public_like|: \stars&maybe\cr
\.{register}&|int_like|: \stars&maybe\cr
\.{reinterpret\_cast}&|raw_int|: \stars&maybe\cr
\.{requires}&|int_like|: \stars&maybe\cr
\.{restrict}&|int_like|: \stars&maybe\cr
\.{return}&|case_like|: \stars&maybe\cr
\.{short}&|raw_int|: \stars&maybe\cr
\.{sig\_atomic\_t}&|raw_int|: \stars&maybe\cr
\.{signed}&|raw_int|: \stars&maybe\cr
\.{size\_t}&|raw_int|: \stars&maybe\cr
\.{sizeof}&|sizeof_like|: \stars&maybe\cr
\.{static}&|int_like|: \stars&maybe\cr
\.{static\_assert}&|sizeof_like|: \stars&maybe\cr
\.{static\_cast}&|raw_int|: \stars&maybe\cr
\.{struct}&|struct_like|: \stars&maybe\cr
\.{switch}&|for_like|: \stars&maybe\cr
\.{template}&|template_like|: \stars&maybe\cr
\.{TeX}&|exp|: \.{\\TeX}&yes\cr
\.{this}&|exp|: \.{\\this}&yes\cr
\.{thread\_local}&|raw_int|: \stars&maybe\cr
\.{throw}&|case_like|: \stars&maybe\cr
\.{time\_t}&|raw_int|: \stars&maybe\cr
\.{try}&|else_like|: \stars&maybe\cr
\.{typedef}&|typedef_like|: \stars&maybe\cr
\.{typeid}&|sizeof_like|: \stars&maybe\cr
\.{typename}&|struct_like|: \stars&maybe\cr
\.{undef}&|if_like|: \stars&maybe\cr
\.{union}&|struct_like|: \stars&maybe\cr
\.{unsigned}&|raw_int|: \stars&maybe\cr
\.{using}&|using_like|: \stars&maybe\cr
\.{va\_dcl}&|decl|: \stars&maybe\cr
\.{va\_list}&|raw_int|: \stars&maybe\cr
\.{virtual}&|int_like|: \stars&maybe\cr
\.{void}&|raw_int|: \stars&maybe\cr
\.{volatile}&|const_like|: \stars&maybe\cr
\.{wchar\_t}&|raw_int|: \stars&maybe\cr
\.{while}&|for_like|: \stars&maybe\cr
\.{xor}&|alfop|: \stars&yes\cr
\.{xor\_eq}&|alfop|: \stars&yes\cr
\.{@@,}&|insert|: \.{\\,}&maybe\cr
\.{@@\v}&|insert|: |opt| \.0&maybe\cr
\.{@@/}&|insert|: |force|&no\cr
\.{@@\#}&|insert|: |big_force|&no\cr
\.{@@+}&|insert|: |big_cancel| \.{\{\}} |break_space|
\.{\{\}} |big_cancel|&no\cr
\.{@@;}&|semi|: &maybe\cr
\.{@@[@q]@>}&|begin_arg|: &maybe\cr
\.{@q[@>@@]}&|end_arg|: &maybe\cr
\.{@@\&}&|insert|: \.{\\J}&maybe\cr
\.{@@h}&|insert|: |force| \.{\\ATH} |force|&no\cr
\.{@@<}\thinspace section name\thinspace\.{@@>}&|section_scrap|:
\.{\\X}$n$\.:translated section name\.{\\X}&maybe\cr
\.{@@(@q)@>}\thinspace section name\thinspace\.{@@>}&|section_scrap|:
\.{\\X}$n$\.{:\\.\{}section name with special characters
quoted\.{\\,\}\\X}\footnote*{The \.{\\,} (thin space) is omitted
in ``|inner| \TeX\ mode.''}&maybe\cr
\.{/*}\thinspace comment\thinspace\.{*/}&|insert|: |cancel|
\.{\\C\{}translated comment\.\} |force|&no\cr
\.{//}\thinspace comment&|insert|: |cancel|
\.{\\SHC\{}translated comment\.\} |force|&no\cr
}
\smallskip
The construction \.{@@t}\thinspace stuff\/\thinspace\.{@@>} contributes
\.{\\hbox\{}\thinspace stuff\/\thinspace\.\} to the following scrap.
@i prod.w
@* Implementing the productions.
More specifically, a scrap is a structure consisting of a category
|cat| and a |text_pointer| |trans|, which points to the translation in
|tok_start|. When \CEE/ text is to be processed with the grammar above,
we form an array |scrap_info| containing the initial scraps.
Our production rules have the nice property that the right-hand side is never
longer than the left-hand side. Therefore it is convenient to use sequential
allocation for the current sequence of scraps. Five pointers are used to
manage the parsing:
\yskip\hang |pp| is a pointer into |scrap_info|. We will try to match
the category codes |pp->cat,@,@,(pp+1)->cat|$,\,\,\ldots\,$
to the left-hand sides of productions.
\yskip\hang |scrap_base|, |lo_ptr|, |hi_ptr|, and |scrap_ptr| are such that
the current sequence of scraps appears in positions |scrap_base| through
|lo_ptr| and |hi_ptr| through |scrap_ptr|, inclusive, in the |cat| and
|trans| arrays. Scraps located between |scrap_base| and |lo_ptr| have
been examined, while those in positions |>=hi_ptr| have not yet been
looked at by the parsing process.
\yskip\noindent Initially |scrap_ptr| is set to the position of the final
scrap to be parsed, and it doesn't change its value. The parsing process
makes sure that |lo_ptr>=pp+3|, since productions have as many as four terms,
by moving scraps from |hi_ptr| to |lo_ptr|. If there are
fewer than |pp+3| scraps left, the positions up to |pp+3| are filled with
blanks that will not match in any productions. Parsing stops when
|pp==lo_ptr+1| and |hi_ptr==scrap_ptr+1|.
Since the |scrap| structure will later be used for other purposes, we
declare its second element as a union.
@d trans trans_plus.Trans /* translation texts of scraps */
@<Type...@>=
typedef struct {
eight_bits cat;
eight_bits mathness;
union {
text_pointer Trans;@+@t}\6{@>
@<Rest of |trans_plus| union@>@;
} trans_plus;
} scrap;
typedef scrap *scrap_pointer;
@ @d max_scraps 5000 /* number of tokens in \CEE/ texts being parsed */
@<Private...@>=
static scrap scrap_info[max_scraps]; /* memory array for scraps */
static scrap_pointer scrap_info_end=scrap_info+max_scraps-1; /* end of |scrap_info| */
static scrap_pointer scrap_base; /* beginning of the current scrap sequence */
static scrap_pointer scrap_ptr; /* ending of the current scrap sequence */
static scrap_pointer max_scr_ptr; /* largest value assumed by |scrap_ptr| */
static scrap_pointer pp; /* current position for reducing productions */
static scrap_pointer lo_ptr; /* last scrap that has been examined */
static scrap_pointer hi_ptr; /* first scrap that has not been examined */
@ @<Set init...@>=
scrap_base=scrap_info+1;
max_scr_ptr=scrap_ptr=scrap_info;
@ Token lists in |@!tok_mem| are composed of the following kinds of
items for \TEX/ output.
\yskip\item{$\bullet$}Character codes and special codes like |force| and
|math_rel| represent themselves;
\item{$\bullet$}|id_flag+p| represents \.{\\\\\{{\rm identifier $p$}\}};
\item{$\bullet$}|res_flag+p| represents \.{\\\&\{{\rm identifier $p$}\}};
\item{$\bullet$}|section_flag+p| represents section name |p|;
\item{$\bullet$}|tok_flag+p| represents token list number |p|;
\item{$\bullet$}|inner_tok_flag+p| represents token list number |p|, to be
translated without line-break controls.
@d id_flag 10240 /* signifies an identifier */
@d res_flag (2*id_flag) /* signifies a reserved word */
@d section_flag (3*id_flag) /* signifies a section name */
@d tok_flag (4*id_flag) /* signifies a token list */
@d inner_tok_flag (5*id_flag) /* signifies a token list in `\pb' */
@<Predecl...@>=
#ifdef DEBUG
static void print_text(text_pointer p);
#endif
@ This function prints a token list for debugging;
it is not used in |main| at this time.
@c
#ifdef DEBUG
static void
print_text(
text_pointer p)
{
token_pointer j; /* index into |tok_mem| */
sixteen_bits r; /* remainder of token after the flag has been stripped off */
if (p>=text_ptr) printf("BAD");
else for (j=*p; j<*(p+1); j++) {
r=*j%id_flag;
switch (*j) {
case id_flag:
printf("\\\\{"@q}@>); print_id((name_dir+r)); putchar(@q{@>'}');
break;
case res_flag:
printf("\\&{"@q}@>); print_id((name_dir+r)); putchar(@q{@>'}');
break;
case section_flag:
putchar('<'); print_section_name((name_dir+r)); putchar('>');
break;
case tok_flag: printf("[[%d]]",(int)r); break;
case inner_tok_flag: printf("|[[%d]]|",(int)r); break;
default: @<Print token |r| in symbolic form@>@;
}
}
update_terminal();
}
#endif /* |DEBUG| */
@ @<Print token |r|...@>=
switch (r) {
case math_rel: printf("\\mathrel{"@q}@>); break;
case big_cancel: printf("[ccancel]"); break;
case cancel: printf("[cancel]"); break;
case indent: printf("[indent]"); break;
case outdent: printf("[outdent]"); break;
case dindent: printf("[dindent]"); break;
case backup: printf("[backup]"); break;
case opt: printf("[opt]"); break;
case break_space: printf("[break]"); break;
case force: printf("[force]"); break;
case big_force: printf("[fforce]"); break;
case preproc_line: printf("[preproc]"); break;
case quoted_char: j++; printf("[%o]",(unsigned int)*j); break;
case end_translation: printf("[quit]"); break;
case inserted: printf("[inserted]"); break;
default: putchar((int)r);
}
@ The production rules listed above are embedded directly into \.{CWEAVE},
since it is easier to do this than to write an interpretive system
that would handle production systems in general. Several macros are defined
here so that the program for each production is fairly short.
All of our productions conform to the general notion that some |k|
consecutive scraps starting at some position |j| are to be replaced by a
single scrap of some category |c| whose translation is composed from the
translations of the disappearing scraps. After this production has been
applied, the production pointer |pp| should change by an amount |d|. Such
a production can be represented by the quadruple |(j,k,c,d)|. For example,
the production `|exp@,comma@,exp| $\RA$ |exp|' would be represented by
`|(pp,3,exp,-2)|'; in this case the pointer |pp| should decrease by 2
after the production has been applied, because some productions with
|exp| in their second or third positions might now match,
but no productions have
|exp| in the fourth position of their left-hand sides. Note that
the value of |d| is determined by the whole collection of productions, not
by an individual one.
The determination of |d| has been
done by hand in each case, based on the full set of productions but not on
the grammar of \CEE/ or on the rules for constructing the initial
scraps.
We also attach a serial number to each production, so that additional
information is available when debugging. For example, the program below
contains the statement `|reduce(pp,3,exp,-2,4)|' when it implements
the production just mentioned.
Before calling |reduce|, the program should have appended the tokens of
the new translation to the |tok_mem| array. We commonly want to append
copies of several existing translations, and macros are defined to
simplify these common cases. For example, |big_app2(pp)| will append the
translations of two consecutive scraps, |pp->trans| and |(pp+1)->trans|, to
the current token list. If the entire new translation is formed in this
way, we write `|squash(j,k,c,d,n)|' instead of `|reduce(j,k,c,d,n)|'. For
example, `|squash(pp,3,exp,-2,3)|' is an abbreviation for `|big_app3(pp);
reduce(pp,3,exp,-2,3)|'.
A couple more words of explanation:
Both |big_app| and |app| append a token (while |big_app1| to |big_app4|
append the specified number of scrap translations) to the current token list.
The difference between |big_app| and |app| is simply that |big_app|
checks whether there can be a conflict between math and non-math
tokens, and intercalates a `\.{\$}' token if necessary. When in
doubt what to use, use |big_app|.
@d app(a) *(tok_ptr++)=(token)(a)
@#
@d big_app2(a) big_app1(a);@+big_app1(a+1)
@d big_app3(a) big_app2(a);@+big_app1(a+2)
@d big_app4(a) big_app3(a);@+big_app1(a+3)
@#
@d big_app1_insert(p,c) big_app1(p);@+big_app(c);@+big_app1(p+1)
@d big_app1_insert_str(p,s) big_app1(p);@+app_str(s);@+big_app1(p+1)
@d big_app2_insert(p,c) big_app2(p);@+big_app(c);@+big_app2(p+2)
@<Predecl...@>=
static void app_str(const char *);@/
static void big_app(token);@/
static void big_app1(scrap_pointer);
@ The |mathness| is an attribute of scraps that says whether they are
to be printed in a math mode context or not. It is separate from the
``part of speech'' (the |cat|) because to make each |cat| have
a fixed |mathness| (as in the original \.{WEAVE}) would multiply the
number of necessary production rules.
The low two bits (i.e., |mathness % 4|) control the left boundary.
(We need two bits because we allow cases |yes_math|, |no_math| and
|maybe_math|, which can go either way.)
The next two bits (i.e., |mathness / 4|) control the right boundary.
If we combine two scraps and the right boundary of the first has
a different mathness from the left boundary of the second, we
insert a \.{\$} in between. Similarly, if at printing time some
irreducible scrap has a |yes_math| boundary the scrap gets preceded
or followed by a~\.{\$}. The left boundary is |maybe_math| if and
only if the right boundary is.
@d no_math 2 /* should be in horizontal mode */
@d yes_math 1 /* should be in math mode */
@d maybe_math 0 /* works in either horizontal or math mode */
@<Private...@>=
static int cur_mathness, init_mathness;
@ The code below is an exact translation of the production rules into
\CEE/, using such macros, and the reader should have no difficulty
understanding the format by comparing the code with the symbolic
productions as they were listed earlier.
@d begin_math() if (cur_mathness==maybe_math) init_mathness=yes_math;
else if (cur_mathness==no_math) app_str("${}")
@d end_math() if (cur_mathness==maybe_math) init_mathness=no_math;
else if (cur_mathness==yes_math) app_str("{}$")
@c
static void
app_str(
const char *s)
{
while (*s) app_tok(*s++);
}
static void
big_app(
token a)
{
if (a==' ' || (a>=big_cancel && a<=big_force) || a==dindent)
/* non-math token */ {
end_math();
cur_mathness=no_math;
} else {
begin_math();
cur_mathness=yes_math;
}
app(a);
}
static void
big_app1(
scrap_pointer a)
{
switch (a->mathness % 4) { /* left boundary */
case (no_math):
end_math();
cur_mathness=a->mathness / 4; /* right boundary */
break;
case (yes_math):
begin_math();
cur_mathness=a->mathness / 4; /* right boundary */
break;
case (maybe_math): /* no changes */ break;
}
app(tok_flag+(int)((a)->trans-tok_start));
}
@ Let us consider the big switch for productions now, before looking
at its context. We want to design the program so that this switch
works, so we might as well not keep ourselves in suspense about exactly what
code needs to be provided with a proper environment.
@d cat1 (pp+1)->cat
@d cat2 (pp+2)->cat
@d cat3 (pp+3)->cat
@d lhs_not_simple (pp->cat!=public_like
&& pp->cat!=semi
&& pp->cat!=prelangle
&& pp->cat!=prerangle @|
&& pp->cat!=template_like
&& pp->cat!=new_like
&& pp->cat!=new_exp
&& pp->cat!=ftemplate @|
&& pp->cat!=raw_ubin
&& pp->cat!=const_like
&& pp->cat!=raw_int
&& pp->cat!=operator_like)
/* not a production with left side length 1 */
@<Match a production at |pp|, or increase |pp| if there is no match@>=
if (cat1==end_arg && lhs_not_simple)
if (pp->cat==begin_arg) squash(pp,2,exp,-2,124);
else squash(pp,2,end_arg,-1,125);
else if (pp->cat==rbrack) reduce(pp,0,rpar,-3,130);
else if (pp->cat==using_like) reduce(pp,0,int_like,-3,140);
else if (cat1==insert) squash(pp,2,pp->cat,-2,0);
else if (cat2==insert) squash(pp+1,2,(pp+1)->cat,-1,0);
else if (cat3==insert) squash(pp+2,2,(pp+2)->cat,0,0);
else
switch (pp->cat) {
case exp: @<Cases for |exp|@>@; @+break;
case lpar: @<Cases for |lpar|@>@; @+break;
case unop: @<Cases for |unop|@>@; @+break;
case ubinop: @<Cases for |ubinop|@>@; @+break;
case binop: @<Cases for |binop|@>@; @+break;
case cast: @<Cases for |cast|@>@; @+break;
case sizeof_like: @<Cases for |sizeof_like|@>@; @+break;
case int_like: @<Cases for |int_like|@>@; @+break;
case public_like: @<Cases for |public_like|@>@; @+break;
case colcol: @<Cases for |colcol|@>@; @+break;
case decl_head: @<Cases for |decl_head|@>@; @+break;
case decl: @<Cases for |decl|@>@; @+break;
case base: @<Cases for |base|@>@; @+break;
case struct_like: @<Cases for |struct_like|@>@; @+break;
case struct_head: @<Cases for |struct_head|@>@; @+break;
case fn_decl: @<Cases for |fn_decl|@>@; @+break;
case function: @<Cases for |function|@>@; @+break;
case lbrace: @<Cases for |lbrace|@>@; @+break;
case if_like: @<Cases for |if_like|@>@; @+break;
case else_like: @<Cases for |else_like|@>@; @+break;
case else_head: @<Cases for |else_head|@>@; @+break;
case if_clause: @<Cases for |if_clause|@>@; @+break;
case if_head: @<Cases for |if_head|@>@; @+break;
case do_like: @<Cases for |do_like|@>@; @+break;
case case_like: @<Cases for |case_like|@>@; @+break;
case catch_like: @<Cases for |catch_like|@>@; @+break;
case tag: @<Cases for |tag|@>@; @+break;
case stmt: @<Cases for |stmt|@>@; @+break;
case semi: @<Cases for |semi|@>@; @+break;
case lproc: @<Cases for |lproc|@>@; @+break;
case section_scrap: @<Cases for |section_scrap|@>@; @+break;
case insert: @<Cases for |insert|@>@; @+break;
case prelangle: @<Cases for |prelangle|@>@; @+break;
case prerangle: @<Cases for |prerangle|@>@; @+break;
case langle: @<Cases for |langle|@>@; @+break;
case template_like: @<Cases for |template_like|@>@; @+break;
case new_like: @<Cases for |new_like|@>@; @+break;
case new_exp: @<Cases for |new_exp|@>@; @+break;
case ftemplate: @<Cases for |ftemplate|@>@; @+break;
case for_like: @<Cases for |for_like|@>@; @+break;
case raw_ubin: @<Cases for |raw_ubin|@>@; @+break;
case const_like: @<Cases for |const_like|@>@; @+break;
case raw_int: @<Cases for |raw_int|@>@; @+break;
case operator_like: @<Cases for |operator_like|@>@; @+break;
case typedef_like: @<Cases for |typedef_like|@>@; @+break;
case delete_like: @<Cases for |delete_like|@>@; @+break;
case question: @<Cases for |question|@>@; @+break;
case alignas_like: @<Cases for |alignas_like|@>@; @+break;
case lbrack: @<Cases for |lbrack|@>@; @+break;
case attr_head: @<Cases for |attr_head|@>@; @+break;
case attr: @<Cases for |attr|@>@; @+break;
case default_like: @<Cases for |default_like|@>@; @+break;
}
pp++; /* if no match was found, we move to the right */
@ In \CEE/, new specifier names can be defined via |typedef|, and we want
to make the parser recognize future occurrences of the identifier thus
defined as specifiers. This is done by the procedure |make_reserved|,
which changes the |ilk| of the relevant identifier.
We first need a procedure to recursively seek the first
identifier in a token list, because the identifier might
be enclosed in parentheses, as when one defines a function
returning a pointer.
If the first identifier found is a keyword like `\&{case}', we
return the special value |case_found|; this prevents underlining
of identifiers in case labels.
If the first identifier is the keyword `\&{operator}', we give up;
users who want to index definitions of overloaded \CPLUSPLUS/ operators
should say, for example, `\.{@@!@@\^\\\&\{operator\} \$+\{=\}\$@@>}' (or,
more properly alpha\-betized,
`\.{@@!@@:operator+=\}\{\\\&\{operator\} \$+\{=\}\$@@>}').
@d no_ident_found (token_pointer)0 /* distinct from any identifier token */
@d case_found (token_pointer)1 /* likewise */
@d operator_found (token_pointer)2 /* likewise */
@<Predecl...@>=
static token_pointer find_first_ident(text_pointer);@/
static void make_reserved(scrap_pointer);@/
static void make_underlined(scrap_pointer);@/
static void underline_xref(name_pointer);
@ @c
static token_pointer
find_first_ident(
text_pointer p)
{
token_pointer q; /* token to be returned */
token_pointer j; /* token being looked at */
sixteen_bits r; /* remainder of token after the flag has been stripped off */
if (p>=text_ptr) confusion("find_first_ident");
for (j=*p; j<*(p+1); j++) {
r=*j%id_flag;
switch (*j/id_flag) {
case 2: /* |res_flag| */
if (name_dir[r].ilk==case_like) return case_found;
if (name_dir[r].ilk==operator_like) return operator_found;
if (name_dir[r].ilk!=raw_int) break;
@=/* else fall through */@>@;
case 1: return j;
case 4: case 5: /* |tok_flag| or |inner_tok_flag| */
if ((q=find_first_ident(tok_start+r))!=no_ident_found)
return q;
@=/* else fall through */@>@;
default: ; /* char, |section_flag|, fall thru: move on to next token */
if (*j==inserted) return no_ident_found; /* ignore inserts */
else if (*j==qualifier) j++; /* bypass namespace qualifier */
}
}
return no_ident_found;
}
@ The scraps currently being parsed must be inspected for any
occurrence of the identifier that we're making reserved; hence
the |for| loop below.
@c
static void
make_reserved( /* make the first identifier in |p->trans| like |int| */
scrap_pointer p)
{
sixteen_bits tok_value; /* the name of this identifier, plus its flag */
token_pointer tok_loc; /* pointer to |tok_value| */
if ((tok_loc=find_first_ident(p->trans))<=operator_found)
return; /* this should not happen */
tok_value=*tok_loc;
for (;p<=scrap_ptr; p==lo_ptr? p=hi_ptr: p++)
if (p->cat==exp)
if (**(p->trans)==tok_value) {
p->cat=raw_int;
**(p->trans)=tok_value%id_flag+res_flag;
}
(name_dir+(sixteen_bits)(tok_value%id_flag))->ilk=raw_int;
*tok_loc=tok_value%id_flag+res_flag;
}
@ In the following situations we want to mark the occurrence of
an identifier as a definition: when |make_reserved| is just about to be
used; after a specifier, as in |char **argv|;
before a colon, as in \\{found}:; and in the declaration of a function,
as in \\{main}()$\{\ldots;\}$. This is accomplished by the invocation
of |make_underlined| at appropriate times. Notice that, in the declaration
of a function, we find out that the identifier is being defined only after
it has been swallowed up by an |exp|.
@c
static void
make_underlined(
/* underline the entry for the first identifier in |p->trans| */
scrap_pointer p)
{
token_pointer tok_loc; /* where the first identifier appears */
if ((tok_loc=find_first_ident(p->trans))<=operator_found)
return; /* this happens, for example, in |case found:| */
xref_switch=def_flag;
underline_xref(*tok_loc%id_flag+name_dir);
}
@ We cannot use |new_xref| to underline a cross-reference at this point
because this would just make a new cross-reference at the end of the list.
We actually have to search through the list for the existing
cross-reference.
@c
static void
underline_xref(
name_pointer p)
{
xref_pointer q=(xref_pointer)p->xref; /* pointer to cross-reference being examined */
xref_pointer r; /* temporary pointer for permuting cross-references */
sixteen_bits m; /* cross-reference value to be installed */
sixteen_bits n; /* cross-reference value being examined */
if (no_xref) return;
m=section_count+xref_switch;
while (q != xmem) {
n=q->num;
if (n==m) return;
else if (m==n+def_flag) {
q->num=m; return;
}
else if (n>=def_flag && n<m) break;
q=q->xlink;
}
@<Insert new cross-reference at |q|, not at beginning of list@>@;
}
@ We get to this section only when the identifier is one letter long,
so it didn't get a non-underlined entry during phase one. But it may
have got some explicitly underlined entries in later sections, so in order
to preserve the numerical order of the entries in the index, we have
to insert the new cross-reference not at the beginning of the list
(namely, at |p->xref|), but rather right before |q|.
@<Insert new cross-reference at |q|...@>=
append_xref(0); /* this number doesn't matter */
xref_ptr->xlink=(xref_pointer)p->xref; r=xref_ptr;
update_node(p);
while (r->xlink!=q) {r->num=r->xlink->num; r=r->xlink;}
r->num=m; /* everything from |q| on is left undisturbed */
@ Now comes the code that tries to match each production starting
with a particular type of scrap. Whenever a match is discovered,
the |squash| or |reduce| function will cause the appropriate action
to be performed.
@<Cases for |exp|@>=
if (cat1==lbrace || cat1==int_like || cat1==decl) {
make_underlined(pp); big_app(dindent); big_app1(pp);
reduce(pp,1,fn_decl,0,1);
}
else if (cat1==unop) squash(pp,2,exp,-2,2);
else if ((cat1==binop || cat1==ubinop) && cat2==exp)
squash(pp,3,exp,-2,3);
else if (cat1==comma && cat2==exp) {
big_app2(pp); app(opt); app('9'); big_app1(pp+2); reduce(pp,3,exp,-2,4);
}
else if (cat1==lpar && cat2==rpar && cat3==colon) reduce(pp+3,0,base,0,5);
else if (cat1==cast && cat2==colon) reduce(pp+2,0,base,0,5);
else if (cat1==semi) squash(pp,2,stmt,-1,6);
else if (cat1==colon) {
make_underlined (pp); squash(pp,2,tag,-1,7);
}
else if (cat1==rbrace) reduce(pp,0,stmt,-1,8);
else if (cat1==lpar && cat2==rpar && (cat3==const_like || cat3==case_like)) {
big_app1_insert(pp+2,' '); reduce(pp+2,2,rpar,0,9);
}
else if (cat1==cast && (cat2==const_like || cat2==case_like)) {
big_app1_insert(pp+1,' '); reduce(pp+1,2,cast,0,9);
}
else if (cat1==exp || cat1==cast) squash(pp,2,exp,-2,10);
else if (cat1==attr) {
big_app1_insert(pp,' '); reduce(pp,2,exp,-2,142);
}
else if (cat1==colcol && cat2==int_like) squash(pp,3,int_like,-2,152);
@ @<Cases for |lpar|@>=
if ((cat1==exp||cat1==ubinop) && cat2==rpar) squash(pp,3,exp,-2,11);
else if (cat1==rpar) {
big_app1_insert_str(pp,"\\,");
@.\\,@>
reduce(pp,2,exp,-2,12);
}
else if ((cat1==decl_head || cat1==int_like || cat1==cast) && cat2==rpar)
squash(pp,3,cast,-2,13);
else if ((cat1==decl_head || cat1==int_like || cat1==exp) && cat2==comma) {
big_app3(pp); app(opt); app('9'); reduce(pp,3,lpar,-1,14);
}
else if (cat1==stmt || cat1==decl) {
big_app2(pp); big_app(' '); reduce(pp,2,lpar,-1,15);
}
@ @<Cases for |unop|@>=
if (cat1==exp || cat1==int_like) squash(pp,2,exp,-2,16);
@ @<Cases for |ubinop|@>=
if (cat1==cast && cat2==rpar) {
big_app('{'); big_app1_insert(pp,'}'); reduce(pp,2,cast,-2,17);
}
else if (cat1==exp || cat1==int_like) {
big_app('{'); big_app1_insert(pp,'}'); reduce(pp,2,cat1,-2,18);
}
else if (cat1==binop) {
big_app(math_rel); big_app1_insert(pp,'{'); big_app('}');
big_app('}'); reduce(pp,2,binop,-1,19);
}
@ @<Cases for |binop|@>=
if (cat1==binop) {
big_app(math_rel); big_app('{'); big_app1(pp); big_app('}');
big_app('{'); big_app1(pp+1); big_app('}');
big_app('}'); reduce(pp,2,binop,-1,20);
}
@ @<Cases for |cast|@>=
if (cat1==lpar) squash(pp,2,lpar,-1,21);
else if (cat1==exp) {
big_app1_insert_str(pp,"\\,");
@.\\,@>
reduce(pp,2,exp,-2,21);
}
else if (cat1==semi) reduce(pp,0,exp,-2,22);
@ @<Cases for |sizeof_like|@>=
if (cat1==cast) squash(pp,2,exp,-2,23);
else if (cat1==exp) {
big_app1_insert(pp,' '); reduce(pp,2,exp,-2,24);
}
@ @<Cases for |int_like|@>=
if (cat1==int_like|| cat1==struct_like) {
big_app1_insert(pp,' '); reduce(pp,2,cat1,-2,25);
}
else if (cat1==exp && (cat2==raw_int||cat2==struct_like))
squash(pp,2,int_like,-2,26);
else if (cat1==exp || cat1==ubinop || cat1==colon) {
big_app1(pp); big_app(' '); reduce(pp,1,decl_head,-1,27);
}
else if (cat1==semi || cat1==binop) reduce(pp,0,decl_head,0,28);
@ @<Cases for |public_like|@>=
if (cat1==colon) squash(pp,2,tag,-1,29);
else reduce(pp,0,int_like,-2,30);
@ @<Cases for |colcol|@>=
if (cat1==exp||cat1==int_like) {
app(qualifier); squash(pp,2,cat1,-2,31);
}
else if (cat1==colcol) squash(pp,2,colcol,-1,32);
@ @<Cases for |decl_head|@>=
if (cat1==comma) {
big_app2(pp); app(opt); app('9'); reduce(pp,2,decl_head,-1,33);
}
else if (cat1==ubinop) {
big_app1_insert(pp,'{'); big_app('}'); reduce(pp,2,decl_head,-1,34);
}
else if (cat1==exp && cat2!=lpar && cat2!=lbrack && cat2!=exp && cat2!=cast) {
make_underlined(pp+1); squash(pp,2,decl_head,-1,35);
}
else if ((cat1==binop||cat1==colon) && cat2==exp && (cat3==comma ||
cat3==semi || cat3==rpar))
squash(pp,3,decl_head,-1,36);
else if (cat1==cast) squash(pp,2,decl_head,-1,37);
else if (cat1==int_like || cat1==lbrace || cat1==decl) {
big_app(dindent); squash(pp,1,fn_decl,0,38);
}
else if (cat1==semi) squash(pp,2,decl,-1,39);
else if (cat1==attr) {
big_app1_insert(pp,' '); reduce(pp,2,decl_head,-1,139);
}
@ @<Cases for |decl|@>=
if (cat1==decl) {
big_app1_insert(pp,force); reduce(pp,2,decl,-1,40);
}
else if (cat1==stmt || cat1==function) {
big_app1_insert(pp,big_force); reduce(pp,2,cat1,-1,41);
}
@ @<Cases for |base|@>=
if (cat1==int_like || cat1==exp) {
if (cat2==comma) {
big_app1_insert(pp,' '); big_app1(pp+2);
app(opt); app('9'); reduce(pp,3,base,0,42);
}
else if (cat2==lbrace) {
big_app1_insert(pp,' '); big_app(' '); big_app1(pp+2);
reduce(pp,3,lbrace,-2,43);
}
}
@ @<Cases for |struct_like|@>=
if (cat1==lbrace) {
big_app1_insert(pp,' '); reduce(pp,2,struct_head,0,44);
}
else if (cat1==exp||cat1==int_like) {
if (cat2==lbrace || cat2==semi) {
make_underlined(pp+1); make_reserved(pp+1);
big_app1_insert(pp,' ');
if (cat2==semi) reduce(pp,2,decl_head,0,45);
else {
big_app(' '); big_app1(pp+2); reduce(pp,3,struct_head,0,46);
}
}
else if (cat2==colon) reduce(pp+2,0,base,2,47);
else if (cat2!=base) {
big_app1_insert(pp,' '); reduce(pp,2,int_like,-2,48);
}
}
else if (cat1==attr) {
big_app1_insert(pp,' '); reduce(pp,2,struct_like,-3,141);
}
else if (cat1==struct_like) {
big_app1_insert(pp,' '); reduce(pp,2,struct_like,-3,151);
}
@ @<Cases for |struct_head|@>=
if ((cat1==decl || cat1==stmt || cat1==function) && cat2==rbrace) {
big_app1(pp); big_app(indent); big_app(force); big_app1(pp+1);
big_app(outdent); big_app(force); big_app1(pp+2);
reduce(pp,3,int_like,-2,49);
}
else if (cat1==rbrace) {
big_app1_insert_str(pp,"\\,");
@.\\,@>
reduce(pp,2,int_like,-2,50);
}
@ @<Cases for |fn_decl|@>=
if (cat1==decl) {
big_app1_insert(pp,force); reduce(pp,2,fn_decl,0,51);
}
else if (cat1==stmt) {
big_app1(pp); app(outdent); app(outdent); big_app(force);
big_app1(pp+1); reduce(pp,2,function,-1,52);
}
else if (cat1==attr) {
big_app1_insert(pp,' '); reduce(pp,2,fn_decl,0,157);
}
@ @<Cases for |function|@>=
if (cat1==stmt || cat1==decl || cat1==function) {
big_app1_insert(pp,big_force); reduce(pp,2,cat1,-1,53);
}
@ @<Cases for |lbrace|@>=
if (cat1==rbrace) {
big_app1_insert_str(pp,"\\,");
@.\\,@>
reduce(pp,2,stmt,-1,54);
}
else if ((cat1==stmt||cat1==decl||cat1==function) && cat2==rbrace) {
big_app(force); big_app1(pp); big_app(indent); big_app(force);
big_app1(pp+1); big_app(force); big_app(backup); big_app1(pp+2);
big_app(outdent); big_app(force); reduce(pp,3,stmt,-1,55);
}
else if (cat1==exp) {
if (cat2==rbrace) squash(pp,3,exp,-2,56);
else if (cat2==comma && cat3==rbrace) squash(pp,4,exp,-2,56);
}
@ @<Cases for |if_like|@>=
if (cat1==exp) {
big_app1_insert(pp,' '); reduce(pp,2,if_clause,0,57);
}
@ @<Cases for |else_like|@>=
if (cat1==colon) reduce(pp+1,0,base,1,58);
else if (cat1==lbrace) reduce(pp,0,else_head,0,59);
else if (cat1==stmt) {
big_app(force); big_app1(pp); big_app(indent); big_app(break_space);
big_app1(pp+1); big_app(outdent); big_app(force);
reduce(pp,2,stmt,-1,60);
}
@ @<Cases for |else_head|@>=
if (cat1==stmt || cat1==exp) {
big_app(force); big_app1(pp); big_app(break_space); app(noop);
big_app(cancel); big_app1(pp+1); big_app(force);
reduce(pp,2,stmt,-1,61);
}
@ @<Cases for |if_clause|@>=
if (cat1==lbrace) reduce(pp,0,if_head,0,62);
else if (cat1==stmt) {
if (cat2==else_like) {
big_app(force); big_app1(pp); big_app(indent); big_app(break_space);
big_app1(pp+1); big_app(outdent); big_app(force); big_app1(pp+2);
if (cat3==if_like) {
big_app(' '); big_app1(pp+3); reduce(pp,4,if_like,0,63);
}
else reduce(pp,3,else_like,0,64);
}
else reduce(pp,0,else_like,0,65);
}
else if (cat1==attr) {
big_app1_insert(pp,' '); reduce(pp,2,if_head,0,146);
}
@ @<Cases for |if_head|@>=
if (cat1==stmt || cat1==exp) {
if (cat2==else_like) {
big_app(force); big_app1(pp); big_app(break_space); app(noop);
big_app(cancel); big_app1_insert(pp+1,force);
if (cat3==if_like) {
big_app(' '); big_app1(pp+3); reduce(pp,4,if_like,0,66);
}
else reduce(pp,3,else_like,0,67);
}
else reduce(pp,0,else_head,0,68);
}
@ @<Cases for |do_like|@>=
if (cat1==stmt && cat2==else_like && cat3==semi) {
big_app1(pp); big_app(break_space); app(noop); big_app(cancel);
big_app1(pp+1); big_app(cancel); app(noop); big_app(break_space);
big_app2(pp+2); reduce(pp,4,stmt,-1,69);
}
@ @<Cases for |case_like|@>=
if (cat1==semi) squash(pp,2,stmt,-1,70);
else if (cat1==colon) squash(pp,2,tag,-1,71);
else if (cat1==exp) {
big_app1_insert(pp,' '); reduce(pp,2,exp,-2,72);
}
@ @<Cases for |catch_like|@>=
if (cat1==cast || cat1==exp) {
big_app1_insert(pp,dindent); reduce(pp,2,fn_decl,0,73);
}
@ @<Cases for |tag|@>=
if (cat1==tag) {
big_app1_insert(pp,break_space); reduce(pp,2,tag,-1,74);
}
else if (cat1==stmt||cat1==decl||cat1==function) {
big_app(force); big_app(backup); big_app1_insert(pp,break_space);
reduce(pp,2,cat1,-1,75);
}
else if (cat1==rbrace) reduce(pp,0,decl,-1,156);
@ The user can decide at run-time whether short statements should be
grouped together on the same line.
@d force_lines flags['f'] /* should each statement be on its own line? */
@<Set init...@>=
force_lines=true;
@ @<Cases for |stmt|@>=
if (cat1==stmt || cat1==decl || cat1==function) {
big_app1_insert(pp, (cat1==decl || cat1==function) ? big_force :
force_lines ? force : break_space); reduce(pp,2,cat1,-1,76);
}
@ @<Cases for |semi|@>=
big_app(' '); squash(pp,1,stmt,-1,77);
@ @<Cases for |lproc|@>=
if (cat1==define_like) make_underlined(pp+2);
if (cat1==if_like || cat1==else_like || cat1==define_like)
squash(pp,2,lproc,0,78);
else if (cat1==rproc) {
app(inserted); squash(pp,2,insert,-1,79);
} else if (cat1==exp || cat1==function) {
if (cat2==rproc) {
app(inserted); big_app1_insert(pp,' '); big_app1(pp+2);
reduce(pp,3,insert,-1,80);
}
else if (cat1==exp && cat2==exp && cat3==rproc) {
app(inserted); big_app1_insert(pp,' '); app_str("\\5");
@.\\5@>
big_app2(pp+2); reduce(pp,4,insert,-1,80);
}
}
@ @<Cases for |section_scrap|@>=
if (cat1==semi) {
big_app2(pp); big_app(force); reduce(pp,2,stmt,-2,81);
}
else reduce(pp,0,exp,-2,82);
@ @<Cases for |insert|@>=
if (cat1==function)
squash(pp,2,function,0,83);
@ @<Cases for |prelangle|@>=
init_mathness=cur_mathness=yes_math;
app('<'); reduce(pp,1,binop,-2,84);
@ @<Cases for |prerangle|@>=
init_mathness=cur_mathness=yes_math;
app('>'); reduce(pp,1,binop,-2,85);
@ @d reserve_typenames flags['t']
/* should we treat \&{typename} in a template like \&{typedef}? */
@<Cases for |langle|@>=
if (cat1==prerangle) {
big_app1_insert_str(pp,"\\,");
@.\\,@>
reduce(pp,2,cast,-1,86);
}
else if (cat1==decl_head || cat1==int_like || cat1==exp) {
if (cat2==prerangle) squash(pp,3,cast,-1,87);
else if (cat2==comma) {
big_app3(pp); app(opt); app('9'); reduce(pp,3,langle,0,88);
}
}
else if ((cat1==struct_like) @|
&& (cat2==exp || cat2==int_like) @|
&& (cat3==comma || cat3==prerangle)) {
make_underlined(pp+2); if (reserve_typenames) make_reserved(pp+2);
big_app2_insert(pp,' ');
if (cat3==comma) {
app(opt); app('9'); reduce(pp,4,langle,0,153);
}
else reduce(pp,4,cast,-1,154);
}
@ @<Cases for |template_like|@>=
if (cat1==exp && cat2==prelangle) reduce(pp+2,0,langle,2,89);
else if (cat1==exp || cat1==raw_int) {
big_app1_insert(pp,' '); reduce(pp,2,cat1,-2,90);
}
else if (cat1==cast && cat2==struct_like) {
big_app1_insert(pp,' '); reduce(pp,2,struct_like,0,155);
}
else reduce(pp,0,raw_int,0,91);
@ @<Cases for |new_like|@>=
if (cat1==lpar && cat2==exp && cat3==rpar) squash(pp,4,new_like,0,92);
else if (cat1==cast) {
big_app1_insert(pp,' '); reduce(pp,2,exp,-2,93);
}
else if (cat1!=lpar) reduce(pp,0,new_exp,0,94);
@ @<Cases for |new_exp|@>=
if (cat1==int_like || cat1==const_like) {
big_app1_insert(pp,' '); reduce(pp,2,new_exp,0,95);
}
else if (cat1==struct_like && (cat2==exp || cat2==int_like)) {
big_app1_insert(pp,' '); big_app(' ');
big_app1(pp+2); reduce(pp,3,new_exp,0,96);
}
else if (cat1==raw_ubin) {
big_app1_insert(pp,'{'); big_app('}'); reduce(pp,2,new_exp,0,97);
}
else if (cat1==lpar) reduce(pp,0,exp,-2,98);
else if (cat1==exp) {
big_app1(pp); big_app(' '); reduce(pp,1,exp,-2,98);
}
else if (cat1!=raw_int && cat1!=struct_like && cat1!=colcol)
reduce(pp,0,exp,-2,99);
@ @<Cases for |ftemplate|@>=
if (cat1==prelangle) reduce(pp+1,0,langle,1,100);
else reduce(pp,0,exp,-2,101);
@ @<Cases for |for_like|@>=
if (cat1==exp) {
big_app1_insert(pp,' '); reduce(pp,2,else_like,-2,102);
}
@ @<Cases for |raw_ubin|@>=
if (cat1==const_like) {
big_app2(pp); app_str("\\ "); reduce(pp,2,raw_ubin,0,103);
@.\\\ @>
}
else reduce(pp,0,ubinop,-2,104);
@ @<Cases for |const_like|@>=
reduce(pp,0,int_like,-2,105);
@ @<Cases for |raw_int|@>=
if (cat1==prelangle) reduce(pp+1,0,langle,1,106);
else if (cat1==colcol) squash(pp,2,colcol,-1,107);
else if (cat1==cast) squash(pp,2,raw_int,0,108);
else if (cat1==lpar) reduce(pp,0,exp,-2,109);
else if (cat1==lbrack) reduce(pp,0,exp,-2,144);
else if (cat1!=langle) reduce(pp,0,int_like,-3,110);
@ @<Cases for |operator_like|@>=
if (cat1==binop || cat1==unop || cat1==ubinop) {
if (cat2==binop) break;
big_app1_insert(pp,'{'); big_app('}'); reduce(pp,2,exp,-2,111);
}
else if (cat1==new_like || cat1==delete_like) {
big_app1_insert(pp,' '); reduce(pp,2,exp,-2,112);
}
else if (cat1==comma) squash(pp,2,exp,-2,113);
else if (cat1!=raw_ubin) reduce(pp,0,new_exp,0,114);
@ @<Cases for |typedef_like|@>=
if ((cat1==int_like || cat1==cast) && (cat2==comma || cat2==semi))
reduce(pp+1,0,exp,-1,115);
else if (cat1==int_like) {
big_app1_insert(pp,' '); reduce(pp,2,typedef_like,0,116);
}
else if (cat1==exp && cat2!=lpar && cat2!=lbrack && cat2!=exp && cat2!=cast) {
make_underlined(pp+1); make_reserved(pp+1);
big_app1_insert(pp,' '); reduce(pp,2,typedef_like,0,117);
}
else if (cat1==comma) squash(pp,2,typedef_like,0,118);
else if (cat1==semi) squash(pp,2,decl,-1,119);
else if (cat1==ubinop && (cat2==ubinop || cat2==cast)) {
big_app('{'); big_app1_insert(pp+1,'}'); reduce(pp+1,2,cat2,0,120);
}
@ @<Cases for |delete_like|@>=
if (cat1==lbrack && cat2==rbrack) {
big_app1(pp); big_app1_insert_str(pp+1,"\\,");
@.\\,@>
reduce(pp,3,delete_like,0,121);
}
else if (cat1==exp) {
big_app1_insert(pp,' '); reduce(pp,2,exp,-2,122);
}
@ @<Cases for |question|@>=
if (cat1==exp && (cat2==colon || cat2==base)) {
(pp+2)->mathness=5*yes_math; /* this colon should be in math mode */
squash(pp,3,binop,-2,123);
}
@ @<Cases for |alignas_like|@>=
if (cat1==decl_head) squash(pp,2,attr,-1,126);
else if (cat1==exp) squash(pp,2,attr,-1,127);
else if (cat1==cast) squash(pp,2,attr,-1,158);
@ @<Cases for |lbrack|@>=
if (cat1==lbrack)
if (cat2==rbrack && cat3==rbrack) squash(pp,4,exp,-2,147);
else squash(pp,2,attr_head,-1,128);
else reduce(pp,0,lpar,-1,129);
@ @<Cases for |attr_head|@>=
if (cat1==rbrack && cat2==rbrack) squash(pp,3,attr,-1,131);
else if (cat1==exp) squash(pp,2,attr_head,0,132);
else if (cat1==using_like && cat2==exp && cat3==colon) {
big_app2_insert(pp,' '); big_app(' ');
reduce(pp,4,attr_head,0,133);
}
else if (cat1==comma) squash(pp,2,attr_head,0,145);
@ @<Cases for |attr|@>=
if (cat1==lbrace || cat1==stmt) {
big_app1_insert(pp,' '); reduce(pp,2,cat1,-2,134);
}
else if (cat1==tag) {
big_app1_insert(pp,' '); reduce(pp,2,tag,-1,135);
}
else if (cat1==semi) squash(pp,2,stmt,-2,136);
else if (cat1==attr) {
big_app1_insert(pp,' '); reduce(pp,2,attr,-1,137);
}
else if (cat1==decl_head) {
big_app1_insert(pp,' '); reduce(pp,2,decl_head,-1,138);
}
else if (cat1==typedef_like) {
big_app1_insert(pp,' '); reduce(pp,2,typedef_like,0,143);
}
else if (cat1==function) {
big_app1_insert(pp,' '); reduce(pp,2,function,-1,148);
}
@ @<Cases for |default_like|@>=
if (cat1==colon) reduce(pp,0,case_like,-3,149);
else reduce(pp,0,exp,-2,150);
@ The `|freeze_text|' macro is used to give official status to a token list.
Before saying |freeze_text|, items are appended to the current token list,
and we know that the eventual number of this token list will be the current
value of |text_ptr|. But no list of that number really exists as yet,
because no ending point for the current list has been
stored in the |tok_start| array. After saying |freeze_text|, the
old current token list becomes legitimate, and its number is the current
value of |text_ptr-1| since |text_ptr| has been increased. The new
current token list is empty and ready to be appended~to.
Note that |freeze_text| does not check to see that |text_ptr| hasn't gotten
too large, since it is assumed that this test was done beforehand.
@d freeze_text() *(++text_ptr)=tok_ptr
@<Predecl...@>=
static void reduce(scrap_pointer,short,eight_bits,short,short);@/
static void squash(scrap_pointer,short,eight_bits,short,short);
@ Now here's the |reduce| procedure used in our code for productions,
which takes advantage of the simplifications that occur when |k==0|
or |k==1|.
@c
static void
reduce(
scrap_pointer j, short k,
eight_bits c,
short d, short n)
{
scrap_pointer i; /* pointer into scrap memory */
j->cat=c;
if (k>0) {
j->trans=text_ptr;
j->mathness=4*cur_mathness+init_mathness;
freeze_text();
}
if (k>1) {
for (i=j+k; i<=lo_ptr; i++)
*(i-k+1)=*i;@^system dependencies@>
lo_ptr=lo_ptr-k+1;
}
pp=(pp+d<scrap_base? scrap_base: pp+d);
@<Print a snapshot of the scrap list if debugging @>@;
pp--; /* we next say |pp++| */
}
@ And here's the |squash| procedure, which combines |big_app|${}_k$ and
|reduce| for matching numbers~|k|.
@c
static void
squash(
scrap_pointer j, short k,
eight_bits c,
short d, short n)
{
switch (k) {
case 1: big_app1(j); break;
case 2: big_app2(j); break;
case 3: big_app3(j); break;
case 4: big_app4(j); break;
default: confusion("squash");
}
reduce(j,k,c,d,n);
}
@ If \.{CWEAVE} is being run in debugging mode, the production numbers and
current stack categories will be printed out when |tracing| is set to |fully|;
a sequence of two or more irreducible scraps will be printed out when
|tracing| is set to |partly|.
@d off 0
@d partly 1
@d fully 2
@<Private...@>=
static int tracing=off; /* can be used to show parsing details */
@ @<Print a snapsh...@>=
if (tracing==fully) {
printf("\n%d:",n);
for (i=scrap_base; i<=lo_ptr; i++) {
putchar(i==pp?'*':' ');
if (i->mathness %4 == yes_math) putchar('+');
else if (i->mathness %4 == no_math) putchar('-');
print_cat(i->cat);
if (i->mathness /4 == yes_math) putchar('+');
else if (i->mathness /4 == no_math) putchar('-');
}
if (hi_ptr<=scrap_ptr) printf("..."); /* indicate that more is coming */
}
@ And here now is the code that applies productions as long as possible.
Before applying the production mechanism, we must make sure
it has good input (at least four scraps, the length of the lhs of the
longest rules), and that there is enough room in the memory arrays
to hold the appended tokens and texts. Here we use a very
conservative test; it's more important to make sure the program
will still work if we change the production rules (within reason)
than to squeeze the last bit of space from the memory arrays.
@d safe_tok_incr 20
@d safe_text_incr 10
@d safe_scrap_incr 10
@<Reduce the scraps using the productions until no more rules apply@>=
while (true) {
@<Make sure the entries |pp| through |pp+3| of |cat| are defined@>@;
if (tok_ptr+safe_tok_incr>tok_mem_end) {
if (tok_ptr>max_tok_ptr) max_tok_ptr=tok_ptr;
overflow("token");
}
if (text_ptr+safe_text_incr>tok_start_end) {
if (text_ptr>max_text_ptr) max_text_ptr=text_ptr;
overflow("text");
}
if (pp>lo_ptr) break;
init_mathness=cur_mathness=maybe_math;
@<Match a production...@>@;
}
@ If we get to the end of the scrap list, category codes equal to zero are
stored, since zero does not match anything in a production.
@<Make sure the entries...@>=
if (lo_ptr<pp+3) {
while (hi_ptr<=scrap_ptr && lo_ptr!=pp+3)
*(++lo_ptr)=*(hi_ptr++);@^system dependencies@>
for (j=lo_ptr+1;j<=pp+3;j++) j->cat=0;
}
@ The |translate| function assumes that scraps have been stored in
positions |scrap_base| through |scrap_ptr| of |cat| and |trans|. It
applies productions as much as
possible. The result is a token list containing the translation of
the given sequence of scraps.
After calling |translate|, we will have |text_ptr+3<=max_texts| and
|tok_ptr+6<=max_toks|, so it will be possible to create up to three token
lists with up to six tokens without checking for overflow. Before calling
|translate|, we should have |text_ptr<max_texts| and |scrap_ptr<max_scraps|,
since |translate| might add a new text and a new scrap before it checks
for overflow.
@c
static text_pointer
translate(void) /* converts a sequence of scraps */
{
scrap_pointer j; /* runs through final scraps */
pp=scrap_base; lo_ptr=pp-1; hi_ptr=pp;
@<If tracing, print an indication of where we are@>@;
@<Reduce the scraps...@>@;
@<Combine the irreducible scraps that remain@>@;
}
@ @<Predecl...@>=@+static text_pointer translate(void);
@ If the initial sequence of scraps does not reduce to a single scrap,
we concatenate the translations of all remaining scraps, separated by
blank spaces, with dollar signs surrounding the translations of scraps
where appropriate.
@<Combine the irreducible...@>=
@<If semi-tracing, show the irreducible scraps@>@;
for (j=scrap_base; j<=lo_ptr; j++) {
if (j!=scrap_base) app(' ');
if (j->mathness % 4 == yes_math) app('$');
app(tok_flag+(int)(j->trans-tok_start));
if (j->mathness / 4 == yes_math) app('$');
if (tok_ptr+6>tok_mem_end) overflow("token");
}
freeze_text(); return text_ptr-1;
@ @<If semi-tracing, show the irreducible scraps@>=
if (lo_ptr>scrap_base && tracing==partly) {
printf("\nIrreducible scrap sequence in section %d:",(int)section_count);
@.Irreducible scrap sequence...@>
mark_harmless();
for (j=scrap_base; j<=lo_ptr; j++) {
putchar(' '); print_cat(j->cat);
}
}
@ @<If tracing,...@>=
if (tracing==fully) {
printf("\nTracing after l. %d:\n",cur_line); mark_harmless();
@.Tracing after...@>
if (loc>buffer+50) {
printf("...");
term_write(loc-51,51);
}
else term_write(buffer,loc-buffer);
}
@* Initializing the scraps.
If we are going to use the powerful production mechanism just developed, we
must get the scraps set up in the first place, given a \CEE/ text. A table
of the initial scraps corresponding to \CEE/ tokens appeared above in the
section on parsing; our goal now is to implement that table. We shall do this
by implementing a subroutine called |C_parse| that is analogous to the
|C_xref| routine used during phase one.
Like |C_xref|, the |C_parse| procedure starts with the current
value of |next_control| and it uses the operation |next_control=get_next()|
repeatedly to read \CEE/ text until encountering the next `\.{\v}' or
`\.{/*}', or until |next_control>=format_code|. The scraps corresponding to
what it reads are appended into the |cat| and |trans| arrays, and |scrap_ptr|
is advanced.
@c
static void
C_parse( /* creates scraps from \CEE/ tokens */
eight_bits spec_ctrl)
{
while (next_control<format_code || next_control==spec_ctrl) {
@<Append the scrap appropriate to |next_control|@>@;
next_control=get_next();
if (next_control=='|' || next_control==begin_comment ||
next_control==begin_short_comment) return;
}
}
@ @<Predecl...@>=@+static void C_parse(eight_bits);
@ The following macro is used to append a scrap whose tokens have just
been appended:
@d app_scrap(c,b) {
(++scrap_ptr)->cat=(c); scrap_ptr->trans=text_ptr;
scrap_ptr->mathness=5*(b); /* no no, yes yes, or maybe maybe */
freeze_text();
}
@ @<Append the scr...@>=
@<Make sure that there is room for the new scraps, tokens, and texts@>@;
switch (next_control) {
case section_name:
app(section_flag+(int)(cur_section-name_dir));
app_scrap(section_scrap,maybe_math);@+
app_scrap(exp,yes_math);@+break;
case string: case constant: case verbatim:
@<Append a string or constant@>@;@+break;
case identifier: app_cur_id(true);@+break;
case TeX_string:
@<Append a \TEX/ string, without forming a scrap@>@;@+break;
case '/': case '.':
app(next_control);@+app_scrap(binop,yes_math);@+break;
case '<': app_str("\\langle");@+app_scrap(prelangle,yes_math);@+break;
@.\\langle@>
case '>': app_str("\\rangle");@+app_scrap(prerangle,yes_math);@+break;
@.\\rangle@>
case '=': app_str("\\K");@+app_scrap(binop,yes_math);@+break;
@.\\K@>
case '|': app_str("\\OR");@+app_scrap(binop,yes_math);@+break;
@.\\OR@>
case '^': app_str("\\XOR");@+app_scrap(binop,yes_math);@+break;
@.\\XOR@>
case '%': app_str("\\MOD");@+app_scrap(binop,yes_math);@+break;
@.\\MOD@>
case '!': app_str("\\R");@+app_scrap(unop,yes_math);@+break;
@.\\R@>
case '~': app_str("\\CM");@+app_scrap(unop,yes_math);@+break;
@.\\CM@>
case '+': case '-': app(next_control);@+app_scrap(ubinop,yes_math);@+break;
case '*': app(next_control);@+app_scrap(raw_ubin,yes_math);@+break;
case '&': app_str("\\AND");@+app_scrap(raw_ubin,yes_math);@+break;
@.\\AND@>
case '?': app_str("\\?");@+app_scrap(question,yes_math);@+break;
@.\\?@>
case '#': app_str("\\#");@+app_scrap(ubinop,yes_math);@+break;
@.\\\#@>
case ignore: case xref_roman: case xref_wildcard:
case xref_typewriter: case noop:@+break;
case '(': app(next_control);@+app_scrap(lpar,maybe_math);@+break;
case ')': app(next_control);@+app_scrap(rpar,maybe_math);@+break;
case '[': app(next_control);@+app_scrap(lbrack,maybe_math);@+break;
case ']': app(next_control);@+app_scrap(rbrack,maybe_math);@+break;
case '{': app_str("\\{"@q}@>);@+app_scrap(lbrace,yes_math);@+break;
@.\\\{@>@q}@>
case '}': app_str(@q{@>"\\}");@+app_scrap(rbrace,yes_math);@+break;
@q{@>@.\\\}@>
case ',': app(',');@+app_scrap(comma,yes_math);@+break;
case ';': app(';');@+app_scrap(semi,maybe_math);@+break;
case ':': app(':');@+app_scrap(colon,no_math);@+break;@/
@t\4@> @<Cases involving nonstandard characters@>@;
case thin_space: app_str("\\,");@+app_scrap(insert,maybe_math);@+break;
@.\\,@>
case math_break: app(opt);@+app('0');@+
app_scrap(insert,maybe_math);@+break;
case line_break: app(force);@+app_scrap(insert,no_math);@+break;
case left_preproc: app(force);@+app(preproc_line);@+app_str("\\#");
app_scrap(lproc,no_math);@+break;
@.\\\#@>
case right_preproc: app(force);@+app_scrap(rproc,no_math);@+break;
case big_line_break: app(big_force);@+app_scrap(insert,no_math);@+break;
case no_line_break: app(big_cancel);@+app(noop);@+app(break_space);@+
app(noop);@+app(big_cancel);
app_scrap(insert,no_math);@+break;
case pseudo_semi: app_scrap(semi,maybe_math);@+break;
case macro_arg_open: app_scrap(begin_arg,maybe_math);@+break;
case macro_arg_close: app_scrap(end_arg,maybe_math);@+break;
case join: app_str("\\J");@+app_scrap(insert,no_math);@+break;
@.\\J@>
case output_defs_code: app(force);@+app_str("\\ATH");@+app(force);
app_scrap(insert,no_math);@+break;
@.\\ATH@>
default: app(inserted);@+app(next_control);
app_scrap(insert,maybe_math);@+break;
}
@ @<Make sure that there is room for the new...@>=
if (scrap_ptr+safe_scrap_incr>scrap_info_end ||
tok_ptr+safe_tok_incr>tok_mem_end @| ||
text_ptr+safe_text_incr>tok_start_end) {
if (scrap_ptr>max_scr_ptr) max_scr_ptr=scrap_ptr;
if (tok_ptr>max_tok_ptr) max_tok_ptr=tok_ptr;
if (text_ptr>max_text_ptr) max_text_ptr=text_ptr;
overflow("scrap/token/text");
}
@ Some nonstandard characters may have entered \.{CWEAVE} by means of
standard ones. They are converted to \TEX/ control sequences so that it is
possible to keep \.{CWEAVE} from outputting unusual |char| codes.
@<Cases involving nonstandard...@>=@t\1\quad@>
case non_eq: app_str("\\I");@+app_scrap(binop,yes_math);@+break;
@.\\I@>
case lt_eq: app_str("\\Z");@+app_scrap(binop,yes_math);@+break;
@.\\Z@>
case gt_eq: app_str("\\G");@+app_scrap(binop,yes_math);@+break;
@.\\G@>
case eq_eq: app_str("\\E");@+app_scrap(binop,yes_math);@+break;
@.\\E@>
case and_and: app_str("\\W");@+app_scrap(binop,yes_math);@+break;
@.\\W@>
case or_or: app_str("\\V");@+app_scrap(binop,yes_math);@+break;
@.\\V@>
case plus_plus: app_str("\\PP");@+app_scrap(unop,yes_math);@+break;
@.\\PP@>
case minus_minus: app_str("\\MM");@+app_scrap(unop,yes_math);@+break;
@.\\MM@>
case minus_gt: app_str("\\MG");@+app_scrap(binop,yes_math);@+break;
@.\\MG@>
case gt_gt: app_str("\\GG");@+app_scrap(binop,yes_math);@+break;
@.\\GG@>
case lt_lt: app_str("\\LL");@+app_scrap(binop,yes_math);@+break;
@.\\LL@>
case dot_dot_dot: app_str("\\,\\ldots\\,");@+app_scrap(raw_int,yes_math);
@+break;
@.\\,@>
@.\\ldots@>
case colon_colon: app_str("\\DC");@+app_scrap(colcol,maybe_math);@+break;
@.\\DC@>
case period_ast: app_str("\\PA");@+app_scrap(binop,yes_math);@+break;
@.\\PA@>
case minus_gt_ast: app_str("\\MGA");@+app_scrap(binop,yes_math);@+break;
@.\\MGA@>
@ The following code must use |app_tok| instead of |app| in order to
protect against overflow. Note that |tok_ptr+1<=max_toks| after |app_tok|
has been used, so another |app| is legitimate before testing again.
Many of the special characters in a string must be prefixed by `\.\\' so that
\TEX/ will print them properly.
@^special string characters@>
@<Append a string or...@>={@+ int count=-1; /* characters remaining before string break */
switch (next_control) {
case constant: app_str("\\T{"@q}@>); break;
@.\\T@>
case string: count=20; app_str("\\.{"@q}@>); break;
@.\\.@>
default: app_str("\\vb{"@q}@>);
@.\\vb@>
}
while (id_first<id_loc) {
if (count==0) { /* insert a discretionary break in a long string */
app_str(@q(@>@q{@>"}\\)\\.{"@q}@>); count=20;
@q(@>@.\\)@>
}
switch (*id_first) {
case ' ':case '\\':case '#':case '$':case '^':case '{':case '}':
case '~':case '&':case '_': app('\\'); break;
@.\\\ @>
@.\\\\@>
@.\\\#@>
@.\\\$@>
@.\\\^@>
@.\\\{@>@q}@>
@q{@>@.\\\}@>
@.\\\~@>
@.\\\&@>
@.\\\_@>
case '%': if (next_control==constant) {
app_str("}\\p{"); /* special macro for `hex exponent' */
id_first++; /* skip |'%'| */
}
else app('\\');
break;
@.\\p@>
@.\\\%@>
case '@@': if (*(id_first+1)=='@@') id_first++;
else err_print("! Double @@ should be used in strings");
@.Double @@ should be used...@>
break;
default: /* high-bit character handling */
@^high-bit character handling@>
if((eight_bits)(*id_first)>0177)
app_tok(quoted_char)@t;@>@;
}
app_tok(*id_first++);
count--;
}
app(@q{@>'}');
app_scrap(exp,maybe_math);
}
@ We do not make the \TEX/ string into a scrap, because there is no
telling what the user will be putting into it; instead we leave it
open, to be picked up by the next scrap. If it comes at the end of a
section, it will be made into a scrap when |finish_C| is called.
There's a known bug here, in cases where an adjacent scrap is
|prelangle| or |prerangle|. Then the \TEX/ string can disappear
when the \.{\\langle} or \.{\\rangle} becomes \.{<} or \.{>}.
For example, if the user writes \.{\v x<@@ty@@><42\v}, the \TEX/ string
\.{\\hbox\{y\}} eventually becomes part of an |insert| scrap, which is combined
with a |prelangle| scrap and eventually lost. The best way to work around
this bug is probably to enclose the \.{@@t...@@>} in \.{@@[...@@]} so that
the \TEX/ string is treated as an expression.
@^bug, known@>
@<Append a \TEX/ string, without forming a scrap@>=
app_str("\\hbox{"@q}@>);
@^high-bit character handling@>
while (id_first<id_loc) {
if((eight_bits)(*id_first)>0177)
app_tok(quoted_char)@t;@>@;
else
if (*id_first=='@@') id_first++;
app_tok(*id_first++);
}
app(@q{@>'}');
@ The function |app_cur_id| appends the current identifier to the
token list; it also builds a new scrap if |scrapping==true|.
@<Predec...@>=
static void app_cur_id(boolean);@/
static text_pointer C_translate(void);@/
static void outer_parse(void);
@ @c
static void
app_cur_id(
boolean scrapping) /* are we making this into a scrap? */
{
name_pointer p=id_lookup(id_first,id_loc,normal);
if (p->ilk<=custom) { /* not a reserved word */
app(id_flag+(int)(p-name_dir));
if (scrapping) app_scrap(p->ilk==func_template? ftemplate: exp,
p->ilk==custom? yes_math: maybe_math);
@.\\NULL@>
} else {
app(res_flag+(int)(p-name_dir));
if (scrapping) {
if (p->ilk==alfop) app_scrap(ubinop,yes_math)@t;@>@;
else app_scrap(p->ilk,maybe_math);
}
}
}
@ When the `\.{\v}' that introduces \CEE/ text is sensed, a call on
|C_translate| will return a pointer to the \TEX/ translation of
that text. If scraps exist in |scrap_info|, they are
unaffected by this translation process.
@c
static text_pointer
C_translate(void)
{
text_pointer p; /* points to the translation */
scrap_pointer save_base=scrap_base; /* holds original value of |scrap_base| */
scrap_base=scrap_ptr+1;
C_parse(section_name); /* get the scraps together */
if (next_control!='|') err_print("! Missing '|' after C text");
@.Missing '|'...@>
app_tok(cancel); app_scrap(insert,maybe_math);
/* place a |cancel| token as a final ``comment'' */
p=translate(); /* make the translation */
if (scrap_ptr>max_scr_ptr) max_scr_ptr=scrap_ptr;
scrap_ptr=scrap_base-1; scrap_base=save_base; /* scrap the scraps */
return p;
}
@ The |outer_parse| routine is to |C_parse| as |outer_xref|
is to |C_xref|: It constructs a sequence of scraps for \CEE/ text
until |next_control>=format_code|. Thus, it takes care of embedded comments.
The token list created from within `\pb' brackets is output as an argument
to \.{\\PB}. Although \.{cwebmac} ignores \.{\\PB}, other macro packages
might use it to localize the special meaning of the macros that mark up
program text.
@d make_pb flags['e']
@<Set init...@>=
make_pb=true;
@ @c
static void
outer_parse(void) /* makes scraps from \CEE/ tokens and comments */
{
int bal; /* brace level in comment */
text_pointer p, q; /* partial comments */
while (next_control<format_code)
if (next_control!=begin_comment && next_control!=begin_short_comment)
C_parse(ignore);
else {
boolean is_long_comment=(next_control==begin_comment);
@<Make sure that there is room for the new...@>@;
app(cancel); app(inserted);
if (is_long_comment) app_str("\\C{"@q}@>);
@.\\C@>
else app_str("\\SHC{"@q}@>);
@.\\SHC@>
bal=copy_comment(is_long_comment,1); next_control=ignore;
while (bal>0) {
p=text_ptr; freeze_text(); q=C_translate();
/* at this point we have |tok_ptr+6<=max_toks| */
app(tok_flag+(int)(p-tok_start));
if (make_pb) app_str("\\PB{");
@.\\PB@>
app(inner_tok_flag+(int)(q-tok_start));
if (make_pb) app_tok('}');
if (next_control=='|') {
bal=copy_comment(is_long_comment,bal);
next_control=ignore;
}
else bal=0; /* an error has been reported */
}
app(force); app_scrap(insert,no_math);
/* the full comment becomes a scrap */
}
}
@* Output of tokens.
So far our programs have only built up multi-layered token lists in
\.{CWEAVE}'s internal memory; we have to figure out how to get them into
the desired final form. The job of converting token lists to characters in
the \TEX/ output file is not difficult, although it is an implicitly
recursive process. Four main considerations had to be kept in mind when
this part of \.{CWEAVE} was designed. (a) There are two modes of output:
|outer| mode, which translates tokens like |force| into line-breaking
control sequences, and |inner| mode, which ignores them except that blank
spaces take the place of line breaks. (b) The |cancel| instruction applies
to adjacent token or tokens that are output, and this cuts across levels
of recursion since `|cancel|' occurs at the beginning or end of a token
list on one level. (c) The \TEX/ output file will be semi-readable if line
breaks are inserted after the result of tokens like |break_space| and
|force|. (d) The final line break should be suppressed, and there should
be no |force| token output immediately after `\.{\\Y\\B}'.
@ The output process uses a stack to keep track of what is going on at
different ``levels'' as the token lists are being written out. Entries on
this stack have three parts:
\yskip\hang |end_field| is the |tok_mem| location where the token list of a
particular level will end;
\yskip\hang |tok_field| is the |tok_mem| location from which the next token
on a particular level will be read;
\yskip\hang |mode_field| is the current mode, either |inner| or |outer|.
\yskip\noindent The current values of these quantities are referred to
quite frequently, so they are stored in an extra slot at the very end of
the |stack| array. We call the current values |cur_end|, |cur_tok|, and
|cur_mode|.
The global variable |stack_ptr| tells how many levels of output are
currently in progress. The end of output occurs when an |end_translation|
token is found, so the stack is never empty except when we first begin the
output process.
@s mode int
@<Typed...@>=
typedef enum {
@!inner, /* value of |mode| for \CEE/ texts within \TEX/ texts */
@!outer /* value of |mode| for \CEE/ texts in sections */
} mode;
typedef struct {
token_pointer end_field; /* ending location of token list */
token_pointer tok_field; /* present location within token list */
mode mode_field; /* interpretation of control tokens */
} output_state;
typedef output_state *stack_pointer;
@ @d stack_size 2000 /* number of simultaneous output levels */
@d cur_state stack[stack_size] /* |cur_end|, |cur_tok|, |cur_mode| */
@d cur_end cur_state.end_field /* current ending location in |tok_mem| */
@d cur_tok cur_state.tok_field /* location of next output token in |tok_mem| */
@d cur_mode cur_state.mode_field /* current mode of interpretation */
@d init_stack() stack_ptr=stack;cur_mode=outer /* initialize the stack */
@<Private...@>=
static output_state stack[stack_size+1]; /* info for non-current levels */
static stack_pointer stack_end=stack+stack_size-1; /* end of |stack| */
static stack_pointer stack_ptr; /* first unused location in the output state stack */
static stack_pointer max_stack_ptr; /* largest value assumed by |stack_ptr| */
@ @<Set init...@>=
max_stack_ptr=stack;
@ @<Predecl...@>=
static void push_level(text_pointer);
@ To insert token-list |p| into the output, the |push_level| subroutine
is called; it saves the old level of output and gets a new one going.
The value of |cur_mode| is not changed.
@c
static void
push_level( /* suspends the current level */
text_pointer p)
{
if (stack_ptr==stack_end) overflow("stack");
if (stack_ptr>stack) /* save current state */
*stack_ptr = cur_state;@^system dependencies@>
stack_ptr++;
if (stack_ptr>max_stack_ptr) max_stack_ptr=stack_ptr;
cur_tok=*p; cur_end=*(p+1);
}
@ Conversely, the |pop_level| routine restores the conditions that were in
force when the current level was begun. This subroutine will never be
called when |stack_ptr==1|. It is so simple, we declare it as a macro:
@d pop_level() cur_state = *(--stack_ptr)@^system dependencies@>
@ The |get_output| function returns the next byte of output that is not a
reference to a token list. It returns the values |identifier| or |res_word|
or |section_code| if the next token is to be an identifier (typeset in
italics), a reserved word (typeset in boldface), or a section name (typeset
by a complex routine that might generate additional levels of output).
In these cases |cur_name| points to the identifier or section name in
question.
@<Private...@>=
static name_pointer cur_name;
@ @d res_word 0201 /* returned by |get_output| for reserved words */
@d section_code 0200 /* returned by |get_output| for section names */
@<Predecl...@>=
static eight_bits get_output(void);@/
static void output_C(void);@/
static void make_output(void);
@ @c
static eight_bits
get_output(void) /* returns the next token of output */
{
sixteen_bits a; /* current item read from |tok_mem| */
restart: while (cur_tok==cur_end) pop_level();
a=*(cur_tok++);
if (a>=0400) {
cur_name=a % id_flag + name_dir;
switch (a / id_flag) {
case 2: return res_word ; /* |a==res_flag+cur_name| */
case 3: return section_code ; /* |a==section_flag+cur_name| */
case 4: push_level(a % id_flag + tok_start); goto restart;
/* |a==tok_flag+cur_name| */
case 5: push_level(a % id_flag + tok_start); cur_mode=inner; goto restart;
/* |a==inner_tok_flag+cur_name| */
default: return identifier; /* |a==id_flag+cur_name| */
}
}
return (eight_bits)a;
}
@ The real work associated with token output is done by |make_output|.
This procedure appends an |end_translation| token to the current token list,
and then it repeatedly calls |get_output| and feeds characters to the output
buffer until reaching the |end_translation| sentinel. It is possible for
|make_output| to be called recursively, since a section name may include
embedded \CEE/ text; however, the depth of recursion never exceeds one
level, since section names cannot be inside of section names.
A procedure called |output_C| does the scanning, translation, and
output of \CEE/ text within `\pb' brackets, and this procedure uses
|make_output| to output the current token list. Thus, the recursive call
of |make_output| actually occurs when |make_output| calls |output_C|
while outputting the name of a section.
@^recursion@>
@c
static void
output_C(void) /* outputs the current token list */
{
token_pointer save_tok_ptr=tok_ptr;
text_pointer save_text_ptr=text_ptr;
sixteen_bits save_next_control=next_control; /* values to be restored */
text_pointer p; /* translation of the \CEE/ text */
next_control=ignore; p=C_translate();
app(inner_tok_flag+(int)(p-tok_start));
if (make_pb) out_str("\\PB{");
@.\\PB@>
make_output(); /* output the list */
if (make_pb) out('}');
if (text_ptr>max_text_ptr) max_text_ptr=text_ptr;
if (tok_ptr>max_tok_ptr) max_tok_ptr=tok_ptr;
text_ptr=save_text_ptr; tok_ptr=save_tok_ptr; /* forget the tokens */
next_control=save_next_control; /* restore |next_control| to original state */
}
@ Here is \.{CWEAVE}'s major output handler.
@c
static void
make_output(void) /* outputs the equivalents of tokens */
{
eight_bits a=0; /* current output byte */
eight_bits b; /* next output byte */
int c; /* count of |indent| and |outdent| tokens */
char scratch[longest_name+1]; /* scratch area for section names */
char *k, *k_limit; /* indices into |scratch| */
char *j; /* index into |buffer| */
char *p; /* index into |byte_mem| */
char delim; /* first and last character of string being copied */
char *save_loc, *save_limit; /* |loc| and |limit| to be restored */
name_pointer cur_section_name; /* name of section being output */
boolean save_mode; /* value of |cur_mode| before a sequence of breaks */
boolean dindent_pending=false; /* should a |dindent| be output? */
app(end_translation); /* append a sentinel */
freeze_text(); push_level(text_ptr-1);
while (true) {
a=get_output();
reswitch: switch(a) {
case end_translation: return;
case identifier: case res_word: @<Output an identifier@>@; break;
case section_code: @<Output a section name@>@; break;
case math_rel: out_str("\\MRL{"@q}@>); @=/* fall through */@>@;
@.\\MRL@>
case noop: case inserted: break;
case cancel: case big_cancel: c=0; b=a;
while (true) {
a=get_output();
if (a==inserted) continue;
if ((a<indent && !(b==big_cancel&&a==' ')) @|
|| (a>big_force && a!=dindent)) break;
switch (a) {
case dindent: c++; @=/* fall through */@>@;
case indent: c++; break;
case outdent: c--; break;
case opt: a=get_output();
}
}
@<Output saved |indent| or |outdent| tokens@>@;
goto reswitch;
case dindent: a=get_output();
if (a!=big_force) {
out_str("\\1\\1"); goto reswitch;
}
else dindent_pending=true; @=/* fall through */@>@;
case indent: case outdent: case opt: case backup: case break_space:
case force: case big_force: case preproc_line: @<Output a control,
look ahead in case of line breaks, possibly |goto reswitch|@>@; break;
case quoted_char: out(*(cur_tok++)); @=/* fall through */@>@;
case qualifier: break;
default: out(a); /* otherwise |a| is an ordinary character */
}
}
}
@ An identifier of length one does not have to be enclosed in braces, and it
looks slightly better if set in a math-italic font instead of a (slightly
narrower) text-italic font. Thus we output `\.{\\\v}\.{a}' but
`\.{\\\\\{aa\}}'.
@<Output an identifier@>=
out('\\');
if (a==identifier) {
if (cur_name->ilk==custom && !doing_format) {
custom_out:
for (p=cur_name->byte_start;p<(cur_name+1)->byte_start;p++)
out(*p=='_'? 'x': *p=='$'? 'X': *p);
break;
}
else if (is_tiny(cur_name)) out('|')@t;@>@;
@.\\|@>
else { delim='.';
for (p=cur_name->byte_start;p<(cur_name+1)->byte_start;p++)
if (xislower(*p)) { /* not entirely uppercase */
delim='\\'; break;
}
out(delim);
}
@.\\\\@>
@.\\.@>
}
else if (cur_name->ilk==alfop) {
out('X');
goto custom_out;
}
else out('&'); /* |a==res_word| */
@.\\\&@>
if (is_tiny(cur_name)) {
if (isxalpha((cur_name->byte_start)[0]))
out('\\');
out((cur_name->byte_start)[0]);
}
else out_name(cur_name,true);
@ The current mode does not affect the behavior of \.{CWEAVE}'s output routine
except when we are outputting control tokens.
@<Output a control...@>=
if (a<break_space || a==preproc_line) {
if (cur_mode==outer) {
out('\\'); out(a-cancel+'0');
@.\\1@>
@.\\2@>
@.\\3@>
@.\\4@>
@.\\8@>
if (a==opt) {
b=get_output(); /* |opt| is followed by a digit */
if (b!='0' || force_lines==false) out(b)@t;@>@;
else out_str("{-1}"); /* |force_lines| encourages more \.{@@\v} breaks */
}
} else if (a==opt) b=get_output(); /* ignore digit following |opt| */
}
else @<Look ahead for strongest line break, |goto reswitch|@>
@ If several of the tokens |break_space|, |force|, |big_force| occur in a
row, possibly mixed with blank spaces (which are ignored),
the largest one is used. A line break also occurs in the output file,
except at the very end of the translation. The very first line break
is suppressed (i.e., a line break that follows `\.{\\Y\\B}').
@<Look ahead for st...@>= {
b=a; save_mode=cur_mode;
if (dindent_pending) {
c=2; dindent_pending=false;
} else c=0;
while (true) {
a=get_output();
if (a==inserted) continue;
if (a==cancel || a==big_cancel) {
@<Output saved |indent| or |outdent| tokens@>@;
goto reswitch; /* |cancel| overrides everything */
}
if ((a!=' ' && a<indent) || a==backup || a>big_force) {
if (save_mode==outer) {
if (out_ptr>out_buf+3 && strncmp(out_ptr-3,"\\Y\\B",4)==0)
goto reswitch;
@<Output saved |indent| or |outdent| tokens@>@;
out('\\'); out(b-cancel+'0');
@.\\5@>
@.\\6@>
@.\\7@>
if (a!=end_translation) finish_line();
}
else if (a!=end_translation && cur_mode==inner) out(' ');
goto reswitch;
}
if (a==indent) c++;
else if (a==outdent) c--;
else if (a==opt) a=get_output();
else if (a>b) b=a; /* if |a==' '| we have |a<b| */
}
}
@ @<Output saved...@>=
for (;c>0;c--) out_str("\\1");
@.\\1@>
for (;c<0;c++) out_str("\\2");
@.\\2@>
@ The remaining part of |make_output| is somewhat more complicated. When we
output a section name, we may need to enter the parsing and translation
routines, since the name may contain \CEE/ code embedded in
\pb\ constructions. This \CEE/ code is placed at the end of the active
input buffer and the translation process uses the end of the active
|tok_mem| area.
@<Output a section name@>=
out_str("\\X");
@.\\X@>
cur_xref=(xref_pointer)cur_name->xref;
if ((an_output=(cur_xref->num==file_flag))==true) cur_xref=cur_xref->xlink;
if (cur_xref->num>=def_flag) {
out_section(cur_xref->num-def_flag);
if (phase==3) {
cur_xref=cur_xref->xlink;
while (cur_xref->num>=def_flag) {
out_str(", ");
out_section(cur_xref->num-def_flag);
cur_xref=cur_xref->xlink;
}
}
}
else out('0'); /* output the section number, or zero if it was undefined */
out(':');
if (an_output) out_str("\\.{"@q}@>);
@.\\.@>
@<Output the text of the section name@>@;
if (an_output) cur_mode==inner?out_str(@q{@>"}"):out_str(@q{@>"\\,}");
out_str("\\X");
@ @<Output the text...@>=
sprint_section_name(scratch,cur_name);
k=scratch;
k_limit=scratch+strlen(scratch);
cur_section_name=cur_name;
while (k<k_limit) {
b=*(k++);
if (b=='@@') @<Skip next character, give error if not `\.{@@}'@>@;
if (an_output)
switch (b) {
case ' ': case '\\': case '#': case '%': case '$': case '^':
case '{': case '}': case '~': case '&': case '_':
out('\\'); @=/* falls through */@>@;
@.\\\ @>
@.\\\\@>
@.\\\#@>
@.\\\%@>
@.\\\$@>
@.\\\^@>
@.\\\{@>@q}@>
@q{@>@.\\\}@>
@.\\\~@>
@.\\\&@>
@.\\\_@>
default: out(b);
}
else
if (b!='|') out(b)@t;@>@;
else {
@<Copy the \CEE/ text into the |buffer| array@>@;
save_loc=loc; save_limit=limit; loc=limit+2; limit=j+1;
*limit='|'; output_C();
loc=save_loc; limit=save_limit;
}
}
@ @<Skip next char...@>=
if (*k++!='@@') {
printf("%s","\n! Illegal control code in section name: <");
@.Illegal control code...@>
print_section_name(cur_section_name); printf("> "); mark_error();
}
@ The \CEE/ text enclosed in \pb\ should not contain `\.{\v}' characters,
except within strings. We put a `\.{\v}' at the front of the buffer, so that an
error message that displays the whole buffer will look a little bit sensible.
The variable |delim| is zero outside of strings, otherwise it
equals the delimiter that began the string being copied.
@<Copy the \CEE/ text into...@>=
j=limit+1; *j='|'; delim=0;
while (true) {
if (k>=k_limit) {
printf("%s","\n! C text in section name didn't end: <");
@.C text...didn't end@>
print_section_name(cur_section_name); printf("> "); mark_error(); break;
}
b=*(k++);
if (b=='@@' || (b=='\\' && delim!=0))
@<Copy a quoted character into the buffer@>@;
else {
if (b=='\'' || b=='"') {
if (delim==0) delim=b;
else if (delim==b) delim=0; }
if (b!='|' || delim!=0) {
if (j>buffer+long_buf_size-3) overflow("buffer");
*(++j)=b;
}
else break;
}
}
@ @<Copy a quoted char...@>= {
if (j>buffer+long_buf_size-4) overflow("buffer");
*(++j)=b; *(++j)=*(k++);
}
@** Phase two processing.
We have assembled enough pieces of the puzzle in order to be ready to specify
the processing in \.{CWEAVE}'s main pass over the source file. Phase two
is analogous to phase one, except that more work is involved because we must
actually output the \TEX/ material instead of merely looking at the
\.{CWEB} specifications.
@c
static void
phase_two(void) {
phase=2; reset_input();
if (show_progress) printf("%s","\nWriting the output file...");
@.Writing the output file...@>
section_count=0; format_visible=true; copy_limbo();
finish_line(); flush_buffer(out_buf,false,false);
/* insert a blank line, it looks nice */
while (!input_has_ended) @<Translate the current section@>@;
}
@ @<Predecl...@>=@+static void phase_two(void);
@ The output file will contain the control sequence \.{\\Y} between non-null
sections of a section, e.g., between the \TEX/ and definition parts if both
are nonempty. This puts a little white space between the parts when they are
printed. However, we don't want \.{\\Y} to occur between two definitions
within a single section. The variables |out_line| or |out_ptr| will
change if a section is non-null, so the following macros `|save_position|'
and `|emit_space_if_needed|' are able to handle the situation:
@d save_position() save_line=out_line; save_place=out_ptr
@d emit_space_if_needed() if (save_line!=out_line || save_place!=out_ptr)
out_str("\\Y");
space_checked=true;
@.\\Y@>
@<Private...@>=
static int save_line; /* former value of |out_line| */
static char *save_place; /* former value of |out_ptr| */
static int sec_depth; /* the integer, if any, following \.{@@*} */
static boolean space_checked; /* have we done |emit_space_if_needed|? */
static boolean format_visible; /* should the next format declaration be output? */
static boolean doing_format=false; /* are we outputting a format declaration? */
static boolean group_found=false; /* has a starred section occurred? */
@ @<Translate the current section@>= {
section_count++;
@<Output the code for the beginning of a new section@>@;
save_position();
@<Translate the \TEX/ part of the current section@>@;
@<Translate the definition part of the current section@>@;
@<Translate the \CEE/ part of the current section@>@;
@<Show cross-references to this section@>@;
@<Output the code for the end of a section@>@;
}
@ Sections beginning with the \.{CWEB} control sequence `\.{@@\ }' start in the
output with the \TEX/ control sequence `\.{\\M}', followed by the section
number. Similarly, `\.{@@*}' sections lead to the control sequence `\.{\\N}'.
In this case there's an additional parameter, representing one plus the
specified depth, immediately after the~\.{\\N}.
If the section has changed, we put \.{\\*} just after the section number.
@<Output the code for the beginning...@>=
if (*(loc-1)!='*') out_str("\\M");
@.\\M@>
else {
while (*loc == ' ') loc++;
if (*loc=='*') { /* ``top'' level */
sec_depth = -1;
loc++;
}
else {
for (sec_depth=0; xisdigit(*loc);loc++)@^system dependencies@>
if (sec_depth < INT_MAX / 10) sec_depth = sec_depth*10 + (*loc) -'0';
}
while (*loc == ' ') loc++; /* remove spaces before group title */
group_found=true;
out_str("\\N");
@.\\N@>
{@+ char s[32];@+snprintf(s,32,"{%d}",sec_depth+1);@+out_str(s);@+}
if (show_progress) {
printf("*%d",(int)section_count);
update_terminal(); /* print a progress report */
}
}
out('{'); out_section(section_count); out('}');
@ In the \TEX/ part of a section, we simply copy the source text, except that
index entries are not copied and \CEE/ text within \pb\ is translated.
@<Translate the \T...@>= do
switch (next_control=copy_TeX()) {
case '|': init_stack(); output_C(); break;
case '@@': out('@@'); break;
case TeX_string: case noop:
case xref_roman: case xref_wildcard: case xref_typewriter:
case section_name: loc-=2; next_control=get_next(); /* skip to \.{@@>} */
if (next_control==TeX_string)
err_print("! TeX string should be in C text only"); break;
@.TeX string should be...@>
case thin_space: case math_break: case ord:
case line_break: case big_line_break: case no_line_break: case join:
case pseudo_semi: case macro_arg_open: case macro_arg_close:
case output_defs_code:
err_print("! You can't do that in TeX text"); break;
@.You can't do that...@>
}
while (next_control<format_code);
@ When we get to the following code we have |next_control>=format_code|, and
the token memory is in its initial empty state.
@<Translate the d...@>=
space_checked=false;
while (next_control<=definition) { /* |format_code| or |definition| */
init_stack();
if (next_control==definition) @<Start a macro definition@>@;
else @<Start a format definition@>@;
outer_parse(); finish_C(format_visible); format_visible=true;
doing_format=false;
}
@ The |finish_C| procedure outputs the translation of the current
scraps, preceded by the control sequence `\.{\\B}' and followed by the
control sequence `\.{\\par}'. It also restores the token and scrap
memories to their initial empty state.
A |force| token is appended to the current scraps before translation
takes place, so that the translation will normally end with \.{\\6} or
\.{\\7} (the \TEX/ macros for |force| and |big_force|). This \.{\\6} or
\.{\\7} is replaced by the concluding \.{\\par} or by \.{\\Y\\par}.
@c
static void
finish_C( /* finishes a definition or a \CEE/ part */
boolean visible) /* |true| if we should produce \TeX\ output */
{
text_pointer p; /* translation of the scraps */
if (visible) {
out_str("\\B"); app_tok(force); app_scrap(insert,no_math);
p=translate();
@.\\B@>
app(tok_flag+(int)(p-tok_start)); make_output(); /* output the list */
if (out_ptr>out_buf+1)
if (*(out_ptr-1)=='\\') {
@.\\6@>
@.\\7@>
@.\\Y@>
if (*out_ptr=='6') out_ptr-=2;
else if (*out_ptr=='7') *out_ptr='Y';
}
out_str("\\par"); finish_line();
}
if (text_ptr>max_text_ptr) max_text_ptr=text_ptr;
if (tok_ptr>max_tok_ptr) max_tok_ptr=tok_ptr;
if (scrap_ptr>max_scr_ptr) max_scr_ptr=scrap_ptr;
tok_ptr=tok_mem+1; text_ptr=tok_start+1; scrap_ptr=scrap_info;
/* forget the tokens and the scraps */
}
@ @<Predecl...@>=@+static void finish_C(boolean);
@ Keeping in line with the conventions of the \CEE/ preprocessor (and
otherwise contrary to the rules of \.{CWEB}) we distinguish here
between the case that `\.(' immediately follows an identifier and the
case that the two are separated by a space. In the latter case, and
if the identifier is not followed by `\.(' at all, the replacement
text starts immediately after the identifier. In the former case,
it starts after we scan the matching `\.)'.
@<Start a macro...@>= {
if (save_line!=out_line || save_place!=out_ptr || space_checked) app(backup);
if(!space_checked){emit_space_if_needed();save_position();}
app_str("\\D"); /* this will produce `\#\&{define }' */
@.\\D@>
if ((next_control=get_next())!=identifier)
err_print("! Improper macro definition");
@.Improper macro definition@>
else {
app('$'); app_cur_id(false);
if (*loc=='(') {
reswitch: switch (next_control=get_next()) {
case '(': case ',': app(next_control); goto reswitch;
case identifier: app_cur_id(false); goto reswitch;
case ')': app(next_control); next_control=get_next(); break;
case dot_dot_dot: app_str("\\,\\ldots\\,"); @.\\,@> @.\\ldots@>
app_scrap(raw_int,no_math);
if ((next_control=get_next())==')') {
app(next_control); next_control=get_next(); break;
} @=/* otherwise fall through */@>@;
default: err_print("! Improper macro definition"); break;
}
}
else next_control=get_next();
app_str("$ "); app(break_space);
app_scrap(dead,no_math); /* scrap won't take part in the parsing */
}
}
@ @<Start a format...@>= {
doing_format=true;
if(*(loc-1)=='s' || *(loc-1)=='S') format_visible=false;
if(!space_checked){emit_space_if_needed();save_position();}
app_str("\\F"); /* this will produce `\&{format }' */
@.\\F@>
next_control=get_next();
if (next_control==identifier) {
app(id_flag+(int)(id_lookup(id_first, id_loc,normal)-name_dir));
app(break_space); /* this is syntactically separate from what follows */
next_control=get_next();
if (next_control==identifier) {
app(id_flag+(int)(id_lookup(id_first, id_loc,normal)-name_dir));
app_scrap(exp,maybe_math); app_scrap(semi,maybe_math);
next_control=get_next();
}
}
if (scrap_ptr!=scrap_info+2) err_print("! Improper format definition");
@.Improper format definition@>
}
@ Finally, when the \TEX/ and definition parts have been treated, we have
|next_control>=begin_C|. We will make the global variable |this_section|
point to the current section name, if it has a name.
@<Private...@>=
static name_pointer this_section; /* the current section name, or zero */
@ @<Translate the \CEE/...@>=
this_section=name_dir;
if (next_control<=section_name) {
emit_space_if_needed(); init_stack();
if (next_control==begin_C) next_control=get_next();
else {
this_section=cur_section;
@<Check that `\.{=}' or `\.{==}' follows this section name, and
emit the scraps to start the section definition@>@;
}
while (next_control<=section_name) {
outer_parse();
@<Emit the scrap for a section name if present@>@;
}
finish_C(true);
}
@ The title of the section and an $\E$ or $\mathrel+\E$ are made
into a scrap that should not take part in the parsing.
@<Check that `\.{=}'...@>=
do next_control=get_next();
while (next_control=='+'); /* allow optional `\.{+=}' */
if (next_control!='=' && next_control!=eq_eq)
err_print("! You need an = sign after the section name");
@.You need an = sign...@>
else next_control=get_next();
if (out_ptr>out_buf+1 && *out_ptr=='Y' && *(out_ptr-1)=='\\') app(backup);
/* the section name will be flush left */
@.\\Y@>
app(section_flag+(int)(this_section-name_dir));
cur_xref=(xref_pointer)this_section->xref;
if(cur_xref->num==file_flag) cur_xref=cur_xref->xlink;
app_str("${}");
if (cur_xref->num!=section_count+def_flag) {
app_str("\\mathrel+"); /* section name is multiply defined */
this_section=name_dir; /* so we won't give cross-reference info here */
}
app_str("\\E"); /* output an equivalence sign */
@.\\E@>
app_str("{}$");
app(force); app_scrap(dead,no_math);
/* this forces a line break unless `\.{@@+}' follows */
@ @<Emit the scrap...@>=
if (next_control<section_name) {
err_print("! You can't do that in C text");
@.You can't do that...@>
next_control=get_next();
}
else if (next_control==section_name) {
app(section_flag+(int)(cur_section-name_dir));
app_scrap(section_scrap,maybe_math);
next_control=get_next();
}
@ Cross references relating to a named section are given
after the section ends.
@<Show cross...@>=
if (this_section>name_dir) {
cur_xref=(xref_pointer)this_section->xref;
if ((an_output=(cur_xref->num==file_flag))==true) cur_xref=cur_xref->xlink;
if (cur_xref->num>def_flag)
cur_xref=cur_xref->xlink; /* bypass current section number */
footnote(def_flag); footnote(cite_flag); footnote(0);
}
@ The |footnote| procedure gives cross-reference information about
multiply defined section names (if the |flag| parameter is
|def_flag|), or about references to a section name
(if |flag==cite_flag|), or to its uses (if |flag==0|). It assumes that
|cur_xref| points to the first cross-reference entry of interest, and it
leaves |cur_xref| pointing to the first element not printed. Typical outputs:
`\.{\\A101.}'; `\.{\\Us 370\\ET1009.}';
`\.{\\As 8, 27\\*\\ETs64.}'.
Note that the output of \.{CWEAVE} is not English-specific; users may
supply new definitions for the macros \.{\\A}, \.{\\As}, etc.
@c
static void
footnote( /* outputs section cross-references */
sixteen_bits flag)
{
xref_pointer q=cur_xref; /* cross-reference pointer variable */
if (q->num<=flag) return;
finish_line(); out('\\');
@.\\A@>
@.\\Q@>
@.\\U@>
out(flag==0? 'U': flag==cite_flag? 'Q': 'A');
@<Output all the section numbers on the reference list |cur_xref|@>@;
out('.');
}
@ @<Predecl...@>=@+static void footnote(sixteen_bits);
@ The following code distinguishes three cases, according as the number
of cross-references is one, two, or more than two. Variable |q| points
to the first cross-reference, and the last link is a zero.
@<Output all the section numbers...@>=
if (q->xlink->num>flag) out('s'); /* plural */
while (true) {
out_section(cur_xref->num-flag);
cur_xref=cur_xref->xlink; /* point to the next cross-reference to output */
if (cur_xref->num<=flag) break;
if (cur_xref->xlink->num>flag) out_str(", "); /* not the last */
else {out_str("\\ET"); /* the last */
@.\\ET@>
if (cur_xref != q->xlink) out('s'); /* the last of more than two */
}
}
@ @<Output the code for the end of a section@>=
out_str("\\fi"); finish_line();
@.\\fi@>
flush_buffer(out_buf,false,false); /* insert a blank line, it looks nice */
@** Phase three processing.
We are nearly finished! \.{CWEAVE}'s only remaining task is to write out the
index, after sorting the identifiers and index entries.
If the user has set the |no_xref| flag (the \.{-x} option on the command line),
just finish off the page, omitting the index, section name list, and table of
contents.
@c
static void
phase_three(void) {
phase=3;
finish_line(); /* the bulk of |tex_file| has been written */
if (no_xref)
out_str("\\end");
@.\\end@>
else {
if (show_progress) printf("%s","\nWriting the index...");
@.Writing the index...@>
if (change_exists) {
@<Tell about changed sections@>@;
finish_line(); flush_buffer(out_buf,false,false);
/* insert a blank line, it looks nice */
}
out_str("\\inx"); finish_line();
@.\\inx@>
@#
if ((idx_file=fopen(idx_file_name,"wb"))==NULL)
fatal("! Cannot open index file ",idx_file_name);
@.Cannot open index file@>
active_file=idx_file; /* change active file to the index file */
@<Do the first pass of sorting@>@;
@<Sort and output the index@>@;
finish_line(); fclose(active_file); /* finished with |idx_file| */
@#
active_file=tex_file; /* switch back to |tex_file| for a tic */
out_str("\\fin"); finish_line();
@.\\fin@>
@#
if ((scn_file=fopen(scn_file_name,"wb"))==NULL)
fatal("! Cannot open section file ",scn_file_name);
@.Cannot open section file@>
active_file=scn_file; /* change active file to section listing file */
@<Output all the section names@>@;
finish_line(); fclose(active_file); /* finished with |scn_file| */
@#
active_file=tex_file; /* switch back to |tex_file| for the last time */
if (group_found) out_str("\\con");@+else out_str("\\end");
@.\\con@>
@.\\end@>
}
finish_line();
fclose(active_file);
if (show_happiness) {
if (show_progress) new_line();
printf("%s","Done.");
}
check_complete(); /* was all of the change file used? */
}
@ @<Predecl...@>=@+static void phase_three(void);
@ Just before the index comes a list of all the changed sections, including
the index section itself.
@<Tell about changed sections@>=
/* remember that the index is already marked as changed */
sixteen_bits k_section=0; /* runs through the sections */
while (!changed_section[++k_section]);
out_str("\\ch ");
@.\\ch@>
out_section(k_section);
while (k_section<section_count) {
while (!changed_section[++k_section]);
out_str(", "); out_section(k_section);
}
out('.');
@ A left-to-right radix sorting method is used, since this makes it easy to
adjust the collating sequence and since the running time will be at worst
proportional to the total length of all entries in the index. We put the
identifiers into different lists based on their first characters.
(Uppercase letters are put into the same list as the corresponding lowercase
letters, since we want to have `$t<\\{TeX}<\&{to}$'.) The
list for character |c| begins at location |bucket[c]| and continues through
the |blink| array.
@<Private...@>=
static name_pointer bucket[256]={NULL};
static name_pointer next_name; /* successor of |cur_name| when sorting */
static name_pointer blink[max_names]; /* links in the buckets */
@ To begin the sorting, we go through all the hash lists and put each entry
having a nonempty cross-reference list into the proper bucket.
@<Do the first pass...@>=
for (hash_ptr=hash; hash_ptr<=hash_end; hash_ptr++) {
next_name=*hash_ptr;
while (next_name) {
cur_name=next_name; next_name=cur_name->link;
if (cur_name->xref!=(void *)xmem) {
int c=(cur_name->byte_start)[0];
if (xisupper(c)) c=tolower(c);
blink[cur_name-name_dir]=bucket[c]; bucket[c]=cur_name;
}
}
}
@ During the sorting phase we shall use the |cat| and |trans| arrays from
\.{CWEAVE}'s parsing algorithm and rename them |depth| and |head|. They now
represent a stack of identifier lists for all the index entries that have
not yet been output. The variable |sort_ptr| tells how many such lists are
present; the lists are output in reverse order (first |sort_ptr|, then
|sort_ptr-1|, etc.). The |j|th list starts at |head[j]|, and if the first
|k| characters of all entries on this list are known to be equal we have
|depth[j]==k|.
@<Rest of |trans_plus| union@>=
name_pointer Head;
@ @d depth cat /* reclaims memory that is no longer needed for parsing */
@d head trans_plus.Head /* ditto */
@f sort_pointer int
@d sort_pointer scrap_pointer /* ditto */
@d sort_ptr scrap_ptr /* ditto */
@<Private...@>=
static eight_bits cur_depth; /* depth of current buckets */
static char *cur_byte; /* index into |byte_mem| */
static sixteen_bits cur_val; /* current cross-reference number */
static sort_pointer max_sort_ptr; /* largest value of |sort_ptr| */
@ @<Set init...@>=
max_sort_ptr=scrap_info;
@ The desired alphabetic order is specified by the |collate| array; namely,
$|collate|[0]<|collate|[1]<\cdots<|collate|[100]$.
@<Private...@>=
static eight_bits collate[101+128]; /* collation order */
@^high-bit character handling@>
@ We use the order $\hbox{null}<\.\ <\hbox{other characters}<{}$\.\_${}<
\.A=\.a<\cdots<\.Z=\.z<\.0<\cdots<\.9.$ Warning: The collation mapping
needs to be changed if ASCII code is not being used.
@^ASCII code dependencies@>
@^high-bit character handling@>
We initialize |collate| by copying a few characters at a time, because
some \CEE/ compilers choke on long strings.@^system dependencies@>
@<Set init...@>=
collate[0]=0;
memcpy((char *)collate+1,
" \1\2\3\4\5\6\7\10\11\12\13\14\15\16\17",16);
/* 16 characters + 1 = 17 */
memcpy((char *)collate+17,
"\20\21\22\23\24\25\26\27\30\31\32\33\34\35\36\37",16);
/* 16 characters + 17 = 33 */
memcpy((char *)collate+33,
"!\42#$%&'()*+,-./:;<=>?@@[\\]^`{|}~_",32);
/* 32 characters + 33 = 65 */
memcpy((char *)collate+65,
"abcdefghijklmnopqrstuvwxyz0123456789",36);
/* (26 + 10) characters + 65 = 101 */
memcpy((char *)collate+101,
"\200\201\202\203\204\205\206\207\210\211\212\213\214\215\216\217",16);
/* 16 characters + 101 = 117 */
memcpy((char *)collate+117,
"\220\221\222\223\224\225\226\227\230\231\232\233\234\235\236\237",16);
/* 16 characters + 117 = 133 */
memcpy((char *)collate+133,
"\240\241\242\243\244\245\246\247\250\251\252\253\254\255\256\257",16);
/* 16 characters + 133 = 149 */
memcpy((char *)collate+149,
"\260\261\262\263\264\265\266\267\270\271\272\273\274\275\276\277",16);
/* 16 characters + 149 = 165 */
memcpy((char *)collate+165,
"\300\301\302\303\304\305\306\307\310\311\312\313\314\315\316\317",16);
/* 16 characters + 165 = 181 */
memcpy((char *)collate+181,
"\320\321\322\323\324\325\326\327\330\331\332\333\334\335\336\337",16);
/* 16 characters + 181 = 197 */
memcpy((char *)collate+197,
"\340\341\342\343\344\345\346\347\350\351\352\353\354\355\356\357",16);
/* 16 characters + 197 = 213 */
memcpy((char *)collate+213,
"\360\361\362\363\364\365\366\367\370\371\372\373\374\375\376\377",16);
/* 16 characters + 213 = 229 */
@ Procedure |unbucket| goes through the buckets and adds nonempty lists
to the stack, using the collating sequence specified in the |collate| array.
The parameter to |unbucket| tells the current depth in the buckets.
Any two sequences that agree in their first 255 character positions are
regarded as identical.
@d infinity 255 /* $\infty$ (approximately) */
@c
static void
unbucket( /* empties buckets having depth |d| */
eight_bits d)
{
int c; /* index into |bucket|; cannot be a simple |char| because of sign
comparison below */
for (c=100+128; c>= 0; c--) if (bucket[collate[c]]) {
@^high-bit character handling@>
if (sort_ptr>=scrap_info_end) overflow("sorting");
sort_ptr++;
if (sort_ptr>max_sort_ptr) max_sort_ptr=sort_ptr;
if (c==0) sort_ptr->depth=infinity;
else sort_ptr->depth=d;
sort_ptr->head=bucket[collate[c]]; bucket[collate[c]]=NULL;
}
}
@ @<Predecl...@>=@+static void unbucket(eight_bits);
@ @<Sort and output...@>=
sort_ptr=scrap_info; unbucket(1);
while (sort_ptr>scrap_info) {
cur_depth=sort_ptr->depth;
if (blink[sort_ptr->head-name_dir]==0 || cur_depth==infinity)
@<Output index entries for the list at |sort_ptr|@>@;
else @<Split the list at |sort_ptr| into further lists@>@;
}
@ @<Split the list...@>= {
int c;
next_name=sort_ptr->head;
do {
cur_name=next_name; next_name=blink[cur_name-name_dir];
cur_byte=cur_name->byte_start+cur_depth;
if (cur_byte==(cur_name+1)->byte_start) c=0; /* hit end of the name */
else if (xisupper(c=*cur_byte)) c=tolower(c);
blink[cur_name-name_dir]=bucket[c]; bucket[c]=cur_name;
} while (next_name);
--sort_ptr; unbucket(cur_depth+1);
}
@ @<Output index...@>= {
cur_name=sort_ptr->head;
do {
out_str("\\I");
@.\\I@>
@<Output the name at |cur_name|@>@;
@<Output the cross-references at |cur_name|@>@;
cur_name=blink[cur_name-name_dir];
} while (cur_name);
--sort_ptr;
}
@ @<Output the name...@>=
switch (cur_name->ilk) {@+char *p; /* index into |byte_mem| */@+@t}\6{\4@>
case normal: case func_template:
if (is_tiny(cur_name)) out_str("\\|");
else {@+boolean all_caps=true;@+@t}\6{@>
for (p=cur_name->byte_start;p<(cur_name+1)->byte_start;p++)
if (xislower(*p)) { /* not entirely uppercase */
all_caps=false; break;
}
out_str(all_caps ? "\\." : "\\\\");
}
break;
@.\\|@>
@.\\.@>
@.\\\\@>
case wildcard: out_str("\\9");@+ goto not_an_identifier;
@.\\9@>
case typewriter: out_str("\\.");@+ goto not_an_identifier;
@.\\.@>
case roman: not_an_identifier: out_name(cur_name,false); goto name_done;
case custom:
out_str("$\\");
for (p=cur_name->byte_start;p<(cur_name+1)->byte_start;p++)
out(*p=='_'? 'x': *p=='$'? 'X': *p);
out('$');
goto name_done;
default: out_str("\\&");
@.\\\&@>
}
out_name(cur_name,true);
name_done:@;
@ Section numbers that are to be underlined are enclosed in
`\.{\\[}$\,\ldots\,$\.]'.
@<Output the cross-references...@>=
@<Invert the cross-reference list at |cur_name|, making |cur_xref| the head@>@;
do {
out_str(", "); cur_val=cur_xref->num;
if (cur_val<def_flag) out_section(cur_val);
else {out_str("\\["); out_section(cur_val-def_flag); out(']');}
@.\\[@>
cur_xref=cur_xref->xlink;
} while (cur_xref!=xmem);
out('.'); finish_line();
@ List inversion is best thought of as popping elements off one stack and
pushing them onto another. In this case |cur_xref| will be the head of
the stack that we push things onto.
@<Private...@>=
static xref_pointer next_xref, this_xref;
/* pointer variables for rearranging a list */
@ @<Invert the cross-reference list at |cur_name|, making |cur_xref| the head@>=
this_xref=(xref_pointer)cur_name->xref; cur_xref=xmem;
do {
next_xref=this_xref->xlink; this_xref->xlink=cur_xref;
cur_xref=this_xref; this_xref=next_xref;
} while (this_xref!=xmem);
@ The following recursive procedure walks through the tree of section names and
prints them.
@^recursion@>
@c
static void
section_print( /* print all section names in subtree |p| */
name_pointer p)
{
if (p) {
section_print(p->llink); out_str("\\I");
@.\\I@>
tok_ptr=tok_mem+1; text_ptr=tok_start+1; scrap_ptr=scrap_info; init_stack();
app(section_flag+(int)(p-name_dir)); make_output();
footnote(cite_flag);
footnote(0); /* |cur_xref| was set by |make_output| */
finish_line();@/
section_print(p->rlink);
}
}
@ @<Predecl...@>=@+static void section_print(name_pointer);
@ @<Output all the section names@>=section_print(root);
@ Because on some systems the difference between two pointers is a |ptrdiff_t|
rather than an |int|, we use \.{\%td} to print these quantities.
@c
void
print_stats(void) {
puts("\nMemory usage statistics:");
@.Memory usage statistics:@>
printf("%td names (out of %ld)\n",@^system dependencies@>
(ptrdiff_t)(name_ptr-name_dir),(long)max_names);
printf("%td cross-references (out of %ld)\n",
(ptrdiff_t)(xref_ptr-xmem),(long)max_refs);
printf("%td bytes (out of %ld)\n",
(ptrdiff_t)(byte_ptr-byte_mem),(long)max_bytes);
puts("Parsing:");
printf("%td scraps (out of %ld)\n",
(ptrdiff_t)(max_scr_ptr-scrap_info),(long)max_scraps);
printf("%td texts (out of %ld)\n",
(ptrdiff_t)(max_text_ptr-tok_start),(long)max_texts);
printf("%td tokens (out of %ld)\n",
(ptrdiff_t)(max_tok_ptr-tok_mem),(long)max_toks);
printf("%td levels (out of %ld)\n",
(ptrdiff_t)(max_stack_ptr-stack),(long)stack_size);
puts("Sorting:");
printf("%td levels (out of %ld)\n",
(ptrdiff_t)(max_sort_ptr-scrap_info),(long)max_scraps);
}
@** Index.
If you have read and understood the code for Phase III above, you know what
is in this index and how it got here. All sections in which an identifier is
used are listed with that identifier, except that reserved words are
indexed only when they appear in format definitions, and the appearances
of identifiers in section names are not indexed. Underlined entries
correspond to where the identifier was declared. Error messages, control
sequences put into the output, and a few
other things like ``recursion'' are indexed here too.
|