#!/usr/bin/perl
+# Input format is line-based, ws-significant, offside rule (some kind
+# of, anyway).
+#
+# Type TYPE: C-TYPE-DECLARATOR
+# Defines TYPE as a type (for arguments and return values)
+# which corresponds to the C type specified. C-TYPE-DECLARATOR
+# must contain one `@' where the identifier would go.
+# The type may contain allocated memory, etc., in which case
+# `Init' and `Fini' must be used.
+#
+# TYPE may be either TYPENAME or TYPENAME(ARGS) - in this case,
+# ARGS should be C argument declarations as for in a function
+# prototype, of extra arguments for the application-supplied
+# parser/returner functions. Each time a TYPE is used elsewhere,
+# the ARGS should be the actual arguments to pass, and will be
+# textually copied into the calls to the parser/returner
+# functions.
+#
+# `Type' causes declarations in the .h file of these functions:
+# int cht_pat_TYPENAME(Tcl_Interp*, Tcl_Obj *obj, C-TYPE *val, ARGS);
+# Tcl_Obj *cht_ret_TYPENAME(Tcl_Interp*, C-TYPE val, ARGS);
+#
+# cht_pat_... must attempt to parse obj into the appropriate type.
+# val will already have been initialised with `Init' statements if
+# relevant. Whether cht_pat_... fails or succeeds it may allocate
+# memory into the object and must leave the object valid (for
+# `Fini').
+#
+# cht_ret_... must convert the value back to a new Tcl_Obj. It may
+# not fail.
+#
+# Init TYPENAME C-STATEMENTS
+# Provides some statements which are used to initialise a variable
+# of type TYPENAME. C-STATEMENTS should contain one or more `@',
+# which will be replaced by the actual variable name. The
+# variable will have been declared with the C declarator specified
+# with `Type'. C-STATEMENTS may not fail or longjmp, and they may
+# not allocate memory or other resources. If no `Init' is
+# supplied then there is no invariant (so no `Fini' may be
+# supplied either, and the type is `flat' - no memory, external
+# refs, etc.)
+#
+# Fini TYPENAME C-STATEMENTS
+# Provides some statements (like `Init') which are used to free a
+# variable of type TYPENAME. The variable will already have been
+# initialised with the `Init' statements, and may have been
+# modified since by application per-type or per-command code. Its
+# invariant will be satisfied before C-STATEMENTS. Afterwards the
+# invariant may or may not be satisfied, but it may not have any
+# memory or other resources allocated. C-STATEMENTS may not fail
+# or longjmp.
+#
+# H-Include C-INCLUDE-SPECIFIER
+# Arranges for generated .h files to #include the specified
+# file. C-INCLUDE-SPECIFIER should include the <..> or "..".
+#
+# Table [*]TABLENAME C-ENTRY-TYPE
+# Starts a table of commands or subcommands. The generated .h
+# will contain a definition of C-ENTRY-TYPE containing
+# const char *name;
+# Tcl_ObjCmdProc *func;
+# and the generated .c will contain
+# const C-ENTRY-TYPE C-ARRAY-NAME[];
+# where C-ARRAY-NAME is TABLENAME, with `_entries' appended
+# and `cht_' prepended. The entries are indented one level (one
+# or more spaces) and look like this:
+# ENTRYNAME [ C-EXTRA-ENTRY-VALUES ]
+# FORMALARGNAME TYPE
+# ...
+# [ => RESULT-TYPE ]
+# This will cause the declaration of
+# int cht_do_TABLENAME_ENTRYNAME(ClientData cd, Tcl_Interp *ip,
+# FORMAL-ARGUMENTS, RESULT-C-TYPE*);
+# which is the procedure which the application must supply to
+# implement the function. If the `=> RESULT-TYPE' is omitted, so
+# is the result argument to the function. Each argument to the
+# function is of the C type corresponding to the specified type.
+# The cht_do_... function should not eat any memory associated with
+# the arguments. The result buffer (if any) will be initialised
+# using the `Init' and should on success contain the relevant
+# result. On failure it should leave the result unmodified (or at
+# least, not in need of freeing).
+#
+# There will be an entry in C-ARRAY-NAME for every table entry.
+# The name will be ENTRYNAME, and the func will be a function
+# suitable for use as a Tcl command procedure, which parses the
+# arguments, processes the command, and sets any result, as
+# applicable.
+#
+# `*' should be used if the table name is not useful for error
+# messages. It suppresses `TABLENAME ' from the front of the
+# autogenerated argument parsing error strings.
+#
+# EntryExtra C-ENTRY-TYPE
+# Introduces a section of additional C code which will be inserted
+# into the definition of C-ENTRY-TYPE by `Table'. The C
+# code, which follows on several indented lines, should be
+# structure member definitions.
+#
+# When EntryExtra is used, in the corresponding Table, each
+# ENTRYNAME should be followed on the same line by whitespace and
+# EXTRA-VALUES; the EXTRA-VALUES are used as initialisers for the
+# additional structure elements.
+#
+# NoEntryDefine C-ENTRY-TYPE
+# Prevents the definition of C-ENTRY-TYPE by Table.
+# The C type must be defined elsewhere.
+#
+# Also expected are these functions:
+# void cht_setstringresult(Tcl_Interp*, const char*);
+# sets the Tcl result from the supplied string
+# int cht_pat_enum(Tcl_Interp*, Tcl_Obj*, const void **c_e_t_array,
+# const void *c_e_t_return, size_t c_e_t_sz, const char *what);
+# scans a table of C-ENTRY-TYPEs looking for the
+# string matching the string supplied by the script
+# (as a Tcl_Obj). On error sets the result, using
+# what (a noun phrase describing the type of thing).
+# Assumes (unportably!) that the name and func members
+# are in the same places no matter what the rest of
+# the struct contains.
+# and the two predefined types `int' (C `int') and `obj' (Tcl_Obj*,
+# unmodified.) The corresponding definitions are in tcmdiflib.c.
+
use IO;
use Data::Dumper;
while (@ARGV) {
$_= shift @ARGV;
- if (m/^\-p(\w+)/) {
+ if (m/^\-p([-_0-9a-z]+)$/) {
$prefix= $1;
+ $prefix =~ y/-/_/;
} elsif (m/^\-w(c|h)$/) {
$write= $1;
} elsif (m/^\-o(.+)$/) {
undef $c_of;
}
+sub enumargs ($) {
+ my ($a) = @_;
+ $a =~ m:/(.*),: or die "invalid enum type \`$a'\n";
+ my ($a_tab, $ee_type, $estr) = ($`,$1,$');
+ if ($ee_type !~ m/^[^_]/) {
+ $ee_type= $a_tab.$ee_type;
+ $a_tab= lc($a_tab).'_entries';
+ }
+ return ($a_tab, $ee_type, $estr);
+}
+
sub parse ($$) {
my ($wh,$f) = @_;
while (defined($_= $f->getline)) {
unshift @i, $this_indent;
}
- if (@i==0 && m/^Table\s+(\w+)\s+(\w+)$/) {
+ if (@i==0 && m/^Table\s+(\*?)(\w+)\s+(\w+)$/) {
zilch();
- $c_table= $1;
- $table_x{$c_table}{C}= $2;
- $entrytype_x{$2}= '';
+ $c_table= $2;
+ $table_x{$c_table}{T}= $1;
+ $table_x{$c_table}{C}= $3;
+ $entrytype_x{$3}= '' unless exists $entrytype_x{$3};
} elsif (@i==0 && m/^Untabled$/) {
zilch();
$c_table= '';
} elsif (@i==0 && m/^EntryExtra\s+(\w+)$/) {
zilch();
$c_entryextra= $1;
+ } elsif (@i==0 && m/^NoEntryDefine\s+(\w+)$/) {
+ zilch();
+ $entrytype_x{$1}= " ";
} elsif (@i>=1 && defined $c_entryextra) {
$entrytype_x{$c_entryextra} .= " $_\n";
} elsif (@i==1 && m/^[a-z].*$/ && defined $c_table) {
- if (m/^\w+$/) {
+ if (m/^[-_0-9A-Za-z]+$/) {
$c_entry= $_;
- } elsif (m/^(\w+)\s+(\S.*)$/) {
+ } elsif (m/^([-_0-9A-Za-z]+)\s+(\S.*)$/) {
$c_entry= $1;
$tables{$c_table}{$c_entry}{I} .= ", $2";
} else {
badsyntax($wh,$.,"bad entry");
}
$tables{$c_table}{$c_entry}{A} = [ ];
- } elsif (@i==2 && m/^(\w+)\s+\.\.\.$/ && defined $c_entry) {
+ } elsif (@i==2 && m/^\.\.\.\s+(\w+)$/ && defined $c_entry) {
$tables{$c_table}{$c_entry}{V}= $1;
} elsif (@i==2 && m/^(\??)([a-z]\w*)\s*(\S.*)/
&& defined $c_entry) {
($opt, $var, $type) = ($1,$2,$3);
- if ($type =~ m/^\w+$/) {
- $xtypeargs='';
- } elsif ($type =~ m/^(\w+)\((.+)\)$/) {
- $type= $1;
- $xtypeargs= $2;
- }
+ ($type, $xtypeargs) = split_type_args($type);
push @{ $tables{$c_table}{$c_entry}{A} },
{ N => $var, T => $type, A => $xtypeargs, O => ($opt eq '?') };
} elsif (@i==2 && m/^\=\>\s*(\S.*)$/ && defined $c_entry) {
- $tables{$c_table}{$c_entry}{R}= $1;
+ ($type, $xtypeargs) = split_type_args($1);
+ $tables{$c_table}{$c_entry}{R}= $type;
+ $tables{$c_table}{$c_entry}{X}= $xtypeargs;
} elsif (@i==0 && m/^Type\s+([^\:]+)\:\s+(\S.*)$/) {
($typename,$ctype)= ($1,$2);
$ctype .= ' @' unless $ctype =~ m/\@/;
- if ($typename =~ m/^\w+$/) {
- $xtypeargs='';
- } elsif ($typename =~ m/^(\w+)\((.+)\)$/) {
- $typename=$1;
- $xtypeargs=$2;
- } else {
- badsyntax($wh,$.,"bad type name/args");
- }
+ ($typename,$xtypeargs) = split_type_args($typename);
$types{$typename}= { C => $ctype, X => $xtypeargs };
} elsif (@i==0 && s/^Init\s+(\w+)\s+(\S.*)//) {
$type_init{$1}= $2;
$type= $types{$t};
$c= $type->{C};
$xta= $type->{X};
- $decl= "int pat_$t(Tcl_Interp *ip, Tcl_Obj *obj, ";
+ $decl= "int cht_pat_$t(Tcl_Interp *ip, Tcl_Obj *obj, ";
$decl .= subst_in_decl('*val', $c, "type $t");
$decl .= ", $xta", if length $xta;
$decl .= ");\n";
o('h',160, $decl);
- $decl= "Tcl_Obj *ret_$t(Tcl_Interp *ip, ".subst_in_decl('val',$c).");\n";
+ $decl= "Tcl_Obj *cht_ret_$t(Tcl_Interp *ip, ".subst_in_decl('val',$c);
+ $decl .= ", $xta" if length $xta;
+ $decl .= ");\n";
o('h',170, $decl);
}
foreach $c_entrytype (sort keys %entrytype_x) {
+ next if $entrytype_x{$c_entrytype} =~ m/^\s$/;
o('h', 20, "typedef struct $c_entrytype $c_entrytype;\n");
o('h', 100,
"struct $c_entrytype {\n".
$x_table= $table_x{$c_table};
$op_tab= '';
- foreach $c_entry (keys %$r_table) {
+ foreach $c_entry (sort keys %$r_table) {
+ $c_entry_c= $c_entry; $c_entry_c =~ y/-/_/;
$r_entry= $r_table->{$c_entry};
- $pa_decl= "int pa_${c_table}_${c_entry}(ClientData cd,".
+ $pa_decl= "int pa_${c_table}_${c_entry_c}(ClientData cd,".
" Tcl_Interp *ip, int objc, Tcl_Obj *const *objv)";
- $do_decl= "int do_${c_table}_${c_entry}(";
+ $do_decl= "int cht_do_${c_table}_${c_entry_c}(";
@do_al= ('ClientData cd', 'Tcl_Interp *ip');
@do_aa= qw(cd ip);
$pa_init= '';
$any_mand= 0;
$any_optl= 0;
$any_eerr= 0;
+ $any_eargc= 0;
+ $pa_hint= '';
+ $pa_hint .= "$c_table " if length $c_table &&
+ !length $table_x{$c_table}{T};
+ $pa_hint.= $c_entry;
foreach $arg (@{ $r_entry->{A} }) {
$n= $arg->{N};
$t= $arg->{T};
$a= $arg->{A};
- push @do_al, make_decl($n, $t, $arg->{A});
- $pa_vars .= make_decl_init("a_$n", $t, $a, \$pa_init);
+ push @do_al, make_decl($n, $t, $arg->{A},
+ "table $c_table entry $c_entry arg $n");
+ $pa_vars .= make_decl_init("a_$n", $t, $a, \$pa_init, "pa_vars");
if ($arg->{O}) {
+ $pa_hint .= " ?$n?";
if ($any_mand) {
- $pa_argc .= " if (objc < $any_mand) {".
- " e=\"too few args\"; goto e_err; }\n";
- $pa_body .= " objc -= $any_mand;\n";
$any_mand= 0;
$any_eerr= 1;
}
$pa_body .= " if (!objc--) goto end_optional;\n";
$any_optl= 1;
} else {
- die if $any_optl;
+ $pa_hint .= " $n";
+ $pa_body .= " if (!objc--) goto wrong_count_args;\n";
$any_mand++;
+ $any_eargc= 1;
+ die if $any_optl;
}
$paarg= "&a_$n";
$pafin= '';
$pa_vars .= " const void *v_$n= 0;\n";
$paarg= "&v_$n";
$pafin= "\n a_$n= v_$n; ";
- $a =~ m/\,/ or die "invalid enum type \`$a'\n";
- $a_tab = lc($`).'s';
- $a = "$a_tab, sizeof($`), $'";
- o('h', 210, "extern const $` $a_tab".'[]'.";\n");
+ ($a_tab, $ee_type, $estr) = enumargs($a);
+ $a = "cht_$a_tab, sizeof($ee_type), $estr";
+ o('h', 210, "extern const $ee_type cht_$a_tab".'[]'.";\n");
}
if (exists $type_fini{$t}) {
$pa_fini .= ' '.subst_in("a_$n", $type_fini{$t})."\n";
}
- $pa_body .= " rc= pat_$t(ip, *objv++, $paarg";
+ $pa_body .= " rc= cht_pat_$t(ip, *objv++, $paarg";
$pa_body .= ", ".$a if length $a;
$pa_body .= ");$pafin if (rc) goto rc_err;\n";
push @do_aa, "a_$n";
}
if (exists $r_entry->{V}) {
- if ($any_mand) {
- $pa_body .= " objc -= $any_mand;\n";
- }
+ $pa_hint .= " ...";
$va= $r_entry->{V};
push @do_al, subst_in_decl("${va}c", 'int @');
push @do_al, subst_in_decl("${va}v", 'Tcl_Obj *const *@');
push @do_aa, "objc+1", "objv-1";
} else {
if (!$any_optl) {
- $pa_argc .= " if (objc != $any_mand) {".
- " e=\"wrong number of args\"; goto e_err; }\n";
- $any_eerr= 1;
+ $pa_body .= " if (objc) goto wrong_count_args;\n";
+ $any_eargc= 1;
}
}
if ($any_optl) {
}
if (exists $r_entry->{R}) {
$t= $r_entry->{R};
- push @do_al, make_decl("*result", $t);
- $pa_vars .= make_decl_init("result", $t, '', \$pa_init);
+ $xta= $r_entry->{X};
+ push @do_al, make_decl("*result", $t, "cht_do_al result");
+ $pa_vars .= make_decl_init("result", $t, $xta, \$pa_init,
+ "pa_vars result");
push @do_aa, "&result";
- $pa_rslt .= " Tcl_SetObjResult(ip, ret_$t(ip, result));\n";
+ $pa_rslt .= " Tcl_SetObjResult(ip, cht_ret_$t(ip, result";
+ $pa_rslt .= ", $xta" if length $xta;
+ $pa_rslt .= "));\n";
}
$pa_body .= "\n";
- $pa_body .= " rc= do_${c_table}_${c_entry}(";
+ $pa_body .= " rc= cht_do_${c_table}_${c_entry_c}(";
$pa_body .= join ', ', @do_aa;
$pa_body .= ");\n";
$pa_body .= " if (rc) goto rc_err;\n";
$pa_rslt .= "rc_err:\n";
$pa_fini .= " return rc;\n";
+ if ($any_eargc) {
+ $pa_fini .= "\nwrong_count_args:\n";
+ $pa_fini .= " e=\"wrong # args: should be \\\"$pa_hint\\\"\";\n";
+ $pa_fini .= " goto e_err;";
+ $any_eerr= 1;
+ }
if ($any_eerr) {
$pa_vars .= " const char *e;\n";
$pa_fini .= "\n";
$pa_fini .= "e_err:\n";
- $pa_fini .= " setstringresult(ip,e);";
+ $pa_fini .= " cht_setstringresult(ip,e);\n";
$pa_fini .= " rc= TCL_ERROR; goto rc_err;\n";
}
$pa_vars .= "\n";
$op_tab .= sprintf(" { %-20s %-40s%s },\n",
"\"$c_entry\",",
- "pa_${c_table}_${c_entry}",
+ "pa_${c_table}_${c_entry_c}",
$r_entry->{I});
}
if (length $c_table) {
- $decl= "const $x_table->{C} ".lc($x_table->{C}).'s[]';
+ $decl= "const $x_table->{C} cht_${c_table}_entries[]";
o('h', 500, "extern $decl;\n");
o('c', 100,
"$decl = {\n".
o(h, 0,
"#ifndef INCLUDED_\U${prefix}_H\n".
- "#define INCLUDED_\U${prefix}_H\n\n".
- "#include <tcl.h>\n");
-
-o(h, 400,
- "void setstringresult(Tcl_Interp*, const char*);\n".
- "int pat_enum(Tcl_Interp*, Tcl_Obj*, const void**,".
- " const void*, size_t, const char *what);\n");
+ "#define INCLUDED_\U${prefix}_H\n\n");
o(h, 999,
"#endif /*INCLUDED_\U${prefix}_H*/\n");
$o{$wh}{sprintf "%010d", $pr} .= $s;
}
-sub make_decl_init ($$$$) {
- my ($n, $t, $a, $initcode) = @_;
+sub split_type_args ($) {
+ my ($type) = @_;
+ my ($xtypeargs);
+ if ($type =~ m/^\w+$/) {
+ $xtypeargs='';
+ } elsif ($type =~ m/^(\w+)\((.+)\)$/) {
+ $type= $1;
+ $xtypeargs= $2;
+ } else {
+ badsyntax($wh,$.,"bad type name/args \`$type'\n");
+ }
+ return ($type,$xtypeargs);
+}
+
+sub make_decl_init ($$$$$) {
+ my ($n, $t, $a, $initcode, $why) = @_;
my ($o,$init);
- $o= make_decl($n,$t,$a);
+ $o= make_decl($n,$t,$a,"$why _init");
if (exists $type_init{$t}) {
$init= $type_init{$t};
$$initcode .= " ".subst_in("$n", $init)."\n"
return " ".$o.";\n";
}
-sub make_decl ($$$) {
- my ($n, $t, $ta) = @_;
+sub make_decl ($$$$) {
+ my ($n, $t, $ta, $why) = @_;
my ($type);
if ($t eq 'enum') {
- $ta =~ m/\,/ or die "invalid enum type \`$t'\n";
- $c= "const $` *@";
+ ($a_tab, $ee_type, $estr) = enumargs($ta);
+ $c= "const $ee_type* @";
} else {
- defined $types{$t} or die "unknown type $t\n";
+ defined $types{$t} or die "unknown type $t ($why)\n";
$c= $types{$t}{C};
}
return subst_in_decl($n,$c);
__DATA__
Type int: int
Type obj: Tcl_Obj *@
-
-Type charfrom(const char *opts, const char *what): int