#! /usr/bin/env perl
# The C File Storage Meta Language "reference" implementation
# This implementation is supposed to conform to version
$version = "0.8.2";
# of the spec. Please contact the maintainer if it doesn't.
#
# cfsml.pl Copyright (C) 1999, 2000, 2001 Christoph Reichenbach
#
#
# This program may be modified and copied freely according to the terms of
# the GNU general public license (GPL), as long as the above copyright
# notice and the licensing information contained herein are preserved.
#
# Please refer to www.gnu.org for licensing details.
#
# This work is provided AS IS, without warranty of any kind, expressed or
# implied, including but not limited to the warranties of merchantibility,
# noninfringement, and fitness for a specific purpose. The author will not
# be held liable for any damage caused by this work or derivatives of it.
#
# By using this source code, you agree to the licensing terms as stated
# above.
#
#
# Please contact the maintainer for bug reports or inquiries.
#
# Current Maintainer:
#
# Christoph Reichenbach (CJR) [jameson@linuxgames.com]
#
#
# Warning: This is still a "bit" messy. Sorry for that.
#
#$debug = 1;
$write_lines = "true";
$source_file = "CFSML source file";
$type_integer = "integer";
$type_string = "string";
$type_record = "RECORD";
$type_pointer = "POINTER";
$type_abspointer = "ABSPOINTER";
%types; # Contains all type bindings
%records; # Contains all record bindings
$mode = undef;
while ($op = shift @ARGV) {
if ($mode eq undef) {
if ($op eq "-f") {
$mode = "fname";
} elsif ($op eq "-l") {
$write_lines = undef;
} elsif ($op eq "-v") {
print "cfsml.pl, the CFSML code generator, version $version\n";
print "This program is provided WITHOUT WARRANTY of any kind. It may be\n";
print "copied and modified freely according to the terms of the GNU\n";
print "General Public License.\n";
exit(0);
} elsif ($op eq "-h") {
print "CFSML help:\n";
print "Usage: cat source | cfsml.pl [-v] [-h] [-l] [-f <filename>] > dest\n";
print " -h : help\n";
print " -v : print version\n";
print " -l : disable line number printing in dest file\n";
print " -f : specify file name for line number printing\n";
exit(0);
} else {
die "Unknown option '$op'\n";
}
} elsif ($mode eq "fname") {
$source_file = $op;
$mode = 0;
} else {
die "Invalid internal state '$mode'\n";
}
}
sub write_line_pp
# write_line_pp(int line_nr, bool input_file?)
{
my $line_nr = shift;
my $_file = shift;
my $filename = "cfsml.pl";
if (_file) {
$filename = $source_file;
}
if ($write_lines) {
print "#line $line_nr \"$filename\"\n";
}
}
sub create_string_functions
{
$firstline = __LINE__;
$firstline += 4;
write_line_pp($firstline, 0);
print <<'EOF';
#include <stdarg.h> // We need va_lists
#ifdef CFSML_DEBUG_MALLOC
/*
#define free(p) dbg_sci_free(p)
#define malloc(s) dbg_sci_malloc(s)
#define calloc(n, s) dbg_sci_calloc(n, s)
#define realloc(p, s) dbg_sci_realloc(p, s)
*/
#define free dbg_sci_free
#define malloc dbg_sci_malloc
#define calloc dbg_sci_calloc
#define realloc dbg_sci_realloc
#endif
static void _cfsml_error(const char *fmt, ...) {
va_list argp;
fprintf(stderr, "Error: ");
va_start(argp, fmt);
vfprintf(stderr, fmt, argp);
va_end(argp);
}
static struct _cfsml_pointer_refstruct {
struct _cfsml_pointer_refstruct *next;
void *ptr;
} *_cfsml_pointer_references = NULL;
static struct _cfsml_pointer_refstruct **_cfsml_pointer_references_current = &_cfsml_pointer_references;
static char *_cfsml_last_value_retrieved = NULL;
static char *_cfsml_last_identifier_retrieved = NULL;
static void _cfsml_free_pointer_references_recursively(struct _cfsml_pointer_refstruct *refs, int free_pointers) {
if (!refs)
return;
_cfsml_free_pointer_references_recursively(refs->next, free_pointers);
if (free_pointers)
free(refs->ptr);
free(refs);
}
static void _cfsml_free_pointer_references(struct _cfsml_pointer_refstruct **meta_ref, int free_pointers) {
_cfsml_free_pointer_references_recursively(*meta_ref, free_pointers);
*meta_ref = NULL;
_cfsml_pointer_references_current = meta_ref;
}
static struct _cfsml_pointer_refstruct **_cfsml_get_current_refpointer() {
return _cfsml_pointer_references_current;
}
static void _cfsml_register_pointer(void *ptr) {
struct _cfsml_pointer_refstruct *newref = (struct _cfsml_pointer_refstruct*)sci_malloc(sizeof (struct _cfsml_pointer_refstruct));
newref->next = *_cfsml_pointer_references_current;
newref->ptr = ptr;
*_cfsml_pointer_references_current = newref;
}
static char *_cfsml_mangle_string(const char *s) {
const char *source = s;
char c;
char *target = (char *)sci_malloc(1 + strlen(s) * 2); // We will probably need less than that
char *writer = target;
while ((c = *source++)) {
if (c < 32) { // Special character?
*writer++ = '\\'; // Escape...
c += ('a' - 1);
} else if (c == '\\' || c == '"')
*writer++ = '\\'; // Escape, but do not change
*writer++ = c;
}
*writer = 0; // Terminate string
return (char *)sci_realloc(target, strlen(target) + 1);
}
static char *_cfsml_unmangle_string(const char *s, unsigned int length) {
char *target = (char *)sci_malloc(1 + strlen(s));
char *writer = target;
const char *source = s;
const char *end = s + length;
char c;
while ((source != end) && (c = *source++) && (c > 31)) {
if (c == '\\') { // Escaped character?
c = *source++;
if ((c != '\\') && (c != '"')) // Un-escape 0-31 only
c -= ('a' - 1);
}
*writer++ = c;
}
*writer = 0; // Terminate string
return (char *)sci_realloc(target, strlen(target) + 1);
}
static char *_cfsml_get_identifier(Common::SeekableReadStream *fd, int *line, int *hiteof, int *assignment) {
int c;
int mem = 32;
int pos = 0;
int done = 0;
char *retval = (char *)sci_malloc(mem);
if (_cfsml_last_identifier_retrieved) {
free(_cfsml_last_identifier_retrieved);
_cfsml_last_identifier_retrieved = NULL;
}
while (isspace(c = SRSgetc(fd)) && (c != EOF));
if (c == EOF) {
_cfsml_error("Unexpected end of file at line %d\n", *line);
free(retval);
*hiteof = 1;
return NULL;
}
int first = 1;
while ((first || (c = SRSgetc(fd)) != EOF) && ((pos == 0) || (c != '\n')) && (c != '=')) {
first = 0;
if (pos == mem - 1) // Need more memory?
retval = (char *)sci_realloc(retval, mem *= 2);
if (!isspace(c)) {
if (done) {
_cfsml_error("Single word identifier expected at line %d\n", *line);
free(retval);
return NULL;
}
retval[pos++] = c;
} else
if (pos != 0)
done = 1; // Finished the variable name
else if (c == '\n')
++(*line);
}
if (c == EOF) {
_cfsml_error("Unexpected end of file at line %d\n", *line);
free(retval);
*hiteof = 1;
return NULL;
}
if (c == '\n') {
++(*line);
if (assignment)
*assignment = 0;
} else
if (assignment)
*assignment = 1;
if (pos == 0) {
_cfsml_error("Missing identifier in assignment at line %d\n", *line);
free(retval);
return NULL;
}
if (pos == mem - 1) // Need more memory?
retval = (char *)sci_realloc(retval, mem += 1);
retval[pos] = 0; // Terminate string
EOF
if ($debug) {
print " printf(\"identifier is '%s'\\n\", retval);\n";
}
$firstline = __LINE__;
$firstline += 4;
write_line_pp($firstline, 0);
print <<'EOF2';
return _cfsml_last_identifier_retrieved = retval;
}
static char *_cfsml_get_value(Common::SeekableReadStream *fd, int *line, int *hiteof) {
int c;
int mem = 64;
int pos = 0;
char *retval = (char *)sci_malloc(mem);
if (_cfsml_last_value_retrieved) {
free(_cfsml_last_value_retrieved);
_cfsml_last_value_retrieved = NULL;
}
while (((c = SRSgetc(fd)) != EOF) && (c != '\n')) {
if (pos == mem - 1) // Need more memory?
retval = (char *)sci_realloc(retval, mem *= 2);
if (pos || (!isspace(c)))
retval[pos++] = c;
}
while ((pos > 0) && (isspace(retval[pos - 1])))
--pos; // Strip trailing whitespace
if (c == EOF)
*hiteof = 1;
if (pos == 0) {
_cfsml_error("Missing value in assignment at line %d\n", *line);
free(retval);
return NULL;
}
if (c == '\n')
++(*line);
if (pos == mem - 1) // Need more memory?
retval = (char *)sci_realloc(retval, mem += 1);
retval[pos] = 0; // Terminate string
EOF2
if ($debug) {
print " printf(\"value is '%s'\\n\", retval);\n";
}
$firstline = __LINE__;
$firstline += 4;
write_line_pp($firstline, 0);
print <<'EOF3';
return (_cfsml_last_value_retrieved = (char *)sci_realloc(retval, strlen(retval) + 1));
// Re-allocate; this value might be used for quite some while (if we are restoring a string)
}
EOF3
}
# Call with $expression as a simple expression, like "tos + 1".
# Returns (in this case) ("tos", "-1").
sub lvaluize
{
my @retval;
# print "//DEBUG: $expression [";
my @tokens = split (/([+-\/\*])/, $expression);
# print join(",", @tokens);
$retval[0] = $tokens[0];
my $rightvalue = "";
for ($i = 1; $tokens[$i]; $i++) {
if ($tokens[$i] eq "+") {
$rightvalue .= "-";
} elsif ($tokens[$i] eq "-") {
$rightvalue .= "+";
} elsif ($tokens[$i] eq "/") {
$rightvalue .= "*";
} elsif ($tokens[$i] eq "*") {
$rightvalue .= "/";
} else {
$rightvalue .= $tokens[$i];
}
}
$retval[1] = $rightvalue;
# print "] => ($retval[0];$retval[1])\n";
return @retval;
}
sub create_declaration
{
$typename = $type;
$ctype = $types{$type}->{'ctype'};
$constpctype = $types{$type}->{'constpctype'};
if (not $types{$type}->{'external'}) {
$types{$type}{'writer'} = "_cfsml_write_" . $typename;
$types{$type}{'reader'} = "_cfsml_read_" . $typename;
write_line_pp(__LINE__, 0);
print "static void $types{$type}{'writer'}(Common::WriteStream *fh, $constpctype save_struc);\n";
print "static int $types{$type}{'reader'}(Common::SeekableReadStream *fh, $ctype* save_struc, const char *lastval, int *line, int *hiteof);\n\n";
};
}
sub create_writer
{
$typename = $type;
$ctype = $types{$type}{'ctype'};
$constpctype = $types{$type}->{'constpctype'};
write_line_pp(__LINE__, 0);
print "static void\n_cfsml_write_$typename(Common::WriteStream *fh, $constpctype save_struc)\n{\n";
if ($types{$type}{'type'} eq $type_integer) {
print " WSprintf(fh, \"%li\", (long)*save_struc);\n";
}
elsif ($types{$type}{'type'} eq $type_string) {
write_line_pp(__LINE__, 0);
print " if (!(*save_struc))\n";
print " WSprintf(fh, \"\\\\null\\\\\");\n";
print " else {\n";
print " char *token = _cfsml_mangle_string((const char *) *save_struc);\n";
print " WSprintf(fh, \"\\\"%s\\\"\", token);\n";
print " free(token);\n";
print " }\n";
}
elsif ($types{$type}{'type'} eq $type_record) {
write_line_pp(__LINE__, 0);
print " WSprintf(fh, \"{\\n\");\n";
for $n (@{$records{$type}}) {
print " WSprintf(fh, \"$n->{'name'} = \");\n";
if ($n->{'array'}) { # Check for arrays
print " int min, max;\n";
if ($n->{'array'} eq 'static' or $n->{'size'} * 2) { # fixed integer value?
print " min = max = $n->{'size'};\n";
}
else { # No, a variable
print " min = max = save_struc->$n->{'size'};\n";
}
if ($n->{'maxwrite'}) { # A write limit?
print " if (save_struc->$n->{'maxwrite'} < min)\n";
print " min = save_struc->$n->{'maxwrite'};\n";
}
if ($n->{'array'} eq 'dynamic') {
print " if (!save_struc->$n->{'name'})\n";
print " min = max = 0; /* Don't write if it points to NULL */\n";
}
write_line_pp(__LINE__, 0);
print " WSprintf(fh, \"[%d][\\n\", max);\n";
print " for (int i = 0; i < min; i++) {\n";
print " $types{$n->{'type'}}{'writer'}";
my $subscribstr = "[i]"; # To avoid perl interpolation problems
print "(fh, &(save_struc->$n->{'name'}$subscribstr));\n";
print " WSprintf(fh, \"\\n\");\n";
print " }\n";
print " WSprintf(fh, \"]\");\n";
} elsif ($n->{'type'} eq $type_pointer) { # Relative pointer
print " WSprintf(fh, \"%d\", save_struc->$n->{'name'} - save_struc->$n->{'anchor'}); // Relative pointer\n";
} elsif ($n->{'type'} eq $type_abspointer) { # Absolute pointer
print " if (!save_struc->$n->{'name'})\n";
print " WSprintf(fh, \"\\\\null\\\\\");\n";
print " else\n";
print " $types{$n->{'reftype'}}{'writer'}";
print "(fh, save_struc->$n->{'name'});\n";
} else { # Normal record entry
print " $types{$n->{'type'}}{'writer'}";
print "(fh, ($types{$n->{'type'}}{'constpctype'}) &(save_struc->$n->{'name'}));\n";
}
print " WSprintf(fh, \"\\n\");\n";
}
print " WSprintf(fh, \"}\");\n";
}
else {
print STDERR "Warning: Attempt to create_writer for invalid type '$types{$type}{'type'}'\n";
}
print "}\n\n";
}
sub create_reader
{
$typename = $type;
$ctype = $types{$type}{'ctype'};
write_line_pp(__LINE__, 0);
print "static int\n_cfsml_read_$typename(Common::SeekableReadStream *fh, $ctype* save_struc, const char *lastval, int *line, int *hiteof)\n{\n";
my $reladdress_nr = 0; # Number of relative addresses needed
my $reladdress = 0; # Current relative address number
my $reladdress_resolver = ""; # Relative addresses are resolved after the main while block
if ($types{$type}{'type'} eq $type_record) {
foreach $n (@{$records{$type}}) { # Count relative addresses we need
if ($n->{'type'} eq $type_pointer) {
++$reladdress_nr;
}
}
if ($reladdress_nr) { # Allocate stack space for all relative addresses needed
print " int reladdresses[$reladdress_nr] = {0};\n";
}
}
if ($types{$type}{'type'} eq $type_integer) {
write_line_pp(__LINE__, 0);
print " char *token;\n";
print "\n *save_struc = strtol(lastval, &token, 0);\n";
print " if ((*save_struc == 0) && (token == lastval)) {\n";
print " _cfsml_error(\"strtol failed at line %d\\n\", *line);\n";
print " return CFSML_FAILURE;\n";
print " }\n";
print " if (*token != 0) {\n";
print " _cfsml_error(\"Non-integer encountered while parsing int value at line %d\\n\", *line);\n";
print " return CFSML_FAILURE;\n";
print " }\n";
print " return CFSML_SUCCESS;\n";
} elsif ($types{$type}{'type'} eq $type_string) {
write_line_pp(__LINE__, 0);
print "\n";
print " if (strcmp(lastval, \"\\\\null\\\\\")) { // null pointer?\n";
print " unsigned int length = strlen(lastval);\n";
print " if (*lastval == '\"') { // Quoted string?\n";
print " while (lastval[length] != '\"')\n";
print " --length;\n\n";
print " if (!length) { // No matching double-quotes?\n";
print " _cfsml_error(\"Unbalanced quotes at line %d\\n\", *line);\n";
print " return CFSML_FAILURE;\n";
print " }\n\n";
print " lastval++; // ...and skip the opening quotes locally\n";
print " length--;\n";
print " }\n";
print " *save_struc = _cfsml_unmangle_string(lastval, length);\n";
print " _cfsml_register_pointer(*save_struc);\n";
print " return CFSML_SUCCESS;\n";
print " } else {\n";
print " *save_struc = NULL;\n";
print " return CFSML_SUCCESS;\n";
print " }\n";
} elsif ($types{$type}{'type'} eq $type_record) {
write_line_pp(__LINE__, 0);
print " char *token;\n";
print " int assignment, closed;\n\n";
print " if (strcmp(lastval, \"{\")) {\n";
print " _cfsml_error(\"Reading record $type; expected opening braces in line %d, got \\\"%s\\\"\\n\", *line, lastval);\n";
print " return CFSML_FAILURE;\n";
print " };\n";
print " closed = 0;\n";
print " do {\n";
print " const char *value;\n";
print " token = _cfsml_get_identifier(fh, line, hiteof, &assignment);\n\n";
print " if (!token) {\n";
print " _cfsml_error(\"Expected token at line %d\\n\", *line);\n";
print " return CFSML_FAILURE;\n";
print " }\n";
print " if (!assignment) {\n";
print " if (!strcmp(token, \"}\"))\n";
print " closed = 1;\n";
print " else {\n";
print " _cfsml_error(\"Expected assignment or closing braces in line %d\\n\", *line);\n";
print " return CFSML_FAILURE;\n";
print " }\n";
print " } else {\n";
print " value = \"\";\n";
print " while (!value || !strcmp(value, \"\"))\n";
print " value = _cfsml_get_value(fh, line, hiteof);\n";
print " if (!value) {\n";
print " _cfsml_error(\"Expected token at line %d\\n\", *line);\n";
print " return CFSML_FAILURE;\n";
print " }\n";
# print " }\n";
foreach $n (@{$records{$type}}) { # Now take care of all record elements
my $type = $n->{'type'};
my $reference = undef;
if ($type eq $type_abspointer) {
$reference = 1;
$type = $n->{'reftype'};
}
my $name = $n->{'name'};
my $reader = $types{$type}{'reader'};
my $size = $n->{'size'};
print " if (!strcmp(token, \"$name\")) {\n";
if ($type eq $type_pointer) { # A relative pointer
$reader = $types{'int'}{'reader'}; # Read relpointer as int
write_line_pp(__LINE__, 0);
print " if ($reader(fh, &(reladdresses[$reladdress]), value, line, hiteof)) {\n";
print " _cfsml_error(\"Expected token at line %d\\n\", *line);\n";
print " return CFSML_FAILURE;\n";
print " }\n";
# Make sure that the resulting variable is interpreted correctly
$reladdress_resolver .= " save_struc->$n->{'name'} = save_struc->$n->{'anchor'} + reladdresses[$reladdress];\n";
++$reladdress; # Prepare reladdress for next element
} elsif ($n->{'array'}) { # Is it an array?
write_line_pp(__LINE__, 0);
print " if ((value[0] != '[') || (value[strlen(value) - 1] != '[')) {\n";
# The value must end with [, since we're starting array data, and it must also
# begin with [, since this is either the only character in the line, or it starts
# the "amount of memory to allocate" block
print " _cfsml_error(\"Opening brackets expected at line %d\\n\", *line);\n";
print " return CFSML_FAILURE;\n";
print " }\n";
print " int max,done,i;\n";
if ($n->{'array'} eq 'dynamic') {
write_line_pp(__LINE__, 0);
# We need to allocate the array first
print " // Prepare to restore dynamic array\n";
# Read amount of memory to allocate
print " max = strtol(value + 1, NULL, 0);\n";
print " if (max < 0) {\n";
print " _cfsml_error(\"Invalid number of elements to allocate for dynamic array '%s' at line %d\\n\", token, *line);\n";
print " return CFSML_FAILURE;\n";
print " }\n\n";
print " if (max) {\n";
print " save_struc->$name = ($n->{'type'} *)sci_malloc(max * sizeof($type));\n";
print "#ifdef SATISFY_PURIFY\n";
print " memset(save_struc->$name, 0, max * sizeof($type));\n";
print "#endif\n";
print " _cfsml_register_pointer(save_struc->$name);\n";
print " } else\n";
print " save_struc->$name = NULL;\n"
} else { # static array
print " // Prepare to restore static array\n";
print " max = $size;\n";
}
write_line_pp(__LINE__, 0);
print " done = i = 0;\n";
print " do {\n";
if ($type eq $type_record) {
print " if (!(value = _cfsml_get_value(fh, line, hiteof))) {\n";
} else {
print " if (!(value = _cfsml_get_identifier(fh, line, hiteof, NULL))) {\n";
}
write_line_pp(__LINE__, 0);
print " _cfsml_error(\"Token expected at line %d\\n\", *line);\n";
print " return 1;\n";
print " }\n";
print " if (strcmp(value, \"]\")) {\n";
print " if (i == max) {\n";
print " _cfsml_error(\"More elements than space available (%d) in '%s' at line %d\\n\", max, token, *line);\n";
print " return CFSML_FAILURE;\n";
print " }\n";
my $helper = "[i++]";
print " if ($reader(fh, &(save_struc->$name$helper), value, line, hiteof)) {\n";
print " _cfsml_error(\"Token expected by $reader() for $name$helper at line %d\\n\", *line);\n";
print " return CFSML_FAILURE;\n";
print " }\n";
print " } else\n";
print " done = 1;\n";
print " } while (!done);\n";
if ($n->{'array'} eq "dynamic") {
my @xpr = lvaluize($expression = $n->{'size'});
print " save_struc->$xpr[0] = max $xpr[1]; // Set array size accordingly\n";
}
if ($n->{'maxwrite'}) {
my @xpr = lvaluize($expression = $n->{'maxwrite'});
print " save_struc->$xpr[0] = i $xpr[1]; // Set number of elements\n";
}
}
elsif ($reference) {
write_line_pp(__LINE__, 0);
print " if (strcmp(value, \"\\\\null\\\\\")) { // null pointer?\n";
print " save_struc->$name = sci_malloc(sizeof ($type));\n";
print " _cfsml_register_pointer(save_struc->$name);\n";
print " if ($reader(fh, save_struc->$name, value, line, hiteof)) {\n";
print " _cfsml_error(\"Token expected by $reader() for $name at line %d\\n\", *line);\n";
print " return CFSML_FAILURE;\n";
print " }\n";
print " } else\n";
print " save_struc->$name = NULL;\n";
}
else { # It's a simple variable or a struct
write_line_pp(__LINE__, 0);
print " if ($reader(fh, ($types{$type}{'ctype'}*) &(save_struc->$name), value, line, hiteof)) {\n";
print " _cfsml_error(\"Token expected by $reader() for $name at line %d\\n\", *line);\n";
print " return CFSML_FAILURE;\n";
print " }\n";
}
print " } else\n";
}
write_line_pp(__LINE__, 0);
print " {\n";
print " _cfsml_error(\"$type: Assignment to invalid identifier '%s' in line %d\\n\", token, *line);\n";
print " return CFSML_FAILURE;\n";
print " }\n";
print " }\n";
print " } while (!closed); // Until closing braces are hit\n";
print $reladdress_resolver; # Resolves any relative addresses
print " return CFSML_SUCCESS;\n";
} else {
print STDERR "Warning: Attempt to create_reader for invalid type '$types{$type}{'type'}'\n";
}
print "}\n\n";
}
# Built-in types
%types = (
'int' => {
'type' => $type_integer,
'ctype' => "int",
'constpctype' => "int const *",
},
'string' => {
'type' => $type_string,
'ctype' => "char *",
'constpctype' => "const char * const *",
},
);
sub create_function_block {
print "\n// Auto-generated CFSML declaration and function block\n\n";
write_line_pp(__LINE__, 0);
print "#define CFSML_SUCCESS 0\n";
print "#define CFSML_FAILURE 1\n\n";
create_string_functions;
foreach $n ( keys %types ) {
create_declaration($type = $n);
}
foreach $n ( keys %types ) {
if (not $types{$n}->{'external'}) {
create_writer($type = $n);
create_reader($type = $n);
}
}
print "\n// Auto-generated CFSML declaration and function block ends here\n";
print "// Auto-generation performed by cfsml.pl $version\n";
}
# Gnerates code to read a data type
# Parameters: $type: Type to read
# $datap: Pointer to the write destination
# $fh: Existing filehandle of an open file to use
# $eofvar: Variable to store _cfsml_eof into
sub insert_reader_code {
print "// Auto-generated CFSML data reader code\n";
write_line_pp(__LINE__, 0);
print " {\n";
if (!$linecounter) {
write_line_pp(__LINE__, 0);
print " int _cfsml_line_ctr = 0;\n";
$linecounter = '_cfsml_line_ctr';
}
if ($atomic) {
write_line_pp(__LINE__, 0);
print " struct _cfsml_pointer_refstruct **_cfsml_myptrrefptr = _cfsml_get_current_refpointer();\n";
}
write_line_pp(__LINE__, 0);
print " int _cfsml_eof = 0, _cfsml_error;\n";
if ($firsttoken) {
write_line_pp(__LINE__, 0);
print " const char *_cfsml_inp = $firsttoken;\n";
print " {\n";
} else {
write_line_pp(__LINE__, 0);
print " const char *_cfsml_inp = _cfsml_get_identifier($fh, &($linecounter), &_cfsml_eof, 0);\n";
print " if (!_cfsml_inp) {\n";
print " _cfsml_error = CFSML_FAILURE;\n";
print " } else {\n";
}
write_line_pp(__LINE__, 0);
print " _cfsml_error = $types{$type}{'reader'}($fh, $datap, _cfsml_inp, &($linecounter), &_cfsml_eof);\n";
print " }\n";
if ($eofvar) {
write_line_pp(__LINE__, 0);
print " $eofvar = _cfsml_error;\n";
}
if ($atomic) {
write_line_pp(__LINE__, 0);
print " _cfsml_free_pointer_references(_cfsml_myptrrefptr, _cfsml_error);\n";
}
write_line_pp(__LINE__, 0);
print " if (_cfsml_last_value_retrieved) {\n";
print " free(_cfsml_last_value_retrieved);\n";
print " _cfsml_last_value_retrieved = NULL;\n";
print " }\n";
print " if (_cfsml_last_identifier_retrieved) {\n";
print " free(_cfsml_last_identifier_retrieved);\n";
print " _cfsml_last_identifier_retrieved = NULL;\n";
print " }\n";
print " }\n";
print "// End of auto-generated CFSML data reader code\n";
}
# Generates code to write a data type
# Parameters: $type: Type to write
# $datap: Pointer to the write destination
# $fh: Existing filehandle of an open file to use
sub insert_writer_code {
write_line_pp(__LINE__, 0);
print "// Auto-generated CFSML data writer code\n";
print " $types{$type}{'writer'}($fh, $datap);\n";
print " WSprintf($fh, \"\\n\");\n";
print "// End of auto-generated CFSML data writer code\n";
}
################
# Main program #
################
$parsing = 0;
$struct = undef; # Not working on a struct
$commentmode = undef;
$line = 0;
while (<STDIN>) {
$line++;
if ($parsing) {
($data) = split "#"; # Remove shell-style comments
@_ = ($data);
s/\/\*.*\*\///g; # Remove C-style one-line comments
($data) = split "\/\/"; # Remove C++-style comments
@_ = ($data);
if ($commentmode) {
if (grep /\*\//, $_) {
($empty, $_) = split /\*\//;
} else {
@_ = (); # Empty line
}
} else {
if (grep /\/\*/, $_) {
$commentmode = 1;
($_) = split /\/\*/;
}
}
# Now tokenize:
s/;//;
split /(\".*\"|[,\[\]\(\)\{\}])|\s+/;
@items = @_;
@tokens = ();
$tokens_nr = 0;
for ($n = 0; $n < scalar @items; $n++) { # Get rid of all undefs
if ($_[$n]) {
$_ = $items[$n];
s/\"//g;
$tokens[$tokens_nr++] = $_;
}
}
# Now all tokens are in @tokens, and we have $tokens_nr of them.
# print "//DEBUG: " . join ("|", @tokens) . "\n";
if ($tokens_nr) {
if ($tokens_nr == 2 && $tokens[0] eq "%END" && $tokens[1] eq "CFSML") {
$struct && die "Record $struct needs closing braces in intput file (line $line).";
$parsing = 0;
create_function_block;
my $linep = $line + 1;
write_line_pp($linep, 1);
} elsif ($struct) { # Parsing struct
if ($tokens_nr == 1) {
if ($tokens[0] eq "}") {
$struct = undef;
} else { die "Invalid declaration of $token[0] in input file (line $line)\n";};
} else { # Must be a member declaration
my @structrecs = (@{$records{$struct}});
my $newidx = (scalar @structrecs) or "0";
my %member = ();
$member{'name'} = $tokens[1];
$member{'type'} = $tokens[0];
if ($tokens_nr == 3 && $tokens[1] == "*") {
$tokens_nr = 2;
$member{'name'} = $tokens[2];
$member{'reftype'} = $tokens[0];
$member{'type'} = $type_abspointer;
}
if ($tokens_nr == 4 and $tokens[0] eq $type_pointer) { # Relative pointer
if (not $tokens[2] eq "RELATIVETO") {
die "Invalid relative pointer declaration in input file (line $line)\n";
}
$member{'anchor'} = $tokens[3]; # RelPointer anchor
} else { # Non-pointer
if (not $types{$tokens[0]}) {
die "Unknown type $tokens[0] used in input file (line $line)\n";
}
if ($tokens_nr > 2) { # Array
if ($tokens[2] ne "[") {
die "Invalid token '$tokens[2]' in input file (line $line)\n";
}
$member{'array'} = "static";
if ($tokens[$tokens_nr - 1] ne "]") {
die "Array declaration incorrectly terminated in input file (line $line)\n";
}
$parsepos = 3;
while ($parsepos < $tokens_nr) {
if ($tokens[$parsepos] eq ",") {
$parsepos++;
} elsif ($tokens[$parsepos] eq "STATIC") {
$member{'array'} = "static";
$parsepos++;
} elsif ($tokens[$parsepos] eq "DYNAMIC") {
$member{'array'} = "dynamic";
$parsepos++;
} elsif ($tokens[$parsepos] eq "MAXWRITE") {
$member{'maxwrite'} = $tokens[$parsepos + 1];
$parsepos += 2;
} elsif ($tokens[$parsepos] eq "]") {
$parsepos++;
if ($parsepos != $tokens_nr) {
die "Error: Invalid tokens after array declaration in input file (line $line)\n";
}
} else {
if ($member{'size'}) {
die "Attempt to use more than one array size in input file (line $line)\n" .
"(Original size was \"$member->{'size'}\", new size is \"$tokens[$parsepos]\"\n";
}
$member{'size'} = $tokens[$parsepos];
$parsepos++;
}
}
unless ($member{'size'}) {
die "Array declaration without size in input file (line $line)\n";
}
}
}
@{$records{$struct}}->[$newidx] = \%member;
}
} else { # not parsing struct; normal operation.
if ($tokens[0] eq "TYPE") { # Simple type declaration
my $newtype = $tokens[1];
$types{$newtype}->{'ctype'} = $tokens[2];
if ($tokens[2] =~ /\*\$/) {
$types{$newtype}->{'ctype'} = "const " . $tokens[2] . " const *";
} else {
$types{$newtype}->{'constpctype'} = $tokens[2] . " const *";
}
if ($tokens_nr == 5) { # must be ...LIKE...
unless ($tokens[3] eq "LIKE") {
die "Invalid TYPE declaration in input file (line $line)\n";
}
$types{$newtype}->{'type'} = $types{$tokens[4]}->{'type'};
$types{$newtype}->{'reader'} = $types{$tokens[4]}->{'reader'};
$types{$newtype}->{'writer'} = $types{$tokens[4]}->{'writer'};
} elsif ($tokens_nr == 6) { # must be ...USING...
unless ($tokens[3] eq "USING") {
die "Invalid TYPE declaration in input file (line $line)\n";
}
$types{$newtype}->{'writer'} = $tokens[4];
$types{$newtype}->{'reader'} = $tokens[5];
$types{$newtype}->{'external'} = 'T';
} else {
die "Invalid TYPE declaration in input file (line $line)\n";
}
} elsif ($tokens[0] eq "RECORD") {
$struct = $tokens[1];
if ($types{$struct}) {
die "Attempt to re-define existing type $struct as a struct in input file (line $line)";
}
$types{$struct}{'type'} = $type_record;
if ($tokens_nr < 3 or $tokens_nr > 6 or $tokens[$tokens_nr - 1] ne "{") {
die "Invalid record declaration in input file (line $line)";
}
my $extoffset = 2;
if ($tokens_nr > 3) {
if ($tokens[2] ne "EXTENDS") { # Record declaration with explicit c type
$types{$struct}{'ctype'} = $tokens[2];
$extoffset = 3;
} else { # Record name is the same as the c type name
$types{$struct}{'ctype'} = $struct;
}
} elsif ($tokens_nr == 3) {
$types{$struct}{'ctype'} = $struct;
}
$types{$struct}{'constpctype'} = $struct . " const *";
if (($tokens_nr > $extoffset + 1) && ($extoffset + 1 <= $tokens_nr)) {
if ($tokens[$extoffset] ne "EXTENDS") {
die "Invalid or improper keyword \"$tokens[$extoffset]\" in input file (line $line)";
}
if ($extoffset + 2 >= $tokens_nr) {
die "RECORD \"$struct\" extends on unspecified type in input file (line $line)";
}
my $ext_type = $tokens[$extoffset + 1];
if (!($types{$ext_type}{type} eq $type_record)) {
print "$types{$ext_type}{type}";
die "RECORD \"$struct\" attempts to extend non-existing or non-record type \"$ext_type\" in input file (line $line)";
}
(@{$records{$struct}}) = (@{$records{$ext_type}}); # Copy type information from super type
}
} else {
die "Invalid declaration \"$tokens[0]\" in line $line";
}
}
}
} else {
($subtoken) = split ";"; # Get rid of trailing ;s
$tokens_nr = @tokens = split " ", $subtoken;
if ($tokens_nr == 1 && $tokens[0] eq "%CFSML") {
$parsing = 1;
} elsif ($tokens[0] eq "%CFSMLWRITE" and $tokens[3] eq "INTO" and $tokens_nr >= 5) {
insert_writer_code($type = $tokens[1], $datap = $tokens[2], $fh = $tokens[4]);
my $templine = $line + 1;
write_line_pp($templine, 1); # Yes, this sucks.
} elsif (($tokens[0] eq "%CFSMLREAD") or ($tokens[0] eq "%CFSMLREAD-ATOMIC") and $tokens[3] eq "FROM" and $tokens_nr >= 5) {
my $myeofvar = 0;
my $myfirsttoken = 0;
my $mylinecounter = 0;
my $idcounter = 5;
while ($idcounter < $tokens_nr) {
if ($tokens[$idcounter] eq "ERRVAR" and $tokens_nr >= $idcounter + 2) {
$myeofvar = $tokens[$idcounter + 1];
$idcounter += 2;
} elsif ($tokens[$idcounter] eq "FIRSTTOKEN" and $tokens_nr >= $idcounter + 2) {
$myfirsttoken = $tokens[$idcounter + 1];
$idcounter += 2;
} elsif ($tokens[$idcounter] eq "LINECOUNTER" and $tokens_nr >= $idcounter + 2) {
$mylinecounter = $tokens[$idcounter + 1];
$idcounter += 2;
} else {
die "Unknown %CFSMLREAD operational token: $tokens[$idcounter]\n";
}
}
insert_reader_code($type = $tokens[1], $datap = $tokens[2],
$fh = $tokens[4], $eofvar = $myeofvar, $firsttoken = $myfirsttoken,
$linecounter = $mylinecounter, $atomic = ($tokens[0] eq "%CFSMLREAD-ATOMIC"));
my $templine = $line + 1;
write_line_pp($templine, 1); # Yes, this sucks, too.
} else {
print;
}
}
}
if ($parsing) {
print <STDERR>, "Warning: Missing %END CFSML\n";
}