1
0
mirror of git://projects.qi-hardware.com/eda-tools.git synced 2024-11-16 23:31:53 +02:00
eda-tools/old-boom/parser.pl

497 lines
9.2 KiB
Perl
Raw Normal View History

2012-05-02 05:09:24 +03:00
#!/usr/bin/perl
use re 'eval';
use IO::File;
#
# "sanitize" converts all "special" characters to underscores. This is used to
# avoid part names that could conflict with other uses of meta-characters, such
# as spaces or hash signs.
#
sub sanitize
{
local (*s) = @_;
my $ok = '[^-a-zA-Z0-9._%,:()=+\/]';
print STDERR "converting special character(s) in $s\n" if $s =~ /$ok/;
$s =~ s/$ok/_/g;
}
sub skip
{
# do nothing
}
#
# "bom" populates the following global variable:
#
# $cmp{component-reference}[0] = value
# $cmp{component-reference}[1] = footprint
# $cmp{component-reference}[2] = field1
# ...
#
sub bom
{
if (/^#End Cmp/) {
$mode = *skip;
return;
}
die unless /^\|\s+(\S+)\s+/;
my $ref = $1;
my @f = split(/\s*;\s*/, $');
next if $f[0] eq "NC";
for (@f) {
s/\s+$//;
&sanitize(\$_);
}
$cmp{$ref} = [ @f ];
}
#
# "equ" populates the following global variables:
#
# $id{item-number} = "namespace item-number"
# This is used for heuristics that look up parts commonly referred to by
# their part number.
#
# $eq{"namespace0 item-number0"}[] = ("namespace1 item-number1", ...)
# List of all parts a given part is equivalent to.
#
sub equ
{
my @f = split(/\s+/);
&sanitize(\$f[1]);
&sanitize(\$f[3]);
my $a = "$f[0] $f[1]";
my $b = "$f[2] $f[3]";
$id{$f[1]} = $a;
$id{$f[3]} = $b;
push @{ $eq{$a} }, $b;
push @{ $eq{$b} }, $a;
}
#
# "inv" populates the following global variables:
#
# $id{item-number} = "namespace item-number"
# This is used for heuristics that look up parts commonly referred to by
# their part number.
#
# $inv{"namespace item-number"}[0] = items-in-stock
# $inv{"namespace item-number"}[1] = currency
# $inv{"namespace item-number"}[2] = order-quantity
# $inv{"namespace item-number"}[3] = unit-price
# [2] and [3] may repeat.
#
sub inv
{
my @f = split(/\s+/);
&sanitize(\$f[1]);
my $id = "$f[0] $f[1]";
shift @f;
my $ref = shift @f;
die "duplicate inventory entry for \"$id\"" if defined $inv{$id};
$id{$ref} = $id;
$inv{$id} = [ @f ];
$inv{$id}[0] = 999999 unless defined $inv{$id}[0];
$inv{$id}[1] = "N/A" unless defined $inv{$id}[1];
$inv{$id}[2] = 1 unless defined $inv{$id}[2];
$inv{$id}[3] = 999999 unless defined $inv{$id}[3];
}
#
# "par" populates the following global variables:
#
# $parts{component-ref}[0] = namespace
# $parts{component-ref}[1] = item-number
# [0] and [1] may repeat
#
# $want{"namespace item"} = number of times we may use the part. If multiple
# parts are eligible for a component, each of them is counted as desirable
# for each component.
#
# $comps{"namespace item"}{component-ref} = 1
# Set of components a part may be used for.
#
sub par
{
my @f = split(/\s+/);
my $ref = shift @f;
$parts{$ref} = [ @f ];
while (@f) {
my @id = splice(@f, 0, 2);
my $id = "$id[0] $id[1]";
$want{$id}++;
$comps{$id}{$ref} = 1;
}
}
#
# "chr" populates the following global variable:
#
# $chr{"namespace item-number"}{parameter} = value
#
# $last is used internally for continuation lines.
#
sub chr
{
my @f;
if (/^\s+/) {
@f = split(/\s+/, $');
} else {
@f = split(/\s+/);
my $ref = shift @f;
my $num = shift @f;
$last = "$ref $num";
}
for (@f) {
die "\"=\" missing in $_" unless /=/;
$chr{$last}{uc($`)} = $';
}
}
#
# "sub" populates the following global variables:
#
# $end[rule-number] = 0 / 1
# $match[rule-number]{field}[0] = original-pattern
# $match[rule-number]{field}[1] = RE1
# $match[rule-number]{field}[2] = RE2
# $action[rule-number]{field} = value
#
# $match_stack[depth]{field}[0] = original-pattern
# $match_stack[depth]{field}[1] = RE1
# $match_stack[depth]{field}[2] = RE2
# $action_stack[depth]{field} = value
# $may_cont = 0 / 1
# $last
# $last_action
#
#
# $cvn_from{internal-handle} = index
# $cvn_to{internal-handle} = index
# $cvn_unit{internal-handle} = unit-name
# $cvn_num = internal-handle
# $found{field-or-subfield} = string
sub sub_pattern
{
local ($field, $p) = @_;
my $n = 0;
$p =~ s/\./\\./g;
$p =~ s/\+/\\+/g;
$p =~ s/\?/./g;
$p =~ s/\*/.*/g;
my $tmp = "";
while ($p =~ /^([^\(]*)\(/) {
$n++;
$tmp .= "$1(?'${field}__$n'";
$p = $';
}
$p = "^".$tmp.$p."\$";
my $q = $p;
while ($p =~ /^([^\$]*)\$(.)/) {
$p = "$1(\\d+$2\\d*|\\d+[GMkmunpf$2]\\d*)(?{ &__cvn($cvn_num); })$'";
$cvn_unit{$cvn_num} = $2;
die unless $q =~ /^([^\$]*)\$(.)/;
$q = "$1(\\d+(\.\\d+)?[GMkmunpf]?$2)$'";
$cvn_num++;
}
return ($p, $q);
}
sub sub_value
{
return $_[0];
}
sub sub
{
/^(\s*)/;
my $indent = $1;
my @f = split(/\s+/, $');
my $f;
my $in = 0; # indentation level
while (length $indent) {
my $c = substr($indent, 0, 1, "");
if ($c eq " ") {
$in++;
} elsif ($c eq "\t") {
$in = ($in+8) & ~7;
} else {
die;
}
}
if ($may_cont && $in > $last) {
pop(@match);
pop(@action);
pop(@end);
} else {
$match_stack[0] = undef;
$action_stack[0] = undef;
$last_action = 0;
$last = $in;
}
if (!$last_action) {
while (@f) {
$f = shift @f;
last if $f eq "->" || $f eq "{" || $f eq "}" || $f eq "!";
if ($f =~ /=/) {
$match_stack[0]{uc($`)} = [ $', &sub_pattern(uc($`), $') ];
} else {
$match_stack[0]{"REF"} = [ &sub_pattern("REF", $f) ];
}
}
$last_action = 1 if $f eq "->";
}
if ($last_action) {
while (@f) {
$f = shift @f;
last if $f eq "{" || $f eq "!";
die unless $f =~ /=/;
$action_stack[0]{uc($`)} = &sub_value($');
}
}
$may_cont = 0;
if ($f eq "{") {
unshift(@match_stack, undef);
unshift(@action_stack, undef);
die "items following {" if @f;
} elsif ($f eq "}") {
shift @match_stack;
shift @action_stack;
die "items following }" if @f;
} else {
die "items following !" if @f && $f eq "!";
push(@end, $f eq "!");
$may_cont = $f ne "!";
my $n = $#end;
push(@match, undef);
push(@action, undef);
for my $m (reverse @match_stack) {
for (keys %{ $m }) {
$match[$n]{$_} = $m->{$_};
}
}
for my $a (reverse @action_stack) {
for (keys %{ $a }) {
$action[$n]{$_} = $a->{$_};
}
}
}
}
#
# "ord" populates the following global variables:
#
# $order{"namespace item-number"}[0] = quantity to order
# $order{"namespace item-number"}[1] = currency
# $order{"namespace item-number"}[2] = total cost in above currency
# $order{"namespace item-number"}[3] = component reference
# ...
#
sub ord
{
my @f = split(/\s+/);
my @id = splice(@f, 0, 2);
@{ $order{"$id[0] $id[1]"} } = @f;
}
#
# "dsc" populates the following global variable:
#
# $dsc{"namespace item-number"} = description
#
sub dsc
{
my @f = split(/\s+/);
my @id = splice(@f, 0, 2);
$dsc{"$id[0] $id[1]"} = join(" ", @f);
}
#
# "eeschema" populates the following global variable:
#
# $eeschema[] = line
#
sub eeschema
{
push(@eeschema, $_[0]);
if ($_[0] =~ /^\$EndSCHEMATC/) {
$mode = *skip;
undef $raw;
}
}
sub babylonic
{
if ($_[0] =~ /^#/) {
$hash++;
if ($hash == 2) {
$mode = *skip;
undef $raw;
}
return;
}
&bom($_[0]) if $hash == 1;
}
sub dirname
{
local ($name) = @_;
return $name =~ m|/[^/]*$| ? $` : ".";
}
sub rel_path
{
local ($cwd, $path) = @_;
return $path =~ m|^/| ? $path : "$cwd/$path";
}
sub parse_one
{
local ($name) = @_;
my $file = new IO::File->new($name) || die "$name: $!";
my $dir = &dirname($name);
while (1) {
$_ = <$file>;
if (!defined $_) {
$file->close();
return unless @inc;
$file = pop @inc;
$dir = pop @dir;
next;
}
if (/^\s*include\s+(.*?)\s*$/) {
push(@inc, $file);
push(@dir, $dir);
$name = &rel_path($dir, $1);
$dir = &dirname($name);
$file = new IO::File->new($name) || die "$name: $!";
next;
}
chop;
# ----- KiCad BOM parsing. Alas, the BOM is localized, so there are almost no
# reliable clues for the parser. Below would be good clues for the English
# version:
if (0 && /^#Cmp.*order = Reference/) {
$mode = *bom;
next;
}
if (0 && /^#Cmp.*order = Value/) {
$mode = *skip;
next;
}
if (0 && /^eeschema \(/) { # hack to allow loading in any order
$mode = *skip;
next;
}
# ----- now an attempt at a "generic" version:
if (/^eeschema \(/) {
$mode = *babylonic;
$hash = 0;
$raw = 1;
next;
}
# -----
if (/^EESchema Schematic/) {
$mode = *eeschema;
$raw = 1;
die "only one schematic allowed" if defined @eeschema;
&eeschema($_);
next;
}
if (/^#EQU\b/) {
$mode = *equ;
next;
}
if (/^#INV\b/) {
$mode = *inv;
next;
}
if (/^#PAR\b/) {
$mode = *par;
next;
}
if (/^#CHR\b/) {
$mode = *chr;
undef $last;
next;
}
if (/^#(SUB|GEN)\b/) {
$mode = *sub;
undef $last;
undef $last_action;
undef $may_cont;
next;
}
if (/^#ORD\b/) {
$mode = *ord;
next;
}
if (/^#DSC\b/) {
$mode = *dsc;
next;
}
if (/^#END\b\(/) { # for commenting things out
$mode = *skip;
next;
}
if (!$raw) {
s/#.*//;
next if /^\s*$/;
}
&$mode($_);
}
}
sub parse
{
$mode = *skip;
for (@ARGV) {
&parse_one($_);
}
}
#
# in case user calls directly &parse_one and not &parse
#
$mode = *skip;
return 1;