kolibrios-fun/programs/network/netsurf/libdom/test/DOMTSHandler.pm

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# This is the PerSAX Handlers Package
package DOMTSHandler;
use Switch;
use XML::XPath;
use XML::XPath::XMLParser;
our $description = 0;
our $string_index = 0;
our $ret_index = 0;
our $condition_index = 0;
our $test_index = 0;
our $iterator_index = 0;
our $temp_index = 0;
# Sometimes, we need temp nodes
our $tnode_index = 0;
our $dom_feature = "\"XML\"";
our %bootstrap_api = (
dom_implementation_create_document_type => "",
dom_implementation_create_document => "",
);
our %native_interface = (
DOMString => \&generate_domstring_interface,
DOMTimeStamp => "",
DOMUserData => "",
DOMObject =>"",
);
our %special_type = (
# Some of the type are not defined now!
boolean => "bool ",
int => "int32_t ",
"unsigned long" => "uint32_t ",
DOMString => "dom_string *",
List => "list *",
Collection => "list *",
DOMImplementation => "dom_implementation *",
NamedNodeMap => "dom_namednodemap *",
NodeList => "dom_nodelist *",
HTMLCollection => "dom_html_collection *",
HTMLFormElement => "dom_html_form_element *",
CharacterData => "dom_characterdata *",
CDATASection => "dom_cdata_section *",
);
our %special_prefix = (
DOMString => "dom_string",
DOMImplementation => "dom_implementation",
NamedNodeMap => "dom_namednodemap",
NodeList => "dom_nodelist",
HTMLCollection => "dom_html_collection",
HTMLFormElement => "dom_html_form_element",
CharacterData => "dom_characterdata",
CDATASection => "dom_cdata_section *",
);
our %unref_prefix = (
DOMString => "dom_string",
NamedNodeMap => "dom_namednodemap",
NodeList => "dom_nodelist",
HTMLCollection => "dom_html_collection",
);
our %special_method = (
);
our %special_attribute = (
namespaceURI => "namespace",
);
our %no_unref = (
"boolean" => 1,
"int" => 1,
"unsigned int" => 1,
"List" => 1,
"Collection" => 1,
);
our %override_suffix = (
boolean => "bool",
int => "int",
"unsigned long" => "unsigned_long",
DOMString => "domstring",
DOMImplementation => "domimplementation",
NamedNodeMap => "domnamednodemap",
NodeList => "domnodelist",
HTMLCollection => "domhtmlcollection",
Collection => "list",
List => "list",
);
our %exceptions = (
DOM_NO_ERR => 0,
DOM_INDEX_SIZE_ERR => 1,
DOM_DOMSTRING_SIZE_ERR => 2,
DOM_HIERARCHY_REQUEST_ERR => 3,
DOM_WRONG_DOCUMENT_ERR => 4,
DOM_INVALID_CHARACTER_ERR => 5,
DOM_NO_DATA_ALLOWED_ERR => 6,
DOM_NO_MODIFICATION_ALLOWED_ERR => 7,
DOM_NOT_FOUND_ERR => 8,
DOM_NOT_SUPPORTED_ERR => 9,
DOM_INUSE_ATTRIBUTE_ERR => 10,
DOM_INVALID_STATE_ERR => 11,
DOM_SYNTAX_ERR => 12,
DOM_INVALID_MODIFICATION_ERR => 13,
DOM_NAMESPACE_ERR => 14,
DOM_INVALID_ACCESS_ERR => 15,
DOM_VALIDATION_ERR => 16,
DOM_TYPE_MISMATCH_ERR => 17,
DOM_UNSPECIFIED_EVENT_TYPE_ERR => (1<<30)+0,
DOM_DISPATCH_REQUEST_ERR => (1<<30)+1,
DOM_NO_MEM_ERR => (1<<31)+0,
);
our @condition = qw(same equals notEquals less lessOrEquals greater greaterOrEquals isNull notNull and or xor not instanceOf isTrue isFalse hasSize contentType hasFeature implementationAttribute);
our @exception = qw(INDEX_SIZE_ERR DOMSTRING_SIZE_ERR HIERARCHY_REQUEST_ERR WRONG_DOCUMENT_ERR INVALID_CHARACTER_ERR NO_DATA_ALLOWED_ERR NO_MODIFICATION_ALLOWED_ERR NOT_FOUND_ERR NOT_SUPPORTED_ERR INUSE_ATTRIBUTE_ERR NAMESPACE_ERR UNSPECIFIED_EVENT_TYPE_ERR DISPATCH_REQUEST_ERR);
our @assertion = qw(assertTrue assertFalse assertNull assertNotNull assertEquals assertNotEquals assertSame assertInstanceOf assertSize assertEventCount assertURIEquals);
our @assertexception = qw(assertDOMException assertEventException assertImplementationException);
our @control = qw(if while for-each else);
our @framework_statement = qw(assign increment decrement append plus subtract mult divide load implementation comment hasFeature implementationAttribute EventMonitor.setUserObj EventMonitor.getAtEvents EventMonitor.getCaptureEvents EventMonitor.getBubbleEvents EventMonitor.getAllEvents wait);
sub new {
my $type = shift;
my $dtd = shift;
my $chdir = shift;
my $dd = XML::XPath->new(filename => $dtd);
my $self = {
# The DTD file of the xml files
dd => $dd,
# To indicate whether we are in comments
comment => 0,
# To indicate that whether we are in <comment> element
inline_comment => 0,
# The stack of elements encountered utill now
context => [],
# The map for <var> name => type
var => {},
# See the comment on generate_condition2 for this member
condition_stack => [],
# The list for UNREF
unref => [],
string_unref => [],
# The indent of current statement
indent => "",
# The variables for List/Collection
# We now, declare an array for a list and then add them into a list
# The map for all the List/Collection in one test
# "List Name" => "Member type"
list_map => {},
# The name of the current List/Collection
list_name => "",
# The number of items of the current List/Collection
list_num => 0,
# Whether List/Collection has members
list_hasmem => 0,
# The type of the current List/Collection
list_type => "",
# Whether we are in exception assertion
exception => 0,
# Where to chdir
chdir => $chdir
};
return bless $self, $type;
}
sub start_element {
my ($self, $element) = @_;
my $en = $element->{Name};
my $dd = $self->{dd};
my $ct = $self->{context};
push(@$ct, $en);
switch ($en) {
case "test" {
;
}
case "metadata" {
# start comments here
print "/*\n";
$self->{comment} = 1;
}
# Print the var definition
case "var" {
$self->generate_var($element->{Attributes});
}
case "member" {
if ($self->{context}->[-2] eq "var") {
if ($self->{"list_hasmem"} eq 1) {
print ", ";
}
$self->{"list_hasmem"} = 1;
$self->{"list_num"} ++;
}
}
# The framework statements
case [@framework_statement] {
# Because the implementationAttribute & hasFeature belongs to both
# framework-statement and condition, we should distinct the two
# situation here. Let the generate_condtion to do the work.
if ($en eq "hasFeature" || $en eq "implementationAttribute") {
next;
}
$self->generate_framework_statement($en, $element->{Attributes});
}
case [@control] {
$self->generate_control_statement($en, $element->{Attributes});
}
# Test condition
case [@condition] {
$self->generate_condition($en, $element->{Attributes});
}
# The assertsions
case [@assertion] {
$self->generate_assertion($en, $element->{Attributes});
}
case [@assertexception] {
# Indeed, nothing to do here!
}
# Deal with exception
case [@exception] {
# Just see end_element
$self->{'exception'} = 1;
}
# Then catch other case
else {
# we don't care the comment nodes
if ($self->{comment} eq 0) {
$self->generate_interface($en, $element->{Attributes});
}
}
}
}
sub end_element {
my ($self, $element) = @_;
my @ct = @{$self->{context}};
my $name = pop(@{$self->{context}});
switch ($name) {
case "metadata" {
print "*/\n";
$self->{comment} = 0;
$self->generate_main();
}
case "test" {
$self->cleanup();
}
case "var" {
$self->generate_list();
}
# End of condition
case [@condition] {
$self->complete_condition($name);
}
# The assertion
case [@assertion] {
$self->complete_assertion($name);
}
case [@control] {
$self->complete_control_statement($name);
}
case [@exception] {
$name = "DOM_".$name;
print "assert(exp == $exceptions{$name});\n";
$self->{'exception'} = 0;
}
}
}
sub characters {
my ($self, $data) = @_;
our $description;
my $ct = $self->{context};
if ($self->{"inline_comment"} eq 1) {
print "$data->{Data}";
return ;
}
# We print the comments here
if ($self->{comment} eq 1) {
# So, we are in comments state
my $top = $ct->[$#{$ct}];
if ($top eq "metadata") {
return;
}
if ($top eq "description") {
if ($description eq 0) {
print "description: \n";
$description = 1;
}
print "$data->{Data}";
} else {
print "$top: $data->{Data}\n";
}
return;
}
if ($self->{context}->[-1] eq "member") {
# We should mark that the List/Collection has members
$self->{"list_hasmem"} = 1;
# Here, we should detect the characters type
# whether it is a integer or string (now, we only take care
# of the two types, because I did not find any other type).
if ($self->{"list_type"} eq "") {
if ($data->{Data} =~ /^\"/) {
$self->{"list_type"} = "char *";
print "const char *".$self->{"list_name"}."Array[] = \{ $data->{Data}";
} else {
if ($data->{Data} =~ /^[0-9]+/) {
$self->{"list_type"} = "int *";
print "int ".$self->{"list_name"}."Array[] = \{ $data->{Data}";
} else {
die "Some data in the <member> we can't process: \"$data->{Data}\"";
}
}
} else {
# So, we must have known the type, just output the member
print "$data->{Data}";
}
}
}
sub generate_main {
my $self = shift;
# Firstly, push a new "b" to the string_unref list
push(@{$self->{"string_unref"}}, "b");
print << "__EOF__"
#include <stdio.h>
#include <string.h>
#include <stdbool.h>
#include <unistd.h>
#include <dom/dom.h>
#include <dom/functypes.h>
#include <domts.h>
dom_implementation *doc_impl;
int main(int argc, char **argv)
{
dom_exception exp;
(void)argc;
(void)argv;
if (chdir("$self->{chdir}") < 0) {
perror("chdir (\\"$self->{chdir})\\"");
return 1;
}
__EOF__
}
# Note that, we have not just declare variables here
# we should also define EventListener here!
# I think this should be done after the EventListener design
# is complete
sub generate_var {
my ($self, $ats) = @_;
my $type = "";
my $dstring = "";
# For the case like <var name="v" type="DOMString" value="some some"
if ($ats->{"type"} eq "DOMString" and exists $ats->{"value"}) {
$dstring = $self->generate_domstring($ats->{"value"});
$ats->{"value"} = $dstring;
}
$type = type_to_ctype($ats->{"type"});
if ($type eq "") {
print "Not implement this type now\n";
return;
}
print "\t$type$ats->{'name'}";
if (exists $ats->{"value"}) {
print " = $ats->{'value'};\n";
} else {
if ($type =~ m/\*/) {
print " = NULL;\n";
} else {
print ";\n";
}
}
my $var = $self->{"var"};
$var->{$ats->{"name"}} = $ats->{"type"};
# If the type is List/Collection, we should take care of it
if ($ats->{"type"} =~ /^(List|Collection)$/) {
$self->{"list_name"} = $ats->{"name"};
}
}
sub generate_list {
my $self = shift;
# We should deal with the end of <var> when the <var> is declaring a List/Collection
if ($self->{"list_hasmem"} eq 1) {
# Yes, we are in List/Collection declaration
# Firstly, enclose the Array declaration
print "};\n";
# Now, we should create the list * for the List/Collection
# Note, we should deal with "int" or "string" type with different params.
if ($self->{"list_type"} eq "char *") {
print $self->{"list_name"}." = list_new(STRING);\n";
}
if ($self->{"list_type"} eq "int *") {
print $self->{"list_name"}." = list_new(INT);\n";
}
if ($self->{"list_type"} eq "") {
die "A List/Collection has children member but no type is impossible!";
}
for (my $i = 0; $i < $self->{"list_num"}; $i++) {
# Use *(char **) to convert char *[] to char *
print "list_add(".$self->{"list_name"}.", *(char **)(".$self->{"list_name"}."Array + $i));\n";
}
} else {
if ($self->{"list_name"} ne "") {
#TODO: generally, we set the list type as dom_string, but it may be dom_node
print $self->{"list_name"}." = list_new(DOM_STRING);\n";
$self->{"list_type"} = "DOMString";
}
}
# Add the List/Collection to map
$self->{"list_map"}->{$self->{"list_name"}} = $self->{"list_type"};
# Reset the List/Collection member state
$self->{"list_hasmem"} = 0;
$self->{"list_name"} = "";
$self->{"list_type"} = "";
$self->{"list_num"} = 0;
}
sub generate_load {
my ($self, $a) = @_;
my %ats = %$a;
my $doc = $ats{"var"};
$test_index ++;
# define the test file path, use HTML if there is, otherwise using XML
# Attention: I intend to copy the test files to the program excuting dir
print "\tconst char *test$test_index = \"$ats{'href'}.html\";\n\n";
print "\t$doc = load_html(test$test_index, $ats{'willBeModified'});";
print "\tif ($doc == NULL) {\n";
$test_index ++;
print "\t\tconst char *test$test_index = \"$ats{'href'}.xml\";\n\n";
print "\t\t$doc = load_xml(test$test_index, $ats{'willBeModified'});\n";
print "\t\tif ($doc == NULL)\n";
print "\t\t\treturn 1;\n";
print "\t\t}\n";
print << "__EOF__";
exp = dom_document_get_implementation($doc, &doc_impl);
if (exp != DOM_NO_ERR)
return exp;
__EOF__
$self->addto_cleanup($doc);
}
sub generate_framework_statement {
my ($self, $name, $ats) = @_;
switch($name) {
case "load" {
$self->generate_load($ats);
}
case "assign" {
my $var = $ats->{"var"};
my $value = "0";
if (exists $ats->{"value"}) {
$value = $ats->{"value"};
}
# Assign with strong-type-conversion, this is necessary in C.
# And we may need to do deep-copy in the future. FIXME
my $type = type_to_ctype($self->{"var"}->{$var});
print "$var = \($type\) $value;\n";
}
case "increment" {
my $var = $ats->{"var"};
my $value = $ats->{"value"};
print "$var += $value;\n";
}
case "decrement" {
my $var = $ats->{"var"};
my $value = $ats->{"value"};
print "$var -= $value;\n";
}
case "append" {
my $col = $ats->{"collection"};
my $obj = "";
# God, the DTD said, there should be a "OBJ" attribute, but there may not!
if (exists $ats->{"obj"}) {
$obj = $ats->{"obj"};
} else {
$obj = $ats->{"item"}
}
if (not $self->{"var"}->{$col} =~ /^(List|Collection)/) {
die "Append data to some non-list type!";
}
print "list_add($col, $obj);\n";
}
case [qw(plus subtract mult divide)] {
my $var = $ats->{"var"};
my $op1 = $ats->{"op1"};
my $op2 = $ats->{"op2"};
my %table = ("plus", "+", "subtract", "-", "mult", "*", "divide", "/");
print "$var = $op1 $table{$name} $op2;\n";
}
case "comment" {
print "\*";
$self->{"inline_comment"} = 1;
}
case "implementation" {
if (not exists $ats->{"obj"}) {
my $var = $ats->{"var"};
my $dstring = generate_domstring($self, $dom_feature);
print "exp = dom_implregistry_get_dom_implementation($dstring, \&$var);\n";
print "\tif (exp != DOM_NO_ERR) {\n";
$self->cleanup_fail("\t\t");
print "\t\treturn exp;\n\t}\n";
last;
}
my $obj = $ats->{"obj"};
my $var = $ats->{"var"};
# Here we directly output the libDOM's get_implementation API
print "\texp = dom_document_get_implementation($obj, \&$var);\n";
print "\tif (exp != DOM_NO_ERR) {\n";
$self->cleanup_fail("\t\t");
print "\t\treturn exp;\n\t}\n";
}
# We deal with hasFeaturn and implementationAttribute in the generate_condition
case "hasFeature" {
die "No, never can be here!";
}
case "implementaionAttribute" {
die "No, never can be here!";
}
# Here, we die because we did not implement other statements
# We did not implement these statements, because there are no use of them in the W3C DOMTS now
case [@framework_statement] {
die "The statement \"$name\" is not implemented yet!";
}
}
}
sub complete_framework_statement {
my ($self, $name) = @_;
switch($name) {
case "comment" {
print "*/\n";
$self->{"inline_comment"} = 0;
}
}
}
sub generate_interface {
my ($self, $en, $a) = @_;
my %ats = %$a;
my $dd = $self->{dd};
if (exists $ats{'interface'}) {
# Firstly, test whether it is a DOM native interface
if (exists $native_interface{$ats{'interface'}}) {
if ($native_interface{$ats{'interface'}} eq "") {
die "Unkown how to deal with $en of $ats{'interface'}";
}
return $native_interface{$ats{'interface'}}($self, $en, $a);
}
my $ns = $dd->find("/library/interface[\@name=\"$ats{'interface'}\"]/method[\@name=\"$en\"]");
if ($ns->size() != 0) {
my $node = $ns->get_node(1);
$self->generate_method($en, $node, %ats);
} else {
my $ns = $dd->find("/library/interface[\@name=\"$ats{'interface'}\"]/attribute[\@name=\"$en\"]");
if ($ns->size() != 0) {
my $node = $ns->get_node(1);
$self->generate_attribute_accessor($en, $node, %ats);
}
}
} else {
my $ns = $dd->find("/library/interface/method[\@name=\"$en\"]");
if ($ns->size() != 0) {
my $node = $ns->get_node(1);
$self->generate_method($en, $node, %ats);
} else {
my $ns = $dd->find("/library/interface/attribute[\@name=\"$en\"]");
if ($ns->size() != 0) {
my $node = $ns->get_node(1);
$self->generate_attribute_accessor($en, $node, %ats);
} else {
die "Oh, Can't find how to deal with the element $en\n";
}
}
}
}
sub generate_method {
my ($self, $en, $node, %ats) = @_;
my $dd = $self->{dd};
if (! exists $ats{'interface'}) {
my $n = $node;
while($n->getLocalName() ne "interface") {
$n = $n->getParentNode();
}
$ats{'interface'} = $n->getAttribute("name");
}
$method = to_cmethod($ats{'interface'}, $en);
my $cast = to_attribute_cast($ats{'interface'});
my $ns = $dd->find("parameters/param", $node);
my $params = "${cast}$ats{'obj'}";
for ($count = 1; $count <= $ns->size; $count++) {
my $n = $ns->get_node($count);
my $p = $n->getAttribute("name");
my $t = $n->getAttribute("type");
# Change the raw string and the char * to dom_string
if ($t eq "DOMString") {
if ($ats{$p} =~ /^"/ or $self->{"var"}->{$ats{$p}} eq "char *") {
$self->generate_domstring($ats{$p});
$params = $params.", dstring$string_index";
next;
}
}
# For the case that the testcase did not provide the param, we just pass a NULL
# Because we are in C, not like C++ which can overriden functions
if (not exists $ats{$p}) {
$params = $params.", NULL";
next;
}
$params = $params.", $ats{$p}";
}
#$ns = $dd->find("returns", $node);
#my $n = $ns->get_node(1);
#my $t = $n->getAttribute("type");
# declare the return value
#my $tp = type_to_ctype($t);
#print "\t$tp ret$ret_index;\n";
my $unref = 0;
my $temp_node = 0;
if (exists $ats{'var'}) {
# Add the bootstrap params
if (exists $bootstrap_api{$method}) {
if ($method eq "dom_implementation_create_document") {
$params = $params.", myrealloc, NULL, NULL";
} else {
$params = $params.", myrealloc, NULL";
}
}
# Deal with the situation like
#
# dom_node_append_child(node, new_node, &node);
#
# Here, we should import a tempNode, and change this expression to
#
# dom_node *tnode1 = NULL;
# dom_node_append_child(node, new_node, &tnode1);
# dom_node_unref(node);
# node = tnode1;
#
# Over.
if ($ats{'obj'} eq $ats{'var'}) {
my $t = type_to_ctype($self->{'var'}->{$ats{'var'}});
$tnode_index ++;
print "$t tnode$tnode_index = NULL;";
$params = $params.", \&tnode$tnode_index";
# The ats{'obj'} must have been added to cleanup stack
$unref = 1;
# Indicate that we have created a temp node
$temp_node = 1;
} else {
$params = $params.", (void *) \&$ats{'var'}";
$unref = $self->param_unref($ats{'var'});
}
}
print "\texp = $method($params);\n";
if ($self->{'exception'} eq 0) {
print << "__EOF__";
if (exp != DOM_NO_ERR) {
fprintf(stderr, "Exception raised from %s\\n", "$method");
__EOF__
$self->cleanup_fail("\t\t");
print << "__EOF__";
return exp;
}
__EOF__
}
if (exists $ats{'var'} and $unref eq 0) {
$self->addto_cleanup($ats{'var'});
}
if ($temp_node eq 1) {
my $t = $self->{'var'}->{$ats{'var'}};
if (not exists $no_unref{$t}) {
my $prefix = "dom_node";
if (exists $unref_prefix{$t}) {
$prefix = $unref_prefix{$t};
}
print $prefix."_unref(".$ats{'obj'}.");\n";
}
print "$ats{'var'} = tnode$tnode_index;";
}
}
sub generate_attribute_accessor {
my ($self, $en, $node, %ats) = @_;
if (defined($ats{'var'})) {
generate_attribute_fetcher(@_);
} else {
if (defined($ats{'value'})) {
generate_attribute_setter(@_);
}
}
}
sub generate_attribute_fetcher {
my ($self, $en, $node, %ats) = @_;
my $dd = $self->{dd};
if (! exists $ats{'interface'}) {
my $n = $node;
while($n->getLocalName() ne "interface") {
$n = $n->getParentNode();
}
$ats{'interface'} = $n->getAttribute("name");
}
my $fetcher = to_attribute_fetcher($ats{'interface'}, "$en");
my $cast = to_attribute_cast($ats{'interface'});
my $unref = 0;
my $temp_node = 0;
# Deal with the situation like
#
# dom_node_get_next_sibling(child, &child);
#
# Here, we should import a tempNode, and change this expression to
#
# dom_node *tnode1 = NULL;
# dom_node_get_next_sibling(child, &tnode1);
# dom_node_unref(child);
# child = tnode1;
#
# Over.
if ($ats{'obj'} eq $ats{'var'}) {
my $t = type_to_ctype($self->{'var'}->{$ats{'var'}});
$tnode_index ++;
print "\t$t tnode$tnode_index = NULL;\n";
print "\texp = $fetcher(${cast}$ats{'obj'}, \&tnode$tnode_index);\n";
# The ats{'obj'} must have been added to cleanup stack
$unref = 1;
# Indicate that we have created a temp node
$temp_node = 1;
} else {
$unref = $self->param_unref($ats{'var'});
print "\texp = $fetcher(${cast}$ats{'obj'}, \&$ats{'var'});\n";
}
if ($self->{'exception'} eq 0) {
print << "__EOF__";
if (exp != DOM_NO_ERR) {
fprintf(stderr, "Exception raised when fetch attribute %s", "$en");
__EOF__
$self->cleanup_fail("\t\t");
print << "__EOF__";
return exp;
}
__EOF__
}
if ($temp_node eq 1) {
my $t = $self->{'var'}->{$ats{'var'}};
if (not exists $no_unref{$t}) {
my $prefix = "dom_node";
if (exists $unref_prefix{$t}) {
$prefix = $unref_prefix{$t};
}
print $prefix."_unref(".$ats{'obj'}.");\n";
}
print "$ats{'var'} = tnode$tnode_index;";
}
if ($unref eq 0) {
$self->addto_cleanup($ats{'var'});
}
}
sub generate_attribute_setter {
my ($self, $en, $node, %ats) = @_;
my $dd = $self->{dd};
if (! exists $ats{'interface'}) {
my $n = $node;
while($n->getLocalName() ne "interface") {
$n = $n->getParentNode();
}
$ats{'interface'} = $n->getAttribute("name");
}
my $setter = to_attribute_setter($ats{'interface'}, "$en");
my $param = "$ats{'obj'}";
# For DOMString, we should deal specially
my $lp = $ats{'value'};
if ($node->getAttribute("type") eq "DOMString") {
if ($ats{'value'} =~ /^"/ or $self->{"var"}->{$ats{'value'}} eq "char *") {
$lp = $self->generate_domstring($ats{'value'});
}
}
$param = $param.", $lp";
print "exp = $setter($param);";
if ($self->{'exception'} eq 0) {
print << "__EOF__";
if (exp != DOM_NO_ERR) {
fprintf(stderr, "Exception raised when fetch attribute %s", "$en");
__EOF__
$self->cleanup_fail("\t\t");
print << "__EOF__";
return exp;
}
__EOF__
}
}
sub generate_condition {
my ($self, $name, $ats) = @_;
# If we are in nested or/and/xor/not, we should put a operator before test
my @array = @{$self->{condition_stack}};
if ($#array ge 0) {
switch ($array[-1]) {
case "xor" {
print " ^ ";
}
case "or" {
print " || ";
}
case "and" {
print " && ";
}
# It is the indicator, just pop it.
case "new" {
pop(@{$self->{condition_stack}});
}
}
}
switch ($name) {
case [qw(less lessOrEquals greater greaterOrEquals)] {
my $actual = $ats->{actual};
my $expected = $ats->{expected};
my $method = $name;
$method =~ s/[A-Z]/_$&/g;
$method = lc $method;
print "$method($expected, $actual)";
}
case "same" {
my $actual = $ats->{actual};
my $expected = $ats->{expected};
my $func = $self->find_override("is_same", $actual, $expected);
print "$func($expected, $actual)";
}
case [qw(equals notEquals)]{
my $actual = $ats->{actual};
my $expected = $ats->{expected};
my $ig;
if (exists $ats->{ignoreCase}){
$ig = $ats->{ignoreCase};
} else {
$ig = "false";
}
$ig = adjust_ignore($ig);
my $func = $self->find_override("is_equals", $actual, $expected);
if ($name =~ /not/i){
print "(false == $func($expected, $actual, $ig))";
} else {
print "$func($expected, $actual, $ig)";
}
}
case [qw(isNull notNull)]{
my $obj = $ats->{obj};
if ($name =~ /not/i) {
print "(false == is_null($obj))";
} else {
print "is_null($obj)";
}
}
case "isTrue" {
my $value = $ats->{value};
print "is_true($value)";
}
case "isFalse" {
my $value = $ats->{value};
print "(false == is_true($value))";
}
case "hasSize" {
my $obj = $ats->{obj};
my $size = $ats->{expected};
my $func = $self->find_override("is_size", $obj, $size);
print "$func($size, $obj)";
}
case "contentType" {
my $type = $ats->{type};
print "is_contenttype(\"$type\")";
}
case "instanceOf" {
my $obj = $ats->{obj};
my $type = $ats->{type};
print "instanceOf(\"$type\", $obj)";
}
case "hasFeature" {
if (exists $ats->{var}) {
$self->generate_interface($name, $ats);
} else {
my $feature = $ats->{feature};
if (not ($feature =~ /^"/)) {
$feature = '"'.$feature.'"';
}
my $version = "NULL";
if (exists $ats->{version}) {
$version = $ats->{version};
if (not ($version =~ /^"/)) {
$version = '"'.$version.'"';
}
}
if ($self->{context}->[-2] ne "condition") {
# we are not in a %condition place, so we must be a statement
# we change this to assert
# print "assert(has_feature($feature, $version));\n"
# do nothing if we are not in condition.
} else {
print "has_feature($feature, $version)";
}
}
}
case "implementationAttribute" {
my $value = $ats->{value};
my $name = $ats->{name};
if ($self->{context}->[-2] ne "condition") {
# print "assert(implementation_attribute(\"$name\", $value));";
# Do nothing, and the same with hasFeature, this means we will
# run all test cases now and try to get a result whether we support
# such feature.
} else {
print "implementation_attribute(\"$name\", $value)";
}
}
case [qw(and or xor)] {
push(@{$self->{condition_stack}}, $name);
push(@{$self->{condition_stack}}, "new");
print "(";
}
case "not" {
push(@{$self->{condition_stack}}, $name);
print "(false == ";
}
}
}
sub complete_condition {
my ($self, $name) = @_;
if ($name =~ /^(xor|or|and)$/i) {
print ")";
my $top = pop(@{$self->{condition_stack}});
die "Condition stack error! $top != $name" if $top ne $name;
}
if ($name eq "not") {
my $top = pop(@{$self->{condition_stack}});
die "Condition stack error! $top != $name" if $top ne $name;
print ")";
}
# we deal with the situation that the %condition is in a control statement such as
# <if> or <while>, and we should start a new '{' block here
if ($self->{context}->[-1] eq "condition") {
print ") {\n";
pop(@{$self->{context}});
}
}
sub generate_assertion {
my ($self, $name, $ats) = @_;
print "\tassert(";
switch($name){
# Only assertTrue & assertFalse can have nested %conditions
case [qw(assertTrue assertFalse assertNull)] {
my $n = $name;
$n =~ s/assert/is/g;
if (exists $ats->{actual}){
my $ta = { value => $ats->{actual}, obj => $ats->{actual}};
$self->generate_condition($n,$ta);
}
}
case [qw(assertNotNull assertEquals assertNotEquals assertSame)] {
my $n = $name;
$n =~ s/assert//g;
$n = lcfirst $n;
if (exists $ats->{actual}){
my $ta = {
actual => $ats->{actual},
value => $ats->{actual},
obj => $ats->{actual},
expected => $ats->{expected},
ignoreCase => $ats->{ignoreCase},
type => $ats->{type},
};
$self->generate_condition($n,$ta);
}
}
case "assertInstanceOf" {
my $obj = $ats->{obj};
my $type = $ats->{type};
print "is_instanceof(\"$type\", $obj)";
}
case "assertSize" {
my $n = $name;
$n =~ s/assert/has/;
if (exists $ats->{collection}){
my $ta = { obj => $ats->{collection}, expected => $ats->{size}};
$self->generate_condition($n,$ta);
}
}
case "assertEventCount" {
#todo
}
case "assertURIEquals" {
my $actual = $ats->{actual};
my ($scheme, $path, $host, $file, $name, $query, $fragment, $isAbsolute) = qw(NULL NULL NULL NULL NULL NULL NULL NULL);
if (exists $ats->{scheme}) {
$scheme = $ats->{scheme};
}
if (exists $ats->{path}) {
$path = $ats->{path};
}
if (exists $ats->{host}) {
$host = $ats->{host};
}
if (exists $ats->{file}) {
$file = $ats->{file};
}
if (exists $ats->{name}) {
$name = $ats->{name};
}
if (exists $ats->{query}) {
$query = $ats->{query};
}
if (exists $ats->{fragment}) {
$fragment = $ats->{fragment};
}
if (exists $ats->{isAbsolute}) {
$isAbsolute = $ats->{isAbsolute};
}
print "is_uri_equals($scheme, $path, $host, $file, $name, $query, $fragment, $isAbsolute, $actual)"
}
}
}
sub complete_assertion {
my ($self, $name) = @_;
print ");\n";
}
sub generate_control_statement {
my ($self, $name, $ats) = @_;
switch($name) {
case "if" {
print "\tif(";
push(@{$self->{"context"}}, "condition");
}
case "else" {
$self->cleanup_block_domstring();
print "\t} else {";
}
case "while" {
print "\twhile (";
push(@{$self->{"context"}}, "condition");
}
case "for-each" {
# Detect what is the collection type, if it is "string", we
# should also do some conversion work
my $coll = $ats->{"collection"};
# The default member type is dom_node
my $type = "dom_node *";
if (exists $self->{"list_map"}->{$coll}) {
$type = $self->{"list_map"}->{$coll};
}
# Find the member variable, if it is not declared before, declare it firstly
my $member = $ats->{"member"};
if (not exists $self->{"var"}->{$member}) {
print "$type $member;\n";
# Add the new variable to the {var} map
$self->{"var"}->{"$member"} = $type;
}
# Now the member is conformed to be declared
if ($self->{"var"}->{$coll} =~ /^(List|Collection)$/) {
# The element in the list is not equal with the member object
# For now, there is only one case for this, it is "char *" <=> "DOMString"
my $conversion = 0;
if ($self->{"var"}->{"$member"} ne $type) {
if ($self->{"var"}->{"$member"} eq "DOMString") {
if ($type eq "char *") {
$conversion = 1;
}
}
}
$iterator_index++;
print "unsigned int iterator$iterator_index = 0;";
if ($conversion eq 1) {
print "char *tstring$temp_index = NULL;";
}
print "foreach_initialise_list($coll, \&iterator$iterator_index);\n";
print "while(get_next_list($coll, \&iterator$iterator_index, ";
if ($conversion eq 1) {
print "\&tstring$temp_index)) {\n";
print "exp = dom_string_create((const uint8_t *)tstring$temp_index,";
print "strlen(tstring$temp_index), &$member);\n";
print "if (exp != DOM_NO_ERR) {\n";
print "\t\tfprintf(stderr, \"Can't create DOMString\\n\");";
$self->cleanup_fail("\t\t");
print "\t\treturn exp;\n\t}\n";
$temp_index ++;
} else {
print "\&$member)) {\n";
}
}
if ($self->{"var"}->{$coll} eq "NodeList") {
$iterator_index++;
print "unsigned int iterator$iterator_index = 0;";
print "foreach_initialise_domnodelist($coll, \&iterator$iterator_index);\n";
print "while(get_next_domnodelist($coll, \&iterator$iterator_index, \&$member)) {\n";
}
if ($self->{"var"}->{$coll} eq "NamedNodeMap") {
$iterator_index++;
print "unsigned int iterator$iterator_index = 0;";
print "foreach_initialise_domnamednodemap($coll, \&iterator$iterator_index);\n";
print "while(get_next_domnamednodemap($coll, \&iterator$iterator_index, \&$member)) {\n";
}
if ($self->{"var"}->{$coll} eq "HTMLCollection") {
$iterator_index++;
print "unsigned int iterator$iterator_index = 0;";
print "foreach_initialise_domhtmlcollection($coll, \&iterator$iterator_index);\n";
print "while(get_next_domhtmlcollection($coll, \&iterator$iterator_index, \&$member)) {\n";
}
}
}
# Firstly, we enter a new block, so push a "b" into the string_unref list
push(@{$self->{"string_unref"}}, "b");
}
sub complete_control_statement {
my ($self, $name) = @_;
# Note: we only print a '}' when <if> element ended but not <else>
# The reason is that there may be no <else> element in <if> and
# we when there is an <else> element, it must nested in <if>. ^_^
switch($name) {
case [qw(if while for-each)] {
# Firstly, we should cleanup the dom_string in this block
$self->cleanup_block_domstring();
print "}\n";
}
}
}
###############################################################################
#
# The helper functions
#
sub generate_domstring {
my ($self, $str) = @_;
$string_index = $string_index + 1;
print << "__EOF__";
const char *string$string_index = $str;
dom_string *dstring$string_index;
exp = dom_string_create((const uint8_t *)string$string_index,
strlen(string$string_index), &dstring$string_index);
if (exp != DOM_NO_ERR) {
fprintf(stderr, "Can't create DOMString\\n");
__EOF__
$self->cleanup_fail("\t\t");
print << "__EOF__";
return exp;
}
__EOF__
push(@{$self->{string_unref}}, "$string_index");
return "dstring$string_index";
}
sub cleanup_domstring {
my ($self, $indent) = @_;
for (my $i = 0; $i <= $#{$self->{string_unref}}; $i++) {
if ($self->{string_unref}->[$i] ne "b") {
print $indent."dom_string_unref(dstring$self->{string_unref}->[$i]);\n";
}
}
}
sub cleanup_block_domstring {
my $self = shift;
while ((my $num = pop(@{$self->{string_unref}})) ne "b" and $#{$self->{string_unref}} ne -1) {
print "dom_string_unref(dstring$num);\n";
}
}
sub type_to_ctype {
my $type = shift;
if (exists $special_type{$type}) {
return $special_type{$type};
}
# If the type is not specially treated, we can transform it by rules
if ($type =~ m/^HTML/) {
# Don't deal with this now
return "";
}
# The core module comes here
$type =~ s/[A-Z]/_$&/g;
$type = lc $type;
# For events module
$type =~ s/_u_i_/_ui_/g;
return "dom".$type." *";
}
sub to_cmethod {
my ($type, $m) = @_;
my $prefix = get_prefix($type);
my $ret;
if (exists $special_method{$m}) {
$ret = $prefix."_".$special_method{$m};
} else {
$m =~ s/[A-Z]/_$&/g;
$m = lc $m;
$ret = $prefix."_".$m;
}
$ret =~ s/h_t_m_l/html/;
$ret =~ s/c_d_a_t_a/cdata/;
$ret =~ s/_n_s$/_ns/;
# For DOMUIEvent
$ret =~ s/_u_i_/_ui_/;
# For initEvent
$ret =~ s/init_event/init/;
return $ret;
}
sub to_attribute_fetcher {
return to_attribute_accessor(@_, "get");
}
sub to_attribute_setter {
return to_attribute_accessor(@_, "set");
}
sub to_attribute_accessor {
my ($type, $af, $accessor) = @_;
my $prefix = get_prefix($type);
my $ret;
if (exists $special_attribute{$af}) {
$ret = $prefix."_".$accessor."_".$special_attribute{$af};
} else {
$af =~ s/[A-Z]/_$&/g;
$af = lc $af;
$ret = $prefix."_".$accessor."_".$af;
}
$ret =~ s/h_t_m_l/html/;
return $ret;
}
sub to_attribute_cast {
my $type = shift;
my $ret = get_prefix($type);
$ret =~ s/h_t_m_l/html/;
return "(${ret} *)";
}
sub get_prefix {
my $type = shift;
if (exists $special_prefix{$type}) {
$prefix = $special_prefix{$type};
} else {
$type =~ s/[A-Z]/_$&/g;
$prefix = lc $type;
$prefix = "dom".$prefix;
}
return $prefix;
}
# This function remain unsed
sub get_suffix {
my $type = shift;
my $suffix = "default";
if (exists $override_suffix{$type}) {
$suffix = $override_suffix{$type};
} else {
$type =~ s/[A-Z]/_$&/g;
$suffix = lc $type;
$suffix = "dom".$suffix;
}
return $suffix;
}
#asserttions sometimes can contain sub-statements according the DTD. Like
#<assertEquals ..>
# <stat1 />
# <stat2 />
#</assertEquals>
#
# And assertion can contains assertions too! So, I use the assertion_stack
# to deal:
#
# when we encounter an assertion, we push $assertionName, "end", "start" to
# the stack, and when we encounter a statement, we examine the stack to see
# the top element, if it is:
#
# 1. "start", then we are in sub-statement of that assertion, and this is the
# the first sub-statement, so we should print a if (condtion==true) {, before
# print the real statement.
# 2. "end", then we are in sub-statement of that assertion, and we are not the
# first one, just print the statement.
#
# But after searching the whole testcases, I found no use of sub-statements of assertions.
# So, this function left unsed!
sub end_half_assertion {
my ($self, $name) = @_;
my $top = pop(@{$self->{assertion_stack}});
if ($top eq "end") {
print "$self->{indent}"."}\n";
} else {
if ($top eq "start") {
pop(@{$self->{assertion_stack}});
pop(@{$self->{assertion_stack}});
}
}
pop(@{$self->{assertion_stack}});
}
### Enclose an unsed function
##############################################################################################
sub cleanup_domvar {
my ($self, $indent) = @_;
my $str = join($indent, reverse @{$self->{unref}});
print $indent.$str."\n";
}
sub cleanup_fail {
my ($self, $indent) = @_;
$self->cleanup_domstring($indent);
$self->cleanup_domvar($indent);
}
sub cleanup {
my $self = shift;
print "\n\n";
$self->cleanup_domstring("\t");
$self->cleanup_domvar("\t");
print "\n\tprintf(\"PASS\");\n";
print "\n\treturn 0;\n";
print "\n\}\n";
}
sub addto_cleanup {
my ($self, $var) = @_;
my $type = $self->{'var'}->{$var};
if (not exists $no_unref{$type}) {
my $prefix = "dom_node";
if (exists $unref_prefix{$type}) {
$prefix = $unref_prefix{$type};
}
push(@{$self->{unref}}, $prefix."_unref(".$var.");\n");
}
}
sub adjust_ignore {
my $ig = shift;
if ($ig eq "auto"){
return "true";
}
return $ig;
}
sub find_override {
my ($self, $func, $var, $expected) = @_;
my $vn = $self->{var}->{$var};
# Deal with string types
if ($expected eq "DOMString") {
return $func."_domstring";
} else {
if ($expected =~ /^\"/ or $self->{"var"}->{$expected} eq "char *") {
return $func."_string";
}
}
if (exists $override_suffix{$vn}) {
$func = $func."_".$override_suffix{$vn}
}
return $func;
}
sub param_unref {
my ($self, $var) = @_;
my $type = $self->{'var'}->{$var};
if (not exists $no_unref{$type}) {
my $prefix = "dom_node";
if (exists $unref_prefix{$type}) {
$prefix = $unref_prefix{$type};
}
print "\tif ($var != NULL) {\n";
print "\t\t" . $prefix."_unref(".$var.");\n";
print "\t\t$var = NULL;\n";
print "\t}\n";
}
foreach my $item (@{$self->{unref}}) {
$item =~ m/.*\((.*)\).*/;
if ($var eq $1) {
return 1;
}
}
foreach my $item (@{$self->{string_unref}}) {
if ($var eq $item) {
return 1;
}
}
return 0;
}
sub generate_domstring_interface {
my ($self, $en, $a) = @_;
switch ($en) {
case "length" {
print "$a->{'var'} = dom_string_length($a->{'obj'});";
}
else {
die "Can't generate method/attribute $en for DOMString";
}
}
}
1;