class typeThe class type[< clone : 'a; node : 'a node;
node =
set_node : 'a node -> unit; .. >
as 'a]object
..end
node
defines the interface of the nodes that are part
of XML document trees. For an introduction into trees, see
Intro_trees
.
The interface of the nodes as such cannot be extended by the user.
There is, however, the possibility of defining a so-called extension
which is reflected in the type parameter 'ext
, and which can be
any class type that is a subtype of Pxp_document.extension
.
Note that also the extension has a type parameter pointing to the
node class. Closed node types look thus like
type my_node = my_node extension node
which is a rare form of a recursive type.
Every node has a node type which is returned by the node_type
method below. Depending on the node type, not all methods are
defined. If a method is undefined for certain node types, this
is documented below, and also any unusual reaction when the
methods are called nevertheless. The standard rection is to raise
either the exception
Pxp_core_types.S.Method_not_applicable
or
Pxp_core_types.S.Namespace_method_not_applicable
for namespace-specific
methods.Validation
Some methods modify the tree. This may violate the DTD. Because of this,
it is documented for every mutating method which validation checks are
performed.General Interface
method extension : 'a
Domain.
Applicable to element, data, comment, processing instruction,
and super root nodes.
method node_type : node_type
T_element t
: The node is an element with name t
T_data
: The node is a data nodeT_comment
: The node is a comment nodeT_pinstr n
: The node is a processing instruction with
target n
T_super_root
: The node is a super root nodeT_attribute n
: The node is an attribute with name n
T_namespace p
: The node is a namespace with normalized prefix p
method dtd : Pxp_dtd.dtd
Domein. All node types. However, exemplars need not to have
an associated DTD, in which case this method fails.
method encoding : Pxp_types.rep_encoding
dtd
. (Note: This method fails, too, if
no DTD is present.)
Domain. All node types. Note that exemplars need not to have
an associated DTD, in which case this method fails.
method parent : 'a node
Not_found
if this node is
a root node. For attribute and namespace nodes, the parent is
artificially defined as the element to which these nodes apply.
Domain. All node types.
method root : 'a node
Domain. All node types.
method node_position : int
0
to l-1
where l
is the
length of the list of regular children.0
to m-1
; all namespace
nodes have positions from 0
to n-1
.Not_found
.method node_path : int list
Attribute and namespace nodes are not part of the regular tree, so
there is a special rule for them. Attribute nodes of an element
node x
have the node path x # node_path @ [-1; p]
where
p
is the position of the attribute node. Namespace nodes of an
element node x
have the node path x # node_path @ [-2; p]
where p
is the position of the namespace node.
Note that this definition respects the document order.
Domain. All node types.
method sub_nodes : 'a node list
Domain. All node types.
method iter_nodes : ('a node -> unit) -> unit
obj#iter_nodes f
iterates over the regular children of obj
, and
calls the function f
for every child ch
as f ch
. The
regular children are the nodes returned by sub_nodes
, see
there for an explanation.
See also Document iterators for more functions iterating over trees.
Domain. All node types.
method iter_nodes_sibl : ('a node option ->
'a node -> 'a node option -> unit) ->
unit
obj#iter_nodes f
iterates over the regular children of obj
, and
calls the function f
for every child as f pred ch succ
:ch
is the childpred
is None
if the child is the first in the list,
and Some p
otherwise; p
is the predecessor of ch
succ
is None
if the child is the last in the list,
and Some s
otherwise; s
is the successor of ch
sub_nodes
, see
there for an explanation.
See also Document iterators for more functions iterating over trees.
Domain. All node types.
method nth_node : int -> 'a node
nth_node n
returns the n-th regular child, n >= 0
.
Raises Not_found
if the index n
is out of the valid range.
Domain. All node types.
method previous_node : 'a node
Not_found
if this node is the first child. This is equivalent to
obj # parent # nth_node (obj # node_position - 1)
(when obj
is this node).
Domain. All node types.
method next_node : 'a node
Not_found
if this node is the last child. This is equivalent to
obj # parent # nth_node (obj # node_position + 1)
(when obj
is this node).
Domain. All node types.
Also see the Pxp_document.node.node_type
method which returns
the type of the node, and for elements their names.
method data : string
Not_found
if the comment string is not set (see also the comment
method
below for an alternate way of getting the comment string)""
if the data part is missing (see also the pinstr
method
below for an alternay way of accessing processing instructions)Not_found
if the attribute
is implied.method attribute : string -> Pxp_types.att_value
attribute name
returns the value of the attribute name
.
If the parser is in validating mode, the method returns
values for declared attributes, and it raises Not_found
for any
undeclared attribute. Note that it even returns a value if the
attribute is actually missing but is declared as #IMPLIED
or
has a default value.
If the parser (more precisely, the DTD object) is in
well-formedness mode, the method returns only values for
defined attributes that occur literally in the XML text, and it
raises Not_found
for any
unknown attribute name.
Possible return values are:
Implied_value
: The attribute has been declared with the
keyword #IMPLIED
, and the attribute definition is missing
in the attribute list of the element.Value s
: The attribute has been declared as type CDATA
,
as ID
, as IDREF
, as ENTITY
, or as NMTOKEN
, or as
enumeration or notation, and one of the two conditions holds:
(1) The attribute value is defined in the attribute list in
which case this value is returned in the string s
. (2) The
attribute has been omitted, and the DTD declares the attribute
with a default value. The default value is returned in s
.
Summarized, Value s
is returned for non-implied, non-list
attribute values.
Furthermore, Value s
is returned for non-declared attributes
if the DTD object allows this, for instance, if the DTD
object specifies well-formedness mode.
Valuelist l
: The attribute has been declared as type
IDREFS
, as ENTITIES
, or NMTOKENS
, and one of the two
conditions holds: (1) The attribute value is defined in the
attribute list in which case the space-separated tokens of
the value are returned in the string list l
. (2) The
attribute has been omitted, and the DTD declares the attribute
with a default value. The default value is returned in l
.
Summarized, Valuelist l
is returned for all list-type
attribute values.
Note that before the attribute value is returned, the value is
normalized. This means that newlines are converted to spaces, and
that references to character entities (i.e. &#n;
) and
general entities (i.e. &name;
) are expanded; if necessary,
the expansion is performed recursively.
Domain. All node types. However, only elements and attribute nodes
will return values, all other node types always raise Not_found
.
method attribute_names : string list
Domain. All node types. However, only elements and attribute nodes
will return a non-empty list, all other node types always return
the empty list.
method attribute_type : string -> Pxp_types.att_type
attribute_type name
: returns the type of the attribute name
.
If the attribute
is declared, the declared type is returned. If the attribute is
defined but undeclared, the type A_cdata
will be returned.
(The module Pxp_types
contains the Caml type of attribute types.)
This method raises Not_found
if the attribute is unknown.
Domain. All node types. However, only elements and attribute nodes
will return values, all other node types always raise Not_found
.
method attributes : (string * Pxp_types.att_value) list
(name,value)
pairs describing
all attributes (declared attributes plus defined attributes).
Domain. All node types. However, only elements and attribute nodes
will return non-empty values, all other node types always
return the empty list.
method required_string_attribute : string -> string
required_string_attribute name
:
Returns the value of the attribute name
as string,
i.e. if the value of the attribute is Value s
, this method
will return simply s
, and if the value is Valuelist l
,
this method will return the elements of l
separated by
spaces. If the attribute value is Implied_value
, the method
will fail.
Domain. All node types. However, only elements and attribute nodes
will return values, all other node types always fail.
method required_list_attribute : string -> string list
required_list_attribute name
:
Returns the value of the attribute name
as string list,
i.e. if the value of the attribute is Valuelist l
, this method
will return simply l
, and if the value is Value s
,
this method will return the one-element list [[s]]
.
If the attribute value is Implied_value
, the method
will fail.
Domain. All node types. However, only elements and attribute nodes
will return values, all other node types always fail.
method optional_string_attribute : string -> string option
optional_string_attribute name
:
Returns the value of the attribute name
as optional string,
i.e. if the value of the attribute is Value s
, this method
will return Some s
, and if the value is Valuelist l
,
this method will return Some s
where s
consists of the
concatenated elements of l
separated by spaces. If the
attribute value is Implied_value
, the method will return None
.
Domain. All node types. However, only elements and attribute nodes
will return Some
values, all other node types always return None
.
method optional_list_attribute : string -> string list
optional_list_attribute name
:
Returns the value of the attribute name
as string list,
i.e. if the value of the attribute is Valuelist l
, this method
will return simply l
, and if the value is Value s
,
this method will return the one-element list [[s]]
.
If the attribute value is Implied_value
, the method
will return the empty list.
Domain. All node types. However, only elements and attribute nodes
will return non-empty values, all other node types always
return the empty list.
method id_attribute_name : string
ID
. The method raises Not_found
if there
is no declared ID
attribute for the element type.
Domain. All node types. However, only elements and attribute nodes
will return names, all other node types always raise Not_found
.
method id_attribute_value : string
ID
. The method raises Not_found
if there
is no declared ID
attribute for the element type.
Domain. All node types. However, only elements and attribute nodes
will return names, all other node types always raise Not_found
.
method idref_attribute_names : string list
IDREF
or IDREFS
.
Domain. All node types. However, only elements and attribute nodes
will return names, all other node types always return the empty
list.
method attributes_as_nodes : 'a node list
T_attribute name
.
This method can be used if it is required for typing reasons
that the attributes have also type node
. A common example
are sets that may both contain elements and attributes, as they
are used in the XPath language.
The attribute nodes are read-only; any call to a method
modifying their contents will raise Method_not_applicable
.
In order to get the value of such an attribute node anode
,
one can invoke the method attribute
:
anode # attribute name
where name
is the name of the attribute represented by
anode
. This will return the attribute value as att_value
. Of
course, the other attribute accessors can be called as well.
Furthermore, the method data
will return the attribute value as
string. Of course, every attribute node only contains the value of the
one attribute it represents, and so it does not make sense to pass
names of other attributes to the access methods.
The attribute nodes live outside of the regular XML tree, and they are not considered as children of the element node. However, the element node is the parent node of the attribute nodes (i.e. the children/parent relationship is asymmetric).
The method attributes_as_nodes
computes the list of attribute
nodes when it is first invoked after object creation or any
modification of the attribute list, and it will return the same list
again in subsequent invocations.
See also Irregular nodes: namespace nodes and attribute nodes.
Domain. This method is only applicable to elements.
method pinstr : string -> Pxp_dtd.proc_instruction list
pinstr n
returns all processing instructions that are
attached to this object and that have a target
specification of n
.
Domain. All node types. However, it is only reasonable to call this method for processing instruction nodes, and for elements; for all other node types the method will return the empty list.
It depends on the parser configuration whether the processing
instructions are gathered in special processing instruction nodes
or in their containing elements. The former case is enabled when
the enable_pinstr_nodes
config option is in effect. When a
processing instruction is parsed, a new processing instruction
node is added to the tree, and the proc_instruction
object
is added to this node, and can be queried by calling this method.
If the mentioned config option is not active (which is the default),
the proc_instruction
object is attached to the containing
element, but does not become a regular child of the element.
Especially, the exact position of the instruction among the
children is not reflected in the tree.
method pinstr_names : string list
pinstr
method to get
the full data of a processing instruction.
Domain. All node types. However, as for pinstr
only a few
types of nodes can be filled with processing instruction. See
the description at Pxp_document.node.pinstr
for details.
method comment : string option
Some text
if the node is a comment node and if
text
is the comment string (without the delimiters <!--
and
-->
). Otherwise, None
is passed back.
Note: The data
method also returns the comment string, but it
raises Not_found
if the string is not available. This is the
only difference between these methods when called on comment
nodes.
Domain. All node types. Note that the method will always return
None
for non-comment nodes.
method entity_id : Pxp_types.entity_id
entity_id
object. This object identifies the entity
the node originates from. See Pxp_dtd.Entity
for functions
finding and accessing the entity.
Domain. All node types. Note that it is possible that one
gets an entity_id
that is not connected with a real entity,
e.g. because the node is programmatically constructed, and
does not result from parsing. But even the parser does not set
the entity_id
for all node kinds. Generally, the entity_id
corresponds to a real entity only for element, attribute,
and processing instruction nodes.
method position : string * int * int
(entity,line,pos)
describing the
location of the element in the original XML text. This triple is
only available for elements, and only if the parser has been
configured to store positions (see parser option
store_element_positions
). If available, entity
describes
the entity where the element occurred, line
is the line number
>= 1
, and pos
is the byte position of the first character
of the element in the line.
If unavailable, the method will return the triple ("?",0,0)
.
Domain. All node types. Note that the method will always return
("?",0,0)
for non-element nodes.
method classify_data_node : 'a node -> data_node_classification
classify_data_node n
:
Classifies the passed data node n
, and returns whether it
is reasonable to append the data node to the list of subnodes
(using append_node
). The following return values are possible:CD_normal
: Adding n
does not violate any validation
constraintCD_other
: n
is not a data nodeCD_empty
: The element obj
is declared as EMTPY
, and
n
contains the empty string. It is allowed to append
n
but it does not make senseCD_ignorable
: The element obj
is declared such that
it is forbidden to put character data into it. However,
the node n
only contains white space which is allowed
as an exception to this rule. This means that it is allowed
to append n
but n
would not contain any information
except formatting hints.CD_error e
: It is an error to append n
. The exception
e
, usually a Validation_error
, contains details about
the problem.
Domain. Elements.
method append_node : 'a node -> unit
append_node n
:
Adds the node n
at the end of the list of children. The
method expects that n
is a root, and it requires that n
and
this node share the same DTD.
Validation. This method does not check whether the modified XML tree is still valid.
Domain. Elements, comments, processing instructions, data nodes,
super root nodes.
method add_node : ?force:bool -> 'a node -> unit
append_node
instead.
add_node n
:
Append new sub nodes -- mainly used by the parser itself, but
of course open for everybody. If an element is added, it must be
an orphan (i.e. does not have a parent node)
Validation.
The method performs some basic validation checks if the current node
has a regular expression as content model, or is EMPTY. You can
turn these checks off by passing ~force:true
to the method.
Domain. Elements, comments, processing instructions, data nodes,
super root nodes.
method insert_nodes : ?pos:int -> 'a node list -> unit
insert_nodes ~pos nl
:
Inserts the list of nodes nl
in-place into the list of
children. The insertion is performed at position pos
,
i.e. in the modified list of children, the first element of
nl
will have position pos
. If the optional argument pos
is not passed to the method, the list nl
is appended
to the list of children.
The method requires that all elements of
the list nl
are roots, and that all elements and obj
share the same DTD.
Validation. This method does not check whether the modified XML tree is still valid.
Domain. Elements, comments, processing instructions, data nodes,
super root nodes.
method remove : unit -> unit
If this node does not have a parent, remove
does nothing.
Validation. This method does not check whether the modified XML tree is still valid.
Domain. Elements, comments, processing instructions, data nodes,
super root nodes.
method delete : unit
remove
method remove_nodes : ?pos:int -> ?len:int -> unit -> unit
remove_nodes ~pos ~len ()
:
Removes the specified nodes from the list of children.
The method deletes the nodes from position pos
to
pos+len-1
. The optional argument pos
defaults to 0. The
optional argument len
defaults to the length of the children
list.
Validation. This method does not check whether the modified XML tree is still valid.
Domain. Elements.
method set_nodes : 'a node list -> unit
set_nodes l
:
Sets the list of children to l
. It is required that
every member of l
is either a root or was already a children
of this node before the method call, and it is required that
all members and the current object share the same DTD.
Former children which are not members of l
are removed from
the tree and get orphaned (see method remove
).
Validation. This method does not check whether the modified XML tree is still valid.
Domain. Elements.
method set_data : string -> unit
set_data s
:
This method sets the character string contained in
data nodes.
Validation. This method does not check whether the modified XML tree is still valid.
Domain. Data nodes
method set_attributes : (string * Pxp_types.att_value) list -> unit
set_attributes al
:
Sets the attributes of this element to al
.
Validation. This method does not add missing attributes that are declared in the DTD. It also never rejects undeclared attributes. The passed values are not checked; they are simply taken as-are.
This method does not check whether the modified XML tree is still valid.
Domain. Elements.
method set_attribute : ?force:bool -> string -> Pxp_types.att_value -> unit
set_attribute ~force n v
:
Sets the attribute n
of this element to the value v
.
The attribute n
must already exist, and gets a new value.
If you pass ~force:true
, however, the attribute is added
to the attribute list if it is missing.
Validation. This method does not check whether the modified XML tree is still valid.
Domain. Elements.
method reset_attribute : string -> unit
reset_attribute n
:
If the attribute n
is a declared attribute, it is set
to its default value, or to Implied_value
if there is no default
(the latter is performed even if the attribute is #REQUIRED
).
If the attribute is an undeclared attribute, it is removed
from the attribute list.
The idea of this method is to simulate what had happened if n
had not been defined literally in the attribute list of the XML element.
In validating mode, the parser would have chosen the default
value if possible, or Implied_value
otherwise, and in
well-formedness mode, the attribute would be simply missing
in the attribute list.
It is intentionally not possible to remove a declared
attribute with reset_attribute
.
Validation. This method does not check whether the modified XML tree is still valid.
Domain. Elements.
method quick_set_attributes : (string * Pxp_types.att_value) list -> unit
set_attributes
method add_pinstr : Pxp_dtd.proc_instruction -> unit
add_pinstr pi
:
Adds the processing instruction pi
to the set of
processing instructions attached to this node. If this is an
element node, you can add any number of processing instructions.
If it is a processing instruction node, you can put at most
one processing instruction into this node.
Validation. Processing instructions are outside the scope of validation.
Domain. Elements, processing instruction nodes.
method set_comment : string option -> unit
set_comment c
:
Sets the comment string contained in comment nodes if
c = Some s
. Otherwise, this method removes the comment string
(c = None
).
Note that the comment string must not include the delimiters
<!--
and -->
. Furthermore, it must not contain any character
or character sequence that are forbidden in comments, such
as "--"
. However, this method does not check this condition.
Validation. Comments are outside the scope of validation.
Domain. Comment nodes.
method validate : unit -> unit
validate ()
:
Calls validate_contents
and validate_attlist
, and
ensures that this element is locally valid. The method
returns ()
if the element is valid, and raises an exception
otherwise.
Domain. All node types. However, for non-element nodes this
check is a no-op.
method validate_contents : ?use_dfa:bool -> ?check_data_nodes:bool -> unit -> unit
validate_contents ?use_dfa ?check_data_nodes ()
:
Checks that the subnodes of this element match the declared
content model of this element. The method returns ()
if
the element is okay, and it raises an exception if an error
is found (in most cases Validation_error
).
This check is always performed by the parser, such that software that only reads parsed XML trees needs not call this method. However, if software modifies the tree itself, an invocation of this method ensures that the validation constraints about content models are fulfilled.
Note that the check is not performed recursively, but only on this node.
use_dfa
: If true, the deterministic finite automaton of
regexp content models is used for validation, if available.
Defaults to false.check_data_nodes
: If true, it is checked whether data
nodes in the list of children only occur at valid positions.
If false, these checks
are left out. Defaults to true. (Usually, the parser turns
this feature off because the parser already performs a similar
check.)
See classify_data_node
for details about what is checked.
Some elements do not allow that there are inner data nodes,
or restrict data nodes to whitespace.
Domain. All node types. However, there are only real checks for
elements; for other nodes, this method is a no-op.
method local_validate : ?use_dfa:bool -> ?check_data_nodes:bool -> unit -> unit
validate_contents
method complement_attlist : unit -> unit
complement_attlist ()
:
Adds attributes that are declared in the DTD but are
currently missing: #IMPLIED
attributes are added with
Implied_value
, and if there is a default value for an attribute,
this value is added. #REQUIRED
attributes are set to
Implied_value
, too.
It is only necessary to call this method if the element is created
with ~valcheck:false
, or the attribute list has been modified,
and the element must be again validated.
Domain. Elements.
method validate_attlist : unit -> unit
validate_attlist ()
:
Checks whether the attribute list of this element
matches the declared attribute list. The method returns ()
if the attribute list is formed correctly, and it raises an
exception (usually a Validation_error
) if there is an error.
This check is implicitly performed by create_element
unless
the option ~valcheck:false
has been passed. This means that it
is usually not necessary to call this method; however, if the
attribute list has been changed by set_attributes
or if
~valcheck:false
is in effect, the invocation of this method
ensures the validity of the attribute list.
Note that the method complains about missing attributes even
if these attributes have been declared with a default value or as
being #IMPLIED
; this method only checks the attributes but does
not modify the attribute list. If you know that attributes are
missing and you want to add them automatically just as
create_element
does, you can call complement_attlist
before
doing this check.
Domain. All node types. However, for non-element nodes this
check is a no-op.
method orphaned_clone : < add_node : ?force:bool -> 'a node -> unit;
add_pinstr : Pxp_dtd.proc_instruction -> unit;
append_node : 'a node -> unit;
attribute : string -> Pxp_types.att_value; attribute_names : string list;
attribute_type : string -> Pxp_types.att_type;
attributes : (string * Pxp_types.att_value) list;
attributes_as_nodes : 'a node list;
classify_data_node : 'a node ->
data_node_classification;
comment : string option; complement_attlist : unit -> unit;
create_data : Pxp_dtd.dtd -> string -> 'a node;
create_element : ?name_pool_for_attribute_values:Pxp_types.pool ->
?entity_id:Pxp_types.entity_id ->
?position:string * int * int ->
?valcheck:bool ->
?att_values:(string * Pxp_types.att_value) list ->
Pxp_dtd.dtd ->
node_type ->
(string * string) list -> 'a node;
create_other : ?entity_id:Pxp_types.entity_id ->
?position:string * int * int ->
Pxp_dtd.dtd ->
node_type -> 'a node;
data : string; delete : unit;
display : ?prefixes:string Pxp_types.StringMap.t ->
?minimization:[ `AllEmpty | `DeclaredEmpty | `None ] ->
Pxp_types.output_stream -> Pxp_types.encoding -> unit;
display_prefix : string; dtd : Pxp_dtd.dtd;
dump : Format.formatter -> unit; encoding : Pxp_types.rep_encoding;
entity_id : Pxp_types.entity_id; extension : 'a;
id_attribute_name : string; id_attribute_value : string;
idref_attribute_names : string list;
insert_nodes : ?pos:int -> 'a node list -> unit;
internal_adopt : 'a node option -> int -> unit;
internal_delete : 'a node -> unit;
internal_init : Pxp_types.entity_id ->
string * int * int ->
Pxp_types.pool option ->
bool ->
Pxp_dtd.dtd ->
string ->
(string * string) list ->
(string * Pxp_types.att_value) list -> unit;
internal_init_other : Pxp_types.entity_id ->
string * int * int ->
Pxp_dtd.dtd -> node_type -> unit;
internal_set_pos : int -> unit;
iter_nodes : ('a node -> unit) -> unit;
iter_nodes_sibl : ('a node option ->
'a node ->
'a node option -> unit) ->
unit;
local_validate : ?use_dfa:bool -> ?check_data_nodes:bool -> unit -> unit;
localname : string; namespace_manager : Pxp_dtd.namespace_manager;
namespace_scope : Pxp_dtd.namespace_scope; namespace_uri : string;
namespaces_as_nodes : 'a node list;
next_node : 'a node; node_path : int list;
node_position : int; node_type : node_type;
normprefix : string; nth_node : int -> 'a node;
optional_list_attribute : string -> string list;
optional_string_attribute : string -> string option; orphaned_clone : 'b;
orphaned_flat_clone : 'b; parent : 'a node;
pinstr : string -> Pxp_dtd.proc_instruction list;
pinstr_names : string list; position : string * int * int;
previous_node : 'a node;
quick_set_attributes : (string * Pxp_types.att_value) list -> unit;
remove : unit -> unit; remove_nodes : ?pos:int -> ?len:int -> unit -> unit;
required_list_attribute : string -> string list;
required_string_attribute : string -> string;
reset_attribute : string -> unit; root : 'a node;
set_attribute : ?force:bool -> string -> Pxp_types.att_value -> unit;
set_attributes : (string * Pxp_types.att_value) list -> unit;
set_comment : string option -> unit; set_data : string -> unit;
set_namespace_scope : Pxp_dtd.namespace_scope -> unit;
set_nodes : 'a node list -> unit;
sub_nodes : 'a node list; validate : unit -> unit;
validate_attlist : unit -> unit;
validate_contents : ?use_dfa:bool -> ?check_data_nodes:bool -> unit -> unit;
write : ?prefixes:string list ->
?default:string ->
?minimization:[ `AllEmpty | `DeclaredEmpty | `None ] ->
Pxp_types.output_stream -> Pxp_types.encoding -> unit;
.. >
as 'b
clone
method on the original objects; how much of
the extension objects is cloned depends on the implemention of
this method.
All node types.
method orphaned_flat_clone : 'b
Domain. All node types.
method create_element : ?name_pool_for_attribute_values:Pxp_types.pool ->
?entity_id:Pxp_types.entity_id ->
?position:string * int * int ->
?valcheck:bool ->
?att_values:(string * Pxp_types.att_value) list ->
Pxp_dtd.dtd ->
node_type -> (string * string) list -> 'a node
create_element ~name_pool_for_attribute_values ~position ~valcheck ~att_values dtd ntype att_list
:
This method is usually only called on exemplars to create
fresh nodes of the same class as the examplars. This is done
by copying the exemplars, and setting the properties of the
(flat) copies as follows:
dtd
ntype
(which must be T_element name
)att_list
and att_values
; att_list
passes attribute values
as strings while att_values
passes attribute values as
type att_value
position
entity_id
If valcheck=true
(the default), it is checked whether the
element type exists and whether the passed attributes match the
declared attribute list. Missing attributes are automatically
added, if possible. If valcheck=false
, any element type
and any attributes are accepted.
Even in well-formedness mode, it is ok to pass valcheck=true
as this mode is implemented by weakening the validation
constraints in the DTD object. See
Parsing in well-formedness mode for explanations.
If a name_pool_for_attribute_values
is passed, the attribute
values in att_list
are put into this pool.
The optional arguments have the following defaults:
~name_pool_for_attribute_values
: No pool is used~position
: The position is not available in the copy~valcheck
: true~att_values
: empty~entity_id
: a new ID is used that is connected to a real entitymethod create_data : Pxp_dtd.dtd -> string -> 'a node
create_data dtd cdata
:
This method is usually only called on exemplars to create
fresh nodes of the same class as the examplars. This is done
by copying the exemplars, and setting the properties of the
(flat) copies as follows:dtd
cdata
Domain. Data nodes.
method create_other : ?entity_id:Pxp_types.entity_id ->
?position:string * int * int ->
Pxp_dtd.dtd -> node_type -> 'a node
create_other ~position dtd ntype
:
This method is usually only called on exemplars to create
fresh nodes of the same class as the examplars. This is done
by copying the exemplars, and setting the properties of the
(flat) copies as follows:dtd
position
entity_id
The passed node type ntype
must match the node type
of this node.
Domain. Super root nodes, processing instruction nodes,
comment nodes
Namespace methods are only available in namespace-aware implementations
of node
. For other implementations, the exception
Pxp_core_types.S.Namespace_method_not_applicable
is raised.
Keep in mind that PXP applies prefix normalization. For an
introduction see Intro_namespaces
.
method normprefix : string
The normalized prefix is the part of the name before the colon after prefix normalization has been applied to the node.
Domain. Elements and attributes supporting namespaces.
method display_prefix : string
The display prefix is supposed to be the prefix as it occurs literally in the XML text.
Actually, this method does not return the real display prefix that was found in the XML text but the most recently declared display prefix bound to the namespace URI of this element or attribute, i.e. this method infers the display prefix. The result can be a different prefix than the original prefix if the same namespace URI is bound several times in the current namespace scope.
This method is quite slow.
Domain. Elements and attributes supporting namespaces.
method localname : string
The local name is the part of the name after the colon, or the whole name if there is no colon.
Domain. Elements and attributes supporting namespaces.
method namespace_uri : string
If the node does not have a namespace prefix, and there is no default namespace, this method returns "".
The namespace URI is the unique name of the namespace.
Domain. Elements and attributes supporting namespaces; furthermore
namespace nodes.
method namespace_manager : Pxp_dtd.namespace_manager
Not_found
is raised.
The namespace manager is an object that holds the mapping from namespace prefixes to namespace URIs, and vice versa. It is contained in the DTD, and must be configured there.
Domain. Elements and attributes supporting namespaces; furthermore
namespace nodes.
method namespace_scope : Pxp_dtd.namespace_scope
When printing XML text, the namespace scope may be used to give the printer hints where to introduce namespaces, and which namespace prefixes are preferred.
Domain. Elements and attributes supporting namespaces
method set_namespace_scope : Pxp_dtd.namespace_scope -> unit
set_namespace_scope scope
:
Sets the namespace scope object. It is required that
this object is connected to the same namespace manager as
the rest of the document tree.
Domain. Elements and attributes supporting namespaces
method namespaces_as_nodes : 'a node list
namespace_scope
object and all parent scope objects (except declarations that
are hidden by more recent declarations). The namespaces are
returned as node objects with type T_namespace name
where
name
is the normalized prefix.
This method should be used if it is required for typing reasons
that the namespaces have also type node
. A common example
are sets that may both contain elements and namespaces, as they
are used in the XPath language.
The namespace nodes are read-only; any call to a method
modifying their contents will raise Method_not_applicable
.
See the class namespace_impl
below for more information
about the returned nodes.
The namespace nodes live outside of the regular XML tree, and they are not considered as children of the element node. However, the element node is the parent node of the namespace nodes (i.e. the children/parent relationship is asymmetric).
The method namespaces_as_nodes
computes the list of namespace
nodes when it is first invoked, and it will return the same list
again in subsequent invocations.
See also Irregular nodes: namespace nodes and attribute nodes.
Domain. This method is only applicable to elements that
support namespaces.
The write
and display
methods are very similar. The main difference
is how namespaces are handled. When generating XML text, the
namespaces need to be again represented as prefixes. The write
method uses the normalized prefixes for this purpose. The display
method uses the display prefixes, i.e. the prefixes as they orginally
have been in the parsed XML text. This means for parsed XML text
display
produces an more exact copy of the text, whereas
write
shows the prefixes as they are seen by the program.
method write : ?prefixes:string list ->
?default:string ->
?minimization:[ `AllEmpty | `DeclaredEmpty | `None ] ->
Pxp_types.output_stream -> Pxp_types.encoding -> unit
write stream enc
:
Write the contents of this node and the subtrees to the passed
stream
encoded as enc
. The generated output is again XML.
The output style is rather compact and should not be considered
as "pretty printing".
The namespace-aware nodes use a notation with normalized prefixes. The namespace scope is ignored.
Option ~prefixes
: The class namespace_element_impl
interprets
this option and passes it recursively to subordinate invocations of
write
. The meaning is that the normprefixes enumerated by this list
have already been declared by surrounding elements. The option
defaults to [] forcing the method to output all necessary prefix
declarations.
Option ~default
: Specifies the normprefix that becomes the
default namespace in the output.
Option ~minimization
: How to write out empty elements. `AllEmpty
means that all empty elements are minimized (using the <name/>
form). `DeclaredEmpty
minimizes only empty elements that are
declared as empty in the DTD. `None
does not minimize at all
and is the default.
Domain. All regular node types (elements, data nodes, comments,
processing instructions, super root nodes).
method display : ?prefixes:string Pxp_types.StringMap.t ->
?minimization:[ `AllEmpty | `DeclaredEmpty | `None ] ->
Pxp_types.output_stream -> Pxp_types.encoding -> unit
display stream enc
:
Write the contents of this node and the subtrees to the passed
stream
encoded as enc
. The generated output is again XML.
The output style is rather compact and should not be considered
as "pretty printing".
The namespace-aware nodes try to follow the namespace scoping found in the nodes. The generated namespace prefixes are display prefixes. Missing prefixes are complemented, but this is slow.
Option ~prefixes
: The class namespace_element_impl
interprets
this option and passes it recursively to subordinate invocations of
display
. The mapping contains the declarations currently in
effect as pairs of (prefix,uri)
. The option
defaults to [] forcing the method to output all necessary prefix
declarations.
Option ~minimization
: How to write out empty elements. `AllEmpty
means that all empty elements are minimized (using the <name/>
form). `DeclaredEmpty
minimizes only empty elements that are
declared as empty in the DTD. `None
does not minimize at all
and is the default.
Domain. All regular node types (elements, data nodes, comments,
processing instructions, super root nodes).
These methods are considered as private of the implementation.
method internal_adopt : 'a node option -> int -> unit
method internal_set_pos : int -> unit
method internal_delete : 'a node -> unit
method internal_init : Pxp_types.entity_id ->
string * int * int ->
Pxp_types.pool option ->
bool ->
Pxp_dtd.dtd ->
string ->
(string * string) list -> (string * Pxp_types.att_value) list -> unit
method internal_init_other : Pxp_types.entity_id ->
string * int * int -> Pxp_dtd.dtd -> node_type -> unit
method dump : Format.formatter -> unit