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DDS.h
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DDS.h
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// -*- mode: c++; c-basic-offset:4 -*-
// This file is part of libdap, A C++ implementation of the OPeNDAP Data
// Access Protocol.
// Copyright (c) 2002,2003 OPeNDAP, Inc.
// Author: James Gallagher <jgallagher@opendap.org>
//
// This library is free software; you can redistribute it and/or
// modify it under the terms of the GNU Lesser General Public
// License as published by the Free Software Foundation; either
// version 2.1 of the License, or (at your option) any later version.
//
// This library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
// Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public
// License along with this library; if not, write to the Free Software
// Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
//
// You can contact OPeNDAP, Inc. at PO Box 112, Saunderstown, RI. 02874-0112.
// (c) COPYRIGHT URI/MIT 1994-1999
// Please read the full copyright statement in the file COPYRIGHT_URI.
//
// Authors:
// jhrg,jimg James Gallagher <jgallagher@gso.uri.edu>
// Provide access to the DDS. This class is used to parse DDS text files, to
// produce a printed representation of the in-memory variable table, and to
// update the table on a per-variable basis.
//
// jhrg 9/8/94
#ifndef _dds_h
#define _dds_h 1
#include <cstdio>
#include <iostream>
#include <string>
#include <vector>
#ifndef _basetype_h
#include "BaseType.h"
#endif
#ifndef _constructor_h
#include "Constructor.h"
#endif
#ifndef base_type_factory_h
#include "BaseTypeFactory.h"
#endif
#ifndef _das_h
#include "DAS.h"
#endif
#ifndef A_DapObj_h
#include "DapObj.h"
#endif
#ifndef XMLWRITER_H_
#include "XMLWriter.h"
#endif
namespace libdap {
bool has_dap2_attributes(BaseType *btp);
bool has_dap2_attributes(AttrTable &a);
/** The DAP2 Data Descriptor Object (DDS) is a data structure used by
the DAP2 software to describe datasets and subsets of those
datasets. The DDS may be thought of as the declarations for the
data structures that will hold data requested by some DAP2 client.
Part of the job of a DAP2 server is to build a suitable DDS for a
specific dataset and to send it to the client. Depending on the
data access API in use, this may involve reading part of the
dataset and inferring the DDS. Other APIs may require the server
simply to read some ancillary data file with the DDS in it.
On the server side, in addition to the data declarations, the DDS
holds the clauses of any constraint expression that may have
accompanied the data request from the DAP2 client. The DDS object
includes methods for modifying the DDS according to the given
constraint expression. It also has methods for directly modifying
a DDS, and for transmitting it from a server to a client.
For the client, the DDS object includes methods for reading the
persistent form of the object sent from a server. This includes parsing
the ASCII representation of the object and, possibly, reading data
received from a server into a data object.
Note that the class DDS is used to instantiate both DDS and DataDDS
objects. A DDS that is empty (contains no actual data) is used by servers
to send structural information to the client. The same DDS can becomes a
DataDDS when data values are bound to the variables it defines.
For a complete description of the DDS layout and protocol, please
refer to <i>The OPeNDAP User Guide</i>.
The DDS has an ASCII representation, which is what is transmitted
from a DAP2 server to a client. Here is the DDS representation of
an entire dataset containing a time series of worldwide grids of
sea surface temperatures:
<pre>
Dataset {
Float64 lat[lat = 180];
Float64 lon[lon = 360];
Float64 time[time = 404];
Grid {
ARRAY:
Int32 sst[time = 404][lat = 180][lon = 360];
MAPS:
Float64 time[time = 404];
Float64 lat[lat = 180];
Float64 lon[lon = 360];
} sst;
} weekly;
</pre>
If the data request to this dataset includes a constraint
expression, the corresponding DDS might be different. For
example, if the request was only for northern hemisphere data
at a specific time, the above DDS might be modified to appear like
this:
<pre>
Dataset {
Grid {
ARRAY:
Int32 sst[time = 1][lat = 90][lon = 360];
MAPS:
Float64 time[time = 1];
Float64 lat[lat = 90];
Float64 lon[lon = 360];
} sst;
} weekly;
</pre>
Since the constraint has narrowed the area of interest, the range
of latitude values has been halved, and there is only one time
value in the returned array. Note that the simple arrays (<tt>lat</tt>,
<tt>lon</tt>, and <tt>time</tt>) described in the dataset are also
part of the <tt>sst</tt> Grid object. They can be requested by
themselves or as part of that larger object.
See the <i>The OPeNDAP User Guide</i>, or the documentation of the
BaseType class for descriptions of the DAP2 data types.
@note Make sure to pass a valid pointer to the DDS constructor or use
the set_factory() method before actually using the DDS. Also make sure
that the Factory's lifetime thereafter is the same as the DDS's. Never
delete the factory until you're done using the DDS.
@note Update: I removed the DEFAULT_BASETYPE_FACTORY switch because it
caused more confusion than it avoided. See Trac #130. jhrg
@note The compile-time symbol DEFAULT_BASETYPE_FACTORY controls whether
the old (3.4 and earlier) DDS and DataDDS constructors are supported.
These constructors now use a default factory class (BaseTypeFactory,
implemented by this library) to instantiate Byte, ..., Grid variables. To
use the default ctor in your code you must also define this symbol. If
you \e do choose to define this and fail to provide a specialization of
BaseTypeFactory when your software needs one, you code may not link or
may fail at run time. In addition to the older ctors for DDS and DataDDS,
defining the symbol also makes some of the older methods in Connect
available (because those methods require the older DDS and DataDDS ctors.
@see BaseType
@see DAS */
class DDS : public DapObj {
private:
BaseTypeFactory *d_factory;
string d_name; // The dataset d_name
string d_filename; // File d_name (or other OS identifier) for
string d_container_name; // d_name of container structure
Structure *d_container; // current container for container d_name
// dataset or part of dataset.
int d_dap_major; // The protocol major version number
int d_dap_minor; // ... and minor version number
string d_dap_version; // String version of the protocol
string d_request_xml_base;
string d_namespace;
AttrTable d_attr; // Global attributes.
vector<BaseType *> vars; // Variables at the top level
int d_timeout; // alarm time in seconds. If greater than
// zero, raise the alarm signal if more than
// d_timeout seconds are spent reading data.
uint64_t d_max_response_size_kb; // In kilobytes...
friend class DDSTest;
protected:
void duplicate(const DDS &dds);
BaseType *leaf_match(const string &name, BaseType::btp_stack *s = 0);
BaseType *exact_match(const string &name, BaseType::btp_stack *s = 0);
public:
typedef std::vector<BaseType *>::const_iterator Vars_citer;
typedef std::vector<BaseType *>::iterator Vars_iter;
typedef std::vector<BaseType *>::reverse_iterator Vars_riter;
DDS(BaseTypeFactory *factory, const string &name = "");
DDS(BaseTypeFactory *factory, const string &name, const string &version);
DDS(const DDS &dds);
virtual ~DDS();
DDS &operator=(const DDS &rhs);
virtual void transfer_attributes(DAS *das);
string get_dataset_name() const;
void set_dataset_name(const string &n);
/** Return the factory which makes instances of the Byte, ..., Grid
type classes. Specialize BaseTypeFactory so that a DDS will be
populated with your client or server's specialized types.
@return An instance of BaseTypeFactory. */
BaseTypeFactory *get_factory() const { return d_factory; }
/** Set the factory class used to instantiate variables during the
parse of a DDS.
@param factory The factory this DDS should use. Caller must free
factory when done with this DDS.
@return The old factory.
@see BaseTypeFactory */
BaseTypeFactory *set_factory(BaseTypeFactory *factory) {
BaseTypeFactory *t = d_factory;
d_factory = factory;
return t;
}
virtual AttrTable &get_attr_table();
string filename() const;
void filename(const string &fn);
/// Get the DAP major version as sent by the client
int get_dap_major() const { return d_dap_major; }
/// Get the DAP minor version as sent by the client
int get_dap_minor() const { return d_dap_minor; }
void set_dap_version(const string &version_string = "2.0");
string get_dap_version() const { return d_dap_version; }
string get_dmr_version() const { return "1.0"; }
/// @deprecated
void set_dap_major(int p);
/// @deprecated
void set_dap_minor(int p);
/// @deprecated
void set_dap_version(double d);
/// Get the URL that will return this DDS/DDX/DataThing
string get_request_xml_base() const { return d_request_xml_base; }
/// @see get_request_xml_base
void set_request_xml_base(const string &xb) { d_request_xml_base = xb; }
/// Get the namespace associated with the DDS - likely set only by DDX responses
string get_namespace() const { return d_namespace; }
/// Set the namespace for this DDS/DDX object/response
void set_namespace(const string &ns) { d_namespace = ns; }
/// Get the maximum response size, in bytes. Zero indicates no limit.
long get_response_limit() { return (long)(d_max_response_size_kb * 1024); }
/**
* @brief The maximum allowed response size, in kilobytes. Zero indicates no limit (default).
* @return The maximum allowed response size, in kilobytes. Zero indicates no limit (default).
*/
uint64_t get_response_limit_kb() const { return d_max_response_size_kb; }
/**
* Set the maximum response size. Zero is the default value. The size
* is given in kilobytes (but stored internally as the number of bytes).
* @param size The maximum size of the response in kilobytes.
*/
void set_response_limit(long size) { d_max_response_size_kb = size; }
/**
* @brief Set the maximum response size, in kilobytes.
* The size is given in kilobytes..
* @param size The maximum size of the response in kilobytes.
*/
void set_response_limit_kb(uint64_t size) { d_max_response_size_kb = size; }
/**
* @return Returns true if the total data bytes requested exceeds the set limit, false otherwise.
*/
bool too_big() { return d_max_response_size_kb != 0 && get_request_size_kb(true) > d_max_response_size_kb; }
/// Get the estimated response size in bytes.
int get_request_size(bool constrained);
/// Get the estimated response size in kilobytes.
uint64_t get_request_size_kb(bool constrained);
string container_name();
void container_name(const string &cn);
Structure *container();
void add_var(BaseType *bt);
void add_var_nocopy(BaseType *bt);
/// Removes a variable from the DDS.
void del_var(const string &n);
BaseType *var(const string &n, BaseType::btp_stack &s);
BaseType *var(const string &n, BaseType::btp_stack *s = 0);
int num_var();
/**
* Get a const reference to the vector of BaseType pointers.
* @note Use this in range-based for loops to iterate over the variables.
* @return A const reference to the vector of BaseType pointers.
*/
const vector<BaseType *> &variables() const { return vars; }
/// Return an iterator to the first variable
/// @see vars()
/// @deprecated
Vars_iter var_begin() { return vars.begin(); }
/// Return a reverse iterator
Vars_riter var_rbegin() { return vars.rbegin(); }
/// Return an iterator
Vars_iter var_end() { return vars.end(); }
/// Return a reverse iterator
Vars_riter var_rend() { return vars.rend(); }
/// Get an iterator
Vars_iter get_vars_iter(int i) { return vars.begin() + i; }
/// Get a variable
BaseType *get_var_index(int i) { return *(vars.begin() + i); }
/// Insert a variable before the referenced element
void insert_var(Vars_iter i, BaseType *ptr);
void insert_var_nocopy(Vars_iter i, BaseType *ptr);
/// Removes a variable from the DDS.
void del_var(Vars_iter i);
/// Removes a range of variables from the DDS.
void del_var(Vars_iter i1, Vars_iter i2);
/** @name DDS_timeout
* Old deprecated DDS timeout code
* @deprecated
*/
///@{
void timeout_on();
void timeout_off();
void set_timeout(int t);
int get_timeout();
///@}
// These parse the DAP2 curly-brace document and make a C++ object.
void parse(string fname);
void parse(int fd);
void parse(FILE *in = stdin);
// These print the Binary object in either the curly-brace or XML reps
void print(FILE *out);
void print_constrained(FILE *out);
void print_xml(FILE *out, bool constrained, const string &blob = "");
// Same as above, but using C++ i/o streams
void print(ostream &out);
void print_constrained(ostream &out);
void print_xml(ostream &out, bool constrained, const string &blob = "");
// Print the XML using libxml2; the other print_xml methods use this impl.
void print_xml_writer(ostream &out, bool constrained, const string &blob = "");
// Print the DAP4 DMR 'object'
void print_dmr(ostream &out, bool constrained);
void print_das(ostream &out);
DAS *get_das();
void get_das(DAS *das);
void mark_all(bool state);
bool mark(const string &name, bool state);
bool check_semantics(bool all = false);
void tag_nested_sequences();
bool is_dap4_projected(std::vector<string> &inventory);
virtual void dump(ostream &strm) const;
};
} // namespace libdap
#endif // _dds_h