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ex_call_center.c

A more complex schema based on a call center example, showing how to map some SQL constructs onto the WiredTiger API.

/*-
* Public Domain 2014-present MongoDB, Inc.
* Public Domain 2008-2014 WiredTiger, Inc.
*
* This is free and unencumbered software released into the public domain.
*
* Anyone is free to copy, modify, publish, use, compile, sell, or
* distribute this software, either in source code form or as a compiled
* binary, for any purpose, commercial or non-commercial, and by any
* means.
*
* In jurisdictions that recognize copyright laws, the author or authors
* of this software dedicate any and all copyright interest in the
* software to the public domain. We make this dedication for the benefit
* of the public at large and to the detriment of our heirs and
* successors. We intend this dedication to be an overt act of
* relinquishment in perpetuity of all present and future rights to this
* software under copyright law.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
* IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR
* OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
* ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
* OTHER DEALINGS IN THE SOFTWARE.
*
* ex_call_center.c
* This is an example application that demonstrates how to map a
* moderately complex SQL application into WiredTiger.
*/
#include <test_util.h>
static const char *home;
/*
* In SQL, the tables are described as follows:
*
* CREATE TABLE Customers(id INTEGER PRIMARY KEY,
* name VARCHAR(30), address VARCHAR(50), phone VARCHAR(15))
* CREATE INDEX CustomersPhone ON Customers(phone)
*
* CREATE TABLE Calls(id INTEGER PRIMARY KEY, call_date DATE,
* cust_id INTEGER, emp_id INTEGER, call_type VARCHAR(12),
* notes VARCHAR(25))
* CREATE INDEX CallsCustDate ON Calls(cust_id, call_date)
*
* In this example, both tables will use record numbers for their IDs, which
* will be the key. The C structs for the records are as follows.
*/
/* Customer records. */
typedef struct {
uint64_t id;
const char *name;
const char *address;
const char *phone;
} CUSTOMER;
/* Call records. */
typedef struct {
uint64_t id;
uint64_t call_date;
uint64_t cust_id;
uint64_t emp_id;
const char *call_type;
const char *notes;
} CALL;
int
main(int argc, char *argv[])
{
int count, exact;
WT_SESSION *session;
WT_CURSOR *cursor;
CUSTOMER cust, *custp,
cust_sample[] = {{0, "Professor Oak", "LeafGreen Avenue", "123-456-7890"},
{0, "Lorelei", "Sevii Islands", "098-765-4321"}, {0, NULL, NULL, NULL}};
CALL call, *callp,
call_sample[] = {{0, 32, 1, 2, "billing", "unavailable"},
{0, 33, 1, 2, "billing", "available"}, {0, 34, 1, 2, "reminder", "unavailable"},
{0, 35, 1, 2, "reminder", "available"}, {0, 0, 0, 0, NULL, NULL}};
home = example_setup(argc, argv);
error_check(wiredtiger_open(home, NULL, "create", &conn));
error_check(conn->open_session(conn, NULL, NULL, &session));
/*
* Create the customers table, give names and types to the columns. The columns will be stored
* in two groups: "main" and "address", created below.
*/
error_check(session->create(session, "table:customers",
"key_format=r,value_format=SSS,columns=(id,name,address,phone),colgroups=(main,address)"));
/* Create the main column group with value columns except address. */
error_check(session->create(session, "colgroup:customers:main", "columns=(name,phone)"));
/* Create the address column group with just the address. */
error_check(session->create(session, "colgroup:customers:address", "columns=(address)"));
/* Create an index on the customer table by phone number. */
error_check(session->create(session, "index:customers:phone", "columns=(phone)"));
/* Populate the customers table with some data. */
error_check(session->open_cursor(session, "table:customers", NULL, "append", &cursor));
for (custp = cust_sample; custp->name != NULL; custp++) {
cursor->set_value(cursor, custp->name, custp->address, custp->phone);
error_check(cursor->insert(cursor));
}
error_check(cursor->close(cursor));
/*
* Create the calls table, give names and types to the columns. All the columns will be stored
* together, so no column groups are declared.
*/
error_check(session->create(session, "table:calls",
"key_format=r,value_format=qrrSS,columns=(id,call_date,cust_id,emp_id,call_type,notes)"));
/*
* Create an index on the calls table with a composite key of cust_id and call_date.
*/
error_check(session->create(session, "index:calls:cust_date", "columns=(cust_id,call_date)"));
/* Populate the calls table with some data. */
error_check(session->open_cursor(session, "table:calls", NULL, "append", &cursor));
for (callp = call_sample; callp->call_type != NULL; callp++) {
cursor->set_value(
cursor, callp->call_date, callp->cust_id, callp->emp_id, callp->call_type, callp->notes);
error_check(cursor->insert(cursor));
}
error_check(cursor->close(cursor));
/*
* First query: a call arrives. In SQL:
*
* SELECT id, name FROM Customers WHERE phone=?
*
* Use the cust_phone index, lookup by phone number to fill the customer record. The cursor will
* have a key format of "S" for a string because the cust_phone index has a single column
* ("phone"), which is of type "S".
*
* Specify the columns we want: the customer ID and the name. This means the cursor's value
* format will be "rS".
*/
error_check(
session->open_cursor(session, "index:customers:phone(id,name)", NULL, NULL, &cursor));
cursor->set_key(cursor, "123-456-7890");
error_check(cursor->search(cursor));
error_check(cursor->get_value(cursor, &cust.id, &cust.name));
printf("Read customer record for %s (ID %" PRIu64 ")\n", cust.name, cust.id);
error_check(cursor->close(cursor));
/*
* Next query: get the recent order history. In SQL:
*
* SELECT * FROM Calls WHERE cust_id=? ORDER BY call_date DESC LIMIT 3
*
* Use the call_cust_date index to find the matching calls. Since it is in increasing order by
* date for a given customer, we want to start with the last record for the customer and work
* backwards.
*
* Specify a subset of columns to be returned. (Note that if these were all covered by the
* index, the primary would not have to be accessed.) Stop after getting 3 records.
*/
error_check(session->open_cursor(
session, "index:calls:cust_date(cust_id,call_type,notes)", NULL, NULL, &cursor));
/*
* The keys in the index are (cust_id,call_date) -- we want the largest call date for a given
* cust_id. Search for (cust_id+1,0), then work backwards.
*/
cust.id = 1;
cursor->set_key(cursor, cust.id + 1, 0);
error_check(cursor->search_near(cursor, &exact));
/*
* If the table is empty, search_near will return WT_NOTFOUND, else the cursor will be
* positioned on a matching key if one exists, or an adjacent key if one does not. If the
* positioned key is equal to or larger than the search key, go back one.
*/
if (exact >= 0)
error_check(cursor->prev(cursor));
for (count = 0; count < 3; ++count) {
error_check(cursor->get_value(cursor, &call.cust_id, &call.call_type, &call.notes));
if (call.cust_id != cust.id)
break;
printf(
"Call record: customer %" PRIu64 " (%s: %s)\n", call.cust_id, call.call_type, call.notes);
error_check(cursor->prev(cursor));
}
error_check(conn->close(conn, NULL));
return (EXIT_SUCCESS);
}
WT_CURSOR::prev
int prev(WT_CURSOR *cursor)
Return the previous record.
WT_SESSION::create
int create(WT_SESSION *session, const char *name, const char *config)
Create a table, column group, index or file.
WT_SESSION::open_cursor
int open_cursor(WT_SESSION *session, const char *uri, WT_HANDLE_NULLABLE(WT_CURSOR) *to_dup, const char *config, WT_CURSOR **cursorp)
Open a new cursor on a data source or duplicate an existing cursor.
WT_CURSOR
A WT_CURSOR handle is the interface to a cursor.
Definition: wiredtiger.in:211
WT_CURSOR::search
int search(WT_CURSOR *cursor)
Return the record matching the key.
WT_CONNECTION::open_session
int open_session(WT_CONNECTION *connection, WT_EVENT_HANDLER *event_handler, const char *config, WT_SESSION **sessionp)
Open a session.
WT_CURSOR::close
int close(WT_HANDLE_CLOSED(WT_CURSOR) *cursor)
Close the cursor.
WT_CURSOR::get_value
int get_value(WT_CURSOR *cursor,...)
Get the value for the current record.
WT_CONNECTION
A connection to a WiredTiger database.
Definition: wiredtiger.in:1991
WT_CURSOR::search_near
int search_near(WT_CURSOR *cursor, int *exactp)
Return the record matching the key if it exists, or an adjacent record.
WT_CONNECTION::close
int close(WT_HANDLE_CLOSED(WT_CONNECTION) *connection, const char *config)
Close a connection.
WT_CURSOR::set_value
void set_value(WT_CURSOR *cursor,...)
Set the value for the next operation.
wiredtiger_open
int wiredtiger_open(const char *home, WT_EVENT_HANDLER *event_handler, const char *config, WT_CONNECTION **connectionp)
Open a connection to a database.
WT_CURSOR::set_key
void set_key(WT_CURSOR *cursor,...)
Set the key for the next operation.
WT_SESSION
All data operations are performed in the context of a WT_SESSION.
Definition: wiredtiger.in:761
WT_CURSOR::insert
int insert(WT_CURSOR *cursor)
Insert a record and optionally update an existing record.