;;;;
;;;; $Id$
;;;;
-;;;; The CLSQL Functional Data Manipulation Language (FDML).
+;;;; The CLSQL Functional Data Manipulation Language (FDML).
;;;;
;;;; This file is part of CLSQL.
;;;;
;;;; *************************************************************************
(in-package #:clsql-sys)
-
+
;;; Basic operations on databases
(defmethod database-query-result-set ((expr %sql-expression) database
(defmethod query ((query-expression string) &key (database *default-database*)
(result-types :auto) (flatp nil) (field-names t))
(record-sql-command query-expression database)
- (multiple-value-bind (rows names)
+ (multiple-value-bind (rows names)
(database-query query-expression database result-types field-names)
(let ((result (if (and flatp (= 1 (length (car rows))))
(mapcar #'car rows)
rows)))
(record-sql-result result database)
(if field-names
- (values result names)
- result))))
+ (values result names)
+ result))))
(defmethod query ((expr %sql-expression) &key (database *default-database*)
(result-types :auto) (flatp nil) (field-names t))
:result-types result-types :field-names field-names))
(defmethod query ((expr sql-object-query) &key (database *default-database*)
- (result-types :auto) (flatp nil) (field-names t))
+ (result-types :auto) (flatp nil) (field-names t))
(declare (ignore result-types field-names))
(apply #'select (append (slot-value expr 'objects)
- (slot-value expr 'exp)
- (when (slot-value expr 'refresh)
- (list :refresh (sql-output expr database)))
- (when (or flatp (slot-value expr 'flatp) )
- (list :flatp t))
- (list :database database))))
+ (slot-value expr 'exp)
+ (when (slot-value expr 'refresh)
+ (list :refresh (sql-output expr database)))
+ (when (or flatp (slot-value expr 'flatp) )
+ (list :flatp t))
+ (list :database database))))
(defun print-query (query-exp &key titles (formats t) (sizes t) (stream t)
- (database *default-database*))
+ (database *default-database*))
"Prints a tabular report of the results returned by the SQL
query QUERY-EXP, which may be a symbolic SQL expression or a
string, in DATABASE which defaults to *DEFAULT-DATABASE*. The
that ~A is used to format all columns or ~VA if column sizes are
used."
(flet ((compute-sizes (data)
- (mapcar #'(lambda (x)
- (apply #'max (mapcar #'(lambda (y)
+ (mapcar #'(lambda (x)
+ (apply #'max (mapcar #'(lambda (y)
(if (null y) 3 (length y)))
x)))
(apply #'mapcar (cons #'list data))))
(let* ((query-exp (etypecase query-exp
(string query-exp)
(sql-query (sql-output query-exp database))))
- (data (query query-exp :database database :result-types nil
+ (data (query query-exp :database database :result-types nil
:field-names nil))
- (sizes (if (or (null sizes) (listp sizes)) sizes
+ (sizes (if (or (null sizes) (listp sizes)) sizes
(compute-sizes (if titles (cons titles data) data))))
(formats (if (or (null formats) (not (listp formats)))
(make-list (length (car data)) :initial-element
(dolist (d data (values)) (format-record d control-string sizes)))))
(defun insert-records (&key (into nil)
- (attributes nil)
- (values nil)
- (av-pairs nil)
- (query nil)
- (database *default-database*))
+ (attributes nil)
+ (values nil)
+ (av-pairs nil)
+ (query nil)
+ (database *default-database*))
"Inserts records into the table specified by INTO in DATABASE
which defaults to *DEFAULT-DATABASE*. There are five ways of
specifying the values inserted into each row. In the first VALUES
SQL query expression which returns values for the specified
columns."
(let ((stmt (make-sql-insert :into into :attrs attributes
- :vals values :av-pairs av-pairs
- :subquery query)))
+ :vals values :av-pairs av-pairs
+ :subquery query)))
(execute-command stmt :database database)))
(defun make-sql-insert (&key (into nil)
- (attrs nil)
- (vals nil)
- (av-pairs nil)
- (subquery nil))
+ (attrs nil)
+ (vals nil)
+ (av-pairs nil)
+ (subquery nil))
(unless into
(error 'sql-user-error :message ":into keyword not supplied"))
(let ((insert (make-instance 'sql-insert :into into)))
(with-slots (attributes values query)
insert
+
(cond ((and vals (not attrs) (not query) (not av-pairs))
- (setf values vals))
- ((and vals attrs (not subquery) (not av-pairs))
- (setf attributes attrs)
- (setf values vals))
- ((and av-pairs (not vals) (not attrs) (not subquery))
- (setf attributes (mapcar #'car av-pairs))
- (setf values (mapcar #'cadr av-pairs)))
- ((and subquery (not vals) (not attrs) (not av-pairs))
- (setf query subquery))
- ((and subquery attrs (not vals) (not av-pairs))
- (setf attributes attrs)
- (setf query subquery))
- (t
- (error 'sql-user-error
+ (setf values vals))
+ ((and vals attrs (not subquery) (not av-pairs))
+ (setf attributes attrs)
+ (setf values vals))
+ ((and av-pairs (not vals) (not attrs) (not subquery))
+ (setf attributes (mapcar #'car av-pairs))
+ (setf values (mapcar #'cadr av-pairs)))
+ ((and subquery (not vals) (not attrs) (not av-pairs))
+ (setf query subquery))
+ ((and subquery attrs (not vals) (not av-pairs))
+ (setf attributes attrs)
+ (setf query subquery))
+ (t
+ (error 'sql-user-error
:message "bad or ambiguous keyword combination.")))
insert)))
-
+
(defun delete-records (&key (from nil)
(where nil)
(database *default-database*))
(execute-command stmt :database database)))
(defun update-records (table &key (attributes nil)
- (values nil)
- (av-pairs nil)
- (where nil)
- (database *default-database*))
+ (values nil)
+ (av-pairs nil)
+ (where nil)
+ (database *default-database*))
"Updates the attribute values of existing records satsifying
the SQL expression WHERE in the table specified by TABLE in
DATABASE which defaults to *DEFAULT-DATABASE*. There are three
(setf attributes (mapcar #'car av-pairs)
values (mapcar #'cadr av-pairs)))
(let ((stmt (make-instance 'sql-update :table table
- :attributes attributes
- :values values
- :where where)))
+ :attributes attributes
+ :values values
+ :where where)))
(execute-command stmt :database database)))
-;; output-sql
-
-(defmethod database-output-sql ((str string) database)
- (declare (ignore database)
- (optimize (speed 3) (safety 1) #+cmu (extensions:inhibit-warnings 3))
- (type (simple-array * (*)) str))
- (let ((len (length str)))
- (declare (type fixnum len))
- (cond ((zerop len)
- +empty-string+)
- ((and (null (position #\' str))
- (null (position #\\ str)))
- (concatenate 'string "'" str "'"))
- (t
- (let ((buf (make-string (+ (* len 2) 2) :initial-element #\')))
- (do* ((i 0 (incf i))
- (j 1 (incf j)))
- ((= i len) (subseq buf 0 (1+ j)))
- (declare (type fixnum i j))
- (let ((char (aref str i)))
- (declare (character char))
- (cond ((char= char #\')
- (setf (aref buf j) #\')
- (incf j)
- (setf (aref buf j) #\'))
- ((char= char #\\)
- (setf (aref buf j) #\\)
- (incf j)
- (setf (aref buf j) #\\))
- (t
- (setf (aref buf j) char))))))))))
-
-(let ((keyword-package (symbol-package :foo)))
- (defmethod database-output-sql ((sym symbol) database)
- (convert-to-db-default-case
- (if (equal (symbol-package sym) keyword-package)
- (concatenate 'string "'" (string sym) "'")
- (symbol-name sym))
- database)))
-
-(defmethod database-output-sql ((tee (eql t)) database)
- (declare (ignore database))
- "'Y'")
-
-(defmethod database-output-sql ((num number) database)
- (declare (ignore database))
- (princ-to-string num))
-
-(defmethod database-output-sql ((arg list) database)
- (if (null arg)
- "NULL"
- (format nil "(~{~A~^,~})" (mapcar #'(lambda (val)
- (sql-output val database))
- arg))))
-
-(defmethod database-output-sql ((arg vector) database)
- (format nil "~{~A~^,~}" (map 'list #'(lambda (val)
- (sql-output val database))
- arg)))
-
-(defmethod database-output-sql ((self wall-time) database)
- (declare (ignore database))
- (db-timestring self))
-
-(defmethod database-output-sql ((self duration) database)
- (declare (ignore database))
- (format nil "'~a'" (duration-timestring self)))
-
-(defmethod database-output-sql (thing database)
- (if (or (null thing)
- (eq 'null thing))
- "NULL"
- (error 'sql-user-error
- :message
- (format nil
- "No type conversion to SQL for ~A is defined for DB ~A."
- (type-of thing) (type-of database)))))
-
-
-(defmethod output-sql-hash-key ((arg vector) database)
- (list 'vector (map 'list (lambda (arg)
- (or (output-sql-hash-key arg database)
- (return-from output-sql-hash-key nil)))
- arg)))
-
-(defmethod output-sql (expr database)
- (write-string (database-output-sql expr database) *sql-stream*)
- (values))
-
-(defmethod output-sql ((expr list) database)
- (if (null expr)
- (write-string +null-string+ *sql-stream*)
- (progn
- (write-char #\( *sql-stream*)
- (do ((item expr (cdr item)))
- ((null (cdr item))
- (output-sql (car item) database))
- (output-sql (car item) database)
- (write-char #\, *sql-stream*))
- (write-char #\) *sql-stream*)))
- t)
-
-#+nil
-(defmethod add-storage-class ((self database) (class symbol) &key (sequence t))
- (let ((tablename (view-table (find-class class))))
- (unless (tablep tablename)
- (create-view-from-class class)
- (when sequence
- (create-sequence-from-class class)))))
-
-
;;; Iteration
(defmacro do-query (((&rest args) query-expression
- &key (database '*default-database*) (result-types :auto))
- &body body)
+ &key (database '*default-database*) (result-types :auto))
+ &body body)
"Repeatedly executes BODY within a binding of ARGS on the
fields of each row selected by the SQL query QUERY-EXPRESSION,
which may be a string or a symbolic SQL expression, in DATABASE
as strings whereas the default value of :auto means that the lisp
types are automatically computed for each field."
(let ((result-set (gensym "RESULT-SET-"))
- (qe (gensym "QUERY-EXPRESSION-"))
- (columns (gensym "COLUMNS-"))
- (row (gensym "ROW-"))
- (db (gensym "DB-")))
+ (qe (gensym "QUERY-EXPRESSION-"))
+ (columns (gensym "COLUMNS-"))
+ (row (gensym "ROW-"))
+ (db (gensym "DB-")))
`(let ((,qe ,query-expression))
(typecase ,qe
- (sql-object-query
+ (sql-object-query
(dolist (,row (query ,qe))
- (destructuring-bind ,args
+ (destructuring-bind ,args
,row
,@body)))
- (t
- ;; Functional query
- (let ((,db ,database))
- (multiple-value-bind (,result-set ,columns)
- (database-query-result-set ,qe ,db
- :full-set nil
- :result-types ,result-types)
- (when ,result-set
- (unwind-protect
- (do ((,row (make-list ,columns)))
- ((not (database-store-next-row ,result-set ,db ,row))
- nil)
- (destructuring-bind ,args ,row
- ,@body))
- (database-dump-result-set ,result-set ,db))))))))))
+ (t
+ ;; Functional query
+ (let ((,db ,database))
+ (multiple-value-bind (,result-set ,columns)
+ (database-query-result-set ,qe ,db
+ :full-set nil
+ :result-types ,result-types)
+ (when ,result-set
+ (unwind-protect
+ (do ((,row (make-list ,columns)))
+ ((not (database-store-next-row ,result-set ,db ,row))
+ nil)
+ (destructuring-bind ,args ,row
+ ,@body))
+ (database-dump-result-set ,result-set ,db))))))))))
(defun map-query (output-type-spec function query-expression
- &key (database *default-database*)
- (result-types :auto))
+ &key (database *default-database*)
+ (result-types :auto))
"Map the function FUNCTION over the attribute values of each
row selected by the SQL query QUERY-EXPRESSION, which may be a
string or a symbolic SQL expression, in DATABASE which defaults
(typecase query-expression
(sql-object-query
(map output-type-spec #'(lambda (x) (apply function x))
- (query query-expression)))
+ (query query-expression)))
(t
- ;; Functional query
+ ;; Functional query
(macrolet ((type-specifier-atom (type)
- `(if (atom ,type) ,type (car ,type))))
+ `(if (atom ,type) ,type (car ,type))))
(case (type-specifier-atom output-type-spec)
- ((nil)
- (map-query-for-effect function query-expression database
- result-types))
- (list
- (map-query-to-list function query-expression database result-types))
- ((simple-vector simple-string vector string array simple-array
- bit-vector simple-bit-vector base-string
- simple-base-string)
- (map-query-to-simple output-type-spec function query-expression
- database result-types))
- (t
- (funcall #'map-query
- (cmucl-compat:result-type-or-lose output-type-spec t)
- function query-expression :database database
- :result-types result-types)))))))
-
+ ((nil)
+ (map-query-for-effect function query-expression database
+ result-types))
+ (list
+ (map-query-to-list function query-expression database result-types))
+ ((simple-vector simple-string vector string array simple-array
+ bit-vector simple-bit-vector base-string
+ simple-base-string)
+ (map-query-to-simple output-type-spec function query-expression
+ database result-types))
+ (t
+ (funcall #'map-query
+ (cmucl-compat:result-type-or-lose output-type-spec t)
+ function query-expression :database database
+ :result-types result-types)))))))
+
(defun map-query-for-effect (function query-expression database result-types)
(multiple-value-bind (result-set columns)
(database-query-result-set query-expression database :full-set nil
- :result-types result-types)
- (let ((flatp (and (= columns 1)
- (typep query-expression 'sql-query)
- (slot-value query-expression 'flatp))))
+ :result-types result-types)
+ (let ((flatp (and (= columns 1)
+ (typep query-expression 'sql-query)
+ (slot-value query-expression 'flatp))))
(when result-set
(unwind-protect
(do ((row (make-list columns)))
(apply function row)
(funcall function row)))
(database-dump-result-set result-set database))))))
-
+
(defun map-query-to-list (function query-expression database result-types)
(multiple-value-bind (result-set columns)
(database-query-result-set query-expression database :full-set nil
- :result-types result-types)
- (let ((flatp (and (= columns 1)
- (typep query-expression 'sql-query)
- (slot-value query-expression 'flatp))))
+ :result-types result-types)
+ (let ((flatp (and (= columns 1)
+ (typep query-expression 'sql-query)
+ (slot-value query-expression 'flatp))))
(when result-set
(unwind-protect
(let ((result (list nil)))
(current-cons result (cdr current-cons)))
((not (database-store-next-row result-set database row))
(cdr result))
- (rplacd current-cons
- (list (if flatp
+ (rplacd current-cons
+ (list (if flatp
(apply function row)
(funcall function (copy-list row)))))))
(database-dump-result-set result-set database))))))
(defun map-query-to-simple (output-type-spec function query-expression database result-types)
(multiple-value-bind (result-set columns rows)
(database-query-result-set query-expression database :full-set t
- :result-types result-types)
- (let ((flatp (and (= columns 1)
- (typep query-expression 'sql-query)
- (slot-value query-expression 'flatp))))
+ :result-types result-types)
+ (let ((flatp (and (= columns 1)
+ (typep query-expression 'sql-query)
+ (slot-value query-expression 'flatp))))
(when result-set
(unwind-protect
(if rows
result)
(declare (fixnum index))
(setf (aref result index)
- (if flatp
+ (if flatp
(apply function row)
(funcall function (copy-list row)))))
;; Database can't report row count in advance, so we have
(setq allocated-length (* allocated-length 2)
result (adjust-array result allocated-length)))
(setf (aref result index)
- (if flatp
+ (if flatp
(apply function row)
(funcall function (copy-list row))))))
(database-dump-result-set result-set database))))))
(defmacro for-each-row (((&rest fields) &key from order-by where distinct limit)
&body body)
(let ((d (gensym "DISTINCT-"))
- (bind-fields (loop for f in fields collect (car f)))
- (w (gensym "WHERE-"))
- (o (gensym "ORDER-BY-"))
- (frm (gensym "FROM-"))
- (l (gensym "LIMIT-"))
- (q (gensym "QUERY-")))
+ (bind-fields (loop for f in fields collect (car f)))
+ (w (gensym "WHERE-"))
+ (o (gensym "ORDER-BY-"))
+ (frm (gensym "FROM-"))
+ (l (gensym "LIMIT-"))
+ (q (gensym "QUERY-")))
`(let ((,frm ,from)
- (,w ,where)
- (,d ,distinct)
- (,l ,limit)
- (,o ,order-by))
+ (,w ,where)
+ (,d ,distinct)
+ (,l ,limit)
+ (,o ,order-by))
(let ((,q (query-string ',fields ,frm ,w ,d ,o ,l)))
- (loop for tuple in (query ,q)
- collect (destructuring-bind ,bind-fields tuple
- ,@body))))))
+ (loop for tuple in (query ,q)
+ collect (destructuring-bind ,bind-fields tuple
+ ,@body))))))
(defun query-string (fields from where distinct order-by limit)
(concatenate
'string
- (format nil "select ~A~{~A~^,~} from ~{~A~^ and ~}"
- (if distinct "distinct " "") (field-names fields)
- (from-names from))
+ (format nil "select ~A~{~A~^,~} from ~{~A~^ and ~}"
+ (if distinct "distinct " "") (field-names fields)
+ (from-names from))
(if where (format nil " where ~{~A~^ ~}"
- (where-strings where)) "")
+ (where-strings where)) "")
(if order-by (format nil " order by ~{~A~^, ~}"
- (order-by-strings order-by)))
+ (order-by-strings order-by)))
(if limit (format nil " limit ~D" limit) "")))
(defun lisp->sql-name (field)
(defun field-names (field-forms)
"Return a list of field name strings from a fields form"
(loop for field-form in field-forms
- collect
- (lisp->sql-name
- (if (cadr field-form)
- (cadr field-form)
- (car field-form)))))
+ collect
+ (lisp->sql-name
+ (if (cadr field-form)
+ (cadr field-form)
+ (car field-form)))))
(defun from-names (from)
"Return a list of field name strings from a fields form"
(loop for table in (if (atom from) (list from) from)
- collect (lisp->sql-name table)))
+ collect (lisp->sql-name table)))
(defun where-strings (where)
(loop for w in (if (atom (car where)) (list where) where)
- collect
- (if (consp w)
- (format nil "~A ~A ~A" (second w) (first w) (third w))
- (format nil "~A" w))))
+ collect
+ (if (consp w)
+ (format nil "~A ~A ~A" (second w) (first w) (third w))
+ (format nil "~A" w))))
(defun order-by-strings (order-by)
(loop for o in order-by
- collect
- (if (atom o)
- (lisp->sql-name o)
- (format nil "~A ~A" (lisp->sql-name (car o))
- (lisp->sql-name (cadr o))))))
+ collect
+ (if (atom o)
+ (lisp->sql-name o)
+ (format nil "~A ~A" (lisp->sql-name (car o))
+ (lisp->sql-name (cadr o))))))
;;; Large objects support
:int
:double
:null
+ (:blob n)
(:string n)
"
(unless (db-type-has-prepared-stmt? (database-type database))
- (error 'sql-user-error
- :message
- (format nil
- "Database backend type ~:@(~A~) does not support prepared statements."
- (database-type database))))
+ (error 'sql-user-error
+ :message
+ (format nil
+ "Database backend type ~:@(~A~) does not support prepared statements."
+ (database-type database))))
(database-prepare sql-stmt types database result-types field-names))