(defvar *sql-stream* nil
"stream which accumulates SQL output")
+(defclass %database-identifier ()
+ ((escaped :accessor escaped :initarg :escaped :initform nil)
+ (unescaped :accessor unescaped :initarg :unescaped :initform nil))
+ (:documentation
+ "A database identifier represents a string/symbol ready to be spliced
+ into a sql string. It keeps references to both the escaped and
+ unescaped versions so that unescaped versions can be compared to the
+ results of list-tables/views/attributes etc. It also allows you to be
+ sure that an identifier is escaped only once.
+
+ (escaped-database-identifiers *any-reasonable-object*) should be called to
+ produce a string that is safe to splice directly into sql strings.
+
+ (unescaped-database-identifier *any-reasonable-object*) is generally what
+ you pass to it with the exception that symbols have been
+ clsql-sys:sql-escape which converts to a string and changes - to _ (so
+ that unescaped can be compared to the results of eg: list-tables)
+ "))
+
+(defmethod escaped ((it null)) it)
+(defmethod unescaped ((it null)) it)
+
+(defun database-identifier-equal (i1 i2 &optional (database clsql-sys:*default-database*))
+ (setf i1 (database-identifier i1 database)
+ i2 (database-identifier i2 database))
+ (flet ((cast (i)
+ (if (symbolp (unescaped i))
+ (sql-escape (unescaped i))
+ (unescaped i))))
+ (or ;; check for an exact match
+ (equal (escaped-database-identifier i1)
+ (escaped-database-identifier i2))
+ ;; check for an inexact match if we had symbols in the mix
+ (string-equal (cast i1) (cast i2)))))
+
+(defun delistify-dsd (list)
+ "Some MOPs, like openmcl 0.14.2, cons attribute values in a list."
+ (if (and (listp list) (null (cdr list)))
+ (car list)
+ list))
+
+(defun special-char-p (s)
+ "Check if a string has any special characters"
+ (loop for char across s
+ thereis (find char '(#\space #\, #\. #\! #\@ #\# #\$ #\% #\' #\"
+ #\^ #\& #\* #\| #\( #\) #\- #\+ #\< #\>
+ #\{ #\}))))
+
+(defun special-cased-symbol-p (sym)
+ "Should the symbols case be preserved, or should we convert to default casing"
+ (let ((name (symbol-name sym)))
+ (case (readtable-case *readtable*)
+ (:upcase (not (string= (string-upcase name) name)))
+ (:downcase (not (string= (string-downcase name) name)))
+ (t t))))
+
+(defun %make-database-identifier (inp &optional database)
+ "We want to quote an identifier if it came to us as a string or if it has special characters
+ in it."
+ (labels ((%escape-identifier (inp &optional orig)
+ "Quote an identifier unless it is already quoted"
+ (cond
+ ;; already quoted
+ ((and (eql #\" (elt inp 0))
+ (eql #\" (elt inp (- (length inp) 1))))
+ (make-instance '%database-identifier :unescaped (or orig inp) :escaped inp))
+ (T (make-instance
+ '%database-identifier :unescaped (or orig inp) :escaped
+ (concatenate
+ 'string "\"" (replace-all inp "\"" "\\\"") "\""))))))
+ (typecase inp
+ (string (%escape-identifier inp))
+ (%database-identifier inp)
+ (symbol
+ (let ((s (sql-escape inp)))
+ (if (and (not (eql '* inp)) (special-char-p s))
+ (%escape-identifier
+ (if (special-cased-symbol-p inp)
+ s
+ (convert-to-db-default-case s database)) inp)
+ (make-instance '%database-identifier :escaped s :unescaped inp))
+ )))))
+
+(defun combine-database-identifiers (ids &optional (database clsql-sys:*default-database*)
+ &aux res all-sym? pkg)
+ "Create a new database identifier by combining parts in a reasonable way
+ "
+ (setf ids (mapcar #'database-identifier ids)
+ all-sym? (every (lambda (i) (symbolp (unescaped i))) ids)
+ pkg (when all-sym? (symbol-package (unescaped (first ids)))))
+ (labels ((cast ( i )
+ (typecase i
+ (null nil)
+ (%database-identifier (cast (unescaped i)))
+ (symbol
+ (if all-sym?
+ (sql-escape i)
+ (convert-to-db-default-case (sql-escape i) database)))
+ (string i)))
+ (comb (i1 i2)
+ (setf i1 (cast i1)
+ i2 (cast i2))
+ (if (and i1 i2)
+ (concatenate 'string (cast i1) "_" (cast i2))
+ (or i1 i2))))
+ (setf res (reduce #'comb ids))
+ (database-identifier
+ (if all-sym? (intern res pkg) res)
+ database)))
+
+(defun escaped-database-identifier (name &optional database find-class-p)
+ (escaped (database-identifier name database find-class-p)))
+
+(defun unescaped-database-identifier (name &optional database find-class-p)
+ (unescaped (database-identifier name database find-class-p)))
+
(defun sql-output (sql-expr &optional (database *default-database*))
"Top-level call for generating SQL strings. Returns an SQL
string appropriate for DATABASE which corresponds to the
supplied lisp expression SQL-EXPR."
- (progv '(*sql-stream*)
- `(,(make-string-output-stream))
- (output-sql sql-expr database)
- (get-output-stream-string *sql-stream*)))
+ (with-output-to-string (*sql-stream*)
+ (output-sql sql-expr database)))
(defmethod output-sql (expr database)
(write-string (database-output-sql expr database) *sql-stream*)
(values))
-(defvar *output-hash* (make-hash-table :test #'equal)
- "For caching generated SQL strings.")
+
+(defvar *output-hash*
+ (make-weak-hash-table :test #'equal)
+ "For caching generated SQL strings, set to NIL to disable."
+ )
(defmethod output-sql :around ((sql t) database)
- (let* ((hash-key (output-sql-hash-key sql database))
- (hash-value (when hash-key (gethash hash-key *output-hash*))))
- (cond ((and hash-key hash-value)
- (write-string hash-value *sql-stream*))
- (hash-key
- (let ((*sql-stream* (make-string-output-stream)))
- (call-next-method)
- (setf hash-value (get-output-stream-string *sql-stream*))
- (setf (gethash hash-key *output-hash*) hash-value))
- (write-string hash-value *sql-stream*))
- (t
- (call-next-method)))))
+ (if (null *output-hash*)
+ (call-next-method)
+ (let* ((hash-key (output-sql-hash-key sql database))
+ (hash-value (when hash-key (gethash hash-key *output-hash*))))
+ (cond ((and hash-key hash-value)
+ (write-string hash-value *sql-stream*))
+ (hash-key
+ (let ((*sql-stream* (make-string-output-stream)))
+ (call-next-method)
+ (setf hash-value (get-output-stream-string *sql-stream*))
+ (setf (gethash hash-key *output-hash*) hash-value))
+ (write-string hash-value *sql-stream*))
+ (t
+ (call-next-method))))))
(defmethod output-sql-hash-key (expr database)
(declare (ignore expr database))
sql
`(make-instance 'sql-ident :name ',name)))
+(defmethod output-sql ((expr %database-identifier) database)
+ (write-string (escaped expr) *sql-stream*))
+
(defmethod output-sql ((expr sql-ident) database)
(with-slots (name) expr
- (write-string
- (etypecase name
- (string name)
- (symbol (symbol-name name)))
- *sql-stream*))
+ (write-string (escaped-database-identifier name database) *sql-stream*))
t)
;; For SQL Identifiers for attributes
(declare (ignore sql))
nil)
+(defmethod collect-table-refs ((sql list))
+ (loop for i in sql
+ appending (listify (collect-table-refs i))))
+
(defmethod collect-table-refs ((sql sql-ident-attribute))
(let ((qual (slot-value sql 'qualifier)))
(when qual
- (list (make-instance 'sql-ident-table :name qual)))))
+ ;; going to be used as a table, search classes
+ (list (make-instance
+ 'sql-ident-table
+ :name (database-identifier qual nil t))))))
(defmethod make-load-form ((sql sql-ident-attribute) &optional environment)
(declare (ignore environment))
:qualifier ',qualifier
:type ',type)))
-(defmethod output-sql ((expr sql-ident-attribute) database)
- (with-slots (qualifier name type) expr
- (if (and (not qualifier) (not type))
- (etypecase name
- (string
- (write-string name *sql-stream*))
- (symbol
- (write-string
- (sql-escape (symbol-name name)) *sql-stream*)))
-
- ;;; KMR: The TYPE field is used by CommonSQL for type conversion -- it
- ;;; should not be output in SQL statements
- #+ignore
- (format *sql-stream* "~@[~A.~]~A~@[ ~A~]"
- (when qualifier
- (sql-escape qualifier))
- (sql-escape name)
- (when type
- (symbol-name type)))
- (format *sql-stream* "~@[~A.~]~A"
- (when qualifier
- (typecase qualifier
- (string (format nil "~s" qualifier))
- (t (sql-escape qualifier))))
- (typecase name
- (string (format nil "~s" (sql-escape name)))
- (t (sql-escape name)))))
- t))
-
(defmethod output-sql-hash-key ((expr sql-ident-attribute) database)
(with-slots (qualifier name type)
expr
(list (and database (database-underlying-type database))
- 'sql-ident-attribute qualifier name type)))
+ 'sql-ident-attribute
+ (unescaped-database-identifier qualifier)
+ (unescaped-database-identifier name) type)))
;; For SQL Identifiers for tables
sql
`(make-instance 'sql-ident-table :name ',name :table-alias ',alias)))
+(defmethod collect-table-refs ((sql sql-ident-table))
+ (list sql))
+
(defmethod output-sql ((expr sql-ident-table) database)
(with-slots (name alias) expr
- (etypecase name
- (string
- (format *sql-stream* "~s" (sql-escape name)))
- (symbol
- (write-string (sql-escape name) *sql-stream*)))
- (when alias
- (format *sql-stream* " ~s" alias)))
+ (flet ((p (s) ;; the etypecase is in sql-escape too
+ (write-string
+ (escaped-database-identifier s database)
+ *sql-stream*)))
+ (p name)
+ (when alias
+ (princ #\space *sql-stream*)
+ (p alias))))
t)
+(defmethod output-sql ((expr sql-ident-attribute) database)
+;;; KMR: The TYPE field is used by CommonSQL for type conversion -- it
+;;; should not be output in SQL statements
+ (let ((*print-pretty* nil))
+ (with-slots (qualifier name type) expr
+ (format *sql-stream* "~@[~a.~]~a"
+ (when qualifier
+ ;; check for classes
+ (escaped-database-identifier qualifier database T))
+ (escaped-database-identifier name database))
+ t)))
+
(defmethod output-sql-hash-key ((expr sql-ident-table) database)
(with-slots (name alias)
expr
(list (and database (database-underlying-type database))
- 'sql-ident-table name alias)))
+ 'sql-ident-table
+ (unescaped-database-identifier name)
+ (unescaped-database-identifier alias))))
(defclass sql-relational-exp (%sql-expression)
((operator
(dolist (exp (slot-value sql 'sub-expressions))
(let ((refs (collect-table-refs exp)))
(if refs (setf tabs (append refs tabs)))))
- (remove-duplicates tabs
- :test (lambda (tab1 tab2)
- (equal (slot-value tab1 'name)
- (slot-value tab2 'name))))))
+ (remove-duplicates tabs :test #'database-identifier-equal)))
;; Write SQL for relational operators (like 'AND' and 'OR').
;; should do arity checking of subexpressions
+(defun %write-operator (operator database)
+ (typecase operator
+ (string (write-string operator *sql-stream*))
+ (symbol (write-string (symbol-name operator) *sql-stream*))
+ (T (output-sql operator database))))
+
(defmethod output-sql ((expr sql-relational-exp) database)
(with-slots (operator sub-expressions) expr
;; we do this as two runs so as not to emit confusing superflous parentheses
(loop for str-sub in (rest str-subs)
do
(write-char #\Space *sql-stream*)
- (output-sql operator database)
+ ;; do this so that symbols can be output as database identifiers
+ ;; rather than allowing symbols to inject sql
+ (%write-operator operator database)
(write-char #\Space *sql-stream*)
(write-string str-sub *sql-stream*))
(write-char #\) *sql-stream*))
((null (cdr sub)) (output-sql (car sub) database))
(output-sql (car sub) database)
(write-char #\Space *sql-stream*)
- (output-sql operator database)
+ (%write-operator operator database)
(write-char #\Space *sql-stream*)))
t)
(dolist (exp (slot-value sql 'components))
(let ((refs (collect-table-refs exp)))
(if refs (setf tabs (append refs tabs)))))
- (remove-duplicates tabs
- :test (lambda (tab1 tab2)
- (equal (slot-value tab1 'name)
- (slot-value tab2 'name)))))
+ (remove-duplicates tabs :test #'database-identifier-equal))
nil)))
(if modifier
(progn
(write-char #\( *sql-stream*)
- (output-sql modifier database)
+ (cond
+ ((sql-operator modifier)
+ (%write-operator modifier database))
+ ((or (stringp modifier) (symbolp modifier))
+ (write-string
+ (escaped-database-identifier modifier)
+ *sql-stream*))
+ (t (output-sql modifier database)))
(write-char #\Space *sql-stream*)
(output-sql components database)
(write-char #\) *sql-stream*))
(dolist (exp (slot-value sql 'args))
(let ((refs (collect-table-refs exp)))
(if refs (setf tabs (append refs tabs)))))
- (remove-duplicates tabs
- :test (lambda (tab1 tab2)
- (equal (slot-value tab1 'name)
- (slot-value tab2 'name))))))
+ (remove-duplicates tabs :test #'database-identifier-equal)))
(defvar *in-subselect* nil)
(defmethod output-sql ((expr sql-function-exp) database)
(with-slots (name args)
expr
- (output-sql name database)
+ (typecase name
+ ((or string symbol)
+ (write-string (escaped-database-identifier name) *sql-stream*))
+ (t (output-sql name database)))
(let ((*in-subselect* nil)) ;; aboid double parens
(when args (output-sql args database))))
t)
(defmethod output-sql ((expr sql-query-modifier-exp) database)
(with-slots (modifier components)
expr
- (output-sql modifier database)
+ (%write-operator modifier database)
(write-string " " *sql-stream*)
- (output-sql (car components) database)
+ (%write-operator (car components) database)
(when components
(mapc #'(lambda (comp)
(write-string ", " *sql-stream*)
(dolist (exp (slot-value sql 'sub-expressions))
(let ((refs (collect-table-refs exp)))
(if refs (setf tabs (append refs tabs)))))
- (remove-duplicates tabs
- :test (lambda (tab1 tab2)
- (equal (slot-value tab1 'name)
- (slot-value tab2 'name))))))
+ (remove-duplicates tabs :test #'database-identifier-equal)))
(defmethod output-sql ((expr sql-set-exp) database)
(with-slots (operator sub-expressions)
(car sub-expressions)
sub-expressions)))
(when (= (length subs) 1)
- (output-sql operator database)
+ (%write-operator operator database)
(write-char #\Space *sql-stream*))
(do ((sub subs (cdr sub)))
((null (cdr sub)) (output-sql (car sub) database))
(output-sql (car sub) database)
(write-char #\Space *sql-stream*)
- (output-sql operator database)
+ (%write-operator operator database)
(write-char #\Space *sql-stream*))))
t)
:initform nil)))
(defmethod collect-table-refs ((sql sql-query))
- (remove-duplicates (collect-table-refs (slot-value sql 'where))
- :test (lambda (tab1 tab2)
- (equal (slot-value tab1 'name)
- (slot-value tab2 'name)))))
+ (remove-duplicates
+ (collect-table-refs (slot-value sql 'where))
+ :test #'database-identifier-equal))
(defvar *select-arguments*
'(:all :database :distinct :flatp :from :group-by :having :order-by
:group-by group-by :having having :order-by order-by
:inner-join inner-join :on on))))))
+(defun output-sql-where-clause (where database)
+ "ensure that we do not output a \"where\" sql keyword when we will
+ not output a clause. Also sets *in-subselect* to use SQL
+ parentheticals as needed."
+ (when where
+ (let ((where-out (string-trim
+ '(#\newline #\space #\tab #\return)
+ (with-output-to-string (*sql-stream*)
+ (let ((*in-subselect* t))
+ (output-sql where database))))))
+ (when (> (length where-out) 0)
+ (write-string " WHERE " *sql-stream*)
+ (write-string where-out *sql-stream*)))))
+
(defmethod output-sql ((query sql-query) database)
(with-slots (distinct selections from where group-by having order-by
limit offset inner-join on all set-operation)
(write-string "(" *sql-stream*))
(write-string "SELECT " *sql-stream*)
(when all
- (write-string "ALL " *sql-stream*))
+ (write-string " ALL " *sql-stream*))
(when (and distinct (not all))
- (write-string "DISTINCT " *sql-stream*)
+ (write-string " DISTINCT " *sql-stream*)
(unless (eql t distinct)
- (write-string "ON " *sql-stream*)
+ (write-string " ON " *sql-stream*)
(output-sql distinct database)
(write-char #\Space *sql-stream*)))
+ (when (and limit (eql :mssql (database-underlying-type database)))
+ (write-string " TOP " *sql-stream*)
+ (output-sql limit database)
+ (write-string " " *sql-stream*))
(let ((*in-subselect* t))
(output-sql (apply #'vector selections) database))
(when from
(write-string " FROM " *sql-stream*)
- (flet ((ident-table-equal (a b)
- (and (if (and (eql (type-of a) 'sql-ident-table)
- (eql (type-of b) 'sql-ident-table))
- (string-equal (slot-value a 'alias)
- (slot-value b 'alias))
- t)
- (string-equal (sql-escape (slot-value a 'name))
- (sql-escape (slot-value b 'name))))))
- (typecase from
- (list (output-sql (apply #'vector
- (remove-duplicates from
- :test #'ident-table-equal))
- database))
- (string (format *sql-stream* "~s" (sql-escape from)))
- (t (let ((*in-subselect* t))
- (output-sql from database))))))
+ (typecase from
+ (list (output-sql
+ (apply #'vector
+ (remove-duplicates from :test #'database-identifier-equal))
+ database))
+ (string (write-string
+ (escaped-database-identifier from database)
+ *sql-stream*))
+ (t (let ((*in-subselect* t))
+ (output-sql from database)))))
(when inner-join
(write-string " INNER JOIN " *sql-stream*)
(output-sql inner-join database))
(when on
(write-string " ON " *sql-stream*)
(output-sql on database))
- (when where
- (write-string " WHERE " *sql-stream*)
- (let ((*in-subselect* t))
- (output-sql where database)))
+ (output-sql-where-clause where database)
(when group-by
(write-string " GROUP BY " *sql-stream*)
(if (listp group-by)
(when (cdr order)
(write-char #\, *sql-stream*))))
(output-sql order-by database)))
- (when limit
+ (when (and limit (not (eql :mssql (database-underlying-type database))))
(write-string " LIMIT " *sql-stream*)
(output-sql limit database))
(when offset
(output-sql attributes database))
(when values
(write-string " VALUES " *sql-stream*)
- (output-sql values database))
+ (let ((clsql-sys::*in-subselect* t))
+ (output-sql values database)))
(when query
(write-char #\Space *sql-stream*)
(output-sql query database)))
(typecase from
((or symbol string) (write-string (sql-escape from) *sql-stream*))
(t (output-sql from database)))
- (when where
- (write-string " WHERE " *sql-stream*)
- (output-sql where database)))
+ (output-sql-where-clause where database))
t)
;; UPDATE
(write-string "UPDATE " *sql-stream*)
(output-sql table database)
(write-string " SET " *sql-stream*)
- (output-sql (apply #'vector (update-assignments)) database)
- (when where
- (write-string " WHERE " *sql-stream*)
- (output-sql where database))))
+ (let ((clsql-sys::*in-subselect* t))
+ (output-sql (apply #'vector (update-assignments)) database))
+ (output-sql-where-clause where database)))
t)
;; CREATE TABLE
(declaim (inline listify))
(defun listify (x)
- (if (atom x)
- (list x)
- x))
+ (if (listp x)
+ x
+ (list x)))
(defmethod output-sql ((stmt sql-create-table) database)
(flet ((output-column (column-spec)
(with-slots (name columns modifiers transactions)
stmt
(write-string "CREATE TABLE " *sql-stream*)
- (etypecase name
- (string (format *sql-stream* "~s" (sql-escape name)))
- (symbol (write-string (sql-escape name) *sql-stream*))
- (sql-ident (output-sql name database)))
+ (write-string (escaped-database-identifier name database) *sql-stream*)
(write-string " (" *sql-stream*)
(do ((column columns (cdr column)))
((null (cdr column))
(when (and (eq :mysql (database-underlying-type database))
transactions
(db-type-transaction-capable? :mysql database))
- (write-string " Type=InnoDB" *sql-stream*))))
+ (write-string " ENGINE=innodb" *sql-stream*))))
t)
(defmethod database-output-sql ((sym symbol) database)
(if (null sym)
+null-string+
- (if (equal (symbol-package sym) keyword-package)
- (concatenate 'string "'" (string sym) "'")
- (symbol-name sym)))))
+ (if (equal (symbol-package sym) keyword-package)
+ (database-output-sql (symbol-name sym) database)
+ (escaped-database-identifier sym)))))
(defmethod database-output-sql ((tee (eql t)) database)
(if database
;;
;; Column constraint types and conversion to SQL
;;
-
-(defparameter *constraint-types*
- (list
- (cons (symbol-name-default-case "NOT-NULL") "NOT NULL")
- (cons (symbol-name-default-case "PRIMARY-KEY") "PRIMARY KEY")
- (cons (symbol-name-default-case "NOT") "NOT")
- (cons (symbol-name-default-case "NULL") "NULL")
- (cons (symbol-name-default-case "PRIMARY") "PRIMARY")
- (cons (symbol-name-default-case "KEY") "KEY")
- (cons (symbol-name-default-case "UNSIGNED") "UNSIGNED")
- (cons (symbol-name-default-case "ZEROFILL") "ZEROFILL")
- (cons (symbol-name-default-case "AUTO-INCREMENT") "AUTO_INCREMENT")
- (cons (symbol-name-default-case "UNIQUE") "UNIQUE")))
-
(defmethod database-constraint-statement (constraint-list database)
- (declare (ignore database))
- (make-constraints-description constraint-list))
-
-(defun make-constraints-description (constraint-list)
- (if constraint-list
- (let ((string ""))
- (do ((constraint constraint-list (cdr constraint)))
- ((null constraint) string)
- (let ((output (assoc (symbol-name (car constraint))
- *constraint-types*
- :test #'equal)))
- (if (null output)
- (error 'sql-user-error
- :message (format nil "unsupported column constraint '~A'"
- constraint))
- (setq string (concatenate 'string string (cdr output))))
- (if (< 1 (length constraint))
- (setq string (concatenate 'string string " "))))))))
+ (make-constraints-description constraint-list database))
+
+;; KEEP THIS SYNCED WITH database-translate-constraint
+(defparameter +auto-increment-names+
+ '(:auto-increment :auto_increment :autoincrement :identity))
+
+(defmethod database-translate-constraint (constraint database)
+ (case constraint
+ (:not-null "NOT NULL")
+ (:primary-key "PRIMARY KEY")
+ ((:auto-increment :auto_increment :autoincrement :identity)
+ (ecase (database-underlying-type database)
+ (:mssql "IDENTITY (1,1)")
+ ((:sqlite :sqlite3) "PRIMARY KEY AUTOINCREMENT")
+ (:mysql "AUTO_INCREMENT")))
+ ;; everything else just get the name
+ (T (string-upcase (symbol-name constraint)))))
+
+(defun make-constraints-description (constraint-list database
+ &aux (rest constraint-list) constraint)
+ (when constraint-list
+ (flet ((next ()
+ (setf constraint (first rest)
+ rest (rest rest))
+ constraint))
+ (with-output-to-string (s)
+ (loop while (next)
+ do (unless (keywordp constraint)
+ (setf constraint (intern (symbol-name constraint) :keyword)))
+ (write-string (database-translate-constraint constraint database) s)
+ (when (eql :default constraint) (princ (next) s))
+ (write-char #\space s)
+ )))))
+
+(defmethod database-identifier ( name &optional database find-class-p
+ &aux cls)
+ "A function that takes whatever you give it, recursively coerces it,
+ and returns a database-identifier.
+
+ (escaped-database-identifiers *any-reasonable-object*) should be called to
+ produce a string that is safe to splice directly into sql strings.
+
+ This function should NOT throw errors when database is nil
+
+ find-class-p should be T if we want to search for classes
+ and check their use their view table. Should be used
+ on symbols we are sure indicate tables
+
+
+ ;; metaclasses has further typecases of this, so that it will
+ ;; load less painfully (try-recompiles) in SBCL
+
+ "
+ (flet ((flatten-id (id)
+ "if we have multiple pieces that we need to represent as
+ db-id lets do that by rendering out the id, then creating
+ a new db-id with that string as escaped"
+ (let ((s (sql-output id database)))
+ (make-instance '%database-identifier :escaped s :unescaped s))))
+ (setf name (dequote name))
+ (etypecase name
+ (null nil)
+ (string (%make-database-identifier name database))
+ (symbol
+ ;; if this is being used as a table, we should check
+ ;; for a class with this name and use the identifier specified
+ ;; on it
+ (if (and find-class-p (setf cls (find-standard-db-class name)))
+ (database-identifier cls)
+ (%make-database-identifier name database)))
+ (%database-identifier name)
+ ;; we know how to deref this without further escaping
+ (sql-ident-table
+ (with-slots ((inner-name name) alias) name
+ (if alias
+ (flatten-id name)
+ (database-identifier inner-name))))
+ ;; if this is a single name we can derefence it
+ (sql-ident-attribute
+ (with-slots (qualifier (inner-name name)) name
+ (if qualifier
+ (flatten-id name)
+ (database-identifier inner-name))))
+ (sql-ident
+ (with-slots ((inner-name name)) name
+ (database-identifier inner-name)))
+ ;; dont know how to handle this really :/
+ (%sql-expression (flatten-id name))
+ )))
+
+(defun %clsql-subclauses (clauses)
+ "a helper for dealing with lists of sql clauses"
+ (loop for c in clauses
+ when c
+ collect (typecase c
+ (string (clsql-sys:sql-expression :string c))
+ (T c))))
+
+(defun clsql-ands (clauses)
+ "Correctly creates a sql 'and' expression for the clauses
+ ignores any nil clauses
+ returns a single child expression if there is only one
+ returns an 'and' expression if there are many
+ returns nil if there are no children"
+ (let ((ex (%clsql-subclauses clauses)))
+ (when ex
+ (case (length ex)
+ (1 (first ex))
+ (t (apply #'clsql-sys:sql-and ex))))))
+
+(defun clsql-and (&rest clauses)
+ "Correctly creates a sql 'and' expression for the clauses
+ ignores any nil clauses
+ returns a single child expression if there is only one
+ returns an 'and' expression if there are many
+ returns nil if there are no children"
+ (clsql-ands clauses))
+
+(defun clsql-ors (clauses)
+ "Correctly creates a sql 'or' expression for the clauses
+ ignores any nil clauses
+ returns a single child expression if there is only one
+ returns an 'or' expression if there are many
+ returns nil if there are no children"
+ (let ((ex (%clsql-subclauses clauses)))
+ (when ex
+ (case (length ex)
+ (1 (first ex))
+ (t (apply #'clsql-sys:sql-or ex))))))
+
+(defun clsql-or (&rest clauses)
+ "Correctly creates a sql 'or' expression for the clauses
+ ignores any nil clauses
+ returns a single child expression if there is only one
+ returns an 'or' expression if there are many
+ returns nil if there are no children"
+ (clsql-ors clauses))
projects / clsql.git / blobdiff