(declare (ignore args database db-type))
type)
+
(defmethod database-get-type-specifier ((type symbol) args database db-type)
(case type
(char (if args
(declare (ignore type database db-type))
val)
-(defmethod database-output-sql-as-type ((type (eql 'list)) val database db-type)
- (declare (ignore database db-type))
- (progv '(*print-circle* *print-array*) '(t t)
- (let ((escaped (prin1-to-string val)))
- (substitute-char-string
- escaped #\Null " "))))
-
-(defmethod database-output-sql-as-type ((type (eql 'symbol)) val database db-type)
- (declare (ignore database db-type))
- (if val
- (concatenate 'string
- (package-name (symbol-package val))
- "::"
- (symbol-name val))
- ""))
-
-(defmethod database-output-sql-as-type ((type (eql 'keyword)) val database db-type)
- (declare (ignore database db-type))
- (if val
- (symbol-name val)
- ""))
-
-(defmethod database-output-sql-as-type ((type (eql 'vector)) val database db-type)
- (declare (ignore database db-type))
- (progv '(*print-circle* *print-array*) '(t t)
- (prin1-to-string val)))
-
-(defmethod database-output-sql-as-type ((type (eql 'array)) val database db-type)
- (declare (ignore database db-type))
- (progv '(*print-circle* *print-array*) '(t t)
- (prin1-to-string val)))
-
-(defmethod database-output-sql-as-type ((type (eql 'boolean)) val database db-type)
+(defmethod database-output-sql-as-type ((type symbol) val database db-type)
+ (declare (ignore database))
+ (case type ;; booleans handle null differently
+ ((boolean generalized-boolean)
+ (case db-type
+ ;; done here so it can be done once
+ ((:mssql :mysql) (if val 1 0))
+ (otherwise (if val "t" "f"))))
+ (otherwise
+ ;; in all other cases if we have nil give everyone else a shot at it,
+ ;; which by default returns nil
+ (if (null val)
+ (call-next-method)
+ (case type
+ (symbol
+ (format nil "~A::~A"
+ (package-name (symbol-package val))
+ (symbol-name val)))
+ (keyword (symbol-name val))
+ (string val)
+ (char (etypecase val
+ (character (write-to-string val))
+ (string val)))
+ (float (format nil "~F" val))
+ ((list vector array)
+ (let* ((*print-circle* t)
+ (*print-array* t)
+ (value (prin1-to-string val)))
+ value))
+ (otherwise (call-next-method)))))))
+
+(defmethod read-sql-value (val type database db-type
+ &aux *read-eval*)
(declare (ignore database db-type))
- (if val "t" "f"))
+ ;; TODO: All the read-from-strings in here do not check that
+ ;; what we read was of the correct type, should this change?
-(defmethod database-output-sql-as-type ((type (eql 'generalized-boolean)) val database db-type)
- (declare (ignore database db-type))
- (if val "t" "f"))
-
-(defmethod database-output-sql-as-type ((type (eql 'string)) val database db-type)
- (declare (ignore database db-type))
- val)
-
-(defmethod database-output-sql-as-type ((type (eql 'char)) val database db-type)
- (declare (ignore database db-type))
- (etypecase val
- (character (write-to-string val))
- (string val)))
-
-(defmethod database-output-sql-as-type ((type (eql 'float)) val database db-type)
- (declare (ignore database db-type))
- (if (eq (type-of val) 'null)
- nil
- (let ((*read-default-float-format* (type-of val)))
- (format nil "~F" val))))
-
-(defmethod read-sql-value (val type database db-type)
- (declare (ignore database db-type))
+ ;; TODO: Should this case `(typep val type)=>t` be an around
+ ;; method that short ciruits?
(cond
((null type) val) ;;we have no desired type, just give the value
((typep val type) val) ;;check that it hasn't already been converted.
((typep val 'string) (read-from-string val)) ;;maybe read will just take care of it?
(T (error "Unable to read-sql-value ~a as type ~a" val type))))
-(defmethod read-sql-value (val (type (eql 'string)) database db-type)
- (declare (ignore database db-type))
- val)
-
-(defmethod read-sql-value (val (type (eql 'varchar)) database db-type)
- (declare (ignore database db-type))
- val)
-
-(defmethod read-sql-value (val (type (eql 'char)) database db-type)
- (declare (ignore database db-type))
- (schar val 0))
-
-(defmethod read-sql-value (val (type (eql 'keyword)) database db-type)
- (declare (ignore database db-type))
- (when (< 0 (length val))
- (intern (symbol-name-default-case val)
- (find-package '#:keyword))))
-
-(defmethod read-sql-value (val (type (eql 'symbol)) database db-type)
- (declare (ignore database db-type))
- (when (< 0 (length val))
- (unless (string= val (symbol-name-default-case "NIL"))
- (read-from-string val))))
-
-(defmethod read-sql-value (val (type (eql 'integer)) database db-type)
- (declare (ignore database db-type))
- (etypecase val
- (string
- (unless (string-equal "NIL" val)
- (parse-integer val)))
- (number val)))
-
-(defmethod read-sql-value (val (type (eql 'smallint)) database db-type)
- (declare (ignore database db-type))
- (etypecase val
- (string
- (unless (string-equal "NIL" val)
- (parse-integer val)))
- (number val)))
-
-(defmethod read-sql-value (val (type (eql 'bigint)) database db-type)
- (declare (ignore database db-type))
- (etypecase val
- (string
- (unless (string-equal "NIL" val)
- (parse-integer val)))
- (number val)))
-
-(defmethod read-sql-value (val (type (eql 'float)) database db-type)
- (declare (ignore database db-type))
- ;; writing 1.0 writes 1, so we we *really* want a float, must do (float ...)
- (etypecase val
- (string (float (read-from-string val)))
- (float val)))
-
-(defmethod read-sql-value (val (type (eql 'double-float)) database db-type)
- (declare (ignore database db-type))
- ;; writing 1.0 writes 1, so if we *really* want a float, must do (float ...)
- (etypecase val
- (string (float
- (let ((*read-default-float-format* 'double-float))
- (read-from-string val))
- 1.0d0))
- (double-float val)
- (float (coerce val 'double-float))))
-
-(defmethod read-sql-value (val (type (eql 'boolean)) database db-type)
- (declare (ignore database db-type))
- (equal "t" val))
-
-(defmethod read-sql-value (val (type (eql 'generalized-boolean)) database db-type)
- (declare (ignore database db-type))
- (equal "t" val))
-
-(defmethod read-sql-value (val (type (eql 'number)) database db-type)
- (declare (ignore database db-type))
- (etypecase val
- (string
- (unless (string-equal "NIL" val)
- (read-from-string val)))
- (number val)))
-
-(defmethod read-sql-value (val (type (eql 'universal-time)) database db-type)
- (declare (ignore database db-type))
- (unless (eq 'NULL val)
- (etypecase val
- (string
- (parse-integer val))
- (number val))))
-
-(defmethod read-sql-value (val (type (eql 'wall-time)) database db-type)
- (declare (ignore database db-type))
- (unless (eq 'NULL val)
- (parse-timestring val)))
-
-(defmethod read-sql-value (val (type (eql 'date)) database db-type)
- (declare (ignore database db-type))
- (unless (eq 'NULL val)
- (parse-datestring val)))
-
-(defmethod read-sql-value (val (type (eql 'duration)) database db-type)
- (declare (ignore database db-type))
- (unless (or (eq 'NULL val)
- (equal "NIL" val))
- (parse-timestring val)))
+(defmethod read-sql-value (val (type symbol) database db-type
+ ;; never eval while reading values
+ &aux *read-eval*)
+ ;; TODO: All the read-from-strings in here do not check that
+ ;; what we read was of the correct type, should this change?
+ (unless (or (equalp "nil" val) (eql 'null val))
+ (case type
+ ((string varchar) val)
+ (char (etypecase val
+ (string (schar val 0))
+ (character val)))
+ (keyword
+ (when (< 0 (length val))
+ (intern (symbol-name-default-case val) :keyword)))
+ (symbol
+ (when (< 0 (length val))
+ (intern (symbol-name-default-case val))))
+ ((smallint mediumint bigint integer universal-time)
+ (etypecase val
+ (string (parse-integer val))
+ (number val)))
+ ((double-float float)
+ ;; ensure that whatever we got is coerced to a float of the correct
+ ;; type (eg: 1=>1.0d0)
+ (float
+ (etypecase val
+ (string (let ((*read-default-float-format*
+ (ecase type
+ (float 'single-float)
+ (double-float 'double-float))))
+ (read-from-string val)))
+ (float val))
+ (if (eql type 'double-float) 1.0d0 1.0s0)))
+ (number
+ (etypecase val
+ (string (read-from-string val))
+ (number val)))
+ ((boolean generalized-boolean)
+ (if (member val '(nil t))
+ val
+ (etypecase val
+ (string
+ (when (member val '("1" "t" "true" "y") :test #'string-equal)
+ t))
+ (number (not (zerop val))))))
+ ((wall-time duration)
+ (parse-timestring val))
+ (date
+ (parse-datestring val))
+ (t (call-next-method)))))
;; ------------------------------------------------------------
;; Logic for 'faulting in' :join slots