Oracle Call Interface Programmer's Guide Release 8.1.5 A67846-01 |
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This chapter discusses the use of the OCIDescribeAny() function to obtain information about schema elements. The following topics are covered in this chapter:
This chapter discusses the use of the OCIDescribeAny() function to describe schema objects. For information about describing select-list items, refer to the section "Describing Select-List Items".
For additional information about the OCIDescribeAny() call and its parameters, refer to the function description.
The OCIDescribeAny() function allows you to perform an explicit describe of one of the following schema objects, and their sub-schema objects:
Information about other schema elements (procedure/function arguments, columns, type attributes, and type methods) is available through a describe of one of the above schema objects or an explicit describe of the sub-schema object.
When an application describes a table, it can then retrieve information about that table's columns. Additionally, OCIDescribeAny() can directly describe sub-schema objects such as columns of a table, packages of a function, or fields of a type if the user knows the name of the sub-schema object.
The OCIDescribeAny() call requires a describe handle as one of its parameters. The describe handle must have been previously allocated with a call to OCIHandleAlloc(). After the call to OCIDescribeAny(), an application can retrieve information about the described object from the describe handle.
The information returned by OCIDescribeAny() is organized hierarchically like a tree. For example, Figure 6-1 shows how the description of a certain table might be organized.
The describe handle returned by OCIDescribeAny() points to such a tree of descriptions. Each node of the tree has attributes associated with the node and attributes (which are like recursive describe handles) that point to subtrees containing more information. If all the attributes are homogenous, as in case of elements of a list, such as a column list, then we refer to them as parameters. In this chapter, the terms handle and parameter are used interchangeably. The attributes associated with any node are returned by OCIAttrGet(), and the parameters are returned by OCIParamGet().
For example, an OCIAttrGet() on the describe handle for the table can return a handle to the column-list information. An application can then use OCIParamGet() to retrieve the handle to the column description of a particular column in the column-list. The handle to the column descriptor can be passed to OCIAttrGet() to get further information about the column, such as the name and data type (as illustrated by following the left-hand side of the above figure).
No subsequent OCIAttrGet() or OCIParamGet() call requires extra round trips, as all the description is cached on the client side by OCIDescribeAny().
The OCIDescribeAny() call limits information returned to the basic information and stops expanding a node if it amounts to another describe. For example, if a table column is of an object type, then the OCI does not return a subtree describing the type since this information can be obtained by another describe.
When performing describe operations, you should be aware of the following notes.
For more information about typecodes, such as the OCI_TYPCODE values returned in the OCI_ATTR_TYPECODE attribute and the SQLT typecodes returned in the OCI_ATTR_DATA_TYPE attribute, refer to the section "Typecodes".
OCI_ATTR_TYPECODE returns typecodes which represent the types supplied by the user when a new type is created using the CREATE TYPE statement. These typecodes are of the enumerated type OCITypeCode, and are represented by OCI_TYPECODE constants. Internal PL/SQL types (boolean, indexed table) are not supported.
OCI_ATTR_DATA_TYPE returns typecodes which represent the datatypes stored in database columns. These are similar to the describe values returned by previous versions of Oracle. These values are represented by SQLT constants (ub2 values). BOOLEAN types return SQLT_BOL.
In order to describe type objects, it is necessary to initialize the OCI process in object mode:
/* Initialize the OCI Process */ if (OCIInitialize((ub4) OCI_OBJECT, (dvoid *)0, (dvoid * (*)(dvoid *, size_t)) 0, (dvoid * (*)(dvoid *, dvoid *, size_t))0, (void (*)(dvoid *, dvoid *)) 0 )) { (void) printf("FAILED: OCIInitialize()\n"); return OCI_ERROR; }
For more information on this function, refer to the description of OCIInitialize().
The column attribute OCI_ATTR_PRECISION can be returned using an implicit describe with OCIStmtExecute() and an explicit describe with OCIDescribeAny(). When using an implicit describe, the precision should be set to sb2. When using an explicit describe, the precision should be set to ub1 for a placeholder. This is necessary to match the datatype of precision in the dictionary.
The OCI_ATTR_LIST_ARGUMENTS attribute for type methods represents second-level arguments for the method.
For example, given the following record my_type
and the procedure my_proc
which takes an argument of type my_type:
my_rec record(a number, b char) my_proc (my_input my_rec)
the OCI_ATTR_LIST_ARGUMENTS attribute would apply to arguments a
and b
of the my_type
record.
A parameter is returned by OCIParamGet(). Parameters can describe different types of objects or information. Parameters have attributes depending on the type of description they contain and these are the type-specific attributes. This section describes the attributes and handles that belong to different parameters.
The following table lists the attributes that belong to all parameters:
The subsections that follow list the attributes and handles specific to different types of parameters.
When a parameter is for a table or view (type OCI_PTYPE_TABLE or OCI_PTYPE_VIEW), it has the following type specific attributes:
The following are additional attributes which belong to tables:
When a parameter is for a procedure or function (type OCI_PTYPE_PROC or OCI_PTYPE_FUNC), it has the following type specific attributes:
Attribute | Description | Attribute Datatype |
---|---|---|
OCI_ATTR_LIST_ARGUMENTS |
argument list. See "List Attributes". |
dvoid * |
OCI_ATTR_IS_INVOKER_RIGHTS |
is the procedure or function invoker-rights? |
ub1 |
The following attributes are defined only for package subprograms:
When a parameter is for a package (type OCI_PTYPE_PKG), it has the following type specific attributes:
Attribute | Description | Attribute Datatype |
---|---|---|
OCI_ATTR_LIST_SUBPROGRAMS |
subprogram list. See "List Attributes". |
dvoid * |
OCI_ATTR_IS_INVOKER_RIGHTS |
is the package invoker-rights? |
ub1 |
When a parameter is for a type (type OCI_PTYPE_TYPE), it has the attributes listed in Table 6-7. These attributes are only valid if the application initialized the OCI process in OCI_OBJECT mode in a call to OCIInitialize().
Attribute | Description | Attribute Datatype |
---|---|---|
OCI_ATTR_REF_TDO |
returns the in-memory REF of the type descriptor object for the type, if the column type is an object type. If space has not been reserved for the OCIRef, then it is allocated implicitly in the cache. The caller can then pin the TDO with OCIObjectPin(). |
OCIRef * |
OCI_ATTR_TYPECODE |
typecode. See "Note on Datatype Codes". Currently can be only OCI_TYPECODE_OBJECT or OCI_TYPECODE_NAMEDCOLLECTION. |
OCITypeCode |
OCI_ATTR_COLLECTION_TYPECODE |
typecode of collection if type is collection; invalid otherwise. See "Note on Datatype Codes". Currently can be only OCI_TYPECODE_VARRAY or OCI_TYPECODE_TABLE. Error is returned if this attribute is queried for non-collection type. |
OCITypeCode |
OCI_ATTR_VERSION |
a null terminated string containing the user-assigned version |
text * |
OCI_ATTR_IS_INCOMPLETE_TYPE |
is this an incomplete type? |
ub1 |
OCI_ATTR_IS_SYSTEM_TYPE |
is this a system type? |
ub1 |
OCI_ATTR_IS_PREDEFINED_TYPE |
is this a predefined type? |
ub1 |
OCI_ATTR_IS_TRANSIENT_TYPE |
is this a transient type? |
ub1 |
GENERATED_TYPE |
is this a system-generated type? |
ub1 |
OCI_ATTR_HAS_NESTED_TABLE |
does this type contain a nested table attribute? |
ub1 |
OCI_ATTR_HAS_LOB |
does this type contain a LOB attribute? |
ub1 |
OCI_ATTR_HAS_FILE |
does this type contain a FILE attribute? |
ub1 |
OCI_ATTR_COLLECTION_ELEMENT |
handle to collection element. See "Collection Attributes". |
dvoid * |
OCI_ATTR_NUM_TYPE_ATTRS |
number of type attributes |
ub4 |
OCI_ATTR_LIST_TYPE_ATTRS |
list of type attributes. See "List Attributes". |
dvoid * |
OCI_ATTR_NUM_TYPE_METHODS |
number of type methods |
ub4 |
OCI_ATTR_LIST_TYPE_METHODS |
list of type methods. See "List Attributes". |
dvoid * |
OCI_ATTR_MAP_METHOD |
map method of type. See "Type Method Attributes". |
dvoid * |
OCI_ATTR_ORDER_METHOD |
order method of type. See "Type Method Attributes". |
dvoid * |
OCI_ATTR_IS_INVOKER_RIGHTS |
is the type invoker-rights? |
ub1 |
When a parameter is for an attribute of a type (type OCI_PTYPE_TYPE_ATTR), it has the attributes listed in Table 6-8.
Attribute | Description | Attribute Datatype |
---|---|---|
OCI_ATTR_DATA_SIZE |
the maximum size of the type attribute. This length is returned in bytes and not characters for strings and raws. It returns 22 for NUMBERs. |
ub2 |
OCI_ATTR_TYPECODE |
typecode. See "Note on Datatype Codes". |
OCITypeCode |
OCI_ATTR_DATA_TYPE |
the data type of the type attribute. See "Note on Datatype Codes". |
ub2 |
OCI_ATTR_NAME |
a pointer to a string which is the type attribute name |
text * |
OCI_ATTR_PRECISION |
the precision of numeric type attributes. If the precision is non-zero and scale is -127, then it is a FLOAT, else it is a NUMBER(precision, scale). For the case when precision is 0, NUMBER(precision, scale) can be represented simply as NUMBER. |
ub1 |
OCI_ATTR_SCALE |
the scale of numeric type attributes. If the precision is non-zero and scale is -127, then it is a FLOAT, else it is a NUMBER(precision, scale). For the case when precision is 0, NUMBER(precision, scale) can be represented simply as NUMBER. |
sb1 |
OCI_ATTR_TYPE_NAME |
a string which is the type name. The returned value will contain the type name if the data type is SQLT_NTY or SQLT_REF. If the data type is SQLT_NTY, the name of the named data type's type is returned. If the data type is SQLT_REF, the type name of the named data type pointed to by the REF is returned |
text * |
OCI_ATTR_SCHEMA_NAME |
a string with the schema name under which the type has been created |
text * |
OCI_ATTR_REF_TDO |
returns the in-memory REF of the TDO for the type, if the column type is an object type. If space has not been reserved for the OCIRef, then it is allocated implicitly in the cache. The caller can then pin the TDO with OCIObjectPin(). |
OCIRef * |
OCI_ATTR_CHARSET_ID |
the character set id, if the type attribute is of a string/character type |
ub2 |
OCI_ATTR_CHARSET_FORM |
the character set form, if the type attribute is of a string/character type |
ub1 |
When a parameter is for a method of a type (type OCI_PTYPE_TYPE_METHOD), it has the attributes listed in Table 6-9.
Attribute | Description | Attribute Datatype |
---|---|---|
OCI_ATTR_NAME |
name of method (procedure or function) |
text * |
OCI_ATTR_ENCAPSULATION |
encapsulation level of the method (either OCI_TYPEENCAP_PRIVATE or OCI_TYPEENCAP_PUBLIC) |
OCITypeEncap |
OCI_ATTR_LIST_ARGUMENTS |
argument list. See "Note on OCI_ATTR_LIST_ARGUMENTS", and "List Attributes". |
dvoid * |
OCI_ATTR_IS_CONSTRUCTOR |
is method a constructor? |
ub1 |
OCI_ATTR_IS_DESTRUCTOR |
is method a destructor? |
ub1 |
OCI_ATTR_IS_OPERATOR |
is method an operator? |
ub1 |
OCI_ATTR_IS_SELFISH |
is method selfish? |
ub1 |
OCI_ATTR_IS_MAP |
is method a map method? |
ub1 |
OCI_ATTR_IS_ORDER |
is method an order method? |
ub1 |
OCI_ATTR_IS_RNDS |
is "Read No Data State" set for method? |
ub1 |
OCI_ATTR_IS_RNPS |
is "Read No Process State" set for method? |
ub1 |
OCI_ATTR_IS_WNDS |
is "Write No Data State" set for method? |
ub1 |
OCI_ATTR_IS_WNPS |
is "Write No Process State" set for method? |
ub1 |
As a reference, the following code shows the possible method flags which are used when determining the corresponding procedure/function attributes:
OCITypeMethodFlag { OCI_TYPEMETHOD_INLINE = 0x0001, /* inline */ OCI_TYPEMETHOD_CONSTANT = 0x0002, /* constant */ OCI_TYPEMETHOD_VIRTUAL = 0x0004, /* virtual */ OCI_TYPEMETHOD_CONSTRUCTOR = 0x0008, /* constructor */ OCI_TYPEMETHOD_DESTRUCTOR = 0x0010, /* destructor */ OCI_TYPEMETHOD_OPERATOR = 0x0020, /* operator */ OCI_TYPEMETHOD_SELFISH = 0x0040, /* selfish method (generic otherwise) */ OCI_TYPEMETHOD_MAP = 0x0080, /* map (relative ordering) */ OCI_TYPEMETHOD_ORDER = 0x0100, /* order (relative ordering) */ /* OCI_TYPEMETHOD_MAP and OCI_TYPEMETHOD_ORDER are mutually exclusive */ OCI_TYPEMETHOD_RNDS= 0x0200, /* Read no Data State (default) */ OCI_TYPEMETHOD_WNDS= 0x0400, /* Write no Data State */ OCI_TYPEMETHOD_RNPS= 0x0800, /* Read no Process State */ OCI_TYPEMETHOD_WNPS= 0x1000 /* Write no Process State */ }
When a parameter is for a collection type (type OCI_PTYPE_COLL), it has the attributes listed in Table 6-10.
Attribute | Description | Attribute Datatype |
---|---|---|
OCI_ATTR_DATA_SIZE |
the maximum size of the type attribute. This length is returned in bytes and not characters for strings and raws. It returns 22 for NUMBERs. |
ub2 |
OCI_ATTR_TYPECODE |
typecode. See "Note on Datatype Codes". |
OCITypeCode |
OCI_ATTR_DATA_TYPE |
the data type of the type attribute. See "Note on Datatype Codes". |
ub2 |
OCI_ATTR_NUM_ELEMENTS |
the number of elements in an array. It is only valid for collections that are arrays |
ub4 |
OCI_ATTR_NAME |
a pointer to a string which is the type attribute name |
text * |
OCI_ATTR_PRECISION |
the precision of numeric type attributes. If the precision is non-zero and scale is -127, then it is a FLOAT, else it is a NUMBER(precision, scale). For the case when precision is 0, NUMBER(precision, scale) can be represented simply as NUMBER. |
ub1 |
OCI_ATTR_SCALE |
the scale of numeric type attributes. If the precision is non-zero and scale is -127, then it is a FLOAT, else it is a NUMBER(precision, scale). For the case when precision is 0, NUMBER(precision, scale) can be represented simply as NUMBER. |
sb1 |
OCI_ATTR_TYPE_NAME |
a string which is the type name. The returned value will contain the type name if the data type is SQLT_NTY or SQLT_REF. If the data type is SQLT_NTY, the name of the named data type's type is returned. If the data type is SQLT_REF, the type name of the named data type pointed to by the REF is returned |
text * |
OCI_ATTR_SCHEMA_NAME |
a string with the schema name under which the type has been created |
text * |
OCI_ATTR_REF_TDO |
returns the in-memory REF of the TDO for the type, if the column type is an object type. If space has not been reserved for the OCIRef, then it is allocated implicitly in the cache. The caller can then pin the TDO with OCIObjectPin(). |
OCIRef * |
OCI_ATTR_CHARSET_ID |
the character set id, if the type attribute is of a string/character type |
ub2 |
OCI_ATTR_CHARSET_FORM |
the character set form, if the type attribute is of a string/character type |
ub1 |
When a parameter is for a synonym (type OCI_PTYPE_SYN), it has the attributes listed in Table 6-11.
When a parameter is for a sequence (type OCI_PTYPE_SEQ), it has the attributes listed in Table 6-12.
When a parameter is for a column of a table or view (type OCI_PTYPE_COL), it has the attributes listed in Table 6-13.
Attribute | Description | Attribute Datatype |
---|---|---|
OCI_ATTR_DATA_SIZE |
the maximum size of the column. This length is returned in bytes and not characters for strings and raws. It returns 22 for NUMBERs. |
ub2 |
OCI_ATTR_DATA_TYPE |
the data type of the column. See "Note on Datatype Codes". |
ub2 |
OCI_ATTR_NAME |
a pointer to a string which is the column name |
text * |
OCI_ATTR_PRECISION |
the precision of numeric columns. If the precision is non-zero and scale is -127, then it is a FLOAT, else it is a NUMBER(precision, scale). For the case when precision is 0, NUMBER(precision, scale) can be represented simply as NUMBER. |
sb2 for implicit describe |
OCI_ATTR_SCALE |
the scale of numeric columns. If the precision is non-zero and scale is -127, then it is a FLOAT, else it is a NUMBER(precision, scale). For the case when precision is 0, NUMBER(precision, scale) can be represented simply as NUMBER. |
sb1 |
OCI_ATTR_IS_NULL |
returns 0 if null values are not permitted for the column |
ub1 |
OCI_ATTR_TYPE_NAME |
returns a string which is the type name. The returned value will contain the type name if the data type is SQLT_NTY or SQLT_REF. If the data type is SQLT_NTY, the name of the named data type's type is returned. If the data type is SQLT_REF, the type name of the named data type pointed to by the REF is returned |
text * |
OCI_ATTR_SCHEMA_NAME |
returns a string with the schema name under which the type has been created |
text * |
OCI_ATTR_REF_TDO |
the REF of the TDO for the type, if the column type is an object type |
OCIRef * |
OCI_ATTR_CHARSET_ID |
the character set id, if the column is of a string/character type |
ub2 |
OCI_ATTR_CHARSET_FORM |
the character set form, if the column is of a string/character type |
ub1 |
When a parameter is for an argument of a procedure/function (type OCI_PTYPE_ARG), for a type method argument (type OCI_PTYPE_TYPE_ARG) or for method results (type OCI_PTYPE_TYPE_RESULT), it has the attributes listed in Table 6-14.
Attribute | Description | Attribute Datatype |
---|---|---|
OCI_ATTR_NAME |
returns a pointer to a string which is the argument name |
text * |
OCI_ATTR_POSITION |
the position of the argument in the argument list. Always returns zero. |
ub2 |
OCI_ATTR_TYPECODE |
typecode. See "Note on Datatype Codes". |
OCITypeCode |
OCI_ATTR_DATA_TYPE |
the data type of the argument. See "Note on Datatype Codes". |
ub2 |
OCI_ATTR_DATA_SIZE |
the size of the data type of the argument. This length is returned in bytes and not characters for strings and raws. It returns 22 for NUMBERs. |
ub2 |
OCI_ATTR_PRECISION |
the precision of numeric arguments. If the precision is non-zero and scale is -127, then it is a FLOAT, else it is a NUMBER(precision, scale). For the case when precision is 0, NUMBER(precision, scale) can be represented simply as NUMBER. |
ub1 |
OCI_ATTR_SCALE |
the scale of numeric arguments. If the precision is non-zero and scale is -127, then it is a FLOAT, else it is a NUMBER(precision, scale). For the case when precision is 0, NUMBER(precision, scale) can be represented simply as NUMBER. |
sb1 |
OCI_ATTR_LEVEL |
the data type levels. This attribute always returns zero. |
ub2 |
OCI_ATTR_HAS_DEFAULT |
indicates whether an argument has a default |
ub1 |
OCI_ATTR_LIST_ARGUMENTS |
the list of arguments at the next level (when the argument is of a record or table type). |
dvoid * |
OCI_ATTR_IOMODE |
2 is IN/OUT (OCI_TYPEPARAM_INOUT) |
OCITypeParamMode |
OCI_ATTR_RADIX |
returns a radix (if number type) |
ub1 |
OCI_ATTR_IS_NULL |
returns 0 if null values are not permitted for the column |
ub1 |
OCI_ATTR_TYPE_NAME |
returns a string which is the type name, or the package name in the case of package local types. The returned value will contain the type name if the data type is SQLT_NTY or SQLT_REF. If the data type is SQLT_NTY, the name of the named data type's type is returned. If the data type is SQLT_REF, the type name of the named datatype pointed to by the REF is returned. |
text * |
OCI_ATTR_SCHEMA_NAME |
for SQLT_NTY or SQLT_REF, returns a string with the schema name under which the type was created, or under which the package was created in the case of package local types |
text * |
OCI_ATTR_SUB_NAME |
for SQLT_NTY or SQLT_REF, returns a string with the type name, in the case of package local types |
text * |
OCI_ATTR_LINK |
for SQLT_NTY or SQLT_REF, returns a string with the database link name of the database on which the type exists. This can happen only in the case of package local types, when the package is remote. |
text * |
OCI_ATTR_REF_TDO |
returns the REF of the TDO for the type, if the argument type is an object |
OCIRef * |
OCI_ATTR_CHARSET_ID |
returns the character set ID if the argument is of a string/character type |
ub2 |
OCI_ATTR_CHARSET_FORM |
returns the character set form if the argument is of a string/character type |
ub1 |
When a parameter is for a list of columns, arguments, or subprograms (type OCI_PTYPE_LIST), it has the following type specific attributes and handles (parameters):
When a parameter is for a schema type (type OCI_PTYPE_SCHEMA), it has the attributes listed in Table 6-15:
Attribute | Description | Attribute Datatype |
---|---|---|
OCI_ATTR_LIST_OBJECTS |
list of objects in the schema |
text* |
When a parameter is for a database type (type OCI_PTYPE_DATABASE), it has the attributes listed in Table 6-16:
The following examples demonstrate the use of OCIDescribeAny() for describing different types of schema objects. For a more detailed code sample, see the demonstration programs included with your Oracle installation. For additional information, refer to Appendix B, "OCI Demonstration Programs".
This example illustrates the use of an explicit describe. Let us take an example application, which needs to retrieve the column datatypes for a table. The following pseudo-code shows how an application would be able to use the describe interface:
text objptr[] = <table-name>; ub4 objp_len = strlen(<table_name>); OCIParam *parmh; /* parameter handle */ OCIParam *collsthd; /* handle to list of columns */ OCIParam *colhd; /* column handle *//* get the describe handle for the table */
if (
OCIDescribeAny(svch, errh, objptr, objp_len, OCI_OTYPE_NAME, 0,
OCI_PTYPE_TABLE, &dschp))
return error;
/* get the parameter handle */ if (OCIAttrGet(dschp, OCI_HTYPE_DESCRIBE, &parmh, 0, OCI_ATTR_PARAM, errh)) return error; /* The type information of the object, in this case, OCI_PTYPE_TABLE, is obtained from the parameter descriptor returned by the OCIAttrGet */ /* get the number of columns in the table */ if (OCIAttrGet(parmh, OCI_DTYPE_PARAM, &numcols, 0, OCI_ATTR_NUM_COLS, errh)) return error;/* get the handle to the column list of the table */
if (
OCIAttrGet(parmh, OCI_DTYPE_PARAM, &collsthd, 0,
OCI_ATTR_LIST_COLUMNS, errh)==OCI_NO_DATA)
return error;
/* go through the column list and retrieve the data-type of each column,
and then recursively describe column types. */
for (i = 1; i <= numcols; i++) { /* get parameter for column i */if (
OCIParamGet(collsthd, OCI_DTYPE_PARAM, errh, &colhd, i))
return error;
/* for example, get data type for ith column */ if (OCIAttrGet(colhd, OCI_DTYPE_PARAM, &datatype[i-1], 0, OCI_ATTR_DATA_TYPE, errh)) return error; }
Let us consider a stored procedure or a function.The difference between a procedure and a function is that the latter has a return type at position 0 in the argument list, while the former has no argument associated with position 0 in the argument list. The steps required to describe type methods (also divided into functions and procedures) are identical to that of regular PL/SQL functions and procedures. Note that procedures/functions can take default types of objects as arguments. Let us consider the following procedure:
P1 (arg1 emp.sal%type, arg2 emp%rowtype)
Furthermore, let us assume that each row in emp table has two columns name (VARCHAR2(20)
), and sal
(NUMBER
). Thus, in the argument list for P1
, we have two arguments, arg1
and arg2
, at positions 1 and 2 respectively at level 0, and arguments name and sal
at positions 1and 2 respectively at level 1. Description of P1
returns the number of arguments as two while returning the higher level (> 0) arguments as attributes of the 0 zero level arguments.
The following pseudocode elucidates the description of P1.
text objptr[] = "P1"; /* procedure name */ ub4 objp_len = strlen("P1"); OCIParam *parmh; /* parameter handle */ OCIParam *arglst; /* list of args */ OCIParam *arg; /* argument handle */ ub2 numargs, pos, level; text *name; ub4 namelen; /* get the describe handle for the table */if (
OCIDescribeAny(svch, errh, objptr, objp_len, OCI_OTYPE_NAME, 0,
OCI_PTYPE_PROC, &dschp))
return error;
/* get the parameter handle */ if (OCIAttrGet(dschp, OCI_HTYPE_DESCRIBE, &parmh, 0, OCI_ATTR_PARAM, errh)) return error; /* Get the number of arguments and the arg list */ if (OCIAttrGet (parmh, OCI_DTYPE_PARAM, &arglst, 0, OCI_ATTR_LIST_ARGUMENTS, errh)) return error; if (OCIAttrGet (parmh, OCI_DTYPE_PARAM, &numargs, 0, OCI_ATTR_NUM_PARAMS, errh)) return error; /* For a procedure, we begin with i = 1; for a function, we begin with i = 0. */ for (i = 1; i < numargs; i++) { OCIParamGet (arglst, OCI_DTYPE_PARAM, errh, &arg, i); OCIAttrGet (arg, OCI_DTYPE_PARAM, &name, &namelen, OCI_ATTR_NAME, errh); ... /* to print the attributes of the argument of type record (arguments at the next level), traverse the argument list */ OCIAttrGet (arg, OCI_DTYPE_PARAM, &arglst1, 0, OCI_ATTR_LIST_ARGUMENTS, erh); /* check if the current argument is a record. For arg1 in P1 arglst1 is NULL. */ if (arglst1) { OCIAttrGet (arg, OCI_DTYPE_PARAM, &numargs1,0, OCI_ATTR_NUM_PARAMS, errh); /* Note that for both functions and procedures,the next higher level arguments start from index 1. For arg2 in P1, the number of arguments at the level 1 would be 2 */ for (i = 1; i < numargs1, i++) { OCIParamGet (arglst1, OCI_DTYPE_PARAM, errh, &arg1, i); OCIAttrGet (arg1, OCI_DTYPE_PARAM, &name1, &namelen1, OCI_ATTR_NAME, errh); ... } } }
This example illustrates the use of an explicit describe on a named object type. We illustrate how you can describe an object by its name or by its object reference (OCIRef). The following pseudo-code attempts to retrieve the data type value each of the object type's attribute. It is very similar to the first example in section "Retrieving column data types for a table".
text type_name[] = <type_name>; ub4 type_name_len = strlen(<type_name>); OCIRef *type_ref = <type_ref>; un4 numattrs; OCIDescribe *dschp; /* describe handle */ OCIParam *parmh; /* parameter handle */ OCIParam *attrlsthd; /* handle to list of attrs */ OCIParam *attrhd; /* attribute handle */ /* allocate describe handle */if (OCIHandleAlloc((dvoid *)envh, (dvoid **)&dschp,
(ub4)OCI_HTYPE_DESCRIBE, (size_t)0, (dvoid **)0))
return error;
/* get the describe handle for the type */
if (describe_by_name)if (
OCIDescribeAny(svch, errh, (dvoid*)type_name, type_name_len,
OCI_OTYPE_NAME, 0, OCI_PTYPE_TYPE, dschp))
return error;
elseif (
OCIDescribeAny(svch, errh, (dvoid*)type_ref, 0, OCI_OTYPE_REF,
0, OCI_PTYPE_TYPE, dschp))
return error;
/* get the parameter handle */ if (OCIAttrGet(dschp, OCI_HTYPE_DESCRIBE, &parmh, 0, OCI_ATTR_PARAM, errh)) return error; /* The type information of the object, in this case, OCI_PTYPE_TYPE, is obtained from the parameter descriptor returned by the OCIAttrGet */ /* get the number of attributes in the type */ if (OCIAttrGet(parmh, OCI_DTYPE_PARAM, &numattrs, 0, OCI_ATTR_NUM_TYPE_ATTRS, errh)) return error;/* get the handle to the attribute list of the type */
if (
OCIAttrGet(parmh, OCI_DTYPE_PARAM, (dvoid *)&attrlsthd, 0,
OCI_ATTR_LIST_TYPE_ATTRS, errh)==OCI_NO_DATA)
return error;
/* go through the attribute list and retrieve the data-type of each attribute, and then recursively describe attribute types. */
for (i = 1; i <= numattrs; i++) { /* get parameter for attribute i */if (
OCIParamGet(attrlsthd, OCI_DTYPE_PARAM, errh, &attrhd, i))
return error;
/* for example, get data type and typecode for attribute; note that OCI_ATTR_ DATA_TYPE returns the SQLT code, while OCI_ATTR_TYPECODE returns the Oracle Type System typecode. */ if (OCIAttrGet(attrhd, OCI_DTYPE_PARAM,&datatype[i-1], 0, OCI_ATTR_DATA_TYPE,errh)) return error; /* for example, get data type for attribute*/ if (OCIAttrGet(attrhd, OCI_DTYPE_PARAM,&typecode[i-1], 0, OCI_ATTR_TYPECODE, errh)) return error; /* if attribute is an object type, recursively describe it */ if (typecode[i-1] == OCI_TYPECODE_OBJECT) { OCIRef *attr_type_ref; OCIDescribe *nested_dschp; /* allocate describe handle */if (
OCIHandleAlloc((dvoid *)envh,(dvoid**)&dschp,
(ub4)OCI_HTYPE_DESCRIBE,(size_t)0, (dvoid **)0))
return error;
if (OCIAttrGet(attrhd, OCI_DTYPE_PARAM, &attr_type_ref, 0, OCI_ATTR_REF_TDO,errh)) return error; OCIDescribeAny(svch, errh,(dvoid*)attr_type_ref, 0,
OCI_OTYPE_REF, 0, OCI_PTYPE_TYPE, nested_dschp);
/* go on describing the type... */ } }
This example illustrates the use of an explicit describe on a named collection type. We illustrate how you can describe an object by its name or by its object reference (OCIRef). The following pseudo-code attempts to retrieve the data type value each of the object type's attribute. It is very similar to the first example in section "Retrieving column data types for a table".
text type_name[] = <type_name>;
ub4 type_name_len = strlen(<type_name>); OCIRef *type_ref = <type_ref>; un4 numattrs; OCIDescribe *dschp; /* describe handle */ OCIParam *parmh; /* parameter handle */ OCIParam *attrlsthd; /* handle to list of attrs */ OCIParam *attrhd; /* attribute handle */ /* allocate describe handle */if (OCIHandleAlloc((dvoid *)envh, (dvoid **)&dschp,
(ub4)OCI_HTYPE_DESCRIBE, (size_t)0, (dvoid **)0))
return error;
/* get the describe handle for the type */
if (describe_by_name)if (
OCIDescribeAny(svch, errh, (dvoid*)type_name, type_name_len,
OCI_OTYPE_NAME, 0, OCI_PTYPE_TYPE, dschp))
return error;
elseif (
OCIDescribeAny(svch, errh, (dvoid*)type_ref, 0, OCI_OTYPE_REF, 0,
OCI_PTYPE_TYPE, &dschp))
return error;
/* get the parameter handle */ if (OCIAttrGet(dschp, OCI_HTYPE_DESCRIBE, &parmh, 0, OCI_ATTR_PARAM, errh)) return error; /* get the Oracle Type System type code of the type to determine that this is a collection type */ if (OCIAttrGet(attrhd, OCI_DTYPE_PARAM,&typecode, 0, OCI_ATTR_TYPECODE, errh)) return error; /* if typecode is OCI_TYPECODE_NAMEDCOLLECTION, proceed to describe collection element */ if (typecode == OCI_TYPECODE_NAMEDCOLLECTION) { /* get the collection's type: ie, OCI_TYPECODE_VARRAY or OCI_TYPECODE_TABLE */ if (OCIAttrGet(parmh, OCI_DTYPE_PARAM, (dvoid *)&collection_typecode, 0, OCI_ ATTR_COLLECTION_TYPECODE, errh)) return error; /* get the collection element; you MUST use this to further retrieve information about the collection's element */ if (OCIAttrGet(parmh, OCI_DTYPE_PARAM, &collection_element_parmh, 0, OCI_ATTR_ COLLECTION_ELEMENT, errh)) return error; /* get the number of elements if collection is a VARRAY; not valid for nested tables */ if (collection_typecode == OCI_TYPECODE_VARRAY) if OCIAttrGet(collection_element_parmh, OCI_DTYPE_PARAM, (dvoid *)&num_elements, 0, OCI_ATTR_NUM_ELEMENTS, errh)) return error; /* now use the collection_element parameter handle to retrieve information about the collection element */ if OCIAttrGet(collection_element_parmh, OCI_DTYPE_PARAM, (dvoid *)&element_typecode, 0, OCI_ATTR_TYPECODE, errh)) return error; /* do the same to describe additional collection element information; this is very similar to describing type attributes */