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bndFloat32Slice.go
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/
bndFloat32Slice.go
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// Copyright 2014 Rana Ian. All rights reserved.
// Use of this source code is governed by The MIT License
// found in the accompanying LICENSE file.
package ora
/*
#include <oci.h>
#include "version.h"
*/
import "C"
import (
"unsafe"
)
// http://docs.oracle.com/database/121/LNOCI/oci05bnd.htm#sthref868
type bndFloat32Slice struct {
stmt *Stmt
ocibnd *C.OCIBind
ociNumbers []C.OCINumber
values *[]Float32
floats *[]float32
isOra bool
arrHlp
}
func (bnd *bndFloat32Slice) bindOra(values *[]Float32, position namedPos, stmt *Stmt, isAssocArray bool) (uint32, error) {
L, C := len(*values), cap(*values)
var V []float32
if bnd.floats == nil {
bnd.floats = &V
} else {
V = *bnd.floats
}
if cap(V) < C {
V = make([]float32, L, C)
} else {
V = V[:L]
}
if cap(bnd.nullInds) < C {
bnd.nullInds = make([]C.sb2, L, C)
} else {
bnd.nullInds = bnd.nullInds[:L]
}
bnd.values = values
for n, v := range *values {
if v.IsNull {
bnd.nullInds[n] = C.sb2(-1)
} else {
bnd.nullInds[n] = 0
V[n] = v.Value
}
}
*bnd.floats = V
bnd.isOra = true
return bnd.bind(bnd.floats, position, stmt, isAssocArray)
}
func (bnd *bndFloat32Slice) bind(values *[]float32, position namedPos, stmt *Stmt, isAssocArray bool) (iterations uint32, err error) {
bnd.stmt = stmt
// ensure we have at least 1 slot in the slice
var V []float32
if values == nil {
values = &V
} else {
V = *values
}
L, C := len(V), cap(V)
iterations, curlenp, needAppend := bnd.ensureBindArrLength(&L, &C, isAssocArray)
if needAppend {
V = append(V, 0)
}
*values = V
bnd.floats = values
if cap(bnd.ociNumbers) < C {
bnd.ociNumbers = make([]C.OCINumber, L, C)
} else {
bnd.ociNumbers = bnd.ociNumbers[:L]
}
alen := C.ACTUAL_LENGTH_TYPE(C.sizeof_OCINumber)
for n := range V {
bnd.alen[n] = alen
}
if len(V) > 0 {
if r := C.numberFromFloatSlice(
bnd.stmt.ses.srv.env.ocierr, //OCIError *err,
unsafe.Pointer(&V[0]), //const void *rnum,
byteWidth32, //uword rnum_length,
&bnd.ociNumbers[0], //OCINumber *number
C.ub4(len(V)),
); r == C.OCI_ERROR {
return iterations, bnd.stmt.ses.srv.env.ociError()
}
}
if !bnd.isOra {
for i := range bnd.nullInds {
bnd.nullInds[i] = 0
}
}
bnd.stmt.logF(_drv.Cfg().Log.Stmt.Bind,
"%p pos=%v cap=%d len=%d curlen=%d curlenp=%p", bnd, position, cap(bnd.ociNumbers), len(bnd.ociNumbers), bnd.curlen, curlenp)
ph, phLen, phFree := position.CString()
if ph != nil {
defer phFree()
}
r := C.bindByNameOrPos(
bnd.stmt.ocistmt, //OCIStmt *stmtp,
&bnd.ocibnd,
bnd.stmt.ses.srv.env.ocierr, //OCIError *errhp,
C.ub4(position.Ordinal), //ub4 position,
ph,
phLen,
unsafe.Pointer(&bnd.ociNumbers[0]), //void *valuep,
C.LENGTH_TYPE(C.sizeof_OCINumber), //sb8 value_sz,
C.SQLT_VNU, //ub2 dty,
unsafe.Pointer(&bnd.nullInds[0]), //void *indp,
&bnd.alen[0], //ub4 *alenp,
&bnd.rcode[0], //ub2 *rcodep,
getMaxarrLen(C, isAssocArray), //ub4 maxarr_len,
curlenp, //ub4 *curelep,
C.OCI_DEFAULT) //ub4 mode );
if r == C.OCI_ERROR {
return iterations, bnd.stmt.ses.srv.env.ociError()
}
r = C.OCIBindArrayOfStruct(
bnd.ocibnd,
bnd.stmt.ses.srv.env.ocierr,
C.ub4(C.sizeof_OCINumber), //ub4 pvskip,
C.ub4(C.sizeof_sb2), //ub4 indskip,
C.ub4(C.sizeof_ACTUAL_LENGTH_TYPE), //ub4 alskip,
C.ub4(C.sizeof_ub2)) //ub4 rcskip
if r == C.OCI_ERROR {
return iterations, bnd.stmt.ses.srv.env.ociError()
}
return iterations, nil
}
func (bnd *bndFloat32Slice) setPtr() error {
if !bnd.IsAssocArr() {
return nil
}
n := int(bnd.curlen)
var F []float32
if bnd.floats == nil {
bnd.floats = &F
} else {
F = *bnd.floats
}
F = F[:n]
*bnd.floats = F
bnd.nullInds = bnd.nullInds[:n]
var V []Float32
if bnd.values != nil {
V = *bnd.values
if cap(V) < n {
V = make([]Float32, n)
} else {
V = V[:n]
}
*bnd.values = V
}
for i, number := range bnd.ociNumbers[:n] {
if bnd.nullInds[i] > C.sb2(-1) {
arr := F[i : i+1 : i+1]
r := C.OCINumberToReal(
bnd.stmt.ses.srv.env.ocierr, //OCIError *err,
&number, //const OCINumber *number,
byteWidth32, //uword rsl_length,
unsafe.Pointer(&arr[0])) //void *rsl );
if r == C.OCI_ERROR {
return bnd.stmt.ses.srv.env.ociError()
}
if bnd.values != nil {
V[i].IsNull = false
V[i].Value = F[i]
}
} else if bnd.values != nil {
V[i].IsNull = true
}
}
return nil
}
func (bnd *bndFloat32Slice) close() (err error) {
defer func() {
if value := recover(); value != nil {
err = errR(value)
}
}()
stmt := bnd.stmt
bnd.stmt = nil
bnd.ocibnd = nil
bnd.values = nil
bnd.floats = nil
bnd.isOra = false
bnd.arrHlp.close()
stmt.putBnd(bndIdxFloat32Slice, bnd)
return nil
}