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v/vlib/mssql/stmt_handle.v

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module mssql
// HStmt is handle for sql statement
struct HStmt {
mut:
// db connection reference. Owner is Connection struct.
hdbc C.SQLHDBC = C.SQLHDBC(C.SQL_NULL_HDBC)
// statement handle
hstmt C.SQLHSTMT = C.SQLHSTMT(C.SQL_NULL_HSTMT)
// fields used for computation
column_count int = -1
// columns
buffers [][]char
// indicators for each column
indicators []C.SQLLEN
}
// new_hstmt constructs a new statement handle
fn new_hstmt(hdbc C.SQLHDBC) ?HStmt {
mut retcode := C.SQLRETURN(C.SQL_SUCCESS)
mut hstmt := C.SQLHSTMT(C.SQL_NULL_HSTMT)
// Allocate statement handle
retcode = C.SQLAllocHandle(C.SQLSMALLINT(C.SQL_HANDLE_STMT), C.SQLHANDLE(hdbc), unsafe { &C.SQLHANDLE(&hstmt) })
check_error(retcode, 'SQLAllocHandle(SQL_HANDLE_STMT)', C.SQLHANDLE(hstmt), C.SQLSMALLINT(C.SQL_HANDLE_STMT))?
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return HStmt{
hdbc: hdbc
hstmt: hstmt
}
}
// close the statement handle
fn (mut h HStmt) close() {
// Deallocate handle
if h.hstmt != C.SQLHSTMT(C.SQL_NULL_HSTMT) {
// check error code?
C.SQLFreeHandle(C.SQLSMALLINT(C.SQL_HANDLE_STMT), C.SQLHANDLE(h.hstmt))
h.hstmt = C.SQLHSTMT(C.SQL_NULL_HSTMT)
}
}
// exec executes a Sql statement. Result is stored in odbc driver, and not yet read.
fn (h HStmt) exec(sql string) ? {
retcode := C.SQLExecDirect(h.hstmt, sql.str, C.SQLINTEGER(C.SQL_NTS))
check_error(retcode, 'SQLExecDirect()', C.SQLHANDLE(h.hstmt), C.SQLSMALLINT(C.SQL_HANDLE_STMT))?
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}
// retrieve_affected_rows returns number of rows affected/modified by the last operation. -1 if not applicable.
fn (h HStmt) retrieve_affected_rows() ?int {
count_ret := C.SQLLEN(0)
retcode := C.SQLRowCount(h.hstmt, &count_ret)
check_error(retcode, 'SQLRowCount()', C.SQLHANDLE(h.hstmt), C.SQLSMALLINT(C.SQL_HANDLE_STMT))?
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return int(count_ret)
}
fn (h HStmt) retrieve_column_count() ?int {
mut retcode := C.SQLRETURN(C.SQL_SUCCESS)
col_count_buff := C.SQLSMALLINT(0)
retcode = C.SQLNumResultCols(h.hstmt, &col_count_buff)
check_error(retcode, 'SQLNumResultCols()', C.SQLHANDLE(h.hstmt), C.SQLSMALLINT(C.SQL_HANDLE_STMT))?
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return int(col_count_buff)
}
// allocate buffers and bind them to drivers
fn (mut h HStmt) prepare_read() ? {
mut retcode := C.SQLRETURN(C.SQL_SUCCESS)
column_count := h.retrieve_column_count()?
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h.column_count = column_count // remember the count because read will need it
h.buffers = [][]char{len: h.column_count}
h.indicators = []C.SQLLEN{len: h.column_count}
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for i := 0; i < h.column_count; i++ {
i_col := C.SQLUSMALLINT(i + 1) // col number starts with 1
size_ret := C.SQLLEN(0)
// find out buffer size needed to read data in this column
retcode = C.SQLColAttribute(h.hstmt, i_col, C.SQLUSMALLINT(C.SQL_DESC_LENGTH),
C.SQLPOINTER(0), C.SQLSMALLINT(0), C.SQLSMALLINT(0), &size_ret)
check_error(retcode, 'SQLColAttribute()', C.SQLHANDLE(h.hstmt), C.SQLSMALLINT(C.SQL_HANDLE_STMT))?
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// buffer allocation is the size + 1 to include termination char, since SQL_DESC_LENGTH does not include it.
allocate_size := size_ret + C.SQLLEN(1)
allocate_size_int := int(allocate_size)
buff := []char{len: allocate_size_int}
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// bind the buffer
retcode = C.SQLBindCol(h.hstmt, C.SQLUSMALLINT(i_col), C.SQLSMALLINT(C.SQL_C_CHAR),
C.SQLPOINTER(&buff[0]), allocate_size, &h.indicators[i])
check_error(retcode, 'SQLBindCol()', C.SQLHANDLE(h.hstmt), C.SQLSMALLINT(C.SQL_HANDLE_STMT))?
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// record the buffer in HStmt
h.buffers[i] = buff
}
}
// fetch all rows
fn (h HStmt) read_rows() ?[][]string {
mut retcode := C.SQLRETURN(C.SQL_SUCCESS)
mut res := [][]string{}
if h.column_count <= 0 {
// there is nothing in the driver to read from
return res
}
// Fetch and print each row of data until SQL_NO_DATA returned.
for {
mut row := []string{}
retcode = C.SQLFetch(h.hstmt)
if retcode == C.SQLRETURN(C.SQL_SUCCESS) || retcode == C.SQLRETURN(C.SQL_SUCCESS_WITH_INFO) {
// copy buffered result to res
for content in h.buffers {
row << unsafe { cstring_to_vstring(content.data) }
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}
} else {
if retcode != C.SQLRETURN(C.SQL_NO_DATA) {
check_error(retcode, 'SQLFetch()', C.SQLHANDLE(h.hstmt), C.SQLSMALLINT(C.SQL_HANDLE_STMT))?
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} else {
break
}
}
res << row
}
return res
}