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SqMod/modules/sqlite/Statement.cpp

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// ------------------------------------------------------------------------------------------------
#include "Statement.hpp"
#include "Connection.hpp"
#include "Column.hpp"
// ------------------------------------------------------------------------------------------------
#include <cstring>
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// ------------------------------------------------------------------------------------------------
namespace SqMod {
// ------------------------------------------------------------------------------------------------
// Error message when failed to bind value to parameter index.
#define SQMOD_BADPARAMI "Unable to bind [%s] parameter at (%d) because [%s]"
// Error message when failed to bind value to parameter name.
#define SQMOD_BADPARAMS "Unable to bind [%s] parameter at (%s:%d) because [%s]"
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// ------------------------------------------------------------------------------------------------
#define FETCH_PARAMETER_NAME(V, N) /*
*/ const Int32 V = sqlite3_bind_parameter_index(m_Handle->mPtr, N); /*
*/ if (!V) /*
*/ { /*
*/ STHROWF("Unknown parameter named (%s)", N); /*
*/ } /*
*/
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// ------------------------------------------------------------------------------------------------
SQInteger Statement::Typename(HSQUIRRELVM vm)
{
static const SQChar name[] = _SC("SqSQLiteStatement");
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sq_pushstring(vm, name, sizeof(name));
return 1;
}
// ------------------------------------------------------------------------------------------------
#if defined(_DEBUG) || defined(SQMOD_EXCEPTLOC)
void Statement::Validate(CCStr file, Int32 line) const
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{
if (!m_Handle)
{
SqThrowF("Invalid SQLite statement reference =>[%s:%d]", file, line);
}
}
#else
void Statement::Validate() const
{
if (!m_Handle)
{
SqThrowF("Invalid SQLite statement reference");
}
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}
#endif // _DEBUG
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// ------------------------------------------------------------------------------------------------
#if defined(_DEBUG) || defined(SQMOD_EXCEPTLOC)
void Statement::ValidateCreated(CCStr file, Int32 line) const
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{
if (!m_Handle)
{
SqThrowF("Invalid SQLite statement reference =>[%s:%d]", file, line);
}
else if (m_Handle->mPtr == nullptr)
{
SqThrowF("Invalid SQLite statement =>[%s:%d]", file, line);
}
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}
#else
void Statement::ValidateCreated() const
{
if (!m_Handle)
{
SqThrowF("Invalid SQLite statement reference");
}
else if (m_Handle->mPtr == nullptr)
{
SqThrowF("Invalid SQLite statement");
}
}
#endif // _DEBUG
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// ------------------------------------------------------------------------------------------------
#if defined(_DEBUG) || defined(SQMOD_EXCEPTLOC)
const StmtRef & Statement::GetValid(CCStr file, Int32 line) const
{
Validate(file, line);
return m_Handle;
}
#else
const StmtRef & Statement::GetValid() const
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{
Validate();
return m_Handle;
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}
#endif // _DEBUG
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// ------------------------------------------------------------------------------------------------
#if defined(_DEBUG) || defined(SQMOD_EXCEPTLOC)
const StmtRef & Statement::GetCreated(CCStr file, Int32 line) const
{
ValidateCreated(file, line);
return m_Handle;
}
#else
const StmtRef & Statement::GetCreated() const
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{
ValidateCreated();
return m_Handle;
}
#endif // _DEBUG
// ------------------------------------------------------------------------------------------------
#if defined(_DEBUG) || defined(SQMOD_EXCEPTLOC)
void Statement::ValidateColumn(Int32 idx, CCStr file, Int32 line) const
{
ValidateCreated(file, line);
// Is the specified index in range?
if (!m_Handle->CheckColumn(idx))
{
SqThrowF("Column index is out of range: %d:%d =>[%s:%d]", idx, m_Handle->mColumns,
file, line);
}
}
#else
void Statement::ValidateColumn(Int32 idx) const
{
ValidateCreated();
// Is the specified index in range?
if (!m_Handle->CheckColumn(idx))
{
SqThrowF("Column index is out of range: %d:%d", idx, m_Handle->mColumns);
}
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}
#endif // _DEBUG
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// ------------------------------------------------------------------------------------------------
#if defined(_DEBUG) || defined(SQMOD_EXCEPTLOC)
void Statement::ValidateParameter(Int32 idx, CCStr file, Int32 line) const
{
ValidateCreated(file, line);
// Is the specified index in range?
if (!m_Handle->CheckParameter(idx))
{
SqThrowF("Parameter index is out of range: %d:%d =>[%s:%d]", idx, m_Handle->mParameters,
file, line);
}
}
#else
void Statement::ValidateParameter(Int32 idx) const
{
ValidateCreated();
// Is the specified index in range?
if (!m_Handle->CheckParameter(idx))
{
SqThrowF("Parameter index is out of range: %d:%d", idx, m_Handle->mParameters);
}
}
#endif // _DEBUG
// ------------------------------------------------------------------------------------------------
#if defined(_DEBUG) || defined(SQMOD_EXCEPTLOC)
void Statement::ValidateRow(CCStr file, Int32 line) const
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{
ValidateCreated(file, line);
// Do we have any rows available?
if (!m_Handle->mGood)
{
SqThrowF("No row available =>[%s:%d]", file, line);
}
}
#else
void Statement::ValidateRow() const
{
ValidateCreated();
// Do we have any rows available?
if (!m_Handle->mGood)
{
SqThrowF("No row available");
}
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}
#endif // _DEBUG
// ------------------------------------------------------------------------------------------------
Statement::Statement(const Connection & connection, CSStr query)
: m_Handle(new StmtHnd(connection.GetHandle()))
{
GET_VALID_HND(*this)->Create(query);
}
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// ------------------------------------------------------------------------------------------------
Object Statement::GetConnection() const
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{
return Object(new Connection(GET_VALID_HND(*this)->mConn));
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}
// ------------------------------------------------------------------------------------------------
Statement & Statement::Reset()
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{
VALIDATE_CREATED_HND(*this);
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// Specify that we don't have a row available and we haven't finished stepping
m_Handle->mGood = false;
m_Handle->mDone = false;
// Attempt to reset the statement to it's initial state
m_Handle->mStatus = sqlite3_reset(m_Handle->mPtr);
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// Validate the result
if (m_Handle->mStatus != SQLITE_OK)
{
STHROWF("Unable to reset statement [%s]", m_Handle->ErrStr());
}
// Allow further chaining of operations
return *this;
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}
// ------------------------------------------------------------------------------------------------
Statement & Statement::Clear()
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{
VALIDATE_CREATED_HND(*this);
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// Specify that we don't have a row available and we haven't finished stepping
m_Handle->mGood = false;
m_Handle->mDone = false;
// Attempt to clear the statement
m_Handle->mStatus = sqlite3_clear_bindings(m_Handle->mPtr);
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// Validate the result
if (m_Handle->mStatus != SQLITE_OK)
{
STHROWF("Unable to clear statement [%s]", m_Handle->ErrStr());
}
// Allow further chaining of operations
return *this;
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}
// ------------------------------------------------------------------------------------------------
Int32 Statement::Exec()
{
VALIDATE_CREATED_HND(*this);
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// Did we reset first?
if (m_Handle->mDone)
{
STHROWF("Executed without resetting first");
}
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// Attempt to step the statement
m_Handle->mStatus = sqlite3_step(m_Handle->mPtr);
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// Have we finished stepping?
if (m_Handle->mStatus == SQLITE_DONE)
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{
// Specify that we don't have row available and we finished stepping
m_Handle->mGood = false;
m_Handle->mDone = true;
// Return the changes made by this statement
return sqlite3_changes(m_Handle->mConn->mPtr);
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}
// Specify that we don't have any row and we haven't finished stepping
m_Handle->mGood = false;
m_Handle->mDone = false;
// Inspect the result
switch (m_Handle->mStatus)
{
// We don't expect any rows to be returned in this case!
case SQLITE_ROW: STHROWF("Results were found");
case SQLITE_BUSY: STHROWF("Database was busy");
case SQLITE_ERROR: STHROWF("Runtime error occurred");
case SQLITE_MISUSE: STHROWF("Statement misuse");
default: STHROWF("Unknown failure");
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}
// Operation failed (shouldn't reach this point!)
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return -1;
}
// ------------------------------------------------------------------------------------------------
bool Statement::Step()
{
VALIDATE_CREATED_HND(*this);
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// Did we reset first?
if (m_Handle->mDone)
{
STHROWF("Stepped without resetting first");
}
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// Attempt to step the statement
m_Handle->mStatus = sqlite3_step(m_Handle->mPtr);
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// Do we have a row available?
if (m_Handle->mStatus == SQLITE_ROW)
{
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// Specify that we have a row available
return (m_Handle->mGood = true);
}
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// Have we finished stepping?
else if (m_Handle->mStatus == SQLITE_DONE)
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{
// Specify that we finished stepping
m_Handle->mDone = true;
// Specify that we don't have a row available
return (m_Handle->mGood = false);
}
// Specify that we don't have any row and we haven't finished stepping
m_Handle->mGood = false;
m_Handle->mDone = false;
// Inspect the result
switch (m_Handle->mStatus)
{
case SQLITE_BUSY: STHROWF("Database was busy");
case SQLITE_ERROR: STHROWF("Runtime error occurred");
case SQLITE_MISUSE: STHROWF("Statement misuse");
default: STHROWF("Unknown failure");
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}
// Operation failed (shouldn't reach this point!)
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return false;
}
// ------------------------------------------------------------------------------------------------
Statement & Statement::IndexBindArray(Int32 idx, const Array & arr)
{
VALIDATE_PARAMETER_HND(*this, idx);
// Obtain a script iterator
Array::iterator itr;
// Process each element until _next returns null
while (idx <= m_Handle->mParameters && arr.Next(itr))
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{
IndexBind(idx++, Object(itr.getValue()));
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}
// Allow further chaining of operations
return *this;
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}
// ------------------------------------------------------------------------------------------------
Statement & Statement::IndexBindValue(Int32 idx, Int32 value)
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{
VALIDATE_PARAMETER_HND(*this, idx);
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// Attempt to bind the specified value
m_Handle->mStatus = sqlite3_bind_int(m_Handle->mPtr, idx, value);
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// Validate the result
if (m_Handle->mStatus != SQLITE_OK)
{
STHROWF(SQMOD_BADPARAMI, "value", idx, m_Handle->ErrMsg());
}
// Allow further chaining of operations
return *this;
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}
// ------------------------------------------------------------------------------------------------
Statement & Statement::IndexBindLong(Int32 idx, const Object & value)
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{
VALIDATE_PARAMETER_HND(*this, idx);
// Attempt to bind the specified value
m_Handle->mStatus = sqlite3_bind_int64(m_Handle->mPtr, idx, FetchSLongObjVal(value));
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// Validate the result
if (m_Handle->mStatus != SQLITE_OK)
{
STHROWF(SQMOD_BADPARAMI, "long", idx, m_Handle->ErrMsg());
}
// Allow further chaining of operations
return *this;
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}
// ------------------------------------------------------------------------------------------------
Statement & Statement::IndexBindInteger(Int32 idx, SQInteger value)
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{
VALIDATE_PARAMETER_HND(*this, idx);
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// Attempt to bind the specified value
m_Handle->mStatus = sqlite3_bind_integer(m_Handle->mPtr, idx, value);
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// Validate the result
if (m_Handle->mStatus != SQLITE_OK)
{
STHROWF(SQMOD_BADPARAMI, "integer", idx, m_Handle->ErrMsg());
}
// Allow further chaining of operations
return *this;
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}
// ------------------------------------------------------------------------------------------------
Statement & Statement::IndexBindFloat(Int32 idx, SQFloat value)
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{
VALIDATE_PARAMETER_HND(*this, idx);
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// Attempt to bind the specified value
m_Handle->mStatus = sqlite3_bind_double(m_Handle->mPtr, idx, value);
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// Validate the result
if (m_Handle->mStatus != SQLITE_OK)
{
STHROWF(SQMOD_BADPARAMI, "float", idx, m_Handle->ErrMsg());
}
// Allow further chaining of operations
return *this;
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}
// ------------------------------------------------------------------------------------------------
Statement & Statement::IndexBindString(Int32 idx, CSStr value)
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{
VALIDATE_PARAMETER_HND(*this, idx);
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// Attempt to bind the specified value
m_Handle->mStatus = sqlite3_bind_text(m_Handle->mPtr, idx, value, -1, SQLITE_TRANSIENT);
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// Validate the result
if (m_Handle->mStatus != SQLITE_OK)
{
STHROWF(SQMOD_BADPARAMI, "string", idx, m_Handle->ErrMsg());
}
// Allow further chaining of operations
return *this;
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}
// ------------------------------------------------------------------------------------------------
Statement & Statement::IndexBindBool(Int32 idx, bool value)
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{
VALIDATE_PARAMETER_HND(*this, idx);
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// Attempt to bind the specified value
m_Handle->mStatus = sqlite3_bind_int(m_Handle->mPtr, idx, value);
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// Validate the result
if (m_Handle->mStatus != SQLITE_OK)
{
STHROWF(SQMOD_BADPARAMI, "boolean", idx, m_Handle->ErrMsg());
}
// Allow further chaining of operations
return *this;
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}
// ------------------------------------------------------------------------------------------------
Statement & Statement::IndexBindNull(Int32 idx)
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{
VALIDATE_PARAMETER_HND(*this, idx);
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// Attempt to bind the specified value
m_Handle->mStatus = sqlite3_bind_null(m_Handle->mPtr, idx);
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// Validate the result
if (m_Handle->mStatus != SQLITE_OK)
{
STHROWF(SQMOD_BADPARAMI, "null", idx, m_Handle->ErrMsg());
}
// Allow further chaining of operations
return *this;
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}
// ------------------------------------------------------------------------------------------------
Statement & Statement::NameBindTable(const Table & tbl)
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{
VALIDATE_CREATED_HND(*this);
// Is there anything to bind?
if (tbl.GetSize() <= 0)
{
return *this; // Nothing to bind!
}
// Obtain a table iterator
Table::iterator itr;
// Process each element until _next returns null
while (tbl.Next(itr))
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{
// Bind it to the associated key
NameBind(itr.getName(), Object(itr.getValue()));
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}
// Allow further chaining of operations
return *this;
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}
// ------------------------------------------------------------------------------------------------
Statement & Statement::NameBindValue(CSStr name, Int32 value)
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{
VALIDATE_CREATED_HND(*this);
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// Attempt to obtain the index of the specified parameter name
FETCH_PARAMETER_NAME(idx, name)
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// Attempt to bind the specified value
m_Handle->mStatus = sqlite3_bind_int(m_Handle->mPtr, idx, value);
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// Validate the result
if (m_Handle->mStatus != SQLITE_OK)
{
STHROWF(SQMOD_BADPARAMS, "value", name, idx, m_Handle->ErrMsg());
}
// Allow further chaining of operations
return *this;
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}
// ------------------------------------------------------------------------------------------------
Statement & Statement::NameBindLong(CSStr name, const Object & value)
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{
VALIDATE_CREATED_HND(*this);
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// Attempt to obtain the index of the specified parameter name
FETCH_PARAMETER_NAME(idx, name)
// Attempt to bind the specified value
m_Handle->mStatus = sqlite3_bind_int(m_Handle->mPtr, idx, FetchSLongObjVal(value));
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// Validate the result
if (m_Handle->mStatus != SQLITE_OK)
{
STHROWF(SQMOD_BADPARAMS, "long", name, idx, m_Handle->ErrMsg());
}
// Allow further chaining of operations
return *this;
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}
// ------------------------------------------------------------------------------------------------
Statement & Statement::NameBindInteger(CSStr name, SQInteger value)
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{
VALIDATE_CREATED_HND(*this);
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// Attempt to obtain the index of the specified parameter name
FETCH_PARAMETER_NAME(idx, name)
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// Attempt to bind the specified value
m_Handle->mStatus = sqlite3_bind_integer(m_Handle->mPtr, idx, value);
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// Validate the result
if (m_Handle->mStatus != SQLITE_OK)
{
STHROWF(SQMOD_BADPARAMS, "integer", name, idx, m_Handle->ErrMsg());
}
// Allow further chaining of operations
return *this;
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}
// ------------------------------------------------------------------------------------------------
Statement & Statement::NameBindFloat(CSStr name, SQFloat value)
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{
VALIDATE_CREATED_HND(*this);
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// Attempt to obtain the index of the specified parameter name
FETCH_PARAMETER_NAME(idx, name)
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// Attempt to bind the specified value
m_Handle->mStatus = sqlite3_bind_double(m_Handle->mPtr, idx, value);
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// Validate the result
if (m_Handle->mStatus != SQLITE_OK)
{
STHROWF(SQMOD_BADPARAMS, "float", name, idx, m_Handle->ErrMsg());
}
// Allow further chaining of operations
return *this;
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}
// ------------------------------------------------------------------------------------------------
Statement & Statement::NameBindString(CSStr name, CSStr value)
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{
VALIDATE_CREATED_HND(*this);
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// Attempt to obtain the index of the specified parameter name
FETCH_PARAMETER_NAME(idx, name)
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// Attempt to bind the specified value
m_Handle->mStatus = sqlite3_bind_text(m_Handle->mPtr, idx, value, -1, SQLITE_TRANSIENT);
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// Validate the result
if (m_Handle->mStatus != SQLITE_OK)
{
STHROWF(SQMOD_BADPARAMS, "string", name, idx, m_Handle->ErrMsg());
}
// Allow further chaining of operations
return *this;
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}
// ------------------------------------------------------------------------------------------------
Statement & Statement::NameBindBool(CSStr name, bool value)
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{
VALIDATE_CREATED_HND(*this);
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// Attempt to obtain the index of the specified parameter name
FETCH_PARAMETER_NAME(idx, name)
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// Attempt to bind the specified value
m_Handle->mStatus = sqlite3_bind_int(m_Handle->mPtr, idx, value);
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// Validate the result
if (m_Handle->mStatus != SQLITE_OK)
{
STHROWF(SQMOD_BADPARAMS, "boolean", name, idx, m_Handle->ErrMsg());
}
// Allow further chaining of operations
return *this;
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}
// ------------------------------------------------------------------------------------------------
Statement & Statement::NameBindNull(CSStr name)
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{
VALIDATE_CREATED_HND(*this);
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// Attempt to obtain the index of the specified parameter name
FETCH_PARAMETER_NAME(idx, name)
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// Attempt to bind the specified value
m_Handle->mStatus = sqlite3_bind_null(m_Handle->mPtr, idx);
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// Validate the result
if (m_Handle->mStatus != SQLITE_OK)
{
STHROWF(SQMOD_BADPARAMS, "null", name, idx, m_Handle->ErrMsg());
}
// Allow further chaining of operations
return *this;
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}
// ------------------------------------------------------------------------------------------------
Statement & Statement::IndexBind(Int32 idx, const Object & value)
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{
VALIDATE_PARAMETER_HND(*this, idx);
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// Attempt to identify the specified type
switch (value.GetType())
{
// Is this a native integer value?
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case OT_INTEGER:
{
m_Handle->mStatus = sqlite3_bind_integer(m_Handle->mPtr, idx, value.Cast< SQInteger >());
} break;
// Is this a native float value?
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case OT_FLOAT:
{
m_Handle->mStatus = sqlite3_bind_double(m_Handle->mPtr, idx, value.Cast< SQFloat >());
} break;
// Is this a boolean value?
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case OT_BOOL:
{
m_Handle->mStatus = sqlite3_bind_int(m_Handle->mPtr, idx, value.Cast< bool >());
} break;
// Is this a string value?
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case OT_STRING:
{
m_Handle->mStatus = sqlite3_bind_text(m_Handle->mPtr, idx,
value.Cast< CSStr >(), -1, SQLITE_TRANSIENT);
} break;
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// Is this a null value?
case OT_NULL:
{
m_Handle->mStatus = sqlite3_bind_null(m_Handle->mPtr, idx);
} break;
// Is this an instance value? Attempt to treat it as a long integer
case OT_INSTANCE:
{
m_Handle->mStatus = sqlite3_bind_int64(m_Handle->mPtr, idx, FetchSLongObjVal(value));
} break;
// Is this an array value?
case OT_ARRAY:
{
IndexBindArray(idx, Array(value));
// No point in checking the status here
return *this;
} break;
// We don't recognize this kind of value!
default: STHROWF("Attempting to bind unknown value type (%d)", idx);
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}
// Validate the result
if (m_Handle->mStatus != SQLITE_OK)
{
STHROWF(SQMOD_BADPARAMI, "auto", idx, m_Handle->ErrMsg());
}
// Allow further chaining of operations
return *this;
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}
// ------------------------------------------------------------------------------------------------
Statement & Statement::NameBind(CSStr name, const Object & value)
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{
VALIDATE_CREATED_HND(*this);
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// Attempt to obtain the index of the specified parameter name
FETCH_PARAMETER_NAME(idx, name)
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// Attempt to identify the specified type
switch (value.GetType())
{
// Is this a native integer value?
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case OT_INTEGER:
{
m_Handle->mStatus = sqlite3_bind_integer(m_Handle->mPtr, idx, value.Cast< SQInteger >());
} break;
// Is this a native float value?
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case OT_FLOAT:
{
m_Handle->mStatus = sqlite3_bind_double(m_Handle->mPtr, idx, value.Cast< SQFloat >());
} break;
// Is this a boolean value?
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case OT_BOOL:
{
m_Handle->mStatus = sqlite3_bind_int(m_Handle->mPtr, idx, value.Cast< bool >());
} break;
// Is this a string value?
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case OT_STRING:
{
m_Handle->mStatus = sqlite3_bind_text(m_Handle->mPtr, idx,
value.Cast< CSStr >(), -1, SQLITE_TRANSIENT);
} break;
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// Is this a null value?
case OT_NULL:
{
m_Handle->mStatus = sqlite3_bind_null(m_Handle->mPtr, idx);
} break;
// Is this an instance value? Attempt to treat it as a long integer
case OT_INSTANCE:
{
m_Handle->mStatus = sqlite3_bind_int64(m_Handle->mPtr, idx, FetchSLongObjVal(value));
} break;
// Is this an array value?
case OT_ARRAY:
{
IndexBindArray(idx, Array(value));
// No point in checking the status here
return *this;
} break;
// We don't recognize this kind of value!
default: STHROWF("Attempting to bind unknown value type (%s:%d)", name, idx);
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}
// Validate the result
if (m_Handle->mStatus != SQLITE_OK)
{
STHROWF(SQMOD_BADPARAMS, "auto", name, idx, m_Handle->ErrMsg());
}
// Allow further chaining of operations
return *this;
}
// ------------------------------------------------------------------------------------------------
Statement & Statement::Bind(const Object & param, const Object & value)
{
// Identify the type of parameter was given
switch (param.GetType())
{
// Is this a string value?
case OT_STRING:
{
NameBind(param.Cast< CSStr >(), value);
} break;
// Is this an integer value? (or at least can be easily converted to one)
case OT_INTEGER:
case OT_FLOAT:
case OT_BOOL:
{
IndexBind(param.Cast< SQInteger >(), value);
} break;
// We don't recognize this kind of value!
default: STHROWF("Unknown parameter index type");
}
// Allow further chaining of operations
return *this;
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}
// ------------------------------------------------------------------------------------------------
Object Statement::FetchColumnIndex(Int32 idx) const
{
VALIDATE_CREATED_HND(*this);
// Do we have any rows available?
if (!m_Handle->mGood)
{
STHROWF("No row available");
}
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// Is the specified index valid?
else if (!m_Handle->CheckColumn(idx))
{
STHROWF("Column index is out of range: %d:%d", idx, m_Handle->mColumns);
}
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// Obtain the initial stack size
const StackGuard sg;
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// Identify which type of value must be pushed on the stack
switch (sqlite3_column_type(m_Handle->mPtr, idx))
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{
// Is this a null value?
case SQLITE_NULL:
{
sq_pushnull(DefaultVM::Get());
} break;
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// Is this an integer?
case SQLITE_INTEGER:
{
sq_pushinteger(DefaultVM::Get(), sqlite3_column_integer(m_Handle->mPtr, idx));
} break;
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// Is this a floating point?
case SQLITE_FLOAT:
{
sq_pushfloat(DefaultVM::Get(),
ConvTo< SQFloat >::From(sqlite3_column_double(m_Handle->mPtr, idx)));
} break;
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// Is this a string?
case SQLITE_TEXT:
{
sq_pushstring(DefaultVM::Get(),
reinterpret_cast< CSStr >(sqlite3_column_text(m_Handle->mPtr, idx)),
sqlite3_column_bytes(m_Handle->mPtr, idx));
} break;
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// Is this raw data?
case SQLITE_BLOB:
{
// Retrieve the size of the blob that must be allocated
const Int32 size = sqlite3_column_bytes(m_Handle->mPtr, idx);
// Retrieve the the actual blob data that must be returned
CCStr data = reinterpret_cast< CCStr >(sqlite3_column_blob(m_Handle->mPtr, idx));
// Attempt to create a buffer with the blob data on the stack
if (SQ_FAILED(_SqMod->PushBufferData(DefaultVM::Get(), data, size, size)))
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{
STHROWF("Unable to allocate buffer of at least (%d) bytes", size);
}
} break;
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// Unknown type
default: STHROWF("Unknown value to fetch at index: %d", idx);
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}
// Obtain the object with the value from the stack and return it
return Var< Object >(DefaultVM::Get(), -1).value;
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}
// ------------------------------------------------------------------------------------------------
Object Statement::FetchColumnName(CSStr name) const
{
VALIDATE_CREATED_HND(*this);
// Return the requested information
return FetchColumnIndex(m_Handle->GetColumnIndex(name));
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}
// ------------------------------------------------------------------------------------------------
Object Statement::FetchColumn(const Object & column) const
{
// Identify the type of parameter was given
switch (column.GetType())
{
// Is this a string value?
case OT_STRING:
return FetchColumnName(column.Cast< CSStr >());
// Is this an integer value? (or at least can be easily converted to one)
case OT_INTEGER:
case OT_FLOAT:
case OT_BOOL:
return FetchColumnIndex(column.Cast< SQInteger >());
// We don't recognize this kind of value!
default: STHROWF("Unknown column identifier type");
}
// We have to return something even if we don't reach this point!
return Object();
}
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// ------------------------------------------------------------------------------------------------
Array Statement::FetchArray() const
{
VALIDATE_CREATED_HND(*this);
// Return the requested information
return FetchArray(0, m_Handle->mColumns);
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}
// ------------------------------------------------------------------------------------------------
Array Statement::FetchArray(Int32 min) const
{
VALIDATE_CREATED_HND(*this);
// Return the requested information
return FetchArray(min, m_Handle->mColumns);
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}
// ------------------------------------------------------------------------------------------------
Array Statement::FetchArray(Int32 min, Int32 max) const
{
VALIDATE_ROW_HND(*this);
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// Was there anything selected?
if (min == max)
{
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return Array(); // Nothing to retrieve
}
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// Is the minimum actually the minimum?
else if (min > max)
{
STHROWF("Minimum is higher than maximum: %d > %d", min, max);
}
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// Is the minimum in range>
else if (!m_Handle->CheckColumn(min))
{
STHROWF("Minimum is out of range: %d:%d", min, m_Handle->mColumns);
}
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// Is the maximum in range?
else if (!m_Handle->CheckColumn(max))
{
STHROWF("Maximum is out of range: %d:%d", max, m_Handle->mColumns);
}
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// Allocate an array large enough to hold the values from selected columns
Array arr(DefaultVM::Get(), max-min);
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// Process the range of selected columns
for (Int32 elem = 0, idx = min; idx < max; ++elem, ++idx)
{
// Identify the type of value that must be assigned
switch (sqlite3_column_type(m_Handle->mPtr, idx))
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{
// Is this a null value?
case SQLITE_NULL:
// Array elements are initialized as null by default so we just leave it like that
break;
// Is this an integer?
case SQLITE_INTEGER:
{
arr.SetValue(elem, sqlite3_column_integer(m_Handle->mPtr, idx));
} break;
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// Is this a floating point?
case SQLITE_FLOAT:
{
arr.SetValue(elem, ConvTo< SQFloat >::From(sqlite3_column_double(m_Handle->mPtr, idx)));
} break;
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// Is this a string?
case SQLITE_TEXT:
{
arr.SetValue(elem, reinterpret_cast< CCStr >(sqlite3_column_text(m_Handle->mPtr, idx)));
} break;
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// Is this raw data?
case SQLITE_BLOB:
{
// Remember the current stack size
const StackGuard sg;
// Retrieve the size of the blob that must be allocated
const Int32 size = sqlite3_column_bytes(m_Handle->mPtr, idx);
// Retrieve the the actual blob data that must be returned
CCStr data = reinterpret_cast< CCStr >(sqlite3_column_blob(m_Handle->mPtr, idx));
// Attempt to create a buffer with the blob data on the stack
if (SQ_FAILED(_SqMod->PushBufferData(DefaultVM::Get(), data, size, size)))
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{
STHROWF("Unable to allocate buffer of at least (%d) bytes", size);
}
// Obtain the object from the stack
Var< Object > obj(DefaultVM::Get(), -1);
// Now bind it as an array element
arr.Bind(elem, obj.value);
} break;
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// Unknown type
default: STHROWF("Unknown value to fetch at index: %d", idx);
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}
}
// Return the resulted array
return arr;
}
// ------------------------------------------------------------------------------------------------
Table Statement::FetchTable() const
{
VALIDATE_CREATED_HND(*this);
// Return the requested information
return FetchTable(0, m_Handle->mColumns);
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}
// ------------------------------------------------------------------------------------------------
Table Statement::FetchTable(Int32 min) const
{
VALIDATE_CREATED_HND(*this);
// Return the requested information
return FetchTable(min, m_Handle->mColumns);
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}
// ------------------------------------------------------------------------------------------------
Table Statement::FetchTable(Int32 min, Int32 max) const
{
VALIDATE_ROW_HND(*this);
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// Was there anything selected?
if (min == max)
{
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return Table(); // Nothing to retrieve
}
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// Is the minimum actually the minimum?
else if (min > max)
{
STHROWF("Minimum is higher than maximum: %d > %d", min, max);
}
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// Is the minimum in range>
else if (!m_Handle->CheckColumn(min))
{
STHROWF("Minimum is out of range: %d:%d", min, m_Handle->mColumns);
}
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// Is the maximum in range?
else if (!m_Handle->CheckColumn(max))
{
STHROWF("Maximum is out of range: %d:%d", max, m_Handle->mColumns);
}
// Create a table to hold the selected column values
Table tbl(DefaultVM::Get());
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// Used to bind null values
Object obj;
// Process the range of selected columns
for (Int32 elem = 0, idx = min; idx < max; ++elem, ++idx)
{
//Attempt to obtain the column name
CSStr name = sqlite3_column_name(m_Handle->mPtr, idx);
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// Validate the obtained name
if (!name)
{
STHROWF("Unable to retrieve name of column (%d)", idx);
}
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// Identify the type of value that must be assigned
switch (sqlite3_column_type(m_Handle->mPtr, idx))
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{
// Is this a null value?
case SQLITE_NULL:
{
// Make sure we don't insert the same instance
obj.Release();
// Now it's safe to insert the value
tbl.SetValue(name, obj);
} break;
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// Is this an integer?
case SQLITE_INTEGER:
{
tbl.SetValue(name, sqlite3_column_integer(m_Handle->mPtr, idx));
} break;
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// Is this a floating point?
case SQLITE_FLOAT:
{
tbl.SetValue(name, ConvTo< SQFloat >::From(sqlite3_column_double(m_Handle->mPtr, idx)));
} break;
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// Is this a string?
case SQLITE_TEXT:
{
tbl.SetValue(name, reinterpret_cast< CCStr >(sqlite3_column_text(m_Handle->mPtr, idx)));
} break;
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// Is this raw data?
case SQLITE_BLOB:
{
// Remember the current stack size
const StackGuard sg;
// Retrieve the size of the blob that must be allocated
const Int32 size = sqlite3_column_bytes(m_Handle->mPtr, idx);
// Retrieve the the actual blob data that must be returned
CCStr data = reinterpret_cast< CCStr >(sqlite3_column_blob(m_Handle->mPtr, idx));
// Attempt to create a buffer with the blob data on the stack
if (SQ_FAILED(_SqMod->PushBufferData(DefaultVM::Get(), data, size, size)))
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{
STHROWF("Unable to allocate buffer of at least (%d) bytes", size);
}
// Obtain the object from the stack
Var< Object > obj(DefaultVM::Get(), -1);
// Now bind it as a table element
tbl.Bind(name, obj.value);
} break;
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// Unknown type
default: STHROWF("Unknown value to fetch at index: %d", idx);
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}
}
// Return the resulted table
return tbl;
}
// ------------------------------------------------------------------------------------------------
bool Statement::CheckColumn(Int32 idx) const
{
VALIDATE_CREATED_HND(*this);
// Return the requested information
return m_Handle->CheckColumn(idx);
}
// ------------------------------------------------------------------------------------------------
bool Statement::CheckParameter(Int32 idx) const
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{
VALIDATE_CREATED_HND(*this);
// Return the requested information
return m_Handle->CheckParameter(idx);
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}
// ------------------------------------------------------------------------------------------------
bool Statement::IsColumnNull(Int32 idx) const
{
VALIDATE_COLUMN_HND(*this, idx);
// Return the requested information
return (sqlite3_column_type(m_Handle->mPtr, idx) == SQLITE_NULL);
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}
// ------------------------------------------------------------------------------------------------
Int32 Statement::GetColumnIndex(CSStr name) const
{
VALIDATE_CREATED_HND(*this);
// Return the requested information
return m_Handle->GetColumnIndex(name);
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}
// ------------------------------------------------------------------------------------------------
CSStr Statement::GetColumnName(Int32 idx) const
{
VALIDATE_COLUMN_HND(*this, idx);
// Return the requested information
return sqlite3_column_name(m_Handle->mPtr, idx);
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}
// ------------------------------------------------------------------------------------------------
CSStr Statement::GetColumnOriginName(Int32 idx) const
{
#ifdef SQLITE_ENABLE_COLUMN_METADATA
VALIDATE_COLUMN_HND(*this, idx);
// Return the requested information
return sqlite3_column_origin_name(m_Handle->mPtr, idx);
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#else
// The compiler moans when extra warnings are enabled
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SQMOD_UNUSED_VAR(idx);
// Stop the execution here!
STHROWF("The module was compiled without this feature");
// We have to return something
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return _SC("");
#endif
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}
// ------------------------------------------------------------------------------------------------
Int32 Statement::GetColumnType(Int32 idx) const
{
VALIDATE_COLUMN_HND(*this, idx);
// Return the requested information
return sqlite3_column_type(m_Handle->mPtr, idx);
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}
// ------------------------------------------------------------------------------------------------
Int32 Statement::GetColumnBytes(Int32 idx) const
{
VALIDATE_COLUMN_HND(*this, idx);
// Return the requested information
return sqlite3_column_bytes(m_Handle->mPtr, idx);
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}
// ------------------------------------------------------------------------------------------------
Object Statement::GetColumnByIndex(Int32 idx) const
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{
VALIDATE_COLUMN_HND(*this, idx);
// Return the requested information
return Object(new Column(m_Handle, idx));
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}
// ------------------------------------------------------------------------------------------------
Object Statement::GetColumnByName(CSStr name) const
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{
VALIDATE_CREATED_HND(*this);
// Attempt to obtain the requested column index
const Int32 idx = m_Handle->GetColumnIndex(name);
// Validate the obtained index
if (idx < 0)
{
STHROWF("Unknown column named (%s)", name);
}
// Return the requested column
return Object(new Column(m_Handle, idx));
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}
// ------------------------------------------------------------------------------------------------
Object Statement::GetColumn(const Object & column) const
{
// Identify the type of parameter was given
switch (column.GetType())
{
// Is this a string value?
case OT_STRING:
return GetColumnByName(column.Cast< CSStr >());
// Is this an integer value? (or at least can be easily converted to one)
case OT_INTEGER:
case OT_FLOAT:
case OT_BOOL:
return GetColumnByIndex(column.Cast< SQInteger >());
// We don't recognize this kind of value!
default: STHROWF("Unknown column identifier type");
}
// We have to return something even if we don't reach this point!
return Object();
}
// ------------------------------------------------------------------------------------------------
Int32 Statement::GetDataCount() const
{
VALIDATE_ROW_HND(*this);
// Return the requested information
return sqlite3_data_count(m_Handle->mPtr);
}
// ------------------------------------------------------------------------------------------------
Int32 Statement::GetParameterIndex(CSStr name) const
{
VALIDATE_CREATED_HND(*this);
// Return the requested information
return sqlite3_bind_parameter_index(m_Handle->mPtr, name);
}
// ------------------------------------------------------------------------------------------------
CSStr Statement::GetParameterName(Int32 idx) const
{
VALIDATE_PARAMETER_HND(*this, idx);
// Return the requested information
return sqlite3_bind_parameter_name(m_Handle->mPtr, idx);
}
// ================================================================================================
void Register_Statement(Table & sqlns)
{
sqlns.Bind(_SC("Statement"),
Class< Statement >(sqlns.GetVM(), _SC("SqSQLiteStatement"))
// Constructors
.Ctor()
.Ctor< const Connection &, CCStr >()
.Ctor< const Statement & >()
// Meta-methods
.Func(_SC("_cmp"), &Statement::Cmp)
.SquirrelFunc(_SC("_typename"), &Statement::Typename)
.Func(_SC("_tostring"), &Statement::ToString)
// Properties
.Prop(_SC("IsValid"), &Statement::IsValid)
.Prop(_SC("Prepared"), &Statement::IsPrepared)
.Prop(_SC("References"), &Statement::GetReferences)
.Prop(_SC("Connection"), &Statement::GetConnection)
.Prop(_SC("Status"), &Statement::GetStatus)
.Prop(_SC("ErrCode"), &Statement::GetErrorCode)
.Prop(_SC("ExErrCode"), &Statement::GetExtendedErrorCode)
.Prop(_SC("ExtendedErrCode"), &Statement::GetExtendedErrorCode)
.Prop(_SC("ErrStr"), &Statement::GetErrStr)
.Prop(_SC("ErrMsg"), &Statement::GetErrMsg)
.Prop(_SC("Columns"), &Statement::GetColumns)
.Prop(_SC("Parameters"), &Statement::GetParameters)
.Prop(_SC("Query"), &Statement::GetQuery)
.Prop(_SC("Good"), &Statement::GetGood)
.Prop(_SC("Done"), &Statement::GetDone)
.Prop(_SC("DataCount"), &Statement::GetDataCount)
// Member Methods
.Func(_SC("Release"), &Statement::Release)
.Func(_SC("Reset"), &Statement::Reset)
.Func(_SC("Clear"), &Statement::Clear)
.Func(_SC("Exec"), &Statement::Exec)
.Func(_SC("Step"), &Statement::Step)
.Func(_SC("BindArrayI"), &Statement::IndexBindArray)
.Func(_SC("BindValueI"), &Statement::IndexBindValue)
.Func(_SC("BindLongI"), &Statement::IndexBindLong)
.Func(_SC("BindIntegerI"), &Statement::IndexBindInteger)
.Func(_SC("BindFloatI"), &Statement::IndexBindFloat)
.Func(_SC("BindStringI"), &Statement::IndexBindString)
.Func(_SC("BindBoolI"), &Statement::IndexBindBool)
.Func(_SC("BindNullI"), &Statement::IndexBindNull)
.Func(_SC("BindTableN"), &Statement::NameBindTable)
.Func(_SC("BindValueN"), &Statement::NameBindValue)
.Func(_SC("BindLongN"), &Statement::NameBindLong)
.Func(_SC("BindIntegerN"), &Statement::NameBindInteger)
.Func(_SC("BindFloatN"), &Statement::NameBindFloat)
.Func(_SC("BindStringN"), &Statement::NameBindString)
.Func(_SC("BindBoolN"), &Statement::NameBindBool)
.Func(_SC("BindNullN"), &Statement::NameBindNull)
.Func(_SC("BindI"), &Statement::IndexBind)
.Func(_SC("BindN"), &Statement::NameBind)
.Func(_SC("Bind"), &Statement::Bind)
.Func(_SC("FetchI"), &Statement::FetchColumnIndex)
.Func(_SC("FetchN"), &Statement::FetchColumnName)
.Func(_SC("Fetch"), &Statement::FetchColumn)
.Func(_SC("CheckColumn"), &Statement::CheckColumn)
.Func(_SC("CheckParameter"), &Statement::CheckParameter)
.Func(_SC("IsColumnNull"), &Statement::IsColumnNull)
.Func(_SC("ColumnIndex"), &Statement::GetColumnIndex)
.Func(_SC("ColumnName"), &Statement::GetColumnName)
.Func(_SC("ColumnOriginName"), &Statement::GetColumnOriginName)
.Func(_SC("ColumnType"), &Statement::GetColumnType)
.Func(_SC("ColumnBytes"), &Statement::GetColumnBytes)
.Func(_SC("GetI"), &Statement::GetColumnByIndex)
.Func(_SC("GetN"), &Statement::GetColumnByName)
.Func(_SC("Get"), &Statement::GetColumn)
.Func(_SC("GetParameterIndex"), &Statement::GetParameterIndex)
.Func(_SC("GetParameterName"), &Statement::GetParameterName)
// Member overloads
.Overload< Array (Statement::*)(void) const >(_SC("FetchArray"), &Statement::FetchArray)
.Overload< Array (Statement::*)(Int32) const >(_SC("FetchArray"), &Statement::FetchArray)
.Overload< Array (Statement::*)(Int32, Int32) const >(_SC("FetchArray"), &Statement::FetchArray)
.Overload< Table (Statement::*)(void) const >(_SC("FetchTable"), &Statement::FetchTable)
.Overload< Table (Statement::*)(Int32) const >(_SC("FetchTable"), &Statement::FetchTable)
.Overload< Table (Statement::*)(Int32, Int32) const >(_SC("FetchTable"), &Statement::FetchTable)
);
}
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} // Namespace:: SqMod