1
0
mirror of https://github.com/VCMP-SqMod/SqMod.git synced 2024-11-09 01:07:16 +01:00
SqMod/modules/sqlite/Column.cpp
Sandu Liviu Catalin 66d1110733 Rvised the API distribution system to avoid segmentation fault crashes on Linux and make the overal code cleaner.
Moved the constants in IRC module into their own source and implemented a faster method of registering them.
Various other minor changes and adjustments. Some of them in order to comply with the new API distribution system.
2016-07-17 03:24:07 +03:00

549 lines
18 KiB
C++

// ------------------------------------------------------------------------------------------------
#include "Column.hpp"
// ------------------------------------------------------------------------------------------------
#include <cerrno>
#include <cstdlib>
#include <cstring>
// ------------------------------------------------------------------------------------------------
namespace SqMod {
// ------------------------------------------------------------------------------------------------
static inline bool IsDigitsOnly(CSStr str)
{
while (std::isdigit(*str) || std::isspace(*str))
{
++str;
}
// Return whether we reached the end while searching
return *str == '\0';
}
// ------------------------------------------------------------------------------------------------
SQInteger Column::Typename(HSQUIRRELVM vm)
{
static const SQChar name[] = _SC("SqSQLiteColumn");
sq_pushstring(vm, name, sizeof(name));
return 1;
}
// ------------------------------------------------------------------------------------------------
#if defined(_DEBUG) || defined(SQMOD_EXCEPTLOC)
void Column::Validate(CCStr file, Int32 line) const
{
// Are we pointing to a valid index?
if (m_Index < 0)
{
SqThrowF("Invalid column index: %d < 0 =>[%s:%d]", m_Index, file, line);
}
// Do we have a valid statement handle?
else if (!m_Handle)
{
SqThrowF("Invalid SQLite statement reference =>[%s:%d]", file, line);
}
}
#else
void Column::Validate() const
{
// Are we pointing to a valid index?
if (m_Index < 0)
{
SqThrowF("Invalid column index: %d < 0", m_Index);
}
// Do we have a valid statement handle?
else if (!m_Handle)
{
SqThrowF("Invalid SQLite statement reference");
}
}
#endif // _DEBUG
// ------------------------------------------------------------------------------------------------
#if defined(_DEBUG) || defined(SQMOD_EXCEPTLOC)
void Column::ValidateCreated(CCStr file, Int32 line) const
{
// Are we pointing to a valid index?
if (m_Index < 0)
{
SqThrowF("Invalid column index: %d < 0 =>[%s:%d]", m_Index, file, line);
}
else 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);
}
}
#else
void Column::ValidateCreated() const
{
// Are we pointing to a valid index?
if (m_Index < 0)
{
SqThrowF("Invalid column index: %d < 0", m_Index);
}
else if (!m_Handle)
{
SqThrowF("Invalid SQLite statement reference");
}
else if (m_Handle->mPtr == nullptr)
{
SqThrowF("Invalid SQLite statement");
}
}
#endif // _DEBUG
// ------------------------------------------------------------------------------------------------
#if defined(_DEBUG) || defined(SQMOD_EXCEPTLOC)
const StmtRef & Column::GetValid(CCStr file, Int32 line) const
{
Validate(file, line);
return m_Handle;
}
#else
const StmtRef & Column::GetValid() const
{
Validate();
return m_Handle;
}
#endif // _DEBUG
// ------------------------------------------------------------------------------------------------
#if defined(_DEBUG) || defined(SQMOD_EXCEPTLOC)
const StmtRef & Column::GetCreated(CCStr file, Int32 line) const
{
ValidateCreated(file, line);
return m_Handle;
}
#else
const StmtRef & Column::GetCreated() const
{
ValidateCreated();
return m_Handle;
}
#endif // _DEBUG
// ------------------------------------------------------------------------------------------------
#if defined(_DEBUG) || defined(SQMOD_EXCEPTLOC)
void Column::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 Column::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);
}
}
#endif // _DEBUG
// ------------------------------------------------------------------------------------------------
#if defined(_DEBUG) || defined(SQMOD_EXCEPTLOC)
void Column::ValidateRow(CCStr file, Int32 line) const
{
ValidateCreated(file, line);
// Do we have any rows available?
if (!m_Handle->mGood)
{
STHROWF("No row available =>[%s:%d]", file, line);
}
}
#else
void Column::ValidateRow() const
{
ValidateCreated();
// Do we have any rows available?
if (!m_Handle->mGood)
{
STHROWF("No row available");
}
}
#endif // _DEBUG
// ------------------------------------------------------------------------------------------------
void Column::SetIndex(const Object & column)
{
// Where the index will be extracted
Int32 idx = -1;
// Grab the object virtual machine
HSQUIRRELVM vm = column.GetVM();
// Remember the current stack size
const StackGuard sg(vm);
// Push the specified object onto the stack
Var< const Object & >::push(vm, column);
// Identify the type of column was given
switch (column.GetType())
{
// Is this a string value?
case OT_STRING:
{
// Obtain the object from the stack as a string
const StackStrF val(vm, -1, false);
// Validate the result
if (SQ_FAILED(val.mRes))
{
STHROWF("%s", LastErrorString(vm).c_str());
}
// Is the obtained string empty?
else if (val.mLen <= 0)
{
STHROWF("Cannot use an empty column name");
}
// Attempt to find a column with the specified name
idx = m_Handle->GetColumnIndex(val.mPtr);
} break;
// Is this an integer value? (or at least can be easily converted to one)
case OT_INTEGER:
case OT_FLOAT:
case OT_BOOL:
{
idx = ConvTo< Int32 >::From(SqMod_PopStackInteger(vm, -1));
} break;
// Is this an instance that we can extract either a string or integer from it?
case OT_INSTANCE:
{
// Obtain the object from the stack as a string
const StackStrF val(vm, -1, false);
// Validate the result
if (SQ_FAILED(val.mRes))
{
STHROWF("%s", LastErrorString(vm).c_str());
}
// Is the obtained string empty?
else if (val.mLen <= 0)
{
STHROWF("Cannot use an empty column name");
}
// Check if this value is made only of digits
else if (IsDigitsOnly(val.mPtr))
{
idx = ConvNum< Int32 >::FromStr(val.mPtr);
}
// Attempt to find a column with the specified name
else
{
idx = m_Handle->GetColumnIndex(val.mPtr);
}
} break;
// We don't recognize this kind of value!
default: STHROWF("Unknown column index of type (%s)", SqTypeName(column.GetType()));
}
// Validate the obtained column index
SQMOD_VALIDATE_COLUMN(*this, idx);
// Assign the new index
m_Index = idx;
}
// ------------------------------------------------------------------------------------------------
Object Column::GetStatement() const
{
return GetStatementObj(m_Handle);
}
// ------------------------------------------------------------------------------------------------
Object Column::GetConnection() const
{
return GetConnectionObj(SQMOD_GET_VALID(*this)->mConn);
}
// ------------------------------------------------------------------------------------------------
bool Column::IsNull() const
{
return (sqlite3_column_type(SQMOD_GET_CREATED(*this)->mPtr, m_Index) == SQLITE_NULL);
}
// ------------------------------------------------------------------------------------------------
CSStr Column::GetName() const
{
return sqlite3_column_name(SQMOD_GET_CREATED(*this)->mPtr, m_Index);
}
// ------------------------------------------------------------------------------------------------
CSStr Column::GetOriginName() const
{
#ifdef SQLITE_ENABLE_COLUMN_METADATA
return sqlite3_column_origin_name(SQMOD_GET_CREATED(*this)->mPtr, m_Index);
#else
STHROWF("The module was compiled without this feature");
// Request failed
return _SC("");
#endif
}
// ------------------------------------------------------------------------------------------------
Int32 Column::GetType() const
{
return sqlite3_column_type(SQMOD_GET_CREATED(*this)->mPtr, m_Index);
}
// ------------------------------------------------------------------------------------------------
Int32 Column::GetBytes() const
{
return sqlite3_column_bytes(SQMOD_GET_CREATED(*this)->mPtr, m_Index);
}
// ------------------------------------------------------------------------------------------------
Object Column::GetValue() const
{
SQMOD_VALIDATE_ROW(*this);
// Obtain the initial stack size
const StackGuard sg;
// Identify which type of value must be pushed on the stack
switch (sqlite3_column_type(m_Handle->mPtr, m_Index))
{
// Is this a null value?
case SQLITE_NULL:
{
sq_pushnull(DefaultVM::Get());
} break;
// Is this an integer?
case SQLITE_INTEGER:
{
sq_pushinteger(DefaultVM::Get(), sqlite3_column_integer(m_Handle->mPtr, m_Index));
} break;
// Is this a floating point?
case SQLITE_FLOAT:
{
sq_pushfloat(DefaultVM::Get(),
ConvTo< SQFloat >::From(sqlite3_column_double(m_Handle->mPtr, m_Index)));
} break;
// Is this a string?
case SQLITE_TEXT:
{
sq_pushstring(DefaultVM::Get(),
reinterpret_cast< CSStr >(sqlite3_column_text(m_Handle->mPtr, m_Index)),
sqlite3_column_bytes(m_Handle->mPtr, m_Index));
} break;
// 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, m_Index);
// Retrieve the the actual blob data that must be returned
CCStr data = reinterpret_cast< CCStr >(sqlite3_column_blob(m_Handle->mPtr, m_Index));
// Attempt to create a buffer with the blob data on the stack
if (SQ_FAILED(SqMod_PushBufferData(DefaultVM::Get(), data, size, 0)))
{
STHROWF("Unable to allocate buffer of at least (%d) bytes", size);
}
} break;
// Unknown type
default: STHROWF("Unknown value to fetch at index: %d", m_Index);
}
// Obtain the object with the value from the stack and return it
return Var< Object >(DefaultVM::Get(), -1).value;
}
// ------------------------------------------------------------------------------------------------
Object Column::GetNumber() const
{
SQMOD_VALIDATE_ROW(*this);
// Obtain the initial stack size
const StackGuard sg;
// Identify which type of value must be pushed on the stack
switch (sqlite3_column_type(m_Handle->mPtr, m_Index))
{
// Is this a null value?
case SQLITE_NULL:
{
sq_pushinteger(DefaultVM::Get(), 0);
} break;
// Is this an integer?
case SQLITE_INTEGER:
{
sq_pushinteger(DefaultVM::Get(), sqlite3_column_integer(m_Handle->mPtr, m_Index));
} break;
// Is this a floating point?
case SQLITE_FLOAT:
{
sq_pushfloat(DefaultVM::Get(),
ConvTo< SQFloat >::From(sqlite3_column_double(m_Handle->mPtr, m_Index)));
} break;
// Is this a string?
case SQLITE_TEXT:
{
CSStr str = reinterpret_cast< CSStr >(sqlite3_column_text(m_Handle->mPtr, m_Index));
// Is there even a string to parse?
if (!str || *str == '\0')
{
sq_pushinteger(DefaultVM::Get(), 0);
}
// Can we treat this string as a float?
else if (!std::strchr(str, '.'))
{
sq_pushfloat(DefaultVM::Get(),
ConvTo< SQFloat >::From(std::strtod(str, nullptr)));
}
else
{
sq_pushinteger(DefaultVM::Get(),
ConvTo< SQInteger >::From(std::strtoll(str, nullptr, 10)));
}
} break;
// Unknown type
default: STHROWF("Unknown number to fetch at index: %d", m_Index);
}
// Obtain the object with the value from the stack and return it
return Var< Object >(DefaultVM::Get(), -1).value;
}
// ------------------------------------------------------------------------------------------------
SQInteger Column::GetInteger() const
{
SQMOD_VALIDATE_ROW(*this);
// Return the requested information
return sqlite3_column_integer(m_Handle->mPtr, m_Index);
}
// ------------------------------------------------------------------------------------------------
SQFloat Column::GetFloat() const
{
SQMOD_VALIDATE_ROW(*this);
// Return the requested information
return ConvTo< SQFloat >::From(sqlite3_column_double(m_Handle->mPtr, m_Index));
}
// ------------------------------------------------------------------------------------------------
Object Column::GetLong() const
{
SQMOD_VALIDATE_ROW(*this);
// Return the requested information
return MakeSLongObj(sqlite3_column_int64(m_Handle->mPtr, m_Index));
}
// ------------------------------------------------------------------------------------------------
Object Column::GetString() const
{
SQMOD_VALIDATE_ROW(*this);
// Obtain the initial stack size
const StackGuard sg;
// Push the column text on the stack
sq_pushstring(DefaultVM::Get(), reinterpret_cast< CSStr >(sqlite3_column_text(m_Handle->mPtr, m_Index)),
sqlite3_column_bytes(m_Handle->mPtr, m_Index));
// Get the object from the stack and return it
return Var< Object >(DefaultVM::Get(), -1).value;
}
// ------------------------------------------------------------------------------------------------
bool Column::GetBoolean() const
{
SQMOD_VALIDATE_ROW(*this);
// Return the requested information
return sqlite3_column_int(m_Handle->mPtr, m_Index) > 0;
}
// ------------------------------------------------------------------------------------------------
SQChar Column::GetChar() const
{
SQMOD_VALIDATE_ROW(*this);
// Return the requested information
return (SQChar)sqlite3_column_int(m_Handle->mPtr, m_Index);
}
// ------------------------------------------------------------------------------------------------
Object Column::GetBuffer() const
{
SQMOD_VALIDATE_ROW(*this);
// 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, m_Index);
// Retrieve the the actual blob data that must be returned
CCStr data = reinterpret_cast< CCStr >(sqlite3_column_blob(m_Handle->mPtr, m_Index));
// Attempt to create a buffer with the blob data on the stack
if (SQ_FAILED(SqMod_PushBufferData(DefaultVM::Get(), data, size, size)))
{
STHROWF("Unable to allocate buffer of at least (%d) bytes", size);
}
// Get the object from the stack and return it
return Var< Object >(DefaultVM::Get(), -1).value;
}
// ------------------------------------------------------------------------------------------------
Object Column::GetBlob() const
{
SQMOD_VALIDATE_ROW(*this);
// Obtain the initial stack size
const StackGuard sg;
// Obtain the size of the data
const Int32 sz = sqlite3_column_bytes(m_Handle->mPtr, m_Index);
// Allocate a blob of the same size
SQUserPointer p = sqstd_createblob(DefaultVM::Get(), sz);
// Obtain a pointer to the data
const void * b = sqlite3_column_blob(m_Handle->mPtr, m_Index);
// Could the memory blob be allocated?
if (!p)
{
STHROWF("Unable to allocate space for column blob value");
}
// Is there any data to read?
else if (!b)
{
// Pop the memory blob from the stack
sq_pop(DefaultVM::Get(), 1);
// Push a null value instead
sq_pushnull(DefaultVM::Get());
}
// Copy the data into the memory blob
else
{
std::memcpy(p, b, sz);
}
// Get the object from the stack and return it
return Var< Object >(DefaultVM::Get(), -1).value;
}
// ================================================================================================
void Register_Column(Table & sqlns)
{
sqlns.Bind(_SC("Column"),
Class< Column >(sqlns.GetVM(), _SC("SqSQLiteColumn"))
// Constructors
.Ctor()
.Ctor< const Column & >()
// Meta-methods
.Func(_SC("_cmp"), &Column::Cmp)
.SquirrelFunc(_SC("_typename"), &Column::Typename)
.Func(_SC("_tostring"), &Column::ToString)
// Properties
.Prop(_SC("IsValid"), &Column::IsValid)
.Prop(_SC("References"), &Column::GetRefCount)
.Prop(_SC("Index"), &Column::GetIndex)
.Prop(_SC("Statement"), &Column::GetNumber)
.Prop(_SC("Connection"), &Column::GetConnection)
.Prop(_SC("IsNull"), &Column::IsNull)
.Prop(_SC("Name"), &Column::GetName)
.Prop(_SC("OriginName"), &Column::GetOriginName)
.Prop(_SC("Type"), &Column::GetType)
.Prop(_SC("Bytes"), &Column::GetBytes)
.Prop(_SC("Value"), &Column::GetValue)
.Prop(_SC("Number"), &Column::GetNumber)
.Prop(_SC("Integer"), &Column::GetInteger)
.Prop(_SC("Float"), &Column::GetFloat)
.Prop(_SC("Long"), &Column::GetLong)
.Prop(_SC("String"), &Column::GetString)
.Prop(_SC("Boolean"), &Column::GetBoolean)
.Prop(_SC("Char"), &Column::GetChar)
.Prop(_SC("Buffer"), &Column::GetBuffer)
.Prop(_SC("Blob"), &Column::GetBlob)
// Member Methods
.Func(_SC("Release"), &Column::Release)
);
}
} // Namespace:: SqMod