SqMod/source/Base/Shared.hpp

#ifndef _BASE_SHARED_HPP_
#define _BASE_SHARED_HPP_

// ------------------------------------------------------------------------------------------------
#include "SqBase.hpp"

// ------------------------------------------------------------------------------------------------
#include <cmath>
#include <limits>

// ------------------------------------------------------------------------------------------------
#include <vcmp.h>
#include <sqrat.h>

// ------------------------------------------------------------------------------------------------
namespace SqMod {

// ------------------------------------------------------------------------------------------------
extern const SQChar * g_EmptyStr;

/* ------------------------------------------------------------------------------------------------
 * Proxies to communicate with the server.
*/
extern PluginFuncs*         _Func;
extern PluginCallbacks*     _Clbk;
extern PluginInfo*          _Info;

/* ------------------------------------------------------------------------------------------------
 * Implements RAII to restore the VM stack to it's initial size on function exit.
*/
struct StackGuard
{
    /* --------------------------------------------------------------------------------------------
     * Default constructor.
    */
    StackGuard()
        : m_Top(sq_gettop(DefaultVM::Get())), m_VM(DefaultVM::Get())
    {
        /* ... */
    }

    /* --------------------------------------------------------------------------------------------
     * Base constructor.
    */
    StackGuard(HSQUIRRELVM vm)
        : m_Top(sq_gettop(vm)), m_VM(vm)
    {
        /* ... */
    }

    /* --------------------------------------------------------------------------------------------
     * Copy constructor. (disabled)
    */
    StackGuard(const StackGuard &) = delete;

    /* --------------------------------------------------------------------------------------------
     * Move constructor. (disabled)
    */
    StackGuard(StackGuard &&) = delete;

    /* --------------------------------------------------------------------------------------------
     * Destructor.
    */
    ~StackGuard()
    {
        sq_pop(m_VM, sq_gettop(m_VM) - m_Top);
    }

    /* --------------------------------------------------------------------------------------------
     * Copy assignment operator. (disabled)
    */
    StackGuard & operator = (const StackGuard &) = delete;

    /* --------------------------------------------------------------------------------------------
     * Move assignment operator. (disabled)
    */
    StackGuard & operator = (StackGuard &&) = delete;

private:

    // --------------------------------------------------------------------------------------------
    Int32       m_Top; /* The top of the stack when this instance was created. */
    HSQUIRRELVM m_VM; /* The VM where the stack should be restored. */
};

/* ------------------------------------------------------------------------------------------------
 * Helper structure for retrieving a value from the stack as a string or a formatted string.
*/
struct StackStrF
{
    // --------------------------------------------------------------------------------------------
    CSStr       mPtr; // Pointer to the C string that was retrieved.
    SQInteger   mLen; // The string length if it could be retrieved.
    SQRESULT    mRes; // The result of the retrieval attempts.
    HSQOBJECT   mObj; // Strong reference to the string object.
    HSQUIRRELVM mVM; // The associated virtual machine.

    /* --------------------------------------------------------------------------------------------
     * Base constructor.
    */
    StackStrF(HSQUIRRELVM vm, SQInteger idx, bool fmt = true);

    /* --------------------------------------------------------------------------------------------
     * Copy constructor. (disabled)
    */
    StackStrF(const StackStrF & o) = delete;

    /* --------------------------------------------------------------------------------------------
     * Copy constructor. (disabled)
    */
    StackStrF(StackStrF && o) = delete;

    /* --------------------------------------------------------------------------------------------
     * Destructor.
    */
    ~StackStrF();

    /* --------------------------------------------------------------------------------------------
     * Copy constructor. (disabled)
    */
    StackStrF & operator = (const StackStrF & o) = delete;

    /* --------------------------------------------------------------------------------------------
     * Copy constructor. (disabled)
    */
    StackStrF & operator = (StackStrF && o) = delete;
};

/* ------------------------------------------------------------------------------------------------
 * Perform an equality comparison between two values taking into account floating point issues.
*/
template< typename T > inline bool EpsEq(const T a, const T b)
{
    return abs(a - b) <= 0;
}

template <> inline bool EpsEq(const Float32 a, const Float32 b)
{
    return fabs(a - b) <= 0.000001f;
}

template <> inline bool EpsEq(const Float64 a, const Float64 b)
{
    return fabs(a - b) <= 0.000000001d;
}

/* ------------------------------------------------------------------------------------------------
 * Perform a less than comparison between two values taking into account floating point issues.
*/
template< typename T > inline bool EpsLt(const T a, const T b)
{
    return !EpsEq(a, b) && (a < b);
}

template <> inline bool EpsLt(const Float32 a, const Float32 b)
{
    return !EpsEq(a, b) && (a - b) < 0.000001f;
}

template <> inline bool EpsLt(const Float64 a, const Float64 b)
{
    return !EpsEq(a, b) && (a - b) < 0.000000001d;
}

/* ------------------------------------------------------------------------------------------------
 * Perform a greater than comparison between two values taking into account floating point issues.
*/
template< typename T > inline bool EpsGt(const T a, const T b)
{
    return !EpsEq(a, b) && (a > b);
}

template <> inline bool EpsGt(const Float32 a, const Float32 b)
{
    return !EpsEq(a, b) && (a - b) > 0.000001f;
}

template <> inline bool EpsGt(const Float64 a, const Float64 b)
{
    return !EpsEq(a, b) && (a - b) > 0.000000001d;
}

/* ------------------------------------------------------------------------------------------------
 * Perform a less than or equal comparison between two values taking into account
 * floating point issues.
*/
template< typename T > inline bool EpsLtEq(const T a, const T b)
{
    return !EpsEq(a, b) || (a < b);
}

template <> inline bool EpsLtEq(const Float32 a, const Float32 b)
{
    return !EpsEq(a, b) || (a - b) < 0.000001f;
}

template <> inline bool EpsLtEq(const Float64 a, const Float64 b)
{
    return !EpsEq(a, b) || (a - b) < 0.000000001d;
}

/* ------------------------------------------------------------------------------------------------
 * Perform a greater than or equal comparison between two values taking into account
 * floating point issues.
*/
template< typename T > inline bool EpsGtEq(const T a, const T b)
{
    return !EpsEq(a, b) || (a > b);
}

template <> inline bool EpsGtEq(const Float32 a, const Float32 b)
{
    return !EpsEq(a, b) || (a - b) > 0.000001f;
}

template <> inline bool EpsGtEq(const Float64 a, const Float64 b)
{
    return !EpsEq(a, b) || (a - b) > 0.000000001d;
}

/* ------------------------------------------------------------------------------------------------
 * Force a value to be within a certain range.
*/
template< typename T > inline T Clamp(T val, T min, T max)
{
    return val < min ? min : (val > max ? max : val);
}

/* ------------------------------------------------------------------------------------------------
 * Force a value to be the boundaries of the specified type.
*/
template< typename T, typename U > inline U ClampL(T val)
{
    // Is the specified value bellow the minimum?
    if (val < std::numeric_limits< U >::min())
    {
        return std::numeric_limits< U >::min();
    }
    // Is the specified value above the maximum?
    else if (val > std::numeric_limits< U >::max())
    {
        return std::numeric_limits< U >::max();
    }
    // Return the value as is
    return static_cast< U >(val);
}

/* ------------------------------------------------------------------------------------------------
 * Compute the next power of two for the specified number.
*/
inline Uint32 NextPow2(Uint32 num)
{
    --num;
    num |= num >> 1;
    num |= num >> 2;
    num |= num >> 4;
    num |= num >> 8;
    num |= num >> 16;
    return ++num;
}

/* ------------------------------------------------------------------------------------------------
 * Output a message only if the _DEBUG was defined.
*/
void OutputDebug(const char * msg, ...);

/* ------------------------------------------------------------------------------------------------
 * Output a formatted user message to the console.
*/
void OutputMessage(const char * msg, ...);

/* ------------------------------------------------------------------------------------------------
 * Output a formatted error message to the console.
*/
void OutputError(const char * msg, ...);

/* ------------------------------------------------------------------------------------------------
 * Retrieve a reference to a null script object.
*/
Object & NullObject();

/* ------------------------------------------------------------------------------------------------
 * Retrieve a reference to a null/empty script array.
*/
Array & NullArray();

/* ------------------------------------------------------------------------------------------------
 * Retrieve a reference to a null script function.
*/
Function & NullFunction();

/* ------------------------------------------------------------------------------------------------
 * Create a script string object from a buffer.
*/
Object BufferToStrObj(const Buffer & b);

/* ------------------------------------------------------------------------------------------------
 * Create a script string object from a portion of a buffer.
*/
Object BufferToStrObj(const Buffer & b, Uint32 size);

/* ------------------------------------------------------------------------------------------------
 * Create a script object from the specified value on the default VM.
*/
template < typename T > Object MakeObject(const T & v)
{
    // Remember the current stack size
    const StackGuard sg;
    // Transform the specified value into a script object
    PushVar< T >(DefaultVM::Get(), v);
    // Get the object from the stack and return it
    return Var< Object >(DefaultVM::Get(), -1).value;
}

/* ------------------------------------------------------------------------------------------------
 * Create a script object from the specified value on the specified VM.
*/
template < typename T > Object MakeObject(HSQUIRRELVM vm, const T & v)
{
    // Remember the current stack size
    const StackGuard sg;
    // Transform the specified value into a script object
    PushVar< T >(vm, v);
    // Get the object from the stack and return it
    return Var< Object >(vm, -1).value;
}

/* ------------------------------------------------------------------------------------------------
 * Simple function to check whether the specified string can be considered as a boolean value
*/
bool SToB(CSStr str);

/* ------------------------------------------------------------------------------------------------
 * Generate a formatted string and throw it as a sqrat exception.
*/
void SqThrowF(CCStr fmt, ...);

/* ------------------------------------------------------------------------------------------------
 * Quickly generate a formatted string on a small static buffer without any memory allocations.
*/
CSStr ToStrF(CCStr fmt, ...);

/* ------------------------------------------------------------------------------------------------
 * Generate a formatted string on a temporary buffer and return the string but not the buffer.
*/
CSStr ToStringF(CCStr fmt, ...);

/* ------------------------------------------------------------------------------------------------
 * Obtain a randomly chosen color from a list of known colors.
*/
const Color3 & GetRandomColor();

/* ------------------------------------------------------------------------------------------------
 * Attempt to identify the color in the specified name and return it.
*/
Color3 GetColor(CSStr name);

/* ------------------------------------------------------------------------------------------------
 * Forward declarations of the logging functions to avoid including the logger everywhere.
 * Primary logging functions.
*/
void LogDbg(CCStr fmt, ...);
void LogUsr(CCStr fmt, ...);
void LogScs(CCStr fmt, ...);
void LogInf(CCStr fmt, ...);
void LogWrn(CCStr fmt, ...);
void LogErr(CCStr fmt, ...);
void LogFtl(CCStr fmt, ...);

/* ------------------------------------------------------------------------------------------------
 * Forward declarations of the logging functions to avoid including the logger everywhere.
 * Secondary logging functions.
*/
void LogSDbg(CCStr fmt, ...);
void LogSUsr(CCStr fmt, ...);
void LogSScs(CCStr fmt, ...);
void LogSInf(CCStr fmt, ...);
void LogSWrn(CCStr fmt, ...);
void LogSErr(CCStr fmt, ...);
void LogSFtl(CCStr fmt, ...);

/* ------------------------------------------------------------------------------------------------
 * Forward declarations of the logging functions to avoid including the logger everywhere.
 * Primary conditional logging functions.
*/
bool cLogDbg(bool cond, CCStr fmt, ...);
bool cLogUsr(bool cond, CCStr fmt, ...);
bool cLogScs(bool cond, CCStr fmt, ...);
bool cLogInf(bool cond, CCStr fmt, ...);
bool cLogWrn(bool cond, CCStr fmt, ...);
bool cLogErr(bool cond, CCStr fmt, ...);
bool cLogFtl(bool cond, CCStr fmt, ...);

/* ------------------------------------------------------------------------------------------------
 * Forward declarations of the logging functions to avoid including the logger everywhere.
 * Secondary conditional logging functions.
*/
bool cLogSDbg(bool cond, CCStr fmt, ...);
bool cLogSUsr(bool cond, CCStr fmt, ...);
bool cLogSScs(bool cond, CCStr fmt, ...);
bool cLogSInf(bool cond, CCStr fmt, ...);
bool cLogSWrn(bool cond, CCStr fmt, ...);
bool cLogSErr(bool cond, CCStr fmt, ...);
bool cLogSFtl(bool cond, CCStr fmt, ...);

} // Namespace:: SqMod

#endif // _BASE_SHARED_HPP_