CShotManipulator
Created with the shoot direction in the constructor, this helper class can spread out shots with a given spread.
Pertaining to this, Tim Holt has created a modification to this shot distribution. If you replace gameshared\shot_manipulator.h with this code, you'll have the biased shot distribution system. Notice that it renames the default Valve spread function to ApplySpreadVALVE, adds a new ApplySpreadBIAS function, then changes the default ApplySpread to call the BIAS version.
Here is the complete source code...
//========= Copyright © 1996-2005, Valve Corporation, All rights reserved. ============//
//
// Purpose:
//
//=============================================================================//
#ifndef SHOT_MANIPULATOR_H
#define SHOT_MANIPULATOR_H
#ifdef _WIN32
#pragma once
#endif
#include "mathlib/vector.h"
extern ConVar ai_shot_bias_min;
extern ConVar ai_shot_bias_max;
//---------------------------------------------------------
// Caches off a shot direction and allows you to perform
// various operations on it without having to recalculate
// vecRight and vecUp each time.
//---------------------------------------------------------
class CShotManipulator
{
public:
CShotManipulator( const Vector &vecForward )
{
SetShootDir( vecForward );
};
void SetShootDir( const Vector &vecForward )
{
m_vecShotDirection = vecForward;
VectorVectors( m_vecShotDirection, m_vecRight, m_vecUp );
}
const Vector &ApplySpreadVALVE( const Vector &vecSpread, float bias = 1.0 );
const Vector &ApplySpreadBIAS( const Vector &vecSpread, float bias = 1.0 );
const Vector &ApplySpread( const Vector &vecSpread, float bias = 1.0 );
const Vector &GetShotDirection() { return m_vecShotDirection; }
const Vector &GetResult() { return m_vecResult; }
const Vector &GetRightVector() { return m_vecRight; }
const Vector &GetUpVector() { return m_vecUp;}
private:
Vector m_vecShotDirection;
Vector m_vecRight;
Vector m_vecUp;
Vector m_vecResult;
};
// -------------------------------------------------------------------------------------
// CVB - holtt - Replace the normal ApplySpread with a call to either Valve's original
// code, or a new bias code set that puts more shots in the center of
// the shot spread.
// -------------------------------------------------------------------------------------
inline const Vector &CShotManipulator::ApplySpread ( const Vector &vecSpread, float bias )
{
// return ApplySpreadVALVE (vecSpread, bias);
return ApplySpreadBIAS (vecSpread, bias);
}
//---------------------------------------------------------
// CVB - holtt - Renamed this as we are going to replace it
// with a new version that biases shots
// towards the middle instead of random.
//---------------------------------------------------------
// Take a vector (direction) and another vector (spread)
// and modify the direction to point somewhere within the
// spread. This used to live inside FireBullets.
//---------------------------------------------------------
inline const Vector &CShotManipulator::ApplySpreadVALVE ( const Vector &vecSpread, float bias )
{
// get circular gaussian spread
float x, y, z;
if ( bias > 1.0 )
bias = 1.0;
else if ( bias < 0.0 )
bias = 0.0;
float shotBiasMin = ai_shot_bias_min.GetFloat();
float shotBiasMax = ai_shot_bias_max.GetFloat();
// 1.0 gaussian, 0.0 is flat, -1.0 is inverse gaussian
float shotBias = ( ( shotBiasMax - shotBiasMin ) * bias ) + shotBiasMin;
float flatness = ( fabsf(shotBias) * 0.5 );
do
{
x = random->RandomFloat(-1,1) * flatness + random->RandomFloat(-1,1) * (1 - flatness);
y = random->RandomFloat(-1,1) * flatness + random->RandomFloat(-1,1) * (1 - flatness);
if ( shotBias < 0 )
{
x = ( x >= 0 ) ? 1.0 - x : -1.0 - x;
y = ( y >= 0 ) ? 1.0 - y : -1.0 - y;
}
z = x*x+y*y;
} while (z > 1);
m_vecResult = m_vecShotDirection + x * vecSpread.x * m_vecRight + y * vecSpread.y * m_vecUp;
return m_vecResult;
}
//---------------------------------------------------------
// CVB - holtt - This version creates shot patterns that
// are biased towards the middle of the cone.
//---------------------------------------------------------
// Take a vector (direction) and another vector (spread)
// and modify the direction to point somewhere within the
// spread. This used to live inside FireBullets.
//---------------------------------------------------------
inline const Vector &CShotManipulator::ApplySpreadBIAS( const Vector &vecSpread, float bias )
{
// get circular gaussian spread
float x, y;
float r, theta;
float sinTheta, cosTheta;
// Generate a random polar coordinate
r = random->RandomFloat (0,1);
theta = random->RandomFloat (0, DEG2RAD(360));
// ---------------------------------------------------------------------------------
// Note - this polar coordinate we created does not create a random point spread
// inside the unit circle. The key is the radius (R) randomization. Half of
// our random radius points will lie between 0.0 and 0.5, and the other half
// from 0.5 to 1.0. So half of our shots will lie in the inner half of the circle,
// and the other half on the outer half. But since the area of the outer half is
// larger than the inner half, we'll end up with a greater spread.
// For a good writeup on randomness in circles (or lack of randomness), check
// out http://mathworld.wolfram.com/DiskPointPicking.html
// ---------------------------------------------------------------------------------
// Convert to cartesian (X/Y) coordinates
SinCos (theta, &sinTheta, &cosTheta);
x = r * sinTheta;
y = r * cosTheta;
m_vecResult = m_vecShotDirection + x * vecSpread.x * m_vecRight + y * vecSpread.y * m_vecUp;
return m_vecResult;
}
#endif // SHOT_MANIPULATOR_H
