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path: root/src/renderer/Sprite.cpp
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#include "common.h"

#include "main.h"
#include "Draw.h"
#include "Camera.h"
#include "Sprite.h"

float CSprite::m_f2DNearScreenZ;
float CSprite::m_f2DFarScreenZ;
float CSprite::m_fRecipNearClipPlane;
int32 CSprite::m_bFlushSpriteBufferSwitchZTest;

float CalcScreenZ(float z)
{
	// LCS TODO: check 

	if ( z == 0.0f )
		return CSprite::GetNearScreenZ();
					   
	return (z - CDraw::GetNearClipZ())
		* (CSprite::GetFarScreenZ() - CSprite::GetNearScreenZ()) * CDraw::GetFarClipZ()
		/ ( (CDraw::GetFarClipZ() - CDraw::GetNearClipZ()) * z )
		+ CSprite::GetNearScreenZ();
}

float 
CSprite::CalcHorizonCoors(void)
{
	CVector p = TheCamera.GetPosition() + CVector(TheCamera.CamFrontXNorm, TheCamera.CamFrontYNorm, 0.0f)*3000.0f;
	p.z = 0.0f;
	p = TheCamera.m_viewMatrix * p;
	return p.y * SCREEN_HEIGHT / p.z;
}

bool 
CSprite::CalcScreenCoors(const RwV3d &in, RwV3d *out, float *outw, float *outh, bool farclip)
{
	CVector viewvec = TheCamera.m_viewMatrix * in;
	*out = viewvec;
	if(out->z <= CDraw::GetNearClipZ() + 1.0f) return false;
	if(out->z >= CDraw::GetFarClipZ() && farclip) return false;
	float recip = 1.0f/out->z;
	out->x *= SCREEN_WIDTH * recip;
	out->y *= SCREEN_HEIGHT * recip;
	const float fov = DefaultFOV;
	// this is used to scale correctly if you zoom in with sniper rifle
	float fovScale = fov / CDraw::GetFOV();

#ifdef FIX_SPRITES
	*outw = CDraw::ms_bFixSprites ? (fovScale * recip * SCREEN_HEIGHT) : (fovScale * SCREEN_SCALE_AR(recip) * SCREEN_WIDTH);
#else
	*outw = fovScale * SCREEN_SCALE_AR(recip) * SCREEN_WIDTH;
#endif
	*outh = fovScale * recip * SCREEN_HEIGHT;

	return true;
}

#define SPRITEBUFFERSIZE 64
static int32 nSpriteBufferIndex;
static RwIm2DVertex SpriteBufferVerts[SPRITEBUFFERSIZE*6];
static RwIm2DVertex verts[4];

void
CSprite::InitSpriteBuffer(void)
{
	m_f2DNearScreenZ = RwIm2DGetNearScreenZ();
	m_f2DFarScreenZ = RwIm2DGetFarScreenZ();
}

void
CSprite::InitSpriteBuffer2D(void)
{
	m_fRecipNearClipPlane = 1.0f / RwCameraGetNearClipPlane(Scene.camera);
	InitSpriteBuffer();
}

void
CSprite::FlushSpriteBuffer(void)
{
	if(nSpriteBufferIndex > 0){
		if(m_bFlushSpriteBufferSwitchZTest){
			RwRenderStateSet(rwRENDERSTATEZTESTENABLE, (void*)FALSE);
			RwIm2DRenderPrimitive(rwPRIMTYPETRILIST, SpriteBufferVerts, nSpriteBufferIndex*6);
			RwRenderStateSet(rwRENDERSTATEZTESTENABLE, (void*)TRUE);
		}else
			RwIm2DRenderPrimitive(rwPRIMTYPETRILIST, SpriteBufferVerts, nSpriteBufferIndex*6);
		nSpriteBufferIndex = 0;
	}
}

void
CSprite::RenderOneXLUSprite(float x, float y, float z, float w, float h, uint8 r, uint8 g, uint8 b, int16 intens, float recipz, uint8 a)
{
	static short indices[] = { 0, 1, 2, 3 };
	// 0---3
	// |   |
	// 1---2
	float xs[4];
	float ys[4];
	float us[4];
	float vs[4];
	int i;

	xs[0] = x-w;	us[0] = 0.0f;
	xs[1] = x-w;	us[1] = 0.0f;
	xs[2] = x+w;	us[2] = 1.0f;
	xs[3] = x+w;	us[3] = 1.0f;

	ys[0] = y-h;	vs[0] = 0.0f;
	ys[1] = y+h;	vs[1] = 1.0f;
	ys[2] = y+h;	vs[2] = 1.0f;
	ys[3] = y-h;	vs[3] = 0.0f;

	// clip
	for(i = 0; i < 4; i++){
		if(xs[i] < 0.0f){
			us[i] = -xs[i] / (2.0f*w);
			xs[i] = 0.0f;
		}
		if(xs[i] > SCREEN_WIDTH){
			us[i] = 1.0f - (xs[i]-SCREEN_WIDTH) / (2.0f*w);
			xs[i] = SCREEN_WIDTH;
		}
		if(ys[i] < 0.0f){
			vs[i] = -ys[i] / (2.0f*h);
			ys[i] = 0.0f;
		}
		if(ys[i] > SCREEN_HEIGHT){
			vs[i] = 1.0f - (ys[i]-SCREEN_HEIGHT) / (2.0f*h);
			ys[i] = SCREEN_HEIGHT;
		}
	}

	// (DrawZ - DrawNear)/(DrawFar - DrawNear) = (SpriteZ-SpriteNear)/(SpriteFar-SpriteNear)
	// So to calculate SpriteZ:
	float screenz = m_f2DNearScreenZ +
		(z-CDraw::GetNearClipZ())*(m_f2DFarScreenZ-m_f2DNearScreenZ)*CDraw::GetFarClipZ() /
		((CDraw::GetFarClipZ()-CDraw::GetNearClipZ())*z);

	for(i = 0; i < 4; i++){
		RwIm2DVertexSetScreenX(&verts[i], xs[i]);
		RwIm2DVertexSetScreenY(&verts[i], ys[i]);
		RwIm2DVertexSetScreenZ(&verts[i], screenz);
		RwIm2DVertexSetCameraZ(&verts[i], z);
		RwIm2DVertexSetRecipCameraZ(&verts[i], recipz);
		RwIm2DVertexSetIntRGBA(&verts[i], r*intens>>8, g*intens>>8, b*intens>>8, a);
		RwIm2DVertexSetU(&verts[i], us[i], recipz);
		RwIm2DVertexSetV(&verts[i], vs[i], recipz);
	}
	RwIm2DRenderPrimitive(rwPRIMTYPETRIFAN, verts, 4);
}

void
CSprite::RenderOneXLUSprite_Rotate_Aspect(float x, float y, float z, float w, float h, uint8 r, uint8 g, uint8 b, int16 intens, float recipz, float rotation, uint8 a)
{
	float c = Cos(rotation);
	float s = Sin(rotation);

	float xs[4];
	float ys[4];
	float us[4];
	float vs[4];
	int i;

	// Fade out when too near
	// why not in buffered version?
	if(z < 2.3f){
		if(z < 1.3f)
			return;
		int f = (z - 1.3f)/(2.3f-1.3f) * 255;
		r = f*r >> 8;
		g = f*g >> 8;
		b = f*b >> 8;
		intens = f*intens >> 8;
	}

	xs[0] = x + w*(-c-s);	us[0] = 0.0f;
	xs[1] = x + w*(-c+s);	us[1] = 0.0f;
	xs[2] = x + w*(+c+s);	us[2] = 1.0f;
	xs[3] = x + w*(+c-s);	us[3] = 1.0f;

	ys[0] = y + h*(-c+s);	vs[0] = 0.0f;
	ys[1] = y + h*(+c+s);	vs[1] = 1.0f;
	ys[2] = y + h*(+c-s);	vs[2] = 1.0f;
	ys[3] = y + h*(-c-s);	vs[3] = 0.0f;

	// No clipping, just culling
	if(xs[0] < 0.0f && xs[1] < 0.0f && xs[2] < 0.0f && xs[3] < 0.0f) return;
	if(ys[0] < 0.0f && ys[1] < 0.0f && ys[2] < 0.0f && ys[3] < 0.0f) return;
	if(xs[0] > SCREEN_WIDTH && xs[1] > SCREEN_WIDTH &&
	   xs[2] > SCREEN_WIDTH && xs[3] > SCREEN_WIDTH) return;
	if(ys[0] > SCREEN_HEIGHT && ys[1] > SCREEN_HEIGHT &&
	   ys[2] > SCREEN_HEIGHT && ys[3] > SCREEN_HEIGHT) return;

	float screenz = m_f2DNearScreenZ +
		(z-CDraw::GetNearClipZ())*(m_f2DFarScreenZ-m_f2DNearScreenZ)*CDraw::GetFarClipZ() /
		((CDraw::GetFarClipZ()-CDraw::GetNearClipZ())*z);

	for(i = 0; i < 4; i++){
		RwIm2DVertexSetScreenX(&verts[i], xs[i]);
		RwIm2DVertexSetScreenY(&verts[i], ys[i]);
		RwIm2DVertexSetScreenZ(&verts[i], screenz);
		RwIm2DVertexSetCameraZ(&verts[i], z);
		RwIm2DVertexSetRecipCameraZ(&verts[i], recipz);
		RwIm2DVertexSetIntRGBA(&verts[i], r*intens>>8, g*intens>>8, b*intens>>8, a);
		RwIm2DVertexSetU(&verts[i], us[i], recipz);
		RwIm2DVertexSetV(&verts[i], vs[i], recipz);
	}
	RwIm2DRenderPrimitive(rwPRIMTYPETRIFAN, verts, 4);
}

void
CSprite::RenderBufferedOneXLUSprite(float x, float y, float z, float w, float h, uint8 r, uint8 g, uint8 b, int16 intens, float recipz, uint8 a)
{
	m_bFlushSpriteBufferSwitchZTest = 0;

	// 0---3
	// |   |
	// 1---2
	float xs[4];
	float ys[4];
	float us[4];
	float vs[4];
	int i;

	xs[0] = x-w;	us[0] = 0.0f;
	xs[1] = x-w;	us[1] = 0.0f;
	xs[2] = x+w;	us[2] = 1.0f;
	xs[3] = x+w;	us[3] = 1.0f;

	ys[0] = y-h;	vs[0] = 0.0f;
	ys[1] = y+h;	vs[1] = 1.0f;
	ys[2] = y+h;	vs[2] = 1.0f;
	ys[3] = y-h;	vs[3] = 0.0f;

	// clip
	for(i = 0; i < 4; i++){
		if(xs[i] < 0.0f){
			us[i] = -xs[i] / (2.0f*w);
			xs[i] = 0.0f;
		}
		if(xs[i] > SCREEN_WIDTH){
			us[i] = 1.0f - (xs[i]-SCREEN_WIDTH) / (2.0f*w);
			xs[i] = SCREEN_WIDTH;
		}
		if(ys[i] < 0.0f){
			vs[i] = -ys[i] / (2.0f*h);
			ys[i] = 0.0f;
		}
		if(ys[i] > SCREEN_HEIGHT){
			vs[i] = 1.0f - (ys[i]-SCREEN_HEIGHT) / (2.0f*h);
			ys[i] = SCREEN_HEIGHT;
		}
	}

	float screenz = m_f2DNearScreenZ +
		(z-CDraw::GetNearClipZ())*(m_f2DFarScreenZ-m_f2DNearScreenZ)*CDraw::GetFarClipZ() /
		((CDraw::GetFarClipZ()-CDraw::GetNearClipZ())*z);

	RwIm2DVertex *vert = &SpriteBufferVerts[nSpriteBufferIndex*6];
	static int indices[6] = { 0, 1, 2, 3, 0, 2 };
	for(i = 0; i < 6; i++){
		RwIm2DVertexSetScreenX(&vert[i], xs[indices[i]]);
		RwIm2DVertexSetScreenY(&vert[i], ys[indices[i]]);
		RwIm2DVertexSetScreenZ(&vert[i], screenz);
		RwIm2DVertexSetCameraZ(&vert[i], z);
		RwIm2DVertexSetRecipCameraZ(&vert[i], recipz);
		RwIm2DVertexSetIntRGBA(&vert[i], r*intens>>8, g*intens>>8, b*intens>>8, a);
		RwIm2DVertexSetU(&vert[i], us[indices[i]], recipz);
		RwIm2DVertexSetV(&vert[i], vs[indices[i]], recipz);
	}
	nSpriteBufferIndex++;
	if(nSpriteBufferIndex >= SPRITEBUFFERSIZE)
		FlushSpriteBuffer();
}

void
CSprite::RenderBufferedOneXLUSprite_Rotate_Dimension(float x, float y, float z, float w, float h, uint8 r, uint8 g, uint8 b, int16 intens, float recipz, float rotation, uint8 a)
{
	m_bFlushSpriteBufferSwitchZTest = 0;
	// TODO: replace with lookup
	float c = Cos(rotation);
	float s = Sin(rotation);

	float xs[4];
	float ys[4];
	float us[4];
	float vs[4];
	int i;

	xs[0] = x - c*w - s*h;	us[0] = 0.0f;
	xs[1] = x - c*w + s*h;	us[1] = 0.0f;
	xs[2] = x + c*w + s*h;	us[2] = 1.0f;
	xs[3] = x + c*w - s*h;	us[3] = 1.0f;

	ys[0] = y - c*h + s*w;	vs[0] = 0.0f;
	ys[1] = y + c*h + s*w;	vs[1] = 1.0f;
	ys[2] = y + c*h - s*w;	vs[2] = 1.0f;
	ys[3] = y - c*h - s*w;	vs[3] = 0.0f;

	// No clipping, just culling
	if(xs[0] < 0.0f && xs[1] < 0.0f && xs[2] < 0.0f && xs[3] < 0.0f) return;
	if(ys[0] < 0.0f && ys[1] < 0.0f && ys[2] < 0.0f && ys[3] < 0.0f) return;
	if(xs[0] > SCREEN_WIDTH && xs[1] > SCREEN_WIDTH &&
	   xs[2] > SCREEN_WIDTH && xs[3] > SCREEN_WIDTH) return;
	if(ys[0] > SCREEN_HEIGHT && ys[1] > SCREEN_HEIGHT &&
	   ys[2] > SCREEN_HEIGHT && ys[3] > SCREEN_HEIGHT) return;

	float screenz = m_f2DNearScreenZ +
		(z-CDraw::GetNearClipZ())*(m_f2DFarScreenZ-m_f2DNearScreenZ)*CDraw::GetFarClipZ() /
		((CDraw::GetFarClipZ()-CDraw::GetNearClipZ())*z);

	RwIm2DVertex *vert = &SpriteBufferVerts[nSpriteBufferIndex*6];
	static int indices[6] = { 0, 1, 2, 3, 0, 2 };
	for(i = 0; i < 6; i++){
		RwIm2DVertexSetScreenX(&vert[i], xs[indices[i]]);
		RwIm2DVertexSetScreenY(&vert[i], ys[indices[i]]);
		RwIm2DVertexSetScreenZ(&vert[i], screenz);
		RwIm2DVertexSetCameraZ(&vert[i], z);
		RwIm2DVertexSetRecipCameraZ(&vert[i], recipz);
		RwIm2DVertexSetIntRGBA(&vert[i], r*intens>>8, g*intens>>8, b*intens>>8, a);
		RwIm2DVertexSetU(&vert[i], us[indices[i]], recipz);
		RwIm2DVertexSetV(&vert[i], vs[indices[i]], recipz);
	}
	nSpriteBufferIndex++;
	if(nSpriteBufferIndex >= SPRITEBUFFERSIZE)
		FlushSpriteBuffer();
}

void
CSprite::RenderBufferedOneXLUSprite_Rotate_Aspect(float x, float y, float z, float w, float h, uint8 r, uint8 g, uint8 b, int16 intens, float recipz, float rotation, uint8 a)
{
	m_bFlushSpriteBufferSwitchZTest = 0;
	float c = Cos(rotation);
	float s = Sin(rotation);

	float xs[4];
	float ys[4];
	float us[4];
	float vs[4];
	int i;

	xs[0] = x + w*(-c-s);	us[0] = 0.0f;
	xs[1] = x + w*(-c+s);	us[1] = 0.0f;
	xs[2] = x + w*(+c+s);	us[2] = 1.0f;
	xs[3] = x + w*(+c-s);	us[3] = 1.0f;

	ys[0] = y + h*(-c+s);	vs[0] = 0.0f;
	ys[1] = y + h*(+c+s);	vs[1] = 1.0f;
	ys[2] = y + h*(+c-s);	vs[2] = 1.0f;
	ys[3] = y + h*(-c-s);	vs[3] = 0.0f;

	// No clipping, just culling
	if(xs[0] < 0.0f && xs[1] < 0.0f && xs[2] < 0.0f && xs[3] < 0.0f) return;
	if(ys[0] < 0.0f && ys[1] < 0.0f && ys[2] < 0.0f && ys[3] < 0.0f) return;
	if(xs[0] > SCREEN_WIDTH && xs[1] > SCREEN_WIDTH &&
	   xs[2] > SCREEN_WIDTH && xs[3] > SCREEN_WIDTH) return;
	if(ys[0] > SCREEN_HEIGHT && ys[1] > SCREEN_HEIGHT &&
	   ys[2] > SCREEN_HEIGHT && ys[3] > SCREEN_HEIGHT) return;

	float screenz = m_f2DNearScreenZ +
		(z-CDraw::GetNearClipZ())*(m_f2DFarScreenZ-m_f2DNearScreenZ)*CDraw::GetFarClipZ() /
		((CDraw::GetFarClipZ()-CDraw::GetNearClipZ())*z);

	RwIm2DVertex *vert = &SpriteBufferVerts[nSpriteBufferIndex*6];
	static int indices[6] = { 0, 1, 2, 3, 0, 2 };
	for(i = 0; i < 6; i++){
		RwIm2DVertexSetScreenX(&vert[i], xs[indices[i]]);
		RwIm2DVertexSetScreenY(&vert[i], ys[indices[i]]);
		RwIm2DVertexSetScreenZ(&vert[i], screenz);
		RwIm2DVertexSetCameraZ(&vert[i], z);
		RwIm2DVertexSetRecipCameraZ(&vert[i], recipz);
		RwIm2DVertexSetIntRGBA(&vert[i], r*intens>>8, g*intens>>8, b*intens>>8, a);
		RwIm2DVertexSetU(&vert[i], us[indices[i]], recipz);
		RwIm2DVertexSetV(&vert[i], vs[indices[i]], recipz);
	}
	nSpriteBufferIndex++;
	if(nSpriteBufferIndex >= SPRITEBUFFERSIZE)
		FlushSpriteBuffer();
}

void
CSprite::RenderBufferedOneXLUSprite_Rotate_2Colours(float x, float y, float z, float w, float h, uint8 r1, uint8 g1, uint8 b1, uint8 r2, uint8 g2, uint8 b2, float cx, float cy, float recipz, float rotation, uint8 a)
{
	m_bFlushSpriteBufferSwitchZTest = 0;
	float c = Cos(rotation);
	float s = Sin(rotation);

	float xs[4];
	float ys[4];
	float us[4];
	float vs[4];
	float cf[4];
	int i;

	xs[0] = x + w*(-c-s);	us[0] = 0.0f;
	xs[1] = x + w*(-c+s);	us[1] = 0.0f;
	xs[2] = x + w*(+c+s);	us[2] = 1.0f;
	xs[3] = x + w*(+c-s);	us[3] = 1.0f;

	ys[0] = y + h*(-c+s);	vs[0] = 0.0f;
	ys[1] = y + h*(+c+s);	vs[1] = 1.0f;
	ys[2] = y + h*(+c-s);	vs[2] = 1.0f;
	ys[3] = y + h*(-c-s);	vs[3] = 0.0f;

	// No clipping, just culling
	if(xs[0] < 0.0f && xs[1] < 0.0f && xs[2] < 0.0f && xs[3] < 0.0f) return;
	if(ys[0] < 0.0f && ys[1] < 0.0f && ys[2] < 0.0f && ys[3] < 0.0f) return;
	if(xs[0] > SCREEN_WIDTH && xs[1] > SCREEN_WIDTH &&
	   xs[2] > SCREEN_WIDTH && xs[3] > SCREEN_WIDTH) return;
	if(ys[0] > SCREEN_HEIGHT && ys[1] > SCREEN_HEIGHT &&
	   ys[2] > SCREEN_HEIGHT && ys[3] > SCREEN_HEIGHT) return;

	// Colour factors, cx/y is the direction in which colours change from rgb1 to rgb2
	cf[0] = (cx*(-c-s) + cy*(-c+s))*0.5f + 0.5f;
	cf[0] = Clamp(cf[0], 0.0f, 1.0f);
	cf[1] = (cx*(-c+s) + cy*( c+s))*0.5f + 0.5f;
	cf[1] = Clamp(cf[1], 0.0f, 1.0f);
	cf[2] = (cx*( c+s) + cy*( c-s))*0.5f + 0.5f;
	cf[2] = Clamp(cf[2], 0.0f, 1.0f);
	cf[3] = (cx*( c-s) + cy*(-c-s))*0.5f + 0.5f;
	cf[3] = Clamp(cf[3], 0.0f, 1.0f);

	float screenz = m_f2DNearScreenZ +
		(z-CDraw::GetNearClipZ())*(m_f2DFarScreenZ-m_f2DNearScreenZ)*CDraw::GetFarClipZ() /
		((CDraw::GetFarClipZ()-CDraw::GetNearClipZ())*z);

	RwIm2DVertex *vert = &SpriteBufferVerts[nSpriteBufferIndex*6];
	static int indices[6] = { 0, 1, 2, 3, 0, 2 };
	for(i = 0; i < 6; i++){
		RwIm2DVertexSetScreenX(&vert[i], xs[indices[i]]);
		RwIm2DVertexSetScreenY(&vert[i], ys[indices[i]]);
		RwIm2DVertexSetScreenZ(&vert[i], screenz);
		RwIm2DVertexSetCameraZ(&vert[i], z);
		RwIm2DVertexSetRecipCameraZ(&vert[i], recipz);
		RwIm2DVertexSetIntRGBA(&vert[i],
			r1*cf[indices[i]] + r2*(1.0f - cf[indices[i]]),
			g1*cf[indices[i]] + g2*(1.0f - cf[indices[i]]),
			b1*cf[indices[i]] + b2*(1.0f - cf[indices[i]]),
			a);
		RwIm2DVertexSetU(&vert[i], us[indices[i]], recipz);
		RwIm2DVertexSetV(&vert[i], vs[indices[i]], recipz);
	}
	nSpriteBufferIndex++;
	if(nSpriteBufferIndex >= SPRITEBUFFERSIZE)
		FlushSpriteBuffer();
}

void
CSprite::Set6Vertices2D(RwIm2DVertex *verts, const CRect &r, const CRGBA &c0, const CRGBA &c1, const CRGBA &c2, const CRGBA &c3)
{
	float screenz, recipz;
	float z = RwCameraGetNearClipPlane(Scene.camera);	// not done by game

	screenz = m_f2DNearScreenZ;
	recipz = m_fRecipNearClipPlane;

	RwIm2DVertexSetScreenX(&verts[0], r.left);
	RwIm2DVertexSetScreenY(&verts[0], r.top);
	RwIm2DVertexSetScreenZ(&verts[0], screenz);
	RwIm2DVertexSetCameraZ(&verts[0], z);
	RwIm2DVertexSetRecipCameraZ(&verts[0], recipz);
	RwIm2DVertexSetIntRGBA(&verts[0], c2.r, c2.g, c2.b, c2.a);
	RwIm2DVertexSetU(&verts[0], 0.0f, recipz);
	RwIm2DVertexSetV(&verts[0], 0.0f, recipz);

	RwIm2DVertexSetScreenX(&verts[1], r.right);
	RwIm2DVertexSetScreenY(&verts[1], r.top);
	RwIm2DVertexSetScreenZ(&verts[1], screenz);
	RwIm2DVertexSetCameraZ(&verts[1], z);
	RwIm2DVertexSetRecipCameraZ(&verts[1], recipz);
	RwIm2DVertexSetIntRGBA(&verts[1], c3.r, c3.g, c3.b, c3.a);
	RwIm2DVertexSetU(&verts[1], 1.0f, recipz);
	RwIm2DVertexSetV(&verts[1], 0.0f, recipz);

	RwIm2DVertexSetScreenX(&verts[2], r.right);
	RwIm2DVertexSetScreenY(&verts[2], r.bottom);
	RwIm2DVertexSetScreenZ(&verts[2], screenz);
	RwIm2DVertexSetCameraZ(&verts[2], z);
	RwIm2DVertexSetRecipCameraZ(&verts[2], recipz);
	RwIm2DVertexSetIntRGBA(&verts[2], c1.r, c1.g, c1.b, c1.a);
	RwIm2DVertexSetU(&verts[2], 1.0f, recipz);
	RwIm2DVertexSetV(&verts[2], 1.0f, recipz);

	RwIm2DVertexSetScreenX(&verts[3], r.left);
	RwIm2DVertexSetScreenY(&verts[3], r.bottom);
	RwIm2DVertexSetScreenZ(&verts[3], screenz);
	RwIm2DVertexSetCameraZ(&verts[3], z);
	RwIm2DVertexSetRecipCameraZ(&verts[3], recipz);
	RwIm2DVertexSetIntRGBA(&verts[3], c0.r, c0.g, c0.b, c0.a);
	RwIm2DVertexSetU(&verts[3], 0.0f, recipz);
	RwIm2DVertexSetV(&verts[3], 1.0f, recipz);

	RwIm2DVertexSetScreenX(&verts[4], r.left);
	RwIm2DVertexSetScreenY(&verts[4], r.top);
	RwIm2DVertexSetScreenZ(&verts[4], screenz);
	RwIm2DVertexSetCameraZ(&verts[4], z);
	RwIm2DVertexSetRecipCameraZ(&verts[4], recipz);
	RwIm2DVertexSetIntRGBA(&verts[4], c2.r, c2.g, c2.b, c2.a);
	RwIm2DVertexSetU(&verts[4], 0.0f, recipz);
	RwIm2DVertexSetV(&verts[4], 0.0f, recipz);

	RwIm2DVertexSetScreenX(&verts[5], r.right);
	RwIm2DVertexSetScreenY(&verts[5], r.bottom);
	RwIm2DVertexSetScreenZ(&verts[5], screenz);
	RwIm2DVertexSetCameraZ(&verts[5], z);
	RwIm2DVertexSetRecipCameraZ(&verts[5], recipz);
	RwIm2DVertexSetIntRGBA(&verts[5], c1.r, c1.g, c1.b, c1.a);
	RwIm2DVertexSetU(&verts[5], 1.0f, recipz);
	RwIm2DVertexSetV(&verts[5], 1.0f, recipz);
}

void
CSprite::Set6Vertices2D(RwIm2DVertex *verts, float x1, float y1, float x2, float y2, float x3, float y3, float x4, float y4,
		const CRGBA &c0, const CRGBA &c1, const CRGBA &c2, const CRGBA &c3)
{
	float screenz, recipz;
	float z = RwCameraGetNearClipPlane(Scene.camera);	// not done by game

	screenz = m_f2DNearScreenZ;
	recipz = m_fRecipNearClipPlane;

	RwIm2DVertexSetScreenX(&verts[0], x3);
	RwIm2DVertexSetScreenY(&verts[0], y3);
	RwIm2DVertexSetScreenZ(&verts[0], screenz);
	RwIm2DVertexSetCameraZ(&verts[0], z);
	RwIm2DVertexSetRecipCameraZ(&verts[0], recipz);
	RwIm2DVertexSetIntRGBA(&verts[0], c2.r, c2.g, c2.b, c2.a);
	RwIm2DVertexSetU(&verts[0], 0.0f, recipz);
	RwIm2DVertexSetV(&verts[0], 0.0f, recipz);

	RwIm2DVertexSetScreenX(&verts[1], x4);
	RwIm2DVertexSetScreenY(&verts[1], y4);
	RwIm2DVertexSetScreenZ(&verts[1], screenz);
	RwIm2DVertexSetCameraZ(&verts[1], z);
	RwIm2DVertexSetRecipCameraZ(&verts[1], recipz);
	RwIm2DVertexSetIntRGBA(&verts[1], c3.r, c3.g, c3.b, c3.a);
	RwIm2DVertexSetU(&verts[1], 1.0f, recipz);
	RwIm2DVertexSetV(&verts[1], 0.0f, recipz);

	RwIm2DVertexSetScreenX(&verts[2], x2);
	RwIm2DVertexSetScreenY(&verts[2], y2);
	RwIm2DVertexSetScreenZ(&verts[2], screenz);
	RwIm2DVertexSetCameraZ(&verts[2], z);
	RwIm2DVertexSetRecipCameraZ(&verts[2], recipz);
	RwIm2DVertexSetIntRGBA(&verts[2], c1.r, c1.g, c1.b, c1.a);
	RwIm2DVertexSetU(&verts[2], 1.0f, recipz);
	RwIm2DVertexSetV(&verts[2], 1.0f, recipz);

	RwIm2DVertexSetScreenX(&verts[3], x1);
	RwIm2DVertexSetScreenY(&verts[3], y1);
	RwIm2DVertexSetScreenZ(&verts[3], screenz);
	RwIm2DVertexSetCameraZ(&verts[3], z);
	RwIm2DVertexSetRecipCameraZ(&verts[3], recipz);
	RwIm2DVertexSetIntRGBA(&verts[3], c0.r, c0.g, c0.b, c0.a);
	RwIm2DVertexSetU(&verts[3], 0.0f, recipz);
	RwIm2DVertexSetV(&verts[3], 1.0f, recipz);

	RwIm2DVertexSetScreenX(&verts[4], x3);
	RwIm2DVertexSetScreenY(&verts[4], y3);
	RwIm2DVertexSetScreenZ(&verts[4], screenz);
	RwIm2DVertexSetCameraZ(&verts[4], z);
	RwIm2DVertexSetRecipCameraZ(&verts[4], recipz);
	RwIm2DVertexSetIntRGBA(&verts[4], c2.r, c2.g, c2.b, c2.a);
	RwIm2DVertexSetU(&verts[4], 0.0f, recipz);
	RwIm2DVertexSetV(&verts[4], 0.0f, recipz);

	RwIm2DVertexSetScreenX(&verts[5], x2);
	RwIm2DVertexSetScreenY(&verts[5], y2);
	RwIm2DVertexSetScreenZ(&verts[5], screenz);
	RwIm2DVertexSetCameraZ(&verts[5], z);
	RwIm2DVertexSetRecipCameraZ(&verts[5], recipz);
	RwIm2DVertexSetIntRGBA(&verts[5], c1.r, c1.g, c1.b, c1.a);
	RwIm2DVertexSetU(&verts[5], 1.0f, recipz);
	RwIm2DVertexSetV(&verts[5], 1.0f, recipz);
}

void
CSprite::RenderBufferedOneXLUSprite2D(float x, float y, float w, float h, const RwRGBA &colour, int16 intens, uint8 alpha)
{
	m_bFlushSpriteBufferSwitchZTest = 1;
	CRGBA col(intens * colour.red >> 8, intens * colour.green >> 8, intens * colour.blue >> 8, alpha);
	CRect rect(x - w, y - h, x + h, y + h);
	Set6Vertices2D(&SpriteBufferVerts[6 * nSpriteBufferIndex], rect, col, col, col, col);
	nSpriteBufferIndex++;
	if(nSpriteBufferIndex >= SPRITEBUFFERSIZE)
		FlushSpriteBuffer();
}

void
CSprite::RenderBufferedOneXLUSprite2D_Rotate_Dimension(float x, float y, float w, float h, const RwRGBA &colour, int16 intens, float rotation, uint8 alpha)
{
	m_bFlushSpriteBufferSwitchZTest = 1;
	CRGBA col(intens * colour.red >> 8, intens * colour.green >> 8, intens * colour.blue >> 8, alpha);
	float c = Cos(rotation);
	float s = Sin(rotation);

	Set6Vertices2D(&SpriteBufferVerts[6 * nSpriteBufferIndex],
		x + c*w - s*h,
		y - c*h - s*w,
		x + c*w + s*h,
		y + c*h - s*w,
		x - c*w - s*h,
		y - c*h + s*w,
		x - c*w + s*h,
		y + c*h + s*w,
		col, col, col, col);
	nSpriteBufferIndex++;
	if(nSpriteBufferIndex >= SPRITEBUFFERSIZE)
		FlushSpriteBuffer();
}