void TTscene::Initialize(void)
{
m_pCam = new FreeCamera();
AddSceneObject(m_pCam);
SetActiveCamera(m_pCam->GetComponent<CameraComponent>());
AddSceneObject(new Object3D(_T("Resources/goblin.ttmesh")));
AddSceneObject(new Object3DStatic(_T("Resources/Models/environment.ttmesh")));
AddSceneObject(new Skybox());
auto pBlurMat = new BlurMaterial();
pBlurMat->LoadEffect();
AddPostProcessingEffect(new PostProcessingEffect(pBlurMat), 0);
//AddSceneObject(new ParticleSystem() );
AddSceneObject( new Terrain( tt::Vector3(100,30,100), 6, _T("Resources/Textures/HeightMap_128x128x16.raw") ) );
MyServiceLocator::GetInstance()->GetService<IInputService>()->AddInputAction(InputActionId::ToggleVSync, 'V', KeyState::Pressed);
g_pScript->Initialize();
}
int DisconnectAllCameras()
{
for (int i=0;i<ccd_ncam;i++)
{
err = SetActiveCamera(i);
err = SBIGUnivDrvCommand(CC_CLOSE_DEVICE, NULL, NULL);
if (err != CE_NO_ERROR )
{
fprintf (stderr, "SBIG close device error\n");
}
err = SBIGUnivDrvCommand(CC_CLOSE_DRIVER, NULL, NULL);
if ( err != CE_NO_ERROR )
{
fprintf (stderr, "SBIG close driver error\n");
}
}
return(0);
}
void PrepareCamera(Camera * cam, const Rect & viewport, const Vec2i & projectionCenter) {
SetActiveCamera(cam);
g_preparedCamera.m_worldToView = glm::translate(toRotationMatrix(cam->angle), -cam->m_pos);
GRenderer->SetViewMatrix(g_preparedCamera.m_worldToView);
const Vec2f center = Vec2f(projectionCenter - viewport.topLeft());
g_preparedCamera.m_viewToClip = createProjectionMatrix(Vec2f(viewport.size()), center, cam);
GRenderer->SetProjectionMatrix(g_preparedCamera.m_viewToClip);
// Change coordinate system from [-1, 1] x [-1, 1] to [0, width] x [0, height] and flip the y axis
glm::mat4x4 ndcToScreen(1);
ndcToScreen = glm::scale(ndcToScreen, Vec3f(Vec2f(viewport.size()) / 2.f, 1.f));
ndcToScreen = glm::translate(ndcToScreen, Vec3f(1.f, 1.f, 0.f));
ndcToScreen = glm::scale(ndcToScreen, Vec3f(1.f, -1.f, 1.f));
g_preparedCamera.m_viewToScreen = ndcToScreen * g_preparedCamera.m_viewToClip;
g_preparedCamera.m_worldToScreen = g_preparedCamera.m_viewToScreen * g_preparedCamera.m_worldToView;
GRenderer->SetViewport(viewport);
}
void Graphics::SetDefaultCamera()
{
SetActiveCamera(m_DefaultCamera);
}
void ARX_INTERFACE_ManageOpenedBook_Finish()
{
Vec3f pos = Vec3f(0.f, 0.f, 2100.f);
Anglef angle = Anglef::ZERO;
EERIE_LIGHT * light = lightHandleGet(torchLightHandle);
EERIE_LIGHT tl = *light;
light->pos = Vec3f(500.f, -1960.f, 1590.f);
light->exist = 1;
light->rgb = Color3f(0.6f, 0.7f, 0.9f);
light->intensity = 1.8f;
light->fallstart=4520.f;
light->fallend = light->fallstart + 600.f;
RecalcLight(light);
EERIE_CAMERA * oldcam = ACTIVECAM;
PDL[0] = light;
TOTPDL=1;
Vec2i tmpPos = Vec2i_ZERO;
for(size_t i = 0; i < RUNE_COUNT; i++) {
if(!gui::necklace.runes[i])
continue;
EERIE_3DOBJ * rune = gui::necklace.runes[i];
bookcam.center.x = (382 + tmpPos.x * 45 + BOOKDEC.x) * g_sizeRatio.x;
bookcam.center.y = (100 + tmpPos.y * 64 + BOOKDEC.y) * g_sizeRatio.y;
SetActiveCamera(&bookcam);
PrepareCamera(&bookcam, g_size);
// First draw the lace
angle.setPitch(0.f);
if(player.hasRune((Rune)i)) {
TransformInfo t1(pos, glm::toQuat(toRotationMatrix(angle)));
DrawEERIEInter(gui::necklace.lacet, t1, NULL);
if(rune->angle.getPitch() != 0.f) {
if(rune->angle.getPitch() > 300.f)
rune->angle.setPitch(300.f);
angle.setPitch(std::sin(arxtime.get_updated() * (1.0f / 200)) * rune->angle.getPitch() * (1.0f / 40));
}
rune->angle.setPitch(rune->angle.getPitch() - framedelay * 0.2f);
if(rune->angle.getPitch() < 0.f)
rune->angle.setPitch(0.f);
GRenderer->SetRenderState(Renderer::DepthWrite, true);
GRenderer->SetRenderState(Renderer::AlphaBlending, false);
// Now draw the rune
TransformInfo t2(pos, glm::toQuat(toRotationMatrix(angle)));
DrawEERIEInter(rune, t2, NULL);
EERIE_2D_BBOX runeBox;
UpdateBbox2d(*rune, runeBox);
PopAllTriangleList();
tmpPos.x++;
if(tmpPos.x > 4) {
tmpPos.x = 0;
tmpPos.y++;
}
const Rect runeMouseTestRect(
runeBox.min.x,
runeBox.min.y,
runeBox.max.x,
runeBox.max.y
);
// Checks for Mouse floating over a rune...
if(runeMouseTestRect.contains(Vec2i(DANAEMouse))) {
long r=0;
for(size_t j = 0; j < rune->facelist.size(); j++) {
float n = PtIn2DPolyProj(rune, &rune->facelist[j], (float)DANAEMouse.x, (float)DANAEMouse.y);
if(n!=0.f) {
r=1;
break;
}
}
if(r) {
GRenderer->SetRenderState(Renderer::AlphaBlending, true);
GRenderer->SetBlendFunc(Renderer::BlendOne, Renderer::BlendOne);
TransformInfo t(pos, glm::toQuat(toRotationMatrix(angle)));
DrawEERIEInter(rune, t, NULL);
rune->angle.setPitch(rune->angle.getPitch() + framedelay*2.f);
PopAllTriangleList();
GRenderer->SetRenderState(Renderer::AlphaBlending, false);
SpecialCursor=CURSOR_INTERACTION_ON;
if(eeMouseDown1())
if((size_t)LastRune != i) {
PlayerBookDrawRune((Rune)i);
}
LastRune=i;
}
}
}
}
GRenderer->SetCulling(Renderer::CullCCW);
LastRune=-1;
*light = tl;
SetActiveCamera(oldcam);
PrepareCamera(oldcam, g_size);
}
int main(int argc, char *argv[]) {
int arg=1;
int sbig_type = NO_CAMERA;
int info_mode = 0;
int verbose = 0;
char name[MAX_STRING] = "";
char ra[MAX_STRING] = "";
char dec[MAX_STRING] = "";
char alt[MAX_STRING] = "";
char az[MAX_STRING] = "";
char imtype[8];
int phase;
float exptime;
int err;
/* Set an interrupt handler to trap Ctr-C nicely */
if(signal(SIGINT, SIG_IGN) != SIG_IGN)
signal(SIGINT, InterruptHandler);
/* set lockfile from the outset */
get_lock();
store_pid_in_lockfile();
/* parse args */
if (argc < 3) {
error_exit(usage);
};
while (arg < argc - 2)
{
switch (argv[arg++][1]) {
case 'v':
verbose = 1;
SetVerbosity(verbose);
break;
case 'n':
sscanf(argv[arg++], "%s", name);
break;
case 'r':
sscanf(argv[arg++], "%s", ra);
break;
case 'd':
sscanf(argv[arg++], "%s", dec);
break;
case 'a':
sscanf(argv[arg++], "%s", alt);
break;
case 'z':
sscanf(argv[arg++], "%s", az);
break;
default:
error_exit(usage);
break;
}
}
sscanf(argv[arg++],"%s",imtype);
sscanf(argv[arg++],"%f",&exptime);
// Determine what kind of image to take
switch(value_from_imagetype_key(imtype)) {
case DARK: ccd_type=DARK; if (verbose) printf("Taking dark frame.\n"); break;
case LIGHT: ccd_type=LIGHT; if (verbose) printf("Taking light frame.\n"); break;
case BIAS: ccd_type=BIAS; if (verbose) printf("Taking bias frame.\n"); break;
case FLAT: ccd_type=FLAT; if (verbose) printf("Taking flat frame.\n"); break;
case BADKEY: fprintf(stderr,"Unknown image type %s\n",imtype); return(1); break;
}
fflush(stdout);
CountCameras();
if (ccd_ncam < 1){
fprintf(stderr,"Found 0 cameras\n");
return(1);
}
InitializeAllCameras();
store_timestamped_note_in_lockfile("Started");
store_directory_in_lockfile();
char myline[128];
sprintf(myline,"Exptime: %5.1f\n",exptime);
store_note_in_lockfile(myline);
// Start integrations going on each of the cameras one by one.
for (int cam_num = 0; cam_num <ccd_ncam; cam_num++)
{
err = SetActiveCamera(cam_num);
ccd_image_data[cam_num] =
(unsigned short *) malloc(ccd_image_width*ccd_image_height*sizeof(unsigned short));
phase = 0;
err = CaptureImage(&phase,ccd_image_data[cam_num],ccd_type,exptime,FALSE,0,0,0,0);
}
// Wait until the data is ready. I'm intentionally playing this safe by
// making sure I wait at least 1s before trying to read out the data.
// This is something I will have to look into if I ever use this for
// fast focusing.
int nsec = (int) exptime + 1;
int count = 0;
for (int i=0; i<=nsec;i++)
{
if(nsec > 3 && nsec < 10){
load_bar(count++,nsec,3,30);
}
else if (nsec > 10 && nsec < 100){
load_bar(count++,nsec,(int)(nsec/2),30);
}
else if (nsec > 100){
load_bar(count++,nsec,(int)(nsec/3),30);
}
sleep(1);
}
// The cameras are ready to be read out. We once again cycle over each camera and
// save the data.
for (int cam_num = 0; cam_num <ccd_ncam; cam_num++)
{
char infoline[128];
phase = 1;
err = SetActiveCamera(cam_num);
fflush(stderr);
err = CaptureImage(&phase,ccd_image_data[cam_num],ccd_type,exptime,FALSE,0,0,0,0);
// Print out some pixel values to let the user check data integrity
if (verbose)
printf("Some pixel values: %u %u %d\n",
*(ccd_image_data[cam_num] + 10000),
*(ccd_image_data[cam_num] + 15000),
*(ccd_image_data[cam_num]+20000));
// Figure out what to call the new file
char *newname;
newname = (char *)malloc(MAX_STRING*sizeof(char));
new_filename(ccd_serial_number,imtype,newname);
// Save as a FITS file
GetCameraTemperature();
double temperature = ccd_camera_info[ActiveCamera()].temperature;
int filterNumber = 0;
if (IsCameraAnST402ME())
filterNumber = FilterWheelPosition();
write_fits(newname, ccd_image_width, ccd_image_height, ccd_image_data[cam_num],
exptime,imtype,temperature,filterNumber,ccd_serial_number, name,
ra,dec,alt,az);
fprintf(stderr,"Saved %s \n",newname);
sprintf(infoline,"Camera %d wrote: %s\n",cam_num,newname);
store_note_in_lockfile(infoline);
free(ccd_image_data[cam_num]);
free(newname);
}
DisconnectAllCameras();
release_lock();
store_timestamped_note_in_lockfile("Completed");
// Release the lock file
release_lock();
// Ring bell to wake up the astronomer
if (verbose)
printf("Camera(s) opened and closed successfully.\n");
putchar('\a'); putchar('\a'); putchar('\a');
return(0);
}
void AddFlare(const Vec2s & pos, float sm, short typ, Entity * io, bool bookDraw) {
int oldest = 0;
size_t i;
for(i = 0; i < MAX_FLARES; i++) {
if(!magicFlares[i].exist) {
break;
}
if(magicFlares[i].tolive < magicFlares[oldest].tolive) {
oldest = i;
}
}
if(i >= MAX_FLARES) {
removeFlare(magicFlares[oldest]);
i = oldest;
}
FLARES * fl = &magicFlares[i];
fl->exist = 1;
flarenum++;
if(!bookDraw)
fl->bDrawBitmap = 0;
else
fl->bDrawBitmap = 1;
fl->io = io;
if(io) {
fl->flags = 1;
io->flarecount++;
} else {
fl->flags = 0;
}
fl->pos.x = float(pos.x) - rnd() * 4.f;
fl->pos.y = float(pos.y) - rnd() * 4.f - 50.f;
fl->tv.rhw = fl->v.rhw = 1.f;
if(!bookDraw) {
EERIE_CAMERA ka = *Kam;
ka.angle = Anglef(360.f, 360.f, 360.f) - ka.angle;
EERIE_CAMERA * oldcam = ACTIVECAM;
SetActiveCamera(&ka);
PrepareCamera(&ka, g_size);
fl->v.p += ka.orgTrans.pos;
EE_RTP(fl->tv.p, &fl->v);
fl->v.p += ka.orgTrans.pos;
float vx = -(fl->pos.x - subj.center.x) * 0.2173913f;
float vy = (fl->pos.y - subj.center.y) * 0.1515151515151515f;
if(io) {
fl->v.p = io->pos;
fl->v.p += angleToVectorXZ(io->angle.getPitch() + vx) * 100.f;
fl->v.p.y += std::sin(glm::radians(MAKEANGLE(io->angle.getYaw() + vy))) * 100.f - 150.f;
} else {
fl->v.p.x = 1.0f * float(pos.x - (g_size.width() / 2)) * 156.f / (640.f * g_sizeRatio.y);
fl->v.p.y = 0.75f * float(pos.y - (g_size.height() / 2)) * 156.f / (480.f * g_sizeRatio.y);
fl->v.p.z = 75.f;
ka = *oldcam;
SetActiveCamera(&ka);
PrepareCamera(&ka, g_size);
float temp = (fl->v.p.y * -ka.orgTrans.xsin) + (fl->v.p.z * ka.orgTrans.xcos);
fl->v.p.y = (fl->v.p.y * ka.orgTrans.xcos) - (-fl->v.p.z * ka.orgTrans.xsin);
fl->v.p.z = (temp * ka.orgTrans.ycos) - (-fl->v.p.x * ka.orgTrans.ysin);
fl->v.p.x = (temp * -ka.orgTrans.ysin) + (fl->v.p.x * ka.orgTrans.ycos);
fl->v.p += oldcam->orgTrans.pos;
}
fl->tv.p = fl->v.p;
SetActiveCamera(oldcam);
PrepareCamera(oldcam, g_size);
} else {
fl->tv.p = Vec3f(fl->pos.x, fl->pos.y, 0.001f);
}
switch(PIPOrgb) {
case 0: {
fl->rgb = Color3f(.4f, 0.f, .4f) + Color3f(2.f/3, 2.f/3, 2.f/3) * randomColor3f();
break;
}
case 1: {
fl->rgb = Color3f(.5f, .5f, 0.f) + Color3f(.625f, .625f, .55f) * randomColor3f();
break;
}
case 2: {
fl->rgb = Color3f(.4f, 0.f, 0.f) + Color3f(2.f/3, .55f, .55f) * randomColor3f();
break;
}
}
if(typ == -1) {
float zz = eeMousePressed1() ? 0.29f : ((sm > 0.5f) ? rnd() : 1.f);
if(zz < 0.2f) {
fl->type = 2;
fl->size = rnd() * 42.f + 42.f;
fl->tolive = (800.f + rnd() * 800.f) * FLARE_MUL;
} else if(zz < 0.5f) {
fl->type = 3;
fl->size = rnd() * 52.f + 16.f;
fl->tolive = (800.f + rnd() * 800.f) * FLARE_MUL;
} else {
fl->type = 1;
fl->size = (rnd() * 24.f + 32.f) * sm;
fl->tolive = (1700.f + rnd() * 500.f) * FLARE_MUL;
}
} else {
fl->type = (rnd() > 0.8f) ? 1 : 4;
fl->size = (rnd() * 38.f + 64.f) * sm;
fl->tolive = (1700.f + rnd() * 500.f) * FLARE_MUL;
}
fl->dynlight = LightHandle::Invalid;
for(long kk = 0; kk < 3; kk++) {
if(rnd() < 0.5f) {
continue;
}
PARTICLE_DEF * pd = createParticle();
if(!pd) {
break;
}
if(!bookDraw) {
pd->special = FADE_IN_AND_OUT | ROTATING | MODULATE_ROTATION | DISSIPATING;
if(!io) {
pd->special |= PARTICLE_NOZBUFFER;
}
} else {
pd->special = FADE_IN_AND_OUT;
}
pd->ov = fl->v.p + randomVec(-5.f, 5.f);
pd->move = Vec3f(0.f, 5.f, 0.f);
pd->scale = Vec3f(-2.f);
pd->tolive = 1300 + kk * 100 + Random::get(0, 800);
pd->tc = fire2;
if(kk == 1) {
pd->move.y = 4.f;
pd->siz = 1.5f;
} else {
pd->siz = 1.f + rnd();
}
pd->rgb = Color3f(fl->rgb.r * (2.f/3), fl->rgb.g * (2.f/3), fl->rgb.b * (2.f/3));
pd->fparam = 1.2f;
if(bookDraw)
pd->is2D = true;
}
}
Entity::~Entity() {
cleanReferences();
if(g_cameraEntity == this) {
g_cameraEntity = NULL;
}
// Releases ToBeDrawn Transparent Polys linked to this object !
tweaks.clear();
if(obj && !(ioflags & IO_CAMERA) && !(ioflags & IO_MARKER) && !(ioflags & IO_GOLD)) {
delete obj, obj = NULL;
}
spells.removeTarget(this);
delete tweakerinfo;
delete tweaky, tweaky = NULL;
ReleaseScript(&script);
ReleaseScript(&over_script);
for(size_t n = 0; n < MAX_ANIMS; n++) {
if(anims[n]) {
EERIE_ANIMMANAGER_ReleaseHandle(anims[n]);
anims[n] = NULL;
}
}
lightHandleDestroy(dynlight);
delete usepath;
delete symboldraw;
symboldraw = NULL;
if(ioflags & IO_NPC) {
delete _npcdata;
} else if(ioflags & IO_ITEM) {
free(_itemdata->equipitem);
delete _itemdata;
} else if(ioflags & IO_FIX) {
delete _fixdata;
} else if(ioflags & IO_CAMERA && _camdata) {
if(g_camera == &_camdata->cam) {
SetActiveCamera(&g_playerCamera);
}
delete _camdata;
}
if(SecondaryInventory && SecondaryInventory->io == this) {
SecondaryInventory = NULL;
}
if(TSecondaryInventory && TSecondaryInventory->io == this) {
TSecondaryInventory = NULL;
}
delete inventory;
if(m_index != size_t(-1)) {
entities.remove(m_index);
}
}
/*---------------------------------------------------------------*/
void Cinematic::Render(float FDIFF) {
CinematicBitmap * tb;
LargeurRender = DANAESIZX;
HauteurRender = DANAESIZY;
if (projectload)
{
GRenderer->Clear(Renderer::ColorBuffer);
GRenderer->BeginScene();
GereTrack(this, FDIFF);
//sound
if (changekey)
{
if (idsound >= 0)
{
PlaySoundKeyFramer(idsound);
}
}
//draw
GRenderer->SetBlendFunc(Renderer::BlendSrcAlpha, Renderer::BlendInvSrcAlpha);
GRenderer->GetTextureStage(0)->SetColorOp(TextureStage::OpModulate, TextureStage::ArgTexture, TextureStage::ArgDiffuse);
GRenderer->GetTextureStage(0)->SetAlphaOp(TextureStage::OpModulate, TextureStage::ArgTexture, TextureStage::ArgDiffuse);
GRenderer->GetTextureStage(1)->DisableAlpha();
//image key
tb = m_bitmaps[numbitmap];
//fx
int col = 0x00FFFFFF;
switch (fx & 0x000000FF)
{
case FX_FADEIN:
col = FX_FadeIN(a, color, colord);
break;
case FX_FADEOUT:
col = FX_FadeOUT(a, color, colord);
break;
case FX_BLUR:
FX_Blur(this, tb);
break;
default:
break;
}
//fx precalculation
switch (fx & 0x0000ff00)
{
case FX_DREAM:
if ((this->fxsuiv & 0x0000ff00) == FX_DREAM)
FX_DreamPrecalc(tb, 15.f, (FPS > 1.f) ? GetTrackFPS() / FPS : 0.f);
else
FX_DreamPrecalc(tb, 15.f * a, (FPS > 1.f) ? GetTrackFPS() / FPS : 0.f);
break;
default:
break;
}
Camera.pos = pos;
SetTargetCamera(&Camera, Camera.pos.x, Camera.pos.y, 0.f);
Camera.angle.b = 0;
Camera.angle.g = angz;
Camera.centerx = LargeurRender >> 1;
Camera.centery = HauteurRender >> 1;
Camera.clip.right = LargeurRender;
Camera.clip.bottom = HauteurRender;
PrepareCamera(&Camera);
SetActiveCamera(&Camera);
int alpha = ((int)(a * 255.f)) << 24;
int stopline = tb->nbx;
if (stopline & 1) stopline++;
if (force ^ 1) alpha = 0xFF000000;
col |= alpha;
CinematicLight lightt, *l = NULL;
if ((this->light.intensity >= 0.f) &&
(this->lightd.intensity >= 0.f))
{
lightt = this->light;
lightt.pos.x += (float)(LargeurRender >> 1);
lightt.pos.y += (float)(HauteurRender >> 1);
#define SPEEDINTENSITYRND (10.f)
float flIntensityRNDToReach = lightt.intensiternd * rnd();
m_flIntensityRND += (flIntensityRNDToReach - m_flIntensityRND) * FDIFF * SPEEDINTENSITYRND;
m_flIntensityRND = m_flIntensityRND < 0.f ? 0.f : m_flIntensityRND > 1.f ? 1.f : m_flIntensityRND;
LightRND = lightt.intensity + (lightt.intensiternd * rnd());
if (LightRND > 1.f) LightRND = 1.f;
l = &lightt;
}
if (tb->grid.nbvertexs) DrawGrille(&tb->grid, col, fx, l, &posgrille, angzgrille);
//PASS #2
if (force & 1)
{
switch (ti)
{
case INTERP_NO:
Camera.pos = possuiv;
SetTargetCamera(&Camera, Camera.pos.x, Camera.pos.y, 0.f);
Camera.angle.b = 0;
Camera.angle.g = angzsuiv;
PrepareCamera(&Camera);
break;
case INTERP_LINEAR:
break;
case INTERP_BEZIER:
break;
}
tb = m_bitmaps[numbitmapsuiv];
alpha = 0xFF000000 - alpha;
col &= 0x00FFFFFF;
col |= alpha;
l = NULL;
if ((this->light.intensity >= 0.f) &&
(this->lightd.intensity >= 0.f))
{
lightt = this->lightd;
lightt.pos.x += (float)(LargeurRender >> 1);
lightt.pos.y += (float)(HauteurRender >> 1);
LightRND = lightt.intensity + (lightt.intensiternd * rnd());
if (LightRND > 1.f) LightRND = 1.f;
l = &lightt;
}
if (tb->grid.nbvertexs) DrawGrille(&tb->grid, col, fx, l, &posgrillesuiv, angzgrillesuiv);
}
/*---------------------------------------------------------------*/
void Cinematic::Render(float FDIFF) {
CinematicBitmap * tb;
LargeurRender = g_size.width();
HauteurRender = g_size.height();
if(projectload) {
GRenderer->Clear(Renderer::ColorBuffer);
GereTrack(this, FDIFF);
//sound
if(changekey && idsound >= 0)
PlaySoundKeyFramer(idsound);
//draw
GRenderer->SetBlendFunc(Renderer::BlendSrcAlpha, Renderer::BlendInvSrcAlpha);
GRenderer->GetTextureStage(0)->setColorOp(TextureStage::OpModulate, TextureStage::ArgTexture, TextureStage::ArgDiffuse);
GRenderer->GetTextureStage(0)->setAlphaOp(TextureStage::OpModulate, TextureStage::ArgTexture, TextureStage::ArgDiffuse);
GRenderer->GetTextureStage(1)->disableAlpha();
//image key
tb = m_bitmaps[numbitmap];
//fx
int col = 0x00FFFFFF;
switch(fx & 0x000000FF) {
case FX_FADEIN:
col = FX_FadeIN(a, color, colord);
break;
case FX_FADEOUT:
col = FX_FadeOUT(a, color, colord);
break;
case FX_BLUR:
FX_Blur(this, tb, m_camera);
break;
default:
break;
}
//fx precalculation
switch(fx & 0x0000ff00) {
case FX_DREAM:
if ((this->fxsuiv & 0x0000ff00) == FX_DREAM)
FX_DreamPrecalc(tb, 15.f, (FPS > 1.f) ? GetTrackFPS() / FPS : 0.f);
else
FX_DreamPrecalc(tb, 15.f * a, (FPS > 1.f) ? GetTrackFPS() / FPS : 0.f);
break;
default:
break;
}
m_camera.orgTrans.pos = pos;
m_camera.setTargetCamera(m_camera.orgTrans.pos.x, m_camera.orgTrans.pos.y, 0.f);
m_camera.angle.setPitch(0);
m_camera.angle.setRoll(angz);
m_camera.clip = Rect(LargeurRender, HauteurRender);
m_camera.center = m_camera.clip.center();
PrepareCamera(&m_camera, g_size);
SetActiveCamera(&m_camera);
int alpha = ((int)(a * 255.f)) << 24;
if(force ^ 1)
alpha = 0xFF000000;
col |= alpha;
CinematicLight lightt, *l = NULL;
if(this->light.intensity >= 0.f && this->lightd.intensity >= 0.f) {
lightt = this->light;
lightt.pos.x += (float)(LargeurRender >> 1);
lightt.pos.y += (float)(HauteurRender >> 1);
static const float SPEEDINTENSITYRND = 10.f;
float flIntensityRNDToReach = lightt.intensiternd * rnd();
m_flIntensityRND += (flIntensityRNDToReach - m_flIntensityRND) * FDIFF * SPEEDINTENSITYRND;
m_flIntensityRND = m_flIntensityRND < 0.f ? 0.f : m_flIntensityRND > 1.f ? 1.f : m_flIntensityRND;
LightRND = lightt.intensity + (lightt.intensiternd * rnd());
if(LightRND > 1.f)
LightRND = 1.f;
l = &lightt;
}
if(tb->grid.nbvertexs)
DrawGrille(&tb->grid, col, fx, l, &posgrille, angzgrille);
//PASS #2
if(force & 1) {
switch(ti) {
case INTERP_NO:
m_camera.orgTrans.pos = possuiv;
m_camera.setTargetCamera(m_camera.orgTrans.pos.x, m_camera.orgTrans.pos.y, 0.f);
m_camera.angle.setPitch(0);
m_camera.angle.setRoll(angzsuiv);
PrepareCamera(&m_camera, g_size);
break;
case INTERP_LINEAR:
break;
case INTERP_BEZIER:
break;
}
tb = m_bitmaps[numbitmapsuiv];
alpha = 0xFF000000 - alpha;
col &= 0x00FFFFFF;
col |= alpha;
l = NULL;
if(this->light.intensity >= 0.f && this->lightd.intensity >= 0.f) {
lightt = this->lightd;
lightt.pos.x += (float)(LargeurRender >> 1);
lightt.pos.y += (float)(HauteurRender >> 1);
LightRND = lightt.intensity + (lightt.intensiternd * rnd());
if(LightRND > 1.f)
LightRND = 1.f;
l = &lightt;
}
if(tb->grid.nbvertexs)
DrawGrille(&tb->grid, col, fx, l, &posgrillesuiv, angzgrillesuiv);
}
void AddFlare(const Vec2s & pos, float sm, short typ, Entity * io, bool bookDraw) {
long i;
for(i = 0; i < MAX_FLARES; i++) {
if(!magicFlares[i].exist) {
break;
}
}
if(i >= MAX_FLARES) {
return;
}
FLARES * fl = &magicFlares[i];
fl->exist = 1;
flarenum++;
if(!bookDraw)
fl->bDrawBitmap = 0;
else
fl->bDrawBitmap = 1;
fl->io = io;
if(io) {
fl->flags = 1;
io->flarecount++;
} else {
fl->flags = 0;
}
fl->x = float(pos.x) - rnd() * 4.f;
fl->y = float(pos.y) - rnd() * 4.f - 50.f;
fl->tv.rhw = fl->v.rhw = 1.f;
fl->tv.specular = fl->v.specular = 1;
if(!bookDraw) {
EERIE_CAMERA ka = *Kam;
ka.angle = Anglef(360.f, 360.f, 360.f) - ka.angle;
EERIE_CAMERA * oldcam = ACTIVECAM;
SetActiveCamera(&ka);
PrepareCamera(&ka);
fl->v.p += ka.orgTrans.pos;
EE_RTP(&fl->tv, &fl->v);
fl->v.p += ka.orgTrans.pos;
float vx = -(fl->x - subj.center.x) * 0.2173913f;
float vy = (fl->y - subj.center.y) * 0.1515151515151515f;
if(io) {
fl->v.p.x = io->pos.x - EEsin(radians(MAKEANGLE(io->angle.getPitch() + vx))) * 100.f;
fl->v.p.y = io->pos.y + EEsin(radians(MAKEANGLE(io->angle.getYaw() + vy))) * 100.f - 150.f;
fl->v.p.z = io->pos.z + EEcos(radians(MAKEANGLE(io->angle.getPitch() + vx))) * 100.f;
} else {
fl->v.p.x = float(pos.x - (g_size.width() / 2)) * 150.f / float(g_size.width());
fl->v.p.y = float(pos.y - (g_size.height() / 2)) * 150.f / float(g_size.width());
fl->v.p.z = 75.f;
ka = *oldcam;
SetActiveCamera(&ka);
PrepareCamera(&ka);
float temp = (fl->v.p.y * -ka.orgTrans.xsin) + (fl->v.p.z * ka.orgTrans.xcos);
fl->v.p.y = (fl->v.p.y * ka.orgTrans.xcos) - (-fl->v.p.z * ka.orgTrans.xsin);
fl->v.p.z = (temp * ka.orgTrans.ycos) - (-fl->v.p.x * ka.orgTrans.ysin);
fl->v.p.x = (temp * -ka.orgTrans.ysin) + (fl->v.p.x * ka.orgTrans.ycos);
fl->v.p += oldcam->orgTrans.pos;
}
fl->tv.p = fl->v.p;
SetActiveCamera(oldcam);
PrepareCamera(oldcam);
} else {
fl->tv.p = Vec3f(fl->x, fl->y, 0.001f);
}
switch(PIPOrgb) {
case 0: {
fl->rgb = Color3f(rnd() * (2.f/3) + .4f, rnd() * (2.f/3), rnd() * (2.f/3) + .4f);
break;
}
case 1: {
fl->rgb = Color3f(rnd() * .625f + .5f, rnd() * .625f + .5f, rnd() * .55f);
break;
}
case 2: {
fl->rgb = Color3f(rnd() * (2.f/3) + .4f, rnd() * .55f, rnd() * .55f);
break;
}
}
if(typ == -1) {
float zz = (EERIEMouseButton & 1) ? 0.29f : ((sm > 0.5f) ? rnd() : 1.f);
if(zz < 0.2f) {
fl->type = 2;
fl->size = rnd() * 42.f + 42.f;
fl->tolive = (800.f + rnd() * 800.f) * FLARE_MUL;
} else if(zz < 0.5f) {
fl->type = 3;
fl->size = rnd() * 52.f + 16.f;
fl->tolive = (800.f + rnd() * 800.f) * FLARE_MUL;
} else {
fl->type = 1;
fl->size = (rnd() * 24.f + 32.f) * sm;
fl->tolive = (1700.f + rnd() * 500.f) * FLARE_MUL;
}
} else {
fl->type = (rnd() > 0.8f) ? 1 : 4;
fl->size = (rnd() * 38.f + 64.f) * sm;
fl->tolive = (1700.f + rnd() * 500.f) * FLARE_MUL;
}
fl->dynlight = -1;
fl->move = OPIPOrgb;
for(long kk = 0; kk < 3; kk++) {
if(rnd() < 0.5f) {
continue;
}
PARTICLE_DEF * pd = createParticle();
if(!pd) {
break;
}
if(!bookDraw) {
pd->special = FADE_IN_AND_OUT | ROTATING | MODULATE_ROTATION | DISSIPATING;
if(!io) {
pd->special |= PARTICLE_NOZBUFFER;
}
} else {
pd->special = FADE_IN_AND_OUT;
}
pd->ov = fl->v.p + randomVec(-5.f, 5.f);
pd->move = Vec3f(0.f, 5.f, 0.f);
pd->scale = Vec3f(-2.f);
pd->tolive = 1300 + kk * 100 + Random::get(0, 800);
pd->tc = fire2;
if(kk == 1) {
pd->move.y = 4.f;
pd->siz = 1.5f;
} else {
pd->siz = 1.f + rnd();
}
pd->rgb = Color3f(fl->rgb.r * (2.f/3), fl->rgb.g * (2.f/3), fl->rgb.b * (2.f/3));
pd->fparam = 1.2f;
if(bookDraw)
pd->type = PARTICLE_2D;
}
}
void AddFlare(const Vec2f & pos, float sm, short typ, Entity * io, bool bookDraw) {
size_t oldest = 0;
size_t i;
for(i = 0; i < g_magicFlaresMax; i++) {
if(!g_magicFlares[i].exist) {
break;
}
if(g_magicFlares[i].tolive < g_magicFlares[oldest].tolive) {
oldest = i;
}
}
if(i >= g_magicFlaresMax) {
removeFlare(g_magicFlares[oldest]);
i = oldest;
}
MagicFlare & flare = g_magicFlares[i];
flare.exist = 1;
g_magicFlaresCount++;
if(!bookDraw)
flare.bDrawBitmap = 0;
else
flare.bDrawBitmap = 1;
flare.io = io;
if(io) {
flare.flags = 1;
io->flarecount++;
} else {
flare.flags = 0;
}
flare.pos.x = pos.x - Random::getf(0.f, 4.f);
flare.pos.y = pos.y - Random::getf(0.f, 4.f) - 50.f;
flare.tv.rhw = flare.v.rhw = 1.f;
if(!bookDraw) {
EERIE_CAMERA ka = *g_magicFlareCamera;
ka.angle = Anglef(360.f, 360.f, 360.f) - ka.angle;
EERIE_CAMERA * oldcam = ACTIVECAM;
SetActiveCamera(&ka);
PrepareCamera(&ka, g_size);
flare.v.p += ka.orgTrans.pos;
EE_RTP(flare.tv.p, flare.v);
flare.v.p += ka.orgTrans.pos;
float vx = -(flare.pos.x - subj.center.x) * 0.2173913f;
float vy = (flare.pos.y - subj.center.y) * 0.1515151515151515f;
if(io) {
flare.v.p = io->pos;
flare.v.p += angleToVectorXZ(io->angle.getYaw() + vx) * 100.f;
flare.v.p.y += std::sin(glm::radians(MAKEANGLE(io->angle.getPitch() + vy))) * 100.f - 150.f;
} else {
flare.v.p.x = 1.0f * float(pos.x - (g_size.width() / 2)) * 156.f / (640.f * g_sizeRatio.y);
flare.v.p.y = 0.75f * float(pos.y - (g_size.height() / 2)) * 156.f / (480.f * g_sizeRatio.y);
flare.v.p.z = 75.f;
ka = *oldcam;
SetActiveCamera(&ka);
PrepareCamera(&ka, g_size);
float temp = (flare.v.p.y * -ka.orgTrans.xsin) + (flare.v.p.z * ka.orgTrans.xcos);
flare.v.p.y = (flare.v.p.y * ka.orgTrans.xcos) - (-flare.v.p.z * ka.orgTrans.xsin);
flare.v.p.z = (temp * ka.orgTrans.ycos) - (-flare.v.p.x * ka.orgTrans.ysin);
flare.v.p.x = (temp * -ka.orgTrans.ysin) + (flare.v.p.x * ka.orgTrans.ycos);
flare.v.p += oldcam->orgTrans.pos;
}
flare.tv.p = flare.v.p;
SetActiveCamera(oldcam);
PrepareCamera(oldcam, g_size);
} else {
flare.tv.p = Vec3f(flare.pos.x, flare.pos.y, 0.001f);
}
switch(g_magicFlareCurrentColor) {
case 0: {
flare.rgb = Color3f(.4f, 0.f, .4f) + Color3f(2.f/3, 2.f/3, 2.f/3) * randomColor3f();
break;
}
case 1: {
flare.rgb = Color3f(.5f, .5f, 0.f) + Color3f(.625f, .625f, .55f) * randomColor3f();
break;
}
case 2: {
flare.rgb = Color3f(.4f, 0.f, 0.f) + Color3f(2.f/3, .55f, .55f) * randomColor3f();
break;
}
}
static const float FLARE_MUL = 2.f;
if(typ == -1) {
float zz = eeMousePressed1() ? 0.29f : ((sm > 0.5f) ? Random::getf() : 1.f);
if(zz < 0.2f) {
flare.type = 2;
flare.size = Random::getf(42.f, 84.f);
flare.tolive = Random::getf(800.f, 1600.f) * FLARE_MUL;
} else if(zz < 0.5f) {
flare.type = 3;
flare.size = Random::getf(16.f, 68.f);
flare.tolive = Random::getf(800.f, 1600.f) * FLARE_MUL;
} else {
flare.type = 1;
flare.size = Random::getf(32.f, 56.f) * sm;
flare.tolive = Random::getf(1700.f, 2200.f) * FLARE_MUL;
}
} else {
flare.type = (Random::getf() > 0.8f) ? 1 : 4;
flare.size = Random::getf(64.f, 102.f) * sm;
flare.tolive = Random::getf(1700.f, 2200.f) * FLARE_MUL;
}
flare.dynlight = LightHandle();
for(unsigned int kk = 0; kk < 3; kk++) {
if(Random::getf() < 0.5f) {
continue;
}
PARTICLE_DEF * pd = createParticle();
if(!pd) {
break;
}
if(!bookDraw) {
pd->m_flags = FADE_IN_AND_OUT | ROTATING | DISSIPATING;
if(!io) {
pd->m_flags |= PARTICLE_NOZBUFFER;
}
} else {
pd->m_flags = FADE_IN_AND_OUT;
}
pd->ov = flare.v.p + randomVec(-5.f, 5.f);
pd->move = Vec3f(0.f, 5.f, 0.f);
pd->scale = Vec3f(-2.f);
pd->tolive = 1300 + kk * 100 + Random::getu(0, 800);
pd->tc = fire2;
if(kk == 1) {
pd->move.y = 4.f;
pd->siz = 1.5f;
} else {
pd->siz = Random::getf(1.f, 2.f);
}
pd->rgb = Color3f(flare.rgb.r * (2.f/3), flare.rgb.g * (2.f/3), flare.rgb.b * (2.f/3));
pd->m_rotation = 1.2f;
if(bookDraw)
pd->is2D = true;
}
}
