void RadarRenderer::render(SceneRenderer& renderer,
bool blank)
{
const int ox = renderer.getWindow().getOriginX();
const int oy = renderer.getWindow().getOriginY();
float opacity = renderer.getPanelOpacity();
if ((opacity < 1.0f) && (opacity > 0.0f)) {
glScissor(ox + x - 2, oy + y - 2, w + 4, h + 4);
glColor4f(0.0f, 0.0f, 0.0f, opacity);
glRectf((float) x, (float) y, (float)(x + w), (float)(y + h));
}
glScissor(ox + x, oy + y, w, h);
LocalPlayer *myTank = LocalPlayer::getMyTank();
if (opacity == 1.0f)
{
// glClearColor(0.0f, 0.0f, 0.0f, 1.0f);
// glClear(GL_COLOR_BUFFER_BIT);
}
if (blank)
return;
// prepare transforms
float worldSize = BZDB.eval(StateDatabase::BZDB_WORLDSIZE);
float range = BZDB.eval("displayRadarRange") * worldSize;
// when burrowed, limit radar range
if (myTank && (myTank->getFlag() == Flags::Burrow) &&
(myTank->getPosition()[2] < 0.0f)) {
#ifdef _MSC_VER
range = min(range, worldSize / 4.0f);
#else
range = std::min(range, worldSize / 4.0f);
#endif
}
glMatrixMode(GL_PROJECTION);
glLoadIdentity();
const int xSize = renderer.getWindow().getWidth();
const int ySize = renderer.getWindow().getHeight();
const double xCenter = double(x) + 0.5 * double(w);
const double yCenter = double(y) + 0.5 * double(h);
const double xUnit = 2.0 * range / double(w);
const double yUnit = 2.0 * range / double(h);
glOrtho(-xCenter * xUnit, (xSize - xCenter) * xUnit, -yCenter * yUnit, (ySize - yCenter) * yUnit, -1.0, 1.0);
glMatrixMode(GL_MODELVIEW);
glPushMatrix();
glLoadIdentity();
OpenGLGState::resetState();
TextureManager &tm = TextureManager::instance();
int noiseTexture = tm.getTextureID( "noise" );
// if jammed then draw white noise. occasionally draw a good frame.
if (jammed && bzfrand() > decay)
{
glColor3f(1.0,1.0,1.0);
if (noiseTexture >= 0 && renderer.useQuality() > 0)
{
const int sequences = 10;
static float np[] = { 0, 0, 1, 1,
1, 1, 0, 0,
0.5f, 0.5f, 1.5f, 1.5f,
1.5f, 1.5f, 0.5f, 0.5f,
0.25f, 0.25f, 1.25f, 1.25f,
1.25f, 1.25f, 0.25f, 0.25f,
0, 0.5f, 1, 1.5f,
1, 1.5f, 0, 0.5f,
0.5f, 0, 1.5f, 1,
1.4f, 1, 0.5f, 0,
0.75f, 0.75f, 1.75f, 1.75f,
1.75f, 1.75f, 0.75f, 0.75f,
};
int noisePattern = 4 * int(floor(sequences * bzfrand()));
glEnable(GL_TEXTURE_2D);
tm.bind(noiseTexture);
glBegin(GL_QUADS);
glTexCoord2f(np[noisePattern+0],np[noisePattern+1]);
glVertex2f(-range,-range);
glTexCoord2f(np[noisePattern+2],np[noisePattern+1]);
glVertex2f( range,-range);
glTexCoord2f(np[noisePattern+2],np[noisePattern+3]);
glVertex2f( range, range);
glTexCoord2f(np[noisePattern+0],np[noisePattern+3]);
glVertex2f(-range, range);
glEnd();
glDisable(GL_TEXTURE_2D);
}
else if (noiseTexture >= 0 && BZDBCache::texture && renderer.useQuality() == 0)
{
glEnable(GL_TEXTURE_2D);
tm.bind(noiseTexture);
glBegin(GL_QUADS);
glTexCoord2f(0,0);
glVertex2f(-range,-range);
glTexCoord2f(1,0);
glVertex2f( range,-range);
glTexCoord2f(1,1);
glVertex2f( range, range);
glTexCoord2f(0,1);
glVertex2f(-range, range);
glEnd();
glDisable(GL_TEXTURE_2D);
}
if (decay > 0.015f)
decay *= 0.5f;
}
else if (myTank) // only draw if there's a local player
{
// if decay is sufficiently small then boost it so it's more
// likely a jammed radar will get a few good frames closely
// spaced in time. value of 1 guarantees at least two good
// frames in a row.
if (decay <= 0.015f)
decay = 1.0f;
else
decay *= 0.5f;
// get size of pixel in model space (assumes radar is square)
ps = 2.0f * range / GLfloat(w);
// relative to my tank
const LocalPlayer* myTank = LocalPlayer::getMyTank();
const float* pos = myTank->getPosition();
float angle = myTank->getAngle();
// draw the view angle blewow stuff
// view frustum edges
glColor3f(1.0f, 0.625f, 0.125f);
const float fovx = renderer.getViewFrustum().getFOVx();
const float viewWidth = range * tanf(0.5f * fovx);
glBegin(GL_LINE_STRIP);
glVertex2f(-viewWidth, range);
glVertex2f(0.0f, 0.0f);
glVertex2f(viewWidth, range);
glEnd();
glPushMatrix();
glRotatef(90.0f - angle * 180.0f / M_PI, 0.0f, 0.0f, 1.0f);
glPushMatrix();
glTranslatef(-pos[0], -pos[1], 0.0f);
// Redraw buildings
makeList( renderer);
// draw my shots
int maxShots = world.getMaxShots();
int i;
float muzzleHeight = BZDB.eval(StateDatabase::BZDB_MUZZLEHEIGHT);
for (i = 0; i < maxShots; i++)
{
const ShotPath* shot = myTank->getShot(i);
if (shot)
{
const float cs = colorScale(shot->getPosition()[2], muzzleHeight, BZDBCache::enhancedRadar);
glColor3f(1.0f * cs, 1.0f * cs, 1.0f * cs);
shot->radarRender();
}
}
//draw world weapon shots
WorldPlayer *worldWeapons = World::getWorld()->getWorldWeapons();
maxShots = worldWeapons->getMaxShots();
for (i = 0; i < maxShots; i++)
{
const ShotPath* shot = worldWeapons->getShot(i);
if (shot)
{
const float cs = colorScale(shot->getPosition()[2], muzzleHeight, BZDBCache::enhancedRadar);
glColor3f(1.0f * cs, 1.0f * cs, 1.0f * cs);
shot->radarRender();
}
}
// draw other tanks (and any flags on them)
// note about flag drawing. each line segment is drawn twice
// (once in each direction); this degrades the antialiasing
// but on systems that don't do correct filtering of endpoints
// not doing it makes (half) the endpoints jump wildly.
const int curMaxPlayers = world.getCurMaxPlayers();
for (i = 0; i < curMaxPlayers; i++) {
RemotePlayer* player = world.getPlayer(i);
if (!player || !player->isAlive() || ((player->getFlag() == Flags::Stealth) &&
(myTank->getFlag() != Flags::Seer)))
continue;
GLfloat x = player->getPosition()[0];
GLfloat y = player->getPosition()[1];
GLfloat z = player->getPosition()[2];
if (player->getFlag() != Flags::Null) {
glColor3fv(player->getFlag()->getColor());
drawFlagOnTank(x, y, z);
}
if (player->isPaused() || player->isNotResponding()) {
const float dimfactor = 0.4f;
const float *color = Team::getRadarColor(myTank->getFlag() ==
Flags::Colorblindness ? RogueTeam : player->getTeam());
float dimmedcolor[3];
dimmedcolor[0] = color[0] * dimfactor;
dimmedcolor[1] = color[1] * dimfactor;
dimmedcolor[2] = color[2] * dimfactor;
glColor3fv(dimmedcolor);
} else {
glColor3fv(Team::getRadarColor(myTank->getFlag() ==
Flags::Colorblindness ? RogueTeam : player->getTeam()));
}
// If this tank is hunted flash it on the radar
if (player->isHunted() && myTank->getFlag() != Flags::Colorblindness) {
if (flashTank.isOn()) {
if (!toggleTank) {
float flashcolor[3];
flashcolor[0] = 0.0f;
flashcolor[1] = 0.8f;
flashcolor[2] = 0.9f;
glColor3fv(flashcolor);
}
} else {
toggleTank = !toggleTank;
flashTank.setClock(0.2f);
}
}
drawTank(x, y, z);
}
bool coloredShot = BZDB.isTrue("coloredradarshots");
// draw other tanks' shells
maxShots = World::getWorld()->getMaxShots();
for (i = 0; i < curMaxPlayers; i++) {
RemotePlayer* player = world.getPlayer(i);
if (!player) continue;
for (int j = 0; j < maxShots; j++) {
const ShotPath* shot = player->getShot(j);
if (shot && shot->getFlag() != Flags::InvisibleBullet) {
const float *shotcolor;
if (coloredShot) {
if (myTank->getFlag() == Flags::Colorblindness)
shotcolor = Team::getRadarColor(RogueTeam);
else
shotcolor = Team::getRadarColor(player->getTeam());
const float cs = colorScale(shot->getPosition()[2],
muzzleHeight, BZDBCache::enhancedRadar);
glColor3f(shotcolor[0] * cs, shotcolor[1] * cs, shotcolor[2] * cs);
} else {
glColor3f(1.0f, 1.0f, 1.0f);
}
shot->radarRender();
}
}
}
// draw flags not on tanks.
const int maxFlags = world.getMaxFlags();
const bool drawNormalFlags = BZDB.isTrue("displayRadarFlags");
for (i = 0; i < maxFlags; i++) {
const Flag& flag = world.getFlag(i);
// don't draw flags that don't exist or are on a tank
if (flag.status == FlagNoExist || flag.status == FlagOnTank)
continue;
// don't draw normal flags if we aren't supposed to
if (flag.type->flagTeam == NoTeam && !drawNormalFlags)
continue;
// Flags change color by height
const float cs = colorScale(flag.position[2], muzzleHeight, BZDBCache::enhancedRadar);
const float *flagcolor = flag.type->getColor();
glColor3f(flagcolor[0] * cs, flagcolor[1] * cs, flagcolor[2] * cs);
drawFlag(flag.position[0], flag.position[1], flag.position[2]);
}
// draw antidote flag
const float* antidotePos =
LocalPlayer::getMyTank()->getAntidoteLocation();
if (antidotePos) {
glColor3f(1.0f, 1.0f, 0.0f);
drawFlag(antidotePos[0], antidotePos[1], antidotePos[2]);
}
// draw these markers above all others always centered
glPopMatrix();
// north marker
GLfloat ns = 0.05f * range, ny = 0.9f * range;
glColor3f(1.0f, 1.0f, 1.0f);
glBegin(GL_LINE_STRIP);
glVertex2f(-ns, ny - ns);
glVertex2f(-ns, ny + ns);
glVertex2f(ns, ny - ns);
glVertex2f(ns, ny + ns);
glEnd();
// always up
glPopMatrix();
// get size of pixel in model space (assumes radar is square)
GLfloat ps = 2.0f * range / GLfloat(w);
// forward tick
glBegin(GL_LINES);
glVertex2f(0.0f, range - ps);
glVertex2f(0.0f, range - 4.0f * ps);
glEnd();
// my tank
glColor3f(1.0f, 1.0f, 1.0f);
drawTank(0.0f, 0.0f, myTank->getPosition()[2]);
// my flag
if (myTank->getFlag() != Flags::Null) {
glColor3fv(myTank->getFlag()->getColor());
drawFlagOnTank(0.0f, 0.0f, myTank->getPosition()[2]);
}
}
// restore GL state
glPopMatrix();
}
void RemoteClient::GetNextBlocks (
ServerEnvironment *env,
EmergeManager * emerge,
float dtime,
std::vector<PrioritySortedBlockTransfer> &dest)
{
DSTACK(FUNCTION_NAME);
// Increment timers
m_nothing_to_send_pause_timer -= dtime;
m_nearest_unsent_reset_timer += dtime;
if(m_nothing_to_send_pause_timer >= 0)
return;
RemotePlayer *player = env->getPlayer(peer_id);
// This can happen sometimes; clients and players are not in perfect sync.
if (player == NULL)
return;
// Won't send anything if already sending
if(m_blocks_sending.size() >= g_settings->getU16
("max_simultaneous_block_sends_per_client"))
{
//infostream<<"Not sending any blocks, Queue full."<<std::endl;
return;
}
v3f playerpos = player->getPosition();
v3f playerspeed = player->getSpeed();
v3f playerspeeddir(0,0,0);
if(playerspeed.getLength() > 1.0*BS)
playerspeeddir = playerspeed / playerspeed.getLength();
// Predict to next block
v3f playerpos_predicted = playerpos + playerspeeddir*MAP_BLOCKSIZE*BS;
v3s16 center_nodepos = floatToInt(playerpos_predicted, BS);
v3s16 center = getNodeBlockPos(center_nodepos);
// Camera position and direction
v3f camera_pos = player->getEyePosition();
v3f camera_dir = v3f(0,0,1);
camera_dir.rotateYZBy(player->getPitch());
camera_dir.rotateXZBy(player->getYaw());
/*infostream<<"camera_dir=("<<camera_dir.X<<","<<camera_dir.Y<<","
<<camera_dir.Z<<")"<<std::endl;*/
/*
Get the starting value of the block finder radius.
*/
if(m_last_center != center)
{
m_nearest_unsent_d = 0;
m_last_center = center;
}
/*infostream<<"m_nearest_unsent_reset_timer="
<<m_nearest_unsent_reset_timer<<std::endl;*/
// Reset periodically to workaround for some bugs or stuff
if(m_nearest_unsent_reset_timer > 20.0)
{
m_nearest_unsent_reset_timer = 0;
m_nearest_unsent_d = 0;
//infostream<<"Resetting m_nearest_unsent_d for "
// <<server->getPlayerName(peer_id)<<std::endl;
}
//s16 last_nearest_unsent_d = m_nearest_unsent_d;
s16 d_start = m_nearest_unsent_d;
//infostream<<"d_start="<<d_start<<std::endl;
u16 max_simul_sends_setting = g_settings->getU16
("max_simultaneous_block_sends_per_client");
u16 max_simul_sends_usually = max_simul_sends_setting;
/*
Check the time from last addNode/removeNode.
Decrease send rate if player is building stuff.
*/
m_time_from_building += dtime;
if(m_time_from_building < g_settings->getFloat(
"full_block_send_enable_min_time_from_building"))
{
max_simul_sends_usually
= LIMITED_MAX_SIMULTANEOUS_BLOCK_SENDS;
}
/*
Number of blocks sending + number of blocks selected for sending
*/
u32 num_blocks_selected = m_blocks_sending.size();
/*
next time d will be continued from the d from which the nearest
unsent block was found this time.
This is because not necessarily any of the blocks found this
time are actually sent.
*/
s32 new_nearest_unsent_d = -1;
const s16 full_d_max = g_settings->getS16("max_block_send_distance");
s16 d_max = full_d_max;
s16 d_max_gen = g_settings->getS16("max_block_generate_distance");
// Don't loop very much at a time
s16 max_d_increment_at_time = 2;
if(d_max > d_start + max_d_increment_at_time)
d_max = d_start + max_d_increment_at_time;
s32 nearest_emerged_d = -1;
s32 nearest_emergefull_d = -1;
s32 nearest_sent_d = -1;
//bool queue_is_full = false;
s16 d;
for(d = d_start; d <= d_max; d++) {
/*
Get the border/face dot coordinates of a "d-radiused"
box
*/
std::vector<v3s16> list = FacePositionCache::getFacePositions(d);
std::vector<v3s16>::iterator li;
for(li = list.begin(); li != list.end(); ++li) {
v3s16 p = *li + center;
/*
Send throttling
- Don't allow too many simultaneous transfers
- EXCEPT when the blocks are very close
Also, don't send blocks that are already flying.
*/
// Start with the usual maximum
u16 max_simul_dynamic = max_simul_sends_usually;
// If block is very close, allow full maximum
if(d <= BLOCK_SEND_DISABLE_LIMITS_MAX_D)
max_simul_dynamic = max_simul_sends_setting;
// Don't select too many blocks for sending
if (num_blocks_selected >= max_simul_dynamic) {
//queue_is_full = true;
goto queue_full_break;
}
// Don't send blocks that are currently being transferred
if (m_blocks_sending.find(p) != m_blocks_sending.end())
continue;
/*
Do not go over-limit
*/
if (blockpos_over_limit(p))
continue;
// If this is true, inexistent block will be made from scratch
bool generate = d <= d_max_gen;
{
/*// Limit the generating area vertically to 2/3
if(abs(p.Y - center.Y) > d_max_gen - d_max_gen / 3)
generate = false;*/
// Limit the send area vertically to 1/2
if (abs(p.Y - center.Y) > full_d_max / 2)
continue;
}
/*
Don't generate or send if not in sight
FIXME This only works if the client uses a small enough
FOV setting. The default of 72 degrees is fine.
*/
float camera_fov = (72.0*M_PI/180) * 4./3.;
if(isBlockInSight(p, camera_pos, camera_dir, camera_fov, 10000*BS) == false)
{
continue;
}
/*
Don't send already sent blocks
*/
{
if(m_blocks_sent.find(p) != m_blocks_sent.end())
{
continue;
}
}
/*
Check if map has this block
*/
MapBlock *block = env->getMap().getBlockNoCreateNoEx(p);
bool surely_not_found_on_disk = false;
bool block_is_invalid = false;
if(block != NULL)
{
// Reset usage timer, this block will be of use in the future.
block->resetUsageTimer();
// Block is dummy if data doesn't exist.
// It means it has been not found from disk and not generated
if(block->isDummy())
{
surely_not_found_on_disk = true;
}
// Block is valid if lighting is up-to-date and data exists
if(block->isValid() == false)
{
block_is_invalid = true;
}
if(block->isGenerated() == false)
block_is_invalid = true;
/*
If block is not close, don't send it unless it is near
ground level.
Block is near ground level if night-time mesh
differs from day-time mesh.
*/
if(d >= 4)
{
if(block->getDayNightDiff() == false)
continue;
}
}
/*
If block has been marked to not exist on disk (dummy)
and generating new ones is not wanted, skip block.
*/
if(generate == false && surely_not_found_on_disk == true)
{
// get next one.
continue;
}
/*
Add inexistent block to emerge queue.
*/
if(block == NULL || surely_not_found_on_disk || block_is_invalid)
{
if (emerge->enqueueBlockEmerge(peer_id, p, generate)) {
if (nearest_emerged_d == -1)
nearest_emerged_d = d;
} else {
if (nearest_emergefull_d == -1)
nearest_emergefull_d = d;
goto queue_full_break;
}
// get next one.
continue;
}
if(nearest_sent_d == -1)
nearest_sent_d = d;
/*
Add block to send queue
*/
PrioritySortedBlockTransfer q((float)d, p, peer_id);
dest.push_back(q);
num_blocks_selected += 1;
}
}
queue_full_break:
// If nothing was found for sending and nothing was queued for
// emerging, continue next time browsing from here
if(nearest_emerged_d != -1){
new_nearest_unsent_d = nearest_emerged_d;
} else if(nearest_emergefull_d != -1){
new_nearest_unsent_d = nearest_emergefull_d;
} else {
if(d > g_settings->getS16("max_block_send_distance")){
new_nearest_unsent_d = 0;
m_nothing_to_send_pause_timer = 2.0;
} else {
if(nearest_sent_d != -1)
new_nearest_unsent_d = nearest_sent_d;
else
new_nearest_unsent_d = d;
}
}
if(new_nearest_unsent_d != -1)
m_nearest_unsent_d = new_nearest_unsent_d;
}
