ilikecats/stk-code_catmod
1
1
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity
acdba401a9
stk-code_catmod/src/states_screens/race_gui.cpp
Alayan-stk-2 c72cf74138 Fixes server_only build issue (#3199)
2018-04-16 20:16:51 -04:00

960 lines
35 KiB
C++
Raw Blame History

//
// SuperTuxKart - a fun racing game with go-kart
// Copyright (C) 2004-2015 Steve Baker <sjbaker1@airmail.net>
// Copyright (C) 2006-2015 Joerg Henrichs, SuperTuxKart-Team, Steve Baker
//
// This program is free software; you can redistribute it and/or
// modify it under the terms of the GNU General Public License
// as published by the Free Software Foundation; either version 3
// of the License, or (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program; if not, write to the Free Software
// Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
#include "states_screens/race_gui.hpp"
using namespace irr;
#include <algorithm>
#include "challenges/unlock_manager.hpp"
#include "config/user_config.hpp"
#include "graphics/camera.hpp"
#include "graphics/2dutils.hpp"
#ifndef SERVER_ONLY
#include "graphics/glwrap.hpp"
#endif
#include "graphics/irr_driver.hpp"
#include "graphics/material.hpp"
#include "graphics/material_manager.hpp"
#include "guiengine/engine.hpp"
#include "guiengine/modaldialog.hpp"
#include "guiengine/scalable_font.hpp"
#include "io/file_manager.hpp"
#include "items/attachment.hpp"
#include "items/attachment_manager.hpp"
#include "items/powerup_manager.hpp"
#include "karts/abstract_kart.hpp"
#include "karts/controller/controller.hpp"
#include "karts/controller/spare_tire_ai.hpp"
#include "karts/kart_properties.hpp"
#include "karts/kart_properties_manager.hpp"
#include "modes/follow_the_leader.hpp"
#include "modes/linear_world.hpp"
#include "modes/world.hpp"
#include "modes/soccer_world.hpp"
#include "race/race_manager.hpp"
#include "states_screens/race_gui_multitouch.hpp"
#include "tracks/track.hpp"
#include "tracks/track_object_manager.hpp"
#include "utils/constants.hpp"
#include "utils/string_utils.hpp"
#include "utils/translation.hpp"
/** The constructor is called before anything is attached to the scene node.
* So rendering to a texture can be done here. But world is not yet fully
* created, so only the race manager can be accessed safely.
*/
RaceGUI::RaceGUI()
{
m_enabled = true;
if (UserConfigParams::m_artist_debug_mode && UserConfigParams::m_hide_gui)
m_enabled = false;
// Determine maximum length of the rank/lap text, in order to
// align those texts properly on the right side of the viewport.
gui::ScalableFont* font = GUIEngine::getHighresDigitFont();
core::dimension2du area = font->getDimension(L"99:99:99");
m_timer_width = area.Width;
m_font_height = area.Height;
if (race_manager->getMinorMode()==RaceManager::MINOR_MODE_FOLLOW_LEADER ||
race_manager->getMinorMode()==RaceManager::MINOR_MODE_3_STRIKES ||
race_manager->getNumLaps() > 9)
m_lap_width = font->getDimension(L"99/99").Width;
else
m_lap_width = font->getDimension(L"9/9").Width;
// Originally m_map_height was 100, and we take 480 as minimum res
float scaling = irr_driver->getFrameSize().Height / 480.0f;
const float map_size = 100.0f;
const float top_margin = 3.5f * m_font_height;
if (UserConfigParams::m_multitouch_enabled &&
UserConfigParams::m_multitouch_mode != 0 &&
race_manager->getNumLocalPlayers() == 1)
{
m_multitouch_gui = new RaceGUIMultitouch(this);
}
// Check if we have enough space for minimap when touch steering is enabled
if (m_multitouch_gui != NULL)
{
const float map_bottom = (float)(m_multitouch_gui->getMinimapBottom());
if ((map_size + 20.0f) * scaling > map_bottom - top_margin)
{
scaling = (map_bottom - top_margin) / (map_size + 20.0f);
}
}
// Marker texture has to be power-of-two for (old) OpenGL compliance
//m_marker_rendered_size = 2 << ((int) ceil(1.0 + log(32.0 * scaling)));
m_minimap_ai_size = (int)( 14.0f * scaling);
m_minimap_player_size = (int)( 16.0f * scaling);
m_map_width = (int)(map_size * scaling);
m_map_height = (int)(map_size * scaling);
m_map_left = (int)( 10.0f * scaling);
m_map_bottom = (int)( 10.0f * scaling);
// Minimap is also rendered bigger via OpenGL, so find power-of-two again
const int map_texture = 2 << ((int) ceil(1.0 + log(128.0 * scaling)));
m_map_rendered_width = map_texture;
m_map_rendered_height = map_texture;
// special case : when 3 players play, use available 4th space for such things
if (race_manager->getIfEmptyScreenSpaceExists())
{
m_map_left = irr_driver->getActualScreenSize().Width - m_map_width;
}
else if (m_multitouch_gui != NULL)
{
m_map_left = (int)((irr_driver->getActualScreenSize().Width -
m_map_width) * 0.95f);
m_map_bottom = (int)(irr_driver->getActualScreenSize().Height -
top_margin - m_map_height);
}
m_is_tutorial = (race_manager->getTrackName() == "tutorial");
// Load speedmeter texture before rendering the first frame
m_speed_meter_icon = material_manager->getMaterial("speedback.png");
m_speed_meter_icon->getTexture(false,false);
m_speed_bar_icon = material_manager->getMaterial("speedfore.png");
m_speed_bar_icon->getTexture(false,false);
//createMarkerTexture();
} // RaceGUI
//-----------------------------------------------------------------------------
RaceGUI::~RaceGUI()
{
delete m_multitouch_gui;
} // ~Racegui
//-----------------------------------------------------------------------------
void RaceGUI::init()
{
RaceGUIBase::init();
// Technically we only need getNumLocalPlayers, but using the
// global kart id to find the data for a specific kart.
int n = race_manager->getNumberOfKarts();
m_animation_states.resize(n);
m_rank_animation_duration.resize(n);
m_last_ranks.resize(n);
} // init
//-----------------------------------------------------------------------------
/** Reset the gui before a race. It initialised all rank animation related
* values back to the default.
*/
void RaceGUI::reset()
{
RaceGUIBase::reset();
for(unsigned int i=0; i<race_manager->getNumberOfKarts(); i++)
{
m_animation_states[i] = AS_NONE;
m_last_ranks[i] = i+1;
}
} // reset
//-----------------------------------------------------------------------------
/** Render all global parts of the race gui, i.e. things that are only
* displayed once even in splitscreen.
* \param dt Timestep sized.
*/
void RaceGUI::renderGlobal(float dt)
{
#ifndef SERVER_ONLY
RaceGUIBase::renderGlobal(dt);
cleanupMessages(dt);
// Special case : when 3 players play, use 4th window to display such
// stuff (but we must clear it)
if (race_manager->getIfEmptyScreenSpaceExists() &&
!GUIEngine::ModalDialog::isADialogActive())
{
static video::SColor black = video::SColor(255,0,0,0);
GL32_draw2DRectangle(black, irr_driver->getSplitscreenWindow(
race_manager->getNumLocalPlayers()));
}
World *world = World::getWorld();
assert(world != NULL);
if(world->getPhase() >= WorldStatus::READY_PHASE &&
world->getPhase() <= WorldStatus::GO_PHASE )
{
drawGlobalReadySetGo();
}
if(world->getPhase() == World::GOAL_PHASE)
drawGlobalGoal();
// Timer etc. are not displayed unless the game is actually started.
if(!world->isRacePhase()) return;
if (!m_enabled) return;
if (!m_is_tutorial)
{
//stop displaying timer as soon as race is over
if (world->getPhase()<WorldStatus::DELAY_FINISH_PHASE)
drawGlobalTimer();
if(world->getPhase() == WorldStatus::GO_PHASE ||
world->getPhase() == WorldStatus::MUSIC_PHASE)
{
drawGlobalMusicDescription();
}
}
drawGlobalMiniMap();
if (!m_is_tutorial) drawGlobalPlayerIcons(m_map_height);
if(Track::getCurrentTrack()->isSoccer()) drawScores();
#endif
} // renderGlobal
//-----------------------------------------------------------------------------
/** Render the details for a single player, i.e. speed, energy,
* collectibles, ...
* \param kart Pointer to the kart for which to render the view.
*/
void RaceGUI::renderPlayerView(const Camera *camera, float dt)
{
if (!m_enabled) return;
RaceGUIBase::renderPlayerView(camera, dt);
const core::recti &viewport = camera->getViewport();
core::vector2df scaling = camera->getScaling();
const AbstractKart *kart = camera->getKart();
if(!kart) return;
drawPlungerInFace(camera, dt);
if (viewport.getWidth() != irr_driver->getActualScreenSize().Width)
{
scaling *= float(viewport.getWidth()) / float(irr_driver->getActualScreenSize().Width); // scale race GUI along screen size
}
else
{
scaling *= float(viewport.getWidth()) / 800.0f; // scale race GUI along screen size
}
drawAllMessages(kart, viewport, scaling);
if(!World::getWorld()->isRacePhase()) return;
if (m_multitouch_gui == NULL)
{
drawPowerupIcons(kart, viewport, scaling);
drawSpeedEnergyRank(kart, viewport, scaling, dt);
}
if (!m_is_tutorial)
drawLap(kart, viewport, scaling);
} // renderPlayerView
//-----------------------------------------------------------------------------
/** Shows the current soccer result.
*/
void RaceGUI::drawScores()
{
#ifndef SERVER_ONLY
SoccerWorld* sw = dynamic_cast<SoccerWorld*>(World::getWorld());
int offset_y = 5;
int offset_x = 5;
gui::ScalableFont* font = GUIEngine::getTitleFont();
static video::SColor color = video::SColor(255,255,255,255);
//Draw two teams score
irr::video::ITexture *red_team = irr_driver->getTexture(FileManager::GUI,
"soccer_ball_red.png");
irr::video::ITexture *blue_team = irr_driver->getTexture(FileManager::GUI,
"soccer_ball_blue.png");
irr::video::ITexture *team_icon = red_team;
for(unsigned int i=0; i<2; i++)
{
core::recti position(offset_x, offset_y,
offset_x + 2*m_minimap_player_size, offset_y + 2*m_minimap_player_size);
core::stringw score = StringUtils::toWString(sw->getScore((SoccerTeam)i));
int string_height =
GUIEngine::getFont()->getDimension(score.c_str()).Height;
core::recti pos(position.UpperLeftCorner.X + 5,
position.LowerRightCorner.Y + offset_y,
position.LowerRightCorner.X,
position.LowerRightCorner.Y + string_height);
font->draw(score.c_str(),pos,color);
if (i == 1)
{
team_icon = blue_team;
}
core::rect<s32> indicator_pos(offset_x, offset_y,
offset_x + (int)(m_minimap_player_size*2),
offset_y + (int)(m_minimap_player_size*2));
core::rect<s32> source_rect(core::position2d<s32>(0,0),
team_icon->getSize());
draw2DImage(team_icon,indicator_pos,source_rect,
NULL,NULL,true);
offset_x += position.LowerRightCorner.X + 30;
}
#endif
} // drawScores
//-----------------------------------------------------------------------------
/** Displays the racing time on the screen.s
*/
void RaceGUI::drawGlobalTimer()
{
assert(World::getWorld() != NULL);
if (!World::getWorld()->shouldDrawTimer())
{
return;
}
core::stringw sw;
video::SColor time_color = video::SColor(255, 255, 255, 255);
int dist_from_right = 10 + m_timer_width;
bool use_digit_font = true;
float elapsed_time = World::getWorld()->getTime();
if (!race_manager->hasTimeTarget() || race_manager
->getMinorMode()==RaceManager::MINOR_MODE_SOCCER)
{
sw = core::stringw (
StringUtils::timeToString(elapsed_time).c_str() );
}
else
{
float time_target = race_manager->getTimeTarget();
if (elapsed_time < time_target)
{
sw = core::stringw (
StringUtils::timeToString(time_target - elapsed_time).c_str());
}
else
{
sw = _("Challenge Failed");
int string_width =
GUIEngine::getFont()->getDimension(_("Challenge Failed")).Width;
dist_from_right = 10 + string_width;
time_color = video::SColor(255,255,0,0);
use_digit_font = false;
}
}
core::rect<s32> pos(irr_driver->getActualScreenSize().Width - dist_from_right, 30,
irr_driver->getActualScreenSize().Width , 50);
// special case : when 3 players play, use available 4th space for such things
if (race_manager->getIfEmptyScreenSpaceExists())
{
pos -= core::vector2d<s32>(0, pos.LowerRightCorner.Y / 2);
pos += core::vector2d<s32>(0, irr_driver->getActualScreenSize().Height - irr_driver->getSplitscreenWindow(0).getHeight());
}
gui::ScalableFont* font = (use_digit_font ? GUIEngine::getHighresDigitFont() : GUIEngine::getFont());
if (use_digit_font)
font->setShadow(video::SColor(255, 128, 0, 0));
font->setScale(1.0f);
font->draw(sw.c_str(), pos, time_color, false, false, NULL,
true /* ignore RTL */);
} // drawGlobalTimer
//-----------------------------------------------------------------------------
/** Draws the mini map and the position of all karts on it.
*/
void RaceGUI::drawGlobalMiniMap()
{
#ifndef SERVER_ONLY
// draw a map when arena has a navigation mesh.
Track *track = Track::getCurrentTrack();
if ( (track->isArena() || track->isSoccer()) && !(track->hasNavMesh()) )
return;
int upper_y = irr_driver->getActualScreenSize().Height - m_map_bottom - m_map_height;
int lower_y = irr_driver->getActualScreenSize().Height - m_map_bottom;
core::rect<s32> dest(m_map_left, upper_y,
m_map_left + m_map_width, lower_y);
track->drawMiniMap(dest);
World *world = World::getWorld();
for(unsigned int i=0; i<world->getNumKarts(); i++)
{
const AbstractKart *kart = world->getKart(i);
const SpareTireAI* sta =
dynamic_cast<const SpareTireAI*>(kart->getController());
// don't draw eliminated kart
if(kart->isEliminated() && !(sta && sta->isMoving())) continue;
const Vec3& xyz = kart->getXYZ();
Vec3 draw_at;
track->mapPoint2MiniMap(xyz, &draw_at);
video::ITexture* icon = sta ?
irr_driver->getTexture(FileManager::GUI, "heart.png") :
kart->getKartProperties()->getMinimapIcon();
if (icon == NULL)
{
continue;
}
// int marker_height = m_marker->getSize().Height;
core::rect<s32> source(core::position2di(0, 0), icon->getSize());
int marker_half_size = (kart->getController()->isLocalPlayerController()
? m_minimap_player_size
: m_minimap_ai_size )>>1;
core::rect<s32> position(m_map_left+(int)(draw_at.getX()-marker_half_size),
lower_y -(int)(draw_at.getY()+marker_half_size),
m_map_left+(int)(draw_at.getX()+marker_half_size),
lower_y -(int)(draw_at.getY()-marker_half_size));
draw2DImage(icon, position, source, NULL, NULL, true);
} // for i<getNumKarts
SoccerWorld *sw = dynamic_cast<SoccerWorld*>(World::getWorld());
if (sw)
{
Vec3 draw_at;
track->mapPoint2MiniMap(sw->getBallPosition(), &draw_at);
video::ITexture* icon =
irr_driver->getTexture(FileManager::GUI, "soccer_ball_normal.png");
core::rect<s32> source(core::position2di(0, 0), icon->getSize());
core::rect<s32> position(m_map_left+(int)(draw_at.getX()-(m_minimap_player_size/2.5f)),
lower_y -(int)(draw_at.getY()+(m_minimap_player_size/2.5f)),
m_map_left+(int)(draw_at.getX()+(m_minimap_player_size/2.5f)),
lower_y -(int)(draw_at.getY()-(m_minimap_player_size/2.5f)));
draw2DImage(icon, position, source, NULL, NULL, true);
}
#endif
} // drawGlobalMiniMap
//-----------------------------------------------------------------------------
/** Energy meter that gets filled with nitro. This function is called from
* drawSpeedEnergyRank, which defines the correct position of the energy
* meter.
* \param x X position of the meter.
* \param y Y position of the meter.
* \param kart Kart to display the data for.
* \param scaling Scaling applied (in case of split screen)
*/
void RaceGUI::drawEnergyMeter(int x, int y, const AbstractKart *kart,
const core::recti &viewport,
const core::vector2df &scaling)
{
#ifndef SERVER_ONLY
float min_ratio = std::min(scaling.X, scaling.Y);
const int GAUGEWIDTH = 94;//same inner radius as the inner speedometer circle
int gauge_width = (int)(GAUGEWIDTH*min_ratio);
int gauge_height = (int)(GAUGEWIDTH*min_ratio);
float state = (float)(kart->getEnergy())
/ kart->getKartProperties()->getNitroMax();
if (state < 0.0f) state = 0.0f;
else if (state > 1.0f) state = 1.0f;
core::vector2df offset;
offset.X = (float)(x-gauge_width) - 9.5f*scaling.X;
offset.Y = (float)y-11.5f*scaling.Y;
// Background
draw2DImage(m_gauge_empty, core::rect<s32>((int)offset.X,
(int)offset.Y-gauge_height,
(int)offset.X + gauge_width,
(int)offset.Y) /* dest rect */,
core::rect<s32>(core::position2d<s32>(0,0),
m_gauge_empty->getSize()) /* source rect */,
NULL /* clip rect */, NULL /* colors */,
true /* alpha */);
// The positions for A to G are defined here.
// They are calculated from gauge_full.png
// They are further than the nitrometer farther position because
// the lines between them would otherwise cut through the outside circle.
const int vertices_count = 9;
core::vector2df position[vertices_count];
position[0].X = 0.324f;//A
position[0].Y = 0.35f;//A
position[1].X = 0.01f;//B1 (margin for gauge goal)
position[1].Y = 0.88f;//B1
position[2].X = 0.029f;//B2
position[2].Y = 0.918f;//B2
position[3].X = 0.307f;//C
position[3].Y = 0.99f;//C
position[4].X = 0.589f;//D
position[4].Y = 0.932f;//D
position[5].X = 0.818f;//E
position[5].Y = 0.755f;//E
position[6].X = 0.945f;//F
position[6].Y = 0.497f;//F
position[7].X = 0.948f;//G1
position[7].Y = 0.211f;//G1
position[8].X = 0.94f;//G2 (margin for gauge goal)
position[8].Y = 0.17f;//G2
// The states at which different polygons must be used.
float threshold[vertices_count-2];
threshold[0] = 0.0001f; //for gauge drawing
threshold[1] = 0.2f;
threshold[2] = 0.4f;
threshold[3] = 0.6f;
threshold[4] = 0.8f;
threshold[5] = 0.9999f;
threshold[6] = 1.0f;
// Filling (current state)
if (state > 0.0f)
{
video::S3DVertex vertices[vertices_count];
//3D effect : wait for the full border to appear before drawing
for (int i=0;i<5;i++)
{
if ((state-0.2f*i < 0.006f && state-0.2f*i >= 0.0f) || (0.2f*i-state < 0.003f && 0.2f*i-state >= 0.0f) )
{
state = 0.2f*i-0.003f;
break;
}
}
unsigned int count = computeVerticesForMeter(position, threshold, vertices, vertices_count,
state, gauge_width, gauge_height, offset);
if(kart->getControls().getNitro() || kart->isOnMinNitroTime())
drawMeterTexture(m_gauge_full_bright, vertices, count);
else
drawMeterTexture(m_gauge_full, vertices, count);
}
// Target
if (race_manager->getCoinTarget() > 0)
{
float coin_target = (float)race_manager->getCoinTarget()
/ kart->getKartProperties()->getNitroMax();
video::S3DVertex vertices[vertices_count];
unsigned int count = computeVerticesForMeter(position, threshold, vertices, vertices_count,
coin_target, gauge_width, gauge_height, offset);
drawMeterTexture(m_gauge_goal, vertices, count);
}
#endif
} // drawEnergyMeter
//-----------------------------------------------------------------------------
/** Draws the rank of a player.
* \param kart The kart of the player.
* \param offset Offset of top left corner for this display (for splitscreen).
* \param min_ratio Scaling of the screen (for splitscreen).
* \param meter_width Width of the meter (inside which the rank is shown).
* \param meter_height Height of the meter (inside which the rank is shown).
* \param dt Time step size.
*/
void RaceGUI::drawRank(const AbstractKart *kart,
const core::vector2df &offset,
float min_ratio, int meter_width,
int meter_height, float dt)
{
// Draw rank
WorldWithRank *world = dynamic_cast<WorldWithRank*>(World::getWorld());
if (!world || !world->displayRank())
return;
int id = kart->getWorldKartId();
if (m_animation_states[id] == AS_NONE)
{
if (m_last_ranks[id] != kart->getPosition())
{
m_rank_animation_duration[id] = 0.0f;
m_animation_states[id] = AS_SMALLER;
}
}
else
{
m_rank_animation_duration[id] += dt;
}
float scale = 1.0f;
int rank = kart->getPosition();
const float DURATION = 0.4f;
const float MIN_SHRINK = 0.3f;
if (m_animation_states[id] == AS_SMALLER)
{
scale = 1.0f - m_rank_animation_duration[id]/ DURATION;
rank = m_last_ranks[id];
if (scale < MIN_SHRINK)
{
m_animation_states[id] = AS_BIGGER;
m_rank_animation_duration[id] = 0.0f;
// Store the new rank
m_last_ranks[id] = kart->getPosition();
scale = MIN_SHRINK;
}
}
else if (m_animation_states[id] == AS_BIGGER)
{
scale = m_rank_animation_duration[id] / DURATION + MIN_SHRINK;
rank = m_last_ranks[id];
if (scale > 1.0f)
{
m_animation_states[id] = AS_NONE;
scale = 1.0f;
}
}
else
{
m_last_ranks[id] = kart->getPosition();
}
gui::ScalableFont* font = GUIEngine::getHighresDigitFont();
font->setScale(min_ratio * scale);
font->setShadow(video::SColor(255, 128, 0, 0));
std::ostringstream oss;
oss << rank; // the current font has no . :( << ".";
core::recti pos;
pos.LowerRightCorner = core::vector2di(int(offset.X + 0.64f*meter_width),
int(offset.Y - 0.49f*meter_height));
pos.UpperLeftCorner = core::vector2di(int(offset.X + 0.64f*meter_width),
int(offset.Y - 0.49f*meter_height));
static video::SColor color = video::SColor(255, 255, 255, 255);
font->draw(oss.str().c_str(), pos, color, true, true);
font->setScale(1.0f);
} // drawRank
//-----------------------------------------------------------------------------
/** Draws the speedometer, the display of available nitro, and
* the rank of the kart (inside the speedometer).
* \param kart The kart for which to show the data.
* \param viewport The viewport to use.
* \param scaling Which scaling to apply to the speedometer.
* \param dt Time step size.
*/
void RaceGUI::drawSpeedEnergyRank(const AbstractKart* kart,
const core::recti &viewport,
const core::vector2df &scaling,
float dt)
{
#ifndef SERVER_ONLY
float min_ratio = std::min(scaling.X, scaling.Y);
const int SPEEDWIDTH = 128;
int meter_width = (int)(SPEEDWIDTH*min_ratio);
int meter_height = (int)(SPEEDWIDTH*min_ratio);
drawEnergyMeter(viewport.LowerRightCorner.X ,
(int)(viewport.LowerRightCorner.Y),
kart, viewport, scaling);
// First draw the meter (i.e. the background )
// -------------------------------------------------------------------------
core::vector2df offset;
offset.X = (float)(viewport.LowerRightCorner.X-meter_width) - 24.0f*scaling.X;
offset.Y = viewport.LowerRightCorner.Y-10.0f*scaling.Y;
const core::rect<s32> meter_pos((int)offset.X,
(int)(offset.Y-meter_height),
(int)(offset.X+meter_width),
(int)offset.Y);
video::ITexture *meter_texture = m_speed_meter_icon->getTexture();
const core::rect<s32> meter_texture_coords(core::position2d<s32>(0,0),
meter_texture->getSize());
draw2DImage(meter_texture, meter_pos, meter_texture_coords, NULL,
NULL, true);
// TODO: temporary workaround, shouldn't have to use
// draw2DVertexPrimitiveList to render a simple rectangle
const float speed = kart->getSpeed();
drawRank(kart, offset, min_ratio, meter_width, meter_height, dt);
if(speed <=0) return; // Nothing to do if speed is negative.
// Draw the actual speed bar (if the speed is >0)
// ----------------------------------------------
float speed_ratio = speed/40.0f; //max displayed speed of 40
if(speed_ratio>1) speed_ratio = 1;
// see computeVerticesForMeter for the detail of the drawing
// If increasing this, update drawMeterTexture
const int vertices_count = 12;
video::S3DVertex vertices[vertices_count];
// The positions for A to J2 are defined here.
// They are calculated from speedometer.png
// A is the center of the speedometer's circle
// B2, C, D, E, F, G, H, I and J1 are points on the line
// from A to their respective 1/8th threshold division
// B2 is 36,9° clockwise from the vertical (on bottom-left)
// J1 s 70,7° clockwise from the vertical (on upper-right)
// B1 and J2 are used for correct display of the 3D effect
// They are 1,13* further than the speedometer farther position because
// the lines between them would otherwise cut through the outside circle.
core::vector2df position[vertices_count];
position[0].X = 0.546f;//A
position[0].Y = 0.566f;//A
position[1].X = 0.216f;//B1
position[1].Y = 1.036f;//B1
position[2].X = 0.201f;//B2
position[2].Y = 1.023f;//B2
position[3].X = 0.036f;//C
position[3].Y = 0.831f;//C
position[4].X = -0.029f;//D
position[4].Y = 0.589f;//D
position[5].X = 0.018f;//E
position[5].Y = 0.337f;//E
position[6].X = 0.169f;//F
position[6].Y = 0.134f;//F
position[7].X = 0.391f;//G
position[7].Y = 0.014f;//G
position[8].X = 0.642f;//H
position[8].Y = 0.0f;//H
position[9].X = 0.878f;//I
position[9].Y = 0.098f;//I
position[10].X = 1.046f;//J1
position[10].Y = 0.285f;//J1
position[11].X = 1.052f;//J2
position[11].Y = 0.297f;//J2
// The speed ratios at which different triangles must be used.
float threshold[vertices_count-2];
threshold[0] = 0.00001f;//for the 3D margin
threshold[1] = 0.125f;
threshold[2] = 0.25f;
threshold[3] = 0.375f;
threshold[4] = 0.50f;
threshold[5] = 0.625f;
threshold[6] = 0.750f;
threshold[7] = 0.875f;
threshold[8] = 0.99999f;//for the 3D margin
threshold[9] = 1.0f;
//3D effect : wait for the full border to appear before drawing
for (int i=0;i<8;i++)
{
if ((speed_ratio-0.125f*i < 0.00625f && speed_ratio-0.125f*i >= 0.0f) || (0.125f*i-speed_ratio < 0.0045f && 0.125f*i-speed_ratio >= 0.0f) )
{
speed_ratio = 0.125f*i-0.0045f;
break;
}
}
unsigned int count = computeVerticesForMeter(position, threshold, vertices, vertices_count,
speed_ratio, meter_width, meter_height, offset);
drawMeterTexture(m_speed_bar_icon->getTexture(), vertices, count);
#endif
} // drawSpeedEnergyRank
void RaceGUI::drawMeterTexture(video::ITexture *meter_texture, video::S3DVertex vertices[], unsigned int count)
{
#ifndef SERVER_ONLY
//Should be greater or equal than the greatest vertices_count used by the meter functions
short int index[12];
for(unsigned int i=0; i<count; i++)
{
index[i]=i;
vertices[i].Color = video::SColor(255, 255, 255, 255);
}
video::SMaterial m;
m.setTexture(0, meter_texture);
m.MaterialType = video::EMT_TRANSPARENT_ALPHA_CHANNEL;
irr_driver->getVideoDriver()->setMaterial(m);
glEnable(GL_BLEND);
glBlendFunc(GL_ONE, GL_ONE_MINUS_SRC_ALPHA);
draw2DVertexPrimitiveList(m.getTexture(0), vertices, count,
index, count-2, video::EVT_STANDARD, scene::EPT_TRIANGLE_FAN);
glDisable(GL_BLEND);
#endif
} // drawMeterTexture
//-----------------------------------------------------------------------------
/** This function computes a polygon used for drawing the measure for a meter (speedometer, etc.)
* The variable measured by the meter is compared to the thresholds, and is then used to
* compute a point between the two points associated with the lower and upper threshold
* Then, a polygon is calculated linking all the previous points and the variable point
* which link back to the first point. This polygon is used for drawing.
*
* Consider the following example :
*
* A E
* -|
* x
* |
* -D-|
* -w-|
* |-C--|
* -B--v-|
*
* If the measure is inferior to the first threshold, the function will create a triangle ABv
* with the position of v varying proportionally on a line between B and C ;
* at B with 0 and at C when it reaches the first threshold.
* If the measure is between the first and second thresholds, the function will create a quad ABCw,
* with w varying in the same way than v.
* If the measure exceds the higher threshold, the function will return the poly ABCDE.
*
* \param position The relative positions of the vertices.
* \param threshold The thresholds at which the variable point switch from a segment to the next.
* The size of this array should be smaller by two than the position array.
* The last threshold determines the measure over which the meter is full
* \param vertices Where the results of the computation are put, for use by the calling function.
* \param vertices_count The maximum number of vertices to use. Should be superior or equal to the
* size of the arrays.
* \param measure The value of the variable measured by the meter.
* \param gauge_width The width of the meter
* \param gauge_height The height of the meter
* \param offset The offset to position the meter
*/
unsigned int RaceGUI::computeVerticesForMeter(core::vector2df position[], float threshold[], video::S3DVertex vertices[], unsigned int vertices_count,
float measure, int gauge_width, int gauge_height, core::vector2df offset)
{
//Nothing to draw ; we need at least three points to draw a triangle
if (vertices_count <= 2 || measure < 0)
{
return 0;
}
unsigned int count=2;
float f = 1.0f;
for (unsigned int i=2 ; i < vertices_count ; i++)
{
count++;
//Stop when we have found between which thresholds the measure is
if (measure < threshold[i-2])
{
if (i-2 == 0)
{
f = measure/threshold[i-2];
}
else
{
f = (measure - threshold[i-3])/(threshold[i-2]-threshold[i-3]);
}
break;
}
}
for (unsigned int i=0 ; i < count ; i++)
{
//if the measure don't fall in this segment, use the next predefined point
if (i<count-1 || (count == vertices_count && f == 1.0f))
{
vertices[i].TCoords = core::vector2df(position[i].X, position[i].Y);
vertices[i].Pos = core::vector3df(offset.X+position[i].X*gauge_width,
offset.Y-(1-position[i].Y)*gauge_height, 0);
}
//if the measure fall in this segment, compute the variable position
else
{
//f : the proportion of the next point. 1-f : the proportion of the previous point
vertices[i].TCoords = core::vector2df(position[i].X*(f)+position[i-1].X*(1.0f-f),
position[i].Y*(f)+position[i-1].Y*(1.0f-f));
vertices[i].Pos = core::vector3df(offset.X+ ((position[i].X*(f)+position[i-1].X*(1.0f-f))*gauge_width),
offset.Y-(((1-position[i].Y)*(f)+(1-position[i-1].Y)*(1.0f-f))*gauge_height),0);
}
}
//the count is used in the drawing functions
return count;
} //computeVerticesForMeter
//-----------------------------------------------------------------------------
/** Displays the rank and the lap of the kart.
* \param info Info object c
*/
void RaceGUI::drawLap(const AbstractKart* kart,
const core::recti &viewport,
const core::vector2df &scaling)
{
// Don't display laps or ranks if the kart has already finished the race.
if (kart->hasFinishedRace()) return;
World *world = World::getWorld();
if (!world->raceHasLaps()) return;
const int lap = world->getKartLaps(kart->getWorldKartId());
// don't display 'lap 0/..' at the start of a race
if (lap < 0 ) return;
core::recti pos;
pos.UpperLeftCorner.Y = viewport.UpperLeftCorner.Y + m_font_height;
// If the time display in the top right is in this viewport,
// move the lap/rank display down a little bit so that it is
// displayed under the time.
if (viewport.UpperLeftCorner.Y == 0 &&
viewport.LowerRightCorner.X == (int)(irr_driver->getActualScreenSize().Width) &&
!race_manager->getIfEmptyScreenSpaceExists())
{
pos.UpperLeftCorner.Y += m_font_height;
}
pos.LowerRightCorner.Y = viewport.LowerRightCorner.Y+20;
pos.UpperLeftCorner.X = viewport.LowerRightCorner.X
- m_lap_width - 10;
pos.LowerRightCorner.X = viewport.LowerRightCorner.X;
static video::SColor color = video::SColor(255, 255, 255, 255);
std::ostringstream out;
out << lap + 1 << "/" << race_manager->getNumLaps();
gui::ScalableFont* font = GUIEngine::getHighresDigitFont();
font->setScale(scaling.Y < 1.0f ? 0.5f: 1.0f);
font->draw(out.str().c_str(), pos, color);
font->setScale(1.0f);
} // drawLap
Reference in New Issue View Git Blame Copy Permalink